KR20210042519A - Switch for a vacuum circuit breaker and vacuum circuit breaker having the same - Google Patents

Abstract

The present invention provides a switching device for a vacuum circuit breaker. The switching device for a vacuum circuit breaker includes: a pair of side plates arranged in parallel to each other; a lever unit rotatably arranged between the pair of side plates; a latch unit tied to the lever unit; a cam unit tied to the latch unit; and a crank unit, tied to the cam unit, for releasing a charged closing spring to form an insertion state, wherein the crank unit includes link members arranged in parallel along a cam shaft of the cam unit. The crank unit includes link members disposed in parallel along a camshaft of the cam unit, thereby preventing a stable opening/closing operation and a sudden device malfunction.

Description

Switch for a vacuum circuit breaker and vacuum circuit breaker having the same as a switch for a vacuum circuit breaker having a dual link structure

The present invention relates to a vacuum circuit breaker, and more particularly, a dual link structure capable of overcoming the limit of the input energy capacity and the mechanical durability limit due to opening and closing by arranging a plurality of link members of the crank portion along an axis line. It relates to a vacuum circuit breaker opening and closing device and a vacuum circuit breaker having the same.

In general, a vacuum circuit breaker cuts off the circuit in a vacuum interrupter (VI) inside the circuit breaker by a separate external relay when an abnormal current such as overcurrent, short circuit, or ground fault occurs in the special high voltage/high voltage distribution line. It is a product that protects the load.

The vacuum circuit breaker as described above is installed in a switchboard in which various electric devices are put and managed for the operation or control of power plants and substations, and the operation of electric motors.

In general, the vacuum circuit breaker is installed by receiving a circuit breaker body inside a cradle fixed to the switchboard.

1 is a view showing an example of an opening and closing device provided in a conventional circuit breaker.

Referring to FIG. 1, a conventional opening/closing device used in a circuit breaker includes an on-lever assembly 20, a closing latch 30 constrained by the on-lever assembly 20, and a cam constrained by the closing latch 30. An assembly 40 and a crank assembly 50 fixed to the cam assembly 40 are included.

Upon input, the ON button 106 generates a force along a straight line. The on-coupling rotor 60 moves by receiving the force of the on button 106 and transmits the rotational force to the on-lever assembly 20.

Accordingly, the on-lever assembly 20 is rotated to release the locked state of the input latch 30.

Here, the cam assembly 40 is provided with a rotating function to charge the input spring through the crank assembly 50 by receiving a rotational force by a handle (not shown).

The crank assembly 50 is installed between a pair of cam plates 41 constituting the cam assembly 40, and is configured to be rotatable with a crank shaft 51.

In general, in the crank assembly 50 as described above, a plurality of link members are hingedly connected to form one link structure 52.

The switching device having such one link structure can overcome the limit of durability due to opening and closing when applied to an air circuit breaker as shown in FIG. 1, but in a vacuum circuit breaker having a condition of high breaking current (40 kA or more), the input energy There is a problem that is difficult to apply due to limitations in capacity and mechanical durability.

An object of the present invention is to provide a vacuum circuit breaker opening and closing device capable of overcoming the limit of the input energy capacity and the mechanical durability limit due to opening and closing by arranging the link members of the crank portion to form a plurality of the link members along the axis and to provide a vacuum circuit breaker having the same. It is to do.

In addition, another object of the present invention is an opening and closing device for a vacuum circuit breaker capable of preventing a stable opening and closing operation and sudden device malfunction by arranging a plurality of link members in parallel along the axis as described above when interlocking with the closing and closing. And it is to provide a vacuum circuit breaker having the same.

The objects of the present invention are not limited to the above-mentioned objects, and other objects and advantages of the present invention that are not mentioned can be understood by the following description, and will be more clearly understood by examples of the present invention. In addition, it will be easily understood that the objects and advantages of the present invention can be realized by the means shown in the claims and combinations thereof.

In order to achieve the above objects, the present invention provides an opening and closing device for a vacuum circuit breaker.

The opening and closing device for the vacuum circuit breaker includes a pair of side plates disposed in parallel with each other, a lever portion rotatably disposed between the pair of side plates, a latch portion constrained to the lever portion, and the latch portion In the opening and closing device for a vacuum circuit breaker comprising a cam portion constrained to the cam portion and a crank portion constrained to the cam portion to achieve a closed state by releasing the axial closing spring,

The crank portion includes link members disposed in parallel along the cam axis of the cam portion.

Here, it is preferable that the link members are arranged at uniform intervals from each other.

Each of the link members includes a first link member having one end hingedly connected to the camshaft of the cam unit, a second link member having one end hingedly connected to the other end of the first link member, and one end of the second link. It is preferable to provide a third link member hinged to the other end of the member.

In addition, each of the second link member and the third link member is provided in a pair,

The second link member forming a pair is disposed at both sides of the other end of the first link member,

It is preferable that the third link member forming a pair is disposed on both sides of the other end of the second link member forming a pair.

In addition, it is preferable that an elastic connection member is interposed between the second link members forming a pair.

In addition, a gap maintaining member for regulating a gap between the first link members of each of the link members may be installed on the camshaft.

According to another embodiment, the present invention includes a vacuum circuit breaker including the opening and closing device for the vacuum circuit breaker.

The opening and closing device for a vacuum circuit breaker according to the present invention and a vacuum circuit breaker having the same have the effect of overcoming the limit of the input energy capacity and the mechanical durability limit due to the opening and closing by arranging the link members of the crank portion along the axis to form a plurality. Have.

In addition, when the opening and closing device for a vacuum circuit breaker according to the present invention and a vacuum circuit breaker having the same are arranged to form a plurality of link members in parallel along the axis as described above, the opening and closing device and the vacuum circuit breaker having the same according to the present invention prevent stable opening and closing operation and sudden device malfunction It has an effect that can be done.

In addition to the above-described effects, specific effects of the present invention will be described together while describing specific details for carrying out the present invention.

1 is a view showing an opening and closing device in a conventional circuit breaker.
Figure 2 is a perspective view showing the opening and closing device for a vacuum circuit breaker of the present invention.
Figure 3a is another perspective view showing the opening and closing device for a vacuum circuit breaker of the present invention.
Figure 3b is another perspective view showing the opening and closing device for a vacuum circuit breaker of the present invention.
4 is a perspective view showing a crank portion according to the present invention.
5 to 7 are views showing the operation of the opening and closing device for a vacuum circuit breaker according to the present invention while a contact is made.
8A and 8B are views showing an example in which a gap maintaining member is further installed on a camshaft according to the present invention.

The above-described objects, features, and advantages will be described later in detail with reference to the accompanying drawings, and accordingly, one of ordinary skill in the art to which the present invention pertains will be able to easily implement the technical idea of the present invention. In describing the present invention, if it is determined that a detailed description of a known technology related to the present invention may unnecessarily obscure the subject matter of the present invention, a detailed description will be omitted. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to indicate the same or similar elements.

Hereinafter, the "top (or bottom)" of the component or the "top (or bottom)" of the component means that an arbitrary component is arranged in contact with the top (or bottom) of the component. In addition, it may mean that other components may be interposed between the component and any component disposed on (or under) the component.

In addition, when a component is described as being "connected", "coupled" or "connected" to another component, the components may be directly connected or connected to each other, but other components are "interposed" between each component. It is to be understood that "or, each component may be "connected", "coupled" or "connected" through other components.

Figure 2 is a perspective view showing the opening and closing device for a vacuum circuit breaker of the present invention. Figure 3a is another perspective view showing the opening and closing device for a vacuum circuit breaker of the present invention. Figure 3b is another perspective view showing the opening and closing device for a vacuum circuit breaker of the present invention.

The configuration of the opening and closing device for a vacuum circuit breaker of the present invention will be described with reference to FIGS. 2 to 3B. Here, the opening and closing device for the vacuum circuit breaker is a configuration included in the configuration of the vacuum circuit breaker according to the present invention.

The opening and closing device for a vacuum circuit breaker according to the present invention largely includes a pair of side plates 100, a lever part 200, a latch part 400, a cam part 300, and a crank part 500. .

The above configurations will be described.

Side plate (100)

The pair of side plates 100 are disposed to maintain a constant distance from each other. The pair of side plates 100 serves to support a plurality of configurations of the opening and closing device according to the present invention, which will be described later.

A slit (not shown) and a protrusion 110 are formed in the side plate 100 on one side. A coupling slider 120 is horizontally slidably coupled to the slit. The slit is formed into a horizontal straight groove.

The protrusion 110 is provided on one side of the slit and is composed of a pin. The protrusion 110 is inserted into the slide hole 121 of the coupling slider 120.

A spring fixing protrusion is provided at an upper front end of the side plate 100 on one side, and one end of a spring (not shown) capable of returning a coupling rotor is fixed to the spring fixing protrusion.

An on button 130 and an off button 140 are disposed in front of the pair of side plates 100.

The on button 130 and the off button 140 are provided to cause a manual input operation and a cut-off operation.

The on button 130 rotates around an axis when a user presses it, and the other end of the on button 130 is configured to press a coupling rotor (not shown).

Lever part 200

The lever unit 200 according to the present invention is rotatably installed across a pair of side plates 100.

The lever part 200 is disposed under the above-described coupling rotor.

The lever unit 200 includes a lever shaft 210 installed across a pair of side plates 100 and a lever 220 installed at both ends of the lever shaft 210, respectively.

Cam part (300)

The cam unit 300 according to the present invention is rotatably installed between a pair of side plates 100. The cam part 300 is disposed under the lever part 200.

The cam shaft 310 of the cam part 300 receives rotational force by a handle and charges an input spring (not shown) through the crank part 400.

The cam shaft 310 is provided with a cam indicator 320 capable of restraining or operating the input indicator 150 and a cam plate 330 capable of restraining or operating the crank part 400, respectively, as a pair of symmetrical do.

The cam plate 330 may be installed inside, and the cam indicator 320 may be installed outside. The cam plate 330 and the cam indicator 320 are fixedly installed on the cam shaft 310 and rotated at the same rotational speed.

The cam indicator 320 may be formed as a disc. A constraining groove 321 is formed in a portion of the circumferential surface of the cam indicator 320 to constrain the movement of the input indicator 150. The input indicator 150 receives a force to rotate clockwise by the weight of the front display unit. When the cam contact part of the input indicator 150 is caught in the restriction groove 321, the movement of the input indicator 150 is restricted, but the cam contact part (not shown) moves along the surface of the restriction groove 321 on the circumferential surface. In this case, the input indicator 150 rotates in a counterclockwise direction.

A stopper (not shown) capable of restraining motion by the latch part 400 is formed in a portion between the cam indicator 320 and the cam plate 330.

Latch 400

The latch part 400 according to the present invention is installed between the lever part 200 and the cam part 300. The latch part 400 has a latch shaft 410 and a latch 420 rotated about the latch shaft 420. The upper end of the latch part 400 is constrained to the lever shaft 210 of the lever part 200. The lower end of the latch part 400 restrains the stopper of the cam indicator 320.

The upper end of the latch part 400 is caught by the lever shaft 210 and is placed in a restrained state, and when the lever shaft 210 rotates in a counterclockwise direction and the cut surface faces downward, it is released from restraint and can be rotated.

The lower end of the latch part 400 restrains the cam indicator 320 or the stopper of the cam plate 330 to restrain the rotation of the cam part 300. When the upper end of the latch part 400 is released from the restraint, the cam part 300 is released from the restraint of the latch part 400 and is rotatable.

4 is a perspective view showing a crank portion according to the present invention.

Crank part 500

2 to 4, the crank portion 500 according to the present invention is installed between a pair of cam plates 330. The crank part 500 moves along the outer circumferential surface of the pair of crank plates 510 and the crank shaft 520 and the cam plate 330 serving as the rotation center, and restrains or releases the movement of the crank part 500 It includes a shaft 530. The rolling shaft 530 may be composed of a roller.

The crank part 500 includes link members 540 disposed in parallel along the cam shaft 310 of the cam part 300.

Each of the link members 540 is formed in the same configuration.

The link members 540 according to the present invention are disposed at a uniform distance from each other.

The link members 540 in the present invention may be provided in two. Of course, two or more link members 540 may be installed at uniform intervals along the cam shaft 310.

Each of the link members 540 has a first link member 541 having one end hinged to the cam shaft 310 of the cam unit 300, and the other end of the first link member 541 is hinged. (h1) A second link member 542 to be connected, and a third link member 543 having one end hinged to the other end of the second link member 542 (h2).

The first link member 541 is formed in an L shape in which the center is bent as a whole. A through hole 541a through which the camshaft 310 passes is formed in the center of the first link member 541.

One end of the first link member 541 is disposed to face the front of the pair of side plates 100, and the other end extends upward.

The second link member 542 is configured as a pair.

One end of the pair of second link members 542 is hinged (h1) to the other end of the first link member 541. Here, one end of each of the pair of second link members 542 is disposed to surround both sides of the other end of the first link member 541. Accordingly, the pair of second link members 542 maintain a predetermined gap with each other. The gap may be a gap forming the thickness of the first link member 541.

In addition, one end of the third link member 543 is hinged (h2) to the other end of the second link member 542.

The third link member 543 is configured as a pair. One end of the third link member 643 configured as a pair is disposed to surround both side portions of the other end of the pair of second link members 542. The pair of third link members 543 form a predetermined gap. The gap may be a gap between the pair of second link members 542.

In addition, an elastic connection member 550 is interposed between the second link members 542 forming a pair.

In addition, another elastic connection member 560 may be interposed between the third link members 543 forming a pair.

Accordingly, each of the pair of second link members 542 and the pair of third link members 543 form a uniform gap with each other, thereby improving durability.

As described above, the crank part 500 according to the present invention forms a structure in which the link members 540 are arranged in parallel along the camshaft 310, but at uniform intervals.

Next, the operation of the opening and closing device for a vacuum circuit breaker according to the present invention will be described with reference to the above configuration.

5 to 7 are views showing the operation of the opening and closing device for a vacuum circuit breaker according to the present invention while a contact is made.

In the following description, the configuration of the opening and closing device according to the present invention will be referred to FIGS. 2 to 4 in addition to FIGS. 5 to 7.

Referring to Figure 5, the opening and closing device according to the present invention can achieve a blocked state. The cam unit 300 rotates in a counterclockwise direction, and an input spring (not shown) is in a charged state.

The rolling shaft 530 of the crank part 300 is constrained to the cam plate 330. Accordingly, the crank part 500 cannot rotate. Accordingly, the closing spring maintains a deflated state.

In the cam unit 300, since the stopper is constrained to the lower end of the latch unit 400, and the upper end of the latch unit 400 is constrained to the lever shaft 210 of the lever unit 200, rotation is regulated to maintain a stopped state. To achieve.

Meanwhile, the coupling slider 120 is placed in a state that is moved to the rightmost side by a spring.

When the user presses the on button 150, the on button 150 rotates counterclockwise around the shaft. As shown in FIG. 1, the pressing portion 107 presses the on-button contact portion 152 of the on-coupling rotor 150 so that the on-coupling rotor 150 rotates in a clockwise direction. As the on-coupling rotor 150 rotates, the on-lever contact portion 153 presses the protrusion 113 of the on-lever assembly 110, and the lever portion may be rotated counterclockwise around the lever shaft 111. .

Subsequently, the upper end of the latch part 400 is released from the restraint. In a state in which the latch part 400 is released from the restraint of the lever part 200 and is rotatable, the latch part 400 moves away from the stopper by receiving the rotational force of the cam part 300 and is counterclockwise around the latch shaft 410. Is rotated.

Subsequently, the cam unit 300 rotates in a clockwise direction as it escapes from the constraint of the latch unit 400. Accordingly, the crank part 500, which was constrained by the cam plate 330, is released from the restraint while the rolling shaft 530 moves to the insertion part of the cam plate 330, and is rotated counterclockwise by the restoring force of the input spring. .

That is, the movable contactor 2 is rotated in a clockwise direction around the main shaft 18 through the two link members 540 according to the present invention while the input spring is inclined to fix the movable contactor 2 to the fixed contactor 1 or terminal. Connect to. The movable part lever 18a and the fixed contact 1 are connected through a separate link structure 3.

In the present invention, the link member 540 is arranged in parallel along the camshaft 310 when inserted as described above. Accordingly, half of the load may be transmitted to each link member 540.

That is, compared to the case of transmitting force using one link member as shown in FIG. 1, a structure capable of using twice the input spring energy can be achieved.

As described above, in the present invention, it may be applicable to a vacuum circuit breaker having a larger rating through an increase in the input spring energy.

Accordingly, the opening/closing apparatus according to the present invention may overcome the limitation of the input energy capacity and the mechanical durability limitation of the opening and closing by arranging the link members 540 of the crank portion 500 to form a plurality of the link members 540 along the axis line.

In addition, the opening/closing device according to the present invention may prevent a stable opening/closing operation and sudden device malfunction by arranging a plurality of link members 540 in parallel along the axis as described above when the closing and closing devices are interlocked.

8A and 8B are views showing an example in which a gap maintaining member is further installed on a camshaft according to the present invention.

Referring to FIGS. 8A and 8B, one gap maintaining member 600 is installed on the camshaft 310.

The spacing member 600 is disposed between the two link members 540 and on the outer side of each link member 540.

Preferably, the spacing members 600 are disposed at intervals in the camshaft 310. The spacing members 600 are preferably arranged by being fitted into grooves formed on the outer periphery of the camshaft 310 at a set position. Each of the spacing members 600 may be formed in a ring shape.

The gap maintaining member 600 may be fitted and fixed to the cam shaft 310. The fixing method may be a means such as a fixing bolt.

A first link member 541 of one link member 540 is disposed on one side of the spacing member 600. A first link member 541 of another link member 540 is disposed on the other side of the spacing member 600.

Accordingly, the spacing members 600 may guide the two first link members 541 to maintain a constant spacing.

Of course, as shown in FIG. 8B, guide protrusions 610 may be further formed on both side surfaces of the gap maintaining member 600.

In addition, a guide groove 541a for guiding rotation may be further formed by inserting the guide protrusion 610 on an inner surface of one end of each of the first link members 541.

Accordingly, in the present invention, it is possible to prevent a gap between the two link members 540 disposed in parallel from occurring on the shaft.

In addition, by guiding the guide protrusion 610 to rotate along the guide groove 541a, when the first link members 541 rotate, a problem in which the rotation path may be deviated may be solved.

The above-described present invention is capable of various substitutions, modifications, and changes within the scope of the technical spirit of the present invention for those of ordinary skill in the technical field to which the present invention belongs. Is not limited by.

100: side plate
110: protrusion
120: coupling slider
130: on button
140: off button
150: input indicator
200: lever part
210: lever shaft
220: lever
300: cam part
310: Chem axis
320: cam indicator
330: cam plate
400: latch part
410: latch shaft
420: latch
500: crank part
510: crank plate
520: crankshaft
530: cloud axis
540: link member
541: first link member
542: second link member
543: third link member

Claims (7)

A pair of side plates disposed parallel to each other, a lever portion rotatably disposed between the pair of side plates, a latch portion constrained by the lever portion, a cam portion constrained by the latch portion, In the opening/closing device for a vacuum circuit breaker comprising a crank part constrained to the cam part and configured to achieve a closed state by releasing the axial input spring,
The crank part,
Including link members arranged in parallel along the cam axis of the cam unit,
Switchgear for vacuum breaker.
The method of claim 1,
The link members,
Are arranged at even intervals from each other,
Switchgear for vacuum breaker.
The method of claim 1,
Each of the link members,
A first link member whose one end is hingedly connected to the cam shaft of the cam unit,
A second link member whose one end is hinged to the other end of the first link member,
Having a third link member whose one end is hingedly connected to the other end of the second link member,
Switchgear for vacuum breaker.
The method of claim 3,
Each of the second link member and the third link member is provided in a pair,
The second link member forming a pair is disposed at both sides of the other end of the first link member,
The third link member forming a pair is disposed on both sides of the other end of the second link member forming a pair,
Switchgear for vacuum breaker.
The method of claim 4,
Between the second link members forming a pair,
The elastic connecting member is interposed,
Switchgear for vacuum breaker.
The method of claim 3,
On the camshaft,
A gap maintaining member for regulating a gap between the first link members of each of the link members is provided,
Switchgear for vacuum breaker.
A vacuum circuit breaker comprising an opening and closing device for a vacuum circuit breaker according to any one of claims 1 to 6.

Images