Based on what I see, this is what your setup should be... Anyone more knowledgeable please chime in if I'm mistaken.
+24DC is going to your EStop, which appears to be a NC on your print based on the symbol. The other side of the EStop is going to R1 on your safety relay, and R2 is going to 0VDC. This is the circuit that closes the coil of the relay. When the EStop is NOT PRESSED (if it is indeed a NC like the print says), then your coil on the safety relay should be closed.
13>14
23>24
33>34
The top side of your relay SHOULD be your line (power in), either from your PLC outputs or from some alternate power supply. The bottom side SHOULD be your load (power out) going to you motor starter and whatever else you are controlling.
So if you want your output channel 0 to enable your motor, you need to run a wire from output channel 0 to terminal 13 on the relay, then run a wire from terminal 14 to the motor starter contact. You also need to run a common to your motor in order for that circuit to be complete. If that is all done correctly, you should have an energized coil on your relay and a working motor starter. If it is set up that way and you aren't getting your motor to turn on, you need to ring everything out with a meter to figure out where you are losing continuity. Do it in this order, your positive pole on the target and your negative on the common R2 screw of the relay:
1. Check that you are getting +24vDC from your power supply.
2. Check that you are getting +24vDC on the INCOMING side of your ESTOP when it is depressed (energized).
3. Check that you are getting +24vDC on the OUTGOING side of your ESTOP when it is depressed (energized).
4. Check that you are getting +24vDC on your R1 screw on the relay.
If that all checks out, then your coil should be closed. If it isn't you might have a bad relay. If it fails at any point, let us know which point it is.
+24DC is going to your EStop, which appears to be a NC on your print based on the symbol. The other side of the EStop is going to R1 on your safety relay, and R2 is going to 0VDC. This is the circuit that closes the coil of the relay. When the EStop is NOT PRESSED (if it is indeed a NC like the print says), then your coil on the safety relay should be closed.
13>14
23>24
33>34
The top side of your relay SHOULD be your line (power in), either from your PLC outputs or from some alternate power supply. The bottom side SHOULD be your load (power out) going to you motor starter and whatever else you are controlling.
So if you want your output channel 0 to enable your motor, you need to run a wire from output channel 0 to terminal 13 on the relay, then run a wire from terminal 14 to the motor starter contact. You also need to run a common to your motor in order for that circuit to be complete. If that is all done correctly, you should have an energized coil on your relay and a working motor starter. If it is set up that way and you aren't getting your motor to turn on, you need to ring everything out with a meter to figure out where you are losing continuity. Do it in this order, your positive pole on the target and your negative on the common R2 screw of the relay:
1. Check that you are getting +24vDC from your power supply.
2. Check that you are getting +24vDC on the INCOMING side of your ESTOP when it is depressed (energized).
3. Check that you are getting +24vDC on the OUTGOING side of your ESTOP when it is depressed (energized).
4. Check that you are getting +24vDC on your R1 screw on the relay.
If that all checks out, then your coil should be closed. If it isn't you might have a bad relay. If it fails at any point, let us know which point it is.