WO2020080674A1

WO2020080674A1 - Ice storage-type air conditioner

Info

Publication number: WO2020080674A1
Application number: PCT/KR2019/011319
Authority: WO
Inventors: 이병선
Original assignee: 이병선
Priority date: 2018-10-16
Filing date: 2019-09-03
Publication date: 2020-04-23
Also published as: KR101947330B1

Abstract

Disclosed is an ice storage-type air conditioner. The disclosed ice storage-type air conditioner comprises: an air conditioner main body having an air inlet through which outside air is introduced and an air outlet through which cooled cooling air is discharged; a cooling chamber unit installed inside the air conditioner main body and filled with ice storage materials; a cooling means installed inside the air conditioner main body to cool and freeze the ice storage materials filled in the cooling chamber unit; a blower fan installed to be connected to the air outlet to discharge the air to the outside through the air outlet; and a plurality of air cooling pipes formed in a linear pipe shape, installed to vertically penetrate the cooling chamber unit, arranged side by side in parallel, and cooled by the frozen ice storage materials in the cooling chamber unit to cool the outside air introduced from the air inlet and then move the cooled outside air to the blower fan.

Description

Ice storage air conditioner

Regarding an ice storage type air conditioner, more specifically, after freezing ice storage materials such as ice, the indoor air is passed through an air cooling pipe passing through the ice storage material, thereby discharging the cooled air into the room to allow indoor cooling. It relates to an ice-cooled air conditioner.

The air conditioner uses evaporation heat that takes heat away from the surroundings when the liquid evaporates, and Freon gas is used as a refrigerant that is easily evaporated even at low temperatures.

The air conditioner circulates to the indoor unit along the piping in the liquid state, and evaporates from the indoor unit's internal cooling fins to absorb heat when it becomes gas, and eventually cools the surrounding area. It is configured to come out and evaporate from the indoor unit and the gaseous refrigerant is circulated back to the liquid state by the compressor and the condenser. The refrigeration cycle is divided into compression, condensation, expansion, and evaporation processes, and each of these processes includes components of a compressor, a condenser, an expansion valve, and an evaporator.

Such a conventional air conditioner has a high manufacturing cost, such as the use of a compressor with a large capacity, and has a disadvantage in that it also has a large amount of power consumption. The air conditioner using axial refrigeration energy that freezes water in the interior of the refrigeration unit during the late night time when power is consumed is low and cools and cools the wind by using this ice cold air is presented. Is becoming.

However, the air conditioner disclosed in Patent No. 10-0856030 is installed in the interior of the main body 10, and since the air pipes are arranged in a spiral shape so that cool air is generated while the air flowing in from the inlet grill is moved, the cooling efficiency is not high and the cold air There is a problem that this does not come out properly, and the power consumption is also not much reduced compared to the existing air conditioner.

In addition, in the air conditioner disclosed in Patent No. 10-0856030, no means are provided for discharging condensate generated in the air conditioner. In addition, in the conventional air conditioner, a hose is separately connected to draw condensate to the outside, but the hose is removed to the outside. There was a hassle, such as the need to install to remove, and to connect the drainage pump to the discharge hose according to the installation structure of the air conditioner.

In addition, in the conventional air conditioner, there is a discomfort such as the exhausted cold wind is not transmitted to a distant place, and it takes a long time to cool the entire room.

<Prior Art Document> Korean Registered Patent No. 10-0856030

The present invention has been devised to solve the conventional problems as described above, and is configured such that the air cooling pipes passing through the ice storage material are arranged side by side, so that the cooling efficiency of the air is improved and the air circulator is easy and It is configured to be able to be attached and detached to improve the blowing air straightness of cooling air so that cold air can be blown to far places.In addition, the generated condensate is atomized into fine granular water to discharge water vaporized moisture to the interior. It is an object to provide an ice storage type air conditioner having an improved structure so as to increase humidity.

In order to achieve the above object, the ice-type air conditioner of the present invention includes an air conditioner main body having an air inlet through which external air flows and an air outlet through which cooled cooling air is discharged; A cooling chamber unit installed inside the air conditioner body and filled with ice storage material; A cooling means installed in the air conditioner body to cool the ice storage material filled in the cooling chamber to freeze; A blower fan installed to be connected to the air outlet to discharge air to the outside through the air outlet; It consists of a straight pipe, is installed so as to penetrate the cooling chamber portion up and down, and is configured to be arranged in parallel in a plurality, cooled by the ice storage material in the cooling chamber portion, the external air introduced from the air inlet And a plurality of air cooling tubes configured to cool and move to the blowing fan.

Each of the plurality of air cooling tubes may be configured to have a ratio of diameter and length of 1:10 to 1: 1000.

Each of the plurality of air cooling tubes may be configured to have a length of 700 mm or more when the diameter is 7 to 9 m.

The plurality of air cooling pipes may be composed of 1600 to 1700 when the cooling chamber has a cylindrical shape having a diameter of 400 mm.

In order to improve the airflow straightness of the cooling air discharged through the air outlet, a holder unit detachably detaching an air circulator from the top of the air conditioner body; further comprising a holder unit, the holder unit, the top of the air conditioner body It is fixedly installed, a seating groove is formed in which the base of the air circulator is seated, the holder body having a button movement hole through the center of the seating groove; A plurality of front and rear moving bars which are radially installed on the upper rim of the holder main body and penetrated toward the center of the seating groove from the outside to be moved back and forth; A pressure pad installed at each inner end of the plurality of front-rear moving bars to press and fix the circumference of the base of the air circulator seated in the seating groove; Each of the plurality of front and rear moving bars are inserted, and provided between the protrusions formed on the front and rear moving bars and the inner surface of the holder body to provide elastic force to move the plurality of front and rear moving bars in a direction toward the center of the seating groove. 1 spring; A button part inserted into the button movement hole and installed to be movable up and down; A second spring installed between the button portion and the upper end of the air conditioner body to provide a restoring force to raise the button portion to its original state; It is formed radially outwardly of the button portion, and is configured to be elevated in conjunction with the elevation of the button portion, so that the projections are caught in an ascending position to maintain the backward and forward movement of the plurality of moving bars, and when descending, they deviate from the projections. Includes; a plurality of engaging portions to allow the plurality of front-rear moving bar to advance, including, is configured to be installed in the air conditioner main body is installed so that the condensate water generated during operation of the air conditioner is collected apart, installed inside the air conditioner body Further comprising a condensate discharge unit to increase the indoor humidity by vaporizing the condensate collected in the sump to the outside, and the condensate discharge unit is installed inside the main body of the air conditioner to receive and receive condensate from the sump. Condensate receiving tank to be; A condensate transfer unit connecting the condensate receiving tank and the collecting tank to transfer condensate accommodated in the collecting tank to the condensate receiving tank; An ultrasonic vibrator which is installed at the bottom of the condensate receiving tank and generates ultrasonic waves in the vibrations to generate condensed water contained in the condensate receiving tank to form granulated fine granular moisture; A T-shaped duct formed of a "T" shaped pipe, and a front end portion installed to be connected to an open upper portion of the condensate receiving tank is connected to a condensate outlet formed in the air conditioner body through a corrugated pipe; It is installed at the rear end of the T-type duct, and blows toward the front end of the T-type duct, thereby forming an airflow through which the atomized moisture generated in the condensate receiving tank is discharged to the outside through the condensate outlet. Moisture discharge fan; It is installed in the main body of the air conditioner, and is connected to the condensate receiving tank to supply the phytoncide to the condensate receiving tank, so that the phytoncide supply unit to discharge the moisture discharged through the condensate outlet in the form containing the phytoncide; When the condensate discharge unit is driven, only the condensate outlet of the air inlet and the condensate outlet is opened, and when the blower fan is driven, the air inlet and the air inlet are opened so that only the air inlet of the air inlet and the condensate outlet is opened. It may be configured to further include a shutter unit for selectively opening and closing any one of the condensate outlet.

According to the above, the ice-cooled air conditioner of the present invention is composed of a large number of air cooling pipes arranged side by side, so that the contact area between the multiple air cooling pipes and the ice storage material increases, so that the cooling efficiency is significantly improved compared to the existing one. It has an effect.

In addition, the present invention is provided with a holder unit capable of detachably mounting the air circulator on the upper end of the air conditioner body, thereby easily mounting and operating the air circulator, thereby cooling air discharged through the air outlet of the air conditioner body. The air circulator can be transmitted to a distant place with high linearity blowing wind, so it has an effect of excellent indoor cooling efficiency.

In particular, in the present invention, the holder unit simply pushes the circumference of the plurality of front and rear movement bars automatically while the user presses the button, and the pressure pad presses the circumference of the base of the air circulator as soon as the button is pressed. Since it is fixed stably, the user can more conveniently mount the holder unit, and there is an effect that the air circulator can be more stably and firmly mounted on the air conditioner body.

In addition, the present invention provides the water vapor in the indoor atmosphere by providing the water vapor in the indoor atmosphere by allowing the condensed water generated during cooling to be atomized into fine granular water through the condensate discharge unit, and to discharge the water in the form of the atomized water vapor to the outside. By doing so, it is possible to increase the indoor humidity, and it is possible to humidify the room while discharging condensate more easily.

1 is an external view of an ice storage type air conditioner according to an embodiment of the present invention,

2 is a view showing the internal configuration for air cooling of an ice-cooled air conditioner according to an embodiment of the present invention,

Figure 3 is a cross-sectional view of the cooling chamber shown in Figure 2,

Figure 4 is a cross-sectional view showing a holder unit of the ice-shaft type air conditioner of the present invention,

5 is a view showing the operating state of the holder unit of Figure 4,

6 is a view as viewed from the top of the operating state of the holder unit of Figure 4,

7 is a view schematically showing a specific configuration of a condensate discharge unit in an ice-shaft type air conditioner according to an embodiment of the present invention,

8 is a view showing the operating state of the shutter unit shown in Figure 2,

9 is a control block diagram of an ice storage type air conditioner according to an embodiment of the present invention.

The above objects, other objects, features and advantages of the present invention will be readily understood through the following preferred embodiments related to the accompanying drawings. However, the present invention is not limited to the embodiments described herein and may be embodied in other forms. Rather, the embodiments introduced herein are provided to ensure that the disclosed contents are thorough and complete and that the spirit of the present invention is sufficiently conveyed to those skilled in the art.

In the present specification, when a component is referred to as being on another component, it means that it may be formed directly on another component, or a third component may be interposed between them. In addition, in the drawings, the thickness of the components is exaggerated for effective description of the technical content.

Embodiments described in the present specification will be described with reference to cross-sectional views and / or plan views, which are ideal exemplary views of the present invention. In the drawings, the thicknesses of the films and regions are exaggerated for effective description of technical content. Therefore, the shape of the exemplary diagram may be modified by manufacturing technology and / or tolerance. Therefore, the embodiments of the present invention are not limited to the specific shapes shown, but also include changes in shapes generated according to the manufacturing process. For example, the etched area illustrated at a right angle may be rounded or have a predetermined curvature. Therefore, the regions illustrated in the drawings have attributes, and the shapes of the regions illustrated in the drawings are for illustrating a specific shape of the region of the device and are not intended to limit the scope of the invention. Although terms such as first and second are used to describe various components in various embodiments of the present specification, these components should not be limited by these terms. These terms are only used to distinguish one component from another component. The embodiments described and illustrated herein also include its complementary embodiments.

The terminology used herein is for describing the embodiments, and is not intended to limit the present invention. In this specification, the singular form also includes the plural form unless otherwise specified in the phrase. As used herein, 'comprises' and / or 'comprising' does not exclude the presence or addition of one or more other components.

In describing the following specific embodiments, various specific contents have been prepared to more specifically describe and understand the invention. However, a reader who has knowledge in this field to understand the present invention can recognize that it can be used without these various specific contents. It should be noted that, in some cases, parts that are commonly known in describing the invention and which are not significantly related to the invention are not described in order to prevent chaos from coming into account in explaining the present invention.

Hereinafter, with reference to the drawings, a description will be given of the ice-cooled air conditioner 10 according to an embodiment of the present invention.

The ice-shaft type air conditioner 10 of the present invention includes an air conditioner main body 101, a cooling chamber part 110, a blower fan 120, a cooling means 130, an air cooling tube 140, a water collecting container 150, and a holder unit. (200), is configured to include a condensate discharge unit 300.

1 to 3, the air conditioner body 101 is made of a rectangular box shape, the air outlet 105 is formed on the upper front, and the air inlet 103 is formed on the lower front.

A plate 107 is installed inside the air conditioner body 101, and the plate 107 is configured such that the interior space of the air conditioner body 101 is divided into an upper space S1 and a lower space S2. 107) is formed with a communication port (107a), the lower end of the plate 107 is extended to the lower portion is configured to be installed insulated duct 108 is connected to the communication port (107a).

The cooling chamber 110 is installed inside the air conditioning body 101, and is installed to be connected to the lower end of the heat insulation duct 108. The cooling chamber 110 is configured to be filled in the ice storage material 112, where the ice storage material 112 may be formed of water or a latent heat material having a phase change temperature of 0 ° C.

The cooling chamber unit 110 may be formed in a cylindrical shape vertically or vertically.

In addition, the ice storage material 112 may be configured in the form of cotton or squyrofoam added. That is, when the ice storage material 112 is made of water, it may be a form in which cotton or styrofoam is mixed with water.

Blowing fan 120 is installed to connect the communication port (107a) and the air outlet 105, the air introduced through the air inlet 103 into the lower space (s2) of the air conditioner body 101, the air cooling pipe ( 140) and through the communication port (107a), to form an air flow to be discharged through the air outlet (105).

2 and 3, the cooling means 130 is a configuration for freezing the ice storage material filled in the cooling chamber 110, a compressor 134, a condenser 132, like a cooling device such as a refrigerator , It is configured to include the configuration of the expansion valve 138, the evaporator 136, it may be configured to perform a refrigeration cycle through these components.

In the present invention, the evaporator 136 of the cooling means 130 is configured to be installed inside the cooling chamber part 110 so that the refrigerant circulates, so that the ice storage material 112 in the cooling chamber part 110 is frozen.

Air cooling pipe 140 is composed of a plurality, is configured to penetrate the cooling chamber 110 up and down, a plurality of air cooling pipes 140 are configured to be arranged side by side in parallel, as shown in Figures 2 and 3, The air cooling tube 140 may be configured to be cooled by the frozen ice storage material 112.

In addition, the air cooling tube 140 may be made of a synthetic material or a metal material, and may be formed in a straight circular or square pipe shape.

In addition, the air cooling pipe 140 of the present invention, when the diameter of the cooling chamber 110 is 400 mm, may be composed of 1600 to 1700, and the ratio of the length of the air cooling pipe 140 to the diameter is 1:10 to 1: 1000.

In the present embodiment, the air cooling pipe 140 may be 7 to 9 mm in diameter, and in this case, it is preferable to have a length of 700 mm or more.

In the present invention, according to the operation of the blower fan 120, the outside air is introduced into the lower space (s2) through the air inlet 103, passing through a plurality of air cooling tubes 140, cooled, cooled The cooling air is configured to be discharged to the outside through the air outlet 105 through the blower fan 120.

In the present invention, a myriad of air cooling pipes 140 in the form of straight pipes are installed to penetrate the cooling chamber 110, thereby maximizing the contact area with the ice storage material 112, and accordingly, the air cooling pipes 140 ), The air passing through can be cooled in an instant, so that the cooling efficiency can be greatly improved compared to the air conditioner disclosed in Korean Patent Registration No. 10-0856030.

In the present invention, the cooling air is discharged through the air outlet (105), whereby indoor cooling is achieved. Only the blowing power of the blowing fan (120) is not good for the straightness of the cooling air that is blown, so that the cooling air is not transmitted to a remote place. It can be done.

The holder unit 200 is installed on the upper surface of the air conditioner body 101, is configured to easily attach and detach the air circulator, so that the air circulator can be stably and securely mounted on the upper surface of the air conditioner body 101. It is composed.

1, 4 to 4, 6, the holder unit 200 is the holder body 201, the front and rear moving bar 212, the pressure pad 214, the first spring 216, the button unit 220 , It is configured to include a second spring 225, the locking portion 230.

The holder body 201 is formed in a cylindrical shape, and a coupling border 202 is formed at a lower edge, and the coupling frame 202 is coupled to the upper surface of the air conditioner body 101 by fastening means such as bolts. The main body 201 may be fixed to the air conditioner body 101.

In addition, the holder body 201 is configured such that a seating groove 203 in which the base B of the air circulator is seated is formed on the upper portion, and a button movement hole 204 is formed in the center of the bottom surface of the seating groove 203. .

The front-rear moving bar 212 is composed of four, and is radially installed on the upper edge of the holder body 201 and penetrated toward the center of the seating groove 203 from the outside to be installed to move back and forth. In addition, a handle 212a is provided at a rear end of the front-rear moving bar 212 to pull back and forth the front-rear moving bar 212 by a user holding it. In addition, the protrusion 217 is formed to protrude on the outside of the middle portion of the front-rear moving bar 212.

The pressure pad 214 is installed at the inner end of each front-rear moving bar 212, and presses the circumferential surface of the base B of the air circulator seated in the seating groove 203 to seat the air circulator in the seating groove ( 203). At this time, the pressure pad 212 is provided with a cushioning material 215 made of a silicone or rubber material, so as to prevent damage such as scratches when pressing the base B of the air circulator.

The first spring 216 is installed on each of the plurality of front and rear moving bars 212, and is configured to insert the front and rear moving bars 212, the protrusion 217 and the holder body 201 formed on the front and rear moving bars 212 It is installed between the inner wall surface of the front and rear moving bar 212 is configured to provide an elastic force to move in the direction toward the center of the seating groove (203).

That is, when the user pulls the front-rear moving bar 212 rearward, the first spring 216 may be compressed to be configured to impart elastic force to advance to the original state.

The button part 220 is inserted into the button movement hole 204 and installed to be able to slide up and down.

The second spring 225 is installed between the button unit 220 and the upper end of the air conditioner main body 101, and when the button unit 220 is pressed by external force, it is compressed to restore the restoring force to which the button unit 220 rises to its original state. to provide.

The engaging portion 230 is composed of four equally the number of the front-rear moving bar 212, each of the horizontal bar 231 to form a "b" shape, and vertically from the outer end of the horizontal bar 231 It is composed of a vertical bar 233 is formed.

Each of the locking portions 230 is formed to extend radially outward from the outer circumferential surface of the button portion 220, and is configured to move up and down in conjunction with the lifting of the button portion 220.

As shown in FIG. 4, in the raised position of the locking portion 230, the protrusion 217 is hung on the upper end 234 of the vertical bar 233, and the front-rear moving bar 212 may be configured to maintain a reversed state. In addition, as shown in FIG. 4, in the state in which the projection 217 is hung on the top 234 of the vertical bar 233, when the button portion 220 descends and the locking portion 230 descends, the projection 217 ), The lower end of the vertical bar 233 is separated, and each of the front and rear moving bars 212 is inserted into the seating groove 203 by advancing toward the center of the seating groove 203 by the elastic force of the first spring 216. Each press pad 214 can press the circumference of the base B of the air circulator.

On the other hand, in the present invention, the top 234 of the vertical bar 233 is made of an inclined shape, the projection 230 of the front and rear moving bar 212 in the raised position is the vertical bar 233 When located at the front of the top 234, when the user pulls the handle 212a and retracts the front-rear moving bar 212, the protrusion 217 rides on the inclined top 234 of the vertical bar 233 and goes alone. 237 is configured to be hung on the top 234 of the vertical bar 233.

Therefore, before the user uses the holder unit 200 of the present invention, each forward and backward movement bar 212 is retracted, so that the projection 217 of each forward and backward movement bar 212 is at the top of the vertical bar 233. (234), so that each moving bar 212 to maintain the reversed state, and then simply insert the base (B) of the air circulator into the seating groove (203), the weight of the air circulator By pressing the button 220, the engaging portion 230 interlocking with this is lowered, the engaging portion 230 is separated from the projection 217, and each of the front and rear moving bars is moved by the first spring 216. 212 is advanced so that each pressure pad 214 presses the circumference of the base B of the air circulator, so that the air circulator can be stably mounted on the holder unit 200.

When the air circulator is easily mounted on the holder unit 200 and then the air circulator is operated, the cooling air discharged through the air outlet 105 is piggybacked along with the high airflow of the air circulator to move away. By being delivered to, the indoor cooling efficiency can be excellently improved.

On the other hand, in the present invention, in the cooling chamber 110, condensation may occur due to dew condensation in the freezing and melting process of the ice storage material 112, and this condensate is separated from the cooling chamber 110. In order to collect the condensate generated in the (110), the inside of the air conditioner body 101 may be configured such that the water collecting container 150 is installed under the cooling chamber 110.

The condensate discharge unit 300 is intended to increase the humidity in the room by granulating condensate collected in the water collecting container 150 into fine granular moisture to vaporize it, and discharging the water vaporized to the outside.

1 and 7, the condensate discharge unit 300 is a condensate receiving tank 310, a condensate transfer unit 320, an ultrasonic vibrator 335, a T-type duct 340, a water discharge fan 350, phytoncide It is configured to include a supply unit 360.

The condensate receiving tank 310 is installed inside the air conditioner main body 101 and is connected through a water collecting container 150 and a condensed water transfer unit 320 to receive and receive condensed water from the water collecting container 150.

The condensed water transfer unit 320 connects the water collecting container 150 and the condensate receiving tank 310 to transfer the condensate received in the water collecting container 150 to the condensate receiving tank 310.

The condensate transfer unit 320 connects the drain hole 321 formed on the lower side of the water collecting container 150, the inlet 322 formed on the upper side of the condensate receiving tank 310, and the drain hole 321 and the inlet 322. The connection flow path 324 to be installed, the first solenoid valve 325 is installed on the connection flow path 324 to open and close the drain hole 321, and is installed on the connection flow path 324 and collected in the water collecting container 150 It is configured to include a pump 326 for transferring the condensate to the condensate receiving tank 310 through the inlet 322.

In the present invention, when the water level sensor 329 is installed on the upper side of the water collecting container 150, the control unit 400 determines that the condensed water level of the water collecting container 150 from the water level sensor 329 is greater than or equal to a predetermined value. The solenoid valve 325 may be opened, and the pump 326 may be operated to transfer the condensate collected in the sump 150 to the condensate receiving tank 310.

The ultrasonic vibrator 335 is installed on the bottom surface of the condensate receiving tank 310 and is configured such that a power supply unit 330 is installed on the condensate receiving tank 310. The power supply unit 330 may be configured to supply the AC current to the ultrasonic vibrator 335 under the control of the control unit 400 so that the ultrasonic vibrator 335 generates ultrasonic waves.

The ultrasonic vibrator 335 generates vibration according to the frequency of the alternating current supplied from the power supply unit 125, and ultrasonic waves are generated by the vibration, and vibration is generated in the condensate received in the condensate storage tank 310 by the vibration. By doing so, the water particles on the water surface of the condensate are protruded to the water surface in a fine granular state, so that the condensate is in the form of water vapor.

In the present invention, the fine particles of water particles are generated and vaporized from the condensate accommodated in the condensate receiving tank 310 through the ultrasonic vibrator 335, which is the same as the principle of a known ultrasonic humidifier.

T-type duct 340 is made of a "T" -shaped piping, is installed to communicate with the open top of the condensate receiving tank 310, the front end portion 344 is formed in the air conditioner body condensate outlet 301 and corrugated pipe It is configured to be connected through (355), the rear end portion 342 is configured to be installed with a water discharge fan 350 for blowing the wind toward the front end portion 344.

The water discharge fan 350 is installed at the rear end portion 342 of the T-type duct 340, so that air is blown toward the front end portion of the T-type duct 340, so that the ultrasonic vibrator 335 in the condensate receiving tank 310 ) To form an air stream that allows water vaporized in the form of fine grains to be discharged to the outside through the condensate outlet 301. The water discharge fan 350 may be configured to be operated and controlled by the control of the control unit 400.

In the present invention, when the condensate collected in the water collecting container 150 fills a predetermined level or more, the condensed water is transferred to the condensate receiving tank 310 through the condensing water transfer unit 320, and the ultrasonic vibrator 335 in the condensing water receiving tank 310 ) Is vaporized, and water vaporized is discharged to the outside, thereby increasing the humidity in the room.

On the other hand, in the present invention, by connecting the condensate receiving tank 310 and supplying a phytoncide fragrance to the condensate receiving tank 310, the water vaporized through the condensate outlet 301 is discharged in a form containing phytoncide fragrance. It may further include a phytoncide supply unit (360).

The phytoncide supply unit 360 is configured to include a phytoncide receiving unit 362, a supply nozzle 364, an ejector 366, a compressed air tank 367, and a second solenoid valve 369.

The phytoncide receiving portion 362 is configured to be received inside the phytoncide fragrance, and is configured to be connected to the supply nozzle 364 through the ejector 366.

The supply nozzle 364 is connected to the condensate receiving tank 310 and is configured to discharge the phytoncide to the condensate receiving tank 310.

The ejector 366 is configured to include an air inlet 366a, a phytoncide inlet 366, and an outlet 366c.

The air inlet 366a is configured to be connected through a compressed air tank 367 and a connecting hose 368, and a second solenoid valve 369 is installed on the connecting hose 368. At this time, the second solenoid valve 369 is configured to be opened and closed to be controlled under the control of the control unit 400.

The phytoncide inlet 366b is configured to communicate with the phytoncide receiving portion 362, and the outlet 366c is configured to be connected to the supply nozzle 364.

The ejector 366, when the second solenoid valve 369 is opened under the control of the control unit 400, the compressed air of the compressed air tank 367 is introduced through the air inlet 366a and discharged through the outlet 366c The negative pressure is generated inside the air flow of the compressed air, and the phytoncide accommodated in the phytoncide receiving portion 362 through the phytoncide inlet 366b is sucked and discharged to the supply nozzle 364 through the outlet 165c. Accordingly, the phytoncide is supplied to the condensate receiving tank 310 to be mixed with the condensate accommodated in the condensate receiving tank 310.

The condensate in which the phytoncide is mixed may be vaporized according to the vibration of the ultrasonic vibrator 335, and then discharged into the room through the condensate outlet 301 according to the operation of the water discharge fan 350. As described above, the present invention can not only control the humidity by vaporizing the condensate and supplying it indoors, but also adding a phytoncide component to this condensed water and discharging it to the room to provide aroma components to the room to improve the indoor atmosphere.

On the other hand, in the present invention, under the control of the control unit 400, the blowing fan 120 is operated, and indoor air flows through the air inlet 103, and cooling air is discharged through the air outlet 105. In the state of operating the cold air function, the driving of the condensate discharge unit 300 may be configured to maintain a stopped state.

In one example, the control unit 400, when the blowing fan 120 is activated and the cold air function is being operated, when it is determined that the water collecting container 150 is in the full state by the signal received from the water level sensor 329, the blowing fan The operation of the 120 is stopped, and the condensed water discharge unit 300 is operated, so that the condensed water collected in the water collecting container 150 is vaporized and the humidifying function discharged into the room can be controlled.

Referring to FIG. 8, in the present invention, when the cold air function is operated and the humidification function is operated, a shutter unit 370 for opening only necessary components of the condensate outlet 301 and the air inlet 103 is further included. Can be configured.

That is, when the cooling fan 120 is operated and the cold air function is being performed, the condensate outlet 301 is blocked, the air inlet 103 is opened, the blowing fan 120 is stopped, and the condensate discharge unit 300 When in operation, it is possible to further configure a shutter unit 370 that blocks the air inlet 103 and opens the condensate outlet 301.

The shutter unit 370 is formed integrally at the end of the rotation bar 373 and a rotation bar 373 rotatably installed in the air conditioner main body 101, and the air according to the rotation angle of the rotation bar 373 It is configured to include an opening / closing plate 372 blocking one of the inlet 103 or the condensate outlet 301. Here, the rotation shaft 373a of the rotation bar 373 is installed to be driven by a rotation motor 375 installed in the air conditioner main body 101 and may be configured to operate electrically. The control unit 400 is configured to control the rotating motor 375, and when the blowing fan 120 is driven, the shutter plate 372 blocks the condensed water outlet 301 by controlling the rotating motor 375, and the moisture When the discharge fan 350 is operated, the rotating motor 375 may be controlled to control the shutter plate 372 to block the air inlet 103.

Above, the present invention has been shown and described with reference to preferred embodiments for illustrating the principles of the present invention, but the present invention is not limited to the configuration and operation as shown and described. Rather, those skilled in the art will appreciate that many changes and modifications to the present invention can be made without departing from the spirit and scope of the appended claims. Accordingly, all such suitable modifications and corrections and equivalents should also be considered within the scope of the present invention.

The present invention as described above can be widely used in ice-related air conditioner products related fields.

101 ... air conditioner body

103 ... air inlet

105 ... air outlet

107 ... plate

110 ... cooling chamber

112 ...

120 ... blowing fan

130 ... cooling means

132 ... condenser

134 ... compressor

136 ... refrigerant tube

138 ... Expansion valve

140 ... air cooling tube

150 ...

200 ... holder unit

201 ... holder body

203 ... Sitting Home

204 ... button movement hall

212 ... before and after moving bar

214 ... press pad

216 ... first spring

217 ... protrusion

220 ... button

225 ... second spring

230..Jungbu

231 ... horizontal bar

233 ... vertical bar

300 ... condensate discharge unit

310 ... condensate storage tank

320 ... Condensate transfer unit

330 ... power supply

335 ... Ultrasonic vibration

340 ... T type duct

350 ... water discharge fan

360 ... Phytoncide supply

Claims

An air conditioner body having an air inlet through which external air is introduced and an air outlet through which cooled cooling air is discharged;

A cooling chamber unit installed inside the air conditioner body and filled with ice storage material;

A cooling means installed in the air conditioner body to cool the ice storage material filled in the cooling chamber to freeze;

A blower fan installed to be connected to the air outlet to discharge the cooling air to the outside;

It is made of a straight pipe, is installed so as to penetrate the cooling chamber portion up and down, and is configured to be arranged in parallel in parallel, and is cooled by the ice storage material in the cooling chamber portion, and external air introduced from the air inlet And a plurality of air cooling pipes configured to cool and move to the blowing fan.
According to claim 1,

Each of the plurality of air cooling pipes is an ice-cooled air conditioner, characterized in that the ratio of diameter and length is 1:10 to 1: 1000.
According to claim 2,

Each of the plurality of air cooling pipes, if the diameter is 7 ~ 9mm, the ice-shaft type air conditioner, characterized in that configured to be made of more than 700mm in length.
The method of claim 3,

The plurality of air cooling pipes are ice-cooled air conditioners, characterized in that they consist of 1600 to 1700 when the diameter of the cooling chamber is 400 mm.
According to claim 1,

It further includes a holder unit for detachably detaching the air circulator on the upper end of the air conditioner body to improve the blowing air straightness of the cooling air discharged through the air outlet.

The holder unit,

It is fixedly installed on the top of the air conditioner body, a seating groove on which the base of the air circulator is seated is formed, and a holder body having a button movement hole through the center of the seating groove;

A plurality of front and rear moving bars which are radially installed on the upper rim of the holder main body and penetrated toward the center of the seating groove from the outside to be moved back and forth;

A pressure pad installed at each inner end of the plurality of front-rear moving bars to press and fix the circumference of the base of the air circulator seated in the seating groove;

Each of the plurality of front and rear moving bars are inserted, and provided between the protrusions formed on the front and rear moving bars and the inner surface of the holder body to provide elastic force to move the plurality of front and rear moving bars in a direction toward the center of the seating groove. 1 spring;

A button part inserted into the button movement hole and installed to be movable up and down;

A second spring installed between the button portion and the upper end of the air conditioner body to provide a restoring force to raise the button portion to its original state;

It is formed radially outwardly of the button portion, and is configured to be elevated in conjunction with the elevation of the button portion, and allows the plurality of front-rear movement bars to maintain a backward state by engaging the projections at an elevated position, and deviating from the projections when descending. Includes a; a plurality of locking portion to allow the plurality of front and rear moving bar to advance;

Inside the air conditioner body, a condensate water generated during operation of the air conditioner is configured to be installed so that the collecting water tank is collected.

It further includes a condensate discharge unit installed inside the air conditioner body to vaporize the condensate collected in the water collecting container and discharge it to the outside to increase indoor humidity.

The condensate discharge unit,

A condensate receiving tank installed inside the air conditioner body and receiving and receiving condensate from the water collecting container;

A condensate transfer unit connecting the condensate receiving tank and the collecting tank to transfer condensate accommodated in the collecting tank to the condensate receiving tank;

An ultrasonic vibrator which is installed at the bottom of the condensate receiving tank and generates ultrasonic waves in the vibrations to generate condensed water contained in the condensate receiving tank to form granulated fine granular moisture;

A T-shaped duct formed of a "T" shaped pipe, and a front end portion installed to be connected to an open upper portion of the condensate receiving tank is connected to a condensate outlet formed in the air conditioner body through a corrugated pipe;

It is installed at the rear end of the T-type duct, and blows toward the front end of the T-type duct, thereby forming an airflow through which the atomized moisture generated in the condensate receiving tank is discharged to the outside through the condensate outlet. Moisture discharge fan;

It is installed in the air conditioner body, is connected to the condensate receiving tank, by supplying phytoncide to the condensate receiving tank, the phytoncide supply unit to be discharged in the form containing the phytoncide in the water discharged through the condensate outlet;

When the condensate discharge unit is driven, only the condensate outlet of the air inlet and the condensate outlet is opened, and when the fan is driven, the air inlet and the air inlet are opened so that only the air inlet of the air inlet and the condensate outlet is opened. An ice storage type air conditioner further comprising: a shutter unit that selectively opens or closes any one of the condensate outlets.