KR101740920B1 - temperature controlling system for explosion-proof type of control panel - Google Patents

Abstract

The present invention relates to an explosion-proof type temperature control system for a control panel, and more particularly, to an explosion-proof type temperature control system for controlling an internal temperature of a control panel installed in an explosion-proof space to prevent malfunction of the control panel, To an explosion-proof type temperature control system of a control panel capable of extending the service life.

Description

[0001] The present invention relates to an explosion-proof type temperature control system for a control panel,

The present invention relates to an explosion-proof type temperature control system for a control panel, and more particularly, to an explosion-proof type temperature control system for controlling an internal temperature of a control panel installed in an explosion-proof space to prevent malfunction of the control panel, To an explosion-proof type temperature control system of a control panel capable of extending the service life.

With the development of the industry, as the equipment is becoming larger and higher capacity, the size and power capacity of the electronic parts housed inside the control panel for equipment control are also increasing.

As the sizes and power capacities of the electronic components increase, the temperature inside the control panel increases and malfunctions of the electronic components housed therein are caused due to the increased temperature.

In the case of the summer, the temperature inside the control panel rises easily due to hot outside heat, resulting in a malfunction of the process control.

For example, in the electrolytic capacitor used in the control circuit, as the internal temperature of the control panel rises, evaporation of the electrolytic solution present inside the electrolytic capacitor is promoted, and the life is shortened.

In order to solve such problems, conventionally, a technology for cooling the internal temperature of the control panel using a separate air cooler has been developed and used.

A conventional vortex tube cooler is a device for cooling the inside of the control panel by using high-pressure air.

However, since the conventional air cooler uses a large amount of high-pressure air, energy consumption is large to form compressed air.

If the conventional air cooler is used when the temperature outside the control panel is negative (winter time), the moisture in the compressed air is frozen and sticks to the pipeline through which the compressed air is discharged, The performance is deteriorated.

Also, since the conventional air cooler is used for local cooling, it is not easy to uniformly control the entire temperature inside the control panel.

Especially, when a conventional air cooler having a non-wide width structure is used in an explosion-proof space, it is exposed to the risk of explosion or fire.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an explosion-proof type temperature control system for a control panel which is provided with an explosion-proof structure and does not provide an ignition source to an explosion- will be.

Another object of the present invention is to provide an explosion-proof type temperature control system for a control panel which can prevent the malfunction of the control panel by constantly controlling the internal temperature of the control panel and prolong the life of the electronic parts housed in the control panel .

It is another object of the present invention to provide an explosion-proof type temperature control system for a control panel which can selectively perform cooling and heating operations by controlling the internal temperature of the control panel by a heat pump method.

The objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the present invention provides a control panel temperature control system for controlling an internal temperature of an explosion-proof control panel used in an explosion-proof space, A compressor accommodated in the explosion-proof case and compressing a refrigerant as a low-pressure gas into a high-pressure gas; A first heat exchanger including a first motor accommodated in the explosion-proof case, a first fan exposed to the outside of the explosion-proof case, and first heat exchange means, the heat exchanger performing heat exchange with the outside; An expansion valve accommodated in the explosion-proof case and expanding the refrigerant to a low-pressure liquid state; and a second motor, a second pen, and a second heat exchange means, the expansion valve being provided outside the explosion- And a second heat exchanger positioned inside the panel and performing heat exchange with the inside of the control panel.

In a preferred embodiment, the heat exchange means includes a heat conductive fin, a heat transfer coil or a heat transfer plate.

In a preferred embodiment of the present invention, a temperature sensor is provided inside the control panel and senses an internal temperature of the control panel. And a four-way valve provided in the explosion-proof case and changing the transfer path of the refrigerant in a forward or reverse direction according to a temperature sensed by the temperature sensor.

In a preferred embodiment, when the inside of the control panel is cooled,

The refrigerant passes through the four-way valve through the compressor, the first heat exchanger, the expansion valve, and the second heat exchanger, and then to the compressor, and the refrigerant is circulated.

In a preferred embodiment, when the inside of the control panel is heated,

The refrigerant flows through the four-way valve to the compressor through the compressor, the second heat exchanger, the expansion valve, and the first heat exchanger, and the refrigerant is circulated.

In a preferred embodiment, the first heat exchanger is detachable from the four-way valve and the expansion valve, and the control panel temperature control system is detachably coupled to the control panel.

In a preferred embodiment, a drain plate disposed in the control panel and located under the second heat exchanger and collecting moisture falling from the second heat exchanger; A drain pipe having one end connected to the drain plate and the other end exposed to the outside of the control panel; And an air shutoff valve provided in the drain pipe for discharging moisture of the drain pipe to the outside but blocking the inflow of outside air.

In a preferred embodiment, the expansion valve is a thermostatic expansion valve, a capillary expansion valve, a thermostatic expansion valve or an electronic expansion valve.

In a preferred embodiment, the control panel or the case further includes an auxiliary heat exchanger to absorb heat generated in the compressor or the first motor.

In a preferred embodiment, the auxiliary heat exchanger is a heat pipe.

The present invention has the following excellent effects.

First, according to the explosion-proof type temperature control system of the control panel of the present invention, the case is provided in an explosion-proof structure, and the ignition source is not provided in the explosion-proof space, so that explosion can be prevented.

In addition, according to the explosion-proof type temperature control system of the control panel of the present invention, it is possible to prevent the malfunction of the control panel by controlling the internal temperature of the control panel by a heat pump method, And both cooling and heating operations are possible.

FIG. 1 is a view showing a refrigerant flow during cooling operation of an explosion-proof type temperature control system of a control panel according to an embodiment of the present invention.
2 is a view showing a flow of refrigerant during operation of the explosion-proof type temperature control system of a control panel according to an embodiment of the present invention.

Although the terms used in the present invention have been selected as general terms that are widely used at present, there are some terms selected arbitrarily by the applicant in a specific case. In this case, the meaning described or used in the detailed description part of the invention The meaning must be grasped.

Hereinafter, the technical structure of the present invention will be described in detail with reference to preferred embodiments shown in the accompanying drawings.

However, the present invention is not limited to the embodiments described herein but may be embodied in other forms. Like reference numerals designate like elements throughout the specification.

1 and 2, a control panel temperature control system 100 according to an embodiment of the present invention is for controlling an internal temperature of an explosion-proof control panel 10 using a coolant, A compressor 120, a first heat exchanger 130, an expansion valve 140, a second heat exchanger 150, a temperature sensor 160, and a switching valve 161.

Also, the explosion-proof control panel 10 is a panel installed in an explosion-proof space.

The explosion-proof case 110 is an explosion-proof case having an internal space sealed.

The compressor 120 is accommodated in the explosion-proof case 110, and compresses the low-pressure gas refrigerant into a high-pressure gas.

The first heat exchanger 130 includes a first motor 131, a first pen 132, and a first heat exchanger 133. The first heat exchanger 130 exchanges heat with outside air.

Here, the first motor 131 is accommodated in the explosion-proof case 110 and rotates the first pen 132.

The first pen 132 is exposed to the outside of the explosion-proof case 110 and generates a flow of air toward the first heat exchanging means 133.

 The first heat exchanging unit 133 is exposed to the outside of the explosion-proof case 110 and performs heat exchange with the outside of the explosion-proof case 110, that is, the explosion-proof space.

That is, the first pen 132 and the first heat exchanging unit 133 are exposed to the outside of the explosion-proof case 110, and heat exchange is performed with the outside of the explosion-proof case 110, The first motor 131 is installed inside the explosion-proof case 110, so that the first motor 131 is installed in an explosion-proof structure.

The first heat exchanging means 133 may be a heat transfer fin, a heat transfer coil or a heat transfer plate, and may be a means capable of absorbing heat or dissipating heat, and the shape is not limited.

The first heat exchanger 130 functions as a condenser when the inside of the control panel 10 is cooled and functions as an evaporator when the inside of the control panel 10 is heated.

The function of the condenser and the function of the evaporator of the first heat exchanger 130 will be described in detail below with reference to the switching valve 161.

The expansion valve 140 is accommodated in the explosion-proof case 110 and is a valve for expanding the refrigerant.

The expansion valve 140 may be a thermostatic expansion valve, a capillary expansion valve, a thermostatic automatic expansion valve, or an electronic expansion valve depending on the capacity of the refrigerant used.

Here, the expansion valve 140 includes a first expansion valve 141 and a second expansion valve 142, and expands the refrigerant into a low-pressure liquid state.

The second heat exchanger 150 includes a second motor 151, a second pen 152, and a second heat exchanger 153.

The second heat exchanger 150 is installed outside the explosion-proof case 110 and is installed inside the control panel 10 to perform heat exchange with the inside of the control panel 10.

The second heat exchanging means 153 may be a heat transfer fin, a heat transfer coil or a heat transfer plate, as in the first heat exchanging means 133.

The second heat exchanger 150 performs a function of an evaporator when the inside of the control panel 10 is cooled and a condenser when the inside of the control panel 10 is heated.

The function of the evaporator and the function of the condenser of the second heat exchanger 150 will be described in detail below with reference to the switching valve 161.

The temperature sensor 160 is provided inside the control panel 10 and senses the internal temperature of the control panel 10. [

The switch valve 161 is provided inside the explosion-proof case 110, and is a valve for changing the transfer path of the coolant.

Further, it is preferable that the four-way valve is used as the switching valve 161. [

This is for easily changing the transfer path of the refrigerant in the forward direction or the reverse direction by using the four-way valve when the sensed temperature of the temperature sensor 160 is different from the set temperature.

That is, when the four-way valve transfers the refrigerant in the forward direction, the second heat exchanger 150 performs the function of the evaporator to cool the inside of the control panel 10, When the refrigerant is conveyed in the reverse direction, the second heat exchanger 150 performs the function of the condenser, and the inside of the control panel 10 is heated.

Meanwhile, in the control panel temperature control system 100 according to the present invention, when the internal temperature of the control panel 10 is higher than a predetermined temperature, the control valve is cooled by the switching valve 161.

Referring to FIG. 1, the refrigerant flows when the inside of the control panel 10 is cooled.

First, the refrigerant is transferred to the compressor 120 through the four-way valve 161 in a state of a high-temperature low-pressure gas.

Here, the compressor 120 converts the refrigerant into a high-temperature and high-pressure gas.

Next, the refrigerant in a high-temperature and high-pressure gaseous state is transferred to the first heat exchanger 130.

Since the first heat exchanger 133 of the first heat exchanger 130 is exposed to the outside of the case 110, the refrigerant in a high-temperature and high-pressure state is discharged to the outside of the case 110 .

That is, the first heat exchanger (130) performs the function of a condenser that causes the refrigerant in a high-temperature and high-pressure gas state to be radiated to be a liquid refrigerant at a medium-temperature and high-pressure.

Next, the refrigerant, which is a medium-temperature high-pressure liquid, passes through the first check valve 211 and is temporarily stored in the receiver 220.

Next, the refrigerant stored in the receiver (220) passes through the first expansion valve (141) and the refrigerant is decompressed to become a refrigerant that is a low-temperature low-pressure liquid.

Further, the refrigerant may pass through the strainer before or after passing through the first expansion valve 141, and the foreign substances contained in the refrigerant are removed.

Next, the low-temperature low-pressure liquid refrigerant is transferred to the second heat exchanger (150).

Here, the second heat exchanger 150 may cool the inside of the control panel 10 by absorbing the heat inside the control panel 10 by the low-temperature and low-pressure liquid refrigerant.

 That is, the second heat exchanger 150 performs a function of an evaporator that absorbs heat by the low-temperature and low-pressure liquid refrigerant to become a gas refrigerant of high temperature and low pressure.

Next, the gas refrigerant of high temperature and low pressure is moved to the compressor 120 again and circulated.

Meanwhile, in the control panel temperature control system 100 according to the present invention, when the internal temperature of the control panel 10 is lower than a set temperature, the control valve temperature is controlled by the switching valve 161.

Referring to FIG. 2, the refrigerant flows when the inside of the control panel 10 is heated.

First, the refrigerant traveling through the pipe 200 is moved to the compressor 120 through the four-way valve 161 in a state of a low-temperature and low-pressure gas.

Here, the compressor 120 converts the refrigerant into a high-temperature and high-pressure gas.

Next, the refrigerant in a high-temperature and high-pressure gaseous state is transferred to the second heat exchanger (150).

The second heat exchanger 150 heats the inside of the control panel 10 by discharging heat to the inside of the control panel 10 by the refrigerant in a high temperature and high pressure gaseous state.

That is, the second heat exchanger (150) performs the function of a condenser that causes the refrigerant in a high-temperature and high-pressure gas state to be radiated to be a liquid refrigerant at a medium-temperature and high-pressure.

Next, the refrigerant, which is a medium-temperature high-pressure liquid, passes through the second check valve 212 and is temporarily stored in the receiver 220.

Next, the refrigerant stored in the receiver (220) passes through the second expansion valve (142) and the refrigerant is decompressed to become a refrigerant that is a low temperature low pressure liquid.

Also, the refrigerant may pass through the strainer before or after passing through the second expansion valve 142, and the foreign substances contained in the refrigerant are removed.

Next, the low-temperature low-pressure liquid refrigerant moves to the first heat exchanger 130, and the low-temperature and low-pressure liquid refrigerant absorbs heat outside the case 110.

That is, the first heat exchanger 130 performs the function of an evaporator that absorbs heat by the low-temperature and low-pressure liquid refrigerant to become gas refrigerant of high temperature and low pressure.

Next, the gas refrigerant at a high temperature and low pressure is again transferred to the compressor (120) and circulated.

The control panel temperature control system 100 according to the present invention may further include an auxiliary heat exchanger 170 installed inside the explosion-proof case 110. The auxiliary heat exchanger 170 may include a heat pipe Can be used.

This absorbs heat generated in the compressor 120, the first motor 131, or the second motor 152 and dissipates heat in the second heat exchanger 150, Thereby preventing the first motor 131 from overheating.

The control panel temperature control system 100 according to the present invention may further include a drain plate 180, a drain pipe 180a, and an air cut valve 190.

The drain plate 180 is provided inside the explosion-proof case 110 and is positioned below the second heat exchanger 150 to collect moisture falling from the second heat exchanger 150.

One end of the drain pipe 180a is connected to the drain plate 180 and the other end of the drain pipe 180a is exposed to the outside of the control panel 10 so that moisture collected in the drain panel 180 is supplied to the control panel 10 To the outside of the apparatus.

In addition, the drain pipe 180a is provided with the air shutoff valve 190 so that the moisture of the drain pipe 180a can be discharged to the outside and the outside air can be blocked.

In addition, the control panel temperature control system 100 according to the present invention is easy to separate and engage with the control panel 10, so that it is effective to maintain and repair the control panel temperature control system 100 in a good state.

As described above, since the control panel temperature control system 100 according to the present invention is constructed in an explosion-proof structure, it is possible to prevent an explosion due to no ignition source, and the inside of the control panel 10 can be heated or cooled, It is possible to prevent malfunction of the control panel and extend the service life of the electronic parts housed in the control panel.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, Various changes and modifications will be possible.

10: Control panel
100: Flameproof temperature control system of control panel
110: explosion-proof case 120: compressor
130: first heat exchanger 131: first motor
132: first pen 133: first heat exchanging means
140: expansion valve 141: first expansion valve
142: second expansion valve 150: second heat exchanger
151: second motor 152: second pen
153: second heat exchange means 160: sensor
161: switching valve 162: valve controller
170: auxiliary heat exchanger 180: drain plate
190: air shutoff valve 200: pipe
210: check valve 211: first check valve
212: second check valve 220: receiver

Claims (5)

Control panel temperature control system for controlling the internal temperature of explosion-proof control panel used in explosion-proof space,
An explosion-proof case coupled to the explosion-proof control panel to form an internal space as an explosion-proof space, thereby preventing an ignition source from being provided inside;
A compressor accommodated in the explosion-proof case and compressing a refrigerant as a low-pressure gas into a high-pressure gas;
A first heat exchanger including a first motor accommodated in the explosion-proof case, a first fan exposed to the outside of the explosion-proof case, and first heat exchange means, the heat exchanger performing heat exchange with the outside;
An expansion valve accommodated in the explosion-proof case and expanding the refrigerant to a low-pressure liquid state;
A second heat exchanger including a second motor, a second pen, and a second heat exchange unit, the second heat exchanger being disposed outside the explosion-proof case, the second heat exchanger being located inside the control panel and performing heat exchange with the inside of the control panel; And
An auxiliary heat exchanger provided in the control panel or the case;
A temperature sensor provided inside the control panel for sensing an internal temperature of the control panel; And
And a four-way valve provided in the explosion-proof case for changing the transfer path of the refrigerant in a forward or reverse direction according to a temperature sensed by the temperature sensor,
When the inside of the control panel is cooled, the refrigerant passes through the four-way valve through the compressor, the first heat exchanger, the expansion valve, and the second heat exchanger to the compressor again, and the refrigerant is circulated ,
When the interior of the control panel is heated, the refrigerant flows through the four-way valve through the compressor, the second heat exchanger, the expansion valve, and the first heat exchanger to the compressor again, and the refrigerant is circulated ,
Wherein the auxiliary heat exchanger uses a heat pipe and absorbs heat generated in the first heat exchanger, the compressor, or the first motor.
The method according to claim 1,
Wherein the heat exchanging means includes a heat transfer fin, a heat transfer coil, or a heat transfer plate.
The method according to claim 1,
Wherein the control panel temperature control system is detachably coupled to the control panel.
The method according to claim 1,
A drain plate disposed in the control panel and located below the second heat exchanger and collecting moisture falling from the second heat exchanger;
A drain pipe having one end connected to the drain plate and the other end exposed to the outside of the control panel; And
Further comprising: an air shutoff valve provided in the drain pipe and configured to discharge moisture of the drain pipe to the outside but to block the inflow of outside air.
The method according to claim 1,
Wherein the expansion valve is a thermostatic expansion valve, a capillary expansion valve, a thermostatic expansion valve, or an electronic expansion valve.

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