KR20080002431U - Air circuit breaker and link thereof - Google Patents

Abstract

The air circuit breaker according to the present invention is compressed by the rotation of the cam connected to the rotating shaft and the first spring for storing the elastic energy, and the driving force generated when the closing spring is tensioned to the opening and closing shaft connected to the movable contactor And a second link, wherein the second link includes a pair of members formed in a plate shape and spaced apart from each other to have a predetermined distance therebetween such that the first link is inserted therebetween. Deformation and breakage due to interference of the second link can be prevented, and the reliability and life of the operation of the air circuit breaker can be improved.

Breaker, link

Description

Breaker and its link {AIR CIRCUIT BREAKER AND LINK THEREOF}

1 is a cross-sectional view showing a conventional air circuit breaker.

Figure 2 is a cross-sectional view showing a state in which the closing spring of the conventional air circuit breaker.

3 is a cross-sectional view showing a state of input of the conventional air circuit breaker.

4 is a front view showing a toggle link mechanism of the conventional air circuit breaker.

5 is a cross-sectional view showing the air circuit breaker according to the present invention.

6 is a cross-sectional view showing a state in which the closing spring of the air circuit breaker according to the present invention is compressed.

7 is a cross-sectional view showing an input state of the air circuit breaker according to the present invention.

8 is a perspective view showing a toggle link mechanism of the air circuit breaker according to the present invention.

** Description of symbols for the main parts of the drawing **

2: opening and closing mechanism part 3: opening and closing shaft

21: axis of rotation 22: cam

24: drive lever 25: closing spring

27: first latch 29: first link

31: second latch 34: second link

35: third link 36: connecting shaft

37: blocking spring 38: movable contact

39: terminal

The present invention relates to an air circuit breaker and a link used therein, and more particularly, to an air circuit breaker and a link used therein that can improve the reliability of the operation by preventing interference between the links.

In general, an air circuit breaker is a device that cuts a line in case of load on, off, overload, short circuit, short circuit and electric shock.

As shown in FIGS. 1 to 3, the conventional air circuit breaker includes an opening and closing mechanism 102 for moving the movable contactor 138 to the terminal 139 to open and close a circuit.

The opening and closing mechanism 102 is rotatably installed on the cam 122 which is connected to the rotating shaft 121 and rotated by manual or automatic, and the frame 109 supporting both sides of the opening and closing mechanism 102. The driving lever 124 rotated according to the rotation of the 122 and one end thereof is connected to the lower end of the driving lever 124 and the other end is supported by the frame 109 and compressed by the rotation of the driving lever 124. And an input spring 125 for storing elastic energy, extending in the vertical direction and being elastically supported by the frame 109 and being restrained by the cam 122 during charging. And an inlet switch 128 installed above the first latch 127 to release the restraint of the first latch 127 and rotatably installed on the rotation shaft 121 and extending upward and downward, An end is connected to the upper end of the drive lever 124 to the The first link 129 is rotated by the rotation of the lever 124, and a predetermined groove 149 is formed on the upper side thereof, and the first link 129 is disposed above the first link 129. A latch roller 130 is provided in contact with the upper surface of the 129, and is rotated according to the rotation of the first link 129, the latch roller 130 in the groove 149 of the first link 129 The second latch 131 constrained by being caught, the shut-off switch 132 installed above the second latch 131 to release the restraint of the second latch 131, and the lower end of the second latch 131, A second link 134 connected to the driving lever 124 together with the link 129 and disposed in contact with the pin 133 formed on the driving lever 124, and an upper end of the second link 134; A third link 135 connected to the second link 134 and rotated according to the displacement of the second link 134, and rotatably installed on the frame 109 and connected to the third link 135 to connect the third link ( 135) Opening and closing shaft 103 is rotated by the movement, the connecting shaft 136 for connecting the third link 135 to the opening and closing shaft 103, one end is fixed to the connecting shaft 136 and the other end of the frame A blocking spring 137 supported by 109 and a leg 140 fixed to the opening / closing shaft 103 to move the movable contactor 138 toward the terminal 139 when the opening / closing shaft 103 is rotated are provided. It is configured to include.

Conventional air circuit breaker configured as described above, the terminal 139 to the movable contact 138 by the charging operation for accumulating elastic energy in the closing spring 125, and the elastic restoring force of the closing spring 125 And a closing operation of disconnecting the movable contactor 138 from the terminal 139.

First, the charging operation of the air circuit breaker, as shown in Figure 2, when the movable contact 138 is separated from the terminal 139, by rotating the rotary shaft 121 by manual or automatic the cam ( 122 is rotated, and as a result, the driving lever 124 is rotated to compress the injection spring 125.

And, the closing operation of the air circuit breaker, as shown in Figure 3, the elastic energy of the closing spring 125 is transmitted through each link mechanism of the opening and closing mechanism 102, and the third link (135) As the connected open / close shaft 103 is rotated, the movable contactor 138 is in contact with the terminal 139 to perform a current flow. In this process, the blocking spring 137 is tensioned according to the movement of the connecting shaft 136.

In the blocking operation of the air circuit breaker, the movable contact 138 is spaced apart from the terminal 139 by the elastic restoring force of the blocking spring 137 that is tensioned during the closing operation, as shown in FIG. It is carried out by the process to return to.

As shown in FIG. 4, the first link 129, the second link 134, and the third link 135 are toggled to withstand the repulsive load generated during the closing operation of the air circuit breaker. As a link mechanism, the first link 129 and the second link 134 are connected by a first rotary pin 141, and the second link 134 and the third link 135 are second rotary pins. 142 is connected.

Here, in the closing operation and the blocking operation of the air circuit breaker, the second link 134 is moved to overlap the first link 129.

However, the conventional air circuit breaker as described above, the assembled state of the toggle link mechanism consisting of the first link 129, the second link 134 and the third link 135 is unbalanced, or during the operation of the air circuit breaker When an arbitrary lateral load is generated, the toggle link mechanism is caused by the front end portion 151 of the second link 134 and the side surface 152 of the first link 129 interfering or colliding with each other during charging and closing operation. There is a problem that the deformation and breakage of the.

Therefore, a large deviation occurs in the closing and closing operation of the air circuit breaker due to deformation and breakage of the toggle link mechanism due to the interference between the links as described above. In addition, there is a problem that the life of the air circuit breaker is significantly reduced.

The present invention is to solve the above-mentioned conventional problems, to provide a lifting circuit breaker and a link used therein that can improve the reliability of the operation by preventing deformation and breakage caused by interference between each link of the toggle link mechanism during operation There is.

The air circuit breaker according to the present invention for achieving the above object is compressed by the rotation of the cam connected to the rotating shaft while the input spring for storing the elastic energy, and the driving force generated when the input spring is tensioned is connected to the movable contactor A first link and a second link to the opening and closing shaft, wherein the second link is formed in a plate shape and is composed of a pair of members spaced apart from each other to have a predetermined distance therebetween such that the first link is inserted therebetween. do.

In addition, the link of the air circuit breaker according to the present invention for achieving the above object is configured to include an opening and closing mechanism for compressing the injection spring by converting the rotational movement of the rotary shaft to move the movable contact by the elastic restoring force of the injection spring It is composed of a pair of plate-like member which is provided in the air circuit breaker for opening and closing the circuit to transmit the driving force generated in the opening and closing mechanism portion, and are spaced apart from each other at regular intervals so that other links are inserted therebetween.

Hereinafter, with reference to the accompanying drawings will be described with respect to the air circuit breaker and the link used according to the present invention.

5 to 7, the air circuit breaker according to the present invention is configured to include an opening and closing mechanism (2) for opening and closing the circuit by moving the movable contact 38 to the terminal (39).

The opening and closing mechanism 2 is rotatably installed on a cam 22 connected to the rotating shaft 21 and rotated by manual or automatic, and a frame 9 supporting both sides of the opening and closing mechanism 2. The driving lever 24 rotated according to the rotation of the 22 and one end is connected to the lower end of the driving lever 24 and the other end is supported by the frame 9 so that the driving lever 24 rotates. An injection spring 25 for storing elastic energy while being compressed, and a first latch 27 extending upward and downward to be elastically supported by the frame 9 and restrained by the cam 22 during a charging operation; And an inlet switch 28 installed above the first latch 27 to release the restraint of the first latch 27 and rotatably installed on the rotation shaft 21 and extending upward and downward. An end of the drive lever 24 is connected to an upper end of the drive lever 24. A first link 29 rotated by a rotation and a predetermined groove 49 is formed on the upper side thereof, and a latch disposed on the upper side of the first link 29 and in contact with an upper surface of the first link 29. The second latch 31 is provided with a roller 30 is rotated in accordance with the rotation of the first link 29 and restrained by the latch roller 30 is caught by the groove 49 of the first link 29. ), A shut-off switch 32 installed above the second latch 31 to release the restraint of the second latch 31, and a lower end thereof together with the first link 29 and the driving lever ( A second link 34 connected to the 24 and disposed in contact with the pin 33 formed on the driving lever 24, and connected to an upper end of the second link 34. The opening and closing shaft rotated by the movement of the third link (35) and the third link (35) rotated in response to the displacement and connected to the third link (35) and connected to the third link (35) 3) , A connecting shaft 36 connecting the third link 35 to the opening and closing shaft 3, and a blocking spring 37 having one end fixed to the connecting shaft 36 and the other end supported by the frame 9. And a leg 40 fixed to the open / close shaft 3 and connected to the movable contact 38 to move the movable contact 38 toward the terminal 39 when the open / close shaft 3 is rotated. It is composed.

As shown in FIG. 8, the first link 29, the second link 34 and the third link 35 are toggled to withstand the repulsive load generated during the closing operation of the air circuit breaker. As a link mechanism, the first link 29 and the second link 34 are connected by a first rotary pin 41, and the second link 34 and the third link 35 are rotated secondly. Is connected to pin 42.

In addition, the second link 34 is formed in a plate shape to prevent the first link 29 and the second link 34 from colliding with each other during the closing operation and the blocking operation of the air circuit breaker. The first member 34a and the second member 34b may be formed at a predetermined interval from each other.

Therefore, the side surface 52 of the first link 29 is inserted into the space between the first member 34a and the second member 34b during the closing operation and the closing operation of the air circuit breaker. Collision due to interference between the first link 29 and the second link 34 is prevented.

On the other hand, the first member of the second link 34 to more effectively prevent the collision caused by the interference of the first link 29 and the second link 34 during the closing operation and the blocking operation of the air circuit breaker. A space between the first member 34a and the second member 34b extends toward the first link 29 at the distal end of the 34a and the second member 34b. It is preferable that the guide portions 55, 55a, 55b for guiding the first link 29 are formed to be easily inserted into the first link 29.

In addition, the first link 29 and the guide portion 55 of the second link 34 is formed so as to be located at both sides of the first link 29 at all times during the operation of the air circuit breaker. It is more advantageous to prevent the collision by the interference of the second link 34.

The air circuit breaker according to the present invention configured as described above, the movable contact 38 by the charging operation for accumulating elastic energy in the closing spring 25 and the elastic restoring force of the closing spring 25 to the terminal ( And closing operation to disconnect the movable contact 38 from the terminal 39.

First, the charging operation of the air circuit breaker, as shown in Figure 6, when the movable contact 38 is disconnected from the terminal 39, when rotating the rotary shaft 21 by manual or automatic the cam ( 22 is rotated, and thus, the driving lever 24 is rotated to compress the injection spring 25.

And, the closing operation of the air circuit breaker, as shown in Figure 7, the elastic energy of the closing spring 25 is transmitted through each of the link mechanism of the opening and closing mechanism 2, the third link (35) and As the connected open / close shaft 3 is rotated, the movable contact 38 is in contact with the terminal 39 to conduct current. In this process, the blocking spring 37 is tensioned according to the movement of the connecting shaft 36.

In addition, the breaking operation of the air circuit breaker is the first time, as shown in Figure 5, the movable contact 38 is spaced apart from the terminal 39 by the elastic restoring force of the tensioned blocking spring 37 at the time of breaking the circuit. It is performed as a process of returning to the state of.

The first link 29, the second link 34, and the third link 35 perform a toggle operation during the charging operation, the closing operation, and the blocking operation of the air circuit breaker as described above. Since the side surface of the first link 29 is guided to the guide portion 55 of the two links 34, even if the assembled state of the toggle link mechanism is unbalanced or any lateral load occurs during the operation of the air circuit breaker. Collision due to interference between the first link 29 and the second link 34 is prevented.

In the air circuit breaker according to the present invention, the second link 34 is composed of a pair of plate-shaped members, and a guide part extending toward the first link 29 is formed at the front end thereof, so that the air circuit breaker Since the interference between the first link 29 and the second link 34 is prevented, it is possible to prevent the deformation and damage of the toggle link mechanism, thereby improving the reliability and life of the operation of the air circuit breaker.

Claims (6)

An injection spring for storing elastic energy while being compressed by the rotation of the cam connected to the rotating shaft; First and second links for transmitting the driving force generated when the closing spring is tensioned to the opening and closing shaft connected to the movable contact, And the second link is formed in a plate shape and comprises a pair of members spaced apart from each other at regular intervals so that the first link is inserted therebetween. The air circuit breaker of claim 1, wherein the second link has a guide portion extending toward the first link to guide the first link between the pair of members forming the second link. . The air circuit breaker of claim 2, wherein the guide part of the second link extends to be located at both sides of the first link during all operations of the air circuit breaker. It is configured to include an opening and closing mechanism for compressing the closing spring by converting the rotational movement of the rotating shaft is provided with an air circuit breaker for opening and closing the circuit by moving the movable contact by the elastic restoring force of the closing spring to drive the force generated in the opening and closing mechanism Pass it on, A link of an air circuit breaker consisting of a pair of plate-like members arranged to be spaced apart from each other so that another link is inserted therebetween. The air circuit breaker link according to claim 4, wherein the plate member is formed with a guide part extending to guide the insertion of another link. 6. The link of claim 5, wherein the guide portion extends to be located at both sides of the other link during all operations of the air circuit breaker.

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