RU32317U1 - Vacuum contactor - Google Patents

Abstract

A vacuum contactor comprising a housing, an electromagnet with starting and holding coils, an armature, three vacuum chambers, each of which has a movable contact connected to the armature and a fixed contact fixed in the housing, as well as the first and second clamps for connecting a voltage source, characterized in that between the first and second clamps for connecting the voltage source connected in series are a starting coil made of low resistance, and a holding coil made of high resistance and shunted closing contact.

Description

Vacuum contactor

The utility model relates to the field of electrical engineering and can be used as a switchboard of electrical circuits in the most difficult operating conditions (diesel locomotives, electric locomotives, mines).

A contactor is known that contains a control magnet with a control coil, which moves depending on the current flowing through the control coil, a control unit that regulates the voltage applied to the control coil, and in the control mode of the contactor closure to provide the effect of reducing the inductance current arising in As a result of the movement of the contactor parts during a short circuit, the voltage applied to the engraving coil has an almost constant value when controlling the short circuit and is not dependent t of the current flowing through the control coil, and after the fault current mode regulated by the closure control in accordance with a reference value 1.

The closest technical C5sh to the claimed utility model is a vacuum contactor containing a housing, an armature, an electromagnet with start and holding coils, three vacuum chambers, each of which contains a movable contact associated with the armature, and a fixed contact fixed in the housing, and the first and second clamps for connecting the power source 2. This contactor is characterized by high wear resistance, however, its response time is relatively long, since when the coils are connected in series According to them, the current depends on their total resistance.

The technical result of the utility model is to increase the speed of the contactor by shorting the holding coil at the time of operation.

The technical result is achieved by the fact that in a vacuum contactor comprising a housing, an electromagnet with starting and holding coils, an armature, three vacuum chambers, each of which has a movable contact connected to the armature and a fixed contact fixed in the housing, as well as the first and the second clamps for connecting the voltage source, between the first and second clamps for connecting the voltage source are connected in series connected starting coil made of low resistance, and the holding coil made of high me and shunted by the opening contact.

The drawing shows a diagram of the inclusion of coils of a contactor with vacuum chambers.

The device comprises a housing, an armature and an electromagnet (not shown) with a low-resistance starting coil 1 and a high-resistance holding coil 2, which are connected in series and connected between the first 3 and second 4 clamps for connecting a voltage source, while the holding coil 2 is shunted by the NC contact 5. Device also contains three vacuum chambers 6, 7 and 8 with corresponding fixed contacts 9, 10 and 11 fixed in the housing, and corresponding movable contacts 12, 13 and 14 connected with the armature. Mentioned contacts are included in switched circuits (not shown).

The vacuum contactor operates as follows. In a static state, in the absence of voltage at terminals 3 and 4, current does not flow through the holding coil 2, starting coil 1 and opening contact 5, so the contactor armature is fixed, and pairs of contacts 9 and 12, 10 and 13 and 11 and 14 of vacuum chambers 6 .. .8, respectively, are in the open state. If there is voltage at the terminals 3 and 4 to connect the source through the holding coil 2 and the starting coil 1, a current must flow, the value of I of which is equal to I U / (Ri + Ra),

where and is the applied voltage, RI is the resistance of the starting coil, R2 is the resistance of the holding coil.

However, due to the fact that the holding coil 2 is shorted by the opening contact 5, its resistance in the formula should not be taken into account, therefore, the operation current will be equal to 1 cp U / RI. Since 1 cp I, a large magnetizing force is generated under the action of a large current, forming a magnetic flux of a significant magnitude in the core of the electromagnet, and the armature will be attracted to the core of the electromagnet, which is accompanied by the closure of contacts 9 ... 14 in vacuum chambers 6 ... 8 and opening contact pin 5. In the steady state, a current acts in the contactor, which is able to hold the armature in a closed (drawn) position. The described process is carried out at each voltage supply to the terminals 3 and 4 of the voltage source.

Sources taken into account:

1 US patent No. 5914850 of 02/07/96, Inventions of the world, issue 2, No. 6/2000, C.50.

2 Chunikhin A.A., electric devices, M., Energoatomizdat, 1988, fig. 8.9, p. 324-326.

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Author: L / j / I / Kychkin V.F.

Claims (1)

A vacuum contactor comprising a housing, an electromagnet with starting and holding coils, an armature, three vacuum chambers, each of which has a movable contact connected to the armature and a fixed contact fixed in the housing, as well as the first and second clamps for connecting a voltage source, characterized in that between the first and second clamps for connecting the voltage source connected in series are a starting coil made of low resistance, and a holding coil made of high resistance and shunted connecting contact.