The industrial belt conveyors include the components required for understanding electric conveyance. They will allow students to perform wiring, measurement, maintenance and supervision in the industrial field.
Mounted on aluminium frame with large diameter casters for easy movement.
The assembly is supplied fully functional with examples of programming.
A CD contains the user instructions, tutorials and the controller, HMI and speed variator programs.
- Overall dimensions: H 2000 x W 2000mm.
(the aluminium pole that supports the light column being 1000mm high).
- Height of the conveyor: 1000mm.
- Useful dimensions of the conveyor: 1400 x 370mm.
- Dimensions of the belt inlet/outlet trays: 300 x 370mm
EDUCATIONAL OBJECTIVES
- To observe and understand the operation of an industrial belt conveyor.
- To take industrial measurements of electrical values.
- To study the operation of inductive and photo-electric sensors.
- To study the reversal of the rotation direction of an asynchronous motor.
- To study the speed control of an asynchronous motor.
- To learn how to wire the different components available on a belt conveyor
(detector and light column).
- To study the programming of a controller (PLC) with analogue output signal
4-20mA/0-10V.
- To study the programming of an HMI screen with supervision software.
- To study Ethernet / IP addressing.
- To perform industrial maintenance operations.
Practical works:
- Study and identification of the different components of the conveyor.
- Measurement of the current, voltage and power absorbed by the motor.
- Study of the operating principle of the inductive and photo-electric sensors.
- Test of the motor in the two rotation directions.
- Programming of a speed variator locally & from a computer using the Somove® software.
- Production of the complete diagram and wiring of the conveyor.
- Production of the program of a Schneider® M221 controller.
- Production of the supervision program from the Vijeo Designer® software.
Supervision enables viewing of:
- Operation of the conveyor (CONV-1S) or the two conveyors (CONV-2S).
- The direction of operation of the conveyor (CONV-1S) or the two conveyors (CONV-2S).
- The detection and state of each sensor.
- The speed of rotation of the conveyor (CONV-1S) or the two conveyors (CONV-2S).
- The operation of the lamps of the light column.
- Jam at the belt end.
- The passing of a high or low part.
- The counting of parts.
Supervision enables control of:
- Forward/backward operation of the conveyor (CONV-1S) or the conveyors (CONV-2S).
- Variable speed of rotation of the conveyor in manual or automatic.
- The three lamps of the light column.
- The automatic/manual/maintenance modes.
Mounted on aluminium frame with large diameter casters for easy movement.
The assembly is supplied fully functional with examples of programming.
A CD contains the user instructions, tutorials and the controller, HMI and speed variator programs.
- Overall dimensions: H 2000 x W 2000mm.
(the aluminium pole that supports the light column being 1000mm high).
- Height of the conveyor: 1000mm.
- Useful dimensions of the conveyor: 1400 x 370mm.
- Dimensions of the belt inlet/outlet trays: 300 x 370mm
EDUCATIONAL OBJECTIVES
- To observe and understand the operation of an industrial belt conveyor.
- To take industrial measurements of electrical values.
- To study the operation of inductive and photo-electric sensors.
- To study the reversal of the rotation direction of an asynchronous motor.
- To study the speed control of an asynchronous motor.
- To learn how to wire the different components available on a belt conveyor
(detector and light column).
- To study the programming of a controller (PLC) with analogue output signal
4-20mA/0-10V.
- To study the programming of an HMI screen with supervision software.
- To study Ethernet / IP addressing.
- To perform industrial maintenance operations.
Practical works:
- Study and identification of the different components of the conveyor.
- Measurement of the current, voltage and power absorbed by the motor.
- Study of the operating principle of the inductive and photo-electric sensors.
- Test of the motor in the two rotation directions.
- Programming of a speed variator locally & from a computer using the Somove® software.
- Production of the complete diagram and wiring of the conveyor.
- Production of the program of a Schneider® M221 controller.
- Production of the supervision program from the Vijeo Designer® software.
Supervision enables viewing of:
- Operation of the conveyor (CONV-1S) or the two conveyors (CONV-2S).
- The direction of operation of the conveyor (CONV-1S) or the two conveyors (CONV-2S).
- The detection and state of each sensor.
- The speed of rotation of the conveyor (CONV-1S) or the two conveyors (CONV-2S).
- The operation of the lamps of the light column.
- Jam at the belt end.
- The passing of a high or low part.
- The counting of parts.
Supervision enables control of:
- Forward/backward operation of the conveyor (CONV-1S) or the conveyors (CONV-2S).
- Variable speed of rotation of the conveyor in manual or automatic.
- The three lamps of the light column.
- The automatic/manual/maintenance modes.
Eigenschaften
- CONV-1S/ELE