KR200313967Y1 - jet-rotation type be extinguished arc device of gas breake loaded switch - Google Patents

Abstract

The present invention relates to a rotational injection arc arc device of a gas insulated load switch, a piston reciprocating in an interior of a cylinder by a rotational motion of a moving arm rotated about a main shaft, and coupled to one end of the piston to a lower booth. And a first movable contact energized with a second movable contact coupled to the other end of the piston, and a second movable contact coupled to a fixed contact and energized with an upper booth. The contact is formed by a piston, and the second movable contact is integrally formed with an arc bearing having a pressure injection hole coupled to the other end of the piston, thereby excluding a tulip pipe which is a movable contact part coupled to an upper end of the piston. Increase the length of the piston and cylinder so that it is energized with the lower booth, and the bottom of the piston By forming the bearing is the arc and the arc contact integral with improving the operating performance of the movable contact portion to ensure energization with the fixed contacts as well as an effect of remarkably improving the assembly productivity.

Description

Jet-rotation type be extinguished arc device of gas breake loaded switch}

The present invention relates to a gas insulated load switch, and more particularly, to a rotational injection arc arc device of a gas insulated load switch in which the operation is accurate and the assembly is improved by simplifying the configuration of the movable contact portion coupled to the piston.

Currently, power stations around the world generally operate SF6 gas insulated load switchgear or Gas RING Main Unit on the ground or underground as a branching and dividing device for underground distribution system. It is a common trend to install and use.

One of the key technologies of high pressure equipment using hexafluoride gas as insulation material is how to effectively arc extinguish arcs generated when opening and closing lines. Until now, the main types of arc extinguishing methods can be divided into electro-magnetic rotary arc extinguishing, thermal expansion arc extruding, arc dievided by grides extruding, and puffer extruding. have.

In addition, the injection type extinguishing method includes a linear injection arc arc method and a rotation injection arc arc method, and the present invention relates to a rotary injection type arc extinguishing device of the spray type extinguishing method as compared to the arc split extinguishing method.

As shown in FIG. 1, the rotational injection arc arc device of the gas insulated load switch according to the related art has a fixed contact point 2 connected to the upper booth 1 and a cylinder connected to the lower booth 3. (4), a piston (5) provided in the cylinder (4) to slide the cylinder (4), and a movable contact (6) provided by the pressure spring (10) at the upper end of the piston (5). ), The main shaft (7) receiving the rotational force from the outside for the on / off operation of the switch, and one side is fixed to the main shaft (7) and the other side is fixed to the end of the piston (5) on operation of the switch Of the moving arm 8 and the actuator of the switch 5 having the piston 5 removed from the cylinder 4 so that the movable contact 6 at the end of the piston 5 is brought into contact with the fixed contact 2 of the upper booth 1. In the off operation, the piston 5 is pushed into the cylinder 4 to direct air in the piston 5 toward the stationary contact point 2. It is configured to include a bearing arc (Arc Beauing) (9) having a pressure spray hole to spray and arc bearing (9) has an arc contact 11 is coupled by the pressure spring 12.

In the on / off operation, when the external mechanism is operated, the latch (not shown) is released and at the same time, the elastic energy accumulated by the spring (not shown) is instantaneously transferred to the main shaft 7, and a moving arm made of an insulator ( The piston 5, which is momentarily rotated in the direction to be turned off through 8), slides the piston 5 to which the tulip pipe, which is the movable contact 6, is coupled, inside the cylinder 4.

At this time, the internally increased pressure in the cylinder 4 is moved in the direction of pressure injection inside the piston 5 and finally passes through the arc bearing 9 having a pressure injection hole, so that the arc generated when the switch is turned off within a short time. After fully extinguishing, the off position is reached.

When the input operation is to be performed from the off position of FIG. 2 to the on position of FIG. 1, the operation is performed in the reverse order of the above operation, and the arc extinguishing time is much shorter because the arc size is smaller than that of the trip. .

Rotational injection arc arc device of the gas insulated load switch according to the prior art as described above, the upper movable contact portion is a tulip pipe which is a movable contact (6) linearly reciprocating on the outer peripheral surface of the piston (5) and the piston (5); Composed of a pressure spring (10) for pressing the tulip pipe, the movable contact portion formed on the lower side of the piston (5), an arc bearing (9) having a pressure injection hole fastened to the lower end of the piston (5), and an arc bearing It consists of the arc contact 11 couple | bonded with (9), and the pressure spring 12 attached to the outer peripheral surface of the arc contact 11. As shown in FIG.

As described above, the rotary injection type arc extinguishing device of the gas insulated load switch according to the prior art has a tulip pipe, which is a movable contact 6 coupled to the piston 5 in the movable contact portion, by means of a pressure spring 10 of the outer peripheral surface of the piston 5. It is coupled to the reciprocating motion to the inner circumferential surface of the cylinder (4), in order to install the tulip pipe should have a space for the reciprocating tulip pipe, and a separate pressure spring for fixing the tulip pipe to the piston (5) There are difficulties in the manufacturing process, such as the need to install (10).

Further, in the arc contact 11, which is a movable contact portion coupled to the conventional fixed contact 2, as shown in FIG. 3, pieces of several arc contacts 11 are pressed against the arc bearing 9 having a pressure injection hole. Since the structure is coupled to the spring 12 there is a problem that the assembly process is difficult.

The object of the present invention devised in view of the above problems is to provide a rotary injection type arc extinguishing device of a gas insulated load switch which integrates a tulip pipe and a piston formed on an upper side at a movable contact and improves the performance of the operation.

Another object of the present invention is to provide a rotational injection arc arc device of a gas insulated load switchgear by integrating an arc contact provided under the movable contact portion with an arc bearing having a pressure injection hole to improve assembly productivity.

1 is a cross-sectional view of the on-off state of the switchgear extinguishing device according to the prior art.

2 is a cross-sectional view of the off state of FIG.

3 is a perspective view of an arc bearing and arc contact according to the prior art;

Figure 4 is a cross-sectional view of the on-off state of the switchgear extinguishing device according to the present invention.

5 is a cross-sectional view of the off state of FIG.

6 is a perspective view of the arc contact according to the present invention.

<Explanation of symbols for the main parts of the drawings>

31; Upper booth 32; Fixed contact

33; Lower booth 34; cylinder

35; Piston 37; Main shaft

38; Moving arm 41; Arc contact

42; Pressurized spring

The present invention for achieving the above object is a piston reciprocating in the interior of the cylinder by the rotation of the moving arm rotated around the main shaft, and the first movable contact coupled to one end of the piston and energized with the lower booth; And a second movable contact coupled to the other end of the piston and coupled to a fixed contact to energize the upper booth, wherein the one end of the piston is connected to the first movable contact. It is characterized by the configuration.

Preferably, the arc contact is integrally formed with an arc bearing having a pressure injection hole coupled with the piston.

It is preferable that the said arc contact is formed in the shape of a cylindrical body.

It is preferable that a pressing spring is mounted at the tip of the arc contact.

Hereinafter, preferred embodiments of the present invention as described above will be described in more detail based on the accompanying drawings.

4 is a cross-sectional view of the on-off state of the switch protection device according to the present invention, Figure 5 is a cross-sectional view of the off state of Figure 4, Figure 6 is a perspective view of the arc contact according to the present invention.

As shown in Figure 4, the rotary injection arc arc device of the gas insulated load switch according to the embodiment of the present invention is installed connected to the fixed contact point 32 and the lower booth 33 is connected to the upper booth (31) A cylinder 34, a piston 35 installed inside the cylinder 34 to slide the cylinder 34, and a main shaft 37 to receive rotational force from the outside for the on / off operation of the actuator. And, one side is fixed to the main shaft 37 and the other side is fixed to the end of the piston 35 to remove the piston 35 in the cylinder 34 during the on operation of the switchgear to the end of the piston 35 to the upper booth It consists of the moving arm 38 made to contact the fixed contact 32 of 31. As shown in FIG.

In this case, in order to use the piston as a movable contact without coupling the tulip pipe to the piston 35, the length of the piston 35 is formed to be longer than that of the tulip pipe, so that the length of the cylinder 34 is also increased. It is formed long.

In addition, the arc bearing (Arc Beauing) having a pressure injection hole for injecting the air in the piston 35 toward the fixed contact 32 while the piston 35 is introduced into the cylinder 34 during the off operation of the switch. It is formed integrally with 41. The pressure spring 42 is attached to the outer peripheral surface of the tip of the arc contact 41.

As shown in Fig. 6, the arc contact 41 is formed integrally with the arc bearing, and is formed in the shape of a cylindrical body without forming recesses in the center portion as in the conventional arc contact 11.

The operation of the rotary injection type arc extinguishing device of the gas insulated load switch according to the present invention configured as described above will be described.

When the main shaft 37 is rotated, the moving arm 38 is rotated and the piston 35 is drawn out of the cylinder 34 to contact the arc contact 41 installed at the lower end of the piston 35 and the fixed contact 32. As shown in FIG. 4, energization is conducted through the path of the upper booth 31, the fixed contact point 32, the arc contact 41, the piston 35, and the lower booth 33.

When the moving arm 38 is rotated in the opposite direction to the closing operation as shown in FIG. 5, the arc contact 41 and the fixed contact 32 are opened while the piston 35 is drawn into the cylinder 34. It is disconnected and the electric current is cut off. The arc extinguishing operation is such that the arc is extinguished within a short time through the arc contact 41 by moving the internal pressure of the cylinder 34 that is momentarily increased during the off operation, in the direction of the pressure injection in the piston 35.

As described above, the rotary injection type extinguishing device of the gas insulated load switch according to the present invention increases the length of the piston and the cylinder so as to be energized with the lower booth instead of excluding the tulip pipe, which is a movable contact part coupled to the upper end of the piston. In addition, the arc bearing and the arc contact coupled to the lower end of the piston are integrally formed so as to be energized with the fixed contact, thereby improving the operation performance of the movable contact portion and significantly improving the assembly productivity.

Claims (4)

A piston reciprocating inside the cylinder by a rotating motion of the moving arm rotated around the main shaft, a first movable contact coupled to one end of the piston and energizing the lower booth, and coupled to and fixed to the other end of the piston In the rotary injection arc arc device of the gas insulated load switch comprising a second movable contact coupled to the contact and energized with the upper booth, Rotary injection type arc extinguishing device of a gas insulated load switch, characterized in that one end of the piston is configured as a first movable contact. The method of claim 1, The arc contact is a rotary injection arc arc device of a gas insulated load switch, characterized in that the arc bearing having a pressure injection hole coupled to the piston is integrally formed. The method of claim 2, The arc contact is a rotary injection arc arc device of a gas insulated load switch, characterized in that formed in the shape of a cylindrical body. The method of claim 2 or 3, Rotary injection type arc extinguishing device of the gas insulated load switchgear, characterized in that the pressure spring is mounted on the tip of the arc contact.