Simulation : 3 Movement
Remarks :
1. Movement 1 : Cylinder1 Forward
2. Movement 2 : Cylinder2 Forward
3. Movement 3 : Cylinder1 Reverse AND Cylinder2 Reverse
PLC Input and Output Devices:
1.PLC Input:
<-> 1 Input Unit for Push Button Start
<-> 2 Input Unit for Sensor1 Reverse And Sensor1 Forward
<-> 2 Input Unit for Sensor2 Reverse And Sensor2 Forward
<-> 1 Input Unit for Emergency Stop (Push Button)
--> Total PLC Input, minimum of 6 Input.
2.PLC Output:
<-> 2 Output Unit for Cylinder1 Forward And Cylinder1 Reverse
<-> 2 Output Unit for Cylinder2 Forward And Cylinder2 Reverse
--> Total PLC output, minimum of 4 Output.
Sequence PLC Programming for 3 movement / process:
1. INPUT CONDITION :
a. Emergency Stop Condition
b. All Origin Condition
c. Start Condition
2. TRIGGER AND SENSOR CONDITION :
a. STEP0 or Output Controller1 : All Origin Condition AND Start Condition
b. STEP1 or Movement1 or Output Controller2 : Cylinder1 Forward
c. STEP2 or Movement2 or Output Controller3 : Cylinder2 Forward
d. STEP3 or Movement3 or Output Controller4 : Cylinder1 Reverse AND Cylinder2 Reverse
3. OUTPUT CONDITION :
a. STEP 1 or Output Controller 2 for Cylinder1 Forward
b. STEP 2 or Output Controller 3 for Cylinder2 Forward
c. STEP 3 or Output Controller 4 for Cylinder1 Reverse
d. STEP 3 or Output Controller 4 for Cylinder2 Reverse
4. CONTROLLER :
Using 4 Output Controller
Can You make Program Ladder PLC ?
Please using Standard Sequence Programming
If Can't :
GE Fanuc PLC Control for 3 movement
Siemens PLC Control for 3 movement
Allen Bradley PLC Control for 3 movement
Omron PLC Control for 3 movement
Mitsubishi PLC Control for 3 movement
Keyence PLC Control for 3 movement
For Complex Movement/Process :
PLC Control for Automatic Welding Machine