KR950000433Y1 - Air conditioner having oxygen supplyer - Google Patents

Abstract

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Description

Indoor unit of air conditioner with oxygen supply function

1 is a cross-sectional view of an indoor unit of a conventional air conditioner.

2 is a cross-sectional view of the indoor unit of the air conditioner according to the present invention.

3 is a block diagram of an oxygen generator according to the present invention.

Figure 4 is an exploded perspective view of the oxygen generating unit according to the present invention.

5 is a pressure change diagram in the adsorption tower of the oxygen generating unit according to the present invention.

* Explanation of symbols for main parts of the drawings

1: basic body 2: air suction grill

3: evaporator 4: blower

5: air discharge grill 6: oxygen generator

7: oxygen supply unit 9a, 9b, 9c: solenoid valve

61a: compressor 62: adsorption column

62a: adsorbent

The present invention relates to an indoor unit of an air conditioner, and more particularly, to an indoor unit of an air conditioner having a function of supplying a high concentration of fresh oxygen to a room.

As shown in FIG. 1, the indoor unit of a conventional air conditioner installed indoors includes an indoor unit main body 1, an air intake grill 2, an evaporator 3, a blower unit 4, and the like. It is comprised with the air discharge grill 5.

After indoor air enters the indoor unit through the air intake grill, and heat exchange occurs while passing through the evaporator, the air blowing unit leaves the indoor unit through the indoor unit through the air discharge grill and is supplied to the room.

The air passing through the evaporator absorbs heat from the evaporator when the indoor unit acts as a heater and releases heat to the evaporator when the indoor unit acts as a cooler.

The air supplied to the room by the indoor unit of such an air conditioner is simply cooled or heated, and there is a drawback that carbon dioxide (CO ₂ ) in the air generated by human breathing or smoking in the room is not removed or reduced. .

Therefore, an object of the present invention is to provide an indoor unit of an air conditioner capable of not only cooling or heating indoor air but also permanently supplying a high concentration of oxygen to the room and discharging indoor carbon dioxide to the outside.

The object is, according to the present invention, the oxygen generating unit for separating and discharging oxygen and other components in the air by inhaling the air in the room, the oxygen is connected to the oxygen generating unit and the oxygen discharged by receiving the discharged coral It is achieved by providing an indoor unit of an air conditioner including a supply unit.

Hereinafter, the present invention will be described based on the embodiment shown in the accompanying drawings.

2 is a cross-sectional view of the indoor unit of the air conditioner of the present invention.

The structure of the indoor unit main body 1, the air suction grill 2, the evaporator 3, the blower 4, and the air discharge grill 5 is the same as the structure of the indoor unit of the conventional air conditioner.

The oxygen generator 6 fixed inside the indoor unit sucks air in the room and separates and releases oxygen and other components in the air.

An oxygen supply pipe 7 inserted into the fin inside of the evaporator 3 is connected to the oxygen generator to supply oxygen released into the oxygen generator to the evaporator.

The oxygen generator 6 is fixed to the noise prevention unit 61, the adsorption tower 62, three three-way solenoid valves (9a), (9b) (9c) and the main body case 63 in which they are stored and the case It has a lid 64.

The noise prevention part 61 has a compressor 61a and a noise prevention box 61b having a sponge attached to the inner surface thereof while the compressor is installed therein.

The compressor compresses the sucked indoor air and absorbs the sponge.

The adsorption tower 62 connected to the compressor includes an oxygen separation adsorbent 62a for separating oxygen in the compressed air and is connected to the oxygen supply pipe 7.

The main body case has an indoor air inlet (63a) through which indoor air flows.

The lid portion has a baffle 64a for preventing specific noise formed at the lower end portion.

The first solenoid valve 9a is a three-way valve which is installed where a pipe (a) into which indoor air enters the compressor and a pipe (b) connecting the adsorption tower to the compressor meet.

The second solenoid valve 9b is a three-way valve which is installed where the pipe c and the air discharge pipe d connecting the compressor to the adsorption tower meet.

The third solenoid valve 9c is a three-way valve that is installed where a pipe (e) connecting the adsorption tower to the oxygen supply pipe and a pipe (b) connecting the adsorption tower to the compressor meet.

The operation of the above embodiment will be described below.

When the oxygen generator 6 is automatically turned on by the operation of the ribocon or by an oxygen sensor or the like, the compressor 61a is driven to compress the indoor air sucked into the compressor.

Compressed air enters the adsorption tower 62 connected to the compressor, and carbon dioxide gas in the air is adsorbed to the oxygen separation adsorber 62a in the adsorption tower, and oxygen is separated in an unadsorbed state.

The separated oxygen is supplied to the oxygen supply unit 7 connected to the adsorption tower and is supplied to the room through the air discharge grill 5 through the evaporator 3.

On the other hand, this state is an oxygen generating operation state, the ON direction in the drawing of each solenoid valve is as follows.

If the first solenoid valve 9a is in the ga-na direction, the second solenoid valve 9b is in the multi-la direction, and the third solenoid valve 9c is in the hemi-bar direction, but the oxygen generation state is maintained, the adsorption tower Since the adsorbent inside is saturated and carbon dioxide gas in the air is not adsorbed, oxygen separation does not occur, which may cause inconvenience of exchanging the adsorbent.

Therefore, it is necessary to regenerate the adsorbent at regular time intervals.

That is, when each solenoid valve is turned on as follows, the first solenoid valve is in the a-na direction, the second solenoid valve is the multi-way direction, the third solenoid valve is the hemp-sa direction, and the pressure in the adsorption tower is increased. As it is lowered, the adsorbent is regenerated and carbon dioxide gas in the air adsorbed by the adsorbent is discharged to the outside through the pipe (c) and the air discharge pipe (d) by the compressor.

Here, the pressure in the adsorption tower increases intermittently (oxygen generation) and then descends (adsorption tower regeneration) (see FIG. 5).

However, when the oxygen generator is turned off and on, that is, during the first operation, the adsorbent is regenerated in a clean state beforehand by giving a time longer than the regeneration time of the adsorption tower in other cases.

As described above, according to the present invention, the indoor unit of the air conditioner is provided with an oxygen generator, thereby discharging carbon dioxide gas of the indoor air supplying oxygen to the outside to clean the indoor air as well as cooling and heating the room. can do.

In addition, by repeating the oxygen generation step and the adsorption tower regeneration step can be used semi-permanently without exchange of the adsorbent.

Claims (4)

An air conditioner having an evaporator, in an indoor unit, is provided with an oxygen generating unit for separating and discharging oxygen and other components in the air by suctioning indoor air, and receiving and discharging the oxygen discharged in connection with the oxygen generating unit. An indoor unit of an air conditioner including an oxygen supply unit. According to claim 1, wherein the oxygen generating unit, the compressor to suck the indoor air and discharged to the pressurized air, connected to the compressor receives the pressurized air to separate the oxygen and other components in the air, the oxygen An indoor unit of an air conditioner, which is connected to a supply unit and comprises an adsorption tower unit for supplying the separated oxygen to the oxygen supply unit. 3. The air conditioner of claim 2, wherein the adsorption column has an adsorbent for adsorbing components other than oxygen in the air. According to claim 2, The first air solenoid valve in the three directions provided in the connecting portion of the pipe connecting the indoor air to the compressor, the pipe connecting the adsorption column to the compressor, and the pipe connecting the compressor to the adsorption tower; A third solenoid installed in a three-way solenoid valve provided at a connection portion with an air discharge pipe, a pipe connecting the adsorption tower portion to the oxygen supply portion, and a third solenoid provided at a connection portion between a pipe connecting the adsorption tower portion and the compressor; An indoor unit of an air conditioner including a valve.