CN2916919Y - Selective protection switch - Google Patents

Abstract

A switch with selective protection function is provided, which comprises a tripping rod (8), a first heat responsive component (6), a second heat responsive component (20) and an electromagnetic mechanism (22). Wherein, the tripping rod can be positioned in the switch in movement; the electromagnetic mechanism, after identifying the current in the circuit, drives the tripling rod to move the joint section between the first and the second heat responsive components. When the circuit is overloaded, the delay action of the first heat responsive component pushes the tripping rod to break the switch; when short circuit occurs, the second heat responsive component pushes the tripping rod to break the switch; the first and second heat responsive components are connected in series; a tripping resetting mechanism positioned in the utility model is able to reset the tripping rod to a positioned corresponding to the first heat responsive component upon the break of circuit after the short circuit. The utility model, with the adoption of ordinary heat-sensitive component and simple selection device, is able to realize the selective protection of circuit under conditions of overload and short circuit.

Description

Selective protection switch

Technical field

The utility model relates to a kind of switchgear, particularly a kind of switch that has the selective protection function.This switch generally is applied to power transmission and distribution, generator, Electrical Control Technology field, as existing switchgear and additional electric equipments thereof such as on-load switch, circuit breaker, contactors.

Background technology

Existing selective switch equipment is widely used; as in distribution system; power failure scope when in a single day breaking down in order to reduce circuit or equipment; require only will break down line outage; All other routes are normal power supply still, and this higher level's switch that just requires to shield has the selective protection function.

Existing selective protection is divided into three kinds of current selective, time selectivity and energy selectivities.Current selective is to lean on the operating current difference of the superior and the subordinate's switch to realize; reached the operating current of subordinate's switch when short-circuit current; and when not reaching the operating current of higher level's switch; has only subordinate's switch motion; higher level's switch can not move, and the switch that the utility model relates to has just adopted this mode to realize the selective protection function.

The estimated current selective switch adopts current-limiting resistance to realize the circuit selection function more.Conventional current-limiting resistance adopts common alloy resistance wire to be wound in the form of coil, and coil has produced high-intensity magnetic field, needs on the contrary and winding in parallel, and operation is quite complicated.And for fear of the short circuit between winding, also need especially resistance wire to be made insulation processing, having increased cost, the current-limiting resistance volume of final molding is very big, uses very inconvenient.The prior art that also has has adopted the current-limiting resistance of special material to be parallel in the current path for fear of this problem, as has the resistance of the ceramic material of constant or negative temperature coefficient, relatively harsher in order to reach effect well to the requirement of this current-limiting resistance, the rapidoprint more complicated, need sintering process comparatively complicated, increased cost.

So; in the present technique field, there are the needs that improve existing selective protection switch, promptly adopt ordinary thermal element and choice device just can realize overload, short circuit electric circuit defencive function; and from economic angle, hope can realize the optimization of whole manufacturing process.

The utility model content

The purpose of this utility model provides a kind of selective protection switch, utilize two kinds of different common temperature-sensing elements of thermal sensitivity to come selectivity to realize circuit overloads protection and short-circuit protection, and technology is easy.

The technical scheme that the utility model adopts in order to achieve the above object is: a kind of switch with selective protection function comprises moving contact, fixed contact, release lever, first temperature-sensing element, second temperature-sensing element and electromagnetic mechanism.Wherein, described release lever is arranged in the switch movably; After described electromagnetic mechanism is discerned circuital current, drive described release lever and move to first temperature-sensing element or with second temperature-sensing element and interrelate on the corresponding position.Promptly when fault current hour by temperature-sensing element action, when fault current acquires a certain degree,, thereby realized the selective protection of switch by another temperature-sensing element action.

When circuit overloads, the first temperature-sensing element deferred action promotes release lever disconnects switch; When short circuit, the action of second temperature-sensing element promotes release lever disconnects switch; Described first temperature-sensing element and second temperature-sensing element are for the relation of being connected in series and also comprise a release lever position resetting device, and after because of the short circuit open circuit, this resetting device is reset to described release lever and the first temperature-sensing element corresponding position that interrelates.

In addition, selective protection switch of the present utility model also can have following characteristics: described second temperature-sensing element has higher thermal sensitivity than first temperature-sensing element.First temperature-sensing element, second temperature-sensing element are taked heater-type or directly-heated type according to switch rated current size.

Circuital current just often, removable release lever is in the position of the first temperature-sensing element correspondence, keep by a resetting device, when short circuit current occurs, release lever is moved to the second temperature-sensing element correspondence position and is made switch motion by electromagnetic mechanism, by resetting device it is reset to and the corresponding position of first temperature-sensing element behind the open circuit, this resetting device can adopt spring to realize.

Relatively more existing other current selective protection switches, the utility model does not need particular components, as current-limiting resistance, has just realized the selective protection function, has reduced the switch cost of manufacture, has saved Production Time.Switching circuit is simple, has guaranteed that also no matter electric switch is can both react action timely and effectively when circuit overloads or when short circuit, realizes selective protection fast.

Description of drawings

Narrate embodiment of the present utility model by accompanying drawing below:

Fig. 1 is the specific embodiment structure chart of selective protection switch of the present utility model when overload;

Fig. 2 is the specific embodiment structure chart of selective protection switch of the present utility model when short circuit;

Fig. 3 is the schematic diagram of selective protection switch of the present utility model when overload shown in Figure 1;

Fig. 4 is the schematic diagram of selective protection switch of the present utility model when short circuit shown in Figure 2.

Embodiment

Below in conjunction with specific embodiment of the utility model shown in the drawings, further describe the embodiment of selective protection switch described in the utility model.

As shown in Figure 1 and Figure 2, selective protection switch described in the utility model is arranged in the housing, and for example two half housings near symmetry form an integral body behind rivet.One operating grip 10 is set, an operating mechanism 11 interoperations in described operating grip and the housing, closure, the unlatching of moving contact 12 and fixed contact 13 in the control housing on the housing.Promptly when operating grip 10 Closing Switch, circuit is connected; When operating grip 10 cut-off switch, circuit ends.In case break down, described switch is open circuit, and near the arc control device 14 that electric arc will be introduced into the sound contact this moment extinguish.

As shown in Figure 1 and Figure 2, selective protection switch described in the utility model also comprises two temperature-sensing elements; And one can promote release lever respectively at first temperature- sensing element 16,20 mobile release levers of second temperature-sensing element, 18, the first temperature-sensing elements 16 and second temperature-sensing element 20, and switch is threaded off, and dynamic and static contact separately; An electromagnetic mechanism 22, but this electromagnetic mechanism identification circuit overload and short circuit state, and move according to the position of the state-driven release lever 18 of circuital current; A resetting device 19, for example spring makes release lever reset to initial position after action finishes, i.e. the position of first temperature-sensing element 16.。

Second temperature-sensing element 20 of described selective protection switch is attached to load end 31 by flexible connection 15, and links to each other with first temperature-sensing element 16 by a flexible connection 17, and first temperature-sensing element 16 links to each other with moving contact 12 by flexible connection 23.In circuit, the catenation principle of described first temperature-sensing element 16, described second temperature-sensing element 20 is taked the series connection form, as shown in Figure 3, Figure 4.

The interelement action relationships of described selective protection switch is as follows:

-at electric current just often, release lever 18 is located the position of Chu first temperature-sensing element 16 all the time;

-when circuit overloads, described release lever 18 only with first temperature-sensing element, 16 interoperations, i.e. the crooked back of first temperature-sensing element 16 heating promotes release levers 18 threads off switch, as Fig. 1, shown in Figure 3;

-when short circuit, described electromagnetic mechanism 22 will promote release lever 18, make release lever 18 move to the position of second temperature-sensing element 20 by described first temperature-sensing element 16, release lever 18 will remain on this position by electromagnetic mechanism 22 this moment, or remain on this position by a latching device (not shown), after the 20 heating bendings of second temperature-sensing element, promote release lever 18 switch is threaded off, as Fig. 2, shown in Figure 4;

-after switch was threaded off, release lever will be by automatic unlocking, and promote described release lever 18 by a resetting device 19 and return to initial position, be i.e. the position of first temperature-sensing element 16.Described resetting structure can adopt spring to realize that this spring can be any in extension spring, stage clip or the torsion spring.

Wherein, when circuit overloads or short circuit, first temperature-sensing element 16 or second temperature-sensing element 20 can adopt with multiple embodiments such as inverse time lag curve promotion release levers 18 according to the circuit overloads degree, and switch dropout, circuit are disconnected.

When short circuit, for guaranteeing switch open circuit after short time-delay, the distance between second temperature-sensing element 20 and the release lever 18 should be as far as possible little, as shown in Figure 1 and Figure 2; And select for use the high-thermosensitive element as second temperature-sensing element 20, promote the reaction time that release lever 18 is threaded off switch to shorten.The utility model can adopt the thermal sensitivity of second temperature-sensing element 20 to be higher than the embodiment of first temperature-sensing element 16.

The mode of heating of described first temperature-sensing element 16 and second temperature-sensing element 20 can change according to the size of rated current.When the rated current of switch was very little, described first temperature-sensing element 16 and second temperature-sensing element 20 adopted the directly-heated types heating, promptly by the resistance heating of temperature-sensing element itself; When the rated current of switch was relatively large, temperature-sensing element adopted heater-type, promptly utilizes the heat of heater element to pass to temperature-sensing element.

Claims (5)

1. the switch with selective protection function comprises moving contact, fixed contact, release lever (18), first temperature-sensing element (16), second temperature-sensing element (20) and electromagnetic mechanism (22), it is characterized in that:

Described release lever (18) is arranged in the switch movably;

After described electromagnetic mechanism (22) is discerned circuital current, drive described release lever and move to first temperature-sensing element (16) or with second temperature-sensing element (20) and interrelate on the corresponding position;

When circuit overloads, first temperature-sensing element (16) deferred action promotes release lever (18) disconnects switch;

When short circuit, second temperature-sensing element (20) action promotes release lever (18) disconnects switch;

Described first temperature-sensing element (16) and second temperature-sensing element (20) are the relation of being connected in series, and

Also comprise a release lever position resetting device, after because of the short circuit open circuit, this resetting device is reset to described release lever (18) and first temperature-sensing element (20) the corresponding position that interrelates.

2. switch according to claim 1 is characterized in that described second temperature-sensing element (20) has higher thermal sensitivity than first temperature-sensing element (16).

3. switch according to claim 1 and 2 is characterized in that first temperature-sensing element (16), second temperature-sensing element (20) take heater-type or directly-heated type according to switch rated current size.

4. according to the described switch of one of aforementioned claim, it is characterized in that, circuital current just often, removable release lever (18) is in the corresponding position of first temperature-sensing element (16), keep by described resetting device, when the short circuit current appearance, release lever (18) is moved to second temperature-sensing element (20) correspondence position and is made switch motion by electromagnetic mechanism (22), by resetting device it is reset to and the corresponding position of first temperature-sensing element (16) behind the open circuit.

5. switch according to claim 1 is characterized in that, described release lever position resetting device is a spring (19).

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