RU136653U1 - ACCESSING REACTOR - Google Patents

Abstract

1. An extinguishing reactor containing an actuator with a vertical shaft threaded and an active part, which includes a power winding and a magnetic circuit with two cores forming a magnetic gap, characterized in that one of the cores of the magnetic circuit is movable, the actuator is mounted above the active part in a separate housing, the vertical 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 achu.2. The extinguishing reactor according to claim 1, characterized in that the rigid connection of the movable core with the actuator is provided by means of a plate and a connecting link fastened to an element that is made in the form of a carriage moving along a vertical shaft and which is part of a ball screw transmission.

Description

The utility model relates to electrical apparatuses designed to compensate for capacitive currents in insulated neutral electrical circuits arising from single-phase earth faults, in particular to continuously variable arc suppression reactors.

An extinguishing reactor with an adjustable magnetic gap is known, which comprises a magnetic circuit located in a tank with transformer oil with an adjustable magnetic gap with a main winding and a secondary signal winding, as well as measuring devices with a control system located on the outer surface of the tank. In addition, the reactor contains a mechanism for moving the magnetic gap controller with a mechanical braking unit for moving the magnetic gap controller, which contains a stop located inside the tank with the possibility of fixing the extreme upper and lower positions of the core and two blocking contacts placed in the body of the mechanical current indicator. The movement mechanism is closed by a casing and connected to a drive, in particular containing a three-phase asynchronous motor and a worm pair, which by means of a thread interacts with the magnetic clearance regulator in the form of a vertical shaft of non-magnetic material, the thread being multidirectional and made at the extreme ends of the shaft. The lower end of the shaft is mounted in a tapered roller bearing. This reactor provides symmetrical regulation of the inductance of the windings, due to changes in the magnetic gap in both directions relative to the central axis of the core. Changing the height of the magnetic gap is carried out by means of a shaft that passes through the movable cores and moves them interacting with threaded ends with running nuts, and the central part, with stepped guide rings associated with the movable cores (patent No. 2392683, publ. 06/20/2010, bull. No. 17).

A disadvantage of the known extinguishing reactor is that the installation of a shaft with a trapezoidal thread is made through the center of the magnetic system (through movable cores), which leads to the manufacture of the shaft from non-magnetic material due to the high magnetic field strength in the center of the system. Non-magnetic materials do not have sufficient strength, the properties of high surface hardness and wear resistance, which are required for interacting mechanical parts under load. Due to the low yield strength of non-magnetic steels, a shaft with a trapezoidal thread of a worm pair under the action of high loads may be subject to plastic deformation. This leads to jamming of the transmission, the impossibility of changing the height of the gap and reducing the reliability of the magnetic circuit and the reactor as a whole.

The technical result of the utility model is to increase the reliability of regulating the magnetic gap by simplifying the design of the mannitube and providing a wear-resistant mechanical transmission for smooth movement of the moving core of the magnetic core of the arc suppression reactor.

The technical result is achieved by the fact that in an arc suppression reactor containing an actuator with a vertical shaft equipped with a thread and an active part, which includes a power winding and a magnetic circuit with two cores forming a magnetic gap, one of the cores of the magnetic circuit is fixed, the actuator is mounted above the active part in a separate case. In this case, the vertical 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. A rigid connection of the movable core with the actuator is provided by means of a plate and a connecting link fastened to an element in the form of a carriage moving along a vertical shaft and which is part of a ball screw transmission.

In FIG. 1 shows an extinguishing reactor.

The extinguishing reactor contains an active part, which can be placed both in the tank with the transformer and in the protective casing (dry version). The active part contains a power winding 1 magnetic circuit 2 with a movable core 3 and a fixed core 4, forming a magnetic gap 5 and an actuator 6. The actuator 6 is mounted on a frame 7, which is supported by the active part. A housing 8 with a slot 9 is mounted in the frame 7. A vertical shaft 10 with a thread is placed in the housing 8, to which a rotational movement is supplied, for example, from an electric drive (not shown in Fig.). An element in the form of a carriage 11 is placed on the vertical shaft 10, which together with the vertical shaft forms a ball screw transmission. The carriage 11 is rigidly connected with a platinum 12 mounted outside the housing by means of a connecting link 13, which moves along the slot 14.

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 is achieved by regulating the inductance of the reactor by changing the magnetic gap between the cores of the magnetic circuit. If necessary, increase or decrease the magnetic gap from the electric drive to the vertical shaft 10, rotational movement of the corresponding direction is transmitted, while due to the ball screw transmission, the carriage 11 begins to move vertically up or down, moving the connecting link 13, the plate 12 and the movable core 3 .

The extinguishing reactor with the proposed design allows the use of high-strength structural materials for the elements of the magnetic circuit and increase the reliability and life of the reactor.

Claims (2)

1. An extinguishing reactor containing an actuator with a vertical shaft threaded and an active part, which includes a power winding and a magnetic circuit with two cores forming a magnetic gap, characterized in that one of the cores of the magnetic circuit is movable, the actuator is mounted above the active part in a separate housing, the vertical 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 Achu. 2. The extinguishing reactor according to claim 1, characterized in that the rigid connection of the movable core with the actuator is provided by means of a plate and a connecting link fastened to an element that is made in the form of a carriage moving along a vertical shaft and which is part of a ball screw transmission.

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