KR100469655B1 - Air Conditioner Having Oxygen Generator - Google Patents

Abstract

By connecting the oxygen supply pipe for transferring oxygen generated from the oxygen generator installed in the outdoor unit to the indoor unit to the discharge port guide of the indoor unit, the oxygen supply pipe can be easily and quickly connected to the indoor unit, and the supplied oxygen is effectively discharged to the indoor unit. An air conditioner with an oxygen generator is provided. The oxygen supply pipe of the present invention is provided in the main body of the indoor unit and is located at the discharge port for discharging the rough air. The discharge port is provided with a plurality of blades are provided with a discharge port guide for guiding the conditioned air discharged from the indoor unit to the indoor space, the side plate of the discharge port guide is formed with insertion holes for penetrating the oxygen supply pipe to the indoor unit, oxygen The supply pipe can be selectively inserted into any one of the insertion holes formed in both side plates. At least the end of the oxygen supply pipe inserted into the insertion hole is made of a flexible material to be pressed into the insertion hole.

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, an oxygen supply pipe for delivering oxygen generated from an oxygen generator installed in an outdoor unit to an indoor unit can be inserted into a discharge guide of an indoor unit to insert an oxygen supply pipe into an indoor unit. It relates to an air conditioner with an oxygen generator for simple connection.

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 such a problem, and an example of the 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. Oxygen extracted through the oxygen extraction module is supplied to the indoor unit through the oxygen supply pipe connecting the outdoor unit and the indoor unit to be discharged to the indoor space with the harmonized air to supply oxygen to the indoor space.

However, such a conventional air conditioner equipped with an oxygen generator has a structure in which the oxygen supply pipe passes through the main body forming the exterior of the indoor unit, and the end thereof is disposed in the vicinity of the evaporator disposed inside the indoor unit. In order to install the indoor unit, the indoor unit body should be separately made to form an insertion hole for connecting the oxygen supply pipe. That is, the drilling operation of the insertion hole does not harm the interior aesthetics according to the installation of the oxygen supply pipe according to the position where the indoor unit is installed, and at the same time any one of both sides of the indoor unit main body according to the position where the oxygen supply pipe is easy to penetrate the room. One side is determined to be made, and accordingly, in the conventional air conditioner equipped with an oxygen generator, the work for connecting the oxygen supply pipe of the oxygen generator to the indoor unit is cumbersome and takes a lot of working time.

The present invention is to solve the above-mentioned problems of the prior art, an object of the present invention is to connect the oxygen supply pipe for delivering the oxygen generated from the oxygen generator installed in the outdoor unit to the indoor unit to the outlet guide of the indoor unit simply and It is to provide an air conditioner with an oxygen generator that can be quickly connected to the indoor unit, and at the same time to effectively discharge the supplied oxygen into the room.

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.

2 is a cross-sectional view of the indoor unit according to the present invention having a discharge port guide having an insertion hole formed at one side thereof to arrange the oxygen supply pipe at the discharge port of the indoor unit.

3 is a perspective view of a discharge port guide showing that insertion holes for inserting an oxygen supply pipe are formed in both side plates.

* Description of symbols on the main parts of the drawings

10: outdoor unit 20: indoor unit

23: discharge port 26: discharge port guide

26c, 26d: side plate 27: blade

28: insertion hole 30: oxygen generator

31: oxygen extraction module 32: oxygen supply pump

33: oxygen supply pipe

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,

The oxygen supply pipe is provided in the main body of the indoor unit, characterized in that located in the discharge port for discharging the rough air.

The discharge port is provided with a plurality of blades are provided with a discharge port guide for guiding the conditioned air discharged from the indoor unit to the indoor space, the insertion hole for penetrating the oxygen supply pipe to the indoor unit is formed on both side plates of the discharge port guide. Thus, the oxygen supply pipe can be selectively inserted into any one of the insertion holes formed in the side plates.

Preferably, the end of the oxygen supply pipe to be inserted into the insertion hole is made of a flexible and flexible material to be pressed into the insertion hole.

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 sucks the oxygen extraction module 31 for extracting oxygen from the outside air flowing into the oxygen generator 30 and the oxygen extracted from the oxygen extraction module 31. And an oxygen supply pump 32 for discharging the indoor unit 20, and an oxygen supply pipe 33 for supplying the 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).

The oxygen supply pipe 33 of the oxygen generator 30 according to the present invention is inserted into the discharge port guide disposed in the discharge port of the indoor unit 20, which will be described with reference to FIGS. 2 and 3.

Figure 2 is a cross-sectional view of the indoor unit according to the present invention having a discharge port guide having an insertion hole formed in the side plate for placing the oxygen supply pipe in the discharge port of the indoor unit, Figure 3 is an insertion unit for inserting the oxygen supply pipe It is a perspective view of the discharge port guide which showed that it is formed in both side surfaces of the discharge port.

As shown in FIG. 2, the indoor unit 20 according to the present invention includes a main body 21 formed in an approximately box shape to form an appearance. The front and top surfaces of the main body 21 are provided with a suction port 22 for sucking air from the indoor space, and a discharge port 23 for sending the sucked air back to the indoor space.

Inside the main body 21, an indoor heat exchanger 24 which functions as an evaporator when the air conditioner operates in the cooling mode, and a blowing fan 25 for discharging the air cooled by the indoor heat exchanger 24 to the indoor space. Is provided, and the discharge port 23 is provided with a discharge port guide 26 for guiding the discharged cold air into the indoor space.

As shown in FIG. 3, the discharge port guide 26 according to the present invention includes an upper plate 26a, a lower plate 26b, and both side plates 26c and 26d, and the front and rear directions of the indoor unit 20. And a plurality of discharge blades 27 provided to be rotatable in the up-down direction and the left-right direction at the portion opened in the front-rear direction, so that the harmonic air generated inside the indoor unit 20 is provided. Guide them to the interior space.

An insertion hole 28 into which an oxygen supply pipe 33 for supplying oxygen generated from the oxygen generator 30 to the indoor unit 20 is inserted into both side plates 26c and 26d of the discharge port guide 26 configured as described above. ) Is formed. The insertion hole 28 is formed to have a size substantially the same as that of the oxygen supply pipe 33, so that the oxygen supply pipe 33 made of a flexible and flexible material can be press-fitted into the insertion hole 28. do. By this indentation structure, the oxygen supply pipe 33 is not easily pulled out from the insertion hole 28, and when pulled out with a slight force, the oxygen supply pipe 33 is separated from the insertion hole 28. Here, the oxygen supply pipe 33 may be made of a material having flexibility and elasticity only at the end portion inserted into the insertion hole 28.

Although not shown, an oxygen supply pipe (between the side plates 26c and 26d of the discharge port guide 26 and the discharge port 23 (see FIG. 2) of the indoor unit 20 in which the discharge port guide 26 is installed). A gap slightly larger than the diameter of 33 is formed so that the oxygen supply pipe 33 is guided to the discharge port guide 26 to be inserted into the insertion hole 28 through the gap.

Here, in order to install the oxygen supply pipe 33 in the insertion hole 28 of the discharge port guide 26, the discharge port guide 26 is first separated from the discharge port 23 of the indoor unit 20 to insert the oxygen supply pipe 33 into the insertion hole. After inserting into 28, the discharge port guide 26 can also be provided in the discharge port 23 again.

On the other hand, the indoor unit 20 is usually disposed close to the wall surface of the room, the oxygen supply pipe 33 is the side surface plate 26c (26d) of the discharge port guide 26 in accordance with the position where the indoor unit 20 is installed Which one will be installed will be decided. That is, when the indoor unit 20 is installed near the corner wall of the room, the oxygen supply pipe 33 is close to the corner wall among the insertion holes 33 formed in both side plates 26c and 26d of the discharge port guide 26. It is to be inserted into the insertion hole of the side plate located on the side so that the oxygen supply pipe 33 is easily disposed without harming the interior aesthetics. For example, in FIG. 3, when the side plate 26c of the discharge port guide 26 is disposed near the corner wall of the room, the oxygen supply pipe 33 is installed on the side plate 26c, and conversely, the side plate ( When 26d) is disposed near the corner wall of the room, the oxygen supply pipe 33 can be fitted into the insertion hole 28 formed in the side plate 26d, as shown by the dotted line in FIG.

As described above, the oxygen supply pipe 33 is selectively simply inserted into any one of the insertion holes 28 formed in both side plates 26c and 26d of the discharge port guide 26 according to the position where the indoor unit 20 is installed. It can be installed.

In addition, since the insertion holes 28 formed in both side plates 26c and 26d of the discharge port guide 26 can be integrally formed when the injection port guide 26 is injection molded, the oxygen supply pipe 33 is formed into an indoor unit ( There is no need for a separate operation for connecting to the body 21 of 20).

When the air conditioner equipped with the oxygen generator according to the present invention configured as described above is operated, oxygen generated from the oxygen generator 30 installed in the outdoor unit 10 is discharge guide of the indoor unit 20 through the oxygen supply pipe 33 ( It is sent to the inside of the 26, the oxygen sent to the inside of the discharge port guide 26 is supplied to the indoor space together with the conditioned air discharged to the indoor space by the blowing fan 25 of the indoor unit 20.

As described in detail above, the air conditioner equipped with the oxygen generator according to the present invention is provided with an insertion hole for installing the oxygen supply pipe in the indoor unit integrally formed in the discharge port guide of the indoor unit to provide a separate insertion hole in the indoor unit main body. There is an advantage that the oxygen supply pipe can be simply connected to the indoor unit without the need for work.

In addition, an insertion hole is provided in both side plates of the discharge port guide so that the insertion hole can be selectively inserted into any one of the insertion holes of both side plates according to the installation position of the indoor unit so as not to harm the aesthetics of the indoor unit and to arrange the oxygen supply pipe. There is an advantage that can be facilitated.

In addition, the oxygen supply pipe is directly connected to the discharge port guide for guiding the harmonized air to the indoor space, and discharged to the indoor space together with the discharged harmonic air, thereby effectively dispersing oxygen supplied from the oxygen generator into the indoor space. will be.

Claims (3)

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. , The oxygen supply pipe is provided in the main body of the indoor unit is located in the discharge port for discharging the harmonic air into the room, the discharge port is provided with a discharge port guide having a plurality of blades, both sides of the discharge port guide to the oxygen supply pipe An insertion hole for penetrating the indoor unit is formed, wherein the oxygen supply pipe can be selectively inserted into any one of the insertion holes formed in the both side plates of the air conditioner with an oxygen generator. delete The air conditioner of claim 1, wherein an end portion of the oxygen supply pipe inserted into the insertion hole is made of a flexible material so as to be press-fitted into the insertion hole.