KR200295509Y1 - Load switchgear - Google Patents

Abstract

The present invention relates to a load switch.

The present invention relates to a load switchgear.

The present invention is a switch that is designed to safely open and close the electricity of the extra high voltage (22,900V) supplied to each customer in the distribution line, the frame, the mechanism of the source of the movement provided on one side of the frame, and the mechanism operating unit and A hydraulic actuating unit which is provided to face each other and configured to operate the operation of the simultaneous mechanisms electrically or manually, and an electronic bullet unit provided to operate the mechanism driving unit by disconnection of a fuse set to be protected against a short circuit or overload of a safe current. A plurality of insulators having a terminal terminal on the top of the frame and fixed to the upper portion of the frame, and a braid between the terminals, which is operated by an insulator to selectively connect or short-circuit the terminal, and the mechanism operation unit Link to the inside of the frame connected to the first output shaft It is configured to push up the lower part of the insulator to the upper side, and on the output side of the hydraulic operation unit is connected to the mechanism operating unit to the second output shaft penetrating the frame to be operated by the hydraulic or electro-explosive unit, the electricity supplied in the event of an accident By opening and closing quickly, the product is invented and manufactured to minimize the damage and supply electricity smoothly and safely.

Description

Load switch {LOAD SWITCHGEAR}

The present invention relates to a load switch, in particular, by installing a hydraulically operated switch on a high-voltage electricity distribution line flows quickly to cut off the electricity supplied to a specific area in the event of an accident due to the load, while reducing the damage caused by the load In order to facilitate the renovation work, the arc generated when the terminal is separated can be quickly extinguished using compressed air to prevent the terminal from melting and breaking due to deterioration so that it can be used for a long time.

In case of electric accidents and failures caused by the customer's facilities and systems in Korea's power distribution system, minimize the accidents and the scope of failure, and install the load switch at the branch point of the substation or inlet of the customer so that the accident current of the customer does not spread to other lines. Doing.

However, the load switch applied to such a system is frequently troubled by high voltage (22,900V) and technical problems (manufacturer's own technology, material problem due to cost reduction, driving method, arc extinguishing ability, etc.). Used to emerge.

Among the above, important parts of the load switch, such as arc extinguishing capability, driving method, and the contact part of the fuse set to be protected against short circuit or overload, improve and improve the technical aspect and the performance aspect of the product so as to receive a safe electricity supply. At the same time, the product has been upgraded several steps to ensure safe and smooth operation.

First: Arc Lo ability

The arc extinguishing chamber belonging to the heart of the load switch is developed from the conventional fixed extinguishing method to the movable extinguishing method (piston motion extinguishing method), and this product maximizes the arc extinguishing ability (certified by an authorized institution).

Second: drive method

Structural advantage of inventing hydraulic manipulator, the first driving method of driving part which is the source of power transmission device which can operate load switchgear electrically or manually, adopting hydraulic driving method In order to completely solve the installation problem of the drive unit with the limitations of the conventional technology, it was easily developed in any position or place, and the electronic control method was applied for the prevention of malfunction and the convenience of use.

Third: Contact part of fuse The contact part of the fuse set to be protected in case of overload and short circuit accident is improved, and the developed fuse is short-circuited without damaging the contact part by improving the conventional two- or four-point contact method. The stability was doubled as much as possible.

The present invention is to install a hydraulically operated switchgear in the distribution line through the high-voltage electricity as described above to quickly cut off the electricity supplied to a specific area in the event of an accident due to the load, reducing the damage and repair work In addition, the arc generated when the terminal is separated can be quickly extinguished by using powerful compressed air to prevent the terminal from being melted and broken due to deterioration, thereby reducing the production cost and producing economically. Its purpose is to provide a load switchgear.

The present invention for achieving the above object is a load switch provided on the power distribution line to cut off the electricity supplied to a specific region, the frame; A mechanism operating part provided at one side of the frame; A hydraulic actuating part provided in the frame so as to face the mechanism actuating part; An electronic bombardment portion provided to operate the mechanism operating portion through a short circuit of the fuse by a load; A plurality of insulators having a terminal provided at an upper end thereof, which are fixedly installed on an upper portion of the frame, wherein a blocking unit is provided between the terminals so that a blade is operated by an insulator to selectively connect or short-circuit the terminals; It is provided on the inside of the frame in a state connected to the first output shaft of the mechanism operating unit and provided to push up the lower portion of the insulator to the upper side by a link, and on the output side of the hydraulic operating unit has a second output shaft penetrating the frame to the mechanism operating unit. The object is achieved by providing a load switch, characterized in that the connection is configured to be operated by the hydraulic or electro-elastic portion.

1 is a perspective view of a load switch according to the present invention.

2 is a plan view of a load switch according to the present invention.

Figure 3 is a side view showing the mechanism of the load switch according to the present invention.

Figure 4 is a plan view showing a mechanism of the load switch according to the present invention.

5 is an exemplary view showing a disconnected state of the load switch according to the present invention.

Figure 6 is an operating state of the load switch according to the present invention.

Figure 7 is a block diagram of the operation unit used of the load switch according to the present invention.

<Simple explanation of the code | symbol about the main part of drawing>

10: frame 20: mechanism operation

30: hydraulic actuating part 40: electromagnetic bullet part

50: blocking part 51, 52: insulator

51a, 52a: Terminal 53: Blade

54: insulation stand

Hereinafter, an embodiment according to the present invention will be described with reference to the accompanying drawings.

As shown in FIGS. 1 to 7, the load switch 100 according to the present invention includes the mechanism 10 and the hydraulic actuator 30 and the mechanism 10 provided on both sides of the frame 10 and the frame 10. It is composed of an electromagnetic bullet 40 provided to operate the mechanism operating unit 20 and the blocking unit 50 provided on the upper portion of the frame 10.

Here, the frame 10 is made of a rectangular shape, as shown in Figures 1 and 2, the long formed on both sides is provided with a main section steel 11 having a rectangular cross section inside the hollow On both sides connecting them, the L-shaped steel 12 is fixed. In addition, a plurality of holes 13 are formed at both sides of the L-shaped steel 12 so as to be firmly fixed to the installation place.

As shown in FIGS. 1 to 4, the mechanism operating unit 20 covers a plurality of nuts 21a and pin bolts 21b on one side of the L-shaped steel 12 forming one side of the frame 10. 21 is fixed and provided with the cover frame 22 inserted and fixed in the space provided by the inner surface of the said cover 21 and the outer surface of the frame 10. As shown in FIG.

In addition, a hook 23 is interposed between the cover frame 22 as a pin 23a, and has a closing opening 24 having a protruding end 24a that is operated by a trip coil, which is the electromagnetic bombing portion 40. Is rotatably fixed.

An opening 25 is rotatably provided at the support 25a between the cover frames 22, and a charging unit 26 and a guide having a second output shaft 26a provided at one side of the support 25a. It is composed of (27) and is provided to interlock with the hydraulic operation unit 30 to be described later.

The hydraulic actuating part 30 is provided in the frame so as to face the mechanism actuating part, a housing 31 provided with a predetermined space therein, a control board 32 provided in the housing 31, A hydraulic generator having a motor 33, a solenoid valve 34, and a pump 35 connected to the control board 32 is provided.

In addition, the lever 36 provided on one side of the hydraulic pressure generating unit is exposed to the outside of the housing 31, the hydraulic hose 38 connected to the discharge side of the pump 35, the cylinder 37 having the piston rod 37a It is fixed to).

The piston rod 37a is provided such that the bending link 39 is connected to the second output shaft 26a with the bending link 39 interposed therebetween.

The electronic bullet unit 40 is intended to automatically operate the mechanism operating unit 20 according to a change in current generated when a short circuit of a fuse occurs due to a load in the process of using a load switch. It is desirable to use a coil.

The blocking unit 50 is a plurality of insulators (51, 52) having a terminal (51a, 52a) provided on the top is fixed to the upper portion of the frame 10, the blade between the terminals (51a, 52a) 53 is provided to operate by insulator 54 to selectively connect or short-circuit terminal 52a.

Here, the insulator 52 is an arc shutter provided with a female connection terminal 54 having a form protruding to the upper end of the terminal 52a to a predetermined height, and hollow at the lower end of the female connection terminal 54. It is provided with the part 55 and the arc shutter spring 56 provided in the outer side of the said arc shutter part 55. As shown in FIG.

On the other hand, the first output shaft 28 of the mechanism operating unit 20 is provided on the inside of the frame 10, the lower portion of the insulating table 54 by the link 29 provided on the first output shaft 28. It is provided to push up.

In addition, since the second output shaft 26 penetrating the frame 10 is connected to the mechanism actuating unit 20 on the output side of the hydraulic actuating unit 30, the hydraulic stand or the electromagnetic bulleting unit is used to connect the insulator 54. It is provided to move upwards.

In other words, if the fuse is blown due to the load in the process of using, operate the electronic bullet unit to push up the insulator to the upper part to interrupt the power supply. It is provided so that the power can be interrupted by pushing the regiment upwards.

In addition, a plurality of springs 60 and 61 are provided inside the frame 10 in which the first output shaft 28 is installed to increase a operability by providing a predetermined elastic force.

The blade 53 is formed so that the male connecting terminal 53a inserted into the female connecting terminal 54 protrudes in a predetermined length at a free end.

As illustrated in FIG. 6, the load switch configured as described above has high voltage electricity applied to the distribution line in a state in which the blade 53 is connected to the terminal 52a by the insulator 54 at the upper end of the breaker 50. It will flow smoothly.

In this state, when a load is generated on the power distribution line due to an external factor, the electromagnetic bomb 40 strikes the protruding end 24a provided to protrude from the closing opening 24, so that the inside of the cover frame 22 While interlocking with a plurality of links provided in the hook 23 that has been limited to one side of the opening 25 is opened.

At this time, the opening 25 opened from the hook 23 rotates in the direction of the arrow to rotate the first output shaft 28 provided at the center thereof, and the first output shaft 28 is interlocked so that the link ( Insulator 54 connected to 29 is moved upward.

That is, the insulator 54 is moved upward by the link 29, and the blade 53 provided on the upper portion of the insulator 54 rotates about the insulator 51, and is illustrated in FIG. 6. The power is cut off as it becomes a dashed line.

The arc shutter unit 55 formed at the lower portion of the female connecting terminal 54 in the process of generating a high temperature arc while the male connecting terminal 53a provided at one end of the blade 53 is separated from the female connecting terminal 54. As the compressed air filled in) is quickly discharged, arcs are extinguished to prevent the terminals from melting and breaking due to deterioration.

On the other hand, the method of electrically cutting off the blocking unit 50 by using the hydraulic operation unit 30, first, by applying power to the hydraulic operation unit 30 and pressing the cut-off button (Button) to drive the motor 33 The hydraulic pressure is generated by the rotation of the pump 35, and the excitation of the solenoid valve 34 is released due to the circuit configuration of the control board 32 to form a blocking flow path.

On the contrary, in the closing operation of the blocking unit 50, when the power is applied to the hydraulic operation unit 30 and the input button is pressed, the hydraulic pressure is generated by the rotation of the pump 35 due to the driving of the motor 33. The solenoid valve 34 is excited by the circuit structure of the control board 32, and an injection flow path is formed.

The hydraulic pressure is operated by rotating the second output shaft 26a while the bending link 39 rotates as the piston rod 37a is drawn out while oil is supplied into the cylinder 37 through the hydraulic hose 30. As the guide 27 and the support 25a of the operation unit 20 operate, the hook 29 is operated as described above to rotate the opening 25.

The male connecting terminal of the blade 53 as the insulator 54 moves upward by the first output shaft 28 and the link 29 interlocked with the opening 25 to push the blade 53 upward. The power connection is cut off by separating the female connection terminal 54 formed on the top of the insulator 52 and 53a.

In the reverse order of the foregoing method, the male connection terminal 53a and the female connection terminal 54 are reconnected so that electricity flows through the distribution line.

In addition, by using the hydraulic operation unit 30, the blocking unit 50 is manually blocked. During the closing operation, when the hand pump lever 36 exposed to the outside of the enclosure 31 is operated up and down, hydraulic pressure is generated, and the switch is manually operated only by using a dedicated direction switching key. block. Feeding operation is possible.

As described above, the present invention installs a hydraulically operated switchgear on a distribution line where high voltage electricity flows, and quickly cuts off electricity supplied to a specific area in the event of an accident due to a load, thereby reducing damage caused by the load. In order to facilitate the construction, the arc generated at the same time as the movable terminal is separated from the fixed terminal is quickly extinguished by using compressed air to prevent the terminal from melting and breaking due to deterioration.

Claims (5)

In the load switch provided on the distribution line to cut off the electricity supplied to a specific area, A frame 10; A mechanism operating part 20 provided at one side of the frame 10; A hydraulic actuating part 30 provided in the frame 10 so as to face the mechanism actuating part 20; An electronic bullet section 40 provided to operate the mechanism operating section 20 through a short circuit of the fuse by a load; A plurality of insulators (51, 52) having terminals 51a, 52a provided on the upper end is fixed to the upper portion of the frame 10, a blade 53 between the terminals (51a, 52a) is insulated ( A blocking section 50, operated by 54, adapted to selectively connect or short-circuit the terminal 52a; It is provided on the inside of the frame 10 in a state connected to the first output shaft 28 of the mechanism operating unit 20 is provided to push up the lower portion of the insulator 54 by the link 29, the hydraulic pressure A load switch, characterized in that configured on the output side of the operation unit (30) through the frame (10) connected to the mechanism operating unit (20a) to be operated by the hydraulic or electro-elastic unit. The method of claim 1, The mechanism operation unit 20 includes a cover 21 fixed to a plurality of nuts 21a and pin bolts 21b on one side of the frame 10; A cover frame 22 inserted into and fixed to a space provided by an inner surface of the cover 21 and an outer surface of the frame 10; A hook 23 interposed with a pin between the cover frame 22; A closure 24 having a protruding end 24a actuated by the trip coil and rotatably fixed to one side thereof; An opening (25) provided to be rotatable by a support (25a) between the cover frames (22) in a state connected to the first output shaft (28); Load switch characterized in that it is composed of a charging section (26) and a guide (27) having a second output shaft (26a) provided on one side of the support (25a). The method of claim 1, The hydraulic actuating unit 30 includes a housing 31 provided with a predetermined space therein, a control board 32 provided inside the housing 31, and a motor 33 connected to the control board 32. And a hydraulic generating unit having a solenoid valve 34 and a pump 35 in the housing 31, so that the lever 36 provided on one side of the hydraulic generating unit is exposed to the outside of the housing 31, A hydraulic hose 38 connected to the pump 35 and a cylinder 37 having a piston rod 37a are interposed with a bending link 39 on one side of the frame 10 in a state of being connected to the hydraulic hose 38. The load switch, characterized in that configured to be connected to the second output shaft (26a). The method of claim 1, The insulator 52 has a female connecting terminal 54 having a shape protruding to a predetermined height toward the upper end of the terminal 52a, and an arc shutter portion 55 provided in a hollow state at a lower end of the female connecting terminal 54. ), And an arc shutter spring (56) provided on the outside of the arc shutter portion (55). The method of claim 1, The blade (53) is a load switch, characterized in that the male terminal (53a) is inserted into the female connection terminal 54 is protruded to a predetermined length at a free end.