KR102654218B1 - link mechanism that moves the rod for closing and opening the vacuum interrupter provided in the vacuum circuit breaker of the eco friendly gas insulated switch forward and backward - Google Patents

Abstract

The present invention forms a pair of through holes at the other end of a pair of levers with a size and shape into which a link pin can be inserted; forming an inner enlarged diameter portion at the inner end of the pair of through holes disposed inside the longitudinal direction of the link pin; In any one of the pair of through holes, the inner diameter of the through hole is smaller than the inner diameter of the inner enlarged portion and continues outward in the longitudinal direction of the link pin with respect to the inner enlarged diameter portion of the one through hole. Forming an outer enlarged diaphragm with a larger inner diameter; Forming a ring-shaped groove at the link pin portion facing the outer enlarged diameter portion; inserting a pair of spacers having a size and shape that can be circumscribed to the link pin and inscribed to the inner enlarged portion into the pair of inner enlarged portions and fixing them by welding; And with the link pin penetrating the pair of through holes, an O-ring is inserted into the end disposed on the longitudinal outer side of the link pin among both ends of the through hole formed in the lever provided with the outer enlarged diameter portion. It relates to a vacuum blocking unit provided in a gas insulated switchgear equipped with a link mechanism in which the O-ring is inserted into the ring-shaped groove of the link pin.

Description

Link mechanism that moves the rod for closing and opening the vacuum interrupter provided in the vacuum circuit breaker of the eco friendly gas insulated switch forward and backward}

The present invention relates to a link mechanism that moves forward and backward a rod for closing and opening a vacuum circuit breaker provided in the vacuum blocking unit of an eco-friendly gas insulated switchgear.

Generally, a gas insulated switchgear plays the role of switching on or off a load in a power transmission or substation system or electric circuit, or blocking the current when an accident such as a short circuit occurs.

The gas insulated switchgear is an important power device that is installed outdoors or indoors, and plays a very important function in the transmission and substation system by adding line branching, division switching, and protection functions for downstream transformers.

In the case of high-voltage service lines supplied from a power company, the power wiring for each phase is wired with copper conductors and a separate circuit breaker is installed for each phase. The gas insulated switchgear is typically a load switchgear (LBS), a voltage transformer (MOF), It has a structure in which a vacuum circuit breaker (VCB), instrument transformer (PT), instrument current transformer (CT) and feeder are installed, and instead of SF6 gas, insulating gas such as air is used inside for eco-friendliness. It is charged.

The eco-friendly gas insulated switchgear using an insulating gas such as air instead of SF6 gas includes a vacuum cutoff unit 100 as shown in FIG. 1.

As shown in FIG. 1, the vacuum interrupter 100 includes a case C filled with insulating gas.

As shown in FIG. 1, the vacuum breaker 100 also includes a vacuum breaker 10 fixedly built into one side of the case C in the longitudinal direction of the case C; A lever support portion (20) fixedly built into the other side of the case (C) in the longitudinal direction of the case (C) while facing the vacuum circuit breaker (10); In a state in which the lever support portion 20 is rotatably mounted via a link pin, one end is link-connected to the insertion and opening rod 11 of the vacuum breaker 10, thereby forming the insertion and opening rod 11. A lever for moving forward and backward (30); A coupler link (40) whose one end is linked to the other end of the lever (30) via a link pin (P); And an input link 50, one end of which is linked to the other end of the coupler link, is built into the case C.

The other end of the input link 50 is fixedly circumscribed to the middle portion of the operating shaft 60 rotatably mounted through airtightly penetrating the case C, and one end of the operating shaft 60 is It is fixedly inscribed in an operating lever 70 that pivots by a drive source (not shown).

The vacuum circuit breaker 10 has a fixed terminal and a movable terminal, not shown, built into the housing in a vacuum state.

The closing and opening rod 11 has one end coupled to the movable terminal and the other end extending in the longitudinal direction of the housing and protruding out of the housing.

In order to move the closing and opening rod 11 forward and backward by the turning movement of the lever 30, a link pin is mounted on the other end of the closing and opening rod 11, and the link pin is It is mounted in a slot hole formed at one end of the lever (30).

In the conventional vacuum cutoff unit 100 having such a configuration, when the control lever 70 swings in one direction due to the unidirectional force of the drive source, the control shaft 60, the input link 50, and the output link 40 And the lever 50 moves the closing and opening rod 11 forward by performing a link movement to separate the fixed end and the movable terminal in contact, and the operating lever 70 moves in the other direction by the force of the drive source in the other direction. When turning, the operating shaft 60, the input link 50, the output link 40, and the lever 50 perform a link movement to retract the closing and opening rod 11 so that the fixed end and the movable terminal are in a non-contact state. contact.

In addition, in the conventional vacuum circuit breaker 100, the link pin (P) interposed between the coupler link 40 and the lever 30, which actually seesaws the lever 30, is used to move the lever 30. In order to prevent it from being separated from the coupler link 40, a ring-shaped groove is formed on at least one end of the link pin (P), and a snap ring is fixed to the ring-shaped groove.

However, since the link pin (P) is mounted to perform a link movement in a narrow internal space formed in the lever support portion 20, a problem arises in that attaching and detaching the snap ring in a narrow internal space is very difficult. I order it.

In order to solve this problem, the snap ring is excluded, and both ends of the link pin (P) are rounded, so that the link pin (P) is formed with respect to the coupler link 40 and the lever 30. A method of facilitating attachment and detachment of the link pin (P) by making it movable in the longitudinal direction of (P) may be considered, but when the link pin (P) actually seesaws the lever 30, it is most likely to be used. Because it receives a large load, the link pin (P) can move while causing friction in the longitudinal direction of the link pin (P) against the coupler link 40 and the lever 30 by the load, A problem arises in that the coupler link 40 and the lever 30 are damaged and insulation breakdown occurs as a by-product.

The present invention has the problem of solving the problems described above.

The present invention forms a pair of through holes at the other end of a pair of levers with a size and shape into which a link pin can be inserted; forming an inner enlarged diameter portion at the inner end of the pair of through holes disposed inside the longitudinal direction of the link pin; In any one of the pair of through holes, the inner diameter of the through hole is smaller than the inner diameter of the inner enlarged portion and continues outward in the longitudinal direction of the link pin with respect to the inner enlarged diameter portion of the one through hole. Forming an outer enlarged diaphragm with a larger inner diameter; Forming a ring-shaped groove at the link pin portion facing the outer enlarged diameter portion; inserting a pair of spacers having a size and shape that can be circumscribed to the link pin and inscribed to the inner enlarged portion into the pair of inner enlarged portions and fixing them by welding; And with the link pin penetrating the pair of through holes, an O-ring is inserted into the end disposed on the longitudinal outer side of the link pin among both ends of the through hole formed in the lever provided with the outer enlarged diameter portion. The above problem can be solved by inserting the O-ring into the ring-shaped groove of the link pin.

The present invention facilitates the attachment and detachment of the link pin even in a narrow space, and prevents the link pin from moving while causing friction in the longitudinal direction of the link pin against the coupler link and the lever even when the link pin moves under a high load. Insulation destruction caused by by-products caused by damaging coupler links and levers can be prevented.

1 is a conceptual diagram showing the link mechanism of the vacuum cutoff unit provided in a conventional gas insulated switchgear;
Figure 2 is a perspective view showing the link mechanism provided in the vacuum cutoff unit according to this embodiment, with the case and lever support being transparent, and
Figure 3 is an enlarged view showing the phase formation state of the third link pin provided in the link mechanism of Figure 2

Hereinafter, the 'link mechanism for moving forward and backward the rod for closing and opening the vacuum circuit breaker provided in the vacuum blocking unit of the eco-friendly gas insulated switchgear' of the embodiment according to the present invention will be described in detail with reference to FIGS. 2 and 3.

In Figure 1, the vacuum blocking unit provided in the gas insulated switchgear is indicated by symbol 100.

As shown in FIG. 2, the vacuum blocking unit 100 includes a case (C) filled with insulating gas; A vacuum breaker (10) fixedly built into one side of the case (C) in the longitudinal direction of the case (C); A lever support portion (20) fixedly built into the other side of the case (10) in the longitudinal direction of the case (C) while facing the vacuum circuit breaker (10); In a state in which the lever support part 20 is rotatably mounted on the lever support part 20 via the first link pin (P1), the rod 11 for inserting and opening the vacuum circuit breaker 10 is connected to the lever support part 20. a pair of levers (30), one end of which is linked via a second link pin (P2) to move the insertion and opening rod (11) forward and backward; It is disposed with the pair of levers 30 in between, and one end is linked to the other end of the pair of levers 30 via a third link pin (P3), so that it is built into the case (C). coupler link (40); and a pair of inputs disposed with the coupler link 40 in between, one end of which is linked to the other end of the coupler link 40 via a fourth link pin (P4) and built into the case (C). Contains link 50.

The other end of the pair of input links 50 is fixedly circumscribed to the middle portion of the operating shaft 60 rotatably mounted through airtightly penetrating the case C, and the operating shaft 60 One end of is fixedly inscribed in the control lever 70, which pivots by a drive source (not shown).

The vacuum circuit breaker 10 has a fixed terminal and a movable terminal, not shown, built into the housing 12 in a vacuum state.

The closing and opening rod 11 has one end coupled to the movable terminal and the other end extending in the longitudinal direction of the housing 12 and protruding out of the housing 12.

In order to move the closing and opening rod (11) forward and backward by the turning movement of the pair of levers (30), the first link pin (P1) is mounted on the other end of the closing and opening rod (11). In this state, the first link pin (P1) is mounted on a pair of slot holes (31) formed at one end of the pair of levers (30).

The third link pin (P3) interposed between the coupler link 40 and the lever 30 is coupled as follows and as shown in FIG. 3.

A pair of through holes 32 having a size and shape through which the third link pin P3 can be inserted are formed at the other end of the pair of levers 30; An inner enlarged diameter portion (33) is formed at the inner end of the pair of through holes (32) disposed inside the longitudinal direction of the third link pin (P3); One of the pair of through holes 32 has a longitudinal direction of the third link pin (P3) with respect to the inner enlarged diameter portion 33 formed in the one through hole 32. Continuing outward, an outer enlarged diameter portion 34 is formed having an inner diameter smaller than the inner diameter of the inner enlarged diameter portion 33 and larger than the inner diameter of the through hole 32; A ring-shaped groove 35 is formed in the third link pin (P3) facing the outer enlarged diameter portion 34; A pair of spacers 36 having a size and shape that can be circumscribed to the third link pin (P3) and inscribed to the inner enlarged portion 33 are inserted into the pair of inner enlarged portions 33 and welded. It is fixed to the pair of inner expansion portions 33 by; And in a state in which the third link pin (P3) penetrates the pair of through holes 32, one of both ends of the through hole 32 formed in the lever 30 provided with the outer enlarged diameter portion 34 At an end disposed outside the third link pin (P3) in the longitudinal direction, the O-ring (37) is entered and inserted into the ring-shaped groove (35) of the third link pin (P3). This is inserted.

Both ends of the third link pin (P3) are chamfered around the edges to allow the third link pin (P3) to be easily inserted into the O-ring (37).

Formation of the through hole 32, the inner enlarged diameter portion 33, and the outer enlarged portion 34 is performed by first forming the through hole 32 through machining the other end of the lever, and then forming the through hole ( It can be implemented by forming the outer enlarged diameter portion 34 through machining at one end of the hole 32) and then forming the inner enlarged portion 33 through machining at one end of the formed through hole 32. there is.

Inserting the O-ring 37 between the outer enlarged diameter portion 34 and the ring-shaped groove 35 is performed at the outer end of the through hole 32 because the O-ring 37 has elasticity. Insert the O-ring (37) and temporarily insert it into the end of the third link pin (P3), then push the O-ring (37) into the through hole (32) using a tool (not shown) to expand the outer side. It can be implemented in a way that it is inserted into the neck portion 34 and the ring-shaped groove 35, and the O-ring 37 is inserted between the outer enlarged diameter portion 34 and the ring-shaped groove 35. Pulling out can be implemented in a way that a tool (not shown) enters the O-ring 37 from the outer end of the through hole 32 and digs out the O-ring 37.

In the conventional vacuum cutoff unit 100 having such a configuration, when the control lever 70 swings in one direction due to the unidirectional force of the drive source, the control shaft 60, the input link 50, and the output link 40 And the lever 50 moves the closing and opening rod 11 forward by performing a link movement to separate the fixed end and the movable terminal in contact, and the operating lever 70 moves in the other direction by the force of the drive source in the other direction. When turning, the operating shaft 60, the input link 50, the output link 40, and the lever 50 perform a link movement to retract the closing and opening rod 11 so that the fixed end and the movable terminal are in a non-contact state. contact.

In addition, in the vacuum blocking unit 100, the third link pin (P3) can be easily attached and detached even in a narrow space formed in the lever support portion 20, and the pair of levers 30 can actually be used as a seesaw. Even if the third link pin (P3) is subjected to link movement while receiving a high load, friction occurs in the longitudinal direction of the third link pin (P3) against the coupler link (40) and the pair of levers (30). Movement while causing damage is prevented, and insulation breakdown due to by-products caused by damage to the coupler link 40 and the pair of levers 30 can be prevented.

When the pair of levers 20 seesaws, the third link pin P3 generates friction against the pair of levers 20 and the pair of spacers 36. Oil is injected from the outer end of the pair of through holes 32 and flows into the friction area, thereby reducing friction.

C: Case, P: Link pin, P1, 1st link pin, P2, 2nd link pin, P3, 3rd link pin, P4, 4th link pin, 10: Vacuum breaker, 11: Rod for closing and opening, 12: Housing, 20: Lever support part, 30: Lever, 31: Slot hole, 32: Through hole, 33: Inner enlarged part, 34: Outer enlarged part, 35: Ring-shaped groove, 36: Spacer, 37: O-ring , 40: coupler link, 50: input link, 60: operating shaft, 70: operating lever, 100: vacuum cutoff unit

Claims (3)

In the link mechanism that moves forward and backward the rod for closing and opening the vacuum breaker provided in the vacuum blocking part of the eco-friendly gas insulated switchgear,
The vacuum blocking unit,
Case filled with insulating gas (C);
A vacuum breaker (10) fixedly built into one side of the case (C) in the longitudinal direction of the case (C);
A lever support portion (20) fixedly built into the other side of the case (C) in the longitudinal direction of the case (C) while facing the vacuum circuit breaker (10);
In a state in which the lever support part 20 is rotatably mounted on the lever support part 20 via the first link pin (P1), the rod 11 for inserting and opening the vacuum circuit breaker 10 is connected to the lever support part 20. a pair of levers (30), one end of which is linked via a second link pin (P2) to move the insertion and opening rod (11) forward and backward;
It is disposed with the pair of levers 30 in between, and one end is linked to the other end of the pair of levers 30 via a third link pin (P3), so that it is built into the case (C). coupler link (40);
A pair of input links disposed with the coupler link 40 in between, one end of which is linked to the other end of the coupler link 40 via a fourth link pin (P4) and built into the case (C). (50);
An operating shaft 60 rotatably mounted to airtightly penetrate the case C with its middle portion fixedly inscribed on the other end of the pair of input links 50; and
It includes an operating lever (70) that is fixedly circumscribed to one end of the operating shaft (60) and rotates by a driving source,
At the other end of the pair of levers 30, a pair of through holes 32 having a size and shape through which the third link pin P3 can be inserted are formed;
An inner enlarged diameter portion (33) is formed at the inner end of the pair of through holes (32) disposed inside the longitudinal direction of the third link pin (P3);
One of the pair of through holes 32 has a longitudinal direction of the third link pin (P3) with respect to the inner enlarged diameter portion 33 formed in the one through hole 32. Continuing outward, an outer enlarged diameter portion 34 is formed having an inner diameter smaller than the inner diameter of the inner enlarged diameter portion 33 and larger than the inner diameter of the through hole 32;
A ring-shaped groove 35 is formed in the third link pin (P3) facing the outer enlarged diameter portion 34;
A pair of spacers 36 having a size and shape that can be circumscribed to the third link pin (P3) and inscribed to the inner enlarged portion 33 are inserted into the pair of inner enlarged portions 33. It is fixed to a pair of inner enlarged diameter parts (33); and
In a state in which the third link pin (P3) penetrates the pair of through holes 32, among both ends of the through holes 32 formed in the lever 30 provided with the outer enlarged diameter portion 34 At the end disposed outside the third link pin (P3) in the longitudinal direction, the O-ring (37) is entered and inserted so that the O-ring (37) is inserted into the ring-shaped groove (35) of the third link pin (P3). A link mechanism that moves forward and backward the rod for closing and opening the vacuum breaker provided in the vacuum blocking part of an eco-friendly gas insulated switchgear, which is characterized by being inserted. According to clause 1,
An eco-friendly gas, characterized in that both ends of the third link pin (P3) are chamfered with a curved edge in order to easily insert the third link pin (P3) into the O-ring (37). A link mechanism that moves forward and backward the rod for closing and opening the vacuum breaker provided in the vacuum breaker part of the insulating switchgear. According to clause 1,
When the pair of levers 20 seesaws, the third link pin P3 generates friction against the pair of levers 20 and the pair of spacers 36. A link that moves forward and backward the rod for insertion and opening of the vacuum breaker provided in the vacuum cutoff part of the eco-friendly gas insulated switchgear, characterized in that oil is injected from the outer end of the pair of through holes 32 and flows into the friction area. machine.

Images