KR20210148562A - Air conditioner with integrated structure - Google Patents

Abstract

The present invention relates to a cooling and heating machine having an integrated structure. The cooling and heating machine having an integrated structure includes: a body having first and second dividing parts provided therein and divided into first, second and third bodies by the first and second dividing parts as well as forming an exterior shape; a compressor provided in the third body and forming a refrigerant into gas in a high-temperature/high-pressure state; a liquid separator provided in the third body and removing moisture from the refrigerant collected by the compressor; a condenser provided in the first body and condensing the refrigerant supplied through the compressor; a first air blowing fan provided in the first body and blowing air made to be cold by the condenser; an evaporator provided in the second body and evaporating liquid supplied through the condenser; and a second air blowing fan provided in the second body and blowing the air made to be cold by the evaporator. The second air blowing fan is placed horizontally in the second body and a vent hole is provided on each side of an outer part of the second body to enable four-way ventilation. Therefore, the present invention is capable of preventing the overheating of a compressor by having a bypass pipe.

Description

Air conditioner with integrated structure

The present invention relates to an air conditioner having an integrated structure, and more particularly, to an air conditioner having an integrated structure capable of blowing air in four directions by horizontally disposing a second blowing fan inside a second body.

In general, a cooling device is a device that cools the surrounding air by circulating a refrigerant.

The above-described cooling device includes an indoor unit and an outdoor unit mainly composed of a compressor, a condenser, and an evaporator.

Accordingly, the indoor unit emits cold air and the outdoor unit emits hot air, thereby cooling the room.

However, the conventional indoor unit and outdoor unit separation type air conditioner as described above have disadvantages in that installation is limited and movement is difficult.

In this regard, in Korea Registered Utility Plan No. 20-0168801, an integrated air conditioner that is convenient to move is developed and disclosed by forming an indoor unit and an outdoor unit in one body.

However, the integrated air conditioner according to the prior art, as the air outlet is formed in one direction, causes inconvenience in using a large space and a large number of people.

Korean Registered Patent No. 20-0168801

Accordingly, an object of the present invention has been devised to solve the problems of the prior art as described above, and by arranging the second blowing fan horizontally inside the second body, an air conditioner having an integrated structure capable of blowing in four directions is provided. will provide

According to a feature of the present invention for achieving the object as described above, the first compartment and the second compartment are provided therein, and the first body, the second body, and the third by the first compartment and the second compartment A body partitioned into a body and forming an external shape, a compressor provided inside the third body to form a refrigerant into a high-temperature and high-pressure gas, and a compressor provided inside the third body to remove moisture from the refrigerant recovered by the compressor a liquid separator; a condenser provided inside the first body for condensing the refrigerant supplied through the compressor; a first blowing fan provided inside the first body for blowing air cooled by the condenser; It is provided in the body and is configured to include an evaporator for evaporating the liquid supplied through the condenser, and a second blowing fan provided inside the second body and blowing air cooled by the evaporator, the second blowing fan is The second body is horizontally disposed inside the second body, and ventilation holes are provided on each outer surface of the second body to provide ventilation in four directions.

A four-way valve for switching the flow of refrigerant is provided inside the body, and cooling and heating are possible by the four-way valve.

The condenser and the evaporator are characterized in that each is provided with an expansion valve.

A bypass pipe for allowing a refrigerant to flow into the compressor is further provided in the pipe connecting the condenser and the evaporator, and the bypass pipe and the pipe connecting the condenser and the evaporator are plate-shaped inside the third body to allow mutual heat exchange. It is characterized in that a heat exchanger is further provided.

A capillary tube for reducing the temperature of the refrigerant that has passed through the bypass tube is further provided between the bypass tube and the plate heat exchanger while being located inside the third body, and the refrigerant passing through the capillary tube passes through a tube connecting the condenser and the evaporator The refrigerant is characterized in that heat exchange is made through a plate heat exchanger.

The air conditioner having an integrated structure according to the present invention has the following effects.

In the present invention, as the compressor, the condenser, and the evaporator are integrally configured, installation and movement are convenient.

In the present invention, as the second blowing fan is installed horizontally inside the second body, there is an advantage that air blown through the evaporator is blown in four directions.

In the present invention, there is an advantage in that overheating of the compressor is prevented as the bypass pipe is provided.

1 is a perspective view showing the configuration of a preferred embodiment of an air conditioner having an integrated structure according to the present invention;
2 is a perspective view showing the configuration of a preferred embodiment of the air conditioner having an integrated structure according to the present invention;
3 is a side view showing the inside of the first body constituting a preferred embodiment of the air conditioner having an integrated structure according to the present invention;
4 is a side view showing the inside of the first body constituting a preferred embodiment of the air conditioner having an integrated structure according to the present invention;
5 is a side view showing the inside of the first body constituting a preferred embodiment of the air conditioner having an integrated structure according to the present invention;
6 is a perspective view showing the inside of a second body constituting a preferred embodiment of the air conditioner having an integrated structure according to the present invention;
7 is a perspective view showing the inside of a second body constituting a preferred embodiment of the air conditioner having an integrated structure according to the present invention;
8 is a perspective view showing the inside of the first body constituting a preferred embodiment of the air conditioner having an integrated structure according to the present invention;

Hereinafter, a preferred embodiment of the air conditioner having an integrated structure according to the present invention will be described with reference to the drawings.

As shown in Figures 1 to 8, an embodiment of the air conditioner having an integrated structure according to the present invention is shown. That is, FIGS. 1 to 2 are perspective views showing the configuration of a preferred embodiment of the air conditioner having an integrated structure according to the present invention, and FIGS. 3 to 5 are preferred embodiments of the air conditioner having an integrated structure according to the present invention. A side view showing the inside of the first body constituting it is shown, and FIGS. 6 to 7 are perspective views showing the inside of the second body constituting a preferred embodiment of the air conditioner having an integrated structure according to the present invention, 8 is a perspective view showing the inside of the first body constituting a preferred embodiment of the air conditioner having an integrated structure according to the present invention.

As shown in these drawings, the air conditioner having an integrated structure according to the present invention is provided with a first partition 101 and a second partition 102 therein, and a first partition 101 and a second partition. The first body 110 , the second body 120 , and the third body 130 are divided by the part 102 and the body 100 forming an external shape is provided inside the third body 130 . A compressor 210 that forms a refrigerant into a high-temperature and high-pressure gas, a liquid separator 220 that is provided inside the third body 130 and removes moisture from the refrigerant recovered by the compressor 210; A condenser 310 provided in the body 110 and condensing the refrigerant supplied through the compressor 210, and a second agent provided in the first body 110 and blowing air cooled by the condenser 310 1 blowing fan 320, an evaporator 410 provided inside the second body 120 and evaporating the liquid supplied through the condenser 310, and an evaporator provided inside the second body 120 ( It is configured to include a second blowing fan 420 that blows the air cooled by 410), and in particular, the second blowing fan 420 is horizontally disposed inside the second body 120, the second body (120) Ventilation holes 123 are provided on each external surface, respectively, so that ventilation is made in four directions.

The body 100 is made of a shape in which the inside is hollow and the upper and lower surfaces are connected by a frame while being spaced apart by a predetermined distance, and forms an outer shape.

The upper surface of the body 100 is further provided with a discharge unit 104 for discharging the hot or cold air formed by the condenser 310 to the outside by the first blowing fan 320 .

In addition, the first compartment 101 and the second compartment 102 for dividing the inside of the body 100 are provided inside the body 100 .

The first partition 101 and the second partition 102 are formed in a shape similar to a rectangular flat plate to be installed horizontally inside the body 100, and the first partition 101 and the second partition part ( 102) are provided in a state spaced apart from each other by a predetermined distance.

As the first compartment 101 and the second compartment 102 are provided, the body 100 is divided into a first body 110 , a second body 120 , and a third body 130 . do.

That is, in the body 100 , the first body 110 is located at the upper portion, the third body is located at the lower portion, and the second body 120 is located between the first body 110 and the third body 130 . do.

A compressor 210 is provided inside the third body 130 .

The compressor 210 is for compressing a refrigerant to a high pressure, and the refrigerant is changed to a high temperature state in the process of being compressed to a high pressure.

In addition, the liquid separator 220 is provided inside the third body 130 .

The liquid separator 220 is to remove liquid remaining in the refrigerant recovered after a cooling or heating cycle, and to supply gas into the compressor 210 .

In addition, a plate heat exchanger 230 is provided inside the third body 130 .

The plate heat exchanger 230 allows heat exchange between the refrigerant passing through the condenser 310 and the evaporator 410 and the refrigerant passing through the bypass pipe to be described later.

That is, the plate heat exchanger 230 is formed in a shape similar to a hexahedron and has different conduits formed therein, and heat exchange can be performed between refrigerants passing through different conduits.

In addition, a water tank 134 is further provided inside the third body 130 .

The water tank 134 receives and stores water generated while the refrigerant circulates, and a pressure sensor is further provided on the lower surface of the third body 130 on which the water tank 134 is placed. If water is stored in the interior of the 134 or higher, it may be guided to empty the water tank 134 .

In addition, a hole penetrating up and down is further formed on the bottom surface of the third body 130 , and the hole is for preventing the electric wire for applying power from being exposed to rain or the like.

In addition, a control system for controlling the air conditioner having an integrated structure according to the present invention is further provided inside the third body 130 .

In addition, a four-way valve 250 for switching the flow of refrigerant is provided inside the body 100 , and heating and cooling are possible with the four-way valve 250 .

That is, the four-way valve 250 is provided inside the first body 110 , and accordingly the functions of the condenser 310 and the evaporator 410 are switchable.

Accordingly, the air conditioner having an integrated structure according to the present invention enables cooling and heating.

In addition, in the present invention, as wheels are provided on the bottom surface of the body 100, movement and installation are easily configured.

A condenser 310 is provided inside the first body 110 .

The condenser 310 is for condensing a high-temperature, high-pressure and gaseous refrigerant through the compressor 210 , and the refrigerant passing through the condenser 310 has a liquid phase and room temperature.

Such, the condenser 310 is made by including two heat exchangers in the present invention.

In addition, a first blowing fan 320 is provided inside the first body 110 .

The first blowing fan 320 continuously emits heat while the high-temperature, high-pressure and gaseous refrigerant from the compressor 210 is condensed through the condenser 310. At this time, it is for

In addition, expansion valves 330 and 430 are respectively provided in the condenser 310 and the evaporator 410 .

The expansion valves 330 and 430 expand by lowering the pressure of the refrigerant having a high pressure and liquid phase, and the refrigerant passing through the expansion valves 330 and 430 takes the form of a mixture of a liquid phase and a gas phase.

The expansion valves 330 and 430 are respectively provided in the condenser 310 and the evaporator as the functions of the condenser 310 and the evaporator 410 can be switched in the air conditioner having an integrated structure according to the present invention.

That is, the condenser 310 is provided with a first expansion valve 330 , and the evaporator 410 is provided with a second expansion valve 430 .

An evaporator 410 is provided inside the second body 120 .

In the evaporator 410 , the low-temperature and low-pressure refrigerant supplied from the second expansion valve 430 absorbs latent heat of evaporation from the object to be cooled and evaporates. At this time, the surrounding air becomes cold.

This, the evaporator 410 is made by including four heat exchangers.

In addition, a second blowing fan 420 is provided inside the second body 120 .

The second blowing fan 420 is provided inside the second body 120 and is for blowing the air cooled by the evaporator 410 to the outside.

The second blowing fan 420 is horizontally disposed inside the second body 120 , and accordingly, the flow of air by the second blowing fan 420 is guided in the lateral direction of the second body 120 . will be.

That is, the air cooled through the evaporator 410 is blown to the outside by the second blowing fan 420 .

In addition, the refrigerant that has become a gas at room temperature through the evaporator 410 is returned to the compressor 210 to form one cooling cycle, and it is preferable that the cooling cycle be continuously performed.

As described above, the compressor 210 and the condenser 310, the condenser 310 and the evaporator 410, the evaporator 410 and the liquid separator 220, the liquid separator 220 and the compressor 210 allow the refrigerant to flow. A conduit is provided and interconnected, thereby circulating the refrigerant.

In addition, frost is formed in the condenser 310 or the evaporator 410 as the refrigerant is evaporated, and since this frost reduces the performance of the condenser 310 or the evaporator 410, defrosting is performed to remove it.

The defrost is to remove the frost by supplying hot-gas formed from the compressor 210 to the condenser 310 or the evaporator 410, and for this purpose, the compressor 210 and the condenser 310 or the evaporator ( 410) will have to be further formed.

Of course, a check valve for properly supplying the hot gas to the condenser 310 or the evaporator 410 should also be provided.

On the other hand, a bypass pipe 240 for allowing the refrigerant to flow into the compressor 210 is further provided in the pipe connecting the condenser 310 and the evaporator 410 , and the bypass pipe 240 is provided inside the third body 130 . A plate heat exchanger 230 is further provided so that the pipe 240, the condenser 310, and the pipe connecting the evaporator 410 can exchange heat with each other.

The bypass pipe 240 is to allow the refrigerant to flow into the compressor 210 from the pipe connecting the condenser 310 and the evaporator 410, and the bypass pipe 240 has a solenoid valve 242. It is preferable to be formed so that it can be opened only under certain conditions as it is provided.

That is, the bypass pipe 240 is to prevent overheating of the compressor 210, and is configured to cool the compressor 210 by opening the solenoid valve 242 when the temperature of the compressor 210 is greatly increased. This is preferable.

The plate-type heat exchanger 230 has a shape similar to that of a square plate, and allows the bypass pipe 240 and the pipe connecting the condenser 310 and the evaporator 410 to exchange heat with each other.

In addition, a capillary tube 241 for reducing the temperature of the refrigerant that has passed through the bypass tube 240 is further disposed between the bypass tube 240 and the plate heat exchanger 230 while being located inside the third body 130 . provided, the refrigerant passing through the capillary tube 241 and the refrigerant passing through the pipe connecting the condenser 310 and the evaporator 410 are heat exchanged through the plate heat exchanger 230 .

The capillary tube 241 allows the refrigerant flowing from the bypass tube 240 to the plate heat exchanger 230 to expand once more before passing through the plate heat exchanger 230 to reduce the temperature of the refrigerant. (330,430).

As such, the temperature of the refrigerant passing through the capillary tube 241 may fall, and the refrigerant flowing through the condenser 310 and the evaporator 410 and the refrigerant passing through the capillary 241 will have a temperature difference.

Accordingly, the refrigerant flowing through the condenser 310 and the evaporator 410 and the refrigerant passing through the capillary tube 241 exchange heat through the plate heat exchanger 230, and the temperature of the refrigerant passing through the capillary tube 241 is higher. Due to the low temperature, the temperature of the refrigerant flowing through the condenser 310 and the evaporator 410 is further cooled.

In addition, a dryer may be further provided between the condenser 310 and the pipe connecting the evaporator 410 .

On the other hand, the outside of the body 100 is provided with a cover.

A first body cover 111 is provided on the outer surface of the first body 110 .

The first body cover 111 is formed to surround the outer surface of the first body 110, a perforated hole 103 through which air can be introduced into the first body 110 is formed, The perforated holes 103 are formed in two of the four surfaces of the first body cover 111 in the present invention according to the number of heat exchangers provided in the condenser 310 .

In addition, the display unit 112 is provided on the other surface of the first body cover 111 where the perforated hole 103 is not formed.

The display unit 112 displays the current temperature, the set temperature, the blowing strength, and the like so that the user can see it.

In addition, a third body cover 131 is provided on the outside of the third body 130 .

The third body cover 131 is formed to surround the outer surface of the third body 130 , and one of the four surfaces has an opening and closing part 132 for internal maintenance or separation of the water tank 134 . more formed

In addition, a control opening/closing part 133 for maintenance of the control system is further formed on another one of the four surfaces of the third body cover 131 .

In addition, a second body cover 121 is provided on the outside of the second body 120 .

The second body cover 121 is formed to surround the outer surface of the second body 120 , and is divided into an upper cover 122 and a lower cover 124 .

The upper cover 122 is provided with a ventilation hole 123 through which the cold or hot air formed in the process of evaporation or condensation can be discharged to the outside by the second blowing fan 420 .

The lower cover 124 has a perforated hole 103 through which air can be introduced into the second body 120 is formed, and the perforated hole 103 is the number of heat exchangers provided in the evaporator 410 . In accordance with the present invention, a perforated hole 103 is formed on the front surface of the lower cover 124 .

In the above description, the case of cooling was described as an example, but below, the case of heating is briefly described as an example.

First, high-temperature, high-pressure and gaseous refrigerant from the compressor 210 will flow to the evaporator 410 .

Next, as the process of condensing the refrigerant supplied from the compressor 210 is performed in the evaporator 410 , hot air is generated.

The hot air generated as the evaporator 410 condenses the refrigerant is blown to the outside by the second blowing fan 420 .

Next, the refrigerant condensed through the evaporator 410 will flow to the condenser 310 .

In the condenser 310 , as the process of evaporating the condensed refrigerant supplied from the evaporator 410 is performed, cold air is generated.

Here, evaporation of the refrigerant is performed through the first expansion valve 330 provided in the condenser 310 .

As such, the cold air generated as the condenser 310 evaporates the refrigerant is blown to the outside by the first blowing fan 320 .

Next, the refrigerant evaporated through the condenser 310 will flow to the liquid separator 220 .

The liquid separator 220 removes moisture from the refrigerant supplied from the condenser 310 and supplies it to the compressor 210 again.

That is, in the air conditioner having an integrated structure according to the present invention, as the compressor, the condenser, and the evaporator are integrally configured, installation and movement are convenient.

In addition, in the air conditioner having an integrated structure according to the present invention, as the second blowing fan is installed horizontally inside the second body, the air blown through the evaporator can be blown in four directions.

In addition, in the air conditioner having an integrated structure according to the present invention, as a bypass pipe is provided, overheating of the compressor is prevented.

The scope of the present invention is not limited to the embodiments illustrated above, and many other modifications based on the present invention will be possible for those skilled in the art within the technical scope as described above.

100. Body 101. First compartment
102. Second compartment 103. Perforated hole
104. Discharge part 110. First body
111. First body cover 112. Display unit
120. Second body 121. Second body cover
122. Top cover 123. Vent
124. Lower cover 130. Third body
131. Third body cover 132. Opening/closing part
133. Control opening and closing part 134. Water tank
210. Compressor 220. Liquid Separator
230. Plate heat exchanger 240. Bypass pipe
241. Capillary tube 242. Solenoid valve
250. 4-way valve 310. Condenser
320. First blowing fan 330. First expansion valve
410. Evaporator 420. Second blower fan
430. Second expansion valve

Claims (5)

a body having a first compartment and a second compartment therein, and being divided into a first body, a second body, and a third body by the first compartment and the second compartment and forming an external shape;
a compressor provided inside the third body and forming a refrigerant into a high-temperature and high-pressure gas;
a liquid separator provided inside the third body to remove moisture from the refrigerant recovered by the compressor;
a condenser provided inside the first body and condensing the refrigerant supplied through the compressor;
a first blowing fan provided inside the first body and blowing air cooled by the condenser;
an evaporator provided inside the second body and evaporating the liquid supplied through the condenser;
It is provided in the second body and is configured to include a second blowing fan for blowing the air cooled by the evaporator,
The second blower fan is horizontally disposed inside the second body, and ventilation holes are provided on each outer surface of the second body, so that ventilation is made in four directions. The method of claim 1,
A four-way valve for switching the flow of refrigerant is provided inside the body, and the air conditioner having an integrated structure, characterized in that heating and cooling is possible by the four-way valve. The method of claim 1,
The condenser and the evaporator are each provided with an expansion valve. The method of claim 1,
A bypass pipe for allowing a refrigerant to flow into the compressor is further provided in the pipe connecting the condenser and the evaporator, and a plate-shaped bypass pipe and a pipe connecting the condenser and the evaporator can exchange heat with each other inside the third body. Air conditioner having an integrated structure, characterized in that the heat exchanger is further provided. 5. The method of claim 4,
A capillary tube for reducing the temperature of the refrigerant passing through the bypass tube is further provided between the bypass tube and the plate heat exchanger while being located inside the third body, and the refrigerant passing through the capillary tube passes through a tube connecting the condenser and the evaporator The refrigerant is an air conditioner having an integrated structure, characterized in that heat exchange is made through a plate heat exchanger.

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