KR101541852B1 - The Protection and Distribution Panel For Transformer Equipment With Dehumidifying and Cooling Device - Google Patents

Abstract

The present invention relates to a protection distribution board and, more particularly, to a protection distribution board for transformer equipment capable of controlling the operations of a plurality of electronic devices which are electrically connected in a field. The present invention provides the protection distribution board for the transformer equipment including a dehumidifying and cooling device, capable of preventing the abnormal state of the distribution panel by preventing the degradation of the connection contacts of the electronic devices and previously preventing the malfunction and breakdown of the electronic devices. The protection distribution panel for the transformer equipment including the dehumidifying and cooling device according to the present invention includes a cooling chamber (20), a thermoelectric module (30), a plurality of inner cooling fins (40), a plurality of outer cooling fins (41), an inner cooling fan (50), an outer cooling fan (51), a humidity sensor (60), a temperature sensor (61), and a control unit (70).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a protection and distribution panel for a transformer with a dehumidification and cooling device,

The present invention relates to a protection switchboard, and more particularly, to a switchboard cost control switchboard which supplies power to an important substation and controls the operation of a plurality of electrically connected electronic devices on the spot, And temperature rise inside the enclosure due to heat generated by energization of the high-voltage current is suppressed. By maintaining the humidity inside the enclosure at an appropriate humidity, deterioration phenomenon of the connection point of electronic devices due to high temperature and humidity can be prevented, And a dehumidifying and cooling device capable of preventing malfunctions and malfunctions of electronic devices in advance.

In general, a protection switchboard is a device used for directly monitoring and controlling field devices of a factory or a substation. It is composed of a collection of conductors that electrically connect and connect a plurality of electrically connected electronic devices by receiving an external power source , And these various electronic devices are safely insulated and stored in a rectangular steel enclosure.

The protection switchboard allows various main equipment to supply power steadily. The user can check the power supply status through the measured data and cut off the supply power in case of abnormal condition such as surge, overvoltage or overcurrent It is possible to prevent damage to various devices connected to the protection switchboard.

Such a conventional protection switchboard is composed of electric devices such as a high-voltage electric line and a current transformer for switching a high-voltage in a closed enclosure, an automatic breaker switch for switching a high-voltage input line, and a Korean high-voltage fuse, In the high temperature and high humidity environment, the internal temperature and humidity rise excessively, the operation efficiency and accuracy of various parts and devices are lowered, and the electronic devices The nano-sized fine particles generate a partial discharge to the contacts inside the protective switchboard, which may cause an abnormal state inside the protective switchboard and may cause a fire. , Malfunction due to abnormal condition of protective switchboard, For various electronic devices connected to a miracle there is a problem that occurs Kane secondary damage.

Conventionally, an internal temperature monitoring circuit is installed to rapidly increase the humidity and temperature inside the protective switchgear, and when the temperature and the humidity reach the set temperature and humidity, the cooling fan is immediately activated to drop the internal temperature of the enclosure. In order to improve the cooling performance, it is necessary to install a large cooling fan in the internal dehumidification and cooling operation through the forced ventilation, but the internal size of the protection switchboard is limited, and the dehumidification and cooling efficiency are also unsatisfactory There is a problem in that fine dust is introduced from the outside and dispersed and fixed inside the dust particles to increase the resistance temperature coefficient of terminals or bus bars of various equipments and devices inside the protection switchboard.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide an air conditioner capable of maintaining the humidity and temperature inside the enclosure of the protective switchgear at an appropriate level and preventing external fine dust, However,

It is possible to make the apparatus slim and to be easily installed in a space inside a small protective switchgear, to provide a sufficient cooling effect by having a small installation space and excellent cooling efficiency,

The internal air purifier also has a compact structure that can be easily installed in the internal space of the small protection switchboard enclosure together with the cooling device, thereby facilitating maintenance and miniaturization of the protection switchboard.

According to an aspect of the present invention, there is provided a method of controlling an operation of a plurality of electronic devices electrically connected to a plurality of electronic devices electrically connected to an external power source, (CB) which includes a circuit breaker (CB) that cuts off power when an overcurrent or an overvoltage occurs, and a plurality of measuring instruments for power measurement. The humidity and temperature inside the enclosure (2) (1) comprising a dehumidification and cooling device (10) for maintaining the humidity and temperature of the protection cabinet (2) at a humidity and a temperature of the cabinet An air inlet 21 is provided and an internal space 22 for storing the air introduced through the internal air inlet 21 is provided and the air passes through the internal space 22 A cooling air discharge port 23 is provided so that one air is discharged into the enclosure 2 and a condensed water discharge port A cooling chamber (20) provided with a cooling chamber (24); The cooling chamber 20 is provided at one side of the rear side of the cooling chamber 20 so as to penetrate the inside and the outside of the cooling chamber 20. The inside and outside sides of the cooling chamber 20, A thermoelectric module 30 on which a thermoelectric module 32 is formed; A plurality of inner cooling fins (40) protruding from the cooling surface (31) of the thermoelectric element with a predetermined length; A plurality of outer cooling fins 41 protruding from the heat dissipation surface 32 of the thermoelectric element with a predetermined length; An inner cooling fan (50) for blowing air in the housing (2) toward the plurality of inner cooling fins (40); An outer cooling fan (51) for blowing the outside air of the housing (2) toward the plurality of outer cooling fins (41); A humidity measuring sensor (60) provided on one side of the housing (2) for measuring the humidity inside the housing (2); A temperature measuring sensor (61) provided at one side of the inside of the housing (2) to measure a temperature inside the housing (2); And a reference temperature value from the user, and the humidity measurement sensor 60 and the temperature measurement sensor 61 (hereinafter, referred to as " And a controller 70 for controlling the operation of the thermoelectric element 30, the inner cooling fan 50, and the outer cooling fan 51 based on the measured humidity value and the temperature value (1) with a dehumidifying and cooling device (10) characterized in that the dehumidification and cooling device (10) is provided.

A switchgear protection switchboard (1) having a dehumidifying and cooling device (10) according to an embodiment of the present invention is provided with a cooling air discharge opening (23) provided at an end of the cooling air discharge opening (23) (80) for blowing air in a predetermined direction inside the housing (2); And may further comprise:

Preferably, the cooling fan 40 is disposed in front of a position spaced apart from the plurality of inner cooling fins 40 by a predetermined distance, and is interposed between the inner cooling fins 40 and the inner cooling fan 50, A mesh filter 81 for removing the mesh filter 81; And further,

More preferably, a condensate collection vat 90 for storing condensate discharged to the outside through the condensed water outlet 24; A level sensor 91 for measuring the level of condensate stored in the condensate vat 90; A discharge pump (92) for discharging the condensed water stored in the condensate collection tube (90); And a plurality of external cooling fins 41. The condensed water discharged from the discharge pump 92 flows into the external cooling fan 51 and is separated from the external cooling fins 41 by a predetermined distance. A vaporization sponge 93; And the control unit 70 may control the operation of the discharge pump 92 by receiving the measured water level value from the water level measuring sensor 91.

The switchgear protection switchboard with the dehumidification and cooling device according to the present invention can always keep the humidity and temperature inside the enclosure of the protection cabinet irrespective of the external temperature and humidity of the enclosure to an appropriate level, Can be prevented from flowing into the interior of the enclosure during dehumidification and cooling operation, so that it is easy to maintain the air inside the enclosure in a clean state even in a high-concentration dust environment,

In addition, the dehumidification and cooling device can be slimmed down and easily installed in a space inside the small protective switchgear. The dehumidification and cooling efficiency is remarkably high,

Also, the internal air purifier can be easily installed in the internal space of the small protection switchgear housing together with the dehumidification and cooling device, thus facilitating maintenance and miniaturization of the protection switchboard.

FIG. 1 is a sectional view of a switchboard cost protection switchboard having a dehumidifying and cooling device according to the present invention, in which the dehumidifying and cooling device is formed in an enclosure of a protection switchboard; FIG.
FIG. 2 is a cross-sectional view of a mesh filter provided at a front end of an internal air inlet and a blowing adjusting port provided at an end of a cooling air discharge port, according to an embodiment of the present invention; FIG.
FIG. 3 is a cross-sectional view illustrating a process of distributing condensed water through a vaporized sponge of the cooling chamber to the outside through a vaporizing sponge in a switchboard cost protection switchboard having a dehumidifying and cooling device according to the present invention. FIG. And
4A and 4B are respectively a partially enlarged perspective view and a cross-sectional view showing a portion where the vaporization sponge of FIG. 3 is provided;

Hereinafter, embodiments of the present invention in which the above object can be specifically realized will be described with reference to the accompanying drawings. In describing the embodiments, the same names are denoted by the same reference numerals, and further description thereof will be omitted below.

1 is a schematic view of a switchboard cost protection switchboard 1 with a dehumidification and cooling device 10 according to the present invention in which the dehumidification and cooling device 10 is formed in a housing 2 of a protection switchboard 1 2 is a sectional view of a switchboard cost protection switchboard 1 equipped with a dehumidifying and cooling device 10 according to the present invention. Sectional view showing a mesh filter 81 provided in front of the inner air inlet 21.

3 is a schematic view of a switchboard cost protection switchboard 1 with a dehumidification and cooling device 10 according to the present invention in which condensed water flows through a condensed water outlet 24 of a cooling chamber 20 to a vaporized sponge 93, And FIGS. 4A and 4B are respectively a partially enlarged perspective view and a cross-sectional view showing a portion where the vaporization sponge 93 of FIG. 3 is provided.

As shown in FIG. 1, the switchgear cost protection switchboard 1 provided with the dehumidification and cooling device 10 according to the present invention is largely divided into two parts, that is, A thermoelectric module 30 penetrating the inside of the rear side of the cooling chamber 20 so as to pass through the inside and the outside of the cooling chamber 20, A plurality of inner cooling fins 40 and outer cooling fins 41 attached to inner and outer surfaces of the inner and outer cooling fins 30, A controller 70 for controlling the operation of the thermoelectric element 30 and the inside and outside cooling fans 51 in response to signals from the humidity and temperature measuring sensor 61 and the outside cooling fan 51, .

The cooling chamber 20 is an outer frame of the dehumidification and cooling device 10 according to the present invention for sucking moist and hot air inside the protective switchboard enclosure 2 and discharging it into the enclosure 2 after dehumidification, 1, an inner air inlet 21 is formed at an upper portion of the upper portion of the protective switchboard housing 2, and an inner air inlet 21 for introducing air into the enclosure 2 is formed at the front of the enclosure 2, A cooling air discharge port 23 is provided so that air having passed through the internal space part 22 is discharged again into the housing 2, A condensed water discharge port (24) through which condensed water cooled and condensed is discharged to the outside of the housing (2) is provided at a lower side of the space part (22).

The thermoelectric module 30 uses a PN junction made of a semiconductor such as a compound of bismuth and terr (Bi2Te3) as a semiconductor element using heat and heat generated by a Peltier effect known in the art , And the conventional cooling device used in the conventional cooling device 10 will not be described in detail. As shown in FIG. 1, both side surfaces of the thermoelectric element 30 are provided with a cooling surface 31 and a heat-radiating surface 32, And a cooling surface 31 and a radiating surface 32 are provided on inner and outer sides of the cooling chamber 20, respectively.

The cooling surface 31 and the heat dissipating surface 32 of the thermoelectric element 30 are provided with a plurality of inner cooling fins 40 and a plurality of outer cooling fins 41 so as to protrude with a predetermined length, The cooling fins 40 function to increase the contact area with the air for rapid cooling of the air in the housing 2 and the outer cooling fins 41 are generated on the heat dissipation surface 32 of the thermoelectric element 30 Which increases the contact area with outside air for rapid cooling of the heat. Preferably, the inner and outer cooling fins 41 are formed of copper or aluminum having a high thermal conductivity to improve cooling efficiency.

1 and 2, the inner cooling fan 50 is installed in the interior of the cooling chamber 20 so as to circulate and rapidly cool the air inside the protective cabinet 2, The mesh filter 81 may be provided at a position spaced a predetermined distance forward of the mesh filter 81 as shown in FIG. The inner air of the housing 2 is blown to the front of the mesh filter 81 and flows into the space inside the housing 2 through the mesh filter 81 and the plurality of inner cooling fins 40, Fine dust or the like floating in the inside air of the housing 2 is removed through the mesh filter 81 and then passes through the plurality of inner cooling fins 40 to form fine Dust and the like can be prevented from being adsorbed, The fine particles are adsorbed by the space between the fins allows with also prevent in advance that the cooling efficiency is lowered, the enclosure (2) can be purified the interior air.

1 and 2, the outer cooling fan 51 blows air outside the protection and control enclosure 2 in the direction of the plurality of outer cooling fins 41 to form the thermoelectric elements 30, The heat generated by the heat dissipating surface 32 of the heat sink 32 is cooled rapidly. The cooling efficiency of the cooling surface 31 of the thermoelectric element 30 is proportional to the cooling efficiency of the heat generated from the heat dissipating surface 32 and the external air is blown to the plurality of external cooling fins 41, 32 to cool rapidly. 3, a condensate water vat 90 for storing condensed water discharged to the outside through the condensed water outlet 24 of the cooling chamber 20 is provided outside the housing 2 And the water level sensor 91 to measure the level of the water stored in the condensed water vowel 90. When the condensed water is collected at a predetermined water level, the discharge pump 92 is operated to discharge the condensed water to the outside cooling fan 51 and the plurality The condensed water discharged to the vaporizing sponge 93 passes through the vaporizing sponge 93 and is discharged to the outside of the evaporating sponge 93. [ The condensed water passing through the vaporization sponge 93 is evaporated while easily absorbing the ambient heat through the operation of the outer cooling fan 51. The vaporization of the vaporized sponge Outside cooling The thermal efficiency of the chamber 41 makes it possible to significantly increase.

1, the control unit 70 receives an On / Off signal, a cooling / dehumidification operation mode signal, a predetermined reference humidity value, and a reference temperature value from a user, A humidity value and a temperature value inside the housing 2 measured from the humidity measurement sensor 60 and the temperature measurement sensor 61 provided on one side of the housing 2 are inputted and the humidity value inside the housing 2 And controls the operation of the thermoelectric element 30, the inner cooling fan 50 and the outer cooling fan 51 so that the temperature value is maintained at a predetermined value. Further, the water level value measured from the water level measuring sensor 91 And controls the operation of the discharge pump 92.

The operation of the dehumidifying and cooling device 10 of the switchgear protection switchboard 1 with the dehumidification and cooling device 10 according to the present invention will now be described in more detail. The control unit 70 is turned on / off via the on / off button provided on the control unit 70. In order to operate the dehumidifying and cooling unit 10, And dehumidification or cooling operation is selected through the dehumidification or cooling operation mode selection button. That is, if the dehumidification operation mode is selected, the internal humidity of the enclosure (2) is adjusted and maintained according to the reference humidity value regardless of the reference temperature value. If the cooling operation mode is selected, So that the internal temperature of the housing (2) is regulated.

In one embodiment, when the user selects the dehumidification operation mode through the operation mode button, the controller 70 receives the dehumidification operation mode signal from the user through the operation panel (not shown) The user inputs the reference humidity value to be maintained inside the protection and switchboard housing 2 through the operation panel, and the control unit 70 receives the reference humidity value from the user through the operation panel.

The control unit 70 compares the inputted reference humidity value with the internal humidity value of the current housing 2 that is input in real time from the humidity measurement sensor 60. If the measured humidity value is high, The inner cooling fan 50 and the outer cooling fan 51. The humid air remaining in the housing 2 is cooled by the operation of the inner cooling fan 50, Through the inner air inlet 21 of the chamber 20 and the mesh filter 81 to the plurality of inner cooling fins 40 and through the plurality of cool cooling inner cooling fins 40, The condensed water formed on the inner cooling fin 40 collects and flows to the condensed water outlet 24 provided at the lower side of the cooling chamber 20 and is discharged to the outside. Air is discharged through the cooling air discharge port 23 Is to be discharged back into the housing (2). 2, an air flow regulating opening 80 is provided at an end of the cooling air discharging opening 23 so that air having passed through the cooling chamber 20 flows in a predetermined direction inside the housing 2 Thereby making it possible to quickly lower the humidity around the electronic device or the electronic device, which is particularly vulnerable to high humidity in the housing 2.

The condensed water discharged from the cooling chamber 20 through the condensed water outlet 24 is collected and stored in a condensed water vortex tube 90 provided outside the enclosure 2 and the amount of condensed water stored in the condensed water vortex tube 90 The water level value is transmitted to the controller 70 through the level sensor 91 provided in the condensate water vat 90 and the controller 70 operates the drain pump 92 And discharges the condensed water stored in the condensate vat 90 to the vaporization sponge 93 so as to reach a predetermined water level. 4A and 4B, the condensed water flowing into the vaporizing sponge 93 spreads evenly through the perforated plate 94 provided on the upper side of the vaporizing sponge 93 and flows into the upper portion of the vaporizing sponge 93 After passing through the vaporization sponge 93, is discharged to the outside through an external discharge port. The evaporated sponge 93 is blown by the outer cooling fan 51 and the condensed water having a larger cross-sectional area in contact with the air through the vaporized sponge 93 evaporates while absorbing ambient heat, The heat radiation efficiency of the plurality of outer cooling fins 41 can be remarkably increased by absorbing the necessary heat of vaporization.

In addition, when the user selects the cooling operation mode, the same operation as in the above-described dehumidification operation mode is performed except that the internal temperature value of the housing 2 is controlled to be maintained at the reference temperature value.

The switchgear cost protection switchboard 1 having the dehumidification and cooling device 10 according to the present invention as described above has the protection switchboard enclosure 2 irrespective of the external temperature and humidity of the enclosure 2, It is possible to keep the inside humidity and temperature at an appropriate level and to prevent the external fine dust or the like from entering into the inside of the enclosure 2 during the dehumidification and cooling operation, ) Can keep the air in the purified state,

Further, the dehumidification and cooling device 10 can be made slim and easily installed in the inner space of the small protection and distribution panel 1, the dehumidification and cooling efficiency are remarkably increased, and the installation space occupies a small space. Also, It is possible to reduce the size of the protection switchboard 1 by providing a compact structure that can be easily installed in the inner space of the small protection switchboard enclosure 2 together with the cooling device 10.

It will be apparent to those skilled in the art that, although several embodiments have been described above, they may be embodied in many different forms without departing from the spirit and scope of the invention.

Accordingly, the above-described embodiments are to be considered illustrative and not restrictive, and all embodiments within the scope of the appended claims and their equivalents are intended to be included within the scope of the present invention.

1: Transformer protection cost switchboard 2: Protection switchboard enclosure
10: dehumidification and cooling device 20: cooling chamber
21: inner air inlet 22: inner space part
23: cooling air outlet 24: condensate outlet
30: thermoelectric element 31: cooling surface
32: opening surface 40: inner cooling pin
41: outer cooling pin 50: inner cooling fan
51: Outside cooling fan 60: Humidity measurement sensor
61: temperature measuring sensor 70:
80: blowing regulator 81: mesh filter
90: Condensate collector 91: Level sensor
92: exhaust pump 93: vaporized sponge
94: Perforated plate

Claims (4)

A circuit breaker (CB), which converts an external power source to a plurality of electrically connected electronic devices to supply power to each of the plurality of electronic devices, controls operation of a plurality of electrically connected electronic devices, and cuts off power when an over- And a dehumidifying and cooling device for maintaining the humidity and the temperature inside the enclosure 2 at predetermined humidity and temperature values, respectively, of the switchgear cost protection switchboard 1 comprising a plurality of measuring instruments for power measurement In a switchgear cost protection switchboard (1)
An inner air inlet 21 is provided at an upper portion of the upper portion of the protection switchboard housing 2 to introduce air therein and an inner space 22 for storing the air introduced through the inner air inlet 21 A cooling air discharge port 23 is provided so that the air having passed through the internal space part 22 is discharged again into the housing 2 and a cooling air discharge port 23 is provided at the lower part of the internal space part 22, A cooling chamber (20) having a condensed water outlet (24) for discharging condensed water to the outside of the housing (2);
The cooling chamber 20 is provided at one side of the rear side of the cooling chamber 20 so as to penetrate the inside and the outside of the cooling chamber 20. The inside and outside sides of the cooling chamber 20, A thermoelectric module 30 on which a thermoelectric module 32 is formed;
A plurality of inner cooling fins (40) protruding from the cooling surface (31) of the thermoelectric element with a predetermined length;
A plurality of outer cooling fins 41 protruding from the heat dissipation surface 32 of the thermoelectric element with a predetermined length;
An inner cooling fan (50) for blowing air in the housing (2) toward the plurality of inner cooling fins (40);
An outer cooling fan (51) for blowing the outside air of the housing (2) toward the plurality of outer cooling fins (41);
A humidity measuring sensor (60) provided on one side of the housing (2) for measuring the humidity inside the housing (2);
A temperature measuring sensor (61) provided at one side of the inside of the housing (2) to measure a temperature inside the housing (2); And
A humidity sensor 60 and a temperature measuring sensor 61. The humidity measuring sensor 60 receives an on / off signal from the user, a cooling / dehumidifying operation mode signal, a predetermined reference humidity value, A controller 70 for controlling the operation of the thermoelectric element 30, the inner cooling fan 50, and the outer cooling fan 51 by receiving the measured humidity value and the temperature value, respectively;
A blowing regulating opening 80 provided at an end of the cooling air discharging opening 23 for blowing air having passed through the cooling chamber 20 in a predetermined direction inside the housing 2;
The cooling fan 40 is disposed in front of a position spaced apart from the plurality of inner cooling fins 40 by a predetermined distance so as to be interposed between the inner cooling fins 40 and the inner cooling fan 50, A mesh filter (81) for removing dust from the inside air introduced from the air filter;
A condensate water collection tube (90) for storing condensed water discharged to the outside through the condensed water discharge port (24);
A level sensor 91 for measuring the level of condensate stored in the condensate vat 90; And
A discharge pump (92) for discharging the condensed water stored in the condensate collection tube (90); And
The condensed water discharged from the discharge pump (92) flows in from the upper side, passes through the lower side (51) and the outer side cooling fins (41) A vaporizing sponge 93 that is discharged to the outside through the opening; ≪ / RTI >

The control unit (70)
Wherein the control unit controls the operation of the discharge pump (92) by receiving the measured water level value from the water level measuring sensor (91). delete delete delete

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