KR200264256Y1 - Gas Insulation Type Automatic Switch - Google Patents

Abstract

The present invention relates to a gas insulated automatic switchgear, which greatly improves the existing arc extinguishing capacity, and forms a puff housing on the movable part for electrically energizing the fixed electrode and the movable electrode provided at the bushings formed at both ends of the tank. Inside the housing, a connecting piece bound by a contact spring is formed at one end of the housing, and a gas outlet hole is provided in the middle partition of the puffer housing, and the fixed electrode and the movable electrode are connected to each other by the movement of the puffer housing. In the automatic switchgear which is energized, a predetermined portion of the outer circumferential surface of the puffer housing is formed to integrally protrude the connecting protrusions of the same material formed to the left and right so that the puffer housing can come into contact with the fixed electrode, and can be inserted and connected to the connecting protrusion. A connection hole is provided at the tip of the insulated arm, and the connection protrusion can be inserted into the connection hole. The size of the gas outflow hole is increased, and the size of the puffer housing is small. Replace the coupling structure of the shaft with the concave part of the automatic switchgear with the coupling structure of the connection hole and the connection protrusion to minimize the gap during rotation due to the interconnection, and to reduce the size of the puffer housing by reducing the amount of gas required more than necessary In addition, the gas outflow opening is increased to extinguish the arc quickly and effectively.

Description

Gas Insulation Type Automatic Switch

The present invention relates to a gas insulated automatic switchgear of an outer-corner connection method installed in a high voltage distribution line. In particular, a fixed electrode and a movable electrode are formed in each bushing connecting the distribution line from the outside. In the automatic switchgear which has the puffer housing which reciprocates between the fixed electrode and the movable electrode, the connection with the connection hole of the one end of the insulated arm which rotates about an axis to move the puffer housing is integrally connected to the one end of the outer peripheral surface of the puffer housing. The present invention relates to an automatic switchgear capable of miniaturizing an automatic switchgear by forming mutually coupled protrusions and reducing product cost by reducing the size of the overall appearance.

In general, it is well known that power generated by a power plant is supplied to each distribution line while being converted to a current having an appropriate capacity in order to supply each customer.

In addition, as the capacity of the distribution line increases, the use of a recloser as a self-contained current breaker has the effect of preventing the failure caused by an accident from transitioning to permanent failure, thereby representing a representative protection. Widely used as a device, the present invention is a general term for automatic switchgear to open and close a predetermined current in the middle of the distribution line (line branch, line segment, incoming and outgoing, etc.). Conventional automatic switchgear can effectively extinguish the arc generated between the fixed electrode when the heavy current is induced in the arc coil runner, but when the low current is induced, the rotational force to rotate the arc generated is weakened. There was a drawback that the arc could not be extinguished and an accident could occur.

Accordingly, in the past, the applicant has proposed a 1993 Patent Application No. 20399 of a gas type automatic switch that can effectively extinguish an arc even at low current as well as at low current.

1 is a front view of a conventional draft, and FIG. 2 is a sectional view of the related art, and an external distribution line (not shown in the drawing) is located outside the bushings 102 and 102a fixed to both ends of the tank 101 as shown. The outer bushing 103 (10Oa) connected to each other, and the movable electrode 105 and the fixed electrode 104 are fixed to the inner side of the bushing 102 (10Oaa), respectively. ), The gas inlet hole 104a and the gas outlet hole 104b are integrally formed, and the grooves formed at both ends thereof are fixed to the outer circumferential surface of the movable electrode 105 while being in contact with the cylindrical sliding shaft 106. (106a) (106b) is provided with a tubule contact (107, 108) in which a plurality of connection pieces (107a) (108a) circumferentially circumferentially by contact springs (109) (109a) (110) (110a) In addition, the sliding shaft 106 is fixed to the puffer housing 112 by a snap ring 111 on the outer peripheral surface, the puffer housing 112 While forming the gas outflow hole 112b, the puffer housing on the tubule contact 107 side is fixed to the bushing 102a on the tubule contact 108 side while the housing 113 attached to the inner surface of the dustproof rubber 113a is fixed. The periphery of the perforated 114 formed with the gas injection hole 114b is integrally formed at the end of the 112, and the recessed portion 112c formed on the outer surface of the perforated housing 112 has an axis of the insulating arm 115. Combined rotation was to reciprocate.

Reference numeral 117 denotes an outer case in which a plurality of automatic switchgears are built in parallel.

The conventional gas-type automatic switch configured as described above is operated while the insulating arm 115 fixed to the movable shaft 115a is rotated clockwise or counterclockwise by a control unit (not shown) and reciprocally moves the puffer housing 112. The electrode 105 and the fixed electrode 104 are shorted or opened. That is, by the insulating arm 115 coupled with the operation handle 116 and the movable shaft 115a, the puffer housing 112, to which the sliding shaft 106 is fixed, moves toward the fixed electrode 104, and thus the tubule contact 107. When the fixed electrode 104 and the movable electrode 105 remain connected to each other by the puffer housing 112 in which the 108 and the sliding shaft 106 are fixedly coupled, power is normally supplied to the distribution line.

In this state, when a series of maintenance work is performed on the distribution line of the customer side for repair of the fault, the insulation arm 115 fixed to the movable shaft 115a is driven by artificially driving the control unit by manual or automatic operation. 2, the puffer housing 112 and the sliding shaft 106 to which the ends of the fixed electrode 104 and the tubular contact point 107 are connected are also moved in the direction of the arrow of FIG. At this time, the SF ₆ gas for arc extinguishment filled therein is compressed while passing through the gas outlet holes 112b formed in the puffer housing 112 at the moment the puffer housing 112 is moved, thereby compressing the gaseous portion of the puffer cone 114. Compression and injection in the hole (114b), the arc generated between the tip of the fixed electrode 104 and the tip of the tubule contact 107 is cooled and extinguished, and at the same time acts as an insulating medium for re-ignition prevention. Therefore, the fixed part and the movable part are completely open, and the power supply is stopped on the distribution line.

At this time, since the sliding shaft 106 is moved, a mechanical shock can be transmitted to the bushing 100a, so that the anti-vibration rubber 113a is attached to perform a buffering action.

On the other hand, after finishing a series of maintenance work for troubleshooting, etc., when the re-pressurization for power supply to drive the control unit through manual or automatic operation so that the insulation arm 115 is rotated in the direction of the arrow of FIG. When the movable shaft 115a is rotated, the puffer housing 112 and the sliding shaft 106 also move in the direction of the arrow of FIG. 3.

At this time, a gas flow is generated from the outside to the inside through the gas outlet hole 112b in the puffer housing 112, and at the same time, the gas inlet hole 104a installed in the fixed electrode 104 through the movement of the puffer housing 112; A flow of SF ₆ gas circulated through the gas outlet hole 10b was formed, and thus, a stable connection was made while cooling the heat generated when the fixed electrode 104 and the tubule contact 107 were connected. .

Here, the Tulip contact (107, 108) are all received by the elastic force tightened inward by the contact springs (109) (109a) (110) (110a), so that at the outer peripheral surface of the fixed electrode (104) and the movable electrode (105) It is possible to move while maintaining a stable connection state.

However, as described above, the automatic switchgear is connected to the concave portion of the puff housing so that the axis of the insulating arm that rotates by the power transmission of the movable shaft is moved. Therefore, in the related art, the insulating arms mutually coupled to the movable shaft form recesses in predetermined portions of the puffer housing to rotate the puffer housing. The play is generated during the rotation between the coupling structure and the shaft coupled to the concave portion, the axis coupled to the insulating arm is caused by corrosion of SF ₆ gas contaminated by heterogeneous metallic material and the gas outflow hole is small, concave Due to the existence of wealth, the size of the puff housing increased, and the administrative distance was also unnecessarily long.Because of the size of the overall appearance, the product cost went up, such as using a large amount of expensive gas, and the electric poles and mounting brackets for fixing the automatic switchgear There was a problem that the load is applied by the weight.

Therefore, the present invention was devised in consideration of the above-mentioned problems, and the size of the automatic switchgear was reduced to reduce the raw materials and at the same time to reduce the arc extinguishing capacity and to reduce the load on the pole and the mounting bracket. There is a purpose.

In order to achieve the above object, the present invention forms a puffer housing for electrically shorting or opening the fixed electrode and the movable electrode provided in the bushings configured at both ends of the tank, and the contact spring is formed inside the puffer housing. Form a sliding shaft composed of a plurality of tubular contact points formed at the front end of the plurality of connection pieces provided, and constitutes a gas outflow hole in the middle partition wall of the puffer housing, the fixed electrode and the movable electrode to be energized by the movement of the puffer housing In an automatic switchgear, an insulating arm for integrally protruding connecting protrusions of the same material composed of right and left so that the puffer housing can contact the fixed electrode at a predetermined portion of the outer peripheral surface of the puffer housing and inserted into and connected to the connecting protrusion. A connection hole is provided at the tip of the hole so that the connecting projection can be inserted into the connection hole. The size of the gas outlet hole is about 280% to 320% larger than that of the conventional gas outlet hole, and the perforated housing is removed by about 17% to 23% smaller than the size of the conventional puffer housing. It is characterized by miniaturization as much as possible.

1 is a front view showing a conventional automatic switchgear,

2 is a cross-sectional view of a conventional automatic switch (when no power is applied),

3 is a sectional view showing a conventional automatic switch (when energizing),

4 is a front view showing an automatic switchgear of the present invention,

5 is a cross-sectional view (when not energized) showing an automatic switchgear of the present invention,

Figure 6 is a cross-sectional view (when energizing) showing the automatic switchgear of the present invention,

Figure 7 (A) and (B) is a side view and a front view showing a partial cross-section of the puffer housing of the present invention, respectively,

8A and 8B are side and front views of the insulating arm, respectively.

Explanation of symbols on the main parts of the drawings

1: tank 2, 2a, 3, 3a: bushing

4 fixed electrode 5 movable electrode

6: sliding shaft 7a, 8a: connection piece

7, 8: Tulip contact 9, 9a, 10, 1Oa: Contact spring

11: snap ring 12: puffer housing

15: insulation arm l5a: movable shaft

16: operation handle

Figure 4 is a front view showing the appearance of the subject innovation, Figure 5 is a cross-sectional view showing the subject innovation, the outside of the bushing (2) (2a) fixed to both ends of the tank (1) outside the distribution line (shown in the figure) External bushings (3) (3a) connected to each other, and fixed to the inner shaft of the bushings (2) (2a), the short fixed electrode (4) and the long movable electrode (5), respectively In addition, while the gas inlet 4a and the gas outlet 4b are integrally formed in the fixed electrode 4, and the cylindrical sliding shaft 6 in contact with the outer peripheral surface of the movable electrode 5 is condensed, In the grooves 6a and 6b formed at both ends thereof, the tubular contact 7 having a plurality of connecting pieces 7a and 8a circumferentially formed by contact springs 9, 9a, 10 and 10a. (8) is elastically installed, is fixed to the puffer housing 12 by a snap ring 11 on the outer peripheral surface of the sliding shaft (6), a number of gas flow in and out of the puffer housing 12 (l2b), while the dust-proof rubber (l3a) is fixed to the bushing (2a) on the side of the tubule contact (8) while the puffer housing (12) on the side of the tubule contact (7) is fixed. At the end, the perforated cone 14 formed with the gas injection hole l4b is integrally formed, and the outer surface of the puffer housing 12 is rotated about the movable shaft l5a by the operation handle. The tip is coupled to reciprocate movement as in the prior art, but in the present invention, the outer periphery of the puffer housing 12 is made of the same material which is formed on the left and right sides of the puffer housing 12 so as to be in contact with the fixed electrode 4. The connecting projection 12c is integrally formed to protrude, and is provided with a connection hole 15b at one end of the insulating arm 15 so as to be connected to the connecting projection 12c, and is mutually coupled with the connecting projection 12c. Minimize play during rotation, increase the size of gas outlet (l2b) Configured to reduce the size of 12.

At this time, the position where the connection protrusion l2c is formed on the outer circumferential surface of the puffer housing 12 is inserted into the housing 13 when the puffer housing 12 is moved in the direction of the movable electrode 5 and remains at the remaining portion. As the connection protrusion 12c is formed integrally, the connection clearance between the connection protrusion 12c and the connection hole 15b is minimized during rotation.

The present invention configured as described above will act as follows.

First, the sliding shaft 6, the perforated housing 12 having the tubular contact 7, 8, and the contact springs 9, 9a, 10 and 10a are inserted into the tank 1 and operated. The puffer housing 12 into which the puffer cone 14 is coupled and fixed to the electrode 5 is inserted. As described above, the integrated connection protrusion l2c of the same material formed on the predetermined portion of the puffer housing 12 inserted into the movable electrode 5 is fixed to the connection hole l5b of the insulating arm 15.

That is, the homogeneous integral connecting projection l2c composed of right and left at predetermined portions of the puffer housing 12 which is not inserted into the housing 13 is inserted and connected to the connecting hole l5b provided at the tip of the insulating arm 15. do. Accordingly, as the insulating arm 15 is connected to the movable shaft l5a, the puffer housing 12 is integrally moved along the movable electrode 5.

The automatic switchgear combined as described above reduces the size of the block by reducing the size of the block by simplifying the coupling structure between the recess and the shaft, and reduces the size of the automatic switchgear so that the arc can be quickly and effectively extinguished. . Therefore, the product cost is reduced by reducing the size and load, it is possible to reduce the load on the pole and mounting brackets.

In the automatic switch, the insulating arm 15 fixedly coupled to the movable shaft l5a is rotated in the forward or reverse direction by a controller (not shown), and the movable electrode 5 and the fixed electrode 4 are transported while the puffer housing 12 is transported. ) Will short-circuit or open. That is, the puffer housing 12, in which the sliding shaft 6 is fixed, is moved toward the fixed electrode 4 by the insulating pressure 15 fixedly coupled to the operation handle 16 and the movable shaft 15a. When the fixed electrode 4 and the movable electrode 5 remain connected to each other by the perper housing 12 in which the 8 and the sliding shaft 6 are fixedly coupled, power is normally supplied to the distribution line.

In addition, when a series of maintenance work for fault recovery, etc. are performed on the distribution line of the consumer side, if the control unit is artificially driven by manual or automatic operation, the insulating arm 15 fixed to the movable shaft l5a is shown in FIG. When it moves in the direction of the arrow, the connecting hole l5b provided at the tip of the insulating arm 15 is rotated, and the connecting protrusion l2c of the puffer housing 12 inserted into and connected to the connecting hole l5b is connected to the connecting hole l5b. Along with l5b, the puffer housing 12 is moved in the direction of the arrow of FIG. 5 by the connecting projection l2c.

At this time, if a momentary arc occurs due to the movement of the puff housing 12 between the tip of the fixed electrode 4 and the tip of the tubular contact 7, SF ₆ gas for arc extinguishing is formed in the puff housing 12. Compressed while passing through the ball (l2b) is compressed in the gas injection hole (l4b) of the puffer cone 14 to cool and arc the arc and at the same time acts as an insulating medium to prevent re-ignition. At this time, since the size of the gas outlet hole l2b is larger than that of the related art and the stroke length is short, the generated arc can be rapidly and effectively compressed and extinguished by cooling the SF ₆ gas.

At this time, since the sliding shaft 6 is moved, a mechanical shock can be transmitted to the bushing 2a, so that the anti-vibration rubber l3a is attached to the buffering function.

On the other hand, in the case of re-pressurization for power supply after finishing a series of maintenance work for fault recovery, etc., driving the control unit by driving operation or automatic operation causes the insulation arm 15 to rotate in the direction of the arrow of FIG. 6. Rotating l5a causes the puffer housing 12 and the sliding shaft 6 to move in the direction of the arrow of FIG.

At this time, a gas flow is generated from the outside to the inside through the gas outlet hole l2b in the puffer housing 12, and at the same time, the gas inlet hole 4a installed in the fixed electrode 4 through the movement of the puffer housing 12. And a flow of gas circulated through the gas outlet hole 4b, thereby cooling the heat generated when the fixed electrode 4 and the tubule contact 7 are connected. Then, the three-phase rotation of the sliding shaft 6 and the like by the movable shaft 15a is performed while the fixed electrode 4 and the movable electrode 5 are provided between the two bushings 2 and 2a. It can be used as an automatic switchgear.

The present invention minimizes the play when rotating according to the mutual coupling structure of the connection projections formed by the connection hole and the left and right, simplifies the shape by constituting the connection material of the same material in the predetermined portion of the puffer housing, and optimizes the size of the puffer housing By reducing the size of the gas, and reducing the amount of gas required, by increasing the gas outflow hole, quickly and effectively extinguish the arc, and reduce the product cost by the miniature automatic switchgear, and reduce the load on the pole and the mounting bracket. It can be effective.

Claims (1)

Outside the bushings 2 and 2a fixed to both ends of the tank 1, external bushings 3 and 3a which are connected to an external distribution line are projected, respectively, and short on the inner shaft of the bushings 2 and 2a. While fixing the fixed electrode 4 of the length and the movable electrode 5 of the long length, respectively, the gas inlet 4a and the gas outlet 4b are integrally formed in the fixed electrode 4, and the movable electrode A cylindrical sliding shaft 6 is in contact with the outer circumferential surface of (5), while a plurality of connecting pieces 7a, 8a are formed in the groove portions 6a, 6b formed at both ends thereof, and the contact springs 9 ( 9a) (10) (10a) is a tubular lip contact (7) (8) made to be circumferentially installed, and fixed to the puff housing (12) with a snap ring (11) on the outer peripheral surface of the sliding shaft (6), In the puffer housing 12, a plurality of gas outlet holes l2b are formed, while in the bushing 2a on the side of the tublip contact 8, a dustproof rubber l3a is fixed to an inner surface of the housing 13 attached thereto. At the end of the puffer housing 12 on the side of the tubule lip 7, a puffer cone 14 having a gas injection hole l4b is integrally formed, and a movable shaft is formed on the outer surface of the puffer housing 12 by an operation handle. In that the tip of the insulating arm 15 that rotates around (l5a) is combined to reciprocate, Connection parts l2c of the same material formed on the left and right sides of the puffer housing 12 to allow the puffer housing to contact the fixed electrode 4 are integrally formed on the predetermined portion of the outer circumferential surface of the puffer housing 12, and formed on the connection protrusion l2c. A connection hole l5b is provided at the tip of the insulated arm 15 so that a connection can be made. A connection protrusion l2c is inserted and connected to the connection hole 15b, and the size of the gas outlet hole l2b is 280%. An automatic switchgear, characterized in that the size of the puffer housing (12) is reduced to about 17% -23%, the size is approximately 320% large.