KR20140087697A - Movable cold storage type air conditioning apparatus - Google Patents

Abstract

The present invention relates to a movable cold storage type air conditioner easy to move and capable of minimizing power consumption by cooling with stored cold energy during the day after cooling and storing liquefied latent heat substances by using midnight power. The movable cold storage type air conditioner according to the present invention includes: a case having an outlet on the top, an inlet on the bottom, a first inner space, and a second inner space partially divided by a partition; one or more cold storage tanks installed in the first inner space of the case; a refrigerant coil installed in the first inner space of the case and arranged to be adjacent to the cold storage tank; a condenser and a compressor installed in the second inner space of the case and connected to the refrigerant coil through a refrigerant pipe; and a condenser cooling fan installed in the second inner space of the case and arranged to be adjacent to the condenser.

Description

[0001] MOVABLE COLD STORAGE TYPE AIR CONDITIONING APPARATUS [0002]

More particularly, the present invention relates to a mobile cooling and cooling apparatus, and more particularly, to a mobile cooling and cooling apparatus that can move very easily in a narrow space and cool the liquid ginseng latent heat material by using nighttime power, To a cooling-type cooling apparatus capable of minimizing power consumption.

As is widely known, a cooling system using a coolant, that is, an air conditioner, is a cooling system that sucks hot air from a room and heat-exchanges the refrigerant with coolant at a low temperature and then discharges it into the room. And an expansion valve-evaporator to form a series of cycles.

Such an air conditioner is generally composed of an indoor unit (or an indoor unit) for heat-exchanging indoor air and an outdoor unit (or an outdoor unit) for heat-exchanging outdoor air. The indoor unit and the outdoor unit are integrally formed, and the indoor unit and the outdoor unit are separated Type air conditioner.

The above-mentioned air conditioner is generally fixedly installed in a space for cooling, and cooling can be performed in a limited space. Therefore, in order to cool a plurality of spaces, it is necessary to install an air conditioner in each space or to install a multi-type indoor unit in an outdoor unit having a large capacity. In this case, unnecessary installation costs are added.

In recent years, portable air conditioners have been developed to solve the above-mentioned problems. Such a portable air conditioner has a structure in which an indoor unit and an outdoor unit are integrally formed and can be easily moved.

However, since the conventional mobile air conditioner is mainly used for the peak power time zone, it is not possible to operate the air conditioner by moving to the time zone where the cost is relatively low, such as the nighttime power, and accordingly, And it is required to construct a power plant accordingly.

In addition, in the conventional mobile air conditioner, the starting load is severely generated and the amount of power consumption is increased. Specifically, as the compressor is repeatedly operated and stopped, unnecessary power is consumed to reach the temperature return time.

In the conventional mobile air conditioner, the capacity of the compressor must be increased by 30 to 40% for rapid cooling. Therefore, the installation cost is increased, and a separate heat radiating device and a circulation pipe (pipe) for discharging the high heat generated in the condenser to the outside It is disadvantageous in that the structure of the apparatus is very complicated and the installation is troublesome and the movement thereof is not easy.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems, and it is an object of the present invention to provide a method of cooling a phase change material (PCM) using nighttime power avoiding a peak power time zone, The present invention has an object of providing a portable cooling and cooling apparatus capable of minimizing power consumption in a peak power time zone and capable of improving the cooling capacity and extending the freezing time.

Further, according to the present invention, there is no need to replace the cold storage tank, the starting load and the temperature return time are unnecessary, and the continuous cooling of the liquid phase latent heat material is facilitated by adopting the coaxial cooling structure in which the liquid latent heat material in the cooling tank is frozen by using the refrigerant cooled by the compressor and the condenser. The present invention has been made in view of the above problems, and it is an object of the present invention to provide a mobile cooling and cooling apparatus which is capable of operating and rapidly cooling the liquid latent heat material to an optimum temperature.

In addition, the present invention can reduce the capacity of the compressor by 30-40% compared with the conventional air conditioner, thereby reducing power consumption and drastically reducing the efficiency of the indoor space, and the heat generated by the condenser The present invention has an object of providing a portable water cooling and cooling apparatus which is not required to have a heat radiating device and a circulation pipe for dissipating heat to the outside,

According to an aspect of the present invention,

A case having a discharge port formed at an upper portion thereof, an inlet port formed at a lower portion thereof, a first inner space and a second inner space partially partitioned by a partition wall;

At least one compression tank installed in the first internal space of the case;

A refrigerant coil installed in the first inner space of the case and disposed adjacent to the hot-water storage tank;

A condenser and a compressor installed in a second internal space of the case and connected to the refrigerant coil through a refrigerant pipe; And

And a condenser radiating fan installed in the second internal space of the case and disposed adjacent to the condenser.

Wherein at least one first damper is rotatably installed by the first driving unit to open and close the discharge port,

And at least one second damper is rotatably installed at an inlet of the case by a second driving unit to open and close the inlet.

The first damper rotates in an outer direction of the case, and the second damper rotates in an inner direction of the case.

One side of the partition wall is provided with one or more communication openings for communicating the first internal space and the second internal space, and a third damper is rotatably installed on the communication opening to open and close the communication opening .

Wherein the partition wall comprises a vertical partition wall arranged in a vertical direction in the case and a horizontal partition wall provided in a horizontal direction in the case,

The communication opening and the third damper are provided in the horizontal partition wall, and the upper end of the vertical partition wall is spaced apart from the upper surface of the case at a predetermined interval to provide a communication gap.

And the coolant coil is disposed in the first inner space so as to surround the supercooling tank.

The refrigerant pipe of the outdoor unit is composed of a refrigerant supply pipe for supplying the refrigerant from the outdoor unit to the refrigerant coil side and a refrigerant recovery pipe for recovering the refrigerant from the refrigerant coil to the outdoor unit side.

And an air communication groove (12a) is formed between the supercooling tanks (15).

A control section to which the blowing fan, the first driving section of the first damper, the second driving section of the second damper, and the third driving section of the third damper are electrically connected is provided on either side of the case 10 .

A temperature sensor 39 for sensing the temperature of the indoor space and a humidity sensor are installed in the inlet 10b of the case 10.

According to the present invention, by avoiding the peak power time zone, freezing the liquid phase latent heat material (PCM) sufficiently late at nighttime by night power, and then using the cooling energy for the daytime / nighttime cooling, The cooling capacity can be improved and the refrigeration time can be extended.

In addition, the present invention adopts a quench-type structure that freezes the liquid latent heat material in the hot-water storage tank by using the refrigerant cooled by the compressor and the condenser, thereby eliminating the need for replacement of the hot-water storage tank, , Continuous operation is possible, and the liquid phase latent heat material is rapidly cooled to an optimum temperature, thereby minimizing power consumption.

In addition, since the capacity of the compressor can be greatly reduced as compared with the conventional air conditioner, the installation cost due to the capacity reduction can be reduced, the power consumption and the space efficiency can be improved, It is unnecessary to install a heat dissipating device and a circulation pipe for dissipating heat to the outside of the room, and it is very convenient to move the heat exchanger.

1 is a side cross-sectional view illustrating a mobile cooling / cooling apparatus according to an embodiment of the present invention.
2 is a cross-sectional view taken along line AA in Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. For the sake of convenience, the size, line thickness, and the like of the components shown in the drawings referenced in the description of the present invention may be exaggerated somewhat. The terms used in the description of the present invention are defined in consideration of the functions of the present invention, and thus may be changed depending on the user, the intention of the operator, customs, and the like. Therefore, the definition of this term should be based on the contents of this specification as a whole.

1 and 2 are views showing a mobile cooling and cooling apparatus according to an embodiment of the present invention.

As shown in the drawing, the mobile cooling apparatus according to the present invention includes a case 10 having an outlet 10a and an inlet 10b.

An outlet 10a for discharging cold air is formed in the upper portion of the case 10 and an inlet 10b for introducing room air is provided in the lower portion of the case 10, .

One or more first dampers 31 are rotatably installed on the discharge port 10a of the case 10 to open and close the discharge port 10a and the first damper 31 is connected to an actuator And is rotatably installed by the first drive unit 35 having the first motor. Preferably, the first damper 31 is installed to rotate in the outward direction of the case 10, so that the cool air can be discharged more smoothly.

One or more second dampers 32 are rotatably installed in the inlet 10b of the case 10 to open and close the inlet 11b and the second damper 32 is connected to an actuator And is rotatably installed by an excitation drive unit (36). Preferably, the second damper 32 is installed to rotate in the inner direction of the case 10, so that the cool air can be discharged more smoothly. The second damper 32 is provided in a structure that rotates in the outer direction of the case 10 according to the needs of those skilled in the art, so that the cool air can be discharged more smoothly.

A heat insulating material 10d is provided on the inner surface of the case 10 so that the cold air in the case 10 can be prevented from leaking to the outside by the heat insulating material 11d.

The first inner space 11 and the second inner space 12 are partially partitioned by the partition wall 13 in the interior of the case 10. [

The partition wall 13 is composed of a vertical partition wall 13a arranged in the vertical direction in the case 10 and a horizontal partition wall 13b arranged in the horizontal direction in the case 10. [ The upper end of the vertical partition wall 13a is spaced at a predetermined distance from the upper end of the case 10 to form a communication gap 14 and the horizontal partition wall 13b is connected to the lower end of the vertical partition wall 13a in the horizontal direction do.

One or more communication openings 19 for communicating the first internal space 11 and the second internal space 12 are provided at one side of the partition wall 13 and in particular the communication openings 19 are formed in the partition wall 13 One or more horizontal partition walls 13b are formed. One or a plurality of third dampers 33 are rotatably provided in the communication opening 19 to open and close the communication opening 19 while the third damper 33 is provided with one or a plurality of third drive portions 37 And is rotatably installed.

One or more annular cooling tanks 15 are arranged in the first inner space 11 of the case 10 and the annular cooling tanks 15 are arranged in the first inner space 11 in the upper and lower support brackets 16a, 16b so as to be stably supported. Particularly, the upper support bracket 16a is installed to be spaced apart from the upper surface of the case 10 and the lower support bracket 16b is installed to be spaced upward from the bottom surface of the horizontal partition wall 13b. The supercooling tank 15 is stably supported by the upper support bracket 16a and the lower support bracket 16b in the middle portion of the first inner space 11. [

The compression tank 15 may be installed in a structure in which a plurality of the condensate tanks 15 are spaced apart from each other or adjacent to each other such that the air communication grooves 12a correspond to each other between the condensation tanks 15.

The air passes through the condensation tank 15 from the lower part to the upper part, and is heat-exchanged with the cooling water in the cooling tank 15 to become cold air.

The refrigerant coil 23 is provided in the first internal space 11 adjacent to the condensate tank 15 and particularly the refrigerant coil 23 is disposed in the first internal space 11 as shown in FIG. The heat exchange efficiency with the hot-water storage tank 15 can be further improved by arranging the supercooling tank 15 in the inner space 11.

The refrigerant coil 23 is connected to the condenser 22 and the compressor 21 through the refrigerant pipes 25 and 26. The condenser 22 and the compressor 21 are connected to the second inner space 12 of the case 10, Respectively. In this regard, the liquid phase latent heat material is frozen as the refrigerant cooled by the compressor (21) and the condenser (22) exchanges heat with the liquid latent heat material stored in the cooling tank (15) while passing through the refrigerant coil (23) Cooling energy is stored in the hot-water storage tank 15 by freezing the latent heat material.

The compressor 21 and the condenser 22 are connected to each other through a connection pipe 24 so that the compressor 21 and the condenser 22 can communicate with each other. The refrigerant gas-phase-compressed at a high temperature and a high pressure by the compressor 21 is supplied to the condenser 22 via the connection pipe 24 as the connection pipe 24 is connected between the inlet of the compressor 22 and the condenser 22, The refrigerant is converted into a low-temperature and high-pressure liquid phase.

The compressor (21) and the condenser (22) are connected to the refrigerant coil (23) through the refrigerant pipes (25, 26). The refrigerant is compressed by the compressor 21 into a high-temperature, high-pressure gas phase, and the refrigerant gas-phase-compressed at such a high temperature and high pressure is condensed by the condenser 22 into a liquid phase at low temperature and high pressure, The liquid latent heat material is heat-exchanged with the liquid latent heat material in the cold storage tank 15 while passing therethrough, and the liquid latent heat material is freezed and is cooled by freezing of the liquid latent heat material.

On the other hand, a condenser radiating fan 28 is provided adjacent to the condenser 22, and the heat generated by the condenser 22 can be effectively discharged by the condenser radiating fan 28, Through the communication gap 14 or the communication opening 19 between the wall 13a and the case 10 and through the heat exchange with the cooling tank 15.

The refrigerant pipes 25 and 26 are connected to a refrigerant supply pipe 25 connected to the refrigerant coil 23 so as to supply the refrigerant from the condenser 22 to the refrigerant coil 23, (26). Particularly, the refrigerant supply pipe 25 extends from the discharge port side of the condenser 22 and is connected to the refrigerant coil 23 side. The refrigerant return pipe 26 extends from the side of the refrigerant coil 23, And is connected to the inlet side.

A blowing fan 18 is provided adjacent to the discharge port 10a of the case 10. The blowing fan 18 blows cool air generated by heat exchange with the sparkling tank 15 through the discharge port 10a, .

The first driving part 35 of the first damper 31, the second driving part 36 of the second damper 32 and the third driving part 37 of the third damper 33 electrically (Not shown) is provided at one side of the case 10 and the control unit (not shown) controls the operation of the first to third dampers 31, 32, and 33 It is possible to control the pivoting and cooling operation by controlling the pivoting operation.

A temperature sensor 39 may be installed at the inlet 10b of the case 10 and the temperature sensor 39 may sense the temperature of the indoor space.

A humidity sensor (not shown) is installed in the inlet 10b of the case 10

The humidity of the incoming air can be detected.

Accordingly, the control unit (not shown) may automatically perform the cooling / cooling operation automatically or manually according to the detected temperature and humidity of the temperature sensor 39 and the humidity sensor.

A stirrer line (not shown) having a suction pipe for sucking the liquid latent heat material and a discharge tube for discharging the liquid latent heat material may be disposed in the water-cooling tank 15 of the present invention. The agitating tank 15), the liquid latent heat material may be sucked through the suction pipe and then circulated and discharged to the discharge pipe side so that the liquid latent heat material can be smoothly stirred.

Hereinafter, the operation of the cooling-type cooling apparatus of the present invention constructed as described above will be described.

First, when the hot-water storage tank 15 is cooled, the discharge port 10a, the inlet port 10b, and the communication port 19 of the case 10 are closed by the first to third dampers 31, 32, , The compressor (21) and the condenser (22) are driven to cause the cooled refrigerant to circulate through the refrigerant coil (23). Therefore, the liquid phase latent heat material in the supercooling tank 15 is frozen by the coolant circulating through the coolant coil 23, thereby cooling the cooling energy in the supercooling tank 15. Such a cooling operation can be mainly controlled by the control unit when the room temperature is 25 DEG C or less.

Then, when the indoor space is to be cooled, the blowing fan 18 is driven, and at the same time, the first to third dampers 31, 32 and 33 are connected to the discharge port 10a and the inlet 10b. The communication openings 19 are respectively opened and the indoor air flows through the inlet 10b of the case 10 and then flows through the periphery of the condensate tanks 15 to move upward, So that the cold air is blown by the blowing fan 19 and is discharged into the indoor space through the discharge port 10a.

According to the present invention, by avoiding the peak power time zone and sufficiently freezing the liquid phase latent heat material (PCM) in the cold storage tank 15 by night power, the cooling energy is used for the daytime / It is possible to improve the cooling capacity and to extend the refrigeration time as well as to minimize the temperature.

In addition, the present invention adopts a quench-type structure for freezing the liquid latent heat material of the hot-water storage tank 15 by using the refrigerant cooled by the compressor (21) and the condenser (22) Temperature recovery time is unnecessary, continuous operation is possible, and the liquid phase latent heat material can be rapidly cooled to the optimum temperature, thereby minimizing power consumption.

In addition, since the capacity of the compressor (21) can be greatly reduced compared with the conventional air conditioner, installation cost can be reduced, power consumption can be reduced, space efficiency can be improved by reducing the volume of the room, Since the heat radiation is effectively performed by the condenser radiating fan 28 disposed adjacent to the condenser radiating fan 28, it is not necessary to install a separate heat radiating device and a circulation pipe, and the case 10 itself is very convenient to move.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. .

10: Case 11: First inner space
12: second inner space 13: partition wall
15: Cooling tank 21: Compressor
22: condenser 23: refrigerant coil
28: Condenser heat-dissipating fan

Claims (13)

A case having a discharge port formed at an upper portion thereof, an inlet port formed at a lower portion thereof, a first inner space and a second inner space partially partitioned by a partition wall;
At least one compression tank installed in the first internal space of the case;
A refrigerant coil installed in the first inner space of the case and disposed adjacent to the hot-water storage tank;
A condenser and a compressor installed in a second internal space of the case and connected to the refrigerant coil through a refrigerant pipe; And
And a condenser radiating fan installed in the second internal space of the case and disposed adjacent to the condenser. The method according to claim 1,
Wherein at least one first damper is rotatably installed at the discharge port of the case by the first drive unit to open and close the discharge port. The method according to claim 1,
Wherein at least one second damper is rotatably installed at the inlet of the case by the second driving unit to open and close the inlet. The method according to claim 2,
Wherein the first damper rotates in an outer direction of the case, and the second damper rotates in an inner direction of the case. The method according to claim 1,
And one or more communication openings for communicating the first inner space and the second inner space are provided at one side of the partition wall. The method of claim 5,
And the communication opening is such that the third damper is rotatably provided by the third driving unit to open and close the communication opening. The method according to claim 1,
Wherein the partition wall comprises a vertical partition wall arranged in a vertical direction in the case and a horizontal partition wall provided in a horizontal direction in the case. The method according to any one of claims 6 to 7,
Wherein the communication opening and the third damper are provided on the horizontal partition wall, and the upper end of the communication opening and the third damper are spaced apart from each other at a predetermined interval on the upper surface of the case to provide communication clearance. The method according to claim 1,
Wherein the refrigerant coil is arranged in a structure to cover the supercooling tank from the top in the first internal space. The method according to claim 1,
Wherein the refrigerant pipe of the outdoor unit comprises a refrigerant supply pipe for supplying the refrigerant from the outdoor unit to the refrigerant coil side and a refrigerant recovery pipe for recovering the refrigerant from the refrigerant coil to the outdoor unit side. The method according to claim 1,
And an air communication groove is formed between the hot-water storage tanks (15). The method according to claim 1,
And a control section to which the blower fan, the first driving section of the first damper, the second driving section of the second damper, and the third driving section of the third damper are electrically connected is provided at one side of the case 10 A cooling water cooling device. The method according to claim 1,
Wherein a temperature sensor (39) for sensing the temperature of the indoor space and a humidity sensor are installed at the inlet (10b) of the case (10).

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