I wanted to run my CL4 in reverse for chair-making (using chair-making planes) - there's no point paying out over £700 for a turning head machine when I've already got a lathe. So I did (reverse it, not spend £700).
The CL4 as currently produced uses a Lenze SMD controller. The manual can be obtained from https://www.inverterdrive.com/file/Lenze-SMDL-Manual. The bit of the controller that matters here is this
Terminal 20 (black wire) is the 12 V signal voltage. Terminal 28 (black wire) is the motor on connection. E1 to E3 are programmable. E1 is blue, E2 is brown, E3 is not connected. The switch wiring is here.
The top switch is the off button. That is a normally on/momentary off push switch. The lower switch is the start button. That is a normally off/momentary on push button. The black 12 V feed connects to both switches (orange sheathing) and is also connected to the black wire going back down to terminal 28.
So, the motor on connection 28 is permanently on. The live blue wire goes to E1 which is programmed to "TRIP set". When it goes low it triggers an error condition and the motor coats to a standstill. The normally off brown wire goes to E2 which is programmed to "TRIP reset". When it goes high the error condition is cancelled and the motor runs. Still with me?
Terminal E3 is not used. It can be programmed to set direction of rotation. Low gives clockwise, high gives counterclockwise. So that's what I did - changed configuration item CE3 from setting "3" (not used as not wired) to setting "4".
I didn't want to be able to go from forward to backward without the motor stopping, so I needed to wire it so that any change of direction also triggers the error.
Solution, a double pole 3 throw ON-OFF-ON switch.
Pole one outer terminals tied together. Disconnect blue wire from stop button. Connect stop button to pole one centre terminal. Connect pole one outer terminals to blue wire. Then either pressing the red button, or toggling through the centre OFF position triggers the "TRIP set" and the motor stops.
White bell wire connected to switch terminal and return connected to blue in a single choc block.
Pole 2 used as a simple ON-OFF switch. 12 V feed taken from the back of the start button. That's the white wire next to the orange sleeve, there's plenty of room in the switch terminal.
So I ended up with this wiring on the back of the front panel:
and this on the controller:
I fitted a bomb switch cover so that I only run the lathe backwards when I mean to - no switch accidentally left pointing upwards. Cost - £2.99 for the switch complete with cover, plus some bell wire and an old choc block I had knocking around.
Result, a lathe that goes backwards (and forwards).
Of course, I don't have a warranty any more. Ah well.....
The CL4 as currently produced uses a Lenze SMD controller. The manual can be obtained from https://www.inverterdrive.com/file/Lenze-SMDL-Manual. The bit of the controller that matters here is this
Terminal 20 (black wire) is the 12 V signal voltage. Terminal 28 (black wire) is the motor on connection. E1 to E3 are programmable. E1 is blue, E2 is brown, E3 is not connected. The switch wiring is here.
The top switch is the off button. That is a normally on/momentary off push switch. The lower switch is the start button. That is a normally off/momentary on push button. The black 12 V feed connects to both switches (orange sheathing) and is also connected to the black wire going back down to terminal 28.
So, the motor on connection 28 is permanently on. The live blue wire goes to E1 which is programmed to "TRIP set". When it goes low it triggers an error condition and the motor coats to a standstill. The normally off brown wire goes to E2 which is programmed to "TRIP reset". When it goes high the error condition is cancelled and the motor runs. Still with me?
Terminal E3 is not used. It can be programmed to set direction of rotation. Low gives clockwise, high gives counterclockwise. So that's what I did - changed configuration item CE3 from setting "3" (not used as not wired) to setting "4".
I didn't want to be able to go from forward to backward without the motor stopping, so I needed to wire it so that any change of direction also triggers the error.
Solution, a double pole 3 throw ON-OFF-ON switch.
Pole one outer terminals tied together. Disconnect blue wire from stop button. Connect stop button to pole one centre terminal. Connect pole one outer terminals to blue wire. Then either pressing the red button, or toggling through the centre OFF position triggers the "TRIP set" and the motor stops.
White bell wire connected to switch terminal and return connected to blue in a single choc block.
Pole 2 used as a simple ON-OFF switch. 12 V feed taken from the back of the start button. That's the white wire next to the orange sleeve, there's plenty of room in the switch terminal.
So I ended up with this wiring on the back of the front panel:
and this on the controller:
I fitted a bomb switch cover so that I only run the lathe backwards when I mean to - no switch accidentally left pointing upwards. Cost - £2.99 for the switch complete with cover, plus some bell wire and an old choc block I had knocking around.
Result, a lathe that goes backwards (and forwards).
Of course, I don't have a warranty any more. Ah well.....
