KR20050069322A - Air purifier - Google Patents

Abstract

The present invention relates to an air purifier, and more particularly, to an air purifier having an oxygen generator provided to supply an appropriate amount of oxygen according to the oxygen concentration in the indoor air.

To this end, the present invention is an air purifier having a purifier for purifying the indoor air, and an oxygen generator for extracting the oxygen in the outdoor air to supply to the indoor

The oxygen generating device includes a plurality of oxygen generating modules provided to extract different amounts of oxygen, and a control device for selectively operating any one of the plurality of oxygen generating modules according to the oxygen concentration value in the indoor air. .

Description

Air Purifier {AIR PURIFIER}

The present invention relates to an air cleaner, and more particularly, to an air cleaner having an oxygen generator for supplying oxygen extracted from outdoor air to an indoor side.

In general, an air purifier is a device that cleans the air by filtering out dust or foreign matter in the indoor air. Such an air purifier has a main body having an inlet and an outlet formed therein, and a blower that provides a blowing force so that air is introduced into the main body through the inlet and discharged to the outside of the main body through the discharge port, and into the main body. A number of filters are provided to filter out dust or debris from the inlet air.

In addition, among these air cleaners, those provided with an oxygen generator inside the main body are also used. The oxygen generator extracts oxygen from the outdoor air and supplies it to the room to keep the indoor air more clean.

The oxygen generator includes an inlet connected to an outdoor side and an outlet connected to an indoor side through a body, a compressor for pressurizing indoor air introduced through the inlet to the outlet side, and an inlet and an outlet to extract oxygen from outdoor air. It is provided with an oxygen generation module provided in.

When the compressor operates through this structure, oxygen contained in the outdoor air introduced through the inlet is extracted while passing through the oxygen generating module, and this oxygen is supplied into the main body through the outlet to discharge the exhaust air along with the purified indoor air through the filters. Is fed into the room through.

Here, the oxygen generating module is a membrane for extracting oxygen by filtering nitrogen in the air by using a selective transmission principle of gas through a zeolite type module or membrane provided to adsorb nitrogen in air through zeolite to separate oxygen. The anticorrosive module is employed. The zeolite anticorrosive module using double zeolites is usually provided to be bonded to extract a large amount of oxygen, and the membrane anticorrosive module using a membrane is provided to be suitable for extracting a smaller amount of oxygen.

However, when the oxygen generator of the conventional air cleaner adopts a zeolite type module, it is suitable for an indoor environment with low oxygen concentration, but in the high oxygen environment, more oxygen is extracted and wasted, and a membrane type module is adopted. On the contrary, it is suitable for indoor environment with low oxygen concentration, but lacks oxygen extraction amount in indoor environment with high oxygen concentration. .

The present invention is to solve such a problem, it is an object of the present invention to provide an air purifier having an oxygen generating device provided to supply an appropriate amount of oxygen according to the oxygen concentration in the indoor air.

In order to achieve the above object, the present invention provides a purifier for purifying indoor air and an air purifier having an oxygen generator for extracting oxygen from the outdoor air and supplying it to the room, wherein the oxygen generator has a different amount. And a control device for selectively operating any one of the plurality of oxygen generating modules according to the oxygen concentration value in the room air.

The oxygen generator includes an inlet connected to an outdoor side and an outlet connected to an indoor side, and the plurality of oxygen generating modules are connected in parallel between the inlet and the outlet, and a zeolite-type module using a zeolite and a membrane using a membrane. And an anticorrosive module, wherein the control device includes an oxygen concentration sensor provided to measure oxygen concentration in indoor air, a bidirectional valve for selectively supplying air introduced into the inlet to any one of the oxygen generating modules, and the oxygen concentration. And a control unit for operating the bidirectional valve based on the oxygen concentration value detected by the sensor.

The control unit may operate the two-way valve so that air is supplied to the zeolite module when the oxygen concentration value is lower than a preset value, and when the oxygen concentration value is higher than the preset value, air is supplied to the membrane module module side. Operate the bidirectional valve to be supplied.

In addition, the oxygen generator includes a compressor for pressurizing the air introduced into the inlet to the outlet side, the control unit is provided to stop the compressor when the oxygen concentration value is higher than the preset value for stopping the compressor. It is characterized by.

In addition, the inlet side is characterized in that the air filter for filtering the dust contained in the outdoor air introduced into the inlet is provided.

In addition, the outlet side is characterized in that the dehumidification filter is provided to remove the moisture in the air passing through the oxygen generating module.

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

As shown in FIG. 1, the air cleaner according to the present invention includes a main body 10 provided with an inlet 1 at a front surface thereof and a discharge port 2 provided at a rear upper side thereof, and an overall upper portion of the front surface of the main body 10. An operation panel 11 having a plurality of operation buttons 11a is provided for operation of the air cleaner.

In addition, a purifier for purifying indoor air and an oxygen generator 20 for extracting oxygen from outdoor air and supplying the indoor air to keep the indoor air more clean are provided inside the main body 10.

The purifier includes a blower 30 provided between the suction port 1 and the discharge port 2 and providing a blowing force, and a filter device provided to filter dust or foreign matter contained in the indoor air.

Here, a blower fan such as a centrifugal fan 31 is employed as the blower 30, and the filter device primarily receives relatively large dust contained in air introduced into the main body 10 through the inlet 1. Pre-filter 41 for filtering out, dust-collecting filter 42 provided to collect fine dust in the air passing through the pre-filter 41, and deodorizing filter for removing foreign substances such as odor components and bacteria contained in the air And a plurality of filters 41, 42, 43, and the like.

When the centrifugal fan 31 is operated through the configuration of such a purification device, the indoor air introduced into the main body 10 through the suction port 1 passes through a plurality of filters 41, 42, and 43, After the foreign matters are removed, they are discharged back to the room through the discharge port 2 in a clean state.

On the other hand, the oxygen generator 20 provided inside the main body together with the purification device is connected to the suction pipe 51 and the discharge pipe 52, respectively, on one side and the other side, the suction pipe 51 to the outdoor side to communicate with the outdoor side. The discharge pipe 52 extends to the discharge port 2 side in the main body 10. Therefore, the oxygen generator 20 extracts oxygen from the outdoor air introduced from the outside through the suction pipe 51 and supplies this oxygen to the discharge port 2 side of the air cleaner main body 10 through the discharge pipe 52. Allow oxygen to be discharged into the room with the purified indoor air.

Here, the oxygen generator 20 may include any of a plurality of oxygen generating modules 23 and 24 provided to extract different amounts of oxygen, and a plurality of oxygen generating modules 23 and 24 according to oxygen concentration values in indoor air. It is configured to include a control device for selectively operating one, which is to improve the oxygen generation efficiency of the oxygen generating device by supplying the appropriate amount of oxygen to the room according to the oxygen concentration value in the indoor air.

As shown in detail in FIG. 2, the oxygen generator includes an inlet 21 connected to the suction pipe 51 and an outlet 22 connected to the discharge pipe 52, and the oxygen generating modules 23 and 24 are the same. It is connected in parallel between the inlet 21 and the outlet 22 and comprises a zeolite type module 23 using a zeolite and a membrane type module 24 using a membrane, wherein the inlet 21 and the oxygen generating module A compressor 25 is provided between the 23 and 24 to pressurize the outdoor air introduced into the oxygen generator 20 through the suction pipe 51 and the inlet 21 toward the outlet 22.

Zeolite module 23 is to absorb the nitrogen in the air by using the selective adsorption characteristics of the porous zeolite in separating and extracting the oxygen in the air, the air sucked into the zeolite layer according to the difference in affinity for the zeolite It is adsorbed to make, and in this case nitrogen is higher than the adsorption to zeolite than oxygen is separated through this, the zeolite method module 23 is usually suitable for the extraction of a large amount of oxygen due to the excellent adsorption power of nitrogen.

In addition, the membrane module 24 filters the nitrogen in the air by using a selective gas permeation principle of the membrane provided with a porous thin membrane, and extracts oxygen by different permeabilities of nitrogen and oxygen. Reference numeral 24 is a relatively low oxygen extraction efficiency compared to the zeolite module 23 is usually suitable for a small amount of oxygen extraction.

In addition, the control device is any one of the zeolite type module 23 and the membrane type module 24 of the oxygen concentration sensor 26 and the outdoor air introduced into the inlet 21 provided to measure the oxygen concentration in the indoor air. And a controller 28 for operating the bidirectional valve 27 based on the oxygen concentration value detected by the oxygen concentration sensor 26.

Here, the oxygen concentration sensor 26 is provided inside one side of the room or the inside of the air cleaner main body 10 so as to measure the oxygen concentration in the indoor air, and the bidirectional valve 27 is the compressor 25 and the oxygen generating module 23. 24).

Therefore, when the oxygen concentration value in the indoor air inputted from the oxygen concentration sensor 26 to the controller 28 is lower than a predetermined value, the controller 28 which detects that the oxygen concentration in the indoor air is low is determined by the inlet ( The bidirectional valve 27 is operated so that the air introduced into the gas 21 is supplied to the zeolite module 23 so that a large amount of oxygen can be extracted through the zeolite module 23. In addition, when the oxygen concentration in the indoor air input from the oxygen concentration sensor 26 to the controller 28 is higher than a predetermined value, the controller 28 that detects that the oxygen concentration in the indoor air is high is the inlet 21. By operating the bi-directional valve 27 so that the air introduced into the membrane type module 24 is supplied to the membrane type module 24, a small amount of oxygen is extracted through the membrane type module 24, through which the oxygen generating device 20 ) Extracts the appropriate amount of oxygen according to the oxygen concentration of the indoor air can be supplied to the room. And each oxygen generating module (23,24) extracting the oxygen suitable for the capacity is not excessive load and at the same time can be used alternately two oxygen generating modules (23,24) to extend the life, in particular constant In the case of the membrane-type module 24 provided for replacement every cycle, the replacement cycle is greatly extended.

In addition, the control unit 28 is provided to stop the compressor 25 when the oxygen concentration value in the room air is higher than the preset value for stopping the compressor 25, which is a preset value for stopping the compressor 25 Is set to an oxygen concentration value when the oxygen concentration value in the indoor air is high enough so that no further supply is required and in this state, the supply of oxygen through the oxygen generator 20 is stopped by stopping the compressor 25. It is to prevent unnecessary waste of energy.

In addition, the dust contained in the outdoor air is filtered between the inlet 21 and the compressor 25 so that the dust included in the outdoor air is transferred to the oxygen generating modules 23 and 24 to prevent the oxygen extraction efficiency from deteriorating. An air filter (29a) is provided to pass through the oxygen generating module (23, 24) between the oxygen generating module (23, 24) and the outlet 22 to prevent the moisture formed is supplied to the room with oxygen. The dehumidification filter 29b for removing moisture is finished.

Next will be described in detail the operation and effect of the air cleaner according to the present invention configured as described above.

When the centrifugal fan 31 is operated, the air introduced into the air cleaner main body 10 through the suction port 1 passes through the prefilter 41, the dust collecting filter 42, and the deodorizing filter 43, thereby removing dust or foreign matter. It is supplied to the room through the discharge port 2 in a purified state.

In this case, the operation of the oxygen generator 20 will be described. First, when the oxygen concentration value of the indoor air input from the oxygen concentration sensor 26 to the controller 28 is lower than a preset value, the oxygen concentration in the indoor air is low. The controller 28, which senses that the air flows into the inlet 21, operates the bidirectional valve 27 to supply the zeolite type module 23 to the zeolite type module 23 so that a large amount of oxygen is supplied through the zeolite type module 23. The controller 28 detects that the oxygen concentration in the indoor air is high when the oxygen concentration in the indoor air inputted from the oxygen concentration sensor 26 to the controller 28 is higher than a preset value. Operate the bidirectional valve 27 so that air introduced into the inlet 21 is supplied to the membrane module 24 so that a small amount of oxygen is extracted through the membrane module 24. By doing so, the oxygen generator 20 extracts an appropriate amount of oxygen according to the oxygen concentration of the indoor air. The extracted oxygen is supplied to the room together with the purified indoor air through the outlet 22 and the discharge pipe 52 and the discharge port 2 of the air cleaner main body 10.

In addition, when a certain amount of time passes, the amount of oxygen supplied from the oxygen generating device 20 to the room increases and the oxygen concentration in the indoor air becomes higher than a preset value for stopping the compressor 25. The control unit 28, which senses that it is being held, stops the compressor 25 and stops the oxygen supply, thereby preventing unnecessary waste of energy.

As described above in detail, the air purifier according to the present invention includes a plurality of oxygen generating modules provided to extract different amounts of oxygen from the oxygen generating device provided to supply oxygen to the room, and to the oxygen concentration value in the indoor air. Accordingly, as it is provided to selectively operate any one of the plurality of oxygen generating module has an advantage that can be supplied to the appropriate amount of oxygen according to the oxygen concentration value in the indoor air.

1 is a cross-sectional view showing the overall structure of an air cleaner according to the present invention.

Figure 2 shows the configuration of the oxygen generator in the air purifier according to the present invention.

Explanation of symbols on main parts of drawing

1: inlet port 2: outlet port

10: main body 20: oxygen generator

21: entrance 22: exit

23: zeolite module 24: membrane module

25: Compressor 26: Oxygen Concentration Sensor

27: bidirectional valve 28: control unit

29a: air filter 29b: dehumidification filter

51: suction pipe 52: discharge pipe

Claims (6)

An air purifier having a purifier for purifying indoor air and an oxygen generator for extracting oxygen in outdoor air and supplying it to the room, The oxygen generating device includes a plurality of oxygen generating modules provided to extract different amounts of oxygen, and a control device for selectively operating any one of the plurality of oxygen generating modules according to the oxygen concentration value in the indoor air. Air cleaner. The method of claim 1, The oxygen generator includes an inlet connected to the outdoor side and an outlet connected to the indoor side, The plurality of oxygen generation modules are connected in parallel between the inlet and the outlet and comprises a zeolite type module using a zeolite and a membrane type module using a membrane, The control device includes an oxygen concentration sensor provided to measure oxygen concentration in indoor air, a bidirectional valve for selectively supplying air introduced into the inlet to any one of the oxygen generating modules, and oxygen detected through the oxygen concentration sensor. And a control unit for operating the bidirectional valve based on the concentration value. The method of claim 2, The control unit operates the bidirectional valve to supply air to the zeolite module when the oxygen concentration value is lower than a preset value, and to supply air to the membrane module module when the oxygen concentration value is higher than a preset value. Air purifier, characterized in that for operating the two-way valve. The method of claim 2, The oxygen generator includes a compressor for pressurizing the air introduced into the inlet to the outlet side, And the control unit is configured to stop the compressor when the oxygen concentration value is higher than a preset value for stopping the compressor. The method of claim 2, The air cleaner is characterized in that the air filter for filtering the dust contained in the outdoor air introduced into the inlet side. The method of claim 2, The air purifier, characterized in that the dehumidification filter is provided on the outlet side to remove moisture in the air passing through the oxygen generating module.