RU57963U1 - AUTOMATIC DIRECT CURRENT SWITCH - Google Patents

Abstract

The utility model relates to protective switching equipment.

The switch comprises a base, a fixed contact, a movable contact, a latch of a movable contact, a drive for closing the movable and fixed contacts, a pusher for releasing the latch and a breaking spring.

The difference is that the actuator for closing and opening the movable and fixed contacts is electromagnetic. Due to this, the installation of the circuit breaker is possible in a place remote from the operating personnel, which allows to increase the useful volume of the working space. The control of the circuit breaker does not require significant mechanical effort. In this case, the switch has a relatively simple design.

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Description

The utility model relates to electrical engineering, in particular to protective switching equipment, and is intended to protect electrical equipment of public transport from short circuit currents.

Automatic high-speed direct current circuit breakers that trip when the magnetic flux in the magnetic circuit of the electromagnetic current sensor increases, are known, for example, from the following sources: High-speed protection devices for power circuits of electric rolling stock of urban transport. Series 07. Electrical apparatuses and low voltage devices. Ed. V.P. Marinochkina, V.F.Sokolova, N.P. Larina. - S .: Informelectro, 1988, p. 8; Batalov N.M., Petrov B.P. Electric traction apparatuses, second edition revised and supplemented, Moscow: Energia, 1969, p.144-145.

The closest analogue can be a switch for the second source. It contains a base, a fixed contact, a movable contact, a latch of a movable contact, a drive for closing and opening the movable and fixed contacts, a pusher for releasing the latch and a breaking spring. The drive is made mechanical in the form of a handle. To close the contacts, the handle must be moved to the extreme on position.

As the current rises to the setpoint value, the pusher disengages the latch. Under the action of a tripping spring, the main contacts open. The electric arc that occurs when the contacts diverge is extinguished in the arcing chamber.

The disadvantage of this switch is the manual drive, which creates inconvenience in operation and occupies a usable amount of work space. Significant efforts are required to actuate the manual drive.

The utility model solves the problem of creating a circuit breaker that is simple in design.

The technical result, which is created by the utility model, consists in the convenience of controlling the circuit breaker during operation, the ability to install a circuit breaker outside the working space of maintenance personnel. This is achieved by the fact that the actuator for closing and opening the movable and fixed contacts is made electromagnetic.

The essence of the utility model is that the manual control drive is replaced by an electromagnetic drive. This increases the convenience of controlling the circuit breaker by eliminating significant mechanical forces, and also allows you to place the circuit breaker in a place remote from the operating personnel, which allows you to free up a useful amount of working space.

The utility model is illustrated by an example of a circuit breaker. Figure 1 of the drawing shows a patentable switch in the on position; figure 2 is the same for emergency shutdown, figure 3 is the same for operational shutdown.

The automatic high-speed DC switch contains a base 1, a fixed contact 2, a movable contact 3 fixed on the axis 4, a latch 5 of the movable contact, an electromagnetic actuator for closing and opening the movable and fixed contacts, a pusher 6 for releasing the latch and a disconnecting spring 7. Axis 4 the movable contact is held in engagement with the latch 5 by means of the spring 8. The latch 5 is fixed to the rod 9, which serves as a connecting link between the movable contact and the drive.

The electromagnetic drive consists of a magnetic circuit 10, a coil 11 and an armature 12, which is fixed on the axis 13. The rod 9 is fixed on the axis 14 of the armature 12. The breaking spring 7 is located between the rack 15 and the armature 12 and tends to tear the armature 12 from the magnetic circuit 10.

The movable contact 3 has a free end, which is constantly acted upon by a contact pressing spring 16. In the on position of the switch, a gap δ is formed between the free end of the movable contact and the lever 17. The spring 16 acts in the direction of decreasing said clearance.

The movable contact is electrically connected by a flexible connection to the coil 18 of the current sensor, which creates a flow in the magnetic circuit 19 of the current sensor. On the armature 20 of the current sensor, a pusher 6 is fixed to disengage the latch 5.

The spring 21 serves to hold the armature 20 in the off position. Contacts 2 and 3 are located in the area of the arcing chamber 22.

When current flows through the coil 11 of the electromagnetic drive, the armature 12 is attracted to the magnetic circuit 10, moving the rod 9, which transmits the movement to the movable contact 3. The movable contact 3 closes with the stationary contact 2. The gap δ (contact failure) creates a guaranteed contact closure due to the action of the spring contact pressing 16. When the contacts 2 and 3 are closed, the movable contact is engaged with the latch 5.

When a short circuit current flows, the armature 20 of the current sensor is attracted to the magnetic circuit 19 and at the same time the pusher 6 knocks the latch 5 from the axis 4 of the movable contact 3. The movable contact 3 is opened by the force of the contact pressing spring 16 with the fixed contact (figure 2). After the signal for shutting off the personnel from the control button by the control button, the current in the coil 11 is reduced to zero, the armature 12 under the action of the disconnecting spring 7 drops from the magnetic circuit 10. Latch 5

is brought into engagement with the axis 4 of the movable contact 3, the switch is ready for re-inclusion (figure 3).

Thus, thanks to the electromagnetic drive, the installation of the circuit breaker is possible in a place remote from the operating personnel, which allows to increase the useful volume of the working space. The control of the circuit breaker does not require significant mechanical effort. In this case, the switch has a relatively simple design.

Claims (1)

An automatic high-speed DC switch containing a base, a fixed contact, a movable contact, a latch of a movable contact, a drive for closing and opening the movable and fixed contacts, a pusher for releasing the latch and a breaking spring, characterized in that the drive is for closing and opening the movable and fixed contacts made by electromagnetic.