KR20050090323A - Very large-scale integrated metal clad - Google Patents

Abstract

The present invention relates to a power distribution panel, and more particularly, a vertical bulkhead and a horizontal bulkhead are installed inside a closed power distribution panel to divide at least two or more compartments, and power devices installed in each compartment through a plurality of bushings installed in the partition. Electrical connection and installation of moisture and contaminant removal devices to prevent flashover accidents and minimize the size of closed cabinets. Gas discharge devices are installed at the top of each compartment to prevent the occurrence of high pressure gas or steam in the event of an explosion. The present invention relates to a super integrated closed power panel that can prevent the high pressure gas from being diffused and damaged by quickly discharging to the outside.

The super integrated closed power panel according to the present invention, in a closed power panel consisting of a power receiving unit and a blocking unit, by installing a vertical partition having a protection class inside the power receiving unit to the first power receiving compartment and the second power receiving compartment. It is divided into two, the first faucet compartment is installed up and down on one side of the vertical bulkhead so that the load breaker, lightning arrester and power fuse is located, the second faucet compartment closed transformer panel so that the transformer for transformer, the voltage transformer is located A plurality of horizontal bushings installed at an inner side of the vertical partition wall to electrically connect the first bus bar of the first faucet compartment and the second bus bar of the second faucet compartment;

Install a vertical partition having a protection level inside the circuit breaker unit to divide into a first circuit breaker compartment and a second circuit breaker compartment, the circuit breaker is installed on one side of the vertical partition wall in the first circuit breaker compartment, the second circuit breaker compartment And a power supply side bushing for connecting the power supply side bus line connected to the power supply side of the breaker to the vertical bulkhead of the second breaker compartment, respectively, so that the instrument current transformer and the surge upserver are located. And a load side bushing for connecting the load side busbar connected to the through hole in the horizontal direction.

Description

VERY LARGE-SCALE INTEGRATED METAL CLAD}

The present invention relates to a power distribution panel, and more particularly, a vertical bulkhead and a horizontal bulkhead are installed inside a closed power distribution panel to divide at least two or more compartments, and power devices installed in each compartment through a plurality of bushings installed in the partition. Electrical connection and installation of moisture and contaminant removal devices to prevent flashover accidents, minimizing the size of closed cabinets, and installing gas discharge devices at the top of each compartment to prevent high pressure gas or steam in case of explosions. The present invention relates to a super integrated closed power panel that can prevent the high pressure gas from being diffused and broken by quickly discharging to the outside.

In general, an electrical room provided in a building, a factory, or an apartment is provided with a power distribution panel for receiving high voltage or extra high voltage electricity supplied by a power company and distributing it to the load of each customer. 1 is a disconnection diagram showing a general male switchgear, and FIG. 2 is a schematic perspective view showing an example of a special high platen according to the related art. As shown, generally, the water distribution panel 100 is largely divided into a high voltage plate (or high voltage plate) 300, a transformer panel 500, and a low voltage plate 700 according to the power supply procedure and voltage of the power system. . The extra high pressure plate 300 receives electricity of a high pressure or a special high pressure supplied from the outside, the transformer panel 500 decompresses the high pressure or special high pressure electricity to the load of the consumer, and the low platen 700 ) Performs the function of sending low voltage electricity to multiple loads.

1 and 2, the special high pressure plate 300 is a high pressure power panel (LBS panel: 300-1), a transformer transformer transformer base (MOF panel: 300-2), a transformer transformer base ( PT panel: 300-3), special high-blocking base (VCB panel: 300-4) is composed of four power panels (110). The low pressure panel 700 includes a plurality of switchboards 700-1 and 700-2 installed with a circuit breaker, a condenser, a low voltage transformer, a current transformer, and a power panel 700-including a circuit breaker, a charger, and a battery. 3) consists of.

As shown in FIG. 1, the high voltage switchboard 300-1 includes a load switch (LBS) 130-1 and an arrester (LA) 130-2 inside a switchboard 110 having a predetermined size. The instrument transformer current transformer 300-2 is provided with a transformer transformer current transformer (MOF) 130-3 and a power fuse (PF) 130-4. And instrument transformer (PT) (130-5) is installed on the transformer transformer base (300-3), the vacuum breaker (VCB) (130-6) on the special high-frequency cut-off base (VCB) (130-4) And CT current transformer (CT) 130-7 and surge absorber (SA) 130-8 are respectively installed.

However, since the extra high pressure plate 300 according to the related art has a structure in which four power panels 110 are arranged in a line, an electric chamber having a relatively large area is required. In addition, the conventional power panel 110 is made of a single space, and the power circuit such as a circuit breaker, disconnector, and the control circuit and the bus line are installed together, so arc or flash of the power system (Flash) When a failure or an accident accompanying Over occurs, the power panel 110 may be damaged or the device or circuit therein may be damaged by the high temperature and high pressure gas or steam generated inside the power panel 110. In addition, the conventional high-pressure plate 300, the four power panel 110 is communicated with each other through the opening formed through the bus bar so that the high-pressure gas generated in any one of the power panel 110 to the other power panel 110. There was a problem that the entire special high platen 300 is broken by diffusion.

SUMMARY OF THE INVENTION The present invention has been made to solve this problem, and a main object of the present invention is to provide a super integrated closed power panel that can be installed in an electric room of a small area by reducing the number of power panels.

The present invention also provides a vertical bulkhead in each closed power panel to prevent the high temperature and high pressure gas or vapor generated in one closed power panel in the event of a power system breakdown or accident. It is installed to be divided into a plurality of compartments, and by installing one or more gas outlets in communication with the compartments to provide a super-integrated closed power board that can quickly discharge high-temperature, high-pressure gas or vapor to the outside in the event of an accident. .

The present invention also provides a plurality of bushings in horizontal or vertical bulkheads installed inside the closed cabinet, to electrically connect neighboring compartments, as well as to shorten the separation distance between phases by using the partition wall made of a ground metal. It is to provide a super integrated closed power panel that installs moisture and pollutant removal device to prevent flashover accidents by increasing flashover voltage and minimizes the size of the closed power board.

In order to achieve this object, the super integrated closed power panel according to the present invention, in a closed power panel composed of a power receiving unit and a blocking unit,

A vertical partition having a protection level is installed inside the power receiving unit to divide the first faucet compartment and the second faucet compartment, and the first faucet compartment includes a load breaker, an arrester, and a power fuse so as to be located at one side of the vertical partition. It is installed up and down in the second faucet compartment, and installed in the inner surface of the closed faucet so that the transformer transformer for the instrument, the voltage transformer is located, and the first bus bar and the second faucet of the first faucet compartment at the lower end of the vertical bulkhead. Install a plurality of horizontal bushings electrically connecting the second bus bar of the compartment;

Install a vertical partition having a protection level inside the circuit breaker unit to divide into a first circuit breaker compartment and a second circuit breaker compartment, the circuit breaker is installed on one side of the vertical partition wall in the first circuit breaker compartment, the second circuit breaker compartment And a power supply side bushing for connecting the power supply side bus line connected to the power supply side of the breaker to the vertical bulkhead of the second breaker compartment, respectively, so that the instrument current transformer and the surge upserver are located. And a load side bushing for connecting the load side busbar connected to the through hole in the horizontal direction.

In the present invention, the second faucet compartment is divided up and down by a predetermined horizontal partition and the inclined partition wall to form a transformer compartment of a predetermined size, the voltage transformer is installed perpendicular to the inclined partition wall to sufficiently space between the phases It is characterized by securing.

The second circuit breaker compartment may be divided into a rectangular power supply side bus compartment by a predetermined horizontal bulkhead and a vertical bulkhead, and the power supply side bus compartment may include a plurality of power supply side busbars, a plurality of insulators fixing the power supply busbar, and the circuit breaker. The power supply side bushing for connecting the power supply side bus bar to be connected to the power supply side of the circuit breaker, and the load side bushing for connecting the load side busbar to the load side of the circuit breaker are installed through the horizontal direction.

And inside the power receiving unit and the breaker unit, a control compartment of a predetermined size is formed by a predetermined horizontal partition and a vertical partition.

In addition, a gas discharge device is installed to communicate with the first power receiving compartment, the transformer compartment, the first breaker compartment, the second breaker compartment, and the power supply side bus compartment.

In addition, inside the power receiving unit and the circuit breaker unit, the air is cooled using a heat absorbing plate installed on the heat absorbing surface of the thermoelectric element to remove moisture, and the air cooled by using the heat generating plate installed on the heat generating surface of the thermoelectric element is heated. And, by using the condensate generated in the heat absorbing plate is further installed a moisture and contaminant removal device for removing contaminants contained in the air.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the super integrated closed power switch according to the present invention.

First, Figure 3 is a disconnection diagram showing the structure of the most integrated closed power panel consisting of two closed power panel, Figure 4 is a perspective view showing a super integrated closed power panel according to the present invention, Figures 5 and 6 Side cross-sectional view showing a power receiving unit of the super integrated closed power panel according to the invention, Figure 7 is a side cross-sectional view showing a breaker unit of the super integrated closed power panel according to the present invention.

As shown in FIG. 3, the super integrated closed power panel 3 according to the present invention is largely composed of the power receiving unit 20 and the circuit breaker unit 40. The power receiving unit 20 includes a load switch 21, an arrester 22, a power fuse 23, a transformer 24 for an instrument, and a voltage transformer installed in one closed power panel 10-1. 25), the breaker unit 40 includes a breaker 41, a current transformer 42, and a surge observer 43 installed inside one closed power panel 10-2.

3 and 4, the super integrated closed power panel 3 according to the present invention is composed of two closed power boards 10-1 and 1-2 arranged in a line. The first closed power panel 10-1 is a power receiving unit 20, and a vertical bulkhead 12 having a protection level is installed inside the first power receiving unit 10-1 to the first power receiving compartment 20a and the second power receiving compartment 20b. Are nutrients.

As shown in FIG. 5, the load switch 21, the lightning arrester 22, and the power fuse 23 are vertically installed on one side of the vertical partition wall 12 so as to be located in the first power receiving compartment 20a. The instrument transformer 24 and the voltage transformer 25 are installed on the inner surface of the closed power panel 10-1 so as to be located in the second power receiving compartment 20b. A plurality of horizontal bushings 26 electrically connects the first bus bar 27 of the first faucet compartment 20a and the second bus bar 29a of the second faucet compartment 20b to a lower end of the vertical partition wall 12. ) Is installed.

The second power receiving compartment 20b is vertically divided by a predetermined horizontal partition 13 and an inclined partition 14 so that a transformer compartment 20c having a predetermined size is formed in an upper space thereof. In this case, the horizontal bulkhead 13 and the inclined partition 14 are installed between the vertical partition 12 and the inner surface of the closed power panel 10-1. And the voltage transformer 25 is installed perpendicular to the inclined partition wall 14 to ensure a sufficient distance between phases. In addition, a rectangular control compartment 50 is partitioned into the first power receiving compartment 20a by a predetermined horizontal partition 51 and a vertical partition 52. Various control circuits are provided in this control compartment 50. On the other hand, Figure 6 is viewed from the opposite side of the power receiving unit 20 shown in Figure 5 the configuration is the same. And the doors 11 are respectively installed on the front rear surfaces of the closed power boards 10-1 and 10-2.

 Subsequently, as shown in FIG. 7, the second closed power panel 10-2 is a breaker unit 40, and a vertical bulkhead 12 having a protection class is installed therein, so that the first breaker compartment 40a is provided. And the second breaker compartment 40b. And the breaker 41 is installed on one side of the vertical bulkhead 12 to be located in the first breaker compartment 40a, the current transformer 42 and the surge up server 43 for the instrument is the second breaker It is installed on one side wall and the bottom surface of the closed power panel so as to be located in the compartment 40b. The vertical bulkhead 12 includes a power supply side bushing 44 for connecting a power supply busbar 47 connected to the power supply side of the breaker 41, and a load side busbar 49 for connecting the load side of the breaker 41. A load side bushing 45 for connection is provided in the horizontal direction. In this case, a fixed contact portion is formed at the power side bushing 44 and a load side bushing 45, and a movable contact portion is formed at each of the breakers 41, and the fixed contact portion and the movable contact portion are electrically connected in accordance with the slide movement of the breaker 41. Is connected.

On the other hand, as shown in Figure 7, the second circuit breaker compartment 40b is partitioned by a predetermined horizontal partition 18 and the vertical partition 19, the rectangular power supply side bus compartment 40c. The power supply side busbar compartment 40c is provided with a plurality of power supply side buses 47, a plurality of insulators 48 for fixing the power supply side buses 47, and the power supply side bushing 44 described above. The remaining first breaker compartment 42b includes a plurality of load side buses 49, a plurality of insulators 48 for fixing the load side buses 49, the current transformer 42 and the surge up server 43. ) Is installed. The first breaker compartment 40a is divided into a rectangular control compartment 50 by a predetermined horizontal partition 51 and a vertical partition 52. Various control circuits are provided in the control compartment 50. .

Subsequently, the first and transformer compartments 20a and 20c, the first breaker compartment 40a and the first and second closed power cabinets 10-1 and 10-2 according to the present invention are disposed on the upper surfaces. The gas discharge device 70 is installed to communicate with the second breaker compartment 40a and the power side bus compartment 40c. That is, the high temperature and high pressure gas generated in the compartment of the closed power board 10 may destroy the closed power board. Therefore, in order to protect the closed power board from the high temperature and high pressure gas generated in the explosion, the gas discharge device 70 is provided to communicate with each compartment.

8 shows an example of the gas discharge device 70 according to the present invention, an example of the gas discharge device 70 according to the present invention is a predetermined formed to communicate with the compartments (20a, 20c, 40a, 40b, 40c) Fixing the gas discharge port 73 having a size, the pressure plate 74 having a size capable of closing the gas discharge port 73, and the pressure plate 74 is fixed to the upper plate of the closed power panel 10 Plastic bolt (75). At this time, the plastic bolt 75 is damaged by the internal pressure when the pressure inside the compartment increases by more than a predetermined amount so that the pressure-pressure plate 74 is separated to the outside.

Therefore, when an explosion accident occurs in one of the compartments and the internal pressure rises, the pressure plate 74 is released to the outside to quickly discharge the high pressure gas to the outside. Accordingly, since the pressure inside the closed power board 10 is rapidly reduced, it is possible to prevent the closed power board 10 from being damaged. In addition, the closed power panel 10 according to the present invention by installing one or more gas discharge device for each compartment by the high-temperature high-pressure gas or steam generated in any one of the high pressure plate in the event of failure or accident of the power system Prevents spreading sequentially.

9 shows another embodiment of the gas discharging device 70 according to the present invention. That is, the gas discharge device 70, the gas discharge port 73 formed to communicate with the compartment and the induction frame 76 is installed vertically along the periphery of the gas discharge port 73 to guide the high pressure gas, A hinge 77 installed at one side of the guide frame 76, a pressure plate 74 of a predetermined size rotatably installed through the hinge 77, and integrally at the outer end of the pressure plate 74 It is formed of an elastic plate 78 of a predetermined length. At this time, the elastic plate 74 is made of incombustible rubber or silicon, and is bent at a predetermined curvature. Therefore, when the pressure plate 74 is rotated at a predetermined angle or more, for example, 80 ° or more, the bent portion of the elastic plate 78 comes into contact with the upper plate of the closed power board or the outer surface of the guide frame 76. Accordingly, the elastic plate 78 restricts the rotation angle of the pressure plate (74).

In addition, the elastic plate 78 pressurizes the pressure-pressure plate 74 rotated upwards by a predetermined angle in the opposite direction, so that the gas outlet 73 can be automatically closed when the pressure of the compartment drops. . Thus, the gas discharge device 70 according to the present embodiment is not only to prevent the operator from being injured by the pressure plate to be scattered because the pressure plate 74 is rotated in a state where the flashover accident occurs, It is possible to limit the ejection direction of the high-pressure gas or flame in accordance with the installation direction of the pressure plate 74 can prevent the occurrence of human accident.

As described above, the present invention installs a vertical partition 12 in the center of one closed power panel 10 and divides the interior space into two compartments 20a, 20b, 40a, 40b, and the compartment 20b. A horizontal barrier rib 13 and an inclined barrier rib 14 are installed inside the to form a transformer compartment 20c having a predetermined size, and the predetermined horizontal barrier 51 and the inclined barrier rib 52 are disposed in the compartment 20a. By installing the control compartment 50 of a predetermined size on the front side of the closed power panel 10 by installing orthogonal to the inside of each of the (40a) to prevent the occurrence of flashover accident by spatially separating and electrically shielding a plurality of compartments. .

That is, in the closed power panel 10, buses and cables for monitoring or controlling various display devices are concentrated, and insulation protection measures between the high voltage circuit and the control circuit or the arc are sufficiently provided. When this deteriorated or unexpected surge current enters the controller or switchgear of the power panel, a continuous arc occurs to short the insulator, causing a flashover voltage, which causes the controller to break down and cause an explosion accident.

Accordingly, the closed power board 10 according to the present invention not only lowers the possibility of flashover accident by separating a plurality of compartments through a plurality of vertical or horizontal bulkheads, but also has a different impact when an accident occurs in a neighboring compartment. It prevents the high pressure gas generated in one of the compartments from diffusing into the special high pressure plate.

In addition, the closed power panel 10 according to the present invention by treating the bus bar with an insulating tube or epoxy powder coating excellent in insulation and flame retardancy, by using a partition wall made of a ground metal to shorten the separation distance between phases and maintain the mechanical strength Its size can be minimized. For example, in a special high voltage plate receiving a special high voltage of 22,900 V, when a high voltage bus bar approaches a predetermined distance, flashover occurs while emitting light. Accordingly, IEC (International Electrotechnical Commission) and KEMC (Korea Electric Industry Cooperative) stipulate to keep the distance between phases and the ground more than a certain distance (210 ~ 230mm).

Accordingly, the conventional closed power board has a problem that the closed power board is inevitably large in order to satisfy the separation distance between phases. For example, the conventional extra high pressure plate comprised of the two-side closed power board has the size of length 2000mm, width 2500mm, and height 2550mm. However, when using the closed power board 10 according to the present invention, the size of the closed power board can be greatly reduced to 2000mm in length, 1800mm in width and 2350mm in height.

Meanwhile, two conductors spaced apart by a predetermined distance generate an arc discharge when a voltage greater than a flashover voltage (FOV) is applied. This flashover voltage is lowered when the air contains a lot of moisture or contaminants. As such, when the flashover voltage is lowered, the separation distance between the two conductors must be greater, which inevitably increases the closed power board. Therefore, to reduce the size of the closed cabinet, it is necessary to remove moisture or contaminants in the air. To this end, the closed power board 10 according to the present invention is installed a device for removing moisture and contaminants 30 in the interior of the compartment.

10 is a perspective view showing the moisture and contaminant removing apparatus according to the present invention, Figure 11 is a plan view of the moisture and contaminant removing apparatus according to the present invention, Figure 12 is an exploded perspective view of the moisture and contaminant removing apparatus according to the present invention to be. As shown, the moisture and contaminant removal device 30 is largely the main body 31 and the main body cover 32, and the power supply unit 33, the thermoelectric element 34, the thermoelectric installed in the main body 31 A heat absorbing plate 35 attached to the heat absorbing portion of the element 34, a heat sink 36 attached to the heat radiating portion of the thermoelectric element 34, an induction fin 37 for inducing air flow, and the heat absorbing plate 35. It is composed of a collecting unit 38 and a sensor unit for collecting the condensed water condensed in the).

The heat absorbing plate 35 attached to the heat absorbing surface of the thermoelectric element 34 cools the air to remove moisture. A plurality of fins are formed in the heat absorbing plate 35 in parallel in the front-rear direction. In addition, the heat dissipation plate 36 attached to the bottom heating surface of the thermoelectric element 34 dissipates heat. Therefore, the heat generated from the heat dissipation surface is discharged to the outside by the heat conduction of the heat dissipation plate 36. And the air discharged to the outside through the heat sink 36 is heated. On the other hand, the water collecting port 38 installed on the air inlet side of the thermoelectric element 34 removes contaminants contained in the external air introduced from the air inlet in accordance with the operation of the induction fan 37. And the condensate is discharged to the outside through the collecting portion 38. At this time, the condensate is discharged together with the dust and the like contained in the air to clean the air inside the panel. Subsequently, the air dried by the heat absorbing plate 35 increases in temperature while passing through the heat sink 36 and the power supply unit 33, and is discharged into the closed power board through the air outlet.

On the other hand, the closed power board 10 according to the present invention is partitioned into a plurality of compartments by a plurality of partitions. Therefore, in order to smoothly remove moisture and contaminants in each compartment by using the moisture and contaminant removing device 30, a plurality of air passages must be formed in the partition to allow air circulation. That is, a plurality of air circulation holes 56 are formed in the partition wall, and the air circulation hole 56 is formed as small as possible so that the partition wall can maintain the space and the electrical shielding function.

As such, when the size of the air circulation hole 56 is limited, the flow of air is not smooth. In consideration of this point, in the case of forming a larger size air circulation hole 56, as shown in Fig. 13, a predetermined valve body 60 is provided in the air circulation hole 56. The valve body 60 includes a valve body 67 having a size capable of closing the air circulation hole 56, a pressure plate 67 integrally formed at both ends of the valve body 67, and the valve. It is composed of two pressing springs 66 installed between the main body 67 and the pressing plate 67 to maintain a balance. Therefore, the valve body 67 opens the air circulation hole 56 in a steady state where the two pressure springs 66 are in balance. However, when the internal pressure of the one compartment is instantaneously increased, the balance between the two pressure springs 66 is broken by the pressure applied to the one pressure plate 67 and the one pressure spring 66 is compressed to the air circulation hole ( 56). Accordingly, the valve body 60 blocks the gas or flame of high pressure generated in the neighboring compartment from flowing through the air circulation hole 56.

As described above, the super-integrated closed power panel according to the present invention is divided into two or more compartments by using a partition having a protection level, but the compartment discharges gas of high temperature and high pressure generated therein to the outside. By installing drainage devices, accidents in any compartment are prevented from spreading to the entire closed cabinet.

As described above, the super integrated closed power panel according to the present invention has the effect of being able to be installed in an electric chamber of a small area by reducing the number of closed power panels to two.

In addition, the present invention, by installing a vertical bulkhead in each closed power panel and partitioned into a plurality of compartments, by installing at least one gas outlet communicating with each compartment by the high temperature and high pressure gas or steam in the event of an accident quickly By discharging, it is possible to prevent the high-temperature, high-pressure gas or steam generated in one closed power panel in the event of a power system failure or accident, spreading sequentially throughout the special high pressure plate.

The present invention also provides a plurality of bushings in the horizontal or vertical bulkheads installed inside the closed cabinet, to electrically connect the busbars of neighboring compartments, as well as to shorten the separation distance between phases by using the partition wall made of a ground metal plate. Moisture and pollutant removal device is installed inside the compartment to increase the flashover voltage to prevent flashover accidents and minimize the size of the closed power board.

The present invention also provides an insulating tube or an epoxy powder having excellent insulation and flame retardancy while increasing the flashover voltage by installing moisture and contaminant removal devices inside each closed panel to remove moisture and contaminants therein. Coating treatment prevents flashover accidents.

1 is a disconnection diagram showing a general male switchgear;

Figure 2 is a schematic perspective view showing an example of the extra high platen according to the prior art,

Figure 3 is a disconnection diagram showing the structure of the most integrated closed switchboard according to the present invention composed of two closed switchboards,

4 is a perspective view showing a super integrated closed power board according to the present invention;

5 and 6 are side cross-sectional views showing a power receiving unit of the super integrated closed power panel according to the present invention;

Figure 7 is a side cross-sectional view showing a breaker unit of the super integrated closed power panel according to the present invention,

8 is a partially enlarged cross-sectional view showing an example of a gas discharge device according to the present invention;

9 is a partially enlarged cross-sectional view showing another embodiment of a gas discharge device according to the present invention;

10 is a perspective view showing the moisture and contaminant removing apparatus according to the present invention,

11 is a plan view of the moisture and dirt removal apparatus according to the present invention,

12 is an exploded perspective view of a moisture and contaminant removing device according to the present invention;

13 is a partially enlarged cross-sectional view showing a horizontal partition wall in which an air circulation hole and a valve body are installed according to the present invention.

*** Description of the symbols for the main parts of the drawings ***

3: super integrated closed power board 10: closed power board

12: vertical bulkhead 13: horizontal bulkhead

14: inclined bulkhead 20: power receiving unit

20a: first faucet compartment 20b: second faucet compartment

20c: transformer compartment 26: horizontal bushing

27: first bus bar 30: moisture and contaminant removal device

40: breaker unit 40a: first breaker compartment

40b: 2nd breaker compartment 40c: Power side bus compartment

44: power side bushing 45: load side bushing

50: control compartment 56: air circulation hole

60: valve body 70: gas discharge device

Claims (10)

 In a closed power panel consisting of a power receiving unit and a blocking unit, A vertical partition having a protection level is installed inside the power receiving unit to divide the first faucet compartment and the second faucet compartment, and the first faucet compartment includes a load breaker, an arrester, and a power fuse so as to be located at one side of the vertical partition. It is installed up and down in the second faucet compartment, and is installed on the inner side of the closed faucet so that the transformer transformer and the voltage transformer are located in the second faucet compartment, and the first bus bar and the second faucet of the first faucet compartment at the lower end of the vertical partition wall. Install a plurality of horizontal bushings electrically connecting the second bus bar of the compartment; Install a vertical partition having a protection level inside the circuit breaker unit to divide into a first circuit breaker compartment and a second circuit breaker compartment, the circuit breaker is installed on one side of the vertical partition wall in the first circuit breaker compartment, the second circuit breaker compartment And a power supply side bushing for connecting the power supply side bus line connected to the power supply side of the breaker to the vertical bulkhead of the second breaker compartment, respectively, so that the instrument current transformer and the surge upserver are located. And a load side bushing for connecting a load side bus bar to be connected to the horizontal passage. The method of claim 1, The second faucet compartment is divided up and down by a predetermined horizontal partition and an inclined partition wall to form a transformer compartment of a predetermined size, and the voltage transformer is installed perpendicular to the inclined partition wall to sufficiently secure an interval between phases. Super Integrated Closed Power Board. The method of claim 1, The second circuit breaker compartment is divided into a rectangular power side bus compartment by a predetermined horizontal bulkhead and a vertical bulkhead, and the power side bus compartment has a plurality of power side buses, a plurality of insulators fixing the power side buses, and a power side of the breaker. And a power supply side bushing for connecting a power supply busbar connected to the power supply bus, and a load side bushing for connecting a load side busbar connected to the load side of the circuit breaker in a horizontal direction. The method of claim 1, The inside of the power receiving unit and the circuit breaker unit, the super integrated closed power panel, characterized in that the control compartment of a predetermined size is partitioned by a predetermined horizontal partition and vertical partition. The method according to claim 1, 2 or 3,  And a gas discharge device is installed to communicate with the first power receiving compartment, the transformer compartment, the first circuit breaker compartment, the second circuit breaker compartment, and the main bus compartment. The method of claim 5, The gas discharge device comprises a gas discharge port having a predetermined size formed to communicate with each compartment, a pressure plate having a size capable of closing the gas discharge port, and a plastic bolt for fixing the pressure plate to the upper plate of the closed power panel. When the pressure inside the compartment increases more than a certain amount, the plastic bolt is broken by the internal pressure, so that the pressure plate is released to the outside and quickly discharges the high pressure gas in the compartment to the outside. The method of claim 5, The gas discharge device includes a gas discharge port having a predetermined size formed to communicate with each compartment, a high pressure gas induction frame installed vertically along the periphery of the gas discharge port, and a pressure discharge plate having a size capable of closing an upper end of the induction frame. And a hinge installed at one side of the induction frame to rotatably support the pressure plate, and an elastic plate having a predetermined length integrally fixed to an outer end of the pressure plate installed on the gas outlet. In addition, the pressure plate is not completely released by the high pressure gas emitted when a flashover accident occurs, and also limits the rotation angle of the pressure plate. When the pressure inside the compartment drops, the pressure plate is pressed to the opposite side to automatically open the gas outlet. Super integrated closed power board, characterized in that for closing. The method of claim 1, Inside the power receiving unit and the circuit breaker unit, the air is cooled using a heat absorbing plate installed on the heat absorbing surface of the thermoelectric element to remove moisture, and the air cooled by using the heat generating plate installed on the heat generating surface of the thermoelectric element is heated. The super integrated closed water panel, characterized in that the moisture and contaminant removal device for removing the contaminants contained in the air by using the condensate generated in the heat absorbing plate is further installed. The method according to claim 1 or 9, In the vertical partition wall of the power receiving unit and the circuit breaker unit, an air circulation hole having a predetermined size is formed for air circulation, and a predetermined valve body is installed in the air circulation hole to open and close the air circulation hole by the pressure difference between the two compartments. Super integrated closed power panel, characterized in that. The method of claim 9, The valve body comprises a valve body having a size capable of closing the air circulation hole, a pressure plate integrally formed at both ends of the valve body, and two pressure springs installed between the valve body and the pressure plate to maintain balance. Super integrated closed power panel, characterized in that.