CN203588951U - Thermomagnetic tripper with thermal compensation function - Google Patents

Abstract

The utility model discloses a thermomagnetic tripper with a thermal compensation function. The thermomagnetic tripper with the thermal compensation function comprises a shell body, and a buckling mechanism, a tripping rod used for tripping the buckling mechanism, a thermal protection component and a magnetic protection component which are mounted in the shell body, and the thermomagnetic tripper further comprises a thermal compensation bimetallic strip which is used for pushing the tripping rod to slide horizontally in bending deformation, wherein one end of the thermal compensation bimetallic strip is fixed in the shell body, and the other end forms a linkage structure with the tripping rod; the thermal protection component comprises a thermal bimetallic strip and a thermal bimetallic strip cap which is used for pushing the buckling mechanism to trip when the thermal bimetallic strip cap is bent and deforms; and the thermal bimetallic strip cap is provided with an inclined surface and sleeves on the thermal bimetallic strip. The users of the thermomagnetic tripper does not need to adjust the current of the circuit breaker according to the different temperature of application environment of the circuit breaker, thereby reducing the application cost for the users and bringing convenience for users to use.

Description

A kind of Pyromagnetic release with thermal compensation function

Technical field

The utility model relates to a kind of Pyromagnetic release with thermal compensation function, is assemblied on breaker of plastic casing, can directly trigger the operating mechanism of breaker of plastic casing, makes circuit breaker realize the protection of threading off.

Background technology

Breaker of plastic casing is applicable in low voltage power distribution network, for distributing electric energy and protection circuit, power supply and power consumption equipment.Circuit breaker has overload, short circuit and under-voltage protection function, avoids circuit and power-supply device to be damaged.

Pyromagnetic release mainly contains thermal overload protection and short circuit magnetic defencive function; when occurring overload current in circuit; and maintain after a period of time; thrermostatic bimetal-plate temperature distortion in the hot guard block of release; bending also triggers the snap device in release; thereby further trigger the operating mechanism of circuit breaker, realize the overload protection function of circuit breaker.When occurring short circuit current in circuit, and while exceeding the permissible value of circuit breaker, the magnetic guard block of release triggers snap device, thereby further triggers the operating mechanism of circuit breaker, realizes the short-circuit protection function of circuit breaker.

Because the heat protection of Pyromagnetic release is the flexural deformation based on thrermostatic bimetal-plate, in different ambient temperatures, the temperature difference of thrermostatic bimetal-plate, breaker protection performance is also inconsistent, and Fig. 1 is the current setting of Thermomagetic circuit-breaker at varying environment temperature; Fig. 2 be variation of ambient temperature appearance coefficient falls.Be subject to the impact of ambient temperature, circuit breaker user need to adjust the electric current of circuit breaker according to the difference of circuit breaker environment for use temperature, thereby increased user's use cost and be not easy to user, uses, and has also directly reduced the protective value of circuit breaker simultaneously.

Utility model content

The deficiency existing for prior art, the utility model object is to provide a kind of user not to be needed according to the difference of the circuit breaker environment for use temperature Pyromagnetic release with thermal compensation function of circuit breaker current of adjusting, and has reduced user's use cost and user-friendly.

To achieve these goals, the utility model is to realize by the following technical solutions:

The utility model comprises housing and is arranged on snap device, the release lever for snap device is triped, hot guard block and the magnetic guard block in housing, when the utility model also comprises bending, for promoting the thermal compensation bimetal leaf of release lever horizontal slip, thermal compensation bimetal leaf one end is fixed in housing, the other end and release lever are linkage structures; The thrermostatic bimetal-plate cap that hot guard block comprises thrermostatic bimetal-plate and for promoting release lever, snap device triped when thrermostatic bimetal-plate bending; Thrermostatic bimetal-plate cap is provided with an inclined-plane and is enclosed within above thrermostatic bimetal-plate.

Above-mentioned magnetic guard block comprises static gag bit and the moving armature assembly corresponding with static gag bit.

Above-mentioned release lever is arranged on housing by release lever axle.

User of the present utility model does not need according to the adjust electric current of circuit breaker of the difference of circuit breaker environment for use temperature, thereby, reduce user's use cost, and be convenient to user's use.

Accompanying drawing explanation

Fig. 1 is the current setting of Thermomagetic circuit-breaker at varying environment temperature;

Fig. 2 be variation of ambient temperature appearance coefficient falls;

Fig. 3 is overall structure schematic diagram of the present utility model;

Fig. 4 is hot guard block of the present utility model and magnetic guard block structural representation;

Fig. 5 is the structural representation that comprises release lever, release lever axle, thermal compensation bimetal leaf;

Fig. 6 is under the utility model low ambient temperature, thermal compensation effect schematic diagram;

Fig. 7 is under the utility model high ambient temperature, thermal compensation effect schematic diagram.

Embodiment

For technological means, creation characteristic that the utility model is realized, reach object and effect is easy to understand, below in conjunction with embodiment, further set forth the utility model.

Fig. 1 is the current setting of Thermomagetic circuit-breaker at varying environment temperature; Fig. 2 be variation of ambient temperature appearance coefficient falls; Explanation is under different ambient temperatures, and the operating current of Thermomagetic circuit-breaker need to be adjusted.

Referring to Fig. 3, Pyromagnetic release of the present utility model comprises housing 1, hot guard block, magnetic guard block, thermal compensation bimetal leaf 3, snap device 4 and release lever 5.

Referring to Fig. 4, hot guard block comprises thermal element 23, thrermostatic bimetal-plate 24 and thrermostatic bimetal-plate cap 25.

Magnetic guard block comprises static gag bit 22 and the moving armature assembly 21 corresponding with static gag bit.

The structure of thermal and magnetic guard block is consistent with traditional Pyromagnetic release, and thermal characteristics protection is all to promote release lever 5 by thrermostatic bimetal-plate cap 25, and the snap device 4 of Pyromagnetic release is triped, and realizes the protection of circuit breaker.

Referring to Fig. 5, thermal compensation bimetal leaf 3 one end are fixed on housing 1, and the other end and release lever 5 are that linkage structure is subject to the impact of ambient temperature and bending, when thermal compensation bimetal leaf 3 deforms bending, can promote release lever 5 horizontal slips.

Release lever 5 is arranged on housing 1 by release lever axle 6, and release lever 5 can carry out horizontal slip and rotation on release lever axle 6.

Bimetal leaf cap 25 is enclosed within above thrermostatic bimetal-plate 24, and along with thrermostatic bimetal-plate 24 is out of shape, move to certain phase and just can contact with release lever 5, more further motion, bimetal leaf cap 25 just can promote release lever 5 and rotate.

Fig. 6 shows the compensation schematic diagram under low ambient temperature according to the thermal compensation bimetal leaf of the utility model Pyromagnetic release, under low ambient temperature, release lever 5 horizontal slip under the effect of thermal compensation bimetal leaf 3, on thrermostatic bimetal-plate cap 25, there is an inclined-plane, after release lever 5 horizontal slips, inclined-plane on the two gold plaque caps 25 of distance heat is nearer, reduced thrermostatic bimetal-plate cap 25 and promote the distance of release lever 5.

Fig. 7 shows the compensation schematic diagram under high ambient temperature according to the thermal compensation bimetal leaf of the utility model Pyromagnetic release, under high ambient temperature, release lever 5 horizontal slip under the effect of thermal compensation bimetal leaf 3, on thrermostatic bimetal-plate cap 25, there is an inclined-plane, after release lever 5 horizontal slips, inclined-plane on the two gold plaque caps 25 of distance heat is farther, increased thrermostatic bimetal-plate cap 25 and promote the distance of release lever 5.

Further illustrate, under low ambient temperature, thrermostatic bimetal-plate 24 bendings are less, the two gold plaque caps 25 of heat are far away compared with normal temperature (40 ℃) apart from the distance of release lever 5, and under high ambient temperature, thrermostatic bimetal-plate 24 bendings are larger, and the two gold plaque caps 25 of heat are near compared with normal temperature (40 ℃) apart from the distance of release lever 5.

Bending by thermal compensation bimetal leaf 3 under different ambient temperatures, promotes the slip of release lever 5 and the cooperation of bimetal leaf cap 25 ramps, has realized the compensation of Pyromagnetic release thermal protection performance.The use client of circuit breaker does not need according to the adjust electric current of circuit breaker of the difference of circuit breaker environment for use temperature, has reduced user's use cost and user-friendly.

More than show and described basic principle of the present utility model and principal character and advantage of the present utility model.The technical staff of the industry should understand; the utility model is not restricted to the described embodiments; that in above-described embodiment and specification, describes just illustrates principle of the present utility model; do not departing under the prerequisite of the utility model spirit and scope; the utility model also has various changes and modifications, and these changes and improvements all fall within the scope of claimed the utility model.The claimed scope of the utility model is defined by appending claims and equivalent thereof.

Claims (3)

1. there is a Pyromagnetic release for thermal compensation function, comprise housing (1) and be arranged on snap device (4), release lever (5), hot guard block and the magnetic guard block for snap device (4) is triped in housing (1), it is characterized in that,

While also comprising bending, for promoting the thermal compensation bimetal leaf (3) of release lever (5) horizontal slip, described thermal compensation bimetal leaf (3) one end is fixed in housing (1), the other end and release lever (5) are linkage structures;

Described hot guard block comprises thrermostatic bimetal-plate (24) and when thrermostatic bimetal-plate (24) bending, is used for promoting the thrermostatic bimetal-plate cap (25) that release lever (5) is triped snap device (4); Described thrermostatic bimetal-plate cap (25) is provided with an inclined-plane and is enclosed within thrermostatic bimetal-plate (24) above.

2. the Pyromagnetic release with thermal compensation function according to claim 1, is characterized in that,

Described magnetic guard block comprises static gag bit (22) and the moving armature assembly (21) corresponding with static gag bit (22).

3. the Pyromagnetic release with thermal compensation function according to claim 1, is characterized in that,

Described release lever (5) is arranged on housing (1) by release lever axle (6).

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