Difference between revisions of "Trex 1215 S"

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Work in progress
 
==Technical Specifications==
 
==Technical Specifications==
  
 
*Clamping Area X / Y on grooved panel: 1860 x 1340 mm
 
*Clamping Area X / Y on grooved panel: 1860 x 1340 mm
 
*Length x width x height over all    :2180x1800x1420mm
 
*Length x width x height over all    :2180x1800x1420mm
 +
*Length x width x height of platform :1500x1200x30mm
  
 
==Health & Safety==
 
==Health & Safety==
 +
*Ensure you have been trained in the use of the CNC machine
 +
*Inspect the equipment to ensure no obvious defects: damaged chuck, dull or cracked tools, damaged shields
 +
* Use appropriate personal protective equipment (PPE)
 +
**Safety glasses
 +
**Hearing protection
 +
** Non-slip shoes
 +
* Remove rings, bracelets, watches, necklaces before work
 +
*Tie back and confine long hair
 +
* Wear tight-fitting clothing and/or roll up sleeves to prevent snagging
 +
*Observe and check the cut progress until the end, don't leave the machine
 +
*in case of emergency, pause the machine. Especially if the material begins to move, do not try to handle it with your hands.
  
 
==CAM==
 
==CAM==
Line 12: Line 26:
 
After creating your milling strategy in RhinoCAM, it has to be transformed into a format that is readable by the TRex control system.  
 
After creating your milling strategy in RhinoCAM, it has to be transformed into a format that is readable by the TRex control system.  
 
The piece of software performing this task is called a postprocessor.  
 
The piece of software performing this task is called a postprocessor.  
Be sure to select the correct postprocessor ("TRex 1215") as well as the expected file extension (.DIN) in RhinoCAM when exporting your milling program.
+
Be sure to select the correct postprocessor ("CNC_STEP_BCN") as well as the expected file extension (.nc) in RhinoCAM when exporting the file for CNC.
  
 
==MCS==
 
==MCS==
Line 46: Line 60:
  
 
Optimising feed rates and speeds:
 
Optimising feed rates and speeds:
 +
 
1. Start off using an RPM derived for the chip load for the material being cut (see charts).
 
1. Start off using an RPM derived for the chip load for the material being cut (see charts).
 +
 
2. Increase the cutting speed (feed rate) until the quality of the part’s finish starts to decrease or the
 
2. Increase the cutting speed (feed rate) until the quality of the part’s finish starts to decrease or the
 
part is starting to move from hold downs. Then decrease speed by 10%.
 
part is starting to move from hold downs. Then decrease speed by 10%.
 +
 
3. Decrease RPM until finish deteriorates, then bring RPM back up until finish is acceptable.
 
3. Decrease RPM until finish deteriorates, then bring RPM back up until finish is acceptable.
 +
 
4. This optimises RPM and speed to remove the largest possible chips.
 
4. This optimises RPM and speed to remove the largest possible chips.
 +
 +
'''Download the tool library for RhinoCam here:''' 
 +
[[File:Iaacp59 millingbits (1).zip]]
 +
  
 
'''Feeds and Speed:'''
 
'''Feeds and Speed:'''
 +
  
 
*PLYWOOD
 
*PLYWOOD
 
  
 
Flat 6mm, 1 flute
 
Flat 6mm, 1 flute
Line 61: Line 83:
 
RPM: 13000
 
RPM: 13000
  
Plunge: 1000 mm/min
+
Plunge: 1000
  
Travelling clearance plane: 4000 mm/min
+
Travelling clearance plane: 4000
  
Rest of the parameters:2000 mm/min
+
Rest of the parameters:2000
  
 
Step down: 4mm max  (always depending on the diameter of the tool)
 
Step down: 4mm max  (always depending on the diameter of the tool)
Line 74: Line 96:
 
Flat 6mm, 1 flute
 
Flat 6mm, 1 flute
  
RPM: 12000  
+
RPM: 12000
  
Plunge: 2000 mm/min
+
Plunge: 2000
  
Travelling clearance plane: 4000 mm/min
+
Travelling clearance plane: 4000
  
Rest of the parameters:3500 mm/min
+
Rest of the parameters:3500
  
 
Step down: 20mm max (always depending on the diameter of the tool)
 
Step down: 20mm max (always depending on the diameter of the tool)
Line 91: Line 113:
 
RPM: 12500
 
RPM: 12500
  
Plunge: 1000 mm/min
+
Plunge: 1000
  
Travelling clearance plane: 4000 mm/min
+
Travelling clearance plane: 4000
  
Rest of the parameters:2000 mm/min
+
Rest of the parameters:2000
  
 
Step down: 4mm max  (always depending on the diameter of the tool)
 
Step down: 4mm max  (always depending on the diameter of the tool)
 
Parameters are given by ShopBot
 
 
[[File:Schermata 2017-01-13 alle 16.45.07.png|800px]]
 
 
[[File:Schermata 2017-01-13 alle 16.51.02.png|800px]]
 
 
[[File:Schermata 2017-01-13 alle 16.53.13.png|800px]]
 
 
[[File:Schermata 2017-01-13 alle 16.54.38.png|800px]]
 
 
[[File:Schermata 2017-01-13 alle 16.55.34.png|800px]]
 
 
[[File:Schermata 2017-01-13 alle 16.56.29.png|800px]]
 
  
 
==Use of TRex S-1215==
 
==Use of TRex S-1215==
  
====Safety Precautions====
+
'''Get ready'''
  
 
-Always wear safety glasses when operating the TRex or observing the machine when it is in use.
 
-Always wear safety glasses when operating the TRex or observing the machine when it is in use.
Line 123: Line 131:
 
-If you need a bathroom break, the machine can be paused by clicking on the stop button found when on the program tab of the control software-KinetiC-NC.  
 
-If you need a bathroom break, the machine can be paused by clicking on the stop button found when on the program tab of the control software-KinetiC-NC.  
  
-Make sure the bed of the machine is clean before use. Inform us if it is not clean.
+
-Make sure the bed of the machine is clean before use. Inform the fabrication team if it is not clean.
  
 
-Securely fasten your material to the bed of the machine. Consult us every time you are faced with a different, challenging or unusual work-holding scenario.
 
-Securely fasten your material to the bed of the machine. Consult us every time you are faced with a different, challenging or unusual work-holding scenario.
 +
 +
'''Set the machine'''
  
 
-Perform '"Homing routine to establish the true machine home X-0  Y-0  (in the machine coordinates system)
 
-Perform '"Homing routine to establish the true machine home X-0  Y-0  (in the machine coordinates system)
  
-Jog X, Y to your personal Work Home coordinates, ie: the corner of your material &  the X,Y origin of your drawing.   
+
-Jog X, Y to your personal Work Home coordinates, i.e: the corner of your material &  the X, Y origin of your drawing.   
  
 
-Take a photo of the Control PC screen or take note of the machine [http://www.mesincuci.co/harga-mesin-cuci-toshiba-1-tabung-2017 Mesin Cuci Toshiba 1 Tabung] coordinates system to your chosen Work Home position. Example: X - 105.499, Y - 145.376 (do not worry about Z yet). Work Home X  Y coordinates are simply offset measurements from the true Home (X-0, Y-0) of the Machine.
 
-Take a photo of the Control PC screen or take note of the machine [http://www.mesincuci.co/harga-mesin-cuci-toshiba-1-tabung-2017 Mesin Cuci Toshiba 1 Tabung] coordinates system to your chosen Work Home position. Example: X - 105.499, Y - 145.376 (do not worry about Z yet). Work Home X  Y coordinates are simply offset measurements from the true Home (X-0, Y-0) of the Machine.
Line 137: Line 147:
 
-Install tool in collet/tool holder + install tool/tool holder on the spindle.
 
-Install tool in collet/tool holder + install tool/tool holder on the spindle.
  
-Use command ”C2” & follow [http://www.mesincuci.co/harga-mesin-cuci-panasonic Mesin Cuci Panasonic] prompts on the PC screen (You will place the Z-0 plate directly under the tool on your material & place the  Alligator Clip onto the collet nut on the tool holder) to set the Z-0 of your home position coordinates. You now have all 3 of your X, Y & Z work home coordinates loaded into the CNC system.
+
'''Send the file'''
  
-Load part file, to choose the file you need to launch, you will see your “G-Code” which you generated in RhinoCam on the screen.
+
-Load/Open the NC file, to choose the file you need to launch, you will see your “G-Code” which you generated in RhinoCam on the screen.
  
 
-Visually check again the machine bed to ensure all tools have been removed and that material is securely fastened to the bed.
 
-Visually check again the machine bed to ensure all tools have been removed and that material is securely fastened to the bed.
  
-Start in ShopBot software, follow prompts.
+
-Start in KinetiC-NC software, follow prompts.
  
-Start the spindle with the green button on the ShopBot remote.
+
-Monitor the machine closely until the machine stops. Laser Cutters and CNC Routers have a high risk of fire if left unattended.
cir
+
-Monitor the machine closely until the machine stops. Laser Cutters and CNC Routers have a high risk of fire if left unattended.
+
  
-If you need to pause the machine, press the Spacebar on the PC Keyboard. The machine will pause, then follow the prompts to restart or end the process.
+
-If you need to pause the machine, click the Stop button on the KinetiC-NC Software. The machine will pause, then continue the work by clicking on the Play button
  
-Emergency stop (E-stop) buttons are located in 2 places: On your remote, next to the Control PC, and On the end of the Y - Axis gantry. The Emergency Stop buttons are large, round Red buttons which will completely shut-down the machine.
+
-Emergency stop (E-stop) buttons are located in 2 places: On your remote, next to the Control PC, and On the end of the Y-Axis gantry. The Emergency Stop buttons are large, round Red buttons which will completely shut-down the machine.
  
 
-Remove the tool-holder & tool from the spindle and store it in the tool-holder rack.
 
-Remove the tool-holder & tool from the spindle and store it in the tool-holder rack.
Line 159: Line 167:
 
-Skeletons and scraps created during the process should be cut up & placed in the recycling cart.
 
-Skeletons and scraps created during the process should be cut up & placed in the recycling cart.
  
==Important commands==
+
===Interface===
 +
[[File:KinectiC-NC startup screen.jpeg |800px]]
  
===Set Z zero===
+
The image below shows the interface of KinetiC-NC software.
  
Run command C2. Put the metal plate under the machine head and connect the alligator grip on the tool head. Run Enter. The machine will go down and adjust its Z zero. Done.
+
The tabs available in the software are:
  
===Set XY zero===
+
====A. Program====
  
Run command C3. The machine will move. Wait. Done.
+
This tab lets you perform the following:
  
===Change a toolpath tool===
+
1. Load the G-Code generated from your RhinoCam.
  
Run command 72 (press CN and then 72). The machine will leave its tool on its tool holder and will go to look for the new tool. Once the new tool is load the machine will move to the Z tool distance area in the toolpath. Connect the aligator grip to the tool head. The machine will go down and save the tool length. Done.
+
2. View and manage the feed rate of the machine while it is running.
 +
 
 +
3. View the current coordinates of the machine.
 +
 
 +
4. Start and Stop the GCode.
 +
 
 +
5. View the tool path on the display window. By default the colour of the toolpath before running in green. As the file starts and passes the toolpath the colour changes to light blue which keeps you the track of the progress of the file.
 +
 
 +
====B. Jog Setup====
 +
Here you can set the zero of the stock before you start your milling work.Its really important that you fix your tool well before you set the zero. You can use the two wrenches of 22mm to fix the milling bit to the tool head.
 +
 +
[[File:Setup screen Kinetic-nc.JPG |800px]]
 +
 
 +
'''Set X,Y,Z zero'''
 +
 
 +
Setting the X,Y and Z is done by eye in the Trex 1215 CNC Machine. To set the zero please follow these instructions:
 +
 
 +
1. To set the X and Y we move the machine towards the zero set in the stock in RhinoCam.
 +
 
 +
2. While setting this, we make sure we place the tool in a way that half the tool is inside the material and half outside the material. This makes sure that the center of the tool is at the zero of the stock.
 +
 
 +
3. To set the Z we move the bit down slowly in steps until the barely touches the stock and also we move the tool and make sure it doesn't drag through the stock leaving a mark. We can use the paper technique by placing a piece of paper below the bit to set the z.
 +
 
 +
====D. Custom====
 +
 
 +
[[File:Z 0 invoke.PNG |800px]]
 +
 
 +
The best way to set the Z is the Tool Length Sensor.
 +
 
 +
This device has to be placed on the stock surface. Than move the spindle (with the mill bit install) on the top of the tool length sensor leaving some space between them. Select the "Z0 Finder" command and click on "invoke".
 +
The spindle will go down untill the mill bit touch the sensor.  
 +
Done, the Z 0 is seted
 +
 
 +
[[File:Tool Length Sensor.png |800px]]
  
 
==External Links==
 
==External Links==
Line 182: Line 224:
 
*https://www.youtube.com/watch?v=vrNDFlFOOtE&list=PLx9G05pFm0QKRJoklNlKfvcE1zfFIRXqF&index=1
 
*https://www.youtube.com/watch?v=vrNDFlFOOtE&list=PLx9G05pFm0QKRJoklNlKfvcE1zfFIRXqF&index=1
  
==Maintenance==
 
 
==Downloads==
 
==Downloads==
 
[[Category:Machines]]
 
[[Category:Machines]]
 +
[[File:Iaacp59 millingbits (1).zip]]
 +
 +
Below here you can find the Post-processor for CNC Trex-1215 and the library of milling bits
 +
 +
[[File:Post_processor_&_Milling_bits_library_CNC_Trex_1215.zip ]]

Revision as of 11:20, 31 March 2020

Work in progress

Technical Specifications

  • Clamping Area X / Y on grooved panel: 1860 x 1340 mm
  • Length x width x height over all  :2180x1800x1420mm
  • Length x width x height of platform :1500x1200x30mm

Health & Safety

  • Ensure you have been trained in the use of the CNC machine
  • Inspect the equipment to ensure no obvious defects: damaged chuck, dull or cracked tools, damaged shields
  • Use appropriate personal protective equipment (PPE)
    • Safety glasses
    • Hearing protection
    • Non-slip shoes
  • Remove rings, bracelets, watches, necklaces before work
  • Tie back and confine long hair
  • Wear tight-fitting clothing and/or roll up sleeves to prevent snagging
  • Observe and check the cut progress until the end, don't leave the machine
  • in case of emergency, pause the machine. Especially if the material begins to move, do not try to handle it with your hands.

CAM

  • 2D and 3D - RhinoCAM

After creating your milling strategy in RhinoCAM, it has to be transformed into a format that is readable by the TRex control system. The piece of software performing this task is called a postprocessor. Be sure to select the correct postprocessor ("CNC_STEP_BCN") as well as the expected file extension (.nc) in RhinoCAM when exporting the file for CNC.

MCS

  • KinetiC-NC

Selecting the Right Bit for the Job

Milling Tools: A milling bit (also called milling cutter or end mill) is a tool used in CNC or hand-operated milling machines to remove material in a controlled manner to obtain the desired shape. This is usually done by moving the rotating tool sideways (lateral direction) through the material, thus cutting chips off the workpiece. Most milling bits can also cut in the direction of the tool axis, like a drilling bit. Vice-versa, however, a drilling bit is designed to cut only axially to create cylindrical holes, and cannot be used for milling.

Bit material: Router bits are made from a variety of materials. The most common are solid carbide, carbide-tipped steel, and high-speed steel. Both solid carbide and carbide- tipped are good choices. We do not recommend using high-speed steel bits as they dull quickly and must be re-sharpened.

Flute type: There are four basic flute types: Straight, spiral up-cut, spiral down-cut, and compression. Each type has its own advantages and disadvantages, which are outlined in the chart below.

Schermata 2017-01-13 alle 17.01.41.png

Parameters: Feeds and Speeds

A challenge of getting a good CNC cut is in selecting the best bit, best cutting speed (feed rate) and router/spindle RPM (speed of rotation). Bits, feeds, and speeds are a critical part of machining and should be fully understood before deviating from recommended settings. Bits choice is important in chip load, which is a representation of the size of the chips produced during cutting. The goal is to get the maximum chip load possible to increase productivity, reduce heat, and prevent premature dulling. When chip load is too small, bits will get too hot and dull quicker. When chip load is too high, the tool will deflect creating a bad surface finish and, in extreme cases, chip or break the bit.

Optimising feed rates and speeds:

1. Start off using an RPM derived for the chip load for the material being cut (see charts).

2. Increase the cutting speed (feed rate) until the quality of the part’s finish starts to decrease or the part is starting to move from hold downs. Then decrease speed by 10%.

3. Decrease RPM until finish deteriorates, then bring RPM back up until finish is acceptable.

4. This optimises RPM and speed to remove the largest possible chips.

Download the tool library for RhinoCam here: File:Iaacp59 millingbits (1).zip


Feeds and Speed:


  • PLYWOOD

Flat 6mm, 1 flute

RPM: 13000

Plunge: 1000

Travelling clearance plane: 4000

Rest of the parameters:2000

Step down: 4mm max (always depending on the diameter of the tool)


  • FOAM

Flat 6mm, 1 flute

RPM: 12000

Plunge: 2000

Travelling clearance plane: 4000

Rest of the parameters:3500

Step down: 20mm max (always depending on the diameter of the tool)


  • CHIPBOARD

Flat 6mm, 1 flute

RPM: 12500

Plunge: 1000

Travelling clearance plane: 4000

Rest of the parameters:2000

Step down: 4mm max (always depending on the diameter of the tool)

Use of TRex S-1215

Get ready

-Always wear safety glasses when operating the TRex or observing the machine when it is in use.

-Never leave the machine when it is in operation.

-If you need a bathroom break, the machine can be paused by clicking on the stop button found when on the program tab of the control software-KinetiC-NC.

-Make sure the bed of the machine is clean before use. Inform the fabrication team if it is not clean.

-Securely fasten your material to the bed of the machine. Consult us every time you are faced with a different, challenging or unusual work-holding scenario.

Set the machine

-Perform '"Homing routine to establish the true machine home X-0 Y-0 (in the machine coordinates system)

-Jog X, Y to your personal Work Home coordinates, i.e: the corner of your material & the X, Y origin of your drawing.

-Take a photo of the Control PC screen or take note of the machine Mesin Cuci Toshiba 1 Tabung coordinates system to your chosen Work Home position. Example: X - 105.499, Y - 145.376 (do not worry about Z yet). Work Home X Y coordinates are simply offset measurements from the true Home (X-0, Y-0) of the Machine.

-Zero work coordinates to X-0 Y-0

-Install tool in collet/tool holder + install tool/tool holder on the spindle.

Send the file

-Load/Open the NC file, to choose the file you need to launch, you will see your “G-Code” which you generated in RhinoCam on the screen.

-Visually check again the machine bed to ensure all tools have been removed and that material is securely fastened to the bed.

-Start in KinetiC-NC software, follow prompts.

-Monitor the machine closely until the machine stops. Laser Cutters and CNC Routers have a high risk of fire if left unattended.

-If you need to pause the machine, click the Stop button on the KinetiC-NC Software. The machine will pause, then continue the work by clicking on the Play button

-Emergency stop (E-stop) buttons are located in 2 places: On your remote, next to the Control PC, and On the end of the Y-Axis gantry. The Emergency Stop buttons are large, round Red buttons which will completely shut-down the machine.

-Remove the tool-holder & tool from the spindle and store it in the tool-holder rack.

-Clean the machine and your work area completely after you have removed your material.

-Skeletons and scraps created during the process should be cut up & placed in the recycling cart.

Interface

KinectiC-NC startup screen.jpeg

The image below shows the interface of KinetiC-NC software.

The tabs available in the software are:

A. Program

This tab lets you perform the following:

1. Load the G-Code generated from your RhinoCam.

2. View and manage the feed rate of the machine while it is running.

3. View the current coordinates of the machine.

4. Start and Stop the GCode.

5. View the tool path on the display window. By default the colour of the toolpath before running in green. As the file starts and passes the toolpath the colour changes to light blue which keeps you the track of the progress of the file.

B. Jog Setup

Here you can set the zero of the stock before you start your milling work.Its really important that you fix your tool well before you set the zero. You can use the two wrenches of 22mm to fix the milling bit to the tool head.

Setup screen Kinetic-nc.JPG

Set X,Y,Z zero

Setting the X,Y and Z is done by eye in the Trex 1215 CNC Machine. To set the zero please follow these instructions:

1. To set the X and Y we move the machine towards the zero set in the stock in RhinoCam.

2. While setting this, we make sure we place the tool in a way that half the tool is inside the material and half outside the material. This makes sure that the center of the tool is at the zero of the stock.

3. To set the Z we move the bit down slowly in steps until the barely touches the stock and also we move the tool and make sure it doesn't drag through the stock leaving a mark. We can use the paper technique by placing a piece of paper below the bit to set the z.

D. Custom

Z 0 invoke.PNG

The best way to set the Z is the Tool Length Sensor.

This device has to be placed on the stock surface. Than move the spindle (with the mill bit install) on the top of the tool length sensor leaving some space between them. Select the "Z0 Finder" command and click on "invoke". The spindle will go down untill the mill bit touch the sensor. Done, the Z 0 is seted

Tool Length Sensor.png

External Links

Rhinocam tutorials

Downloads

File:Iaacp59 millingbits (1).zip

Below here you can find the Post-processor for CNC Trex-1215 and the library of milling bits

File:Post processor & Milling bits library CNC Trex 1215.zip