KR20110063364A - Vacuum insulated switchgear - Google Patents

Abstract

PURPOSE: A vacuum insulated switchgear is provided to elevate parts of the vacuum insulated switchgear, thereby adjusting a bus line connection location. CONSTITUTION: A vacuum insulated switchgear is made of modularized partitions about four functions of an opening/closing unit(1b), a cable connecting unit(1c), a low voltage controller(1d), and a wire connecting unit(1e). The opening/closing unit is arranged on the frontal lower surface of the vacuum insulated switchgear. The low voltage controller is arranged on the frontal upper surface of the vacuum insulated switchgear. The wire connecting unit is arranged between the cable connecting unit and the low voltage controller.

Description

Vacuum Insulated Switchgear {VACUUM INSULATED SWITCHGEAR}

The present invention relates to a vacuum insulated switchgear aggregated and partitioned by function.

The vacuum insulated switchgear is an environmentally-friendly next-generation switchgear because it does not use SF ₆ gas, which has a global warming coefficient of approximately 23900 times higher than that of CO ₂ , compared with conventional SF ₆ gas insulated switchgear.

Here, as a vacuum insulated switchgear, there exist some which were described in patent document 1, for example. Patent Literature 1 includes a switch compartment, a bus bar compartment located above the switch compartment, a cable compartment located on the side of the switch compartment, and a door back side of the housing of the vacuum insulated switchgear. Disclosed is a vacuum insulated switchgear in which low-voltage control partitions arranged at positions opposing to a section are partitioned by ground metal plates, respectively.

[Patent Document 1] Japanese Patent Application Laid-Open No. 2008-104338

However, what is described in patent document 1 is the vacuum insulated switchgear which each space was divided by the ground metal plate to the last, and does not have independent structure as a box body. Therefore, in the case where parts of the vacuum insulated switchgear are damaged or the like, it is impossible to replace only the part or the equipment related thereto. Therefore, the whole half needs to be replaced. Was becoming. In addition, since the vacuum insulated switchgear has been integrally formed in the related art, it is necessary to move the entire vacuum insulated switchgear up and down to adjust the bus bar connection position, which is a burden in the work.

Accordingly, it is a first object of the present invention to provide a vacuum insulated switchgear that enables replacement of some equipment. It is also a second object of the present invention to provide a method of manufacturing a vacuum insulated switchgear that enables replacement of some equipment. Moreover, in this invention, it is a 3rd objective to provide the replacement method with respect to the apparatus of a part of vacuum isolation switchgear. In addition, a fourth object of the present invention is to provide a method for adjusting the bus bar connection position of a vacuum insulated switchgear which adjusts a bus bar connection position by moving a part of the vacuum insulated switch gear up and down.

MEANS TO SOLVE THE PROBLEM In order to solve the said 1st subject, the vacuum insulation switchgear which concerns on this invention is provided with at least the vacuum switch which turns on / off a current, and modularizes the switch part which accommodates the actuator which operates the said vacuum switch, in a box shape, In addition, the vacuum insulated switchgear is configured to be assembled.

Moreover, in order to solve the said 2nd subject, the switching part of the vacuum insulation switchgear which concerns on this invention is the switch part which switches on / off of an electric current, and the switch part which accommodates a manipulator which operates the said switch, and an electric power to a load side. A cable connection part for storing a cable for supplying a cable, a low voltage control part for storing a protection relay, and a wiring connection part for passing wirings for connecting devices inside the device, and combining these parts to form a vacuum insulated switchgear. A method of manufacturing a vacuum insulated switchgear, and after arranging the switch unit, a part of the cable connection unit is loaded in the switch unit, a part of the low voltage control unit is loaded in the switch unit, and between the cable connection unit and the low voltage control unit. It is characterized by arranging the wiring connecting portion.

Moreover, in order to solve the said 3rd subject, the switching part of the vacuum insulation switchgear which concerns on this invention is about the vacuum insulation switchgear which comprises a switch part partitioned in box shape, a cable connection part, a low voltage control part, and a wiring connection part. And after operating the switch in the switch unit to the disconnection position, remove the cable in the cable connection part, open the front and rear doors of the low voltage control part, remove the bus bar, and between the low voltage control part and the cable connection part. After removing the connector, characterized in that for replacing the switch unit.

In addition, in order to solve the said 4th subject, the bus bar connection position adjustment method of the vacuum insulation switch gear which concerns on this invention is the vacuum insulation switch gear which combines the switch part partitioned in box shape, the cable connection part, the low voltage control part, and the wiring connection part. A method for adjusting the bus bar connection position of the bus bar, wherein the base, which is installed at the bottom of the switch unit, is moved up and down so that the switch unit, the cable connection part, the low voltage control part, and the wiring connection part are combined after adjusting the bus bar connection position. do.

According to the present invention, it becomes possible to provide a vacuum insulated switchgear that enables exchange for some devices.

Further, according to the present invention, it becomes possible to manufacture a vacuum insulated switchgear that enables replacement of some equipment.

Further, according to the present invention, replacement of a part of the vacuum insulated switchgear is possible.

Moreover, according to this invention, it becomes possible to adjust a bus bar connection position by moving a part of vacuum isolation switchgear up and down.

1 is a perspective view of a vacuum insulated switchgear according to a first embodiment of the present invention.
Fig. 2 is a side view showing a partial cross section of a vacuum insulated switchgear according to the first embodiment of the present invention.
3 is a front view of the switch unit constituting the vacuum insulated switchgear according to the first embodiment of the present invention.
Fig. 4 is a front view showing a partial cross section of the switch unit constituting the vacuum insulated switchgear according to the first embodiment of the present invention.
Fig. 5 is a side view showing, in partial cross section, a cable drawn out upward with respect to the vacuum insulated switchgear according to the first embodiment of the present invention.
Fig. 6 is a side view showing, in partial cross section, a state in which a ventilator is applied to a vacuum insulated switchgear according to a first embodiment of the present invention.
Fig. 7 is a side view showing a partial cross section of a vacuum switch gear according to the second embodiment of the present invention.

The first embodiment will be described with reference to FIGS. 1 to 6. The vacuum insulated switchgear 1 according to the present embodiment is integrated for four functions of the switch unit 1b, the cable connection unit 1c, the low voltage control unit 1d, and the wiring connection unit 1e, and modularized into a box shape. It consists of compartments. And for each of the four compartments, the switch unit 1b is disposed below the front side of the vacuum insulated switchgear 1, and the cable connecting portion 1c is located at the rear side of the vacuum insulated switchgear 1 and the switch unit 1b. A part thereof is arranged in a state of being stacked via the spacer 6c. Here, about the spacer 6c, the cable connection part 1c is made into the length which can be supported with respect to the switch part 1b. The low voltage control unit 1d is disposed above the front face of the vacuum insulated switchgear 1 with a portion thereof mounted via the spacer 6d. Here, the spacer 6d has a length that the low voltage control unit 1d can support with the switch unit 1b. The wiring connecting portion 1e is located above the center of the vacuum insulated switchgear 1 and is disposed between the cable connecting portion 1c and the low voltage control portion 1d, respectively. Each compartment is mechanically connected using a bolt, respectively. The two sections of the switch unit 1b and the low voltage control unit 1d are surrounded by the ground metal plates 2b and 2d to provide airtightness.

Next, each section will be described.

The switch part 1b includes a vacuum double break three position type on / off switch 8 which performs on / off / disconnect at two parallelly arranged contacts under vacuum insulation conditions in a vacuum container, A vacuum grounding switch 9 connected to the load side of the vacuum two-point three-position type on-off switch 8 to ground under vacuum insulation conditions in a vacuum container, and a voltage disposed on the cable side to measure the power supply amount to the load side. The three-phase bus bar connection bushing 5a connected to the detector 10, the bus bar side to supply power to the vacuum two-point three-position open / close switch 8, and the three-phase cable connection bushing connected to the cable side ( 20a), these vacuum two-point three-position open / close switch 8, vacuum ground open / close switch 9, voltage detector 10, bus bar connection bushing 5a, cable connection bushing 20a Molded integrally by epoxy resin 12, mole The de switch 1ba. The bus bar connecting bushing 5a protrudes above the vacuum two-point three-position open / close switch 8 and protrudes into the bus bar connecting part 1a that is present as a space above the switch part 1b, and is described below. When the ground metal plate 2d located at the boundary with the busbar connection part 1a of the () is removed, the hand is pushed against the busbar connection part 1a from the front of the low voltage control part 1d so that the busbar connection work can be performed. The bushing 20a for cable connection protrudes from the cable connection part 1c. In the switch unit 1b, an operating device 11 for driving the vacuum two-point three-position type open / close switch 8 and the vacuum ground open / close switch 9 and a control device unit 11a for the operating device are disposed. And the connector 1bg is arrange | positioned in the location facing the low voltage control part 1d. In addition, in order to ensure the rigidity of the switch part 1b, the ground metal plate 2b is made into plate | board thickness, and it is set as the structure which added much bending.

The cable connection part 1c is connected to the T-type cable head 20 rotatably provided with respect to the cable connection bushing 20a which protrudes from the switch part 1b, and this load side A cable 3 for supplying power to the power supply and a current transformer CT 4 for detecting an accident current are arranged.

In the low voltage control unit 1d, a protective relay 1db disposed on the back side of the door 1da on the front side of the van, and a connector 1dd are disposed at a location facing the switch unit 1b. The switch 1b and the low voltage control unit 1d are electrically connected to each other by fitting with the connector 1bg. Moreover, the alarm display part 1dc which displays a ground fault, a short circuit accident, a vacuum pressure abnormality, etc. is arrange | positioned in the front (namely, half outside) of the door 1da of a front side. These devices are held on the rear surface of the door 1da on the front side of the low voltage control unit 1d, and are opened to the outside of the vacuum insulated switchgear 1 by opening the door 1da. The ground metal plate 2d located at the boundary between the low voltage control unit 1d and the bus bar connection unit 1a serves as a removable cover.

The wiring connecting portion 1e passes through the wiring connecting the devices therebetween.

Here, the mold switch 1ba mentioned above is explained in full detail using FIG. The vacuum two-point three-position open / close switch 8 is composed of an insulated cylinder 80a and a metallic end plate to vacuum the inside thereof, and two pairs of fixings arranged in the vacuum chamber 80. The contact 81a, 81b, the movable contact 82a, 82b arrange | positioned facing these fixed contacts 81a, 81b, and the both movable contacts 82a, 82b are connected, and the drive of the manipulator 11 is carried out. A movable conductor 85 that is movable and is reinforced with a metal that is not annealed even at a high temperature such as stainless steel, a vacuum insulation operation rod 86 connected to the movable conductor 85, and disposed in the vacuum container 80, and vacuum insulation The connection rod 86a which connects the operation rod 86 and the manipulator 8 side, the air insulation insulation rod 88 which connects the connection rod 86a, and the manipulator 11, and the vacuum sealing state Rubber or metal bellows 87 allowing the operation of the furnace connecting rod 86a and the air insulation operation A rubber or metal bellows 89 covering the periphery of the connecting portion of the rod 88 and the connecting rod 86a and the vacuum vessel 80 are disposed inside the arc, and an arc at the time of opening and closing of the contact is attached to the insulating cylinder 80a. It is comprised by the arc shield 90 which prevents it from becoming.

One fixed contact 81a is connected to the bus bar 5 via the feeder 83, and the other fixed contact 81b is connected to the T-type cable head 20 via the feeder 84. .

The vacuum ground opening / closing switch 9 is composed of an insulating cylinder 91a and a metal end plate, and the vacuum container 91 for vacuuming the inside, a fixed contact 92 disposed in the vacuum container 91, and a fixed contact. The operation of the movable contact 93 disposed to be opposed to the 92, the vacuum insulation operation rod 94 connected to the movable contact 93, and the vacuum insulation operation rod 94 are maintained while maintaining the vacuum seal. The metal bellows 95 and the arc shield 97 which are arrange | positioned inside the vacuum container 91 and which prevent the arc at the time of opening and closing of a contact | attachment to the insulating cylinder 91a are comprised.

Next, in order to ensure the safety of the inspector against surge voltages such as a closed position for energizing in the vacuum two-point three-position open / close switch 8, an open position for interrupting the load current or an accident current, and a lightning voltage. Switching to the three position of the disconnecting position and on / off of the vacuum ground opening / closing switch 9 are operated by the operating device 11 through the levers 201 and 401. As shown in FIG. 3, the operating device 11 roughly opens the first operating mechanism 200 of the electromagnetic operation method and the movable contact of the switch to switch the movable contact of the switch to the closed position and the open position. The second operation mechanism 300 of the electromagnetic operation method for switching to the position and disconnection position, the third manipulator 400 of the manual operation method for operating the movable contact of the ground switch, and the first and second operation devices. It consists of the control apparatus part 11a for operating. The control apparatus part 11a is comprised from the control board 11aa and the capacitor | condenser 11ab.

Moreover, it is also possible to change arrangement | positioning the 1st operating mechanism 200 and the 3rd operating mechanism 400 suitably. In addition, although the electromagnetic operation method was applied to the 1st operation mechanism 200, it is also possible to employ | adopt other operation methods, such as an electric spring method.

Here, the assembling method of the vacuum insulated switchgear 1 will be described. As an assembly method, the finished product of the vacuum insulated switchgear 1 is manufactured in a factory, and the finished product is transported to the site, and it is produced as a modularized unit in the above-mentioned compartment unit, and the compartments are The method of making a finished product by combining is mainly mentioned.

First, a method of manufacturing the vacuum insulated switchgear 1 according to the present embodiment in a factory, transporting the finished product to the site, and assembling will be described. First, each compartment mentioned above is produced as a component modularized by a separate process. Then, the cable connection part 1c is attached to the produced switch part 1b. At this time, as shown in FIG. 1, a part of the cable connection part 1c is mounted on the upper part of the switch part 1b through a spacer. Thereafter, the wiring connecting portion 1e is attached to the cable connecting portion 1c, and finally, the low voltage control portion 1d is attached to the switch portion 1b and the wiring connecting portion 1e. At this time, a part of the low voltage control unit 1d is loaded on the upper portion of the switch unit 1b through the spacer. At the time of mounting the switch part 1b and the low voltage control part 1d, electrical connection is also performed through a connector with mechanical mounting. In this way, the vacuum insulated switchgear 1 completed by combining the modularized parts is transported to the site. After transport, the switch part 1b is fixed to the mounting base (base). Then, by adjusting the base after fixing, the height of the entire class is adjusted to determine the bus bar connection position. After determining the bus bar connection position, the front door of the low voltage control unit 1d is opened, the bus bar side cover on the rear side of the low voltage control unit 1d is removed, and the bus line is connected. After busbar connection, replace the busbar side cover. At this time, instead of removing the busbar chamber side cover, the low voltage control unit 1d itself once attached may be removed once and then reattached after the busbar connection. Then, the back side cover of the cable connection part 1c is removed, a cable is connected, and it is assembled by connecting a power supply, equipment, such as CT, and wiring.

In addition, although the example which mounted the switch part 1b in order of cable connection part 1c → wiring connection part 1e → low voltage control part 1d among the modularized parts was demonstrated, it is also possible to change about mounting order. Do.

Next, a method for producing a finished product by fabricating units in compartments and combining locally modularized compartments will be described. Also in this case, similarly to the above-mentioned method, each compartment is first produced by a separate process. Each of these compartments is transported to the site in units of compartments. Among the compartments, first, the switch unit 1b is fixed to the base (base). The height of the switch part 1b is adjusted by adjusting a base after fixing, and a bus bar connection position is adjusted. After determining the bus bar connection position, the bus bar is connected. After bus connection, the vacuum insulation switchgear 1 is comprised by connecting the modular cable connection part 1c, the wiring connection part 1e, and the low voltage control part 1d to the switch part 1b, respectively. Also at this time, as shown in FIG. 1, a part of the cable connection part 1c is mounted on the upper part of the switch part 1b through a spacer, and a part of the low voltage control part 1d is placed on the upper part of the switch part 1b. It is loaded through spacers. At the time of attachment of the switch part 1b and the low voltage control part 1d, electrical connection is also performed through a connector, with mechanical mounting. In addition, with respect to the switch part 1b, the cable connection part 1c, the wiring connection part 1e, and the low voltage control part 1d can be attached in arbitrary order. This completes the assembly on site.

Here, the exchange method by a compartment unit is demonstrated.

First, the replacement method of the switch part 1b is demonstrated. At the time of replacing the modular switch unit 1b, the switch is in a disconnected state, it is checked whether no voltage is applied to the circuit, and the control power is switched off. Next, the back side cover is removed with respect to the cable connection part 1c connected to the switch part 1b, and the cable is removed. At this time, when CT etc. are connected, it is necessary to also remove CT. Next, the front door of the low voltage control part 1d is opened, the bus bar side cover on the back side of the low voltage control part 1d is removed, and the bus bar is removed. Subsequently, the connector which electrically connects between the low voltage control part 1d and the switch part 1b is removed, and also when the nirvana is between the adjacent half, the nirvana is also removed. Thereafter, the bolts fixed between the low voltage control unit 1d and the switch unit 1b are removed, and the bolts fixed between the cable connection unit 1c and the switch unit 1b are also removed. Thereafter, the lowermost decorative plate is removed from the decorative plate provided on the front of the switch unit 1b described below, and the hook of the lifter can be inserted into the lifter hook insertion portion 1bf. The hook of the lifter is inserted into the lifter hook insertion portion 1bf, and the modular switch unit is taken out from the front side. At the time of insertion, a repaired article or a new article may be inserted according to this procedure and the reverse procedure.

In the above procedure, the low voltage control unit 1d itself was removed without removing the bus bar, but when the bus bar was removed, the modular low voltage control unit 1d was once removed and the switch unit 1b was pulled out. After that, the low voltage control unit 1d may be mounted again or the low voltage control unit 1d may be mounted after the replacement with the new switch unit 1b.

Next, the replacement method of the low voltage control part 1d is demonstrated. Also in this case, similarly to the switch part 1b, when the switch part 1b is replaced, the switch is disconnected, the voltage is not applied to the circuit, and the control power is switched off. Then, the front door of the low voltage control part 1d is removed, and the wiring and connector connected to the low voltage control part 1d are removed. Then, when the bolt fixed between the switch part and the wiring connection part is removed, and it is carried out between adjacent half | pieces, it is necessary to also remove the bolt which was hot. Thereafter, the low voltage controller 1d is taken out from the front side. At the time of insertion, a repaired article or a new article may be inserted according to this procedure and the reverse procedure.

The replacement method of the cable connection part 1c is demonstrated. Also in this case, similarly to the switch part 1b, when the switch part 1b is replaced, the switch is disconnected, the voltage is not applied to the circuit, and the control power is switched off. Then, the back side cover of the cable connection part 1c is removed, and a cable is removed. At this time, when CT etc. are connected, it is necessary to also remove CT. Then, the bolt fixed between the switch part and the wiring connection part is removed, and when it is nibble between the adjacent half | pieces, the bolt which is nibble is also removed. Thereafter, the modular cable connecting portion 1c is pulled out from the back side. When inserting, a repaired or new article may be inserted in this order and in reverse.

In addition, each phase is made of a mold insulation by resin, and a contact is made of vacuum insulation, and the dimensions and the number of poles are changed, so that "phase insulation"> pole insulation at the time of disconnection> pole insulation at the time of interruption> ground switch Relationship between the poles of the poles "can be set, and the insulation cooperation between phases is aimed at. As a result, the failure can be suppressed by a ground fault at most, and the spread of the accident can be prevented. In addition, since the above-mentioned air insulation insulating rod 88 is covered with the bellows 89 made of rubber or metal, and is cut off from the outside air, insulation reliability for long-term use is secured.

1, the decorative plate of the front of the switch part 1b is divided | segmented by function. That is, the upper part is a state display part 1bc which shows which state of the switch part 1b is on, off, disconnection, and ground, and the manual operation part 1bd for operating the 3rd operation mechanism 400 of a manual operation system. The lower side is an emergency operation unit 1be for manually tripping the first operating mechanism 200 in an emergency, and the lower side is a lifter for using a lifting lifter when transporting the van. A lifter hook insertion portion 1bf is provided so that the hook can be inserted therein. They are covered except when used. In this way, the use situation can be divided into different parts, and the cover can be made to cover each other except for use. This can prevent the malfunction due to accidental contact or the like and reduce the risk of damage of other parts of the decorative plate during transportation by the lifter. In addition, by installing the lifter hook insertion portion 1bf in an empty space of the lower half of the bottom plate instead of the bottom plate, there is no need to lift it up by the height of the lifter hook insertion portion as compared with the case where the lifter hook insertion portion is installed on the bottom plate. The stability at the time of conveyance is improved. In addition, by providing the lifter hook insertion portion 1bf in an empty space in the lower half of the van, it is possible to connect the sections with the lifter inserted (i.e., the state where fine adjustment is possible). The connection work becomes remarkably easy.

In the above-described first embodiment, four sections of the switch unit 1b, the cable connection unit 1c, the low voltage control unit 1d, and the wiring connection unit 1e in which the vacuum insulated switchgear 1 is formed are divided into sections. The functions are concentrated and independently modularized. As a result, assembly can be performed in parallel for each section, and work efficiency and productivity are improved.

In addition, since switch gears usually need to be changed in accordance with the customer's request, it was necessary to make them after receiving the customer's request. It becomes possible to assemble previously about the switch part 1b which is hard to generate | occur | produce, and it becomes possible to manufacture quickly. In addition, mass production is possible for a section in which no change occurs, and the production cost can be greatly reduced. In addition, even if there is damage to a part of the class in the past, the whole class has to be replaced and it is a big burden for the consumer. However, supply to each section becomes possible, and it becomes possible to promote the replacement of each section. . In the partitioning, if the switch, the manipulator, the control board of the manipulator, and the condenser are all stored in the switch part 1b, the replacement can be completed only by replacing the switch part 1b. The burden is reduced.

In addition, by carrying out final assembly on-site, the transportation can be carried out in small compartments compared with the size of the entire class, and the transportation operation is significantly easier, for example, when grounding in a narrow building.

Moreover, by limiting the part fixed to the base (base) by the switch part 1b, the area of the base (base) is reduced compared to the case where the base (base) was fixed to the whole class, and the cost reduction by that much We can plan.

In addition, although two types of methods were described above with respect to the assembling method of the vacuum insulated switchgear 1 in the field, in the method of connecting the compartments in the field, the height of only the modular switch unit 1b may be adjusted. The height adjustment of the bus bar connection position by the base (base) is also remarkably superior in weight plane, positioning accuracy, etc., compared with the case where the whole half is moved up and down. In addition, in the method of connecting the compartments locally, the low voltage control unit 1d does not exist at the time of connecting the buses, so that a work space for connecting buses can be secured widely. Work efficiency is significantly improved. In addition, when transported in a modularized unit, the degree of freedom of transport can be increased, for example, from a dropping method, stability, or the like, and the transport cost itself can be reduced.

In addition, it is difficult to secure the strength when the apparatus is configured in division units, but a heavy mold switch 1ba or a manipulator is concentrated in the switch unit 1b, and the strength of the switch unit 1b is secured. In order to increase the bending of the ground metal plate 2b, the required strength of the cable connecting portion 1c, the low voltage control portion 1d, and the wiring connecting portion 1e, which are sections other than the switch portion 1b, It is reduced, that is, it becomes possible to thin the surrounding board and to reduce bending. In this way, by concentrating the sections requiring strength in the switch unit 1b, the number of parts can be reduced and the thickness can be reduced as a whole, and the size and weight of the sections other than the switch unit 1b can be reduced. As a result, the overall size of the vacuum insulated switchgear 1 can be reduced in size and weight, and manufacturing cost can be reduced.

In the above embodiment, a part of the cable connecting portion 1c and the low voltage control portion 1d is configured to be loaded in the switch portion 1b, so that the cable connecting portion 1c and the low voltage controlling portion 1d The weight is further burdened. Thereby, it becomes possible to reduce the intensity | strength further about parts other than the switch part 1b.

In addition, the ground is connected to the switch part 1b and the bus connection part 1a which accommodated the above-mentioned mold switch 1ba and the operation device 11, which are current carrying parts, and the low voltage control part 1d, which are susceptible to external noise and temperature influence. By enclosing the metal plates 2b and 2d to provide airtightness, even if an accident occurs in the switch unit 1b or the low voltage control unit 1d, it can be prevented from spreading to other sections. In addition, it is possible to prevent the entry of the magnetic force by shielding the precision device in the low voltage control unit which is susceptible to the influence of the surrounding magnetic field from the surroundings by the ground metal plate 2d, and as a result, to prevent failure of the precision device. It becomes possible.

Moreover, in one Embodiment of this invention, in addition to the structure mentioned above, the mechanical connection between each division is performed by bolt connection, and the electrical connection of the switch part 1b and the low voltage control part 1d is carried out with the connector 1bg and the connector. By setting it as the connection of 1dd, it is made easy to attach or detach. As a result, removal at the time of maintenance inspection becomes easy, and arrangement | positioning between divisions becomes easy, and it can respond flexibly to the various specifications of a customer, and can shorten delivery date. In addition, the production cost can be reduced by simplifying the change of arrangement.

In addition, as shown in FIG. 6, you may add the meshed ventilator 1ea to the ceiling of the wiring connection part 1e. Thereby, the ventilation amount to the bus bar connection part 1a can be increased, and when the bus bar energizing current becomes large, it becomes possible to suppress the temperature rise of the bus bar connection part 1a.

In addition, the protection relay 1db and the alarm display unit 1dc are drawn out of the switchgear by opening the front door 1da, and the ground metal plate between the low voltage control unit 1d and the bus bar connection unit 1a can be removed. Since it is a cover, even if the low voltage control part 1d is mounted, the work space for bus | bar connection work can be ensured, and as a result, bus-bar connection work can be performed easily.

In addition, the bus bar 5 and bus bar connection part 1a are disposed above the vacuum two-point three-position open / close switch 8 so that the bus bar 5 and the bus bar connection part 1a are positioned at the height of the chest of the worker, thereby reducing the work burden on the worker. have.

In the present embodiment, any one of the switch unit 1b, the cable connection unit 1c, the low voltage control unit 1d, and the wiring connection unit 1e is modularized into a box shape, but only one compartment is modularized into a box shape. Even if it is, it is advantageous to enable the exchange of only the said compartment. In particular, modularizing the switch unit 1b into a box shape having a high risk of damage in accordance with the repetition of the opening and closing operation is in accordance with customer demand.

The second embodiment will be described with reference to FIG. In this embodiment, the structure in which the vacuum one-point three-position open / close switch 108 is applied to the switch is adopted. In this way, it is also possible to partition the switch using a vacuum one-point three-position type on / off switch.

Incidentally, in each of the above embodiments, the vacuum two-point three-position open / close switch 8 or the vacuum one-point three-position open / close switch 108 is used. Of course, this is not applicable.

1: vacuum insulated switchgear
1a: busbar connection
1b: switch
1ba: Mold Switch
1bb: decorative plate
1bc: status display
1bd: Manual control panel
1be: Emergency operation panel
1bf: Lifter hook insert
1bg, 1dd: connector
1c: cable connection
1d: low voltage controller
1da: door
1db: protection relay
1dc: alarm display
1e: Wiring connection part
1ea: Ventilator
2b, 2c, 2d, 2e: ground metal plate
2da: cover
3: cable
4: CT
5: busbar
5a: Bus connection bushing
6c, 6d: spacer
8: manipulator
9: vacuum grounding switch
10: voltage detector
11: operating device
11a: control unit
11aa: control board
11ab: condenser
12: epoxy resin
20: T-type cable head
20a: Bushing for cable connection
80, 91: vacuum vessel
80a, 91a: insulated bucket
81a, 81b, 92: fixed contacts
82a, 82b, 93: movable contact
83, 84: feeder
85: movable conductor
86, 94: vacuum insulation operation rod
86a: connection load
87, 95: Metal Bellows
88: lifting rod operation
89: bellows
90, 97: arc shield
111: load operation
112: insulation operation rod
200: first operating mechanism
201, 401: lever
300: second operation mechanism
400: third operation mechanism

Claims (17)

A vacuum insulated switchgear provided with at least a vacuum switch for turning current on and off, wherein the switch unit for accommodating the manipulator for operating the vacuum switch is modularized into a box shape and can be assembled to a vacuum insulated switchgear. The vacuum insulated switchgear according to claim 1, wherein the switch unit is disposed under the vacuum insulated switchgear. The vacuum insulated switchgear according to claim 2,
It further includes a low voltage control unit for storing a protection relay,
The low voltage control unit is mounted on the switch unit, characterized in that the vacuum insulated switchgear. The vacuum insulated switchgear according to claim 2 or 3,
It further has a cable connection part for accommodating the cable which supplies electric power to a load side,
And the cable connection part is mounted on the switch part. A switch unit for accommodating a switch for turning on / off a current and a manipulator for operating the switch;
A cable connection part for storing a cable for supplying power to the load side,
A low voltage controller for storing a protection relay;
It is provided with the wiring connection part which the wiring for connecting apparatus inside through the inside,
And said switch part, said cable connection part, said low voltage control part and said wiring connection part are each modularized in an independent box shape. The vacuum insulated switchgear according to claim 3 or 5, wherein the switch unit and the low voltage control unit are each sealed by a ground metal plate. The said switch part, the said cable connection part, the said low voltage control part, and the said wiring connection part are fixed by the volt | bolt connection, and it is electrically connected between the said switch part and the said low voltage control part by the connector. Characterized by vacuum insulated switchgear. A control device for controlling an operation device for operating a mold switch part covered with a solid insulator, a manipulator for operating the mold switch part, a connector in the switch part, and a mold switch for conducting current on / off, disconnecting and grounding. And a switch unit disposed at the front lower side,
A cable connection portion for storing a cable for supplying power to the load side and disposed on the back side;
A low voltage control unit arranged to receive an alarm display unit for indicating an abnormal state of a protection relay, a vacuum insulated switchgear, and a connector in the low voltage control unit electrically connected to the connector in the switch unit,
And a wiring connecting portion disposed inside the center and a bus connecting portion disposed above the switch unit, the wiring passing through the inside for connecting the devices with each other,
And said switch part, said cable connection part, said low voltage control part and said wiring connection part are each modularized in an independent box shape. The front panel of the switch unit includes: an operation unit for operating a state display unit and a manual operation unit of the switch unit; and a manual operation device in an emergency state according to any one of claims 1 to 3, 5 or 8. A decorative plate is provided that includes an emergency operation unit for operating the electric current blocking unit and a hook insertion unit for inserting a hook of the transporter when transporting the vacuum insulated switchgear, wherein the status display unit and the operation unit of the decoration plate It is installed in the upper portion, the emergency operation portion is installed in the middle of the decorative plate, the hook insertion portion is installed in the lower portion of the decoration plate, the status display portion and the operation portion, the emergency operation portion and the hook insertion portion is provided with a cover, respectively Vacuum insulated switchgear. 9. The switchgear according to any one of claims 1 to 3, 5 or 8, wherein the switch is switched to three positions of on / off and disconnection of current by vacuum insulation, and further, a plurality of contacts are made. A vacuum insulated switchgear provided with a vacuum insulated three-position type switch, and provided with a vacuum grounding switch having a contact in a vacuum container for grounding. A switch unit for storing a switch for turning on and off a current and a manipulator for operating the switch, a cable connecting portion for storing a cable for supplying power to a load side, a low voltage control unit for storing a protection relay, and an internal A method of manufacturing a vacuum insulated switchgear, comprising a wiring connecting portion through which wiring for connection passes, and combining these parts to form a vacuum insulated switchgear, wherein the switch unit, the cable connection unit, the low voltage control unit, and the wiring connection unit They are all modularized in an independent box shape, and after arranging the switch unit, a part of the cable connection unit is loaded in the switch unit, a part of the low voltage control unit is loaded in the switch unit, and between the cable connection unit and the low voltage control unit. Of vacuum insulated switchgear with wiring connections Manufacturing method. A vacuum insulated switchgear comprising a switch unit for turning on / off / disconnecting a current, a cable connection unit for accommodating a cable for supplying power to a load side, and a low voltage control unit, and combining these parts. The cable connection portion and the low voltage control unit are all modularized in an independent box shape,
After disconnecting the current in the switch unit,
Remove the cable in the cable connection,
After removing the bus bar connected
The switch part replacement method of the said vacuum insulated switchgear which takes out a switch part, and replaces a modular switch part by inserting a repaired switch part or a new switch part. A vacuum insulated switchgear comprising a switch unit for turning on / off / disconnecting a current, a cable connection unit for accommodating a cable for supplying power to a load side, and a low voltage control unit, and combining these parts. The cable connection portion and the low voltage control unit are all modularized in an independent box shape,
After disconnecting the current in the switch unit,
Remove the cable in the cable connection,
Remove the connector between the low voltage controller and the cable connection,
After removing the low voltage control unit,
The vacuum for inserting a lifter hook into a lifter hook insertion section provided on one side of the switch unit, taking out the switch by pulling out the lifter, and then replacing the modular switch unit by inserting a repaired switch unit or a new switch unit. How to replace switch part of insulated switchgear. A switch for accommodating the on / off switch of the current and an actuator for operating the switch, a cable connecting portion for accommodating a cable for supplying power to the load side, and a low voltage controller for accommodating a protection relay. A vacuum insulated switchgear formed by a combination, wherein the switch unit, the cable connection unit, and the low voltage control unit are all modularized in an independent box shape,
Operate the switch in the switch unit to the disconnection position,
After removing the connector between the low voltage control part and the cable connection part,
A method for replacing the low voltage control section of the vacuum insulated switchgear, wherein the modular low voltage control section is replaced with a repaired or new article. Vacuum insulation comprising a switch for turning on / off a current and an actuator for accommodating the switch, a cable connecting portion for accommodating a cable for supplying power to the load side, and a low voltage controller, and combining these parts A switchgear, the switch unit, the cable connection unit and the low voltage control unit are all modularized in an independent box shape,
Operate the switch in the switch unit to the disconnection position,
After removing the cable in the cable connection,
A method for replacing a cable connection of the vacuum insulated switchgear, wherein the modular cable connection is replaced with a repaired or new product. A vacuum insulated switch provided with a combination of each of these parts, including a switch for turning on / off a current, a switch unit for accommodating the manipulator for operating the switch, a cable connecting portion for accommodating a cable for supplying power to the load side, and a low voltage controller; The bus bar connection position adjustment method of a gear, The said switch part, the said cable connection part, and the said low voltage control part are all modularized in independent box shape,
By moving the base provided in the bottom part of the switch part up and down, after adjusting the bus-bar connection position, the said switch part, the cable connection part, and the said low voltage control part were combined, respectively, The busbar of the said vacuum insulated switchgear is characterized by the above-mentioned. How to adjust connection position. Vacuum insulation comprising a switch for turning on / off a current and an actuator for accommodating the switch, a cable connecting portion for accommodating a cable for supplying power to the load side, and a low voltage controller, and combining these parts A switchgear is a method for adjusting the bus bar connection position of a vacuum insulated switchgear which is capable of contacting a bus bar of the vacuum insulated switchgear from outside of the vacuum insulated switchgear by opening and closing a door provided in the low voltage control unit. The cable connection portion and the low voltage control unit are all modularized in an independent box shape,
After coupling the switch unit, the cable connection unit, and the low voltage control unit respectively modularized, the bus bar connection position of the vacuum insulated switchgear is adjusted by moving the base installed at the bottom of the switch unit up and down. How to adjust the position.

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