RU85745U1 - ELECTROMAGNETIC DRIVE - Google Patents

Abstract

An electromagnetic drive comprising a power source, an electromagnet coil, an electronic switch connected in series with an electromagnet coil, and a diode connected in parallel with an electromagnet coil, characterized in that the electromagnetic drive further comprises first and second resistors and a switch with one normally closed and one normally open contact , while the first resistor is connected in series with a normally closed contact, and the second resistor is connected in series with a normally open contact switch, resistors are connected in parallel with each other and in series with the control coil.

Description

The utility model relates to electrical engineering, namely to electromagnetic drives that can be used as part of high-speed circuit breakers.

Electromagnetic drives are known from the following sources:

1. Patent for invention RU No. 2195732, 2002

2. Patent for invention RU No. 2343580, 2007

3. Patent for utility model RU No. 68764, 2007

The closest analogue is the electromagnetic drive of the second source. The drive for this source contains a power source, an electromagnet coil, an electronic switch, a diode, an electromechanical relay.

To turn on the drive, a constant signal is supplied to the control input of the electronic key. A switching current starts flowing along the coil of the electromagnet. Then, after a time of 20 ... 40 ms, a signal is supplied to the control input of the electromechanical relay. The contacts of the electromechanical relay close and bypass the electronic key. After turning on the drive or after no more than 1 second, the switching current must turn off and switch to a holding current sufficient to keep the drive in the on position. To do this, first the signal from the control input of the electromechanical relay is turned off, then, after its own relay shutdown time of 15 ms to 40 ms, and the additional time of 20 ... 40 ms, the signal from the control input of the electronic key is turned off.

The disadvantage of this drive is unreliable operation at low voltage. A reduced supply voltage appears when the drive is powered by battery power sources, which is commonly found on rolling stock of electric vehicles. The circuit breaker is always turned on from batteries, and not from converters powered by the contact network, since in order to ensure the rated voltage of the control circuits 12, 24 or 36 V, the converters must be connected to the contact network, and this is done directly by the protective circuit breaker. In addition, additional voltage losses appear in the form of a voltage drop across the conductors from the power source to the electromagnetic drive.

According to the state and industry standards GOST 9219-88, the voltage at which the circuit breaker drive must work reliably is 70% of the rated supply voltage. At a rated voltage of 24 V, the minimum operating voltage is 16.8 V. Moreover, in real-life conditions, the batteries are often very discharged, which ensures a voltage drop of the power source to lower values. And this leads to the fact that the switch will not be held in the on position, which will lead to a blackout of the protected electrical equipment.

The technical result that can be achieved using the utility model is to exclude the influence of the voltage drop of the power source on the required operation in operation of the protected electrical equipment.

To achieve the claimed result, the patented electromagnetic drive additionally contains the first and second resistors and a switch with one normally closed and one normally open contact, while the first resistor is connected in series with a normally closed contact, and the second resistor is in series with a normally open contact of the switch, the resistors are connected in parallel between by itself and in series with the control coil.

The essence of the utility model is to use the appropriate resistor to set the holding current of the control coil, which will ensure the stable operation of the drive and all protected electrical equipment.

The utility model is illustrated by a figure, which shows a diagram of a patentable electromagnetic drive.

The patented electromagnetic drive contains a power source 1, an electromagnet coil 2, an electronic switch 3 connected in series with the electromagnet coil, a diode 4 connected in parallel with the electromagnet coil and an electromechanical relay 5, the contacts of which are connected in parallel with the electronic key. In series with the coil 2 and in parallel with each other, the first 6 and second 7 resistors and a switch with one normally closed 8 and one normally open 9 contact are connected, the first resistor 6 being connected in series with a normally closed contact 8, and the second resistor 7 in series with a normally open contact 9 switches.

The drive operates as follows.

To turn on the drive, a constant signal is supplied to the control input of the electronic key 3. A switching current starts to flow along the coil 2 of the electromagnet. Then, after a time of 20 ... 40 ms, a signal is applied to the control input of the electromechanical relay 5. The contacts of the electromechanical relay are closed and the electronic key 3 is shunted. After turning on the drive or after no more than 1 second, the switching current must turn off and switch to a holding current sufficient for holding the drive in the on position. To do this, first, the signal from the control input of the electromechanical relay 5 is turned off, then, after the proper time of switching off the relay 5, which is from 15 ms to 40 ms, and the additional time 20 ... 40 ms, the signal from the control input of the electronic key 3 is turned off. Next, the holding current in the coil is set by a circuit consisting of a power source 1 - normally closed contact 6 - first resistor 8. Moreover, if the voltage drop at the power source is below the minimum working, the signal from the control input switches contacts 6 and 7 per breakers. And the value of the holding current in the control coil is set by the power supply circuit 1 - pin 7 of the switch - the second resistor 9.

As a switch with normally closed and normally open contacts, it is possible to use two keys, each electrically connected respectively in series with one of the resistors.

Thus, the use of an electromechanical drive with first and second resistors and a switch with one normally closed and one normally open contact has achieved the exclusion of the influence of the voltage drop of the power source on the required operation of protective equipment.

Claims (1)

An electromagnetic drive comprising a power source, an electromagnet coil, an electronic switch connected in series with an electromagnet coil, and a diode connected in parallel with an electromagnet coil, characterized in that the electromagnetic drive further comprises first and second resistors and a switch with one normally closed and one normally open contact , while the first resistor is connected in series with a normally closed contact, and the second resistor is connected in series with a normally open contact switch, resistors are connected in parallel with each other and in series with the control coil.