CN203434597U - Motor overheating delay protection self-lock device - Google Patents

Abstract

The utility model provides a motor overheating delay protection self-lock device which belongs to the technical field of motor control. According to the technical problem to be solved, the device which can accurately control motor overheating delay shutdown protection self-lock is provided. According to the technical scheme, the motor overheating delay protection self-lock device is characterized in that the device comprises a circuit breaker DZ1, an alternating current contactor CJ1, a thermal relay RJ1, a start button QA1, a stop button TA1, fuses RT1 and RT2, indication lamps XHD1 and XHD2, an intermediate relay ZJ1 and a time relay SJ1. The motor overheating delay protection self-lock device provided by the utility model is suitable for various motors.

Description

A kind of motor overheating delay protection self-locking device

Technical field

A kind of motor overheating delay protection of the utility model self-locking device, belongs to electric machines control technology field.

Background technology

In production practices, motor often can reason cause overheated so that damage and burn because overload, winding failure or supply voltage be undesired etc., production obstacle, economic loss have been caused, therefore need carry out overtemperature protection to motor, the shortcoming that existing motor protection against overheat device exists is that protector very easily produces misoperation when motor is protected, make " protection " nonsensical: when equipment is at full capacity during long-term work, protector one direct acting, makes equipment all the time in run-stopping status; When apparatus overheat needs power-off stoppage protection, protector is unstable and make power-off not thorough, makes equipment be burnt damage.

Utility model content

The utility model overcomes the deficiency that prior art exists, and technical problem to be solved is: a kind of device that can accurately control the self-locking of motor overheating time delay stoppage protection is provided.

For solving the problems of the technologies described above; the technical scheme that the utility model adopts is: a kind of motor overheating delay protection self-locking device; it is characterized in that: comprising: circuit breaker DZ1, A.C. contactor CJ1, thermal relay RJ1, start button QA1, stop button TA1, fuse RT1, RT2, indicator light XHD1, XHD2, intermediate relay ZJ 1 and time relay sj 1, wherein:

The coil of A.C. contactor CJ1 is CJ1.1, and main contacts is CJ1.2, and normally opened contact is CJ1.3, and normally-closed contact is CJ1.4;

The normally opened contact of thermal relay RJ1 is RJ1.1;

The coil of intermediate relay ZJ 1 is ZJ1.1, and normally-closed contact is ZJ1.2, and normally opened contact is ZJ1.3;

The coil of time relay sj 1 is SJ1.1, and timing closing contact is SJ1.2;

The main circuit of motor D1 is: the inlet wire termination three-phase alternating-current supply of described circuit breaker DZ1, the main contacts CJ1.2 that the leading-out terminal of described circuit breaker DZ1 is connected in series A.C. contactor CJ1 successively with after thermal relay RJ1, be connected with the power end of motor D1;

The control circuit structure of the overheated delay protection self-locking of described motor D1 is: after the serial connection fuse RT1 of one end of described stop button TA1, be connected with control circuit positive source, the other end of stop button TA1 successively and connect one end of the normally opened contact CJ1.3 of A.C. contactor CJ1, one end of timing closing contact SJ1.2 of time relay sj 1, be connected with one end of start button QA1 behind one end of one end of the normally opened contact ZJ1.3 of intermediate relay ZJ 1 and the normally-closed contact CJ1.4 of A.C. contactor CJ1; The other end of described start button QA1 successively and connect the other end of the normally opened contact CJ1.3 of A.C. contactor CJ1, be connected with one end of the coil CJ1.1 of A.C. contactor CJ1 behind one end of the normally opened contact RJ1.1 of one end of indicator light XHD1 and thermal relay RJ1;

The other end of the coil CJ1.1 of described A.C. contactor CJ1 is connected with one end of the normally-closed contact ZJ1.2 of intermediate relay ZJ 1, the other end of the normally opened contact RJ1.1 of described thermal relay RJ1 is connected with one end of the coil SJ1.1 of time relay sj 1, the other end of the timing closing contact SJ1.2 of described time relay sj 1 and connect the other end of normally opened contact ZJ1.3 of intermediate relay ZJ 1 after be connected with one end of the coil ZJ1.1 of intermediate relay ZJ 1, the other end of the normally-closed contact CJ1.4 of described A.C. contactor CJ1 is connected with one end of indicator light XHD2;

The other end of the normally-closed contact ZJ1.2 of described intermediate relay ZJ 1 successively and connect the other end of indicator light XHD1, the other end of the coil SJ1.1 of time relay sj 1, be connected with one end of fuse RT2 after the other end of the coil ZJ1.1 of intermediate relay ZJ 1 and the other end of indicator light XHD2, the other end of described fuse RT2 is connected with control circuit power cathode.

Compared with prior art, the utlity model has following beneficial effect: the utility model has added delay protection self-locking device, even when hot power-off setting value is the specified position of motor, when motor overheating makes thermal protector action, main circuit continues normal operation, reaches after delay time, protective device starts action, due to the existence of self-locking device, main circuit is thoroughly cut off, and motor is protected; If between time delay, it is normal that current of electric recovers, and thermal protector resets, and main circuit can not be cut off, and has guaranteed the normal operation of motor, has avoided the generation of misoperation, and whole protective device circuit is simple, practical.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the utility model is described in more detail:

Fig. 1 is main circuit diagram of the present utility model;

Fig. 2 is control circuit figure of the present utility model.

Embodiment

As depicted in figs. 1 and 2; the utility model motor overheating delay protection device; comprise: circuit breaker DZ1, A.C. contactor CJ1, thermal relay RJ1, start button QA1, stop button TA1, fuse RT1, RT2, indicator light XHD1, XHD2, intermediate relay ZJ 1 and time relay sj 1, wherein:

The coil of A.C. contactor CJ1 is CJ1.1, and main contacts is CJ1.2, and normally opened contact is CJ1.3, and normally-closed contact is CJ1.4;

The normally opened contact of thermal relay RJ1 is RJ1.1;

The coil of intermediate relay ZJ 1 is ZJ1.1, and normally-closed contact is ZJ1.2, and normally opened contact is ZJ1.3;

The coil of time relay sj 1 is SJ1.1, and timing closing contact is SJ1.2;

The main circuit of motor D1 is: the inlet wire termination three-phase alternating-current supply of described circuit breaker DZ1, the main contacts CJ1.2 that the leading-out terminal of described circuit breaker DZ1 is connected in series A.C. contactor CJ1 successively with after thermal relay RJ1, be connected with the power end of motor D1;

The control circuit structure of the overheated delay protection self-locking of described motor D1 is: after the serial connection fuse RT1 of one end of described stop button TA1, be connected with control circuit positive source, the other end of stop button TA1 successively and connect one end of the normally opened contact CJ1.3 of A.C. contactor CJ1, one end of timing closing contact SJ1.2 of time relay sj 1, be connected with one end of start button QA1 behind one end of one end of the normally opened contact ZJ1.3 of intermediate relay ZJ 1 and the normally-closed contact CJ1.4 of A.C. contactor CJ1; The other end of described start button QA1 successively and connect the other end of the normally opened contact CJ1.3 of A.C. contactor CJ1, be connected with one end of the coil CJ1.1 of A.C. contactor CJ1 behind one end of the normally opened contact RJ1.1 of one end of indicator light XHD1 and thermal relay RJ1;

The other end of the coil CJ1.1 of described A.C. contactor CJ1 is connected with one end of the normally-closed contact ZJ1.2 of intermediate relay ZJ 1, the other end of the normally opened contact RJ1.1 of described thermal relay RJ1 is connected with one end of the coil SJ1.1 of time relay sj 1, the other end of the timing closing contact SJ1.2 of described time relay sj 1 and connect the other end of normally opened contact ZJ1.3 of intermediate relay ZJ 1 after be connected with one end of the coil ZJ1.1 of intermediate relay ZJ 1, the other end of the normally-closed contact CJ1.4 of described A.C. contactor CJ1 is connected with one end of indicator light XHD2;

The other end of the normally-closed contact ZJ1.2 of described intermediate relay ZJ 1 successively and connect the other end of indicator light XHD1, the other end of the coil SJ1.1 of time relay sj 1, be connected with one end of fuse RT2 after the other end of the coil ZJ1.1 of intermediate relay ZJ 1 and the other end of indicator light XHD2, the other end of described fuse RT2 is connected with control circuit power cathode.

When pressing start button QA1, A.C. contactor CJ1 self-locking energising, coil CJ1.1 obtains electric, normally opened contact CJ1.3 adhesive, indicator light XHD1 is bright, and normally-closed contact CJ1.4 disconnects, and indicator light XHD2 goes out, main contacts CJ1.2 adhesive, main circuit energising operation; When pressing stop button TA1, A.C. contactor CJ1 vows electric tripping, coil CJ1.1 dead electricity, and normally opened contact CJ1.3 disconnects, and indicator light XHD1 goes out, and normally-closed contact CJ1.4 is closed, and indicator light XHD2 is bright, and main contacts CJ1.2 disconnects, and main circuit power-off is out of service.

When motor overheating breaks down, the normally opened contact RJ1.1 of thermal relay RJ1 is closed, the coil SJ1.1 of time relay sj 1 obtains electric, reaches after delay time, and timing closing contact SJ1.2 is closed, intermediate relay ZJ 1 adhesive self-locking, now coil ZJ1.1 continues electricly, and normally opened contact ZJ1.3 remains closed, and normally-closed contact ZJ1.2 disconnects, main circuit is thoroughly cut off, and motor is protected; If between time delay, it is normal that current of electric recovers, and thermal relay RJ1 resets, and main circuit can not be cut off but normally move work, has avoided the generation of misoperation.

Claims (1)

1. a motor overheating delay protection self-locking device; it is characterized in that: comprising: circuit breaker DZ1, A.C. contactor CJ1, thermal relay RJ1, start button QA1, stop button TA1, fuse RT1, RT2, indicator light XHD1, XHD2, intermediate relay ZJ 1 and time relay sj 1, wherein:

The coil of A.C. contactor CJ1 is CJ1.1, and main contacts is CJ1.2, and normally opened contact is CJ1.3, and normally-closed contact is CJ1.4;

The normally opened contact of thermal relay RJ1 is RJ1.1;

The coil of intermediate relay ZJ 1 is ZJ1.1, and normally-closed contact is ZJ1.2, and normally opened contact is ZJ1.3;

The coil of time relay sj 1 is SJ1.1, and timing closing contact is SJ1.2;

The main circuit of motor D1 is: the inlet wire termination three-phase alternating-current supply of described circuit breaker DZ1, the main contacts CJ1.2 that the leading-out terminal of described circuit breaker DZ1 is connected in series A.C. contactor CJ1 successively with after thermal relay RJ1, be connected with the power end of motor D1;

The control circuit structure of the overheated delay protection self-locking of described motor D1 is: after the serial connection fuse RT1 of one end of described stop button TA1, be connected with control circuit positive source, the other end of stop button TA1 successively and connect one end of the normally opened contact CJ1.3 of A.C. contactor CJ1, one end of timing closing contact SJ1.2 of time relay sj 1, be connected with one end of start button QA1 behind one end of one end of the normally opened contact ZJ1.3 of intermediate relay ZJ 1 and the normally-closed contact CJ1.4 of A.C. contactor CJ1; The other end of described start button QA1 successively and connect the other end of the normally opened contact CJ1.3 of A.C. contactor CJ1, be connected with one end of the coil CJ1.1 of A.C. contactor CJ1 behind one end of the normally opened contact RJ1.1 of one end of indicator light XHD1 and thermal relay RJ1;

The other end of the coil CJ1.1 of described A.C. contactor CJ1 is connected with one end of the normally-closed contact ZJ1.2 of intermediate relay ZJ 1, the other end of the normally opened contact RJ1.1 of described thermal relay RJ1 is connected with one end of the coil SJ1.1 of time relay sj 1, the other end of the timing closing contact SJ1.2 of described time relay sj 1 and connect the other end of normally opened contact ZJ1.3 of intermediate relay ZJ 1 after be connected with one end of the coil ZJ1.1 of intermediate relay ZJ 1, the other end of the normally-closed contact CJ1.4 of described A.C. contactor CJ1 is connected with one end of indicator light XHD2;

The other end of the normally-closed contact ZJ1.2 of described intermediate relay ZJ 1 successively and connect the other end of indicator light XHD1, the other end of the coil SJ1.1 of time relay sj 1, be connected with one end of fuse RT2 after the other end of the coil ZJ1.1 of intermediate relay ZJ 1 and the other end of indicator light XHD2, the other end of described fuse RT2 is connected with control circuit power cathode.

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