Download WinVenus Manual (Ver. 3.0) - (E)...
WinVenus OPERATION MANUAL (Ver. 3.0)
1
ANDO KIKO
BANDO KIKO
2
NOTICES: BANDO KIKO owns this software and manual, and all copyrights pertaining thereto. Duplicating, editing and reprinting of the part
or
all
of
this
software
and
manual
are
strictly
prohibited. This Th is
soft softwa ware re
and and
manu manual al
are are
the the
subj subjec ects ts
to
be
chan change ged d
without notice. If there are any questions about this software or manual, get in touch in BANDO KIKO. TEL: +81-88-664-5280 FAX: +81-88-664-5282 E-mail:
[email protected]
SOFTWARE LICENSE: To use this software, software, the the protect protect dongle dongle is necess necessary. ary.
The
software product license is assigned to the software by each, so please keep and treat the dongle without fail, and do not alter or analyse the software to prevent the cause of trouble. The custom customer er
can use this this
softwa software re
only only
for one
comput computer. er.
Except Exc ept for the purpose purpose of backup backup, , to copy this this softwa software re is prohibited. To transfer, transfer, or to loan this software to any 3rd parties parties are prohibited prohi bited. . BANDO KIKO does not bear any responsibi responsibilitie lities s for the results, in which the customer used this software.
NOTES FOR USE While the computer is accessing a floppy disk, the access lamp of the the
driv drive e ligh lights ts up. up. In this this cond condit itio ion, n, it is stro strong ngly ly
reques req uested ted not to pull pull out a floppy floppy disk from the drive. drive. (It causes cause s a disk disk and and the drive drive damagi damaging.) ng.)
Switch Switch the comput computer er
power off after ending ending the MS-Windows. MS-Windows. (Click [Shut down…] on the
[Start]
menu,
which
is
in
the
lower
left
of
the
desktop.),then the main power of the PC should be shut down. As for the operation of the NC processing machine, follow its operation manual.
MS-DOS MSDOS
and
Mic Micros rosoft oft
Win Window dows s
are
regist registere ered d
tradem trademark arks s
of
Micros Microsoft oft
ANDO KIKO Corporation in the USA and other countries. Intel Pentium is the registered trademark of Intel Corporation, USA. IBM is the registered trademark of IBM Corporation, USA.
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CONTENTS SOFTWARE LICENSE:...........................................- 2 To use this this
soft softwa ware re, ,
the the
prot protec ect t
dong dongle le is nece necess ssar ary. y.
The The
software softw are product license is assigned assigned to the software by each, so please keep and treat the dongle without fail, and do not alter or analyse the software to p prevent revent the cause of trouble... trouble.. . . .- 2 NOTES FOR USE...............................................- 2 CONTENTS ....................................................- 3 ....................................................-
1.BEGINNING.......................................................1 1.1. SYSTEM SYSTEM REQUIREMEN REQUIREMENTS..... TS................ ...................... ........................1 .............1 1.2.INSTALLATION................................................1 1.3
Both Both regis registra tratio tion n and and confi confirma rmatio tion n of necess necessary ary driver driver. . . . . .2
1.3.1.Installation of device driver.........................2 1.4.
FOLDERS...................................................4
1.5. 1.6.
START-UP..................................................4 QUIT......................................................4
2 WINDOW OF WinV..................................................5 3.3.SHAPE COMPLETION............................................9 3.4.NC-PROGRAM GENERATION......................................10 3.5.PROGRAM REGISTRATION.......................................10 3.6.TEST RUN...................................................10 4. REFERENCED FUNCTIONS..........................................11 4.1. SUMMARY...................................................11
4.2. “File” Menu...........................................12 4.2.1.“New Ctrl+N”.........................................12 4.2.3.“Close”..............................................14 4.2.4.“Save Ctrl+S”........................................14 4.2.5.“Save as…”...........................................15 4.2.6.“Print… Ctrl+P”......................................15 4.2.7.“Print Preview”......................................17 4.2.8.“Print Setup…”.......................................18 4.2.9."Property"...........................................18 4.2.10.“Exit”..............................................43 4.3.
“Edit” MENU............................. MENU................ .......................... ................43 ...43
4.3.1.“Undo”...............................................43 4.3.2.“Redo”...............................................43
ANDO KIKO 4.3.3.“Edit layer”.........................................44 4.4.“View” MENU................................................45
4.4.1.“Standard view”......................................45 4.4.2.“Partial zoom up”....................................45 4.4.4.“Drawing information”................................46 4.4.5. “Zoom view up”......................................47 4.4.6. “Zoom view down”....................................47 4.4.7. “Show grid”.........................................47 4.4.8. “View mode of points”...............................47 4.4.9. “Confirm smoothness”................................47 4.4.10.“View mode of suckers”..............................47 4.4.11.“View mode of Glassbreak figures”...................47 4.4.12.“Show order links”..................................47 4.4.13.“Show supporters”...................................47 4.4.14.“Show breaking field”...............................47 4.4.15.“Vacuum Cup (2)”....................................47 4.4.16.“Drilling data”.....................................48 4.4.17.“Maintenance 2 ”....................................48 4.5.
“Tool bar(B)” MENU............................ MENU............... .................. .......... .....48 48
4.6. “Cad edit”................................................53
4.6.1.GENERAL..............................................53 4.6.2. “Figure-editing (drawing)”..........................55 4.6.3.“Figure-editing (path)”..............................64 4.6.4.“Figure-editing (point)”.............................71 4.6.5.“Figure-editing (patterns)”..........................73 4.6.7.“Material-editing”...................................87 4.6.8.“Sucker-editing”.....................................89 4.6.9.“Glassbreak-editing”.................................92 4.6.10.“Drill-editing”.....................................98 4.6.10.「DRILLING」...... ....................... ...................................102 ..................102 4.7. “Tool” MENU..............................................105
4.7.1.“Machine information”...............................105 4.7.2.“Digitizer”.........................................107 4.7.3.“Input outline points”..............................112 4.7.4.“Export irregular patterns”.........................113 4.7.5.“DXF File Convert”..................................113 4.7.6.“Setup”.............................................114
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4.8. “NC program” MENU........................................119
4.8.1.“Generate”..........................................119 4.8.2.“Simulate”..........................................119 4.8.3.“Inversion”.........................................121 4.8.4.“Send”..............................................121 4.8.5.“Receive”...........................................123 4.9.
“Click mode” MENU............................. MENU................. .................. .......... ....124 124
4.9.1.“Figure point mode”.................................124 4.9.2.“Cross point mode”..................................124 4.9.3.“Grid mode”.........................................124 4.10
“Window” MENU............................. MENU................. ...................... .............. ....124 124
4.10.1.“Cascade Windows”..................................125 4.10.2.“Tile Windows (HORZ)”..............................125 4.10.3.“Tile Windows (VERT)”..............................125 4.10.4.“EDITORIAL WINDOWS”................................125 4.11 “Help” MENU............................. MENU................ ........................ ............... ....125 125 4.11.1.“About WinV”...........................................125 4.12.
“Deletion”.............................................126
4.13.
“OTHERS”...............................................126
4.13.1.“Turn to the first”....................................126 5.
“Display”.............................................127
5.1.
“Information Display”....................... Display”.................. ........... .......... ....127 127
5.2
“Information Tool-bar”.............................128 Tool-bar”.......................... ...128
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1.BEGINNING The Th e
Win Win
Venu Venus s
for for
MS-W MS-Win indo dows ws
(her (herea eaft fter er, ,
WinV WinV), ),
CAD/ CAD/CA CAM M
softwa sof tware re that that suppli supplies es variou various s parame parameter ters s to work work freely freely on the processing processing drawi drawing ng by mouse-use, creates APT program program to operate NC processing machine.
1.1
SYSTEM REQUIREMENTS
HARDWARE
IBM PC/AT compatible personal computer(PC), which has a usable CD
Dri Driver ver
and
USB USB
por port,
and
sho should uld
be
ava availab ilable le
to
use use
following OS properly.
OS
Microsoft MS-Windows 2000/XP ∗CD driver is indispensable to install the WinVenus ∗USB port is indispensable to use protect dongle. (Using the
USB-Hub is not available.)
1.2.INSTALLATION i.
WinV inV se set tup-C up-CD D sh shou ould ld be be put put into into the the CD CD driv driver er of of your your PC.
ii. ii .
Clic Click k [ [St Star art] t] menu menu on the the t tas askk-ba bar. r.
iii. iii .
Click Click [Run(R) [Run(R)…] …] menu and type type ‘E: ‘E:\jW \jWinV inV800 800\SE \SETUP TUP.EX .EXE’ E’ in the th e
open openin ing g
dial dialog og
box. box.
(In (In
case case
of
vers versio ion n
800, 800,
configuration of the folder may be altered). Here, the drive letter ‘E’ occasionally occasionally depends on your hardware configuration. If the CD drive is assigned with diff di ffer eren ent t
lett letter er, ,
addr addres ess s
prop proper erly ly
inst instea ead d
of
‘E’. ‘E’.
(Right (Righ t click “My Computer” Computer” opens pop up menu and click [Explore (X)]. This shows available CD drives on your system so that you can see the drive letter of your CD drives.) iv. iv .
For For the the aski asking ng whi which ch app appea ears rs d dur urin ing g th the e setu setup, p, c cli lick ck t the he [Next] button to proceed.
v.
After fter t the he set setu up prog progra ram m is fini finis shed, hed, c con onf firm irm we weh hter ter th the e fold fo lder er of “jWi “jWinV nV%% %%“ “ (%%% (%%% is the the vers versio ion n numb number er )
is
newly added to the “Program Files” folder by means of
ANDO KIKO Exproler.
1.2
Both
registration
and
confirmation
of
necessary
driver The protector protector (=protecti (=protection on dongle) is necessary necessary to use the WinV Wi nVen enus us. .
The The
norm normal al opera operati tion on is
not not
exec execut uted ed witho without ut
correctly inserting the protection dongle into the USB port. On
the
other other
side, side,
the
instal installat lation ion
of
device device–dr –drive iver r
is
necessary to use the protector. ∗USB protector is usable after the version of WinVenus 7.42.
1.3.1.Installation 1.3.1.Installa tion of device driver 1 Insert the protector to the USB port. 2 “ The wizard of New hardware detection ” will be activated upon upo n Window Windows s detect detect it as unknow unknown n device device. . Then, Then, select select “Installing is done from the list or specified location”, and click the button of “Next”. 3 Specify
the folder which has setup information(INF), and carry out the registration. (The setup information file is existed in the following folder.) c:\ProgramFiles\jWinV800\USB(in c:\ProgramFiles\jWinV 800\USB(in case of Version 8.00). * If caution is displayed at this time, select the [Continue] or [Execute], and go on the installation continuously and finish it. 4
Conf Co nfir irm m
that that
[USB [USB
Key] Key]-[ -[Pa Pand ndor ora a
Key] Key]
is
norm normal ally ly
displayed and activated displayed activated on the DEVICE-MANAGER DEVICE-MANAGER. . (Device (Device Mana Ma nage ger r sele select ct [Sys [Syste tem] m], , and and open open the the [Pro [Prope pert rty y of syst sy stem em], ], and and sele select ct and displ isplay ay [Hard Hardwa ware re]]-[D [Dev evic ice e manager] in the control panel.)
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1.3.2.Uninstall
1. Open the device manager while the protection dongle is attached to the PC.
2. To delet delete e from from the the devi device ce-t -tre ree e is co comp mple lete ted d afte after r selecting [USB Key]-[Pandora Key], and click the [Delete] button.
1.3.3.Attach and Detach the Protector(=Protection dongle) After the registration of the driver, every time when the protector is inserted into the USB port, it is automat auto matica ically lly detect detected. ed. Howeve However, r, If it is ins insert erted ed int into o dif di fferent USB-port which is not same as initially regi re gist ster ered ed and and not not norm normal ally ly dete detect cted ed, , To re re-s -set etup up is necessary. In case of detaching the protector from the PC, firstly stop the device with the correct manner. ( In case of XP : Doubleclick cli ck the icon of [Safety [Safety detachme detachment nt of hardwa hardware] re] on the right of task-bar, and let the window appear. Herewith select [Pandora Key],and push the [Stop] button and stop it, after that, pull the protector from the USB port.
ANDO KIKO
*
Forc Forcib ible le
Atta Attach chin ing/ g/de deta tach chin ing g
and and
rough rough
hand handli ling ng
of
the the
protector will be caused of trouble. * The example operation is expressed by the Windows XP. It is not same depend on the OS and the version of driver.
1.4.
FOLDERS Following chart express the standard configuration under the WinVenus.
(C:)
Program Files
WinV%%%
Executable and work files
vdat
Data files that WinV creates
Mpar
Setting files for each machine by
WinV adat ad at
Expo Export rted ed
data data
file files s
for for
the the
WinAce USB
Driver-fil Driver-files es
for
protection protection
dongle
(%%% is Version Number)
In case case of string string manipu manipulat lation ion with with
the nestin nesting g softwa software re
‘WinAce’, The data file should be exported. By the parameter setting of WinVenus, the saving location of data-files can be changed.
1.5.
START-UP i. Conne onnect ct
the the
canc cancel ell latio ation n
devi device ce
(I.e (I.e. .
‘Pro ‘Prote tect ctio ion n
dongle’) at the USB port of your PC in beforehand. The WinV
fails
ca can
not
be
ac activated
wi without
th the
protector(= protection dongle). ii. Double-cli Double-click ck the icon of “WinV%%%”(%%% “WinV%%%”(%%% means the version
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number) that is appeared on the desktop.
1.6.
QUIT Click the [X] button placed on the upper right of the WinV window, or [Exit] of [File] menu, so that is can be quit. At that time, NC-program is generated and saved when “execute“ is chosen at the [File]-[Property]-[NC-program generation] * Improper manner of the quit like as abnormal saving induce
any trouble.
2 WINDOW OF WinV
Menu
Tool bar
Edit window
(Open file)
Task bar
Status Under Exec Operation
Rubber line distance Location of mouse point
ANDO KIKO
MENU
All function of WinV is hierarchically stored.
TOOL BAR
They are individual individual containers containers that include include every function function of the menu command, command, and clicking clicking an icon on these tool bars can quickly quick ly change the opera operation tion command. command. Dragging Dragging a tool bar can deta de tach ch it from from the the
WinV WinV wind window ow and and
it is move moved d
to anot anothe her r
positions on the window.
EDITORIAL DATA AREA
The CAD-data which open the file is edited.
STATUS BAR While any editorial operation operation is possible, possible, “Ready” is shown on this position. It is impossible to do any operation by the other display under the editorial window.
RUBBER LINE DISTANCE
The distance like as point movement etc. is displayed on the way of operating by mouse.
LOCATION OF MOUSE POINTER
The location location of mouse mouse pointe pointer r is displa displayed yed at
the editor editorial ial
window.
OPERATION UNDER EXECUTING
Edit mode by means of mouse is displayed at the editorial window
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∙3.
NC-PROGRAM (= GLASS PROFILE SOFT ) GENERATING CHARGT NEW FILE
Digitizer Input
Profile points list
[4.7.2] Open File
[4.2.1]
DXF convert
[4.7.3]
[4.7.5] [4.6.2]~ [4.6.2] ~[4.6.6]
Shaping
[4.2.2] Suction cup editing [4.6.8] 研磨吸盤 レイヤ Encode
[4.8.1]~ [4.8.1] ~[4.8.2]
Save
[4.2.4]~ [4.2.4] ~[4.2.5]
Venus Layer
BMP、 VC5、 (BMP 、VC5 、NCP ファイル)
Low glass data
[4.6.7]
Cut/Break-out
[4.6.9]
Encode Save
Low Glass Layer
Break-out Layer
[4.8.1]~ [4.8.1] ~[4.8.2] BMP、 、VC5 VC5、 、 [4.2.4]~ [4.2.4] ~[4.2.5](BMP NCP、BNP ファイル) NCP、
ANDO KIKO Deletion
[4.12] [4.6.2]~ [4.6.2]~[4.6.6]
Encode
[4.8.1]~ [4.8.1]~[4.8.2]
Save
[4.2.4]~ [4.2.4] ~[4.2.5]
Deletion Layer
(BMP、VC5、NCP、BNP CFP、 CFP 、CBP ファイル)
Drilling
[4.6.10]
Encode
[4.8.1]~ [4.8.1] ~[4.8.2]
Save
[4.2.4]~ [4.2.4] ~[4.2.5]
Drilling Layer
BMP、 VC5、 NCP、 BNP、 (BMP 、VC5 、NCP 、BNP 、 CFP、 CFP 、CBP CBP、 、D1P D1P、 、D2P D2P、 、D3P ファイル)
End/Save
[1.6] (BMP BMP、 、VC5 VC5、 、NCP NCP、 、BNP BNP、 、 CFP、 CFP 、CBP CBP、 、D1P D1P、 、D2P D2P、 、D3P ファイル)
Notice:[4.2.2]etc. these numbers are item numbers for your reference. (Supplementation) Multiple Multi ple homonymous homonymous files which have not same extensions extensions are generated when naming and saving the current work. The file of extension BMP is used for the preview of [Open… Ctrl+O] dialog box of [File(F)] menu. Also, it preserves the CAD data of the WinV exclusive usage in the file of extension VC5, NC-program for fo r
the the
shape hape
pro roce cess ssin ing g
in
NCP NCP
and
NC
progr rogram am
for for
the
breakout equipment in BNP. Also, Also, NC-program for the deletion device (Front/Back) is saved in CFP/CBP independently, and NC program
for
the
drilling
device
(1/2/3)
is
saved
into
D1P/D2P/D3P independently.
· 3.1.FILE OPEN When opening a file with [New Ctrl+N] or [Open… Ctrl+O] menu, the editorial window will be opened. When Wh en open openin ing g a fi file le by the the [N [New ew], ], alwa always ys [Fil [File e → pr prop oper erty ty] ] dialog that is the same with [Property] of [File] menu opens. Here, the machine property on this dialog must be set to open a new file. Further, for newly created file, the default file name is as ‘NEW_X’ (X=0,1,2…), so execute [Save as…] to rename the file properly.
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In case of selecting the file (.vc5) by the [New Ctrl+N], the data
saved
by
WinVenus
is
opened,
and
selecting
the
file(.ncp), the NC-program will be inversed[4.8.3] and will be opened.
· 3.2.SHAPE IMPORT In case of the new file, the editorial window is empty first. Generally, Gener ally, it takes proper point data to define a perip peripheral heral shape by means of ‘Digitizer ‘Digitizer input’ input’ or ‘Outline’s ‘Outline’s points data list’. lis t’.
This This data shoul should d be express expressed ed the featu feature re of shaped shaped
Finally ly generated generated NC-program NC-program should be approximat approximated ed profile. Final profile. in the coordinati coordination on of both arc and straight straight line, so keepi keeping ng suff su ffic icie ient nt import imp ortant ant
dens densit ity y to
get get
of
poin points ts
high
for for
preci precisio sion. n.
smal small l
curv curvat atur ure e
Howeve However, r,
is
increa increasin sing g
very very the
density densi ty of points points induce induce the incorrect incorrect shape shape or distort distortion ion when apply when apply “Smoot “Smoothin hing” g” functi function, on, in case case that that compar comparati ativel vely y big errors are including in the point’s data.
In case that the existing existing CAD data with a functi function on of “ DXF file output “, it is possible to import the point data by the order of “TOOL”-“DXF”-“DXF load” from the DXF file. Howeve How ever, r, it is differ different ent depend depend on the CAD-so CAD-softw ftware are in the details, WinV does not support this command for all DXF files. In case that NC program (text file) for the shape has already been existed in advance, it can be imported by the command of [NC] → [NC-Program inverse] menu, it is possible to generate both bo th
arc arc
and and
st stra raig ight ht
line line
seg segment ments s
from from
the the
file file, ,
and
generates editable shape.
3.3.SHAPE COMPLETION (Supplementation) After editing the profiled shape, it is recommended to execute ‘smoothening’ function for the shape.
ANDO KIKO “STA “S TART RT
POIN POINT” T”
defi defini niti tion on
is
the the
oper operat atio ion, n,
whic which h
must must
completed compl eted before before generating generating NC-pro NC-program gram for for all machin machines. es.
be It
sets set s “START “START-PO -POINT INT- attrib attributi ution” on” as the end point. point. Under Under the actu ac tual al
oper operat atio ion n
of
the the
mach machin ine, e,
when when the the
tool tool
is
firs firstl tly y
arrived to this point on the shaped profile, it is regarded as the first movement to a definite point on the shape.
As for the opened opened path(*), a start-poin start-point t of the path must be defined as “START POINT”. (It is not possible to define as the end point.) (* Path : this route is kept by the direction to trace the shape, and also it means same as the profiled shape.) For those those machin machines, es, which which need need the moveme movement nt for approa approachi ching ng /leaving to /from a work piece by means of tool,such as edging machines, machin es, “ENTRY “ENTRY POINT” POINT” and “LEAVE “LEAVE POINT” POINT” must must be define defined. d. (Even (Ev en NC-pro NC-progra gram m can be genera generated ted withou without t these these points points, , but becaus bec ause e it induce induces s improp improper er moveme movement nt of the tool, so these these points always must be defined.)
3.4.NC-PROGRAM GENERATION Firstly, execute 「 NC-Program 」 → 「 Generate 」 . Secondly, execute 「NC-program」→「Simulate」, and then, simulate the movement on the
PC. Herewith, especially need to take care for the direction of
the the
tool. tool.
forw fo rwar arde ded d
If
into into
proh pr ohib ibit ited ed
to
the the
abno abnorm rmal al
move moveme ment nt
work work-p -pie iece ce
oper operat ate e
the the
too too
like like
much much, ,
mach machin ine e
as it
the the is
prac practi tica call lly y
tool tool
is
abso absolu lute tely ly in
case case
of
grinding machine.
3.5.PROGRAM REGISTRATION
NC program can be regis registered tered on each NC independ independently ently by means of
proper
connecting
of
RS232C
cable
with
「
NC-
program 」 → 「 Send 」 → 「 * * * 」 ( * * * means Glass Processing Equipment). In case case of no
conn connec ecti tion on by the the
10
cabl cable, e, the the
NC-P NC-PRO ROGR GRAM AM
is
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registered from the PCMCIA CARD SLOT of the NC by means of both this memory card and adaptor after copying the generated program file to the memory card(= Compact Flush ). (Supplementation) Refer to the operation operation manual of NC for the actual actual operation of NC.
3.6.TEST RUN By sett settin ing g the the feed feed rate rate so as the the mach machin ine e can can be stop stoppe ped d immediatel immed iately, y, test run (without loading loading work pieces) pieces) of the NC program must be done. If any malfunction of the machine is not obviou obv iously sly admitted admitted in the movement movement, , It is allowe allowed d to try to increa inc rease se the feed feed rate rate gradua gradually lly up to the normal normal operat operation ion speed. Here, actually actually attem attempt pt to process process a work-piece work-piece, , and confirm the finished precision degree. (NOTE) Refer to the machine manual for the operations and processing.
4. REFERENCED FUNCTIONS 4.1. SUMMARY
Drop-down menu is opened when click the menu item by means of mouse pointer.
Menu is closed by the[ESC]key.
DROP-DOWN MENU
ANDO KIKO
FIG. 4. 4. REFERENCED FUNCTIONS -1 -1
Menu u Men
items items with with
(
)
on the right contain contain hierar hierarchi chical cal
menu.
A tick-mark(✔) means chosen item and also activated item.
EXTENSION 拡張メニ MENU ュー
FIG. 4. 4. REFERENCED FUNCTIONS -1 -1 2 2
Indication item as [Ctrl+_]( _ means some letters can be available to use the Short-cut-key.
Under scored letters like as (F) can be available to use the Short-cut-key of [Alt+].
4.2. “File” Menu
Operation on the files are carried out in here.
FIG. 4. REFERENCED FUNCTIONS -2 -2
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4.2.1.“New Ctrl+N” A new file WinV(.vc5) is opened. When Wh en
exec execut utin ing g
this this
comm comman and, d,
foll follow owin ing g
‘Fil ‘File e
pr prop oper erty ty’ ’
dialog is displayed. Herewith, the attribution of the file is defined.
MACHINE LIST
ANDO KIKO
Comment
For the purpos purpose e of easy easy discri discrimin minati ation on from from the others others when when opening openi ng a file, the letter line can be set up. (Abbreviat (Abbreviation ion is available.)
Material size (= Size of raw glass-pane )
It show shows s the the raw raw glas glass s size size whic which h is set set on the the
‘mat ‘mater eria ial l
layer’.
Machine
Mach Ma chin ine e
name name shou should ld be sele select cted ed from from the the
name name list list of the the
machine under the controlled by NC-program.( The name list box of machine is displayed with click a button of ▼ at the right end.)
Empty Emp ty CAD editor editorial ial screen screen is indica indicated ted upon upon clicki clicking ng after after settin set ting g the machine machine name name with with the OK button button which the color color turns from weaker to black. (Supplementation) The fun functi ction/ on/mov moveme ement nt on the Win WinVen Venus us and also also
some some
settin setting g
for NCNC-pro progra gram m gen genera eratin ting g are sto stored red in the “Machi “Machine ne name ”
selected by[Machine name]. The
standard
setting
for
“
Machine
name
“
of
Each
machine/equipment are installed. And Installing new additional name or editing is also available. The WinVenus can be used for the other machine after changing the parameter by switching “Machine-name”.
NC-program auto-generation
When this is set as “enable”, WinV automatically generates NCprograms(*.NCP and *.BNP files) from the CAD-Data when saving the file, and each NC-program file is also saved. In case of changing WinV parameters, click Process Parameters button.(Refer to sec. [4.2.9].) Refer to sec. [4.2.9] for details of ‘process parameters’.
14
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When closing a file without without saving saving operation operation (“Save” or “Save as…” as… ” comman command), d), all of editin editing, g, which which have have been been done done on the file are lost.
ANDO KIKO
4.2.2.“Open… Ctrl+O” The saved file is opened. Clic Cl ick k
a
desi desire red d
file file on the the
list list of dial dialog og, ,
then then clic click k
[Open] button. (This operation follows the standard of MSWindows.) In
addi additi tion on, ,
the the
dial dialog og
cont contai ains ns
a
prev previe iew w
ar area ea, ,
wh whic ich h
shows outline of the shape, a ‘raw glass size’ information, which is set on the ‘material ‘material layer’, layer’, and ‘comment’, ‘comment’, which is decided on the ‘File property’ dialog.
4.2.3.“Close” Selected file is closed. The Th e
me mess ssag age e
for
the
conf confi irmat rmatio ion n
of
savi saving ng
data ata
indicated if the data have any alteration.
4.2.4.“Save Ctrl+S” It overwrites the opened file under the present data.
16
is
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4.2.5.“Save as…” Chosen CAD-Data is saved with specifying the file name.
4.2.6.“Print… Ctrl+P” Open the ‘Print Dialog Box ’to print the data sheet(s). A drawing of chosen layer at present is printed.
It begins to print the following data sheet(s) upon clicking OK button after the necessary setting for the “Print”
ANDO KIKO
●
As an example for the print :
The contents contents of printe printed d drawin drawing g is change changed d depend depend on the chosen layer. FILE NAME
SHAPE INFO.
GLASS-BREAK INFO.
IMAGE VIEW
18
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4.2.7.“Print Preview” It displays the print-out image of the data sheet. Show pages
2 Zoom the sheet(s)
Move between pages Open Print dialog
Close preview window
Number of Page page(s) FIG. 4. REFERENCED FUNCTIONS -3 -3
ANDO KIKO
4.2.8.“Print Setup…” choose cho ose and set the printi printing ng device devices. s. The operat operation ion manual manual and an d
the the
“Hel “Help” p”
of
Wind Window ows s
for for
thes these e
devi device ces s
shou should ld
be
referenced on their details.
4.2.9."Property" (CAUTION) The process parameters have important effect to generate the th e
NC-p NC-pro rogr gram am
by
WinV WinV. .
Norm Normal ally ly, ,
th ther ere e
is
no
need need
to
change it. However, Howev er, the machine machine operated operated by impro improper per NC-progra NC-program m may caus ca use e
to any any
brok broken en or trou troubl bles es, ,
so it sh shou ould ld be us used ed
carefully.
It opens opens ‘File ‘File proper property’ ty’ dialog dialog to change change the property property of activated activ ated file. (Default values decided by the machine type are set when new file is created.) See also sec. [4.2.1].
20
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Basis Some of basic settings are carried out by Venus-Layer.
“Macro Table”
It defines the name of a macro table file, which is referred by WinV WinV to genera generate te the NC-program NC-program. .
The extensi extension on of this this
kind of file is ‘.def’. (Supplementation) NC Macro Table File is stored in “System Path“. If specified file is not existed in here, NC program is not be generated. The System path is the folder which set in the system of
[Tool]-[User setting]-[Path]. (
Nor Normal mally, ly, the
folder folder
is“c::\Pro is“c::\Program gram
Files\jWin Files\jWinV800” V800”(in (in
case of Version 800).
“Program No.”
It deci decide des s the the prog progra ram m numb number er (= 4 digi digits ts inte intege ger) r) for for a generated NC-program.
ANDO KIKO
“Radius limit(mm)”
It sets the boundar boundary y radius radius to be regarded regarded the arc as the straig str aight ht line. line.
I.e. I.e. WinV recog recogniz nizes es the segmen segments ts having having
radius which larger than this boundary radius is regarded as a straight lines.
“Maximum “Feed-Rate(mm/min)”
It limits the highest processing speed of NC-programs.
“Maximum spin (deg./min)”
It sets the clamp value value under the small arc with allowable allowable Z-axis speed.
“Feed-rate factor”
“Std.(= Standard) ” ” : It sets the coefficient of the speed calculation, which is base ba sed d
on
arc arc
radi radius us. .
In Incr crea easi sing ng
this this
valu value e
also also
beco become mes s
increasing incre asing the speed on the arc segment segment even with the same radius. “Ext .(= .(= Extension) ”: ”: Except Excep t for the special special control, this value always should be set as ‘0(zero)’.
“High-speed capacity (mm)”
It sets the shortest distance to accelerate axes’ feeding up to
the the
maxi maximu mum m
sp spee eed. d.
Even Even
if
the the
inte interp rpol olat atio ion n
of
the the
prog pr ogra ram m bl bloc ock k is stra straig ight ht or arc arc with with very very larg large e ra radi dius us, , which is not longe longer r than this distance, distance, the feed-rate feed-rate value follows that of the continuing corner.
“Approach/Departure (0:linear, 1:circular)”
It chooses the cours course e of both approaching approaching and leaving leaving when the tool begins/finishe begins/finishes s straight is selected.).
22
processing processing the
work. (Generally, (Generally,
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“Feed-rate suppress (%)”
When Whe n
the speed speed differ differenc ence e betwee between n
contin continuin uing g 2
blocks blocks is
within withi n this rate, the speed of the later block follows follows the previous one.
Generating “NC program” This is the setting only for single head cutting machines. It is prohibited to use the other type of machines. (‘0:disable ’ ’ on the ‘Cutter correct ’ ’ box should be set) !
FIG. 4. REFERENCED FUNCTIONS -4 -4
“Cutter compensation (1:enable, 0:disable)”
When Wh en sett settin ing g
as to
‘1’ ‘1’
in befo before reha hand nd, ,
the the
NC-p NC-pro rogr gram am is
generated under the consideration of off-set error value.
“Cutter eccentricity”
It sets the center-offset value for trailing the cuttingwheel.
“Deviance X”
ANDO KIKO It sets the distance with sign between the rotational center of Z-axis and cutting-point of the tool in X-axis direction.
“Deviance Y”
It sets the distance with sign between the rotational center of Z-axis and cutting-point of the tool in Y-axis direction.
“Convert when export (1:enable, 0:disable)”
When the CAD-Date is transferred to the folder which is the destination of exporting (The initial value is‘c : \Program Files\WinV%%%\adat\’)(%%% Files\WinV%%% \adat\’)(%%% means the Version), it is set also whether converting it for WinAce is executed or not.
“Rotation-angle” The angle(Z-axis) by the Venus Layer (Cutting/Grinding) is set here.
FIG. 4. REFERENCED FUNCTIONS -5 -5
“Normal direction (axis 1,2,3,4)”
Rotating angle for the coordinates of Z-axis is adjusted in every eve ry 90 degree degree when the(+)Y tool starts starts processi processing ng of workworkpiece.
‘3’
‘2’ (+)X ‘4’
WORK
24
TOOL
1
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“Compensation ang.(deg.)”
FIG. 4.
Normally, WinV decides Z-axis coordinate as the tangent of arc radius. This value is added to all Z-axis coordinates of the NC program.
“Min. rotation (deg.)”
It sets the lower angle limitation of Z-axis.
“Max. rotation (deg.)”
It sets the upper angle limitation of Z-axis.
“Options”
Setting and simulating by the Venus Layer
ANDO KIKO
FIG. 4. REFERENCED FUNCTIONS -7 -7
“Feed-rate tolerance (mm/min)”
If the speed difference difference between between the continuous continuous 2 blocks blocks on the corner corner is larger larger than this value, value, the former former block is divided into 2 for deceleration of axes feeding.
“Buffer zone (mm)”
It
sets sets
the the
le leng ngth th
for for
the the
dece decele lera rati tion on
with with
rega regard rd
to
above.
“Boundary Radius G03 (mm)”
For Fo r
cu cutt ttin ing g
swit sw itch chin ing g
the the
ma mach chin ines es, , cutt cuttin ing g
it
sets sets
pres pressu sure re
the the
bo boun unda dary ry
furt furthe her r
more more
radi radius us at
for for
the the
G03 G03
radi radius us
for for
blocks.
“Boundary Radius G02 (mm)”
For Fo r
cu cutt ttin ing g
ma mach chin ines es, ,
it
sets sets
the the
bo boun unda dary ry
switching the cutting pressure further more at G02 blocks.
“Special line No.1”
The Th e sequ sequen ence ce No.1 No.1 whic which h us used ed by the the fu func ncti tion on of “Spe “Speci cial al line Number attribution 1“ is set here. * It is subject to use at the start point for the control of cutting-pressure.
“Special line No.2”
The Th e sequ sequen ence ce No.2 No.2 whic which h us used ed by the the fu func ncti tion on of “Spe “Speci cial al line Number attribution 1“ is set here. * It is subject to use at the end point of the control of cutting-pressure. * To use a series series of function of “Spec “Special ial line attribution attribution numb nu mber er”, ”,
it
is
nece necess ssar ary y
that that
“G03 “G03/G /G02 02
cutt cutter er
border radius ” will be set as 0(zero) in both.
“Dot density” (0:Low, 1:Middle, 2:High)
26
pres pressu sure re
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Dot density (= number of dot) is set when filling up and proceed the dots for the shape.
“Threshold”
The threshold value for the arc is set and regarded as small arc when the dots are filled up.
“Tool radius(mm)”
The tool radius is defined for the simulation of NC-program.
“Simulation type (0:old, 1:new)”
The tool display method is changed on the simulating. 0 : Only present image is displayed and moved. 1 : After-image is also displayed and moved.
“Tool display (0:No off-set,1:FACG)”
Tool To ol
disp displa lay y
posi positi tion on
is
swit switch ched ed
depe depend nd
on
cutt cuttin ing g
or
grinding. 0: It let move to unify the tool center onto the shaped profile-line (for Cutting etc.). 1:
It
let let
move move
to
cont contac act t
the the
tool tool
agai agains nst t
the the
profile-line (for grinding).
“Special” Parameters on this panel are for Bevelling Machines.
shap shaped ed
ANDO KIKO
FIG. 4. REFERENCED FUNCTIONS -8 -8
“Special processing flag”
When
setting
“1”,
the
parameters
on
this
screen
are
effective.
“Constant feed-rate (mm/min)”
It sets the processing speed of the work.
“Overhang (mm)”
It sets sets the positi position on of felt-p felt-push usher’s er’s operat operation ion when when
the
tool approaches/leaves to/from the work.
It
“Escape length x (mm)” set sets
the the
tur turning ning
radi radius us
of
the
tool ool
head ead
in
X-ax X-axis is
of
the
tool ool
head ead
in
Y-ax Y-axis is
direction to avoid a work.
It
“Escape length y (mm)” set sets
the the
tur turning ning
radi radius us
direction to avoid a work.
“Vacuum cups” It is vacuum vacuum cup settin setting g for the automo automotiv tive e
glassglass-edg edging ing
machine. In case that the data for grinding vacuum cup is existed in the grinding layer, it is impossible to alter the setting.
28
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FIG. 4. REFERENCED FUNCTIONS -9 -9
“Radius (mm)”
It sets the radius of circular vacuum pad which suck up the glass pane.
“Safety space (mm)”
To
prev preven ent t
the the
coll collis isio ion n
betw betwee een n
the the
grin grindi ding ng
head head
and and
vacu va cuum um cup, cup, it sets sets over overhu hung ng dist distan ance ce of the the glas glass s ed edge ge from the suction pad edge, it should be secured over than 30mm.
Glass ラ ス
A Buffer space
ANDO KIKO
FIG. 4. REFERENCED FUNCTIONS -10 -10
“Interval(mm) in each cup”
It sets the interval between vacuum cups each other. Suction cups are arranged according to the data made by the function of “Suction cup auto dispositioning”. When set the 0(Zero), suction cups can be arranged onto the grid of the grinding table only.
“Maximum number of cups”
The maximum number of vacuum cup to be used is set here.
Start Macro No ( “NC Macro No.”) It sets the Initial NC macro number which can be registered
in vacuum vacuum cup cup coordin coordinati ation. on.
The numbe number r of vacuum vacuum cup is
registered after this “ Start Macro No.”. Each Ea ch
coor coordi dina nati tion on
of
X-ax X-axis is
and and
Y-Ax Y-Axis is
are are
regi regist ster ered ed
independently, so the twice numbers are required.
Usage count Macro No (“NC Macro No.”)
It sets sets the the NC macro macro numbe number. r.
The The num numbe ber r of vacuu vacuum m cup
arrang arr anged ed on the grindi grinding ng table table is regist registere ered d as the “ NC macro No.”.
Radius of vacuum cup(mm)(Off-set vacuum cup)
It sets the radius(mm) of the top surface of vacuum pad on the off-set type vacuum cup unit.
Arm length(mm)(Off-set vacuum cup)
It set set the the valu value e of dist distan ance ce betw betwee een n the the top top pad pad wher where e contact to glass-pane and the bottom pad where contact to the grindin grinding g table. table.
The value value should should be measur measured ed between between
the center of each.
30
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Maximum number of cup ( Off-set type vacuum cup)
It sets sets the maximum maximum number number of Off-se Off-set t type type vacuum vacuum cup on the grinding table. (If set 0[Zero], it is impossible to arrange it.)
Angle Macro No.( Off-set type vacuum cup)
It is “Sta “Start rt macr macro o
No.” No.” of NC to regi regist ster er the the
angl angle( e(= =
Putting Putti ng direction direction of the Off-set type vacuum vacuum cup) against the grid grid on on the grind grinding ing table. table.
The numb number er of Off-s Off-set et
vacuum cup is registered after this number.(0-360 degree)
Safety space(mm) ( Prohibition Area)
Proh Pr ohib ibit ited ed
area area
for for
disp dispos osit itio ion n
and and
also also
buff buffer er
area area
between vacuum cups are set here. It is impossible to put the vacuum cup in this area.
Start point X/Y (prohibition Area)
It define the angular coordinate (at under-left) for the proh pr ohib ibit ited ed
area area
(w (wi ithin thin
a
tetra etrago gon) n)
for for
vac vacuum uum
cup cup
disposition.
End point X/Y (prohibition Area)
It define another angular coordinate (at upper-right) for the th e
proh prohib ibit ited ed
area area
(wit (withi hin n
a
tetr tetrag agon on) )
of
vacu vacuum um
disposition. (The prohibited area can be defined up to 4 areas.)
Grinding vacuum cup 2 It is no need to use at present.
“Glassbreak” Setting for Break-out station
cup cup
ANDO KIKO
FIG. 4. REFERENCED FUNCTIONS -11 -11
In case case of using using WinV WinV for the breako breakout ut device device, , a checkcheckmark at the “Use mark “Use Glassb Glassbrea reak k functi function” on” is necess necessary ary.(N .(No o check is unavailable to use the Glassbreak Layer.). To open a parameter-setting panel of the glassbreak, click “Glassbreak parameter” button.
“Machine” If there there are any
input input data data
on the Glassbre Glassbreak ak editin editing g
layer, no setting on this panel can be changed. Especially the referenced original-point cannot be deleted upon once input, so it should be careful!
32
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FIG. 4. REFERENCED FUNCTIONS -12 -12
“Machine type”
A type of the breakout device is chosen depend on the type of machine. ‘Stand ‘St andard ard’ ’
has
no
breako breakout ut
suppor support-d t-disk isk
(non (non
satell satellite ite
breakout break out system), system), ‘Templatel ‘Templateless-1 ess-1’ ’ has breakout breakout supportsupportdis di sk
which hich
cont contro roll lled ed
by
NC
like like
MELD MELDAS AS
in
5
axes xes
simultaneously, and ‘Templateless-2’ has breakout supportdisk which controlled by NC like as POWER-MATE in multi axis function.
“Press type”
As for the 3-plun 3-plunger ger models, models, it must must be set as “Multi “Multi”, ”, and an d for for rota rotata tabl ble e 1-pl 1-plun unge ger r mode models ls, , it must must be set set as “Single”.
“Program” ( NC-program generating ) Parameter Param eter to generate generate NC-program NC-program of Glass Break-out Break-out is set here.
FIG. 4. REFERENCED FUNCTIONS -13 -13
ANDO KIKO
It
“NC macro table” sets sets
the the
file file
name name
(‘*. (‘*.de def’ f’) )
to
be
used used
for for
the the
generation of NC-programs for Glassbreak.
“Program No”
Glassbreak program number by 1-4 digit(s) integer is set here.
It
“Type of glass shape” deci decide des s
some some
of
sort sort
name name
for for
glas glasss-sh shap ape e
by
the the
function of “Glassbreak assist”.(Optional item)
“Number of corner” It decides the number of corner on the glass-shape by the
function of “Glassbreak assist”.(Optional item)
“Feed rate (mm/min)”
It sets maximum speed in work processing. It must be coincident with NC parameter setting.
“Front origin (x,y) (mm)”
It sets the referenced referenced original-p original-point oint of X/Y-axis X/Y-axis for the Glassbreak-head in the front half area.
“Back origin (x,y) (mm)”
It sets the referenced referenced original-p original-point oint of X/Y-axis X/Y-axis for the Glassbreak-head in the back half area.
“Front sup. Org. (x,y) (mm)”
It sets the referenced referenced original-po original-point int of X/Y-axis X/Y-axis for the Supp Su ppor ortt-di disk sk
at
the the
fron front t
half half
station.
“Back sup. Org. (x,y) (mm)”
34
area area
in
the the
sate satell llit ite e
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It sets the referenced referenced original-po original-point int of X/Y-axis X/Y-axis for the supp su ppor ortt-di disk sk
at
the the
back back
half half
area area
in
the the
sate satell llit ite e
station.
“Field” It sets movable limitation limitation area of Glassbreak Glassbreak-head -heads s and support- disks units, and the data inputting out of this area ar ea
is
actual
rest restri rict cted ed. . mobile
area.
The The
area area
(The
must must axis
be
invo involv lved ed
reference
in
the the
point
on
programming coordinate system and software stroke limits on both + and – ends, ends, which are stored stored as NC parame parameter ter decide this mechanical movable area.) The area of front-sided break-head movable area is shown in a blue , back-sided break-head movable area is in red, and backstage(=Satellites) movable area is cyan, support disk for side-cut is blue, support disk for press-rod is
ANDO KIKO cyan.
FIG. 4. REFERENCED FUNCTIONS -14 -14
“Front field start pos. (x,y) (mm)”
It
sets sets
the the
coor coordi dina nate tes s
mova mo vabl ble e
area area
of
minimum
allowable
the the
of
the the
lowe lower r
fron frontt-si side ded d
coordinate
of
left left
corn corner er
brea breako kout ut-h -hea ead. d. X
and
Y
on
of
(The (The the
programming coordinates system).
“Front field end pos. (x,y) (mm)”
It sets sets the the
coor coordi dina nate tes s of the the
mova mo vabl ble e
area area
of
max ma ximum imum
allo allowa wabl ble e
the the
uppe upper r righ right t
fron frontt-si side ded d
coo coordin rdina ate
of
corn corner er of
brea breako kout ut-h -hea ead. d. X
on
(The (The
and and
Y
the the
on
the the
prog progra ramm mmin ing g
on
the the
prog progra rammi mming ng
programming coordinates system).
The Th e
“Back field start pos. (x,y) (mm)” mini minimu mum m
allo allowa wabl ble e
coor coordi dina nate tes s
coordinate system are set here.
The Th e
“Back field end pos. (x,y) (mm)” maxi maximu mum m
allo allowa wabl ble e
coor coordi dina nate tes s
coordinate system are set here.
36
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“Back-stage” (Width/2,Height/2,“center-y”,“beam”)
It set the movable area of two units of support-disks at the Satellite station. W/2 means a half of movable length in the X-axix(U-axis) for the support disks at the front/back area, H/2 means a half ha lf
of
mova movabl ble e
leng length th
in
the the
Y-ax Y-axis is(V (V-a -axi xis) s)
for for
the the
support disks at the front/back area. Additionally, beam width and center position of Y-axis (“Center-Y”) is set as anti-collision area between front field and back field internal Back-stage(=Satellite station).
“Process” Various value for ‘Glassbreak’ is set here.
FIG. 4. REFERENCED FUNCTIONS -15 -15
“Cut-line trimming value (mm)”
It sets the intervals where from the shaped score line to raw glass edge, and relief cutting-line for the trimming. TRIMMING VALUE
BASE DRAW (RAW GLASS) BASE DRAW (SHAPING SCORE)
RELIEF CUTTING
ANDO KIKO
FIG. 4. REFERENCED FUNCTIONS -16 -16
“Cut supporter shift value (mm)”
It sets the interval from outer edge of support disk to cutter wheel descending point. SHIFT VALUE
SHAPING SCORE
SUPPORT DISK
RELIEF CUTTING FIG. 4. REFERENCED FUNCTIONS -17 -17
“Press attachment offset (mm)”
It sets an interval from the center line of cutting holder to the press-bar’s end.
38
PRESS OFF-SET
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FIG. 4. REFERENCED FUNCTIONS -18 -18
“Press supporter overhang (mm)”
It sets an over-hung value between the scored-line and the edge of inner support-disk support-disk to obtain obtain effective effective snapping snapping fulcrum. OVERHANG
BASE FIGURE (SHAPE)
PRESS
SUPPOORT DISK DISK
It
Off-set of cutter wheel FIG. 4. REFERENCED FUNCTIONS - 19 sets sets
the the
ecce eccent ntri rici city ty
from from
rota rotati ting ng
cutter-holder and the cutter-wheel-axle.
cent center er
of
the the
ANDO KIKO
Off-set Value
“Hazard size” The hazard area for the movement of Glassbreak heads is set here. The collision is happened when improper data is input.
FIG. 4. REFERENCED FUNCTIONS -20 -20
It
“Head radius (mm)” sets sets
a
maxi maximu mum m
radi radius us
from from
the the
rota rotati tion on
cent center er
of
cutter-holder to the pusher end where contact to the glass surface.
40
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“Detour value (mm)”
It sets the safety margin out of the obstacle area where is set by both width and length of shuttle-hunger arm. On the glassbre glassbreak ak layer, layer, it is displa displayed yed with the Gray Gray frame around around the obstacle obstacle area. This is affected affected to the obstac obs tacle le area area for the beam beam in the back-s back-stag tage(= e(=Sat Satell ellite ite station) as well.
“Hanger width (mm)”
It sets sets the hanger hanger width width of shuttl shuttle e pad for Glassbre Glassbreak ak station.
“Hanger leng. (front, back) (mm)”
It sets hanger hanger prominent prominent length for shuttle pad for Glass break station in each front side and back side.
“Supporter rad.” “(Donut disk’s radius, Center small disk’s radius) (mm)”
It sets the diameter of both outer donut disk (=Up/Down to mak ma ke
a
gap) gap)
and and
snapping fulcrum).
Deletion
the the
inne inner r
small mall
disk disks s
(=It =It
bec becomes omes
ANDO KIKO It set the edge-deleting (=Coating removal) function.
The check-mark to the “Use Deleting function” is necessary when generate the NC-program for the deletion device. ( No check can use the Deletion-Layer.) To
open open
the the
setti etting ng
pan panel
of
the
para parame mete ter r
fo for r
the the
deleting function, the button of Deletion parameter should be clicked.
Deletion for front area It is various setting for the deleting in the front area.
42
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Macro
Table
A subject file name ( File extension is .def) defined to genera gen erate te the NC-pro NC-progra gram m of deleti deleting ng (Front (Front area) area) is set here.
Tool width
The width of tool (= Deletion wheel) is set here.
Tool positioning compensation
Micro-adjustment of the tool in each angle is set here.
Overlap value(Front/Back)
Overlapped value onto the processing line is adjusted by enlarging the start/finish point.
Deletion for back area It is various setting for the deleting in the front area.
Macro
Table
A subject file name ( File extension is .def) defined to genera gen erate te the NC-pro NC-progra gram m of deleti deleting ng (Front (Front area) area) is set
ANDO KIKO here.
Tool width
The width of tool( deletion wheel) is set here.
Tool position compensation
Micro-adjustment of the tool in each angle is set here.
“Drill” General setting for the drilling.
“Drill CAD system”
DRIL CAD SYSTEM should become to “ 0:NO USE,1:USE”. * The DRIL LAYER is not activated when you select 0(zero).
“Prohibited area”
It set the prohibition area for drilling job like on the rotating table etc. In case of Tetragon : Both left under and right upper of the coordination are set independently.
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In case of circular specified for the “X” : 9999 should be specified at the left lower coordination, and a radius should be set for the “Y” coordination. And Center coordinate of the circle should be set for the “X/Y” coordination in the right upper.
NC
Macro table file name (No.1
It set the defined file name (Extension is .def) for using the programming for drilling.
Original referenced point(x, y No.1
Referenced original point is set for the tool.
Processing speed(No.1)
Processing speed is set here.
Hole radius(No.1)
Radius of drilling hole is set here.
Program number(No.1)
The program number of the drilling is set in 1-4 digits of integer.
Initial Macro Number(No.1)
It
is
initial
coordinati coord ination. on.
macro
number
to
set
the
drilling
It is set set the next next number( number(s) s) continuo continuously usly
which equivalent to the number of hole. ~
No.2
If the No.2 Drill-Station is existing, the program is set as same as No.1 Drill-station. ~
No.3
If the No.3 Drill-Station is existing, the program is set as same as No.1 Drill-station.
ANDO KIKO
4.2.10.“Exit” It ends the WinV for Windows NT.
4.3.
“Edit” MENU Switching the edited layer and “Cancellation” of command and “Undo/Redo” are carried out.
FIG. 4. REFERENCED FUNCTIONS -21 -21
4.3.1.“Undo”
It returns to the condition before operations.
4.3.2.“Redo”
It returns to the condition before “Undo” operations. If a chain of editorial operations extends over another layer, following message may be issued in “Undo” or “Redo” operations. To continue operations, follow this message. (The layer, which should be change to, is shown.)
FIG. 4. REFERENCED FUNCTIONS -22 -22 CHECK THIS
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4.3.3.“Edit layer” WinV has 10(ten) editing layers for following data: ‘Drawing’layer,‘Material(Rawglass)’Layer,‘Sucker’Layer,‘Glassbreak’Layer,’Deletion(Fron t)’Layer,’Deletion(back)’Layer,‘Drilling-1’layer,’Drilling2’la 2’ laye yer, r,’D ’Dri rill llin ingg-3’ 3’la laye yer. r.
Edi Editing ting
of
th the e
da data ta
can can
typically be done on the layer, to which the data belongs. These layers can exclusively be selected.
“Venus Layer”
It is chosen when input and edit glass profile
“Raw Glass Layer”
It is selected when input and alter the measurement of raw glass.
“Sucker” Layer
It is selected when edit the arrangement of vacuum cup.
“Glassbreak” Layer
It is selected when edit the data of break-out.
It
“Deletion(Front)” Layer is
selected
when
input
and
edit
the
data
of
and
edit
the
data
of
deletion(Front).
It
“Deletion(Back)” Layer is
selected
when
input
deletion(Back).
“Vacuum cup” Layer
No need to use it at present.
ANDO KIKO
It
“Drilling Layer - 1 ” is
selected
when
input
and
edit
the
data
of
input
and
edit
the
data
of
and
edit
the
data
of
Drill(Pos.1).
It
“Drilling Layer – 2 ” is
selected
when
Drill(Pos.2).
It
“Drilling Layer – 3 ” is
selected
when
input
Drill(Pos.3).
4.4.“View” MENU
Here it makes various control for the descripted item on the
drawing.
FIG. 4. REFERENCED
4.4.1.“Standard 4.4.1.“Standar d view” It shows whole data of the layer in the data window.
4.4.2.“Partial zoom up” The range, which is shown in a red rectangle, is expanded when clicking one corner of the range to want to expand, then moving
48
[テキストを入力 テキストを入力]] 49
a mouse cursor to the opposite corner and clicking it.
∙ 4.4.3.“Over-view” Opening Openi ng an overview overview window and indicates displaying displaying area of the active data window by red rectangle.
OVERVIEW WINDOW
DATA WINDOW
FIG. 4. REFERENCED FUNCTIONS -24 -24
4.4.4.“Drawing information” It shows information about the data on the active layer. DATA INFORMATION
ANDO KIKO
FIG. 4. REFERENCED FUNCTIONS -25 -25
4.4.5. “Zoom view up” It zooms in on the data window where clicked.
4.4.6. “Zoom view down” It zooms out on the data window where clicked.
4.4.7. “Show grid” It shows or hides grid points alternatively.
4.4.8. “View mode of points” It shows or hides drawing points alternatively.
4.4.9. “Confirm smoothness” It shows or hides radiuses of arcs alternatively.
4.4.10.“View mode of suckers” It shows or hides vacuum cup array alternatively except on the sucker layer.
4.4.11.“View mode of Glassbreak figures” It shows or hides breakout figures alternatively except on the glassbreak layer.
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4.4.12.“Show order links” It
shows hows
or
hide hides s
order rder
link links s
of
bre breakou akout t
seque equenc nce e
alternatively.
4.4.13.“Show supporters” It shows or hides breakout disks alternatively.
4.4.14.“Show breaking field” It shows or hides work zones of breakout heads (front and back), and disks in turns.
4.4.15.“Vacuum Cup (2)” It is no need to use at present.
4.4.16.“Drilling 4.4.16.“Drilli ng data” It shows or hides work zones of drilling heads.
4.4.17.“Maintenance 4.4.17.“Mainte nance 2 ” It is provided by Bando specialist.
4.5.
“Tool bar(B)” MENU Subjective Tool bar is selected
FIG. 4. REFERENCED FUNCTIONS -26 -26
It displays the tool bar, and the tool-bar is appeared or disappeared by check-mark. Following icons are included.
ANDO KIKO
“System menu toolbar”
New/Open/Save Undo/Redo/Put drawing back to original/Export /Send NC program/Receive NC program
Print/About
“Layer-change toolbar”
Drawing layer/Material editing layer/Sucker editing layer /Glassbreak editing layer/Drill editing layer
“Searching-setup toolbar”
Cross point mode/Figure point mode/Grid mode
“Display-mode toolbar”
Show Show mode mo de order /Show
grid/V grid/View iew mode mode of points points/Co /Confi nfirm rm smooth smoothnes ness/V s/View iew of suck sucker ers/ s/Vi View ew mode mode of glas glassb sbre reak ak_f _fig igur ures es/S /Sho how w links supporters/Show breaking field
“Information toolbar”
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[テキストを入力 テキストを入力]] 53
Show the point information/Show the figure information /Show /Sh ow the path path inform informati ation/ on/Dra Drawin wing g inform informati ation/ on/Sha Shape pe sync. /Shape Analyzer/Measuring tool
“Display-control toolbar”
Standard view/Partial zoom up/Overview/Zoom view up /Zoom view down
“Figure-edit toolbar (drawing)”
Define one line/Generate a line indirect/Define one arc /Generate an arc indirect/2 point arc
Chain a point to next smooth/Define rapid move /Generate an ambulation line indirect /Undefine the selected Figure/Change figure point
Move the selected point directly /Exchange the selected Figure/Divide the selected Figure /Combine the selected Figure/Elastic figure
“Figure-edit toolbar (path)”
ANDO KIKO
Delete the selected path /Do fillet on the selected vertex /Reflect a path around a point /Reflect a path around a line/Reflect a path around a line /Make a copy of selected path
Move a path Move path to anot anothe her r loca locati tion on/ / Rota Rotate te a path path arou around nd point /Scale a path in specified factor/Add the offset path /Remedy shape/Smoothing
Join path to another/Reverse the order/Discrete path /Change link the selected Figure
“Figure-edit toolbar (point)”
Attribute reset/Start point definition /Entry point definition/Leave point definition /Define rotation-reset point
“Figure-edit toolbar (irregular pattern)”
Make an ellipse/Make a polygon/Make a regular polygon /Make a dome top/Make a rounded triangle
“Figure-edit toolbar (other)”
Expand a path/Mirror image/Develop corner/Move origin /Move origin directly
54
a
[テキストを入力 テキストを入力]] 55
“Material-edit toolbar”
Generate material outline/Input material position /Undefined the selected figure Undefined the selected path/Change figure point / Move a path to another location
“Sucker edit toolbar”
Auto sucker set/Add new sucker/Move a sucker Remove a sucker/Remove all suckers/Show sucker info
“Glassbreak edit toolbar”
Breaking assist/Make a breaking side-cut-line /Define a press point/Define the starting point /Define breaking order/Make a passing point
Move the selected point directly /Move the selected point by MOUSE/Modify the press point /Undefined the selected figure/Undefined the order link /Unlink all orders
ANDO KIKO
“Drilling edit toolbar”
Add a new hole/Make a hole by the coordinate / Undefined the selected figure / Define the process order / Define the starting point / Remove the order link / Move the selected hole by MOUSE / Move the selected hole by coordinate
4.6. “Cad edit”
Various data is made and edited by “CAD edit”.
FIG. 4.
4.6.1.GENERAL
EDITORIAL OPERATIONS
The first editorial operation is to choose a command by the tool bar or the drop-down menu. Secondarily, it chooses an subject operation on the layer by clicking mouse. In this step, the cursor changes from ‘finger’ to ‘?’ and color of the object object is change changed d to red. Becaus Because e a choice choice is not yet determined, in case that more than one operational object is
56
[テキストを入力 テキストを入力]] 57
in the firstly clicked position, right clicking make them switch switc h the subjec subjective tive target target cyclically cyclically. .
then, the choice choice
is finally determined by another clicking.
FIGURE AND PATH
‘Figure’ means straight line and arc, and a ‘path’ means an aggregation of these segments.
MODAL AND ONE-SHOT COMMANDS
Most Mos t of all editoria editorial l comman commands ds are modal and are able to exec ex ecut ute e
rep repeate eatedl dly y
unt until
the the
othe other r
mod modal
comm comman and d
is
selected. Ther Th ere e
is
a
comm comman and d
that that
oneone-sh shot ot
per per
sele select ctio ion n
can can
be
executed.
DIRECTION OF SEGMENT
All segmen segments ts (lines (lines and arcs) arcs) of WinV WinV contai contain n ‘direc ‘directio tion’ n’ attributes attri butes while other familiar CAD software software does not have. When it isn't possible to operate successfully, confirm the direction of both segment or path.
NUMERICALLY DEFINED SEGMENTS
Numerically generated image-shape is opened at the start and end points.(Because no other segment combined into them) To be organized as the shape, it’s necessary to connect them.
MOUSE CLICKING
Regarding the “Search mode” which affect to the selection of points or figures, The page (4.9) of ”Search mode” should be referenced when input and edit the CAD data.
VIEW MODE OF POINTS
This switch must be activated for any editorial operation.
ANDO KIKO
MAIN COLORS
WHITE POINT
Start point of the path
RED POINT
End point of the path
GREEN POINT
Joint of 2 segments (Line & Arc
BLUE POINT
Middle point of an arc
)
(THIS ASSIGNMENT IS ONLY FOR THE DRAWING LAYER.) TAB. 4. REFERENCED FUNCTIONS -1 -1
4.6.2. “Figure-editing (drawing)” On the drawing layer, segments are defined or edited.
“Define one line”
It defines continuing straight lines by mouse clicking. The red straight line, which follows a mouse cursor, appears when clic when clicki king ng the the star start t posi positi tion on of the the segm segmen ent t and and stra st raig ight ht line line is gene genera rate ted d when when clic clicki king ng agai again n the the
one one end end
positi pos ition. on. The 2nd straig straight ht line line that that derive derives s from from the end point of leader leader is generated when clicking the end position of it. To terminate this command, press [ESC] key. As for the colors, the start point of the 1 st segment is expressed in the white, joints of segments are in the green, and the terminal point of the last segment is in the red.
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[テキストを入力 テキストを入力]] 59
FIG. 4. REFERENCED FUNCTIONS -28 -28
“Generate a line indirect”
It defines a straight line by the coordinates. When this command is selected, following numeric entry box is
disp displa laye yed. d.
Ente Enteri ring ng
X-Y X-Y
co coor ordi dina nate tes s
of
star start t
and and
end end
point then click [OK] button generates a straight line.
FIG. 4. REFERENCED FUNCTIONS -29 -29
“Define one arc”
It defines continuing arcs by mouse clicking at the start poin po int, t,
midd middle le
poin point t
and and
end end
poin point. t.
The The
red red
arc, arc,
whic which h
follows follo ws a mouse cursor, cursor, appears appears when clicking clicking the start and the th e
mid mid
posi positi tion on
of
the the
segm segmen ent, t,
and and
a
comp comple lete te
generated gener ated when when clickin clicking g again again the end positi position. on. st
arc arc
is
The endendnd
point of 1 arc becomes the start-point of the 2 arc, so after this, click “the middle-poi middle-point”-“ nt”-“end-p end-point” oint”, , then the 2nd arc
is
comple comp lete ted d
conti continu nuou ousl sly. y.
To
term termin inat ate e
thi this s
command, press [ESC] key before definition of the arc. As for the colors, the start point of the 1 st segment is expressed in the white, mid points of arcs are in the blue, joints of segments are in the green, and the terminal point of the last segment is in the red.
ANDO KIKO
FIG. 4. REFERENCED FUNCTIONS -30 -30
“Generate an arc indirect”
It
defi define nes s
an
arc arc
by
the the
coor coordi dina nate tes s
for for
star start/ t/mi mid/ d/en endd-
points. When this command is selected, following numeric entry box is displayed displayed. .
Enter X-Y coordina coordinates tes of start, start, mid and and end
point then click [OK] button to generate an arc.
“2 points arc”
FIG. 4. REFERENCED FUNCTIONS -31 -31
To click click the start start and end points points opens opens follow following ing numeri numeric c entry box. Set desired radius and direction, then press [OK] button to generate an arc.
FIG. 4. REFERENCED FUNCTIONS -32 -32
“Chain a point to next smooth”
It generates continuous arcs. The 1 st arc connects smoothly
60
[テキストを入力 テキストを入力]] 61
from fro m the end point point of the base segmen segment t (strai (straight ght line or arc). Choose the terminated point of the straight line or the arc, which determines the angle at the start point of 1 st arc. Then click the end point of the 1 st arc to generate the arc. WinV figures out the mid point of the arc. The 2nd arc, which smoothly derives from the end point of the leader lea der, , is genera generated ted when clicki clicking ng the end point point of this this arc. To terminate this command, press [ESC] key.
FIG. 4. REFERENCED FUNCTIONS -33 -33
“Define rapid move” It defi define nes s the the tool tool move moveme ment nt, , whic which h is unre unrela late ted d to the the processing. E.g., to make a sharp corner like as following figu fi gure re, ,
the
cutti utting ng
tool tool
must ust
be
left left
from rom
th the e
glass lass
surfac sur face, e, and enter( enter(=co =conta ntact) ct) to the glass glass surface surfa ce again. again.
This movement movement (linear) (linear) is
determ det ermine ined d by this this comman command. d. Firstl Firstly y start start point poi nt of the moveme movement nt should should be select selected, ed, then, let the mouse move with red straightline,
after
that,
(=stra (=s traigh ight-l t-line ine) )
is
tool
traced
genera generated ted
upon upon
path click click
the termination point of the tool-movement. This termination point will become to the start-point of the
ANDO KIKO next tool-movement, and the 2 nd tool path
will be generated
upon another clicking. The dot line can be connected to the drawing under the [Search mode]-[Figure cross point] To terminate this command, press [ESC] key. Though it is a dot line, Apparently it is a straight line .
“Generate an ambulation line indirect”
This Th is
comm comman and d
also also
defi define nes s
th the e
to tool ol
move moveme ment nt, ,
wh whic ich h
is
unrelated to the processing. When this command is selected, following numeric entry box is displayed. Enter X-Y coordinates of start and end point then click [OK] button to define the movement.
FIG. 4. REFERENCED FUNCTIONS -34 -34
“Delete selected figure” It erases a segment. Selected segment with click is deleted.
“Change figure point”
It transforms selected segment by changing coordinates. When this command is selected, following numeric entry box is displa displayed yed. . Edit Edit X-Y coordina coordinates tes of start, start, mid and end point then click [OK] button to modify the segment.
(FOR LINES)
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FIG. 4. REFERENCED FUNCTIONS -35 -35
(FOR ARCS)
FIG. 4. REFERENCED FUNCTIONS -36 -36
“Correction?” It move the start point point – middle point – terminatio termination n point on the profiled segment. Right after selecting a point where on the profiled segment, a red line will be appeared from this point to the curser’s position, so in the reference of it, let the mouse move to obje ob ject ctiv ive e
po posi siti tion on, ,
af aft ter
destination of the movement.
that that, ,
clic click k
and
defi define ne
the the
Selecting a point
Point moving
ANDO KIKO
“Correction in Normal line”
A Point can be moved in the direction of normal line. When Select a point on the profiled segments, A Red color’s normal nor mal-li -line ne is appear appeared ed from from
this this point point to the object objective ive
point led by mouse, after that, click and define a new point .
“Correction(Tangential direction)”
Let the point move to tangential direction. When select a point of the profile, the red tangential line is appeared toward the mouse pointed position, then let move to
obje object ctiv ive e
posi positi tion on, ,
an and d
click. click.
64
th then en, ,
defi define ne
the the
posi positi tion on
by
[テキストを入力 テキストを入力]] 65
“Line segment Arc”
Convert the arc to two straight line, and two straight lines to arc. And also convert the connected two lines to the arc linked lin ked together together 3
points points which should should be define defined d to make make
this arc.
( Coordinated point is no change )
“Dividing” It divide a profiled segments into two parts. Let Le t
the the
curs curser er
move move
to
the the
di divi vidi ding ng
posi positi tion on
and and
cl clic ick k
there, the profiled segment is divided.
( Divided Mid point is generated on the Mid on arc )
“Unify”
middle of arc. 、真中に生成されます)
Tow lines which are adjacent each other and same direction is unified into one
streight line.
And also two arcs which have same radius and linked smoothly are unified into one arc.
( Mid of unified arc is made on Middle. )
ANDO KIKO
“Homothetic figure”
Expand and contract the figure. Firstly, Select the end-point and input the objective value for expansion/ expansion/contr contractio action, n, and click “OK” button, then the figure will be expanded or contracted. If
Minus
value
is
input,
the
figure
is
contracted
accordingly.
“Horizontal line”
A horizontal horizontal line is gener generated ated at the arbitrary arbitrary posit position ion in parallel against the x-axis.
A red horizontal horizontal line is appeared appeared from the clicked clicked point toward tow ard the positi position on accord according ing to the mouse mouse pointe pointer, r, then then click here again, the line segment is defined.
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[テキストを入力 テキストを入力]] 67
“Vertical line”
A vertic vertical al line line is genera generated ted in parall parallel el agains against t the Yaxis. The red vertical line is appeared from the clicked point toward the pointed position by mouse, and then this segment is defined by click again.
“Parallel line”
A same same length length parallel parallel line is genera generated ted in parall parallel el by means of specifying the off-set value. The line is appeared in opposite direction when input the minus value.
ANDO KIKO
オフセット量
4.6.3.“Figure-editing 4.6.3.“Figureediting (path)” On
the
drawing
layer,
it
edits
‘path’,
which
is
a
combination of segments.
“Delete the selected path”
It erases a selected path. Click a path to select, which is shown in the red, and then click again to erase it.
FIG. 4. REFERENCED FUNCTIONS -37 -37
“Do fillet on the selected vertex”
It inserts an arc with optional optional radius between 2 segments segments to
conn connec ect t
poin po int t
of
them them 2
smoo smooth thly ly. .
segm segmen ents ts, ,
the the
When When
choo choosi sing ng
foll follow owin ing g
the the
nume numeri ric c
conn connec ecti tion on en entr try y
box box
appears. To type the radius value of the insertion arc and click cli ck the [OK] button button creates creates the arc. Depend Depending ing on the
68
[テキストを入力 テキストを入力]] 69
insertion radius or the connecting condition of 2 segments, no arc can be defined.
FIG. 4. REFERENCED FUNCTIONS -38 -38
FIG. 4. REFERENCED FUNCTIONS -39 -39
“Reflect a path around a point”
It conver converts ts the select selected ed path path into into the point point symmet symmetric rical al path of the original. The point of symmetry is the center of the path.
FIG. 4. REFERENCED FUNCTIONS -40 -40
“Reflect a path around a line”
It conver converts ts the select selected ed path path into into the line line
symmet symmetric rical al
path of the original. The line of symmetry is the vertical center of the path.
ANDO KIKO
FIG. 4. REFERENCED FUNCTIONS -41 -41
“Reflect a path around a line”
It conver converts ts the select selected ed path path into into the line line path
of
the
original.
The
line
of
symmet symmetric rical al
symmetry
is
the
horizontal center of the path.
FIG. 4. REFERENCED FUNCTIONS -42 -42
“Make a copy of selected path”
It duplicates the selected path. (Be (B e
care carefu ful l
be beca caus use e
it
is
diff diffic icul ult t
to
reco recogn gniz ize e
the the
operation result.)
“Move a path to another location”
It translates the selected path in parallel. Since Sin ce clicki clicking ng a path path to select select, , follow following ing numeri numeric c entry entry box appears. Set desired distance to move the path in X and Y-axis direction, then click [OK] button.
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[テキストを入力 テキストを入力]] 71
FIG. 4. REFERENCED FUNCTIONS -43 -43
“Rotate a path around a point”
It rotates the selected path. When choosing a path, which is shown in the red, following numeri num eric c entry entry box appear appears. s. Type Type desire desired d angle angle and click click [OK] button to rotate the path. The direction of rotation is counterclockwise at positive valu va lues es and and the the cent center er of rota rotati tion on is the the cent center er of the the path.
FIG. 4. REFERENCED FUNCTIONS -44 -44
FIG. 4. REFERENCED
“Scale a path in specified factor”
It reduces or expan expands ds the selected selected path in the magnificat magnification ion of 0.0009 to 1.9999.
ANDO KIKO The following numeric entry box appears when choosing a path. It types a magnification and clicks [OK] button.
FIG. 4. REFERENCED FUNCTIONS -46 -46
“Add the offset path”
It adds the offset path of selected path. When clicking a path to select select, , follow following ing numeri numeric c entry entry box opens to specif specify y an offs of fset et
valu value. e.
Sett Settin ing g
the the
valu value e
and and
clic clicki king ng
[OK] [OK]
butt button on
creates the path. Too small negative value cannot process the command.
FIG. 4. REFERENCED FUNCTIONS -47 -47
FIG. 4. REFERENCED
“Remedy shape”
It offsets the optional part of the path. When choosing the begi be ginn nnin ing g
and and
the the
en endi ding ng
segm segmen ent t
for for
th this is
proc proces essi sing ng, ,
the the
72
[テキストを入力 テキストを入力]] 73
target portion is displayed in the red and following numeric entry box appears. As mentioned in the “ADD THE OFFSET PATH”, when whe n
an arc of
small small radius radius is
contai contained ned in
the editoria editorial l
portion, there is a limit in the negative offset value. (Too small negative value cannot process this command.)
FIG. 4. REFERENCED FUNCTIONS -49 -49
FIG. 4. REFERENCED FUNCTIONS -50 -50
“Remedy shape – The 2nd”
It offsets the optional part of the path by another solution. Dialog Dia log-bo -box x is displa displayed yed in as much much as above above “Remed “Remedy y shape” shape”. . The off-set should be moved gently in the middle part, and the both end part should not be moved. * In case case of “Rem “Remed edy y sh shap ape“ e“, , se sele lect cted ed whol whole e path path shou should ld be off-set and the both ends are connected smoothly.
“Smoothing”
It makes a connection connection among the arcs, which are contained contained in the chosen path, smooth. Depending on the connection condition of the origin, this operation can cause a geometric deviation.
FIG. 4. REFERENCED
“Join path to another”
ANDO KIKO It connects 2 chosen segments on the intersection, which is obta ob tain ined ed
by
exte extend ndin ing g
both both
segm segmen ents ts. .
The The
segm segmen ent, t,
whic which h
contains the end point and another segment, which contains the start point must be chosen chosen in this order. order. Further, Further, 2 segments segments contai con tainin ning g same same type type of termin terminal al points points (i.e. (i.e. start start or end) end) cannot be joined.
FIG. 4. REFERENCED FUNCTIONS -52 -52
(ENABLE)
(DISNABLE)
(DISABLE)
FIG. 4. REFERENCED FUNCTIONS -53 -53
This command is useful to change the radius of corner, or, to improve the shape of corner.
1)
Erase segment(s) on the corner.
2) 3)
Join 2 segments on the end. Fillet the sharp joint.
“Reverse the order”
It reverses the direction of the selected path. (The direction of tool movement)
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[テキストを入力 テキストを入力]] 75
“Discrete path”
It separates the connection of 2 segments on both sides of the selected point.
“Change link the selected figure”
This is a hybrid command of “Discrete path” and “Join path to another”. It
swit switch ches es
path path
conn connec ecti tion on
to
anot anothe her r
(pat (path h
or
segm segmen ent) t), ,
which has a terminal point (start or end) in the same position of
a
path path
joi joint nt. .
For For
the
ope opera rati tion on, ,
sel select ect
the the
leadi eading ng
segment, and then the following new path. See also “Discrete path” and “Join path to another”.
4.6.4.“Figure-editing 4.6.4.“Figure -editing (point)” On the ”Venus” ”Venus” layer, layer, it edits edits ‘point ‘point’. ’. At these these points points, , it dete de term rmin ines es
the the
tool tool
move moveme ment nt
unre unrela late ted d
to
the the
proc proces essi sing ng
shape.
“Attribute reset”
It cancels the attribution of the selected point(Start point / Leaving point etc. )
“Start point definition”
It decides the proce processing ssing beginning beginning point of the work piece, piece, and is indispensable to generate NC program. When choosing a joint on the path, the color of that point changes
to
the
purple.
(No
midpoint
can
have
this
attribution.) When choosing the other point as this point after setting, the attribution of the origin is canceled.
“Entry point definition”
For the edging machine and so on, it sets an approaching point to the the wo work rk piec piece. e. Upon Upon clic click k at the the de desi sire red d posi positi tion on, , th the e lightlig ht-gre green en point point is create created d as the start start point point. .
The tool tool
movement until arriving to the start point of the processing
ANDO KIKO is traced. When Wh en
choo choosi sing ng
the the
othe other r
poin point t
as
this this
afte after r
sett settin ing, g,
the the
attribution of the origin will be deleted.
“Leave point definition”
For the edging machine and so on, it sets a leaving point from the work piece. Upon click at the desired desired position, position, the cyan point is created as the leaving point. The tool movement until leaving from the terminated point of the processing is traced. Clic Cl icki king ng
in
the the
desi desire red d
posi positi tion on
crea create tes s
this this
ligh light t
blue blue
point, When choosing the other point as this after setting, the attribution of the origin is canceled. START
LEAVE APPROACH FIG. 4. REFERENCED FUNCTIONS -54 -54
“Define rotation-reset point” In proces processin sing g of more more than than one closed closed patter pattern(= n(=gla glass ss shape) shape)
under a NC program for the cutting machine and so on, let the Z-axis Z-axi s (rotating (rotating angle of tool) return returns s near to the original point right before changing to next pattern(=glass shape). Gene Ge nera rall lly, y,
the the
en end d
poin point t
of
tool tool
posi positi tion onin ing g
(the (the
proc proces ess s
beginning point of the following pattern) is attributed.
“Define the 1st attribution of special line No.”
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[テキストを入力 テキストを入力]] 77
Sequ Se quen ence ce
numb number er
set
in
the
“Spe “Speci cial al
lin line
No.1” o.1”
of
the
parameter is added on the NC program for selected drawing. (It (I t
is
subj subjec ect t
to
be
used used
at
the the
star start t
po poin int t
of
cutt cuttin ing g
pressure control.)
“Define the 2nd attribution of special line No.”
Sequ Se quen ence ce
numb number er
set
in
the
“Spe “Speci cial al
lin line
No.2” o.2”
of
the
parameter is added on the NC program for selected drawing. (It (I t
is
subj subjec ect t
to
be
used used
at
the the
star start t
po poin int t
of
cutt cuttin ing g
pressure control.) *Each point and the color (Venus Layer )
Start point point of figure ( side-cut-
White
line on the Glass-break Layer) Terminate
Red
figure(
point
of
side-cut-line
the on
the
Glass- break Layer) Green
Connecting point of figures
Blue
Middle point of arc
Violet
Start point
Light
Entering point
green Cyan
Leaving point
Yellow Red/Bl Red /Black ack
Rotation angle reset point Specia Special l line line No. No. Attr Attribu ibutio tion n Point Point
Yellow/Bl
Spec Sp ecia ial l
ack
points
Magenta
Selected point
line line
No. No.
Attr Attrib ibut utio ion n
2
4.6.5.“Figure-editing 4.6.5.“Figure -editing (patterns)” Comm Co mman ands ds
in
this this
menu menu
can can
cr crea eate te
patt patter erne ned d
shap shapes es, ,
wh whic ich h
WinVenus provides, with minimum effort. In to set spread length (mm) for the shape, which has a sharp corner (the direction of the back and forth 2 segments in the
ANDO KIKO connection point is discrete), end points of segments can be moved onto the extensions extensions. . This is especially especially useful for the breakout of cutting.
FIG. 4. REFERENCED FUNCTIONS -55 -55 To set the margins of the left,right,Top and Bottom, it can
be generated a raw glass shape. The left bottom corner of the block is always positioned in the original point(0,0). This is for the reference of nesting of the cutting machine.
“Make an ellipse”
It creates an ellipse according to the setting below.
FIG. 4. REFERENCED FUNCTIONS -56 -56
Pitch It sets the number of points (including mid points of arcs) to approximate the elliptical curve in arc segments. Major axis (mm) It sets the elliptical shape diameter in X-axis. Minor axis (mm) It sets the elliptical shape diameter in Y-axis. (EX)
78
(SHAPE BY 16 POINTS)
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FIG. 4. REFERENCED FUNCTIONS -57 -57
“Make a polygon”
It creates a polygon by determining sides one by one. The start point of the 1st side is assigned to the origin of programming coordinate system. When the end point of the last side sid e is placed placed in the origin origin (path (path is closed closed), ), the dialog dialog below closes and shape is created in position where the block corne orner r
place laces s
(abb (a bbre revi viat atin ing g
in th the e
the the
orig origin in. .
last last
side side), ),
With Withou out t the the
clos closin ing g
la last st
side side
automatically when clicking [Cancel] button.
FIG. 4. REFERENCED FUNCTIONS -58 -58
H direction (0:R, 1:L) H length (mm) V direction (0:U, 1:D) V length (mm)
the the is
path path
crea create ted d
ANDO KIKO Direct Dir ection ions s
and length lengths s
of the determ determini ining ng polygo polygon n
side side
in
both X and Y-axis are set.
“Make a regular polygon”
It creates a regular polygon according to the setting below.
FIG. 4. REFERENCED FUNCTIONS -59 -59
Sides It sets the number of polygon sides. Length (mm) It sets the length of sides. (EX)
80 (SHAPE BY 7 SIDES)
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FIG. 4. REFERENCED FUNCTIONS -60 -60
“Make a dome top”
The dome top shape is made by the following screen.
FIG. 4. REFERENCED FUNCTIONS -61 -61
Height (mm) It decides the height of the shape. Width (mm)
H
L
It decides the width of the shape.
R
Left side (mm) It
deci decide des s
the the
side. Right side (mm)
lengt ength h
of
the the
left left W
ANDO KIKO It
deci decide des s
the the
leng length th
of
the the
righ right t
side.
FIG. 4. REFERENCED FUNCTIONS -62 -62
(EX)
FIG. 4. REFERENCED FUNCTIONS -63 -63
“Make a rounded triangle”
Rounded triangle shape is made by the following screen.
FIG. 4. REFERENCED FUNCTIONS -64 -64
Base (mm) It sets the base length. Altitude (mm) It sets the height of the shape. Top deflection (mm)
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It set the the di dist stan ance ce from the top to the left left edge edge of the the shape. Left corner R (mm) It sets the arc radius of the lower left corner. Right corner R (mm) It sets the arc radius of the lower right corner. Top corner R (mm) It sets the arc radius of the top corner.
“Make a rounded triangle”
Rounded triangle shape is made by the following screen. DEFLECTIO N
TOP R LEFT R
RIGHT R BASE
FIG. 4. REFERENCED FUNCTIONS -65 -65
(EX)
FIG. 4. REFERENCED FUNCTIONS -66 -66
A L T I T U D E
ANDO KIKO
4.6.6.“Figure-editing editing (others)” · 4.6.6.“FigureFigure-editing and operation of corner etc. is executed.
“Expand a path” It expand expands s or contra contracts cts the select selected ed path path vertic verticall ally y or horizontally. Expand length (mm) It sets sets the expand expanding ing or
contracting
the
length of both 2 side edges. In
case
of
values valu es (-), (-), contracted.
Negative let let
them them
FIG. 4. REFERENCED FUNCTIONS -67 -67
Thickness (mm) It sets sets the glass thickness thickness for the shape. slightly
affected
on
the
compensation
mentioned‘Expand length’. Direction (0:x, 1:y) It decides the direction of this processing.
EXPAND LENGTH This value is for
above
84
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FIG. 4. REFERENCED FUNCTIONS -68 -68
ANDO KIKO
“Mirror image”
It copies the opened path, which consists of more than two continued segments, by reflecting it on the link between the start and end point. The original and copied paths are joined on the start and end point of the original to obtain one closed path, the direction of which follows the original.
FIG. 4. REFERENCED FUNCTIONS -69 -69
“Develop corner”
It lengthens segments on both sides of the discrete joint by duplicating the joint and moving them on the prolongation of each segment. A segment of rapid movement is added between 2 segments.
FIG. 4. REFERENCED FUNCTIONS -70 -70 Elastic length (mm)
It decides the lengthening distance.
86
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FIG. 4. REFERENCED FUNCTIONS -71 -71
It
“Move origin” posi positi tion ons s
the the
prog progra ramm mmin ing g
coor coordi dina nate te
syst system em
wher where e
the the
reference point of the system is to be set in the center of the chosen shape. The deletion data is also moved as well at the same time.
FIG. 4. REFERENCED FUNCTIONS -72 -72
“Move origin directly”
It moves the coordinate system by the numerical value entry. ( Apparently, the shape is moved to opposite direction on the screen.) The deletion data is also moved as well at the same time.
FIG. 4. REFERENCED FUNCTIONS -73 -73
Move origin x (mm) Move origin y (mm) It
sets ets
the the
amo amount unt
of
mov moving ing
dist distan ance ce
in
X
or
Y-ax Y-axis is
ANDO KIKO direction.
“Path copy”
The shape of Venus Layer is copied to the deletion-layer. The shape is copied in the same coordinate. coordinate. It can be available available to use on the Deletion-layer only.
The Th e
“Figure’s turn-around” figu figure re and and
shap shape e
on the the
draw drawin ing g
original origi nal point point after settin setting g an angle. angle. also rotate as well.
“Rotating (Angle)”
Setting the rotation angle.
is turn turned ed-a -aro roun und d
the the
The deletion deletion data data is
88
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“Making Polyline”
The shape is created to Polyline (Polygon).
Tolerance/Pitch
Basically, the number of point will be increased, and also shape’s difference between actual glass shape and programmed shape will become smaller in case of smaller value.
“Making Arc”
From the Poly line (Polygon) to Arc.
ANDO KIKO
「 Diagonal
cutting」
Accord Acc ording ing to the shaped shaped profil profile, e, raw-gl raw-glass ass-pa -pane ne before before the 1/2 cutting is generated.
Auto /Manual : The 1/2 cutting line on the raw-glass pane is generated when the figure is 0. Width : Length : Specify the size of raw-glass pane. Blank: It set the distance from the edge of raw-glass edge to shaped prof pr ofil ile e
line line. .
It is effe effect ctiv ive e
when when rawraw-gl glas ass s
size size is not not
specified . Top /Left/Right: /Bottom The position of two pieces which is a pair of shaped profile is specified. An example : 0(Bottom)
90
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“1/2 manual pre-cutting”
Divided line of the raw-glass is tentatively generated at any place. Divided line which available to rotate is appeared when click the raw-gl raw-glass ass pane, pane, and then then
click click again, again, the pre-cu pre-cutti tting ng
line is defined.
The
raw-gl raw-glass ass
profil profile e
genera generated ted
by
“Auto “Auto
pre-cu pre-cut”/ t”/“Ma “Manua nual l
pre-cut” is available to use as the raw-glass by means of the function of “Venus : path copy of raw-glass ”
“Filling up points”
The points consisted of the profiled segment are increased. If they they are alread already y suffic sufficien ient, t, they they are not increa increased sed no more.
ANDO KIKO
4.6.7.“Material-editing” On the material layer, raw glass are defined or edited. This raw glass information is essential for glassbreak-editing.
“Enclose(margin)”
By inputting margin, raw glass path is determined.
“Enclose(W x H)”
By inputting raw glass size, raw glass path is determined.
“5 pos. sheet”
By inputting X-Y coordinates of all corners, raw glass path is determined.
92
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FIG. 4. REFERENCED FUNCTIONS -74 -74
“Sheet Rectangle”
By inputting raw glass size and base point, raw glass path is determined.
“Sheet modify”
By inputting value, raw glass path is modified.
Glass sheet pos. (x1) (y1) to (x5) (y5)
ANDO KIKO Coordi Coo rdinat nates es of raw glass corners corners are set in (x1), (x1), (y1) (y1) to (xN), (yN) in order. ‘N’ must be coincident coincident with the setting below. Only one raw glass shape is defined. st
Any corner can be defined as the 1 (x1 and y1), however it must be ordered in the CCW direction. Points (3 or 4 or 5) It decides the shape of raw glass. ‘3’ is a triangle, ‘4’ is a square and ‘5’ is a pentagon.
“Venus Path copy of raw-glass”
“ When click the closed path ( like as tetragon )” generated by
Venu Venuss-La Laye yer, r,
the the
same same
figu figure re
(=
shap shaped ed
segm segmen ent t
)is )is
appeared at the same coordinate of the Raw-glass layer side. The raw-glass profile made by the function of “Auto 1/2 precut”/“Manual 1/2 pre-cut” is imported and available to use as raw-glass.
4.6.8.“Sucker-editing” On the sucker layer, positions of vacuum cups are considered.
It
“Auto sucker set” arra arrang nges es
proc pr oces essi sing ng ‘Proce ‘Pr ocess ss
vacu vacuum um shap shape. e.
cups cups The The
parame parameter ters’ s’
of
auto automa mati tica call lly y
arra arrang ngem emen ent t file file
path, vacuum cups are arranged. (EX)
acco accord rdin ing g
cond condit itio ion n
proper propertie ties. s.
When When
to
the the
depe depend nds s choosi choosing ng
on a
94
[テキストを入力 テキストを入力]] 95
FIG. 4. REFERENCED
“Add new sucker”
It arranges an addition vacuum cup in the clicked position. Of
course,
the
arrangement
here
follows
the
‘Process
parameters’ settings.
“Move a sucker”
When clicking the center of a vacuum cup, confirmation asks is shown and when clicking the [OK] button, display color of the vacuum cup changes from the red to the yellow. Vacuum cup moves to the position when adjusting a sucker to the desired position and mouse clicking.
“Remove a sucker”
It removes a vacuum cup, which is clicked in the center. Clicking Click ing a vacuum vacuum cup shows confirmati confirmation on asks, and clicking the [OK] button removes it.
“Remove all suckers”
It removes all vacuum cups confirmation asks is clicked.
since
[OK]
button
of
“Show sucker info”
It shows coordinates of the center of clicked vacuum cup.
the
COORDINATES OF SELECTED VACUUM CUP ARE SHOWN HERE.
ANDO KIKO
FIG. 4. REFERENCED
“Increase Offset Vacuum cup”
How to install Extra off-set vacuum cup for the grinding ? The pivot angle of top suction pad(1) is decided after the positioning of bottom sucker(2) at first.
①
②
“Rotation of offset vacuum cup”
Offset vacuum cup(s) which already well positioned(arranged) is(are) re-adjustable
in the pivot angle.
It can be adjusted by the selection of vacuum cup.
96
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回転
4.6.9.“Glassbreak-editing” On the glassbreak layer, relief cutting, fringe pressing, and their sequence are edited to generate breakout NC program. Neither Neith er cut-line cut-line nor press-poin press-point t can be created created and edited edited out of the raw glass.
“Breaking assist”
It creates corner scores and break-out pushers in accordance with the selected path and raw glass. Ordering is not decided in this process. (EX)
ANDO KIKO
FIG. 4. REFERENCED FUNCTIONS -77 -77
“Make a breaking assist cut-line”
By the definiti definition on of a
straig straight ht line, line, it create creates s a relief relief
score, which is shown in the white. The direction of cutting is 1st to 2nd clicking of the line input. One of two ways of processing is chosen by the input line.
LINE CROSSES THE SHAPE AND RAW GLASS
1.START OF CUTTING
On the line, it makes a point as starting, starting, which leaves the amount of setting from the shape outward. This distance is set
by
the the
‘Cu ‘Cut-li t-line ne
trim trimmi ming ng
value alue
(mm) (mm)’ ’
of
‘Pro ‘Proce cess ss
parameters’. 2.END OF CUTTING
On the line, line, it makes a point point as ending ending, , which which leaves leaves the amount of setting from the raw glass edge inward.
FIG. 4. REFERENCED FUNCTIONS -78 -78
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LINE STAYS BETWEEN THE SHAPE AND RAW GLASS
Both ends of the line are starting and ending point. Incidental Incid entally, ly, disks to the cutting line are displ displayed ayed in the blue.
The support disc for Side-cutline is blue and automatically appeared.
“Define a press point”
DISK
As for the satellite system, the 1 st clicking on the shape deci de cide des s
a
disk disk
posi positi tion on. .
For For
mach machin ines es
usin using g
temp templa late te, ,
1st
clicking decides a press point.
PRESS
As for the multiple press type, clicking a desired position create cre ates s press press point. point. Dependin Depending g on a portio portion n of the shape, shape, prop pr oper er
plu plung nger er
is
sel selec ecte ted. d.
For For
the
singl single e
press press
type, type,
clicki cli cking ng a desire desired d positi position on decide decides s the press press point point and a floating red line appears, which links the press point and mouse cursor. The next clicking fixes the angle of press.
FIG. 4. REFERENCED FUNCTIONS -79 -79
Incidental Incid entally, ly, disks to the press point are displayed displayed in the
ANDO KIKO green.
“Define the starting point” It creates starting points of breakout head and disk. Default values of `Process parameters’ are set, so that click [OK] [O K] butt button on usua usuall lly. y. They They will will be show shown n
in the the
purp purple le on
those positions.
“Define breaking order”
It decides decides the sequence of break breakout out process independen independently tly in each (front/back) head for the side-cut-line, press position and Pass-through point for obstacle. According to the order what you want to move them, the mouse should be clicked from the start-point of the breakout process accordingly. Broken lines are indicated between each point which is placed number in order. ( These broken lines express the tool movement.) Norm No rmal ally ly
one one
stra straig ight ht-l -lin ine e
conn connec ects ts
betw betwee een n
the the
poin points ts, ,
however, If something obstacle is being on the way of moving path, the path line involve the pass-through point to prevent it, and two sort of path lines are generated in some cases. Fina Fi nall lly, y,
the the
st star artt-po poin int t
mu must st
be
clic clicke ked d
ag agai ain n
for for
th the e
conclusion. This setting should be defined in both front side and back side independently.
“Make a passing point”
It create creates s an intent intention ional al pass-t pass-thro hrough ugh point, point, if someth something ing obstacle is being on the way of moving path. Regard Reg arding ing the obstac obstacle le which which define defined d prev pr even enti tion on
poin point t
moving path.
is
auto automa mati tica call lly y
in the proper property, ty, the
gene genera rate ted d
when when
set set
the the
100
[テキストを入力 テキストを入力]] 101
“Move the selected point directly”
Side-cut line and press position are moved by inputting data. In case of side-cut-line, the value is start-point or endpoint. In case of Pusher and the support disk, the value is center (“+” mark) of them, and input these values in the following box. It is impossible to move these lines out of raw-glass area.
FIG. 4. REFERENCED
“Move the selected point by MOUSE”
It moves moves the select selected ed point point of side-c side-cutut-lin line, e, presspress-poi point, nt, support disk position by mouse operations. When choosing choosing a point to edit, the red line, which link links s to this point, this point, and the mouse mouse cursor cursor appear appears. s. The destin destinati ation on point of the move is defined by click.
ANDO KIKO
“Modify the press point”
It change changes s
the pushin pushing-b g-bar’ ar’s s
direct direction ion, ,
not to change change the
pushing point. SINGLE PRESS
The Th e red red line line appe appear ars s from from ther there e
to the the
mous mouse e curs cursor or when when
choosing choos ing a press-poin press-point t and this line indicates indicates the direction direction of the pusher. Clicking again fixes the direction.
FIG. 4. REFERENCED FUNCTIONS -81 -81
MULTI PRESS
When Wh en
cl clic icki king ng
Chec Ch ecki king ng
a
pres presss-po poin int, t,
alte altern rnat ativ ive e
dire direct ctio ion n
foll follow owin ing g and and
changes the direction.
FIG. 4. REFERENCED FUNCTIONS -82 -82
“Undefined the selected figure”
dial dialog og
clic clicki king ng
[OK] [OK]
appe appear ars. s. butt button on
102
[テキストを入力 テキストを入力]] 103
It
erases erases
the
select selected ed
side-c side-cutut-lin line, e,
presspress-poi point nt
or
pass pass
through point.
“Undefined the order link”
It erases a selected path, which is expressed in the yellow broken line.
It
“Unlink all orders” eras erases es
all all
pa path ths s
defi define ned d
by
the the
orde orderi ring ng
of
brea breaki king ng
process.
4.6.10.“Drill-editing” On the Drill-layer, the hole drilling position in POS.1 and POS.2 is displayed, the NC is programmed.
1.[file open] Real Re alit ity y
open open kept kept form form data data. .
appears,open. A form appears on the screen.
The The
scre screen en of the the
bott bottom om
ANDO KIKO
2. [property] Establish the condition to make the program of the form chosen chose n at present. present. Select Select the [File]→[pr [File]→[propert operty] y]
of the the
menu bar.
3.[Select the machine information]
* When a [property] is chosen, the screen of the bottom is indicated. Open the [Machine], select the [SSGM-D],and [OK].
104
[テキストを入力 テキストを入力]] 105
* The screen of the bottom is indicated. Select the [(Y)].
* A [Drill layer] like the bottom appears on the icon.
4.[Drill layer]
Use a hole with a [pos.1] for input/edit of data.
Use a hole with a [pos.2] for input/edit of data. Use a hole with a [pos.3] for input/edit of data.
5. [Drill layer 1] Do
drill
hole
with
a
pos.1.
5-1-1.[Add a new hole] Make a suitable suitable position position [the hole ]. (A hole diameter is
20mm.)
5-1-2.[Add a new hole(2)] Indicate a position of a hole by the coordinate. When it clicks on the icon, the window of the bottom is indicated.
ANDO KIKO
X(mm)…Input X coordinate. Y(mm)…Input Y coordinate. R(mm)…Input hole radius.
Input necessary value,push the [OK]. * Set Set up a posi positi tion on of a hole hole by thes these e two two kind kinds s of methods.
5-1-3.[Remove the selected figure] A hole can be removed.
5-1-4.[Move the selected hole] A hole can be moved.
5-1-5.[Move the selected hole(2)] It is moved to the position of a coordinate where it was inputted. X a Y a R
5-2.
(mm)…Input X coordinate of position of a movement. (mm)…Input Y coordinate of position of a movement. (mm)…Input hole radius.
[Reset the start point] Set up start point of drill head. Click on the icon. It doesn't need to change this value.
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[テキストを入力 テキストを入力]] 107
Push the [OK].
Start point point is indicated on on the panel.
5-3-1.[Define the process order] Decide the order of the doril hole. Star
Drill-
Start
Like the top, decide it with clicking on each position.
5-3-2.[Remove the order link] The line which showed an order is erased.
6.
[Drill layer 2] Drill hole of [pos.2]. Order, method is the same as the
[pos.1]. Drill hole of [pos.3]. Order, method is the same as the [pos.1].
4.6.10. DRILLING」
The drilling data is edited by the drill layer.
“Additional drill data”
Additional data for the drilling position is defined by mouse pointer with the indication of cyan.
ANDO KIKO
Rotation table No Drilling ( Area )
Hole data
Drilling order line
Job
“Additional drilling data 2”
Additional hole data is defined on the X,Y coordinates.
X ・Y(mm ) R(mm ) The hole radius is set on the X,Y coordinates.
“Deleting Hole data/Moving line”
The chosen hole data/moving line are deleted.
“The sequence of drilling”
The sequence of the drilling job is defined. Firstly, “ Start poin po int t
of
dril drilli ling ng
“
is
chos chosen en, ,
an and d
then then, ,
dr dril illi ling ng
hole hole(s (s) )
is(are is( are) ) chosen chosen accord according ing to the order order with with connec connectin ting g orderorderline. Finally, “Start point of drilling“ is chosen and returned to
the the
orig origin inal al
posi positi tion on. .
The The
orde orderr-li line ne
for for
a
seri series es
of
108
[テキストを入力 テキストを入力]] 109
drilling job is indicated by white color.
“Setting for the start “
Star St arti ting ng posi positi tion on of the the tool tool is set. set. The The Set Va Valu lues es in Processing ssing parameter parameter ] - [ Drill ] - [ Original Original point ] are [ Proce indicated, normally “OK” button should be clicked.
X ・Y(mm ) Original point ( = starting point) of Drilling is set.
“Clear for All sequence ”
All sequential sequential line ( = White broken line ) for the processing processing step is deleted.
“Hole data movement “
The hole data is moved to an optional position. The hole data positi pos ition on is moved moved by mouse mouse operat operation ion. . When When the hole data data is chosen, the hole data and the mouse pointer are connected by a red line, and then, the moved position is defined by clicking again at the destination of the hole.
ANDO KIKO
“ Hole data movement 2 “
The hole data is moved by defining the X,Y coordinate.
X ・Y(mm ) The hole on the coordinates can be altered. R(mm ) The hole diameter can also be re-set.
4.7. “Tool” MENU
110 FIG. 4. REFERENCED FUNCTIONS -83 -83
[テキストを入力 テキストを入力]] 111
4.7.1.“Machine information” It maintains and manages machine types. Changes here do not influence existing WinV files but are effective to the newly creating file since then. To change settings of existing WinV file, open that file and access ‘Property’ of ‘File’ menu instead of this.
FIG. 4. REFERENCED FUNCTIONS -84 -84
“Add” (new machine)
It adds machine type in the WinV machine list. On the follow following ing dialog dialog, ,
which which appear appears s by clicki clicking ng [ADD] [ADD]
button but ton, , type type proper proper name name
in “Machi “Machine” ne” and “Comme “Comment” nt” text text
boxes for the reference. (It is "XXXXXXX" when omitting the comment.)
ANDO KIKO
FIG. 4. REFERENCED FUNCTIONS -85 -85
Clic Cl icki king ng dial di alog og, ,
[OK] [OK]
butt button on
which hich
‘Prope ‘Pr operty rty’ ’
<
is
open opens s
the the
‘File’ ‘File’. .
‘Set ‘Setup up
same ame
of
mach machin ine e
‘Proc Proces ess s
info inform rmat atio ion’ n’
para parame mete ters rs’ ’
Follow Following ing the machin machine e
<
specif specifica icatio tion, n,
these the se parame parameter ters s must must be set. set. (Refer (Refer to sec. sec. [4.2.9 [4.2.9] ] for details.) Clic Cl icki king ng
[OK] [OK]
butt button on
on
the the
‘Set ‘Setup up
mach machin ine e
info inform rmat atio ion’ n’
dialog closes it and the machine type is added in the list.
For Fo r
“Modify” (listed machine) edit editin ing g
proc proces ess s
info in form rmat atio ion’ n’
dial dialog og
para parame mete ters rs, , of
the the
it
sele select cted ed
open opens s
‘Set ‘Setup up
mach machin ine e
ty type pe
mach machin ine e on
the the
list. (Refer to sec. [4.2.9] for details.)
“Remove”
It erases selected machine type on the list.
It
“Copy” copi copies es
‘Set ‘Setup up
mach machin ine e
info inform rmat atio ion’ n’
data data
of
sele select cted ed
machine type and adds it in the list as another machine type specified by the following dialog.
112
[テキストを入力 テキストを入力]] 113
FIG. 4. REFERENCED FUNCTIONS -86 -86
“End”
It closes this dialog.
4.7.2.“Digitizer” On the the draw drawin ing g laye layer, r, this this menu menu is for for the the digi digiti tize zer r to import series of point coordinates, which follow the shape. The dialog below appears.
FIG. 4. REFERENCED FUNCTIONS -87 -87
[Select type]
On the list list shown shown by by [ type connected with PC.
] button button, , it select selects s a digi digitiz tizer er
ANDO KIKO
FIG. 4. REFERENCED FUNCTIONS -88 -88
[Comm. Config]
As for the communication between PC and the digitizer, it sets the PC following communication protocol. Contradicting setting results in malfunctions.
FIG. 4. REFERENCED FUNCTIONS -89 -89
[Axis correction]
It adapts WinV to X-axis of the shape drawing or the mold on digitizer coordinate system. For this purpose, transmit the coordinates of negative end
114
[テキストを入力 テキストを入力]] 115
then positive on a line, which is coincident or parallel to X-axis, to WinV. WinV uses standard X-Y coordinate system, so that 4 cases below are observed.
(1) DIZITIZER
P
WinV
Y X
N
FIG. 4. REFERENCED FUNCTIONS -90 -90
(2) DIZITIZER
N
WinV
Y X
P
FIG. 4. REFERENCED FUNCTIONS -91 -91
(3) DIZITIZER
WinV
Y X
N
P
ANDO KIKO
FIG. 4. REFERENCED FUNCTIONS -92 -92
(4) DIZITIZER
WinV
Y X
P
N
FIG. 4. REFERENCED FUNCTIONS -93 -93
[Origin]
It adapts WinV to the origin of the shape drawing or the mold on digitizer coordinate system. For this purpose, transmit the coordinates of the origin to WinV.
[Line drawing]
By
stra straig ight ht
line lines, s,
it
inte interp rpol olat ates es
ever every y
poin point, t,
whic which h
is
taken in from the digitizer.
[Arc drawing]
It defines continuous arcs, which are based on every point taken in from the digitizer. Clicking this button opens following dialog box.
116
[テキストを入力 テキストを入力]] 117
FIG. 4. REFERENCED FUNCTIONS -94 -94
FIG. 4. REFERENCED FUNCTIONS -95 -95
‘Analysis level’ decides the reliability of input data from the digitizer (fine, normal, course). By the setting of more roug ro ugh, h,
more more
poin points ts
are are
igno ignore red d
and and
segm segmen ents ts
defi define ned d
are are
relatively long.
[Verify]
With Wit h (+) marks, marks, it displa displays ys the points points, , which which are taken in from the digitizer, on the editing window. (These points are not editorial.)
About dialog boxes
When Wh en
the the
comm commun unic icat atio ion n
with with
digi digiti tize zer r
is
atte attemp mpte ted, d,
WinV WinV
issues following dialog box. To proceed, click [OK] button.
When Whe n
the
FIG. 4. REFERENCED FUNCTIONS -96 -96 commun communica icatio tion n with with digiti digitizer zer
is
termin terminate ated, d,
WinV WinV
issues following dialog box. To proceed, click [OK] button.
FIG. 4. REFERENCED
4.7.3.“Input outline points” FUNCTIONS -97 -97
Instead Instea d of the digiti digitizer zer input, input, it opens opens ‘outli ‘outline ne points points’ ’ file and creates segments on the drawing layer.
ANDO KIKO Following dialog box appears when this command is selected.
FIG. 4. REFERENCED FUNCTIONS -98 -98 Connect type
It selects the type of creating segments.
FIG. 4. REFERENCED FUNCTIONS -99 -99 Analysis level
Refer to sec. [4.7.2].
Data path
It specifies the folder where the ‘outline points’ file is. Type ype
the the
full ull
path path
of
tha that
folde older r
in
text text
box, box,
or
use use
[Reference [Refe rence] ] button. button. The format format of ‘outline ‘outline points’ files is same with that of standard text file, which must include X and Y coordinates values in order, and those values must be divided by ‘tab’, ‘space’ or ‘comma’ codes. (EX)
X 100.0 150.0 200.0 300.0
, , , ,
Y 110.0 110.0 210.0 310.0
[CR]+[LF] [CR]+[LF] [CR]+[LF] [CR]+[LF]
[TAB], [SPACE] OR [,] TO DIVIDE FIG. 4. REFERENCED FUNCTIONS -100 -100
4.7.4.“Export irregular patterns”
When coop When cooper erat atin ing g with with WinA WinAce ce (nes (nesti ting ng soft softwa ware re), ), it can can rotate and position the shape of selected WinV data file,
118
[テキストを入力 テキストを入力]] 119
and export it to specified folder for WinAce.
FIG. 4. REFERENCED FUNCTIONS -101 -101
4.7.5.“DXF File Convert” It
open opens s
a
‘DXF ‘DXF’ ’
form format atte ted d
CAD CAD
file file
and and
abst abstra ract cts s
X-Y X-Y
coordinates to create segments.
FIG. 4. REFERENCED FUNCTIONS -102 -102
Refer to sec. [4.7.3] for functions on the dialog box above.
4.7.6.“Setup”
ANDO KIKO
“Path”
FIG. 4. REFERENCED FUNCTIONS -103 -103
“System path ” ” WinV installation folder must be set.
“Default data path ” ” Default folder of the data file open or the data file save dialog is set.
“Default export path ” ” The path, which is referred by WinAce to exchange the shape, is set.
“System parameter”
120 FIG. 4. REFERENCED FUNCTIONS -104 -104
[テキストを入力 テキストを入力]] 121
“Machine type (digitizer) ” ” The digiti digitizer zer model chosen chosen here is the initial initial settin setting g of the ‘digitizer input’ dialog box.
“Wheel radius (mm) ” ” It decides the size of the tool image, which is displayed on the “Simulate” function screen of “NC program” menu.
“Grid pitch (mm) ” ” The dot ( = grid points) displayed in the background of the drawing is set.
“Search scope (Pixel) ” ” The selected scope is set well even if the searched object is little little bit apart apart from from the the mouse-poin mouse-pointer. ter. disp di spla laye yed d
on
the the
draw drawin ing g
pointer.
“Sucker for grinding”
in
a
circ circle le
This scope scope is
arou around nd
the the
mous mouse e
ANDO KIKO
FIG. 4. REFERENCED FUNCTIONS -105 -105
“X pitch (mm) ” ” and “Y pitch (mm) ” ” In X-axis and Y-axis directions, they set the intervals of grid lines, which are displayed on the sucker-editing layer. “X center ” ” and “Y center ” ” When setting to “YES”, it arranges grid lines, one of which overlaps with the X-axis or the Y-axis. When setting setting to “NO”, it arranges arranges a grid line to avoid the X-axis or the Y-axis.
“Glass-break Sucker”
FIG. 4. REFERENCED FUNCTIONS -106 -106
“Sucker Radius (mm) ” ” It sets the radius of the breakout shuttle pad N.
122
[テキストを入力 テキストを入力]] 123
“Pos. (X , , )” Y)” It sets the X-Y coordinates of the pad N center.
“RS232C (NC program comm.)” As for for the the comm commun unic icat atio ion n betw betwee een n PC and and NC, NC, it sets sets the the
protocol of PC.
FIG. 4. REFERENCED FUNCTIONS -107 -107
“RS232C (digitizer)”
It sets default values of the dialog, which is opened by the [Comm config] button of ‘Digitizer’ ‘Digitizer’ dialog. can
be
displayed
See also [4.7.2], It
and
“TOOL”-“DIGITIZER”-“COMMUNICATION “TOOL”-“DIGITIZER”-“COMMU NICATION SETTING”
FIG. 4. REFERENCED FUNCTIONS -108 -108
set
BY
ANDO KIKO
“Profile Analysis”
Parameter setting for shaped-profile analysis.(Option)
The corner detection parameter is set. It is possible to call out the standard set of parameter for the profile analysis by the selection of analysis type.
“Color customize”
It can change WinV coloring.
FIG. 4. REFERENCED FUNCTIONS -109 -109
124
[テキストを入力 テキストを入力]] 125
4.8. “NC program” MENU
FIG. 4. REFERENCED FUNCTIONS -110 -110
4.8.1.“Generate” It
gene genera rate tes s
depe de pend ndin ing g
NC
on the the
pro program gram
for for
acti active ve laye layer r
sha shaping ping n i
case case
or
gla glass-b ss-bre reak ak
that that
the drawin drawing g
meets the condition to generate it. ∗The NC program for Grinding-Vacuum-cup layer is generate
by Venus Layer.
4.8.2.“Simulate” The tool motion by NC-program can be simulated on the PC. Tool To ol
move moveme ment nt
shou should ld
be
conf confir irme med d
on
function in every after making NC-program.
FIG. 4. REFERENCED FUNCTIONS -111 -111
this this
simu simula lati tion on
ANDO KIKO
“PLAY”
It executes a simulation continuously. The tool image moves along with the NC program block (= the red points), and it will be stop at the end of NC-program.
“STEP”
It executes a block simulation. By every clicking, the tool image moves to the next program block.
“STOP”
It pauses the simulation. It is stopped by “ESC” key, too.
FAST
It increases simulation speed.
SLOW
It decreases simulation speed.
EXIT
It closes the simulation window. It is closed by “ESC” key, too.
∗The simulation screen can be changed by following order :
“File” – “Property” – “Processing parameter” – “Option” – “simulation Type”.
0/0
0/ 0/1
1/0
“Simulation-Type”/”Tool ”Tool display” display”
1/1
126
[テキストを入力 テキストを入力]] 127
4.8.3.“Inversion” NC –program(.ncp) can be inversed to CAD-data. NC-program is selected at the following dialog.
4.8.4.“Send”
Common function
The dialog is displayed upon select the program (= a file what you want to send).
FIG. 4. REFERENCED -
Cutting/Grinding
The shaped program is transmitted to the NC. When Wh en the the
NC rece receiv ive e
the the
file file, ,
the the
tran transm smis issi sion on will will be
started upon click the “START-Button”. (.NCP)
ANDO KIKO
“Glassbreak”
The Glassbreak program is transmitted to the NC. Firs Fi rstl tly, y, the the mach machin ine e conf config igur urat atio ion n (= Mach Machin ine e
type type) )
is
selected at the following dialog, and the transmission is starte sta rted d
upon upon
clicki clicking ng “Start “Start-bu -butto tton” n” after after receiv receiving ing the
program by the NC side.(.BNP) This operation is same way in spite of front-side or backside.
Standard
: The machine have no support discs.
Templateless-1: The machine have support discs controlled by 5 axis NC ( like as MELDAS ). Templateless-2: The machine have support discs controlled by Multi axis NC ( like as Power-Mate )
FIG. 4. REFERENCED FUNCTIONS -113 -113
Here, Her e, choose choose proper proper machin machine e type type and click click [OK] [OK] button button. . Further, following dialog appears to decide front or back in case of ‘Templateless-2’.
FIG. 4. REFERENCED FUNCTIONS -114 -114
“Deletion (Front)”
The transmission of the deletion program (for Front) to the NC is started upon clicking the start button after doing
128
[テキストを入力 テキストを入力]] 129
receive-operation at the NC side.(.CFP)
“Deletion (Back)” The transmission transmission of the deletion program program (for Back) to the
NC is started upon clicking the start button after doing receive-operation at the NC side.(.CBP)
“Auto-Vacuum Cup”
No need to use at present.
“Drill-1”
The transmis transmissio sion n of the drilling drilling program program 1 to the NC is started upon clicking the start button after doing receiveoperation at the NC side.(.D1P)
“Drill-2”
The transmis transmissio sion n of the drilling drilling program program 2 to the NC is started upon clicking the start button after doing receiveoperation at the NC side.(.D2P)
“Drill-3”
The transmis transmissio sion n of the drilling drilling program program 3 to the NC is started upon clicking the start button after doing receiveoperation at the NC side.(.D3P)
4.8.5.“Receive” The receiving the NC program from the NC is started upon clic cl icki kin ng
the
star start t
butt button on
operation at the NC side.
FIG. 4. REFERENCED
-
afte after r
doin doing g
trans ransmi mitt ttin ingg-
ANDO KIKO
4.9.
“Click mode” MENU It cont contro rols ls a mous mouse e clic click k on the the edit editor oria ial l wind window ow when when defining new segments or points. One click mode is selected exclusively.
FIG. 4. REFERENCED FUNCTIONS -116 -116
4.9.1.“Figure point mode” When clicking an optional position in the editorial window, it takes the position. However, it follows the limitation, which is peculiar to the operation to be executing.
4.9.2.“Cross point mode” When clicking a mouse cursor near the connection point of 2 segments or mid point of arc, it takes the same position with wit h this this point. point. At the low displa display y magnif magnifica icatio tion, n, more more than one point is occasional occasionally ly proposed. At this time, the cons co nsid ider erin ing g circ ci rcul ular arly ly. .
poin point t
can can
(Ta (Target rget
be
chan change ged d
poin point t
is
by
the the
disp displa laye yed d
righ right t in
clic clicki king ng the the
pink pink
color.)Click again to fix the choice.
4.9.3.“Grid mode” Only the nearest grid point to the mouse-pointer is chosen when click and choose the position by mouse.
4.10
“Window” MENU When opening more than one data file, each editorial window is displayed. This menu controls windows displaying.
130
[テキストを入力 テキストを入力]] 131
FIG. 4. REFERENCED FUNCTIONS -117 -117
4.10.1.“Cascade 4.10.1.“Cascad e Windows” It cascades windows.
4.10.2.“Tile Windows (HORZ)” It tiles windows horizontally.
4.10.3.“Tile Windows (VERT)” It tiles windows vertically.
4.10.4.“EDITORIAL 4.10.4.“EDITOR IAL WINDOWS” When opening opening a drop-down menu of “Window”, “Window”, file names of editorial windows, which are opened at present, are shown on the bottom with numbers (1, 2, ---, N). The tick before the number N shows that the window is activated. Here, If tick the other file name, the operation can be switched to the other window.(Or clicking the title bar of the editorial window directly.)
4.11
“Help” MENU
FIG. 4. REFERENCED FUNCTIONS -118 -118
4.11.1.“About WinV” It displays the software version.
ANDO KIKO
FIG. 4. REFERENCED FUNCTIONS -119 -119
4.12.
“Deletion” Multip Mul tiple le functi functions ons are usable usable by the Venus Layer at the deletion layer (Front/Back). Like as the operation by the Venu Ve nuss-La Laye yer, r,
the the
prog progra ram m
is
gene genera rate ted d
by
sett settin ing g
the the
specia spe cial l pointpoint-dat data a like like as startstart-poi point nt with with copyin copying g the shaped-profile. ∗
In case of using the same shaped-profile as Venus-Layer,
it is possible to use the same one by means of “Pass-copy function” after open the Deletion-Layer.
Path copy
4.13.
“OTHERS”
4.13.1.“Turn to the first” When chose the icon of “Turn to the first” on the “System Tool Bar”, all of the editing is cancelled and return to the status which kept the data.
132
[テキストを入力 テキストを入力]] 133
5.
“Display”
5.1.
“Information Display” CAD informat information ion is displa displayed yed at the bottom bottom area area on the scre sc reen en
by
disp di spla laye yed d
the the
func functi tion on
of
“Inf “Infor orma mati tion on
item item is diff differ eren ent t
disp displa lay” y”. .
The The
depe depend nd on used used tool tool for for
“
Information display”. (An example) Closed path or Opened Path? How is the direction ?
Width and Length
Peripheral length Line : Included number of Line in the profile. Arcs :Included number of arcs in the profile.
Smoothness of the connect-point ( angle difference of contact line ) Larger angle difference cause the distortion on the actual processing, especially on the edge-grinding.
ANDO KIKO
5.2
“Information Tool-bar”
“Show the point information”
To select select this icon then then click click a point point on the editoria editorial l window shows the information of that point.
FIG. 4. REFERENCED FUNCTIONS -120 -120
“Show the figure information”
To select this icon then click a segment segment on the editorial editorial window shows the information of that segment.
FIG. 4. REFERENCED FUNCTIONS -121 -121
“Show the path information”
To sele select ct this this icon icon then then clic click k
a path path on the the edit editor oria ial l
window shows the information of that path.
FIG. 4. REFERENCED FUNCTIONS -122 -122
“Drawing information”
134
[テキストを入力 テキストを入力]] 135
To
sele select ct
this this
ico icon
show shows s
the the
info inform rmat atio ion n
of
acti active ve
drawing.
FIG. 4. REFERENCED FUNCTIONS -123 -123
“Shape sync.”
This icon follows the shape reference to the editing shape (path) (pa th). . The referenc reference, e, which which is drawn drawn in the red, shows shows visual results of editorial operations.
FIG. 4. REFERENCED FUNCTIONS -124 -124
Because the afterimage is left when editing a shape, do as it scrolls the screen and so on.
The Th e
“Profile Data analysis” anal analyz yzed ed
poin point t
data data
for for
the the
shap shaped ed-p -pro rofi file le
can can
be
displayed. Howeve How ever, r, the actual actual dispos dispositi ition on for “Glass “Glassbre break” ak” tool tool is not available in here. (Optional setting)
WinVenus OPERATOR’S OPERATOR’S MANUAL EDITION 1.0 MARCH 30 2000 KANAZAWA 2-4-60, TOKUSHIMA 770-0871, JAPAN TEL: 81-88-664-1225 FAX: 81-88-664-3138
ANDO KIKO
“Measuring Distance”
The distance between two definite points can be measured. Afte Af ter r
the the
mous mousee-cl clic icki king ng
the the
firs first t
po poin int, t,
then then
let let
the the
mouse-pointer move, the distance from the 1 st point can be disp di spla laye yed. d.
(
A
ru rubb bber er-l -lin ine e
in
Red Red
is
disp displa laye yed d
on
the the
status bar.) The distance between the 1st point and the 2nd point kept on the display upon clicking the 2 nd point. ( The display is reset when the distance measuring or the other command is executed.) Distance
“Maintenance 1”
It is used by Bando Personnel only.