KR100473822B1 - Air Conditioner Having Oxygen Generator - Google Patents

Abstract

The present invention provides an air conditioner equipped with an oxygen generator which reduces discharge noise and discharges pleasant harmonized air to the room by separating and discharging moisture from air including oxygen introduced into the indoor unit along an oxygen supply pipe. The water separator of the present invention is installed at the end of the oxygen supply pipe located in the indoor unit to separate the water from the oxygen supplied through the oxygen supply pipe. The water separator is connected to the end of the oxygen supply pipe inlet for introducing oxygen, the outlet for discharging the introduced oxygen into the interior of the indoor unit, connecting the inlet and the outlet and separating the water from the supplied oxygen to the outlet It is provided with a guide body.

Description

Air Conditioner Having Oxygen Generator {Air Conditioner Having Oxygen Generator}

The present invention relates to an air conditioner equipped with an oxygen generator, and more particularly, to provide a water separator at the end of an oxygen supply pipe for delivering oxygen generated from an oxygen generator installed in an outdoor unit to an indoor unit to separate water from an oxygen supply pipe. At the same time, the present invention relates to an air conditioner equipped with an oxygen generator that reduces discharge noise.

In general, an air conditioner includes a compressor, a condenser, a refrigerant expansion valve, an evaporator, and the like to cool the surroundings by using an endothermic action and an exothermic action caused by evaporation or liquefaction of a refrigerant circulating through the refrigeration cycle. Or a heating device.

Such an air conditioner has a compressor and a condenser, an outdoor unit installed outdoors, a refrigerant type expansion valve and an evaporator, and an indoor unit installed separately, and an integrated type in which the above elements are installed in one housing. There is this.

The separate type air conditioner is applied to a relatively large capacity air conditioner because it is easy to secure the installation space, it may be configured to combine the cooling and heating.

The air conditioner allows the indoor space to be selectively cooled and heated. When the air conditioner is operated, the indoor space is kept closed in order to prevent the air in the harmonious room from being discharged to the outside. Therefore, when the air conditioner is operated for a long time, the indoor ventilation is not properly performed, so people in the indoors may have a headache due to lack of oxygen, such as bad health.

Recently, an air conditioner equipped with an oxygen generator has been developed to solve this problem, and examples thereof include an air conditioner disclosed in Korean Laid-Open Patent Publication No. 2002-6820.

The conventional air conditioner includes an oxygen extraction module that functions as an oxygen generator in an outdoor unit, and an oxygen supply pump for sucking and supplying air containing high concentration of oxygen generated from the oxygen extraction module to an indoor unit. Therefore, such a conventional air conditioner supplies oxygen extracted through an oxygen extraction module to an indoor unit through an oxygen supply pipe connecting an outdoor unit to an indoor unit, and discharges oxygen into the indoor space through the indoor unit to be discharged to the indoor space with the harmonized air. To be able to supply.

However, such a conventional air conditioner equipped with an oxygen generator has a structure in which the oxygen supply pipe is formed in a predetermined diameter as a whole and is installed inside the indoor unit through the main body forming the exterior of the indoor unit, and also has a high concentration supplied from the oxygen generator. As oxygen-containing air is cooled inside the oxygen supply pipe by the heat exchanger of the indoor unit, a large amount of water condenses and is discharged to the indoor unit through the oxygen supply pipe, so that the air containing a large amount of water has a certain diameter. In the course of passing through the supply pipe there is a drawback that a significant discharge noise occurs due to the discharge of a large amount of water.

In addition, a conventional air conditioner equipped with an oxygen generator is contained in the air circulated by the blowing fan of the indoor unit as a large amount of water passing through the oxygen supply pipe as described above is discharged to the room through the discharge port of the indoor unit is uncomfortable to the indoor occupants It will cause a disadvantage that adversely affects the indoor environment.

The present invention is to solve the above-mentioned problems of the prior art, an object of the present invention is to install a water separator at the end of the oxygen supply pipe disposed inside the indoor unit moisture from the air containing oxygen introduced into the indoor unit along the oxygen supply pipe It is to provide an air conditioner equipped with an oxygen generator to reduce the discharge noise and discharge the pleasant conditioning air to the room by being separated and discharged.

The present invention for achieving this object, the indoor unit for supplying air in harmony with the indoor space, the oxygen generator for generating oxygen, the oxygen supply pipe for supplying oxygen to the indoor unit by connecting the oxygen generator and the indoor unit In the air conditioner equipped with an oxygen generator,

At the end of the oxygen supply pipe located in the indoor unit is characterized in that the water separator for separating and discharging moisture from the oxygen supplied through the oxygen supply pipe is installed.

The water separator is connected to an end of the oxygen supply pipe to inlet oxygen, an outlet for discharging the introduced oxygen into the interior of the indoor unit, and connects the inlet and the outlet to receive moisture from the supplied oxygen. It is provided with a body portion to separate and guide the outlet.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

1 is a schematic perspective view of an air conditioner with an oxygen generator according to the present invention showing that the indoor unit is connected to an outdoor unit equipped with an oxygen generator by an oxygen supply pipe.

As shown in the drawing, the air conditioner according to the present invention includes an outdoor unit 10 installed outdoors, an indoor unit 20 installed indoors, and an oxygen generator 30 installed on the top of the outdoor unit 10.

Inside the outdoor unit 10, a compressor 11 for compressing refrigerant gas to a high pressure, an outdoor heat exchanger 12 which functions as a condenser to condense refrigerant when the air conditioner operates in a cooling mode, and sucks outdoor air. A blowing fan 13 is installed to allow the outdoor heat exchanger 12 to exchange heat with the refrigerant. In addition, the outdoor unit 10 and the indoor unit 20 are connected by a pair of refrigerant pipes 14 to allow the refrigerant to circulate between the outdoor unit 10 and the indoor unit 20.

The oxygen generator 30 installed at the top of the outdoor unit 10 includes an oxygen extraction module 31 for extracting oxygen from the outside air introduced into the oxygen generator 30, and extracted from the oxygen extraction module 31. An oxygen supply pump 32 for sucking oxygen and discharging it to the indoor unit 20, and an oxygen supply pipe 33 for supplying oxygen discharged from the oxygen supply pump 32 to the indoor unit 20. Therefore, the oxygen supply pump 32 is operated to extract oxygen from the oxygen extraction module 31 can be supplied to the indoor unit 20 along the oxygen supply pipe (33).

Figure 2 is an exploded perspective view of the indoor unit showing that the water separator according to the present invention coupled to the end of the oxygen supply pipe is disposed in the heat exchanger of the indoor unit.

As shown in the drawing, the indoor unit 20 according to the present invention is coupled to the front panel 21 and the rear panel 22 to form an approximately box-shaped appearance, and the front panel 21 and the rear panel 22. The internal space formed by the air conditioner includes an indoor heat exchanger 23 that functions as an evaporator when the air conditioner operates in a cooling mode, and a blower fan 24 that discharges air cooled by the indoor heat exchanger 23 to the indoor space. ) Is installed. In addition, in front of the indoor heat exchanger 23, a filter 25 for filtering the air sucked is provided.

Inlet 21a is formed on the front and upper surfaces of the front panel 21 to suck air from the indoor space, and a discharge port 21b for discharging the harmonized air back to the indoor space (see Fig. 5). Is formed.

An oxygen supply pipe 33 is disposed in the heat exchanger 23 of the indoor unit 20 configured as described above to allow oxygen generated by the oxygen generator 30 to flow into the indoor unit 20. At the end of the oxygen supply pipe 33 is combined with a water separator 40, which constitutes a feature of the present invention, to separate water from the supplied oxygen and discharge the water to the indoor unit. The structure of the water separator 40 is shown in FIG. This will be described with reference to FIG. 4.

3 and 4 respectively show an exploded perspective view and a combined perspective view of a water separator which constitutes a feature of the present invention.

As shown in FIG. 3, the water separator 40 according to the present invention is combined with an end of the oxygen supply pipe 33 to allow the oxygen to flow from the oxygen supply pipe 33, and the inlet part ( 41 is connected to the rear end of the body portion 42 for separating and discharging moisture from oxygen introduced through the inlet portion 41, and the oxygen is separated from the moisture is connected to the rear end of the body portion 42 indoor unit ( It is provided with an outlet portion 43 for discharging to the inside of 20.

The inlet portion 41 has a funnel shape as a whole. That is, a coupling part 41a having a substantially short tube shape is formed at the tip end of the inlet part 41 so that the oxygen supply pipe 33 is fitted into the coupling part 41a, and the coupling part (at the rear end) is connected to the coupling part 41a. An enlarged diameter portion 41b having a diameter that is constantly increased from 41a is formed to reduce the flow rate of oxygen introduced through the oxygen supply pipe 33 and the coupling portion 41a. The coupling portion 41a and the enlarged diameter portion 41b are integrally formed.

The body portion 42 is formed in a substantially cylindrical shape and is integrally coupled to the rear end of the enlarged diameter portion 41b to separate water from oxygen passing through the inlet portion 41, and the separated water is disposed at one lower side thereof. Drainage holes 42a are formed for discharging. Although not shown in the figure, a guide hose is provided in the drain hole 42a to guide the condensed water discharged from the drain hole 42a to the condensate receiver 26 (see FIG. 5) installed under the indoor heat exchanger 23. May be inserted into the configuration.

The outlet portion 43 has a funnel shape similar to the inlet portion 41. That is, the outlet portion 43 is coupled to the rear end of the body portion 42, the shaft diameter portion 43a having a constant diameter and the nozzle 43b formed at a relatively small diameter at the rear end of the shaft diameter portion 43a. ), The oxygen is separated from the water while passing through the body portion 42 to the indoor unit 20 (see Fig. 2).

In addition, the body portion 42 is provided with a water absorbing member 50 is introduced into the inlet portion 41 to absorb and separate the moisture from the air containing oxygen of reduced flow rate, precisely high concentration of oxygen, . The moisture absorbing member 50 is made to have fine pores, so that the moisture absorbing member 50 flows into the inlet portion 41 to absorb moisture from the cooled oxygen to condense. In addition, the moisture absorbing member 50 is equipped with an antibacterial function so that comfortable oxygen can be supplied.

Therefore, the oxygen flowed through the oxygen supply pipe 33 having a relatively small diameter passes through the enlarged diameter portion 41b of the inlet portion 41, and the flow rate decreases, and the body portion 42 having the relatively large diameter is continued. The moisture contained in the oxygen by the water absorbing member 50 while being passed through is guided to the outlet 43 while being absorbed. Oxygen from which the water introduced into the outlet portion 43 is separated is increased in flow velocity through the shaft diameter portion 43a of the outlet portion 43 and discharged to the indoor unit 20 through the nozzle 43b. On the other hand, the water separated by the water absorbing member 50 in the body portion 42 is collected to the lower portion of the body portion 42 is discharged to the outside of the water separator 40 through the drain hole (42a).

In addition, the body separator 42 and the outlet portion 43 so that the water separator 40 is sandwiched between the heat dissipation fins 23a (see FIG. 5) of the indoor heat exchanger 23 embedded in the indoor unit 20. The lower portion of the plurality of hooks 44 are formed to extend downward. Here, the hook 44 may be fixed to the indoor heat exchanger 23 even if only one hook is provided at the center of the bottom of the body part 42.

As shown in FIG. 4, the water separator 40 configured as described above is formed by coupling the water absorbing member 50 to the inside of the body part 42 integrally formed with the inlet part 41 in a heat-sealed manner. After that, the outlet portion 43 is formed integrally with the rear end portion of the body portion 42 by a heat fusion method or another coupling method. Here, the water separator 40 is preferably made of a synthetic resin material such as plastic that is light and easy to mold.

Next, after coupling the end of the oxygen supply pipe 33 to the coupling portion 41a of the inlet portion 41 of the water separator 40, the plurality of hooks 44 are heat-exchanged indoors as shown in FIG. 5. The water separator 40 is fixed to the upper surface of the indoor heat exchanger 23 when sandwiched between the heat dissipation fins 23a of the base 23.

Hereinafter, the operation of the water separator according to the present invention will be described with reference to FIG. 5.

As shown in FIG. 5, when the air conditioner operates in the cooling mode, the blowing fan 24 of the indoor unit 20 rotates to suck the indoor air through the inlet 21a. The air introduced into the indoor unit 20 passes through the indoor heat exchanger 23 which functions as an evaporator in the cooling mode, becomes cold, and then is discharged back to the indoor space through the discharge port 21b.

At the same time, the oxygen extraction module 31 and the oxygen supply pump 32 of the oxygen generator 30 installed in the outdoor unit 10 are operated so that oxygen is supplied to the indoor unit 20 along the oxygen supply pipe 33. Oxygen that flows along the oxygen supply pipe 33 and flows into the indoor unit 20 is cooled by the indoor heat exchanger 23 and passes through the water separator 40 connected to the end of the oxygen supply pipe 33.

The low temperature oxygen introduced into the one part 41 of the water separator 40 has a flow rate falling through the enlarged diameter part 41b of the inlet part 41, and continues to pass through the body part 42 while absorbing the moisture. Moisture is absorbed and separated by 50, and the separated water is collected at the lower portion of the body portion 42. The condensate collected in this way flows down the outer surface of the indoor heat exchanger 23 through the drain hole 42a provided in the lower part of the body part 42, and then continues to the condensate receiver provided under the indoor heat exchanger 23. Will be gathered at (26).

On the other hand, the oxygen separated from the water passing through the body portion 42 is discharged to the interior of the indoor unit 20 while the flow rate is increased again while passing through the shaft diameter portion 43a and the nozzle 43b of the outlet portion 43 , And is mixed with the conditioned air passing through the indoor unit 20 by the blowing fan 24 is discharged to the indoor space.

As described above, the oxygen introduced into the indoor unit 20 through the oxygen supply pipe 33 is separated from the water passing through the water separator 40 of the present invention, whereby the water contained in the oxygen is removed and the water is discharged. As a result, the discharge noise generated is eliminated. In addition, the water separator 40 of the present invention having a diameter much larger than the diameter of the oxygen supply pipe 33 can also significantly reduce the flow noise of oxygen while also serving as a silencer.

As described in detail above, the air conditioner equipped with an oxygen generator according to the present invention is installed by separating the moisture contained in the oxygen supplied by the water separator at the end of the oxygen supply pipe located inside the indoor unit to discharge the moisture by oxygen It is possible to eliminate the discharge noise generated while being discharged with, and to prevent the moisture is discharged to the indoor space with the harmonious air. In addition, the water separator of the present invention also serves as a silencer, thereby reducing the flow noise of oxygen.

Accordingly, the air conditioner equipped with the oxygen generator equipped with the water separator of the present invention has an effect of increasing the reliability of the user by providing a comfortable indoor environment.

1 is a schematic perspective view of an air conditioner with an oxygen generator according to the present invention showing that the indoor unit is connected to an outdoor unit equipped with an oxygen generator by an oxygen supply pipe.

Figure 2 is an exploded perspective view of the indoor unit showing that the water separator according to the present invention coupled to the end of the oxygen supply pipe is disposed in the heat exchanger of the indoor unit.

3 and 4 are views showing the structure of the water separator of the present invention shown in Figure 2, Figure 3 shows an exploded perspective view, Figure 4 shows a combined perspective view.

Figure 5 is a longitudinal sectional view of the indoor unit showing that the water separator according to the present invention is coupled to the heat exchanger.

* Description of symbols on the main parts of the drawings

10: outdoor unit 20: indoor unit

23: heat exchanger 30: oxygen generator

32: oxygen supply pump 33: oxygen supply pipe

40: water separator 41: inlet

42: body portion 42a: drainage hole

43: outlet 44: hook

Claims (7)

In an air conditioner having an indoor unit for supplying air in harmony with the indoor space, an oxygen generator for generating oxygen, and an oxygen generator having an oxygen supply pipe for connecting the oxygen generator and the indoor unit to supply oxygen to the indoor unit. , At the end of the oxygen supply pipe located in the indoor unit is provided a water separator for separating and discharging moisture from the oxygen supplied through the oxygen supply pipe, The water separator is connected to an end of the oxygen supply pipe to inlet oxygen, an outlet for discharging the introduced oxygen into the interior of the indoor unit, and connects the inlet and the outlet to receive moisture from the supplied oxygen. It is provided with a body to separate and guide to the outlet, At least one hook is provided in the body portion extending downwards so that the moisture separator is fixed to the heat exchanger of the indoor unit air conditioner having an oxygen generator. delete The oxygen generator according to claim 1, wherein the inlet part comprises a coupling part for allowing the oxygen supply pipe to be coupled to each other, and an enlarged diameter part having a diameter that is constantly increased from the coupling part to reduce the flow rate of the introduced oxygen. Air conditioner with According to claim 3, wherein the body portion is made of a substantially cylindrical shape is coupled to the end of the enlarged diameter portion, the inside is provided with a water absorbing member for adsorbing and separating moisture from the oxygen flowing from the inlet portion, the body portion An air conditioner with an oxygen generator, characterized in that the lower portion is formed with a drain hole for discharging the separated water. The air conditioner of claim 4, wherein the moisture absorbing member is fixedly coupled to the inside of the body by a heat fusion method. The method of claim 4, wherein the outlet portion is coupled to the end of the body portion and the shaft diameter portion having a constant reducing diameter, and the nozzle formed in the end portion of the shaft diameter portion, it is to discharge the oxygen separated water to the indoor unit Air conditioner with oxygen generator characterized in that. delete