SU858122A1 - Device for control of load lifting electromagnet - Google Patents

Description

The invention relates to the field of electrical engineering, and in particular to devices for controlling an electromagnet.

A device for controlling a lifting electromagnet is known, which contains the main and additional $ contactors, the main contacts of which are connected by a bridge reverse circuit, one diagonal of which is connected to a power source, and an electromagnet coil is included in the other, as well as ¹⁰ terminating resistors connected in series with the main contacts of the additional contactor, and the coil of the main contactor is fed through the contact of the control device, and the coil of the additional contactor is connected to the middle output ohm discharge resistor and terminating resistor [|].

A disadvantage of the known device is the relatively low efficiency due to the energy consumption of the discharge resistor (up to 40X) when lifting and holding the load with an electromagnet.

Closest to the proposed invention in technical essence, 'is a device for controlling a lifting electromagnet containing a power source, main and additional contactors, the main contacts of which are connected by a bridge reversing circuit, one diagonal of which is connected to the power source, and an electromagnet coil is included in the other, and also terminating resistors connected in series with the main contacts of the additional contactor, one electrical circuit connected to a power source and consisting of the serially connected make contact of the main contactor, the make contact of the auxiliary contactor and the coil of the main contactor, another electrical circuit consisting of the serially connected make contact of the control device, the coil of the additional contactor and the make contact of the main contactor connected to the pole of the power supply, make contact a command device and a ballast resistor connected to an electromagnet coil l ·] · The disadvantage of this device is There is a relatively low reliability, as well as a limited scope, due to the fact that the energy stored in the electromagnet is recovered to the network when it is disconnected, and this leads to a breakdown of the rectifier bridge diode and failure of the power source.

The purpose of the invention is to increase the reliability of the device and expand the scope of its application.

This goal is achieved by the fact that in a device for controlling a lifting electromagnet containing a power source, a control unit with make and break contacts, terminals for connecting a coil of a lifting electromagnet, main and additional contactors, the main contacts of which are connected via a bridge reversing circuit, one the diagonal of which is connected, to the power source, and to the other diagonal are included terminals for connecting the hoisting electromagnet coil, two resistors connected in series flaxly with each of the main contacts of the auxiliary contactor, one electrical circuit consisting of one make contact of the main contactor, one normally open contact of the additional contactor and the main contactor coil connected between the poles of the power source, and another electrical circuit consisting of the disconnect contact control apparatus, coils of an additional contactor and another make contact of the main contactor connected to one the pole of the power source, the closing contact of the control device and the third resistor connected to the terminal for connecting the coil of the cargo electromagnet, a third electrical circuit is introduced, consisting of a series-connected alternating resistor and a breaking contact of the main contactor, each of the two resistors connected between each main contact of the additional contactor and each terminal for connecting the coil of the load ₅ lifting electromagnet, the third electrical circuit is connected to the connection points of each of the two resistors and each main contact of the auxiliary contactor, 10 the second electrical circuit through the make contact of the control device is connected to the other pole of the power source, the common connection point of the make and break contacts 15 of the control is connected to the connection point of the make contact of the main contactor and the make contact of the additional contactor of the first electric circuit, the connection point of the NC contact of the control device and one output of the coil additional The second contactor is connected to the middle terminal of the variable resistor, and the third resistor is connected to the 25th other terminal of the auxiliary contactor coil.

To increase the efficiency of the device, the third resistor is connected to another terminal of the auxiliary contactor coil through another make contact of the additional contactor.

The drawing shows a diagram of the proposed device.

³⁵ The device for controlling the lifting electromagnet contains the main and additional contactors, the main contacts 1, 2, 3 and 4 of which are connected by a bridge reversal circuit, one diagonal of which is connected to a power source 5, and an electromagnet coil 6 is included in the other. The terminating resistors 7 and 8 are connected in series with the main contacts of the primary and secondary contactors. The electric circuit, consisting of a series-connected make contact 9 of the main contactor, break contact 10 of the additional contactor and the coil 11 of the main contactor, is connected to a power source 5, which contains a diode bridge. The second electric circuit consists of the NC contact 12 of the control unit connected in series, the auxiliary contact coil 13 and the NO contact 14 of the main contact 858122 pa connected to the pole of the power source 5. The third electric circuit consists of a series resistor 15 and the NC contact 16 of the main contactor. The terminal 12 of the control unit is connected to the common terminal 8 and 10 and through the make contact 17 of the control unit is connected to the pole of the power source 5. The general terminal of terminal 12 of the control unit and coil 1I is connected to the middle terminal of the variable resistor 15. Ballast resistor 18 of the additional contactor connected to the coil 6 of the electromagnet and to the common output of the coil 13 of the additional contactor and contact 14 of the main contactor. The resistor 18 can be connected to the mentioned coil of the electromagnet 6 through the make contact 19 of the additional contactor.

The device operates as follows.

To turn on the electromagnet, contact 17 of the control unit closes. At the same time, through the closed contact 10, the coil II of the main contactor receives power and its main contacts 1 and 4 are closed, connecting the coil 6 of the electromagnet to the power source 5. In this case, using the electromagnet, ferromagnetic materials can be captured and moved.

To turn off the electromagnet, contact 12 of the control apparatus closes and contact 17 of the control apparatus opens. In this case, the power of the coil 11 of the main contactor continues to be carried out through closed to contacts 9 and 10. Through closed contacts 9, 10 and 14 receives power coil 13 of the additional contactor and its main contacts are closed. In this case the electromagnet ₄₅ has a coil 6 is connected to a power source 3, and to which are connected the resistors 7 and 8. This is an intermediate position. After switching on the additional contactor, its _JQ contact 10 opens and the coil 1I of the main contactor is de-energized. In this case, the main contacts 1 and 4 and contact 9 are opened, and contact 16 is closed, as a result of which the polarity _{5J of the} electromagnet coil 6 is changed, the discharge resistor 15 is connected, and the additional contactor coil 13 is turned on by the algebraic sum of the voltages of the resistor 7 and part of the resistor 15. After changing the polarity of the connection of the coil 6 of the electromagnet, the energy stored in the electromagnet 5 is recovered in the power source 5 (in the absence of a diode bridge at the power source) or dissipated in the resistor 15. After smart sheniya current in the coil of the electromagnet 6 to 10 -values zero current therein reverses. In this case, the polarity of the voltage across the resistors 7 and 8 changes, and as this voltage increases (with an increase in the reverse current 15 through the electromagnet coil 6), the voltage on the coil 1e of the auxiliary contactor decreases, which switches off and the main contacts 2 and 3 open. The additional contactor always it will turn off, since in this circuit the voltage on it can decrease to a negative value, and the presence of a discharge resistor expands the scope of application of the device.

Improving reliability and expanding the scope of the lifting control device. an electromagnet, achieved by using 30 of the present invention, increases productivity and labor safety on hoisting cranes.

Claims (2)

The invention relates to the field of electrical engineering, namely to devices for controlling an electromagnet. A device for controlling a lifting electromagnet is known, which contains main and auxiliary contactors, the main contacts of which are connected in a bridge-reversing circuit, one diagonal of which is connected to a power source and the other includes an electromagnet coil, as well as matching resistors connected in series with the main contacts of an additional contactor, the coil of the main contactor is powered through the contact of the control unit, and the coil of the additional contactor is connected to the middle voltage The discharge resistor and the terminating resistor are l J. A disadvantage of the known device is the relatively low economic efficiency due to the power consumption of the discharge resistor (up to 40%) when the load is lifted and held by an electromagnet. Closest to the proposed invention, the technical essence is a device for controlling a lifting electromagnet containing a power source, main and additional contactors, the main contacts of which are connected in a reverse circuit, one diagonal of which is connected to the power source, and the other includes an electromagnet coil and also matching resistors connected in series with the main contacts of the auxiliary contactor, one electrical circuit connected to the power source and consisting of a series-connected closing contact of the main contactor, an opening contact of the auxiliary contactor and the main contactor coil, another electrical circuit consisting of the series-connected disconnecting contact of the control device, a coil of the additional contactor and closure as full contact of the main contactor connected to the power supply pole , contact and a ballast resistor connected to the coil of the electromagnet 2. The disadvantage of this device The reliability is relatively low, as well as the limited scope, because the energy stored in the electromagnet, when it is turned off, is recovered into the network, and this leads to breakdown of the diode of the rapid bridge and power supply failure. The purpose of the invention is to increase the reliability of the device and expand its scope. This goal is achieved by the fact that a device for controlling a lifting electromagnet, containing a power source, a control device with closing and breaking contacts, terminals for connecting a lifting coil of an electromagnet, primary and secondary contactors, whose main contacts are connected via a bridge reversing circuit , one diagonal of which is connected, to the power source, and the other diagonal includes terminals for connecting the load-lifting electromagnet coil, two resistors, connected after In addition, with each of the main contacts of an additional contactor, one electrical circuit consisting of a single closing contact of the main contactor, one opening contact of the additional contactor and the main contactor coil connected between the poles of the power supply, another electrical circuit of the sequentially connected break contact the control device, the coil of the additional contactor and the other closing contact of the main contactor connected One pole of the power source, the closing contact of the control unit and the third resistor J connected to the terminal for connecting the load electromagnet coil, a third electric circuit is inserted, consisting of a series-connected variable resistor and the break contact of the main contactor, each of the two resistors connected between each the main contact of the additional contactor and each terminal for connecting the load-lifting electromagnet coil, one third of the electric circuit is connected to the points connecting each of these two resistors and each main contact of the auxiliary contactor, the second electric circuit is connected to the other pole of the source, power supply through a closing contact of the control device, the common connection point of the closing and opening contacts of the control is connected to the connection point of the closing contact of the main contactor and the opening contact of the additional contactor the first electrical circuit, the connection point of the break contact of the control device and one coil lead ADDITIONAL contactor connected to the middle vshodu variable resistor and the third resistor is connected to another coil vshodu additional contactor. To increase the efficiency of the device, the third resistor is connected to another output of the coil of the additional contactor via another make contact of the additional contactor. The drawing shows a diagram of the proposed device. A device for controlling a lifting electromagnet contains main and auxiliary contactors, the main contacts 1, 2, 3 and 4 of which are connected in a bridge reversing circuit, one diagonal of which is connected to the power source 5, and the coil 6 of the electromagnet is connected to the other. Terminating resistors 7 and 8 are connected in series with the main contacts of the main and additional contactors. An electrical circuit consisting of a series-connected ground contact 9 of the main contactor, an opening contact 10 of the auxiliary contactor, and a coil 11 of the main contactor is connected to a power source 5 which contains a diode bridge. The second electrical circuit consists of a series-connected disconnecting contact 12 of the control device, a coil 13 to the auxiliary contactor, and a short circuit of the contact 14 of the main contactor connected to the pole of the power source 5. A third electrical circuit consists of the series-connected variable resistor 15 and the break contact 16 of the main contactor. The contact pin 12 of the control unit is connected to the common pin of contacts 8 and 10 and connected via pin 17 of the control unit to the pole of the power source 5. The total pin of the control device 12 and the coil 11 is connected to the middle terminal of the variable resistor 15. The additional ballast resistor 18 the contactor is connected to the coil 6 of the electromagnet and to the common lead of the coil 13 of the additional contactor and the contact 14 of the main contactor. The resistor 18 can be connected to the said coil of the electromagnet 6 via an IK common contact 19 of the auxiliary contactor. The device works as follows. To turn on the electromagnet, contact 7 of the control unit is used. In this case, through the closed contact 10, the coil 11 of the main contactor is energized and the main contacts 1 and 4 are closed, connecting the coil of 6 g of the electromagnet to the power source 5. At the same time, using an electromagnet, it is possible to capture and move ferromagnetic materials. To turn off the electromagnet, contact I2 of the control unit is closed and contact 17 of the control unit is opened. The power of the coil I1 of the main contactor continues through the closed contacts 9 and 10. The closed coil 13 of the additional contactor receives power through the closed contacts 9, 10 and 14 and the main contacts close. The coil of the electromagnet 6 is still connected to the power source 3, to which resistors 7 and 8 are connected. This position is intermediate. After the additional contactor is turned on, its contact 10 is opened and the coil of the main contactor is de-energized. At the same time, the main contacts 1 and 4 and the contact 9 are opened, and the contact 16 is closed, as a result of which the polarity of the coil 6 of the electromagnet is changed to be under C1. and parts of the resistor 15. After changing the polarity of the connection of the coil 6 of the electromagnet, the energy stored in the electromagnet is recovered into the power source 5 (in the absence of a diode bridge at the power source) or dissipated in the resistor 15. After the mind sheni current in the coil of the electromagnet 6 to the zero current therein -value is changed to the opposite direction. In this case, the polarity of the voltage across the resistors 7 and 8 changes and as this voltage increases (- with an increase in the reverse current through the coil 6 of the electromagnet, the voltage on the coil 13 of the additional contactor decreases, and the main contacts 2 and 3 open. the contactor is always disconnected, because in this circuit the voltage on it can be reduced to a negative value, and the presence of a discharge resistor expands the application area of the device. Improving the reliability and expanding the application area of the device and a lifting electromagnet control achieved by using the proposed invention improves productivity and safety at lifting cranes The invention 1. A device for controlling a lifting electromagnet comprising a power source, a control device with closing and razmokamy contacts, terminals for connecting the lifting coil of an electromagnet, axis and additional contactors, the main contacts of which are connected by a bridge reverse circuit, one diagonal to The plug is connected to a power source, and the other diagonal includes a plug for connecting a load-lifting electromagnet coil, two resistors connected in series with each of the contacts of an additional contactor, one electrical circuit consisting of one contact of the main co-factor, one disconnecting contact of the main coitactor, one soak contact of the additional contactor and the coil of the main contactor, connected between the poles of the power source, each th an electrical circuit consisting of a series-connected disconnecting contact of the control unit, a coil of an additional contactor, and another normally closed contact of the main contactor connected to one power source crawler; a closing contact of the control unit and a third resistor connected to a terminal for connecting a load-lifting electrofan, distinguished by that, in order to increase reliability and expand the field of application, a third electric circuit was inserted into the device, consisting of a series of variable resistor and disconnecting contact of the main contactor, each of the two resistors connected between each main switch of the additional tactical contact and each terminal for connecting the load-carrying electromagnet coil, a third electrical circuit connected to the connection points of each of these two resistors and each main contact additional contactor, another electrical circuit through the closing contact of the control device is connected to to the other pole of the power source, the connection point of the bushing 1 of the one and disconnecting contacts of the control device is connected to the connection point of the closing contact of the main contactor and the disconnecting contact of the auxiliary contactor of the first electric circuit, the connection point of the disconnecting contact of the control device and one coil output the output of the variable resistor, and the third resistor is connected to another output of the coil of the additional contactor 2. The device according to claim 1, characterized in that the third resistor is connected to another output of the coil of the additional contactor. The sources of information taken into account during the examination 1. Lifting electromagnets. Catalog.Informelektro, 02.03.72, 1972. 2. US patent 2606959, CL. 317-123, 1962 (prototype). Rvz other za 1 1 ktsy contact an additional contactor.