SU868876A1 - Maximum current disconnector - Google Patents

Description

(54) MAXIMUM CURRENT RELEASE

one

The invention relates to an electrical system, namely to the field of low-voltage electrical equipment, in particular to automatic switches.

A maximum current release is known, containing two P-shaped magnetic cores: the main one with a magnetizing winding placed on one of its cores, with a core, the axis of rotation of which is located at the end of the other core, and an additional magnetic core fixedly fixed at the base of the core with a magnetizing winding, f the other end is placed above the end of the core acting on the free tripping mechanism, with two end sections of the additional magnetic circuit made of electrical equipment stainless steel, and the middle section is made of a thermomagnetic material and is directly connected to the circuit to be protected by one of its ends with the help of an additional conductive element, which is mounted for movement in the horizontal direction 1.

The disadvantage of this release is low reliability of the set point.

The overload current, which during operation with changes in ambient temperature from -60 to 60 ° C, undergoes significant changes.

The closest in technical essence to the present invention is a maximum current release of an automatic switch, containing a main U-shaped magnetic circuit with a magnetizing winding placed on one of its cores, with a core, the axis of rotation of which

15 is located at the end of the other core, and an additional U-shaped magnetic circuit made of a thermomagnetic material and heated by the current of the protected circuit, one

20 its end is fixedly fixed at the base of the core, on which the magnetizing winding is placed, and its other end is placed above the end of the cHP acting on the mechanism

25 free disconnection and a ferromagnetic screw placed at the end of an additional magnetic circuit located above the end of the core acting on the free disconnect mechanism C2.

The disadvantage of this device is that the adjustment of the current pick-up M1 occurs in steps. In addition, when the ambient temperature changes, the current settings change, which, in turn, leads to a decrease in the operating speed of the maximum tripping device.

The purpose of the invention is to increase the smoothness of setting the instantaneous operation current setting and increase the reliability of operation.

The goal is achieved by the fact that the specified ferromagnetic screw is placed in the working gap area against the core of the main magnetic circuit, on which the magnetizing winding is located, and is installed in such a way that at any position of the ferromagnetic screw there is a gap between it and the core.

The drawing shows the maximum current release.

The magnetizing winding 1 is located on the core 2. The overcurrent release device contains the main magnetic core 3 with the core 4 and a counter spring 5 fixed at one end at the base b. The additional magnetic core 7 is extracted from the thermomagnetic material and part of it is connected directly to the protected circuit between points 8. Ferromagnetic the screw 9 is located at the end of the additional magnetic circuit 7. The arrows indicate the directions of the magnetic fluxes.

The device works as follows.

With the passage of the current of the protected circuit in the core 2, a magnetic flux F occurs, which splits off at the base of the core: one part F of this flux goes along the main magnetic conductor 3 and creates an attractive magnetic force, which tends to pull the core 4 to the core 2; The other part of the flux goes along an additional magnetic conductor 7 and creates a holding magnetic force that tends to hold measles 4 on the additional magnetic circuit 7. When the rated current passes, the ratio between the attracting and holding sludge is such that the release can stay in this position for a very long time. When passing through the protected overcurrent circuit, the section of additional magnetic conductor enclosed between points 8 heats up and after a certain time (time delay before shutdown) reaches the temperature of the Curie point. In this case, the magnetic resistance of the additional magnetic circuit 7 increases significantly, therefore almost the entire magnetic flux F goes along the main magnetic conductor 3. The attracting magnetic force increases significantly due to a decrease in the holding magnetic force. Practically, it is possible to consider the holding magnetic force equal to zero, Anchor 4 under the action of the attracting magnetic force, overcoming the elastic force of the opposing spring 5, is attracted to the core 2. The movement of the measles affects the free tripping mechanism (not shown) which takes the circuit breaker to open position. I

The thermomagnetic material has a lower saturation induction than electrical steel, therefore, at a certain value of the short circuit current, the additional magnetic circuit 7 is saturated. With a further increase in the short-circuit current, all the excess magnetic flux F rises along the main magnetic conductor 3, which causes an increase in the attraction of the magnetic force with a constant holding magnetic force. When the short-circuit current reaches a certain value (the instantaneous pickup current setting), the attracting magnetic force becomes greater than the total value of the holding magnetic force and the elastic force of the opposing spring 5 cor. The anchor 4 is attracted to the core 2 and, via the free-release mechanism, moves the switch to the open position. Moving the screw 9 changes the value of the holding magnetic force and thereby changes the value of the instantaneous pickup current setting. Since at the overload current the magnitude of the holding magnetic force is insignificant and the overload current setting is mainly determined by heating the section of the additional magnetic core 7 concluded between points 8, and the screw 9 does not fit into this area, the overload current setting will depend little on the position of the screw 9 For this reason, during operation and the switch with the proposed release, the current settings will not change.

For example, if the thermomagnetic area is 17 mm wide and 4 mm thick, moving the screw from one extreme position to the other (until the core tip touches the core), the instantaneous pickup current setting changes from 200 to 600 A (for a nominal current of 40 A), and the overload current setting remains practically unchanged - it does not change even after the removal time of the current characteristics of the AE-2044 switch with the proposed release at ambient temperature -,, 5 and. The proposed overcurrent release is designed for use in general industrial circuit breakers that combine protection of the circuit against overload current and instantaneous tripping current. The release has an adjustable charter. instantaneous tripping current and during operation of the switch when the ambient temperature drops to 60 ° C, the current settings do not change, which increases the reliability of the equipment protection. In addition to the calibration of the charter and the instantaneous triggering in the proposed maximum release, the cable is conveniently carried out directly in the circuit breaker, especially in switches of the AE-20 series, since it is simple in design. Claims of the invention The overcurrent release of the automatic switch containing the main U-shaped magnetic conductor with the magnetizing winding placed on one of its cores, with a core, the rotation axis of which is located at the end of the other core and additional. A P-shaped magnetic wire made of a thermomagnetic material and heated by the current of the protected circuit, one end of which is fixed at the base of the core, on which the magnetizing winding is placed, and the other end is placed above the end a core acting on the free trip mechanism and a ferromagnetic screw placed at the end of an additional magnetic circuit located above the end of the core acting on the free trip mechanism, characterized in that, in order to increase the smoothness of adjusting the current setting of instantaneous operation and increase the detector response, The ferromagnetic screw is placed in the working gap area against the core of the main magnetic circuit, on which the magnetizing winding is located, and is installed so This means that at any position of the ferromagnetic screw there is a gap between it and the core. Sources of information taken into account in the examination 1. The author's certificate of the USSR for application 2751518/07, cl. H 01 H 73/48, 1979. 2. The author's certificate of the USSR 684641, cl. H 01 H 73/48, H 01 H 75/12, 1977,

Claims (1)

Claim The overcurrent release of the circuit breaker containing the main U-shaped magnetic circuit 25 with a magnetizing winding located on one of its cores, with an armature whose rotation axis is located at the torp of the other core, and an additional U-shaped magnetic _ wire made of thermomagnetic material and heated by the current of the protected circuit, one end fixed at the base of the core, on which the magnetizing winding is placed, and the other end is placed above the end of the armature, which is applied to the free trip mechanism, and a ferromagnetic screw located at the end of an additional magnetic wire located above the end of the armature acting on the free trip mechanism, characterized in that, in order to improve the smoothness of the adjustment of the instantaneous current setting and to increase the reliability of operation, said ferromagnetic screw is placed in the zone of the working gap against the core of the main magnetic circuit, on which the magnetizing winding is located, and is installed in such a way that when bong ferromagnetic rotor position between them. and there is a gap in the anchor.