mash98
Electrical
- Jul 17, 2008
- 56
Dear guys we have a 50 kg magnet on our shearing machine.The electrical statistics of the same are as under.
- Voltage 400 3phase 50 hz connected in delta.
- Peak current 160 amperes( measured by clamp meter with peak holding option) which is for some very short time i.e for some milliseconds I suppose.After the initial current surge the current reduces to around 5 amperes( holding current).the duty cycle of this magnet is around 10%( it switch ON for 6 -7 times a minute just for 1 sec).
- The wire gauge used is SWG13 while the weight of each coil is roughly 4 kg.Although the holding current seems reseanable but even for this current we have 4-5 coils failure per anum.these failures are always due to some mechanical stuck up in the machine where the plunger of the magnet does not secure its correct position in the magnet and hence the current increses beyond its safe limits and become the cause of coils failures.
Due to the above frequent failures I took intiative and redisgned the coils with DC voltage on the same bobins and magnet arrangements.The purpose behind this redesigning is to have better control when the mechanical system stuck up which is as follows.
- The same three bobins are being used but this time the wire gauge is SWG23 and the weight of each coil is about 6.25 kg as we have enough place in the bobin so I used the max available space.The dc resistance of each coil is 150 ohms. then we connected them in parallel with 360 volts dc supply.the electrical scheme comprises with resistor and timer in such a way that we intially applied the full 360 volts dc for 1 sec when each coil draws 2.4 amperes then after 1 sec as we place 50 ohms resistor in series with the coils and then the current reduces to half. The stroke and power of the magnet seems better than the original design.As we have not yet put the modified magnet in the machine so I would like to have your valuable comments, suggestions and advices about this magnet.
Thanking in anticipation.
regards
- Voltage 400 3phase 50 hz connected in delta.
- Peak current 160 amperes( measured by clamp meter with peak holding option) which is for some very short time i.e for some milliseconds I suppose.After the initial current surge the current reduces to around 5 amperes( holding current).the duty cycle of this magnet is around 10%( it switch ON for 6 -7 times a minute just for 1 sec).
- The wire gauge used is SWG13 while the weight of each coil is roughly 4 kg.Although the holding current seems reseanable but even for this current we have 4-5 coils failure per anum.these failures are always due to some mechanical stuck up in the machine where the plunger of the magnet does not secure its correct position in the magnet and hence the current increses beyond its safe limits and become the cause of coils failures.
Due to the above frequent failures I took intiative and redisgned the coils with DC voltage on the same bobins and magnet arrangements.The purpose behind this redesigning is to have better control when the mechanical system stuck up which is as follows.
- The same three bobins are being used but this time the wire gauge is SWG23 and the weight of each coil is about 6.25 kg as we have enough place in the bobin so I used the max available space.The dc resistance of each coil is 150 ohms. then we connected them in parallel with 360 volts dc supply.the electrical scheme comprises with resistor and timer in such a way that we intially applied the full 360 volts dc for 1 sec when each coil draws 2.4 amperes then after 1 sec as we place 50 ohms resistor in series with the coils and then the current reduces to half. The stroke and power of the magnet seems better than the original design.As we have not yet put the modified magnet in the machine so I would like to have your valuable comments, suggestions and advices about this magnet.
Thanking in anticipation.
regards
