RU176199U1 - ARC EXTINGUISHING REACTOR - Google Patents

Abstract

The utility model relates to electrical engineering, in particular to transformer building, and can find application in designs of arc suppression reactors designed to compensate for capacitive currents in electrical circuits with isolated neutral.

A useful model solves the problem of creating an arcing reactor, which is characterized by a relatively low laboriousness of manufacture, due to the simplicity of assembly and fastening of the actuator, as well as the absence of high-precision parts for attaching the actuator to the active part.

To solve the problem in an arc suppression reactor containing an active part having a power winding and a magnetic circuit with two cores, containing two upper and two lower yokes, an actuator containing a vertical shaft with thread, while one of the cores of the magnetic circuit is movable and the other is stationary, and there is a gap between the cores, it is proposed, according to this utility model, to fix the actuator on the two upper yokes, to install a nut connected to the movable heart on its vertical shaft chnikom by two plates that are parallel to the shaft axis, mounted on opposite sides of the axis and is rigidly associated with the nut.

Description

The utility model relates to electrical engineering, in particular to transformer building, and can find application in designs of arc suppression reactors designed to compensate for capacitive currents in electrical circuits with isolated neutral.

Known arc suppression reactor containing an actuator with a vertical shaft threaded, and an active part containing a power winding and a magnetic circuit with two cores forming a magnetic gap, while one of the cores of the magnetic circuit is movable, the actuator is mounted above the active part in a separate housing, vertical the shaft is made with a continuous one-sided thread, is rigidly connected to the movable core and interacts with the element forming a ball screw transmission with it [L. one].

Described in [L. 1] an extinguishing reactor is characterized by increased manufacturing complexity due to the complexity of assembly and fastening of the actuator, as well as the presence of high-precision parts for attaching the actuator to the active part.

A useful model solves the problem of creating an arc suppression reactor devoid of the drawbacks noted above and characterized by a relatively low laboriousness of manufacture, due to the simplicity of assembly and mounting of the actuator, as well as the absence of high-precision parts for attaching the actuator to the active part.

To solve the problem in an extinguishing reactor containing an active part having a power winding and a magnetic circuit with two cores, containing at least two upper and two lower yokes, an actuator containing a vertical shaft with thread, while one of the cores of the magnetic circuit is movable and the other is stationary, and there is a gap between the cores, it is proposed, according to this utility model, to fix the actuator on the two upper yokes, install a nut on its vertical shaft, connect it with a movable core by means of two plates parallel to the axis of the shaft, and mounted on different sides of the axis of the shaft, and rigidly connected with a nut.

The utility model is illustrated by the example of the drawings (Fig. 1 and 2), which shows the inventive arc suppression reactor: in Fig. 1 is a front view of the reactor; in Fig.2 is a longitudinal section thereof.

The suppression reactor contains an active part comprising a power winding 1 and a magnetic core 2 having a movable core 3 and a fixed core 4. The movable core 3 and the fixed core 4 are installed so that a magnetic gap 5 is formed between them.

The magnetic core 2 has two upper yokes 6, and a fixed core 4 has two lower yokes 7.

The actuator 8 is mounted on two upper yokes 6 and contains a vertical shaft 9, at the end of which a thread 10 is made.

A nut 11 is fixed to the vertical shaft 9 by means of a thread 10, and is connected to the movable core 3 by means of two plates 12 parallel to the axis 13 of the vertical shaft 9 and mounted on different sides from the axis 13 of the shaft 9.

The plate 12 is rigidly connected with the nut 11 and protrude beyond the dimension of the movable core 3 in the upper part.

The extinguishing reactor operates as follows.

If it is necessary to neutralize the capacitive current and the occurrence of an electric arc, it is necessary to completely compensate for the capacitive current in the emergency phase conductor. This can be achieved by adjusting the inductance of the arcing reactor due to a change in the magnitude of the magnetic gap 5 between the movable 3 and fixed 4 cores of the magnetic circuit 2.

Depending on the need to increase or decrease the magnitude of the magnetic gap 5 between the movable 3 and the stationary 4 cores, a rotational movement of the corresponding direction is transmitted to the vertical shaft 9 from the electric drive (not shown).

The vertical shaft 9 with a nut 10 installed at its end, connected with the plates 12, begins to move vertically up or down depending on the task.

Moving up or down, the shaft 9, rigidly connected by means of a nut 10 and plates 12 with a movable core 3, moves the movable core 3 in a given direction (up or down), thereby increasing or decreasing the magnitude of the magnetic gap 5 between the movable 3 and the stationary 4 cores.

The implementation of the arc suppression reactor in accordance with the claimed solution will significantly reduce the complexity of manufacturing the reactor due to the significant simplification of the assembly and mounting of the actuator, as well as the absence of high-precision parts for attaching the actuator to the active part [L. one].

In accordance with the claimed technical solution, EN-SONS LLC developed the technical documentation of the extinguishing reactor, and made a prototype of this reactor. Tests of the reactor confirmed its operability and wide possibilities of practical application in the future while minimizing the complexity of its manufacture.

Literature:

1. RF patent No. 136653 for utility model, IPC Н02Н 9/00, Н02Н 13/10, 2013

Claims (1)

An extinguishing reactor containing an active part having a power winding and a magnetic circuit with two cores, containing two upper and two lower yokes, an actuator comprising a vertical shaft with thread, while one of the cores of the magnetic circuit is movable and the other is stationary, and there is a gap between the cores characterized in that the actuator is mounted on two upper yokes, a nut is mounted on its vertical shaft, connected to the movable core by means of two plates parallel to the shaft axis, and anovlennyh on opposite sides of the shaft, and rigidly connected to the nut.

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