KR200461565Y1 - Distributing Board with Cooling Unit for Transformer Box - Google Patents

Abstract

The present invention relates to a switchgear installation equipped with a transformer cooling device, by cooling the internal space of the transformer installation case in a manner that circulates the outside air in the space inside the equipment installation case for the transformer installed inside the chamber chamber, By enabling stable operation and supplying outside air to the inner space of the transformer case through the air supply duct module at a plurality of points, more uniform cooling of the entire inner space of the transformer case is possible. As a result, the cooling efficiency is further improved, and by controlling the operating conditions of the air supply unit and the exhaust unit according to the temperature of the outside air, the temperature of the air inside the chamber chamber and the temperature of the air inside the equipment case for the transformer, the cooling of the optimum state according to the environment The transformer cooling system It provides bidoen switchgear equipment.

Description

Distribution board equipment with transformer cooling device {Distributing Board with Cooling Unit for Transformer Box}

The present invention relates to a switchgear facility equipped with a transformer cooling device. More specifically, by cooling the inner space of the transformer case in such a way that the outside air is circulated in the inner space of the transformer case installed inside the electrical chamber chamber, it is possible to ensure stable operation of the transformer and the entire apparatus, and to supply the air supply duct module. By supplying the outside air to the inner space of the transformer case through a plurality of points, cooling of the entire inner space of the transformer case can be performed more uniformly, and thus the cooling efficiency is further improved. A transformer cooling device is provided to control the operation of the air supply unit and the exhaust unit according to the temperature of the air chamber, the temperature of the air inside the chamber, and the temperature of the air inside the transformer case. The switchgear installation is related.

In general, factories, buildings, hospitals, APT complexes, and various industrial facilities use three-phase AC power, which requires a large amount of power. Thousands of volts (V) of alternating voltage supplied from power plants through power transmission lines are supplied through transformers. A switchgear is provided for decompressing with an alternating voltage of volts (V) and supplying the decompressed alternating voltage to each facility of the factory.

Such switchgear is installed in the place where electric power is needed and operated to safely use the electric facilities by converting the extra high voltage electricity supplied from the power supply source into low voltage and rated capacity that meets the rating of various equipment and equipment actually used. The device to control and monitor.

The switchgear is equipped with various parts for operation, control and monitoring of the supplied electricity including a circuit breaker inside the case. When various parts are operated, very high heat is generated inside the switchgear, which causes deterioration of various devices. Will cause damage.

In particular, among the various devices installed in the switchgear, the heat generation amount of the transformer is large, and a cooling device is required for this. However, the general switchgear according to the prior art is a situation in which a device for cooling such a transformer is very insufficient.

In general, air conditioning equipment or a cooling fan is installed in the switchgear as a means for cooling the transformer. However, in the case of the air conditioning equipment, in addition to an increase in installation cost, additional energy consumption for operating the air conditioning equipment is caused. It is not preferable, and in the case of the air circulation system through the cooling fan, since it is simply configured to circulate the air inside the switchgear, there is a problem such that the cooling efficiency is significantly reduced when it is operated for a long time.

The present invention is designed to solve the problems of the prior art, the object of the present invention is to cool the space inside the transformer installation case by circulating outside air in the space inside the installation case for transformer installed inside the chamber chamber, It is to provide a switchgear facility that enables the stable operation of the transformer and the entire device.

Another object of the present invention is to provide a more uniform way of cooling the entire interior space of the transformer installation case by supplying the outside air at a plurality of points to the interior space of the transformer installation case through the air supply duct module, Accordingly, to provide a switchgear facility in which the cooling efficiency is further improved.

Another object of the present invention is to configure the air supply duct module in the form of surrounding the outer surface of the transformer installation case, by blocking the heat generated inside the transformer installation case to prevent the heat spread to the chamber chamber space more stable It is to provide a switchgear facility having a structure.

Another object of the present invention is to control the operating state of the air supply unit and the exhaust unit according to the temperature of the outside air, the temperature of the air inside the chamber chamber and the temperature of the air inside the equipment case for the transformer, thereby providing the optimum cooling performance according to the environment. It is to provide a switchgear facility that can be used.

The above objects and various advantages of the present invention will become more apparent from the preferred embodiments of the present invention by those skilled in the art.

The present invention, the electric chamber chamber is formed to be separated from the outside; A transformer installation case installed inside the electric chamber chamber and having a transformer disposed in an inner space; An air supply unit supplying outside air to an inner space of an inner space of the transformer case; An exhaust unit for discharging internal air to the outside from an upper portion of an inner space of the transformer case; And a control unit controlling an operation state of the air supply unit and the exhaust unit. It includes, and provides a switchgear equipped with a transformer cooling device characterized in that for cooling the internal space of the transformer installation case by the air supply unit and the exhaust unit.

At this time, the air supply unit, the air supply duct module is installed so that the outside air flows into the internal space of the transformer installation case from the outside of the chamber chamber; And an air supply blower fan configured to introduce external air through the air supply duct module. The air supply duct module includes an inlet duct through which external air is introduced, a flow duct extending from the inlet duct, and a supply duct branched into a plurality of branches from the flow duct and extending to a lower portion of the transformer case. In addition, the supply duct may be formed with a plurality of air outlets so that air can be supplied to the internal space of the transformer installation case at a plurality of points.

In addition, the air supply duct module is formed to communicate with the indoor circulation duct on one side of the inlet duct so that the air inside the chamber chamber, the circulation to operate to introduce the air inside the chamber chamber through the indoor circulation duct Blowing fan may be further provided.

The exhaust unit may further include an exhaust duct having one end connected to an upper portion of an inner space of the transformer case and the other end connected to an outside of the chamber chamber; And an exhaust blower fan operable to exhaust the air inside the transformer installation case through the exhaust duct. As shown in FIG.

The control unit may control the operation state of the air supply fan, the circulation fan, and the exhaust fan according to temperature or humidity of the outside air, the air inside the chamber chamber, and the air inside the transformer case.

In addition, the inside of the inlet duct may be equipped with a filtration filter to be filtered in the process of the outside air and the air inside the chamber chamber.

According to the present invention, by cooling the internal space of the transformer installation case in a manner that circulates the outside air in the space inside the equipment installation case for the transformer installed in the chamber, there is an effect that enables the stable operation of the transformer and the entire device.

In addition, the air supply duct module allows external air to be supplied to the inner space of the transformer case at a plurality of points, thereby allowing more uniform cooling of the entire inner space of the transformer case. The effect is further improved.

In addition, by configuring the air supply duct module to surround the outer surface of the transformer installation case, by blocking the heat generated inside the transformer installation case to prevent the heat to diffuse into the chamber chamber space has a more stable effect have.

In addition, by controlling the operating state of the air supply unit and the exhaust unit according to the temperature of the outside air, the temperature of the air inside the chamber chamber and the temperature of the air inside the equipment case for transformers, it is possible to achieve the optimal cooling performance according to the environment There is.

1 is a conceptual diagram conceptually showing the configuration of a switchgear facility equipped with a transformer cooling device according to an embodiment of the present invention,
Figure 2 is a perspective view schematically showing the internal configuration of the switchgear installation equipped with a transformer cooling device according to an embodiment of the present invention,
3 is a block diagram schematically illustrating a control-related configuration of a switchgear facility equipped with a transformer cooling device according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a conceptual diagram conceptually showing a configuration of a switchgear facility equipped with a transformer cooling device according to an embodiment of the present invention, Figure 2 is an interior of a switchgear facility equipped with a transformer cooling device according to an embodiment of the present invention 3 is a perspective view schematically illustrating a configuration, and FIG. 3 is a block diagram schematically illustrating a control related configuration of a switchgear facility having a transformer cooling device according to an embodiment of the present invention.

Switchgear facility according to an embodiment of the present invention is a facility equipped with a cooling device for cooling the transformer, the electrical chamber chamber 100, the transformer case 200, the air supply unit 300, the exhaust unit 400 And a control unit 600.

The electrical chamber chamber 100 is configured to form an internal space of the entire switchgear facility, and is formed to be separated from the outside by the outer wall 101, and the entire configuration of the switchgear facility may be arranged inside the chamber room 100. Can be. For example, a plurality of equipment cases on which various components such as transformer equipment cases or control equipment equipment cases are mounted are disposed in the electrical chamber chamber 100.

The transformer installation case 200 is installed in the electric chamber chamber 100, and the transformer 210 is disposed in the internal space. At this time, the transformer 210 may be applied to a variety of transformers, the cooling performance according to the present invention can be more usefully used when a power transformer for a relatively high heat generation is applied.

Since the transformer case 210 is disposed inside the transformer case 200, a lot of heat is generated in the internal space, and thus, the transformer 210 or other components of the internal space may be damaged by the deterioration phenomenon. And other components in the chamber chamber 100 may be damaged by heat transfer. The switchgear facility according to the present invention is configured to cool the internal space of the transformer installation case 200.

The air supply unit 300 is configured to supply cool external air to the internal space of the transformer installation case 200, and the exhaust unit 400 is configured to discharge hot internal air of the transformer installation case 200 to the outside. do.

In this case, the air supply unit 300 supplies external air to the lower portion of the inner space of the transformer case 200, and the exhaust unit 400 discharges the internal air to the outside from the upper portion of the inner space of the transformer case 200. Is configured to.

According to this structure, in the inner space of the transformer installation case 200, cold air is supplied to the lower layer by the air supply unit 300, and the supplied cold air is heated to exchange heat with the transformer 210 and rises to the upper layer, The internal air heated through the heat exchange is discharged to the external space through the exhaust unit 400 in the upper layer. Therefore, the switchgear facility according to an embodiment of the present invention can cool the internal space of the transformer case 200 in such an external air circulation system, thereby enabling more stable operation of the transformer and the entire apparatus.

At this time, the air supply unit 300 is an air supply duct module is installed so that the outside air flows into the internal space of the transformer installation case 200 from the outside of the electrical chamber chamber 100, as shown in Figs. 310 and an air supply blower fan 320 that operates to introduce external air through the air supply duct module 310.

The air supply duct module 310 includes an inlet duct 311 which is installed to penetrate the inside and the outside of the electrical chamber chamber 100 so that outside air is introduced, a flow duct 312 extending from the inlet duct 311, and a flow duct 312. It is configured to include a supply duct 313 branched into a plurality of from and extending to the lower portion of the transformer installation case 200, the supply duct 313 to the internal space of the transformer installation case 200 at a plurality of points A plurality of air vents 313a are formed to allow external air to be supplied.

For example, as shown in FIG. 2, a supply duct 313 is formed to branch into two from the flow duct 312, and these two supply ducts 313 are spaced apart from each other, and each supply duct 313 A plurality of vents (313a) may be formed in the).

According to this structure, the outside air flowing into the inlet duct 311 through the air supply fan 320 is distributed to the plurality of supply ducts 313 through the flow duct 312, and flows in each supply duct 313 It is supplied to the lower portion of the inner space of the transformer installation case 200 through a plurality of air vents (313a). Therefore, as shown in FIG. 1 and FIG. 2, since the outside air flows into the inner space of the transformer case 200 at a plurality of points, it is possible to exhibit a uniform cooling function as a whole.

Also,

On the other hand, the air supply duct module 310, the indoor circulation duct 314 is formed in communication with one side of the inlet duct 311 so that the air inside the electrical chamber chamber 100 is introduced, the electrical chamber through the indoor circulation duct 314 A circulating blower fan 330 may be provided to operate the air into the chamber 100.

According to this structure, the air supply unit 300 introduces the outside air of the electric chamber chamber 100 or circulates the air in the electric chamber chamber 100, or both, as necessary, thereby introducing the transformer case 200. The internal space of) can be cooled.

On the other hand, the inside of the inlet duct 311 may be equipped with a filtration filter 700 to be filtered in the process of the outside air and the air inside the electrical chamber chamber 100, through which the foreign matters to remove foreign matters In particular, when the air in the chamber chamber 100 is circulated, the air in the chamber chamber 100 is continuously filtered by the filtration filter 700, so that the foreign matter removal work on the air in the chamber chamber 100 is also performed. It can be done at the same time.

The exhaust unit 400 includes an exhaust duct 410 having one end connected to an upper portion of the inner space of the transformer case 200 and the other end connected to an outer space of the electric chamber 100, and an exhaust duct 410 for the transformer. It is configured to include an exhaust blower fan 420 that operates to discharge the air inside the installation case (200).

Therefore, the air introduced into the lower portion of the internal space of the transformer installation case 200 through the air supply unit 300 cools the internal space of the transformer installation case 200 and is heated and rises, and the raised heating air is exhausted. It is discharged to the outside through (400).

At this time, it is preferable that the air supply fan 320, the circulation fan 330 and the exhaust fan 420 is all controlled by the control unit 600, the control unit 600 is the outside air, the electric chamber chamber 100 Facility case for the internal air and transformer 200 is configured to control the operation state of each blowing fan according to the temperature or humidity for the internal air.

That is, as shown in FIG. 1, the case temperature sensor 510 is mounted inside the facility case 200 for a transformer, and the electric room temperature sensor 520 is mounted inside the electric chamber chamber 100, and the electric chamber chamber 100. Outside air temperature sensor 530 is mounted. The control unit 600 receives the corresponding temperature information from each of the temperature sensors 510, 520, and 530, and controls the operation state of the air supply fan 320, the circulation fan 330, and the exhaust fan 420 according to the temperature information. do. Of course, in addition to the temperature sensor may also be equipped with a humidity sensor, the humidity information by the humidity sensor may be applied to control the operating state of the blower fan.

For example, when the outside air temperature is too low or the humidity is high, when the external air is directly introduced into the internal space of the transformer equipment case 200 in a high temperature state, condensation may occur in the space inside the transformer equipment case 200. Since it may occur, by operating the circulating blower fan 330 to prevent this can be introduced into the air together with the outside air in the chamber chamber 100. In addition, by adjusting the operating state of the exhaust blower fan 420 or the operating conditions of the air supply blower fan 320 and the circulation blower fan 330 according to the internal temperature of the transformer case 200, the transformer case 200 It can be controlled in a variety of ways, such as by adjusting the inflow and outflow of air into the interior space.

The description above is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in this specification are intended to illustrate rather than limit the technical idea of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas falling within the scope of the present invention should be interpreted as being included in the scope of the present invention.

100: electric chamber 200: transformer case
300: air supply unit 310: air supply duct module
311: inlet duct 312: flow duct
313: supply duct 314: indoor circulation duct
320: air supply blower fan 330: circulation blower
400: exhaust unit 410: exhaust duct
420: exhaust fan 510: case temperature sensor
520: electric room temperature sensor 530: outdoor temperature sensor
600: control unit 700: filtration filter

Claims (6)

An electric chamber chamber formed to be separated from the outside;
A transformer installation case installed inside the electric chamber chamber and having a transformer disposed in an inner space;
An air supply unit supplying outside air to an inner space of an inner space of the transformer case;
An exhaust unit for discharging internal air to the outside from an upper portion of an inner space of the transformer case; And
A control unit controlling an operation state of the air supply unit and the exhaust unit; Including,
Cooling the internal space of the equipment case for the transformer by the air supply unit and the exhaust unit,
The air supply unit,
An air supply duct module installed to allow external air to flow into the internal space of the transformer case from the outside of the electric chamber chamber; And
An air supply blower fan operable to introduce external air through the air supply duct module; Including,
The air supply duct module,
An inlet duct through which outside air enters,
A flow duct extending from the inlet duct, and a supply duct branched into the plurality from the flow duct and extending to a lower portion of the transformer case;
The supply duct is provided with a plurality of blow holes so that air can be supplied to the internal space of the transformer installation case at a plurality of points,
The flow duct and the supply duct are installed to contact the side and the bottom surface of the transformer installation case to block heat transfer between the transformer installation case and the interior of the electrical chamber chamber,
The air supply duct module is formed to communicate with the indoor circulation duct on one side of the inlet duct so that the air in the chamber chamber is introduced,
A circulation blower is further provided to operate to introduce air into the chamber chamber through the indoor circulation duct.
The exhaust unit,
An exhaust duct, one end of which is connected to an upper portion of the inner space of the transformer case and the other end of which is connected to the outside of the chamber chamber; And
An exhaust blower fan operative to exhaust internal air of the transformer installation case through the exhaust duct; Including,
The control unit controls an operation state of the air supply fan, the circulation fan and the exhaust fan according to the temperature or humidity of the outside air, the air inside the chamber chamber and the air inside the transformer case.
A switchgear installation equipped with a transformer cooling device, characterized in that the filtration filter is mounted to the inside of the inlet duct so that the outside air and the air inside the chamber chamber is filtered.
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