RU214914U1 - choke with adjustable inductance - Google Patents

Abstract

The utility model relates to electrical engineering, in particular to chokes with adjustable inductance. The technical result consists in expanding the range of inductance regulation while ensuring smooth regulation by changing the non-magnetic gap between parts of the magnetic circuit. SUBSTANCE: choke with adjustable inductance contains a magnetic core consisting of a movable and a fixed part with a non-magnetic gap between them, an excitation winding fixed on the fixed part of the magnetic core, a fixed bracket, at both ends of which there are control and fixation devices. Each of which contains a screw and two nuts. The movable part of the magnetic circuit is connected to the fixed bracket by means of two parallel double-articulated levers. 1 ill.

Description

The claimed utility model relates to control transformers or variable inductors having a movable section in the magnetic circuit, in particular to chokes with adjustable inductance.

A continuously adjustable arc-quenching reactor is known (see the description of the invention to the patent of the Russian Federation No. 2390065, IPC H01F 29/10 author Zikherman M.Kh., publ. a gap in which a movable magnetic circuit can move in the form of a ferromagnetic ring of variable cross section. When the ring is rotated around its axis, the filling of the gap with the ferromagnetic material of the ring changes, which changes the inductance of the reactor.

The disadvantage of this invention is the impossibility of obtaining the same two magnetic fluxes created by two parts of a fixed magnetic circuit. As a result, the resultant of these magnetic fluxes is not equal to zero, which leads to a distortion of the movable magnetic circuit in the gap. The absence of a device that fixes the position of the movable magnetic circuit makes the structure statically unstable, which leads to a change in the reactor inductance during operation.

The closest in purpose and technical essence of the solution chosen as a prototype is a choke with adjustable inductance (see the description of the invention to the patent of the Russian Federation No. 2684609, IPC H01F 21/06 authors Kostikov V.G., Kostikov R.V., Shakhnov V. A., publ. 04/10/2019), containing an excitation winding, a magnetic circuit consisting of a movable and a fixed part with a non-magnetic gap between them, while the excitation winding is fixed on the fixed part of the magnetic circuit, and the movable part of the magnetic circuit is placed on an axis installed in the fixed supports, while the gap between the ends of the movable and fixed parts of the magnetic circuit is made of constant width and has the shape of an arc of a circle, the center of which coincides with the center of the aforementioned axis, and the throttle is additionally equipped with a bracket, which is fastened with its central part to the aforementioned fixed supports, in addition at both ends brackets are placed with regulation and fixation devices, each of which is made containing wine t, fixed in the bracket by means of two nuts on both sides of the bracket, while the free ends of the screws are pressed against the corresponding side surfaces of the movable part of the magnetic circuit.

The disadvantage of this invention is a relatively narrow range of adjustable inductance, since when the moving part of the magnetic circuit is rotated, its location relative to the fixed part of the magnetic circuit changes only along the length of the circular arc, and the non-magnetic gap between the parts of the magnetic circuit in the radial direction remains unchanged. This ensures smooth regulation with a relatively narrow range of inductance changes.

The technical result achieved by using the proposed utility model is to expand the range of inductance regulation while ensuring smooth regulation by changing the non-magnetic gap between parts of the magnetic circuit in both longitudinal and radial directions.

In addition, the proposed utility model expands the arsenal of well-known tools for a similar purpose.

The technical result is achieved by the fact that in the choke containing the excitation winding; a magnetic circuit consisting of a movable and a fixed part with a non-magnetic gap between them; a fixed bracket, at both ends of which there are adjustment and fixation devices, each of which is made containing a screw fixed in the bracket by means of two nuts on both sides of the bracket, the free end of each screw is pressed against the corresponding side surface of the movable part of the magnetic circuit, the specified movable part of the magnetic circuit performs plane movement relative to the fixed part of the magnetic circuit by means of levers pivotally connected to the movable part of the magnetic circuit and the fixed bracket.

A distinctive feature is that the connection of the movable part of the magnetic circuit with the fixed bracket is made using two parallel double-hinged levers, which ensures a change in the non-magnetic gap between the movable and fixed parts of the magnetic circuit both in the longitudinal and radial directions, which expands the limits of regulation of the inductance of the throttle.

The proposed utility model is illustrated by the drawing in Fig. one.

Choke with adjustable inductance contains a magnetic core, consisting of a fixed 1 and 2 moving parts with a non-magnetic gap between them; excitation winding 3 fixed on the fixed part of the magnetic circuit; levers 4 and 5, pivotally connected to the movable part of the magnetic circuit using axes 6 and 7 and to the fixed bracket 8 using axes 9 and 10. In addition, at both ends of the bracket there are adjustment and fixing devices, each of which is made containing a screw 11, fixed in the bracket by means of two nuts 12 and 13 on both sides of the bracket, while the free ends of the screws are pressed against the corresponding side surfaces of the movable part of the magnetic circuit.

The proposed throttle works as follows. When the screws 11 are moved, the movable part 2 of the magnetic circuit moves flat to the left or right side. This leads to a change in the non-magnetic gap in the magnetic circuit in the longitudinal and radial directions at the same time, which expands the limits of its change and, consequently, the limits of inductance regulation. Fixing the position of the moving part of the magnetic circuit is provided by tightening the screws 11 with nuts 12 and 13. The device allows a change in the non-magnetic gap when a high voltage is connected to the excitation winding, which makes it possible to adjust the inductance in the operating mode of the throttle.

The proposed choke can be used in electrical circuits where it is necessary to smoothly adjust the inductance over a wide range, for example, as part of a resonant circuit.

The industrial implementation of the proposed utility model is not difficult.

Claims (1)

A choke with adjustable inductance, containing an excitation winding, a magnetic circuit consisting of a movable and a fixed part with a non-magnetic gap between them, while the excitation winding is fixed on the fixed part of the magnetic circuit, and the movable part of the magnetic circuit moves relative to the fixed bracket, at both ends of which there are control devices and fixation, each of which contains a screw fixed in the bracket by means of two nuts on both sides of the bracket, the free end of each screw is pressed against the corresponding side surface of the movable part of the magnetic circuit, characterized in that the connection of the movable part of the magnetic circuit with the fixed bracket is made using two parallel levers , one ends of which are pivotally connected to the movable part of the magnetic circuit, and the other ends are pivotally connected to the fixed bracket, which ensures a flat movement of the movable part of the magnetic circuit relative to its fixed part.

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