Recommendations for PC to run p.m. 940 conversion
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Re: Recommendations for PC to run p.m. 940 conversion
Really I’m just super confused on how to bring the power into the box and distribute it to the contactor and the breaker if anybody’s very familiar with this and cares to message me I would love some one on one help if anybody could assist
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Re: Recommendations for PC to run p.m. 940 conversion
Need support? READ THIS POST first. http://centroidcncforum.com/viewtopic.php?f=60&t=1043
All Acorn Documentation is located here: viewtopic.php?f=60&t=3397
Answers to common questions: viewforum.php?f=63
and here viewforum.php?f=61
Gear we use but don't sell. https://www.centroidcnc.com/centroid_di ... _gear.html
All Acorn Documentation is located here: viewtopic.php?f=60&t=3397
Answers to common questions: viewforum.php?f=63
and here viewforum.php?f=61
Gear we use but don't sell. https://www.centroidcnc.com/centroid_di ... _gear.html
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Re: Recommendations for PC to run p.m. 940 conversion
power goes to disconnect then to distribution block then to circuit breakers then to components.
Need support? READ THIS POST first. http://centroidcncforum.com/viewtopic.php?f=60&t=1043
All Acorn Documentation is located here: viewtopic.php?f=60&t=3397
Answers to common questions: viewforum.php?f=63
and here viewforum.php?f=61
Gear we use but don't sell. https://www.centroidcnc.com/centroid_di ... _gear.html
All Acorn Documentation is located here: viewtopic.php?f=60&t=3397
Answers to common questions: viewforum.php?f=63
and here viewforum.php?f=61
Gear we use but don't sell. https://www.centroidcnc.com/centroid_di ... _gear.html
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Re: Recommendations for PC to run p.m. 940 conversion
Here's another one with the components labeled. This one uses a side mount disconnect switch and then power goes to 85A power distribution blocks and then into circuit breakers. Some circuits then go thru contactors that are controlled by the Acorn4 Board
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Re: Recommendations for PC to run p.m. 940 conversion
WIRING PRACTICES
Breaker at panel is sized to the total machine load. Wire from the breaker panel to the machine disconnect is sized to carry the breaker rating. Output from the machine disconnect is then ran in parallel to each of the load breakers. All of this parallel wiring is rated for the total machine load.
The load breakers are sized for the current rating of the individual loads. The wires from the load breakers to the individual loads are then sized according to each load breaker size.
The cardinal rule is that wiring is always sized to carry the amperage rating of the next upstream breaker. Wire size can be determined by using Ampacity tables: https://www.usawire-cable.com/pdfs/nec%20ampacities.pdf
Wire temperature ratings are based on the total system. If you are using 90°C wiring, but connecting it to 60°C rated devices, then you must use the 60°C temperature column of the ampacity tables.
Any inductive device (essentially any coil of wire; i.e. solenoid coil, electric motor, fan) that is connected to a relay, should have a suppression device connected across the coil as near the coil as possible to prevent arcing and destruction of the relay contacts.
Ground wires should be terminated at a common point ("Star" wiring). Low voltage control signals should be physically separated from high voltage supply wiring. If the two need to cross each other, they should cross at 90° and not be run parallel to each other.
Any wire containing high frequency signals should be shielded with the shield connected to ground as close to the signal source as possible. Some examples of high frequency signals are: VFD motor load lines, step and direction signal lines, encoder signal lines, and analog signals like 0-10V spindle speed control wires.
All wiring is neat, clean, and labeled.
Breaker at panel is sized to the total machine load. Wire from the breaker panel to the machine disconnect is sized to carry the breaker rating. Output from the machine disconnect is then ran in parallel to each of the load breakers. All of this parallel wiring is rated for the total machine load.
The load breakers are sized for the current rating of the individual loads. The wires from the load breakers to the individual loads are then sized according to each load breaker size.
The cardinal rule is that wiring is always sized to carry the amperage rating of the next upstream breaker. Wire size can be determined by using Ampacity tables: https://www.usawire-cable.com/pdfs/nec%20ampacities.pdf
Wire temperature ratings are based on the total system. If you are using 90°C wiring, but connecting it to 60°C rated devices, then you must use the 60°C temperature column of the ampacity tables.
Any inductive device (essentially any coil of wire; i.e. solenoid coil, electric motor, fan) that is connected to a relay, should have a suppression device connected across the coil as near the coil as possible to prevent arcing and destruction of the relay contacts.
Ground wires should be terminated at a common point ("Star" wiring). Low voltage control signals should be physically separated from high voltage supply wiring. If the two need to cross each other, they should cross at 90° and not be run parallel to each other.
Any wire containing high frequency signals should be shielded with the shield connected to ground as close to the signal source as possible. Some examples of high frequency signals are: VFD motor load lines, step and direction signal lines, encoder signal lines, and analog signals like 0-10V spindle speed control wires.
All wiring is neat, clean, and labeled.
Cheers,
Tom
Confidence is the feeling you have before you fully understand the situation.
I have CDO. It's like OCD, but the letters are where they should be.
Tom
Confidence is the feeling you have before you fully understand the situation.
I have CDO. It's like OCD, but the letters are where they should be.
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Re: Recommendations for PC to run p.m. 940 conversion
Update , well here’s the final layout I believe before I screw and attach everything to the backing plate if anybody sees any problems please let me know,
Also I have a question, so I’m talking to this bill gentlemen at is from the forum and seems to know what he’s talking about. and the diagram he sent me for the E stop basically tells me to put the Power to the clear path power supply through the contactor and also the spindle motor power through the contactor? If I’m understanding that correctly when the Issac is pressed I will lose power to the service and the spindle? is that really the best situation don’t I want to keep control of them but just stop the motion??
Also I have a question, so I’m talking to this bill gentlemen at is from the forum and seems to know what he’s talking about. and the diagram he sent me for the E stop basically tells me to put the Power to the clear path power supply through the contactor and also the spindle motor power through the contactor? If I’m understanding that correctly when the Issac is pressed I will lose power to the service and the spindle? is that really the best situation don’t I want to keep control of them but just stop the motion??
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Re: Recommendations for PC to run p.m. 940 conversion
One other thing was the limit/home switches my plan was just to add three proximity switches one to each axis what do you do set the soft home on one end and then put the switch on the opposite end? or would I need to hook up six proximity switches in order to stop it in each direction for each axis
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Re: Recommendations for PC to run p.m. 940 conversion
It’s alive everything works I don’t have the limit switch is wired in yet maybe do those tomorrow but everything powers up and works as like it should except for my E stop is in reverse and assume that’s a simple fix I’m not positive?? anybody know of a simple way to reverse the e stop ?
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OAK limit switches and Home switche wiring
Hello
I am converting a CNC Mill Mikron WF-31D.
Using a Oak board and DMM BS AC servos.
Already made the Bench test and wired the electric Cabinet according to Martys videos. No error shown.
After a general machine cleaning and a long time pause I managed to mount the new Servos and the new Control panel.
Now I realised that the machine only has 3 limit switches and 3 home switches, each axis with 3 triger "dogs".
Since the limit switches at the OAK wiring diagram shows 6 conections to the limit switches (X+, X-, Y+, Y-, Z+, Z-).
I would like to know how should I wire the existing limit and home switches and also how can I configure them at the CNC 12?
Tanking in advance.
Rui
I am converting a CNC Mill Mikron WF-31D.
Using a Oak board and DMM BS AC servos.
Already made the Bench test and wired the electric Cabinet according to Martys videos. No error shown.
After a general machine cleaning and a long time pause I managed to mount the new Servos and the new Control panel.
Now I realised that the machine only has 3 limit switches and 3 home switches, each axis with 3 triger "dogs".
Since the limit switches at the OAK wiring diagram shows 6 conections to the limit switches (X+, X-, Y+, Y-, Z+, Z-).
I would like to know how should I wire the existing limit and home switches and also how can I configure them at the CNC 12?
Tanking in advance.
Rui