SU980182A1 - Interlocking device for switching apparatus - Google Patents

Description

The invention relates to electrical engineering and is intended to prevent disruption of the technological sequence when switching switching devices.

A blocking device for a switching device is known, which contains a set of locks with secrets installed on locked devices, and a key common to the specified set of locks

one.

The drawbacks of the device include complex layout and a large number of elements, as well as easy-to-implement deliberate release.

It is also known a blocking device CTBO for a switching device; containing a key including. an element, and a lock including contact sockets for connection with a key, and a spring-loaded rod mounted to cooperate with the traction element 2j.

The drawback of the device is that reliable blocking operation is achieved only when powered by a stationary electric battery, which limits the use of the device to the area of power stations and very large substations. In addition, an extensive and extensive cable network is required to link the locks to the power source. In addition, the device has a relatively large power consumption.

The purpose of the invention is to reduce power consumption and provide

10 portability.

This goal is achieved by the fact that in the locking device for a switching device containing a key including a pull-in element and a lock including contact sockets for connection with a key and a spring-loaded rod installed with the possibility of interaction with the pull-in element, the key is provided with

20 by a power source, a micro electric motor with a reduction gear and a reversible spring, and a permanent magnet is used as a traction element, which is associated with

25 microelectric through downshift.

The drawing shows a locking device.

In the case of the key 1 there is a power supply 2, for example a dry galvanic cell, a microelectric motor 3, on the shaft of which a reversible spring 4 is mounted, made in the form of a flat spiral of Archimedes with the possibility of its plant with active rotation of the microelectric motor 3, and the coupling 5 with internal thread, with screw thread b. The screw b has a slot in which a key 7 enters in order to prevent the screw b from turning while moving. Clutch

5 with the screw 6 form a reduction gear. To the free end of the screw

6 is attached to the traction element 8, made in the form of a permanent magnet. In the case of the key 1, pin pins 9 are fixed, to which, via a protective device, such as a fusible fuse (not shown), the power supply circuit of the microelectric motor is connected. In the case of the lock 10 pin sockets 11 are fixed for connection with the key. The contact sockets 11 are interconnected by an electrical circuit with a block contact 12 belonging to the switching device. In the lock case

10 also includes a spring-loaded rod 13, designed to lock the actuator 14.

The operation of the device is as follows.

When the pin contacts 9 of the key 1 are connected to the contact sockets 11 of the lock 10 in the circuit connecting the micro electric motor 3 to the power source 2, current flows, the micro electric motor 3 rotates, which ensures the forward movement of the traction element 8 through a reduction gear to the contact and therefore magnetic coupling of the traction element 8 with the end of the spring-loaded rod 13 of the lock 10, locking the actuator 14. In this case, a reversing spring 4 is produced.

After the traction element 8 rests on the end of the spring-loaded rod 13, the micro-electric motor 3 is braked and switches to the mode. short circuit Partially removing the key 1 from the lock 10, the operator pulls the spring-loaded spring 13 from the drive aperture 14, which has adhered to the traction element, and this forces the latter. The measure for extracting key 1 from lock 10 is indicated by known means, for example, a scale, a pointer or a limiter. In this case, the movement must be of such a magnitude that the power supply circuit of the micro electric motor 3 remains closed. After unlocking the actuator 14, it can be switched, and then the key 1 is removed from the lock 10, with the spring-loaded rod 13 released from the retaining element, it will go into another opening of the actuator 14 corresponding to the over-position of the latter. After the key 1 is removed from the lock 10, the micro electric motor 3 will be disconnected and the previously reversible spring 4 will return the kinematic system to the ready state for the next working cycle. A similar reversal will occur at any other stage of the process of moving the traction element 8, if for any reason the power supply circuit of the electric motor is disconnected.

Claims (2)

1.Zamkova lock type MBG Ginodman. Catalog of the Riga experimental plant Litvenergo. Informational announcement 17/2012, 12.10.61. 2. Electric networks and stations. Ed. L.N. Baptidanova M., State Energy Publishing House, 1963, fig. 20-23, p.