外文翻譯=模擬一次裝夾銑削刀具路徑=5000字符

Session 6- Simulate a Single Setup Milling Tool Path（ NC 文件） This session demonstrates how to setup VERICUT for processing a tool path file. The Stock and the Fixture were created in a CAD system and exported as model files, such as STL, VERICUT Polygon, etc. In VERICUT, you will reference these model files to provide the size and shape of Stock and Fixture components. The Tool path origin is located relative to the stock model. The step at the end of the session shows how to save the session configuration so VERICUT can be quickly and easily configured to reprocess the tool path file. Session Steps: 1. Start from a 3axis machine setup Millimeter User file File Open Shortcut=CGTECH_LIBRARY File Name=fanuc3xm.usr, Open If prompted, respond as follows: Reset cut model? Reset / Save changes? No 2. Display Model axes and Driven Point Zero axes（加工坐標(biāo)系） and set to one view only View Axes Select Model and Driven Point Zero Close View Layout Standard 1 View This sample session will simulate the sample idlerarm.mcd tool path file. The tool path requires a 400 x 615 x 100 piece of raw material (previously modeled in a CAD system). 3. Reference the sample idlerarm.stk model file for use as the Stock model Model Model Definition: Model tab Type=Model File Browse Shortcut=CGTECH_SAMPLES Filter =*.stk （認(rèn)可文件） File Name=idlerarm.stk, Open Apply Fit The Xm, Ym, Zm axes represent the stock model coordinate system. The XDrivenPoint, YDrivenPoint, ZDrivenPoint axes represents the tool path zero point. 4. Reference the sample idlerarm.fxt model file for use as the Fixture model Active Component=Fixture Component Attributes tab Visibility = Workpiece View Apply Model tab Type=Model File Browse Shortcut=CGTECH_SAMPLES File Name=idlerarm.fxt, Open Color=Cornflower Blue Add OK Fit 5. Specify to simulate the sample idlerarm.mcd tool path file Setup Toolpath Highlight the fanuc3xm.mcd in the list Replace Shortcut=CGTECH_SAMPLES File Name=idlerarm.mcd, OK , OK The idlerarm.mcd file is an G-Code tool path that does not contain any information which describe the cutters used to machine the part. Therefore, a tool library containing the cutter description must be loaded. 6. Load a pre-defined tool library Setup Tool Manager File Open Shortcut=CGTECH_SAMPLES File Name=idlerarm.tls, Open File Close, Yes 7. Orient the tool path to the stock for proper cutting: The toolpath origin is in the lower left corner of the stock This action will be done by defining a table for the work offset: Setup G-Code Settings: Tables tab Highlight the existing table record under Program Zero Add/Modify Select Select From/To Locations From, Name = Tool To, Name = Stock Select the next to the Stock Move the cursor to the bottom of the stock forward left corner - when the arrow appears at the corner of the part (see below), left-click to select this location. The value in the field should be (-165 -200 0). Modify Close OK 8. Set VERICUTs Fast Feed value to indicate that cutting with a feed rate of 1550 MMPM or higher is unsafe for removing material Setup Motion Fast Feed=1550 OK NOTE: The programmed feedrate is 1500 MMPM. Material removed using a feed rate equal or greater than the Fast Feed value (or in Rapid mode) is highlighted in the red Error color and generates an error in the VERICUT Log file. This color is also used to indicate when crashes have occurred with clamps or fixtures. 9. Cut the stock model Press Play to End A User file is an ASCII text file containing the VERICUT session configuration. Saving a User file enables you to quickly reconfigure the system for additional tool path processing, as well as displaying models and model images. 9. Save a new User File named mill.usr File Save as Shortcut=Working Directory File Name=mill.usr, Save This session demonstrated how to setup VERICUT for processing a tool path file. Experience was provided defining a stock and fixture models via referencing CAD model files, supplying a tool path file name, orienting a tool path, and specifying how tool descriptions are to be obtained. The step prior to exiting showed how to save the VERICUT session configuration in a User file. The simulation session is repeated (and another cut model created) by executing VERICUT, opening the User file via File Open, then re-cutting the model. Session 6T- Simulate a Single Setup Turning Tool Path（ NC 文件） This session demonstrates how to setup VERICUT for processing a tool path file. The Tool path origin is located relative to the stock model. The step at the end of the session shows how to save the session configuration so VERICUT can be quickly and easily configured to reprocess the tool path file. Session Steps: 1. Start from a 2axis lathe machine setup User file File Open Shortcut=CGTECH_LIBRARY File Name=fanuc2x.usr, Open If prompted, respond as follows: Reset cut model? Reset / Save changes? No 2. Display model axes and Driven Point Zero axes View Axes Select Model and Driven Point Zero （加工坐標(biāo)系） Close This sample session will simulate the sample mcdturn4.mcd tool path file. The tool path requires a 2.2 diameter (1.1 radius) x 3 long piece of cylindrical raw material 3. Create a 1.1 radius x 3 long cylindrical Stock model and locate correctly Model Model Definition: Model tab Type=Cylinder Height(Z)=3, Radius=1.1 Apply Position tab Position = 0 0 0 Apply Fit The Xm, Ym, Zm axes represent the stock model coordinate system. The XDrivenPoint, YDrivenPoint, ZDrivenPoint axes represents the tool path zero point.（加工坐標(biāo)系） 4. Add a fixture model Active Component=Fixture Model tab Type=Model File Browse Shortcut=CGTECH_SAMPLES File Name=mcdturn4.fxt, Open Add Fit OK 5. Specify to simulate the sample mcdturn4.mcd tool path file Setup Toolpath Highlight the fanuc2x.mcd in the list Replace Shortcut=CGTECH_SAMPLES File Name=mcdturn4.mcd, OK , OK The mcdturn4.mcd file is an G-Code tool path that does not contain any information which describe the cutters used to machine the part. Therefore, a tool library containing the cutter description must be loaded. 6. Load a pre-defined tool library Setup Tool Manager File Open Shortcut=CGTECH_SAMPLES File Name=mcdturn4.tls, Open File Close, Yes 7. Orient the tool path to the stock for proper cutting: front face center of the cylinder This action will be done by defining a table for the work offset: Setup G-Code Settings, Tables tab Highlight the existing Job tables Delete Add/Modify Table Name = Program Zero Select From/To Locations From, Name= Tool To, Name = Stock Select the next to the Stock Move the cursor to the front face center of the cylinder - when the arrow appears at the center of the part (see below), left-click to select this location. The value in the field should be (0 0 3). Add Close OK 7. Set VERICUTs Fast Feed value to indicate that cutting with a feed rate of 15 IPM or higher is unsafe Setup Motion Fast Feed=15 OK NOTE: The programmed feedrate is 10 IPM. Material removed using a feed rate equal or greater than the Fast Feed value (or in Rapid mode) is highlighted in the red Error color and generates an error in the VERICUT Log file. This color is also used to indicate when crashes have occurred with clamps or fixtures. 8. Cut the stock model Press Play to End A User file is an ASCII text file containing the VERICUT session configuration. Saving a User file enables you to quickly re-configure the system for additional tool path processing, as well as displaying models and model images. 9. Save a new User File named turn.usr File Save as Shortcut=Working Directory File Name=turn.usr, Save This session demonstrated how to setup VERICUT for processing a tool path file. Experience was provided defining a stock, supplying a tool path file name, orienting a tool path, and specifying how tool descriptions are to be obtained. The last step showed how to save the VERICUT session configuration in a User file. The simulation session is repeated (and another cut model created) by executing VERICUT, opening the User file via File Open, then re-cutting the model. Session 7- Cut Multiple Setups Using The Same Tool Path（ NC 文件） This session shows how to cut multiple parts with a single tool path. The op_panda.mcd tool path file is used with 2 different tool path positions to machine 2 - 7.8 x 9 x 1.75 blocks of material (see below). See also: Session 24- Simulate Multiple Tool Paths, Different Orientations Parts machined using op_panda.mcd: Session Steps: （多工位加工 G54-G55）注意可以拷貝成為兩個程序； 1. Start from a pre-defined User file File Open Shortcut=CGTECH_SAMPLES File Name=op_panda.usr,Open If prompted, respond as follows: Reset cut model? Reset / Save changes? No 2. Create two Stock models to be a 7.8 x 9 x 1.75 inch block Model Model Definition: Model tab Add Position tab Position = 12 0 0 Apply Cancel Fit 3. Cut the first workpiece Play to End 4. Modify the tool path position to cut the second part This is done by modifying the Program Zero table for the work offset by 12 in the X direction to adjust for the 12 difference in the location of the second stock block: Setup G-Code Settings: Tables tab Highlight the existing Job tables, Program Zero table record Add/Modify Select Select From（ 0 0 0 ） /To Locations To Offset=12.08 0.065 0.37 Modify Close OK 5. Rewind the tool path, then cut second part Rewind Play to End Session 8 - Create a VERICUT Tool Library With Mill Cutters（定義刀具庫） This session shows how to use VERICUTs Tool Manager to graphically define cutter shapes and store them in a Tool Library file. Assume a G-Code tool path file to be simulated requires the cutter shapes shown below. 注意： G-Code tool path file 仿真 要求建立刀具庫； Session Steps: 1. Start with a new Inch User file File Properties Default Units=Inch, OK File New Session If prompted, respond as follows: Reset cut model? Yes / Save changes? No 2. Access the Tool Manager and specify that a new Tool Library file is being created Setup Tool Manager If the window doesnt look like the image above, stretch each partition by dragging it with the left mouse button . 3. Add a .5 dia., 1.5 ht., 118 deg. drill as tool library ID 1 (used by T1) Add New Tool Mill ID=1 Description= 0.5D 2H 1.5FL DRL , Enter Add Cutter. Drill Diameter (D)= 0.5, Drill Point Angle (A)=118, Height (H)=2, Flute Length=1.5 OK (the drill is displayed in the Tool Manager window) 4. Add a .5 dia., .12 cr, 1.25 ht. end mill as ID 4 (used by T4) Add New Tool Mill ID=4 Description=.5D .12R 2H 1.25FL EM With the tool 4 highlighted, right-click Cutter. Bull Nose End Mill Diameter (D)=.5, Corner Radius (R)=.12, Height (H)=2, Flute Length=1.25 OK 5. Add a .5 dia., 1.75 ht. flat end mill as ID 7 (used by T7) Add New Tool Mill ID=7 Description=.5D 2H 1.75FL FEM With the tool 7 highlighted, right-click Cutter. Flat Bottom End Mill Diameter (D)=.5, Height (H)=2, Flute Length=1.75 OK 6. Save the tools in a Tool Library file named mill.tls and close the Tool Manager File Save As Shortcut=Working Directory File=mill.tls, Save File Close No VERICUT can later be configured to process a G-Code tool path file and use this library as the source of tool descriptions. Session 8T- Create a VERICUT Tool Library with turn cutters（定義刀具庫） This session shows how to use VERICUTs Tool Manager to graphically define cutter shapes and store them in a Tool Library file. Assume a G-code tool path file to be simulated requires the cutter shapes shown below. 注意： G-Code tool path file 仿真要求建立刀具庫； Session Steps: 1. Start with a new Inch User file File Properties Default Units=Inch, OK File New If prompted, respond as follows: Reset cut model? Yes / Save changes? No 2. Access the Tool Manager and specify that a new Tool Library file is being created Setup Tool Manager If the window doesnt look like the image above, stretch each partition by dragging it with the left button mouse. 3. Add a .5 dia. triangular insert as tool library ID 1 (used by T1) Add New Tool Turn ID=1 Description=INSERT .5D .06CR Add Insert. General Insert T - Triangle Inscribed (D)= 4 (corresponds to 4 x 1/8 = 0.5 inches) Thickness = 2 (2 x 1/16 = .125 inches) Corner Radius (R)=4 (4 x 1/64 = .0625 inches) Lead Angle (A)=15 OK (the cutter is displayed in the Tool Manager window) 4. Add a .5 dia. round button insert as ID 2 (used by T2) Add New Tool Turn Description=BUTTON .5DIA With the tool 2 highlighted, right-click Insert. General Insert R - Round Inscribed (D)= 4 (corresponds to 4 x 1/8 = 0.5 inches) Thickness = 2 (2 x 1/16 = .125 inches) OK (the cutter is displayed in the Tool Manager window) 5. Add a .25 dia., 2 ht. drill as ID 3 (used by T3) Add New Tool Mill Description=.25D 2H DRILL With the tool 3 highlighted, right-click Cutter. Drill Diameter (D)=.25, Drill Point Angle (A) = 118, Height (H)=2, Flute Length=1.75 OK 6. Save the tools in a Tool Library file named turn.tls and close the Tool Manager File Save As Shortcut=Working Directory File=turn.tls, Save File Close No VERICUT can later be configured to process a G-code tool path file and use this library as the source of tool descriptions. Day 1 Review - Project #1（ NC文件） This session reviews what we have done so far. User File Basic requirements for simulation: o Define and locate Stock o Build a Tool Library o Select Program file and locate the Program Zero This session does not contain the steps. You can refer to the previous sessions or consult the On-Line Help at any time by pressing F1. 1. Start with a pre-defined User file for a 3 axis machine and a Fanuc control Shortcut=CGTECH_LIBRARY File Name=fanuc3x.usr 2. The stock is a block 12.1 x 7 x 3 3. The program to be simulated is: Shortcut=CGTECH_SAMPLES File Name=aero-part.mcd NOTE: The fastest feedrate allowed on this part is 180 Inch/Minute. 4. The program origin is on the top center of the block 5. Build a Tool library to cut this part: Tool #1, Face Mill, 2.5 inch dia. .03 Corner Radius, 1.2 height, 1.0 Flute Length Tool #2, Bull Nose End Mill, 1.5 inch dia. .125 Corner Radius, 2.75 height, 2.5 Flute Length Tool #3, Bull Nose End Mill, .75 inch dia. .125 Corner Radius, 3.0 height, 2.5 Flute Length 5. Cut the part: Final result 6. Save User file as project1.usr This User file will be used as a base for another training session 第六節(jié) 模擬一次裝夾銑削刀具路徑（ NC 文件） 本節(jié)介紹了如何安裝 VERICUT（數(shù)控仿真加工軟件）中用于加工刀具路徑的文件。毛坯和工件夾具是在 CAD系統(tǒng)中創(chuàng)建的，并被導(dǎo)出為模型文件，如 STL，VERICUT 多邊形等。在 VERICUT，你會引用這些模型文件來提供毛坯和夾具元件的大小和形狀。刀具路徑原點(diǎn)位于相對于毛坯模型的位置。在本節(jié)內(nèi)容的最后顯示了如何保存會話配置使 VERICUT可以快速、 簡單地重新設(shè)置刀具路徑的文件。 本節(jié)內(nèi)容： 1、從安裝了毫米用戶文件的 3軸機(jī)床開始 文件 打開 快捷 = CGTECH_LIBRARY 文件名 = fanuc3xm.usr， 開 如果出現(xiàn)提示，答復(fù)如下：復(fù)位切模式？復(fù)位 /保存更改？無 2、顯示模型軸和從動點(diǎn)零軸（加工坐標(biāo)系）。并設(shè)置為只有一個視圖 視圖 軸 選擇型號和驅(qū)動點(diǎn)零 關(guān)閉 視圖 配置 標(biāo)準(zhǔn) 1視圖 此示例會話將模 擬樣品“ idlerarm.mcd”刀具路徑文件。刀具路徑需要一個 400 615 100片的原料（以前在 CAD系 統(tǒng)建模）。 3、引用樣本“ idlerarm.stk”模型文件作為坯料模型 模型 模型定義：模型選項卡 類型 =模型文件 文件瀏覽 快捷 = CGTECH_SAMPLES（數(shù)控仿真樣本集） 過濾器 =*.stk（認(rèn)可文件） 文件名 = idlerarm.stk，開 應(yīng)用 安裝 Xm， Ym， Zm軸代表坯料模型坐標(biāo)系， XDrivenPoint， YDrivenPoint， ZDrivenPoint軸代表刀具路徑零點(diǎn)坐標(biāo)系。 4、將樣本“ idlerarm.fxt”模型文件用作夾具模型文件 零件的有效部分 =夾具 零件屬性選項卡 可見度 =工件視圖 應(yīng)用 模型選項卡 類型 =模型文件 瀏覽 快捷 = CGTECH_SAMPLES（數(shù)控仿真樣本集） 文件名 = idlerarm.fxt，開 顏色 =淺藍(lán)色 添加 確定 安裝 5、指定模擬樣品“ idlerarm.mcd”刀具路徑文件 設(shè)置 刀具路徑 突出顯示列表中的刀具庫文件 更換 快捷 = 數(shù)控仿真樣本集 文件名 = idlerarm.mcd，好，好 在“ idlerarm.mcd”文件不包含描述了用于加工零件的刀具任何信息的 G代碼刀具路徑。因此，含有刀具描述一個工具庫必須被加載。 6、放入一個預(yù)先定義的工具庫 設(shè)置 工具管理 文件 打開 快捷 = CGTECH_SAMPLES 文件名 = idlerarm.tls，開 文件 關(guān)閉，是 7、規(guī)定刀具路徑的方向，以適當(dāng)?shù)那邢髅鳛闇?zhǔn)：刀具路徑的起始點(diǎn)是在毛坯的左下角 我們通過定義機(jī)床工作臺的原點(diǎn)偏移來確定刀具路徑的起始點(diǎn)： 設(shè)置 G代碼 設(shè)置：機(jī)床工作臺選項卡 突出顯示在程序原點(diǎn)的現(xiàn)有機(jī)床工作臺記錄 添加 /修改 選擇選擇從 /到位置 從，名稱 =刀具 到，名稱 =毛坯 選擇 獲得下一個 毛坯 將光標(biāo)移動到該毛坯的底部左前方的角落 - 當(dāng)箭頭出現(xiàn)在零件的拐角處（見下文），左鍵單擊以選擇這個位置。在字段中的值應(yīng)為（ -165-2000）。 修改 關(guān)閉 確定 8、設(shè)置 VERICUT 的“快速進(jìn)給”參數(shù)值來表示切削速率為 1550 MMPM 或更高的進(jìn) 給速率切削去除材料是不安全的 設(shè)置 運(yùn)動 快速進(jìn)給速度 =1550 確定 注：編程進(jìn) 給率是 1500 MMPM。原料采用進(jìn)給速度等于或大于快速進(jìn)給值（或快速模式）中去掉紅色錯誤顏色突出顯示，并在 VERICUT日志文件生成一個錯誤。這種顏色也可以用來指示當(dāng)夾具或卡具發(fā)生崩裂。 9、切削毛坯模型 按播放到結(jié)束 用戶文件是包含 VERICUT 會話配置的 ASCII 文本文件。保存用戶文件，使您能夠快速重新配置系統(tǒng)的附加工具路徑的處理，以及顯示模型和模型圖像。 10、保存名為“ mill.usr”一個新的用戶文件 文件 另存為 快捷 =工作目錄 文件名 = mill.usr，保存 本節(jié)內(nèi)容展示了如何設(shè)置 VERICUT用于加工刀具路徑文件。通過引用的 CAD模型文件，提供刀具路徑文件名，確定刀具路徑的方向，并指定如何獲得工具描述，使我們在定義毛坯和夾具模型有了一定的經(jīng)驗(yàn)。 在退出之前的步驟顯示了如何將 VERICUT會 話配置保存在一個用戶文件中。仿真會話重復(fù)（另外一個切削模型的創(chuàng)建）可以通過執(zhí)行 VERICUT，打開用戶文件 打開，然后重新創(chuàng)建切削模型。 第 6-T節(jié)模擬安裝一次簡單的車削刀具路徑（ NC文件） 本節(jié)內(nèi)容介紹了如何設(shè)置 VERICUT用于加工刀具路徑文件。刀具路徑原點(diǎn)位于相對于毛坯模型。在本節(jié)模擬操作的結(jié)束步驟顯示了如何保存會話配置使VERICUT可以快速，輕松地配置重新處理的刀具路徑文件。 模擬車削刀具路徑的步驟： 1、選擇安裝了用戶文件的 2軸車床開始啟動 文件 打開 快捷 = CGTECH_LIBRARY （數(shù)控仿真樣本集） 文件名 = fanuc2x.usr，開 如果出現(xiàn)提示，答復(fù)如下：復(fù)位切模式？復(fù)位 /保存更改？無 2、顯示模型軸和從動點(diǎn)零軸 視圖 軸 選擇型號和驅(qū)動點(diǎn)零（加工坐標(biāo)系） 關(guān)閉 此示例會話將模擬樣品“ mcdturn4.mcd”刀具路徑文件。刀具路徑需要一個直徑為 2.2（ 1.1半徑） 3片長圓柱形原料 3、創(chuàng)建一個半徑為 1.1長度為 3mm的圓柱形毛坯模型，并正確定位 模型 模型定義：模型選項卡 類型 =氣缸 高度（ Z） =3，半徑 =1.1 應(yīng)用 位置選項卡 位置 =000 應(yīng)用 適合 XM， YM， ZM 軸代 表毛坯模型坐標(biāo)系。該 XDrivenPoint， YDrivenPoint，ZDrivenPoint軸代表刀具路徑零點(diǎn)。（加工坐標(biāo)系） 4、添加一個夾具模型 毛坯有效部分 =夾具 模型選項卡 類型 =模型文件 瀏覽 快捷 = CGTECH