JP6634457B2 - GIS uninterruptible bus expansion function module and expansion method - Google Patents

Description

  The present invention relates to the field of facilities for converter stations and substations having a voltage level of 220 kV or more, and more specifically, to a GIS uninterruptible bus extension function module and an extension method thereof.

  With the development of the electricity business, the importance of power generation, transmission, and substation in the national economy has been particularly increasing.However, in the GIS construction process of each substation, some Since the GIS bus cannot be completed at once during the construction work, it is necessary to add the bus in the second extension work.

  To add a bus, it is necessary to perform connection and replacement tests with the original operating bus. According to the current mainstream manufacturer's GIS structural design, each of these processes causes the original bus to fail twice. Need to operate the substation equipment, resulting in significant operational risks and huge economic losses due to power outages.

  In order to eliminate the drawback that the entire GIS bus needs to be powered down in order to add a GIS bus, it is necessary to ensure that the operating equipment does not need to be powered down during the bus extension process, and that other The processing time of SF6 gas in the gas isolation room can be shortened, which effectively shortens the time required for project expansion and reduces the risk brought to the original equipment in the expansion process, greatly improving the efficiency of construction work. There is a need to design a new GIS structural function module that can avoid economic loss due to bus power outages.

  With the development of economy, GIS products are more and more applied on the market due to a series of advantages such as small footprint of their structure, low operation failure rate, light weight and no maintenance.

Judging from the design of GIS equipment manufacturers up to now, the GIS buses that have been mounted in the first phase do not have a dedicated expansion interface module. For this reason, the base is simply left as appropriate, but the second bus extension construction has the following problems.
1. Before the additional installation of the GIS bus, the original operation bus is cut off, and the SF6 gas in the air cell of the bus in the connection section is recovered, and the connection and mounting can be performed only.
2. According to the standards, the newly connected GIS bus should be tested for the commercial frequency withstand voltage test before the energizing operation. However, the old and new GIS bus sections do not have a dedicated break design in the new and old bus sections. The bus must also withstand the commercial frequency test voltage, and its insulation has a cumulative destructive effect.

  For the operation department, power outage of the substation bus means delays in construction, waste of manpower and supplies, and direct or indirect economic loss due to the power outage. The potential risk of cumulative breakdown effects on its operation is immeasurable, as it will withstand repeated voltage testing.

  According to rough estimates, for a 500kV substation / conversion station, the direct economic loss of a day's power outage is more than millions of yuan, and in some substations, large smelters and important Due to the particularities of upstream and downstream clients such as government agencies, it is very difficult to shut down the bus, which greatly affects the start-up time of construction work and indirectly causes huge economic losses.

  SUMMARY OF THE INVENTION It is an object of the present invention to provide a GIS uninterruptible bus extension function module and an extension method thereof, which can eliminate the drawbacks of the conventional technique and can add an end of the bus without a power failure.

The present invention is achieved by the following technical means.
A housing, a double break switch device, a driving device, and a temporary grounding switch device, a GIS uninterruptible bus extension function module, wherein the housing is columnar, and both ends of the housing are in a conducting direction. There are three double break switch devices mounted in the housing, one drive device and one temporary ground switch device are attached to each double break switch device, The cavity is hermetically sealed to form a first air cell, wherein the three double break switch devices are arranged in the first air cell in parallel with each other along a conduction direction without contacting each other, and Are used for synchronous closing or opening at both ends of the double break switch device. A first break and a second break are arranged at both ends of the double break switch device, and the double break switch device is driven. By driving the device, the first break and the second break can be simultaneously turned on to conduct both ends of the housing, and the temporary grounding switch device is attached to the housing, and the grounding operation of the double break switch device can be performed. Function module for GIS uninterruptible bus expansion used to perform

  As an improvement of the above means, the double break switch device comprises a central conductor, a movable contact, a fixed contact, and a transmission mechanism, wherein the central conductor is columnar, and its axial center position is axial. A center channel is arranged, side channels connected to the center channel are arranged at outer peripheral positions of the center conductor, and a first coil for sandwiching a movable contact and electrically connecting the center conductor to the movable contact is provided on side walls at both ends of the center channel. A spring is arranged, the outer periphery of the movable contact and the center channel are moved and fitted, a female screw hole is arranged at an axial position of one end of the movable contact, and the movable contact is located at an axial position of the fixed contact. A contact hole corresponding to a contact is arranged, and a second coil spring for sandwiching the movable contact and conducting between the fixed contact and the movable contact is arranged on an inner wall of the contact hole, Is composed of a transmission screw, a first bevel gear, a second bevel gear, and an insulating rod, and at both ends of the transmission screw, a male screw portion corresponding to the female screw hole of the movable contact is arranged. The middle portion is a smooth rod portion, the first bevel gear is coaxially mounted on the smooth rod portion, the second bevel gear is coaxially mounted on one end of the insulating rod, and the three center conductors are " The transmission screw is inserted into the center conductor through the center channel, and the positional relationship between the first bevel gear and the side channel in the transmission screw corresponds to the center conductor. One movable contact is inserted into each of both ends of the movable rod, and the male screw portion of the transmission screw is screwed into the female screw hole of the movable contact. One end where the gear is disposed enters the side channel, the first bevel gear and the second bevel gear mesh with each other, the other end of the insulating rod is connected to the driving device, and on both sides in the conduction direction inside the housing, One fixed contact is arranged corresponding to each movable contact, the contact hole of the fixed contact is arranged facing the movable contact, and the driving device drives the rotation of the transmission screw, so that both ends are the first coil. The movable contact pinched by the spring is reciprocated in the axial direction. After the movable contact comes out of the center conductor, the movable contact is inserted into the contact hole of the fixed contact, and the fixed contacts at both ends can be turned on / off.

  This structure is mainly used for adding an end of a three-phase collective bus, and is a three-phase collective structure. The transmission is mainly performed by a screw and a bevel gear.

  Improvements to the means include a support insulator used to support and mount the center conductor inside a housing.

  As an improvement of the means, both ends of the housing are bowl-shaped insulators, and the fixed contacts are attached to the bowl-shaped insulator.

  As an improvement of the means, in the temporary grounding switch device, one lever mechanism is disposed inside the housing, and by manually setting the position of the lever, the center conductor is electrically connected to the housing to perform the grounding operation. Do.

  As a refinement of the means, the material of the insulating rod is an epoxy resin.

The first-stage operation bus port of the GIS which is sequentially connected, the GIS uninterruptible bus extension function module according to any one of claims 1 to 6, the second air cell, and the ground attached to the second air cell. A method for adding a GIS uninterruptible bus comprising a knife blade, a third air cell, and a second-stage GIS expansion port attached to the third air cell, wherein the specific method and steps are as follows: How to add a blackout bus.
S1. During normal operation of the bus, the first air cell, the second air cell, and the third air cell are filled with gas at a rated pressure, the double break switch device is in an open state, the temporary ground switch device is in an open state, The ground knife blade is closed.
S2. At the time of expansion connection, the first air cell is filled with gas at the rated pressure, the gas in the second air cell is reduced to a safe pressure, the gas in the third air cell is collected, and a wire is connected to the second expansion port of the GIS. After completing the connection, a circuit test signal is collected by a ground knife blade.
S3. After the extension, a withstand voltage test is performed, the gas at the rated pressure is filled in the second air cell, the double break switch device is open, the temporary ground switch device is closed, and the ground knife blade is open. Make sure you are in a state.
S4. After the withstand voltage test is completed, the double break switch device is closed, the temporary ground switch device is in the open state, and the ground knife blade is in the open state.

The present invention has the following preferable effects.
1. The present invention provides a simple, safe, and reliable GIS uninterruptible bus extension function module that can be connected and installed without power outage of an original operating bus when a GIS bus is added and installed.
2. The structure of the GIS uninterruptible bus extension function module is simple, greatly reduces the cost of pre-installing the extension end, and is suitable for widespread application.
3. The process of additional mounting is simplified, the work efficiency is improved, and the additional cost is greatly reduced.

It is a structural schematic diagram with a cutout of the housing of the functional module for GIS uninterruptible bus expansion of the present invention. It is a cross-sectional schematic diagram of the functional module for GIS uninterruptible bus expansion of this invention. FIG. 3 is a partially enlarged schematic diagram of a region A in FIG. 2. It is a schematic diagram of the principle of GIS uninterruptible bus expansion of this invention.

(Example)
As shown in FIGS. 1 to 3, a GIS uninterruptible bus extension function module including a housing 1, a double break switch device 2, a drive device 3, a temporary ground switch device 4, and a support insulator 5. Wherein the housing 1 is columnar, both ends of the housing 1 are in the conducting direction, and three double break switch devices 2 are mounted in the housing 1, and each of the double break switch devices 2, one driving device 3 and one temporary grounding switch device 4 are attached, and the inner cavity of the housing 1 is hermetically sealed to form a first air cell 6, and the three double breaks are provided. The switch device 2 is installed in the first air cell 6 in parallel with each other along the conduction direction without contacting each other, and is used for synchronous closing or opening at both ends of the housing 1. Both ends of switch device 2 The first break 7 and the second break 8 are arranged, and the double break switch device 2 turns on the first break 7 and the second break 8 at the same time by driving the driving device 3, and A function module for adding a GIS uninterruptible bus, wherein both ends can be electrically connected, and the temporary ground switch device 4 is attached to the housing 1 and used to perform a grounding operation of the double break switch device 2. The double break switch device 2 includes a central conductor 9, a movable contact 10, a fixed contact 11, and a transmission mechanism 12, and the central conductor 9 has a columnar shape, and its axial position is in the axial direction. A center channel 13 is arranged, side channels 14 connected to the center channel 13 are arranged at an outer peripheral position of the center conductor 9, and movable contacts 10 are sandwiched on side walls at both ends of the center channel 13 to move with the center conductor 9. A first coil spring 15 for conducting with the contact 10 is arranged, the outer periphery of the movable contact 10 and the center channel 13 are moved and fitted, and a female screw hole 16 is arranged at an axial position of one end of the movable contact 10. A contact hole 17 corresponding to the movable contact 10 is disposed at an axial center position of the fixed contact 11. A second coil spring 18 that conducts between the first and the movable contact 10 is disposed, and the transmission mechanism 12 includes a transmission screw 19, a first bevel gear 20, a second bevel gear 21, and an insulating rod 22, At both ends of the transmission screw 19, a male screw portion 23 corresponding to the female screw hole 16 of the movable contact 10 is disposed, and a middle portion thereof is a smooth rod portion 24, and the first bevel gear 20 is smooth. The second bevel gear 21 is coaxially mounted on a rod portion 24, the second bevel gear 21 is coaxially mounted on one end of the insulating rod 22, and the three center conductors 9 are disposed in the first air cell 6 in a "shape" shape in a cross-sectional direction. The transmission screw 19 enters the inside of the center conductor 9 through the center channel 13, and the first bevel gear 20 and the side channel 14 in the transmission screw 19. And one movable contact 10 is inserted into each of both ends of the center conductor 9, the male screw portion 23 of the transmission screw 19 is screwed into the female screw hole 16 of the movable contact 10, and the insulating rod 22 is inserted. One end where the second bevel gear 21 is disposed enters the side channel 14, the first bevel gear 20 and the second bevel gear 21 mesh with each other, and the other end of the insulating rod 22 is connected to the driving device 3, and One fixed contact 11 is arranged on both sides of the inside of the body 1 in the conduction direction, corresponding to each movable contact 10, and a contact hole 17 of the fixed contact 11 is arranged facing the movable contact 10. After the device 3 drives the rotation of the transmission screw 19 to reciprocate the movable contact 10 sandwiched by the first coil spring 15 at both ends in the axial direction, after the movable contact 10 comes out of the center conductor 9. The fixed contacts 11 are inserted into the contact holes 17 of the fixed contacts 11, and the fixed contacts 11 at both ends can be turned on / off. The support insulator 5 is used to support the center conductor 9 and mount the center conductor 9 inside the housing 1. Both ends of the housing 1 are bowl-shaped insulators 25, and the fixed contacts 11 are attached to the bowl-shaped insulators 25. In the temporary grounding switch device 4, one lever mechanism 26 is disposed inside the housing 1, and by manually setting the position of the lever, the center conductor 9 and the housing 1 are electrically connected to perform grounding operation. Do. The material of the insulating rod 22 is an epoxy resin.

As shown in FIG. 4, the first-stage operation bus port of the GIS connected sequentially, the GIS uninterruptible bus expansion function module according to any one of claims 1 to 6, a second air cell, A method for adding a GIS uninterruptible bus comprising a ground knife blade attached to a second air cell, a third air cell, and a second GIS extension port attached to the third air cell, comprising: Is a method of adding a GIS uninterruptible bus as follows.
S1. During normal operation of the bus, the first air cell 6, the second air cell, and the third air cell are filled with gas at a rated pressure, the double break switch device 2 is in an open state, and the temporary ground switch device 4 is in an open state. And the ground knife blade is closed.
S2. At the time of expansion connection, the first air cell 6 is filled with gas at a rated pressure, the gas in the second air cell is reduced to a safe pressure, the gas in the third air cell is recovered, and the second expansion port of GIS is After the connection of the wires is completed, a circuit test signal is collected by a ground knife blade.
S3. After the extension, a withstand voltage test is performed, the gas at the rated pressure is filled in the second air cell, the double break switch device 2 is in the open state, the temporary ground switch device 4 is in the closed state, and the ground knife blade is Ensure that the contacts are open.
S4. After the withstand voltage test, the double break switch device 2 is closed, the temporary ground switch device 4 is in the open state, and the ground knife blade is in the open state.

  The above detailed description specifically describes embodiments in which the present invention can be implemented, and the claims of the present invention are not limited by the embodiments, and are performed without departing from the spirit of the present invention. Any equivalent implementation or modification is within the scope of the claims of the present invention.

(Note)
(Appendix 1)
A housing, a double break switch device, a driving device, and a temporary grounding switch device, a GIS uninterruptible bus extension function module, wherein the housing is columnar, and both ends of the housing are in a conducting direction. And three double break switch devices are mounted in the housing, and one drive device and one temporary ground switch device are attached to each double break switch device,
The inner cavity of the housing is hermetically sealed to form a first air cell;
The three double break switch devices are installed in the first air cell in parallel with each other along the conduction direction without contacting each other, and are used for synchronous closing or opening at both ends of the housing, A first break and a second break are disposed at both ends of the double break switch device. The double break switch device turns on the first break and the second break simultaneously by driving a driving device, and Can conduct both ends of the body,
The GIS uninterruptible bus extension function module, wherein the temporary grounding switch device is attached to a housing and used to perform a grounding operation of a double break switch device.

(Appendix 2)
The double break switch device includes a center conductor, a movable contact, a fixed contact, and a transmission mechanism, wherein the center conductor has a columnar shape, and an axial center channel is disposed at an axial position thereof, Side channels connected to the center channel are arranged at an outer peripheral position of the center conductor, and a first coil spring that sandwiches the movable contact and conducts the center conductor and the movable contact is arranged on both side walls of the center channel, The outer periphery of the movable contact and the center channel are fitted with movement, a female screw hole is arranged at an axial position of one end of the movable contact, and a contact hole corresponding to the movable contact is located at the axial position of the fixed contact. Is disposed, on the inner wall of the contact hole, a second coil spring that sandwiches the movable contact and conducts the fixed contact and the movable contact is disposed, and the transmission mechanism includes a transmission screw, A male bevel gear, a second bevel gear, and an insulating rod are provided. Male screw portions corresponding to female screw holes of the movable contact are arranged at both ends of the transmission screw. Wherein the first bevel gear is coaxially mounted on a smooth rod portion, the second bevel gear is coaxially mounted on one end of the insulating rod, and three center conductors are formed in a "shape" shape in a cross-sectional direction. The transmission screw is disposed in one air cell, enters the center conductor through the center channel, the positional relationship between the first bevel gear and the side channel in the transmission screw corresponds, one at each end of the center conductor. A movable contact is inserted, a male screw portion of the transmission screw is screwed into a female screw hole of the movable contact, and one end of the insulating rod on which a second bevel gear is disposed is connected to one end. The first bevel gear and the second bevel gear mesh with each other, the other end of the insulating rod is connected to the driving device, and corresponding to each movable contact on both sides in the conduction direction inside the housing. One fixed contact is arranged, a contact hole of the fixed contact is arranged facing the movable contact, and the driving device drives the rotation of the transmission screw, and the movable contact has both ends clamped by the first coil spring. Is reciprocated in the axial direction, and after the movable contact comes out of the center conductor, the movable contact is inserted into the contact hole of the fixed contact, and the fixed contacts at both ends can be turned on / off. Function module for uninterruptible bus expansion.

(Appendix 3)
3. The GIS uninterruptible bus extension function module according to claim 2, further comprising a support insulator used to support the center conductor and mount the center conductor inside the housing.

(Appendix 4)
3. The GIS uninterruptible bus extension function module according to claim 2, wherein both ends of the housing are bowl-shaped insulators, and the fixed contacts are attached to the bowl-shaped insulators.

(Appendix 5)
In the temporary grounding switch device, one lever mechanism is disposed inside the housing, and by manually setting the position of the lever, the center conductor is electrically connected to the housing to perform a grounding operation. A functional module for adding a GIS uninterruptible bus according to appendix 2.

(Appendix 6)
6. The GIS uninterruptible bus extension function module according to any one of supplementary notes 2 to 5, wherein a material of the insulating rod is an epoxy resin.

(Appendix 7)
A first-stage operating bus port of the GIS connected in sequence, a GIS uninterruptible bus extension function module according to any one of supplementary notes 1 to 6, a second air cell, and a ground knife attached to the second air cell A method for expanding a GIS uninterruptible bus comprising a blade, a third air cell, and a second expansion port of a GIS attached to the third air cell, wherein specific methods and steps are as follows. How to add a GIS uninterruptible bus.
S1. During normal operation of the bus, the first air cell, the second air cell, and the third air cell are filled with gas at a rated pressure, the double break switch device is in an open state, the temporary ground switch device is in an open state, The ground knife blade is closed.
S2. At the time of expansion connection, the first air cell is filled with gas at the rated pressure, the gas in the second air cell is reduced to a safe pressure, the gas in the third air cell is collected, and a wire is connected to the second expansion port of the GIS. After completing the connection, a circuit test signal is collected by a ground knife blade.
S3. After the extension, a withstand voltage test is performed, the gas at the rated pressure is filled in the second air cell, the double break switch device is open, the temporary ground switch device is closed, and the ground knife blade is open. Make sure you are in a state.
S4. After the withstand voltage test is completed, the double break switch device is closed, the temporary ground switch device is in the open state, the ground knife blade is in the open state, and after the extension is completed, it is used for practical use.

DESCRIPTION OF SYMBOLS 1 Housing 2 Double break switch device 3 Drive device 4 Temporary ground switch device 5 Support insulator 6 First air cell 7 First break 8 Second break 9 Center conductor 10 Movable contact 11 Fixed contact 12 Transmission mechanism 13 Center channel 14 Side channel 15 First coil spring 16 Female screw hole 17 Contact hole 18 Second coil spring 19 Transmission screw 20 First bevel gear 21 Second bevel gear 22 Insulating rod 23 Male screw part 24 Smooth part 25 Bowl type insulator 26 Lever mechanism

Claims (6)

A housing, a double break switch device, a driving device, and a temporary grounding switch device, a GIS uninterruptible bus extension function module, wherein the housing is columnar, and both ends of the housing are in a conducting direction. And three double break switch devices are mounted in the housing, and one drive device and one temporary ground switch device are attached to each double break switch device,
The inner cavity of the housing is hermetically sealed to form a first air cell;
The three double break switch devices are installed in the first air cell in parallel with each other along the conduction direction without contacting each other, and are used for synchronous closing or opening at both ends of the housing, A first break and a second break are disposed at both ends of the double break switch device. The double break switch device turns on the first break and the second break simultaneously by driving a driving device, and Can conduct both ends of the body,
The temporary grounding switch device is attached to a housing, and is used to perform a grounding operation of the double break switch device ,
The double break switch device includes a center conductor, a movable contact, a fixed contact, and a transmission mechanism, wherein the center conductor has a columnar shape, and an axial center channel is disposed at an axial position thereof, Side channels connected to the center channel are arranged at an outer peripheral position of the center conductor, and a first coil spring that sandwiches the movable contact and conducts the center conductor and the movable contact is arranged on both side walls of the center channel, The outer periphery of the movable contact and the center channel are fitted with movement, a female screw hole is arranged at an axial position of one end of the movable contact, and a contact hole corresponding to the movable contact is located at the axial position of the fixed contact. Is disposed, on the inner wall of the contact hole, a second coil spring that sandwiches the movable contact and conducts the fixed contact and the movable contact is disposed, and the transmission mechanism includes a transmission screw, A male bevel gear, a second bevel gear, and an insulating rod are provided. Male screw portions corresponding to female screw holes of the movable contact are arranged at both ends of the transmission screw. Wherein the first bevel gear is coaxially mounted on a smooth rod portion, the second bevel gear is coaxially mounted on one end of the insulating rod, and three center conductors are formed in a "shape" shape in a cross-sectional direction. The transmission screw is disposed in one air cell, enters the inside of the center conductor through the center channel, the positional relationship between the first bevel gear and the side channel in the transmission screw corresponds, one at each end of the center conductor. A movable contact is inserted, a male screw portion of the transmission screw is screwed into a female screw hole of the movable contact, and one end where the second bevel gear of the insulating rod is disposed is connected The first bevel gear and the second bevel gear mesh with each other, the other end of the insulating rod is connected to the driving device, and corresponding to each movable contact on both sides in the conduction direction inside the housing. One fixed contact is arranged, a contact hole of the fixed contact is arranged facing the movable contact, and the driving device drives the rotation of the transmission screw, and the movable contact has both ends clamped by the first coil spring. the back and forth motion in the axial direction, after the movable contact is out of the center conductor is inserted into a contact hole of the fixed contact, GIS uninterruptible bus, wherein Rukoto can turn on / off the fixed contacts at both ends Function module for expansion. The GIS uninterruptible bus extension function module according to claim 1 , further comprising a support insulator used to support and mount the center conductor inside the housing. The opposite ends of the housing is bowl-type insulator, GIS uninterruptible bus for extension function module according to claim 1, characterized in that the fixed contact is attached to the bowl insulator. In the temporary grounding switch device, one lever mechanism is disposed inside the housing, and by manually setting the position of the lever, the center conductor is electrically connected to the housing to perform a grounding operation. The functional module for adding a GIS uninterruptible bus according to claim 1 . The GIS uninterruptible bus extension function module according to any one of claims 1 to 4 , wherein a material of the insulating rod is an epoxy resin. The first operation bus port of the GIS which is sequentially connected, the GIS uninterruptible bus expansion function module according to any one of claims 1 to 5 , the second air cell, and the ground attached to the second air cell. A method for expanding a GIS uninterruptible bus comprising a knife blade, a third air cell and a second expansion port of a GIS attached to the third air cell, wherein the specific method and steps are as follows. Characteristic method of adding GIS uninterruptible bus.
S1. During normal operation of the bus, the first air cell, the second air cell, and the third air cell are filled with gas at a rated pressure, the double break switch device is in an open state, the temporary ground switch device is in an open state, The ground knife blade is closed.
S2. At the time of expansion connection, the first air cell is filled with gas at the rated pressure, the gas in the second air cell is reduced to a safe pressure, the gas in the third air cell is collected, and a wire is connected to the second expansion port of the GIS. After completing the connection, a circuit test signal is collected by a ground knife blade.
S3. After the extension, a withstand voltage test is performed, the gas at the rated pressure is filled in the second air cell, the double break switch device is open, the temporary ground switch device is closed, and the ground knife blade is open. Make sure you are in a state.
S4. After the withstand voltage test is completed, the double break switch device is closed, the temporary ground switch device is in the open state, the ground knife blade is in the open state, and after the extension is completed, it is used for practical use.

Images