KR101230072B1 - Power receiving and distributing panel - Google Patents

Abstract

PURPOSE: A reception and distribution board is provided to reduce a pressure loss in a heat discharge process by forming a floating guide surface in an induction member. CONSTITUTION: A pair of lateral plates(20) are mounted on both sides of a bottom plate(10). A roof plate(30) is mounted between the upper sides of the lateral plates. A pair of doors(40) are formed on the front and rear of the bottom plate to be opened or closed. A discharge guide unit(50) sharply protrudes between the doors in a downward direction. A discharge hole(51) is formed between the upper side of the door and the bottom side of the roof plate. A discharge promoting unit(60) is installed between the upper side of the door and one side of the roof plate.

Description

{POWER RECEIVING AND DISTRIBUTING PANEL}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a power transmission and distribution system, and more particularly, to a power transmission and distribution system that can smoothly and stably discharge heat inside a casing regardless of the flow force of air outside the casing.

Generally, the switchgear is an electric facility that supplies industrial power to the users safely. It is used to monitor, control and protect the electric system when the power sent from the power plant or substation is distributed to the customer (mainly high pressure customer) Lt; / RTI >

Such a switchboard is composed of a structure for attaching and supporting unit electric devices such as a breaker or a protective relay transformer and a collection of conductors (busbar, cable, etc.) connecting and connecting the unit electric devices. It is a product that is insulated and stored securely in a square metal enclosure.

Such switchgear is a device that puts and manages switches, instruments, relays, etc. for the operation or control of power plants and substations, and the operation of electric motors, and is an outdoor switchgear installed in streets, schools, buildings, apartment complexes, It is composed of indoor switchgear that distributes and controls the power supplied from outside to group electric power demands such as factories, etc. to protect human life and facilities, and through the bus-bar connected to parking breakers and multiple auxiliary breakers It performs the function of opening and closing the power supply while supplying power to each element.

The enclosure of such a switchboard is mainly made in the shape of an empty rectangular parallelepiped, and doors are installed on the front or back, or on both the front and back sides. Various electric devices installed in the inside of the casing are mainly transformers and circuit boards, and the heat is generated by itself. Therefore, the service life of the electric devices depends on the temperature inside the casing. For example, when the temperature outside the enclosure is 40 占 폚, the temperature inside the enclosure rises by 10 占 폚 or more due to the heat of the electric appliance.

Typically, the transformer, which is an electrical device used in the switchgear, generates heat at a temperature of 55 ° C. When the transformer is heated to 63 ° C, which is the temperature at which the transformer at 55 ° C is elevated by 8 ° C, The "8 DEG C half-power law ", which is half the year, is well known in the art.

A number of techniques have been developed to prevent the internal temperature of the enclosure due to self-heating of the electrical equipment such as a transformer installed inside the switchboard from increasing, thereby preventing the reduction of the life of the electrical equipment such as a transformer. Technology that can lower the internal temperature of the enclosure by at least 12 ° C, for example, to 51 ° C in case of 63 ° C by natural ventilation, that is, by 8 ° C half- received.

As described above, Korean Applicant Patent No. 0917379 entitled “Arrangement Cubicle and Transformer Enclosure for Distribution” (2009. 09. 08), which the applicant has already applied for and registered a patent, shows its configuration and operation relationship. The explanation is as follows.

As shown in FIG. 5 and FIG. 6, the conventional switchgear is composed of a housing and an electric device (T) installed inside the housing. The enclosure includes a bottom plate 100, a pair of side plates 200 mounted on both sides of the bottom plate 100, a roof plate 300 mounted between the tops of the side plates 200, A pair of doors 400 installed on the front and rear sides of the bottom plate 100 so as to be openable and closable between the door 200 and the bottom plate 100, A discharge guide part 500 symmetrically formed so as to protrude in a downward direction between the doors 400 while being inclined with respect to the door 400; And an exhaust hole 501 formed between the upper end and the lower surface of the roof plate 300.

The housing of the conventional switchgear constructed as above is normally heated up to the lower surface of the roof plate 300 when the electric appliance T which is a transformer is operated and heat is generated in the housing due to the generation of heat And then the heat is guided toward the upper side of the door 400 while being in contact with the discharge guide portion 500 and discharged naturally through the discharge hole 501.

That is, the heat generated inside the housing by the electric device T is moved to the discharge guide part 500 by the upward force of the heat itself, and the discharged heat is discharged by the discharge guide part 500 Is guided to the discharge hole (501) and is naturally discharged to the outside of the housing through the discharge hole (501), thereby preventing a temperature rise inside the housing through natural discharge without a separate discharge device.

However, the above-described conventional techniques have the following problems.

When a natural wind such as a wind generated on the exterior of a housing of a conventional switchboard is flowed or flows toward the discharge hole formed to communicate with the inside and the outside of the housing, There is a problem that heat is not properly discharged through the discharge hole when the flow force of the air outside the housing is larger than that of the case.

Therefore, it is urgently required to develop a technique for smoothly discharging the heat through the discharge hole regardless of the flow force of air outside the enclosure.

Registered Korean Patent No. 0917379 "Cubicle and Transformer Enclosure for Arrangement" (Ilsin Electric Co., Ltd., 2009. 09. 08)

Accordingly, in order to solve the above-mentioned problems of the related art, the present invention is an improvement of Korean Patent No. 0917379 entitled " Exclusive cubicle and transformer enclosure "

SUMMARY OF THE INVENTION An object of the present invention is to provide a switchgear having a simple structure so as to smoothly and stably discharge heat inside an enclosure regardless of the flow force of air outside the enclosure.

In addition, another object of the present invention is to provide a switchgear panel for forming a discharge guide surface so that the discharge of heat through the discharge hole is made more smooth and stable.

In addition, another object of the present invention is to provide a water distributing panel to form a flow guide surface inside the induction member to reduce the pressure loss during the discharge of the heat to ensure a stable flow of the heat through the induction member.

In order to achieve the above object, the "distribution panel" according to the present invention is composed of a housing and an electric device installed inside the housing, the housing being a bottom plate and a pair mounted on both sides of the bottom plate. A pair of doors provided between the side plate of the side plate, the roof plate mounted between the upper end of the side plate, a pair of doors which are installed to be opened and closed between the side plate in the front and the rear plate, and the lower surface of the roof plate corresponding to the door. A discharge guide part symmetrically formed so as to protrude sharply downward between the doors while being inclined upwardly, and between an upper end of the door and a lower surface of the roof plate such that heat guided by the discharge guide parts is discharged; In the switchgear including a discharge hole is formed, which is installed between the upper end of the door and one side of the roof plate corresponding to the discharge hole, To the outside air portion, while the block is introduced into the housing to promote discharge to promote the discharge of the heat of the interior of the enclosure through the outlet hole; .

In addition, the discharge promotion portion of the "distribution panel" according to the present invention, is mounted between the upper end of the door and the side of the roof plate, bent in a transitory shape so that the lower end obscure the discharge hole and the upper end is located on the upper surface of the roof plate The guide member is formed to be hollow and the inside, the outside air inlet formed on the outer surface of the induction member to the top of the door so that outside air flows into the outer surface of the induction member, and is located relatively higher than the outside air inlet hole Hot air inlet is formed on the inner surface of the guide member in communication with the lower surface of the discharge guide portion so that the hot air flows into the guide member, and the roof plate on the top of the guide member so that the outside air and heat introduced into the guide member is discharged It characterized in that it comprises a discharge hole, formed horizontally toward the upper surface of the.

In addition, the discharge promotion portion of the "switch panel" according to the present invention, characterized in that it further comprises a discharge guide surface formed at the end of the guide member to the top of the discharge hole so that the inlet of the discharge hole is formed relatively narrow do.

In addition, the discharge promotion portion of the "water switchgear" according to the present invention, further comprising a flow guide surface which is formed to be inclined on the outside of the bent portion of the induction member to facilitate the flow of air in the bent portion of the induction member, It features.

As described above, the present invention has a simple structure and is easy to manufacture and install, and regardless of the flow force of the air outside the enclosure, the exhaust of the heat inside the enclosure is made smooth and stable, and accordingly the heat inside the enclosure There is an effect that the reduction in the life of the electrical equipment by the source is prevented.

In addition, the present invention has the effect that the discharge guide surface is formed to discharge the heat through the discharge hole more smoothly and stably.

In addition, the present invention has the effect that the pressure loss is reduced during the discharge of the heat by forming a flow guide surface inside the guide member, the heat flow is stable through the guide member.

1 is a perspective view of a switchgear according to the present invention;
2 is a schematic longitudinal sectional view of a switchgear according to the present invention;
3 is an enlarged view of a portion A of FIG. 2;
4 is an enlarged view of a portion B of FIG. 2, FIG.
5 is a perspective view showing a conventional switchgear,
Figure 6 is a schematic longitudinal cross-sectional view showing a conventional switchgear.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that the invention can be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

1 is a perspective view of a switchgear according to the present invention, FIG. 2 is a schematic longitudinal cross-sectional view of a switchgear according to the present invention, FIG. 3 is an enlarged view of a portion A of FIG. 2, and FIG. 4 is an enlarged view of a portion B of FIG. 2. It is also.

As shown in the figure, the switchboard according to the present invention comprises a housing and an electric device (T) installed inside the housing.

The housing includes a bottom plate 10, a pair of side plates 20 mounted on both sides of the bottom plate 10, a roof plate 30 mounted between an upper end of the side plate 20, and the side plate. A pair of doors 40 which are installed to be opened and closed between the bottom plate 10 in front and rear of the bottom plate 10, and a lower surface of the roof plate 30 in the upper direction corresponding to the door 40. The discharge guide 50 is formed symmetrically so as to protrude sharply downward between the door 40 while being inclined, and the heat guided by the discharge guide 50 is discharged. And a discharge hole 51 formed between an upper end and a lower surface of the roof plate 30, and an discharge promotion unit 60 disposed between the upper end of the door 40 and one side of the finger plate.

The bottom plate 10, the side plate 20, the roof plate 30, and the door 40 form the enclosure of an empty rectangular parallelepiped, and thus, a description thereof is omitted. do.

The discharge guide unit 50 guides the heat generated in the interior of the enclosure by the electric device (T) to the discharge hole 51 to be naturally discharged to the outside through the discharge hole 51. will be.

The discharge promotion unit 60 is installed between the upper end of the door 40 and one side of the roof plate 30 corresponding to the discharge hole 51, the outside air through the discharge hole 51 Blocking the inflow of the interior of the enclosure serves to promote the discharge of heat inside the enclosure through the discharge hole (51).

The discharge promotion unit 60 having such a role is mounted between the upper end of the door 40 and the side surface of the roof plate 30, and the lower end covers the discharge hole 51 and the upper end of the roof plate 30. The guide member 61 is formed to be bent in the shape of a lifter so as to be located on the upper surface of the) and the outside air inlet hole 62 formed on the outer surface of the guide member 61 to the upper end of the door 40 and Hot air inlet (63) and the induction member (61), which are located relatively higher than the outside air inlet (62) and are formed on the inner surface of the induction member (61) so as to communicate with the bottom surface of the discharge guide (50). The discharge hole 64 is formed horizontally toward the upper surface of the roof plate 30 at the top.

The induction member 61 is formed to be bent in the shape of a manipulator serves to block the discharge hole 51 and the outside air and heat introduced into the lower end of the induction member 61 to the upper surface of the roof plate 30 It acts as an induction furnace.

The outside air inlet 62 serves as a passage through which the outside air flowing toward the outside of the door 40 and the outside of the induction member 61, that is, natural wind or wind flows into the inside of the induction member 61. do.

The hot air inlet 63 is formed in the discharge hole 51 and serves as a passage through which heat that rises along the discharge guide unit 50 into the interior of the enclosure is introduced into the induction member 61. do. The discharge hole 64 serves as a passage through which outside air and heat introduced into the induction member 61 are discharged to the outside of the induction member 61.

The discharge promotion part 60 further includes a discharge guide surface 65 formed at an end of the guide member 61 toward the top of the discharge hole 64. The discharge guide surface 65 allows the inlet of the discharge hole 64 to be formed relatively narrow to generate a venturi tube phenomenon in the discharge hole 64 so that the air inside the induction member 61 is discharged to the discharge hole ( 64) so that it can be discharged quickly.

The discharge promotion part 60 further includes a flow guide surface 66 which is formed to be inclined on the outside of the bent portion of the induction member 61. The flow guide surface 66 is to facilitate the flow of air at the bent portion of the guide member (61).

Hereinafter, the heat exhaust operation state of the switchboard according to the present invention will be described.

First, when there is no flow of outside air, that is, when the wind is not blown out of the enclosure, the heat guided through the discharge guide unit 50 is introduced through the hot air inlet (63) and the induction member (61). It is naturally discharged to the discharge hole 64 through the interior of the.

On the contrary, as shown in FIG. 3 and FIG. 4, when there is a flow of outside air to the outside of the enclosure, that is, when the wind blows out of the outside of the enclosure, the outside air is guided through the outside air inlet 62. After flowing into the inside of the 61, it is discharged through the discharge hole 64 after rising along the guide member 61.

At this time, the outside air passing through the induction member 61 makes the pressure inside the induction member 61 instantaneously lower than the inside of the enclosure, whereby the high pressure air in the interior of the enclosure The hot air inflow hole (63) is introduced into the inside of the induction member (61) and is discharged to the outside through the discharge hole (64) through the induction member (61) together with the outside air ("Bernui's theorem") Based).

Therefore, as the flow force of the outside air introduced into the induction member 61 through the outside air inlet 62 is greater, the air flows into the hot air inlet 63 and is discharged as if the air inside the enclosure is strongly sucked. It is discharged to the outside of the guide member 61 through the ball 64, the heat inside the enclosure is discharged together with the suction and discharge of the air inside the enclosure.

As a result, regardless of whether the flow force of the air to the outside of the enclosure is large or small, the heat exchange inside the enclosure properly discharges the heat inside the enclosure together with the air inside to keep the temperature inside the enclosure low It is a useful invention to make.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is clear that the present invention can be suitably modified and applied in the same manner. Therefore, the above description does not limit the scope of the present invention, which is defined by the limitations of the following claims.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention.

10: bottom plate
20: shroud
30: shingles
40: door
50: discharge guide
51: discharge hole
60: discharge promotion unit
61: guide member 62: outside air inlet
63: hot air inlet hole 64: discharge hole
65: discharge guide surface 66: flow guide surface
T: Electrical equipment

Claims (4)

Comprising a housing, an electrical device (T) installed inside the housing, the housing is a bottom plate 10, a pair of side plates 20 mounted on both sides of the bottom plate 10, and A roof plate 30 mounted between the upper ends of the side plates 20, a pair of doors 40 which are installed to be opened and closed between the side plates 20 in front and rear of the bottom plate 10, and the A discharge guide part 50 symmetrically formed so as to protrude sharply in a downward direction between the doors 40 while inclining upwardly corresponding to the door 40 toward the lower surface of the roof plate 30, and the discharge In the switchgear comprising a discharge hole 51 formed between the upper end of the door 40 and the lower surface of the roof plate 30 so that the heat guided by the guide unit 50 is discharged,
Corresponding to the discharge hole 51 is installed between the upper end of the door 40 and one side of the roof plate 30, while blocking the outside air flowing into the interior of the enclosure through the discharge hole 51 A discharge promoting part 60 for promoting discharge of the heat inside the enclosure through the discharge hole 51; Including,
The discharge promotion unit 60,
It is mounted between the upper end of the door 40 and the side of the roof plate 30 and the lower end is bent in a cross-shaped shape so as to cover the discharge hole 51 and the upper end is located on the upper surface of the roof plate 30 Induction member 61 and the hollow inside,
An outside air inlet hole 62 formed on an outer surface of the induction member 61 toward an upper end of the door 40 so that outside air flows into the outer surface of the induction member 61;
It is formed on the inner surface of the induction member 61 so as to be relatively higher than the outside air inlet hole 62 and communicate with the lower surface of the discharge guide portion 50 so that the heat of the enclosure flows into the induction member 61. Hot air inlet (63),
The discharge hole 64 is formed horizontally toward the upper surface of the roof plate 30 on the upper end of the guide member 61 so that outside air and heat introduced into the guide member 61 is discharged.
Wherein the switchgear comprises a switchgear.
The method of claim 1,
The discharge promotion unit 60,
The discharge guide surface 65 formed at the end of the guide member 61 toward the upper end of the discharge hole 64 so that the inlet of the discharge hole 64 is formed relatively narrow,
Further comprising:
The method according to claim 1 or 2,
The discharge promotion unit 60,
Flow guide surface 66 is formed to be inclined on the outside of the bent portion of the guide member 61 so that the flow of air in the bent portion of the guide member 61,
Further comprising: delete

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