RU215817U1 - Short circuit sensor for cable lines - Google Patents

Abstract

The utility model relates to the field of electrical measuring technology. The technical result consists in providing a simple short circuit sensor for cable lines. The operation of these sensors is based on the detection of short-circuit current. At the moment of current increase, the reed contacts are closed, the closed position of which is memorized with the help of a latch trigger. The current pulse, at the moment the reed switch closes the circuit, causes a change in the position of the trigger keys, and it, in turn, can remain in the “remembered” position for a long time. The operation setting of this sensor is carried out by changing the position of the permanent magnet on the board relative to the reed switch. 1 ill.

Description

The utility model relates to the field of electrical measuring technology, in particular to devices that make it possible to determine the path of the short-circuit current in a certain section of the cable network with a two-beam configuration of the circuit.

From the prior art, a short-circuit current indicator is known, using in its design a current relay and a voltage relay on a common magnetic circuit, as well as an indicator element. The disadvantage of this device is its complexity associated with self-reset operation and, as a consequence, with the complexity of the execution of functional blocks (RU 2212679 C2).

Also, the closest in technical essence is a short circuit indicator in electrical networks of 6-10 kV, containing inductive current sensors, resistors, a threshold element, a magnetic memory block, a permanent magnet. This device is designed for visual detection of a short circuit in the distribution network and is based on a magnetically sensitive sensor (reed switch). The description and principle of operation of this device are typical for its use in medium voltage networks made by overhead lines. Therefore, these inductive sensors are not applicable in cable networks (SU 1054804 A1).

The purpose of the utility model is to simplify the device and, consequently, increase the reliability of its operation.

The task to be solved by the claimed technical solution is to expand the arsenal of technical means in this area. Thus, the technical result consists in the implementation of this purpose.

The goal is achieved due to the fact that the entire component base of the device includes only 4 elements: a board, a reed switch, a permanent magnet and a latch. The board is made of textolite and is the basis for attaching other elements to it, as well as for attaching it directly to the cable. The permanent magnet is attached to the board in such a way that with the help of special clamps it is possible to change its position on the board relative to the cable. The reed switch is fixed on the bottom of the board in a plane parallel to the permanent magnet. The trigger-latch is connected to the reed switch by means of connecting wires.

The device is illustrated in Fig. 1, which shows a drawing of a short circuit sensor for cable lines.

The short circuit sensor for cable lines includes a board 1, on which a permanent magnet 2 is fixed, so that it can be moved along the plane of the board and fixed in a certain position using special screw clamps. At the top of the board there is a large semi-circular hole necessary for attaching it to the cable so that the surface of the board is perpendicular to the plane of the cable. Rigid connection of the board with the cable is carried out by means of clamps passed through special holes in the board. A reed switch 3 is rigidly fixed on the bottom of the board, from the input contacts of which a trigger-latch 4 is connected. This integral device is the described short circuit sensor.

The device works as follows. When a short circuit current passes through the cable, there is an increase in the magnetic field created around it. This field amplification leads to an increase in the field of the permanent magnet acting on the contacts of the reed switch. Thus, the reed contacts are closed and with the help of special telemechanical devices, this information can be transmitted to the desired control room.

The setting of this sensor is controlled by the position of the permanent magnet relative to the plane of the cable. Accordingly, the greater the short circuit current at the selected point, the greater should be the distance between the reed switch and the magnet. Adjustment of the position of the magnet is made empirically. For the most selective actuation, the position of the magnet must be selected in such a way that the minimum distance between the magnet and the reed switch is achieved.

Remembering the last position of the reed switch contacts is carried out using a latch trigger. The position of its keys can remain in the triggered state for a long time, so the sensor will be in operation even after the short circuit is disconnected.

Claims (1)

A short-circuit sensor for cable lines, containing a board made of textolite, in the upper part of which there is a hole for rigid connection to the cable so that its surface is perpendicular to the cable plane, a permanent magnet fixed on the board with the possibility of moving along the plane of the board and fixing in a certain position, on the bottom of the board in a plane parallel to the magnet, a reed switch is fixed, from the input contacts of which a trigger-latch is connected.

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