KR100565517B1 - Oxygen generating air conditioner and the control method of the same - Google Patents

Abstract

The present invention relates to an oxygen generating air conditioner capable of optimally maintaining an oxygen concentration in a room, and a control method thereof, comprising: an air conditioner for air conditioning the room; An oxygen generator mounted to the air conditioner; An oxygen sensor mounted to the air conditioner to detect an oxygen concentration in the room and convert the converted oxygen into a voltage; And a microcomputer that receives a signal according to the voltage output from the oxygen sensor and instructs the oxygen generator to be turned on and off, wherein the microcomputer turns on the oxygen generator when the detected oxygen concentration is less than a set value. The microcomputer turns off the oxygen generator when the oxygen concentration is higher than the set value.

Air Conditioner, Oxygen Sensor, Indoor Unit, Outdoor Unit, Oxygen Generator, Oxygen Sensor, Microcomputer

Description

Oxygen generating air conditioner and the control method of the same}

1 is a schematic view showing an embodiment of an oxygen generating air conditioner according to the present invention;

2 is an oxygen generation control block diagram of an embodiment of an oxygen generation air conditioner according to the present invention;

3 is a schematic block diagram showing the oxygen and nitrogen discharge process through the first nitrogen adsorption unit of the oxygen generator of the oxygen generating air conditioner according to an embodiment of the present invention,

Figure 4 is a schematic diagram showing the oxygen and nitrogen discharge process through the second nitrogen adsorption unit of the oxygen generator of the oxygen generating air conditioner according to an embodiment of the present invention.

5 is a flow chart illustrating an embodiment of a control method of an oxygen generating air conditioner according to the present invention;

6 is a flow chart illustrating another embodiment of a control method of an oxygen generating air conditioner according to the present invention;

7 is a schematic perspective view of an oxygen generating air conditioner according to the prior art,

8 is an oxygen generation control block diagram of an oxygen generating air conditioner according to the prior art;

<Explanation of symbols on main parts of the drawings>

50: air conditioner 52: indoor unit

54: outdoor unit 60: oxygen generator

70: oxygen sensor 80: microcomputer

90: display 92: oxygen generation key input unit

94: timer

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an oxygen generating air conditioner, and more particularly, to an oxygen generating air conditioner that generates oxygen when an oxygen concentration detected by an oxygen sensor is less than a set value, and a control method thereof.

In general, an air conditioner uses a refrigeration cycle of a refrigerant consisting of a compressor, a condenser, an expansion mechanism, and an evaporator to create a more comfortable indoor environment for a user. An air conditioner (hereinafter, referred to as an 'oxygen-generated air conditioner') with an oxygen generating function that freshens air is used.

In the conventional oxygen generating air conditioner, as illustrated in FIG. 7, the indoor unit 2 and the outdoor unit 10 are connected to the refrigerant pipe 12 so that the refrigerant is circulated inside the indoor unit 2 and the outdoor unit 10, and Air is sucked into the indoor unit 2 and heat-exchanged with the refrigerant and then discharged back into the room to cool or heat the room.

The oxygen generator 20 is mounted on the outdoor unit 10, and an oxygen supply hose 30 is disposed between the oxygen generator 20 and the indoor unit 2 so that the oxygen generator 20 is outdoors. After inhaling air to generate oxygen, oxygen is supplied into the indoor unit 2 through the oxygen supply hose 30, and oxygen supplied through the oxygen supply hose 30 is indoors when the indoor unit 2 is operated. After being sucked in, it is discharged into the room together with the air heated / cooled by the refrigerant.

On the other hand, one side of the indoor unit (2) is provided with an oxygen generating key input unit 4 for the on / off of the oxygen generator 20 separately, and the user operates the oxygen generating key input unit 4 at all times Generator 20 is activated / stopped.

As shown in FIG. 8, the oxygen generating air conditioner further includes a microcomputer 6 for turning on / off the oxygen generator 20 according to a command input from the oxygen generating key input unit 4.

Looking at the operation of the oxygen generating air conditioner of the prior art configured as described above are as follows.

First, when the user operates the indoor unit 2 and inputs an oxygen generation command through the oxygen generation key input unit 4, the microcomputer 6 receives a signal output from the oxygen generation key input unit 4. It accepts and turns on the said oxygen generator 20.

When the oxygen generator 20 is turned on, the oxygen generator 20 supplies oxygen through the oxygen supply hose 30, and the supplied oxygen is sucked into the indoor unit 2 indoors and then heated / cooled by a refrigerant. It is discharged into the room together with the air which has been raised to increase the oxygen concentration in the room.

On the other hand, when the user inputs an oxygen stop command through the oxygen generating key input unit 4 during the operation of the indoor unit 2 and the oxygen generator 20, the microcomputer 6 at the oxygen generating key input unit 4; The oxygen generator 20 is turned off by receiving the output signal.

However, in the conventional oxygen generating air conditioner, a user inputs an oxygen generation command and an oxygen stop command through the oxygen generation key input unit 4, and the microcomputer 6 turns on the oxygen generator 20 according to a user's command. Since it is turned on / off, there is a problem that it is difficult to maintain an appropriate oxygen concentration in the room.

The present invention has been made to solve the above problems of the prior art, and an object thereof is to provide an oxygen generating air conditioner and a control method thereof capable of optimally maintaining the oxygen concentration in the room.

Oxygen generating air conditioner according to the present invention for solving the above problems is an air conditioner for air conditioning the room; An oxygen generator mounted to the air conditioner; An oxygen sensor mounted to the air conditioner to detect an oxygen concentration in the room and convert the converted oxygen into a voltage; It comprises a microcomputer for receiving a signal according to the voltage output from the oxygen sensor to command the on / off to the oxygen generator,
The oxygen generator may include an air suction unit through which indoor air is sucked; A nitrogen adsorption unit communicating with the air intake unit and adsorbing nitrogen; An oxygen discharge part communicating with the nitrogen adsorption part and discharging oxygen separated from nitrogen into the room while passing through the nitrogen adsorption part; An oxygen discharge pump for pumping oxygen discharged to the oxygen discharge unit; A jalso discharge unit communicating with the nitrogen adsorption unit and extending outdoors to discharge nitrogen separated from oxygen; It is composed of a vacuum pump mounted on the nitrogen discharge unit to discharge the nitrogen adsorbed on the nitrogen adsorption unit to the outside by vacuum pumping,
The nitrogen adsorption unit is characterized in that the inlet and outlet formed in the case, and the trapping powder to increase the oxygen content of the air by trapping nitrogen in the air that is received inside the case.

In addition, the oxygen generating air conditioner is characterized in that it further comprises a display for displaying the detected oxygen concentration.

The oxygen generating air conditioner may further include an oxygen generation key input unit input by a user to turn on / off the oxygen generator.

In addition, the control method of the oxygen generating air conditioner according to the present invention, the oxygen sensor detects the indoor oxygen concentration and converts the detected oxygen concentration into a voltage and outputs, and the output of the voltage output in the first step A second step in which the microcomputer receives the signal and compares the detected oxygen concentration with a set value; and a third step of turning on the oxygen generator when the detected oxygen concentration is less than the set value as a result of the comparison of the second step; When the oxygen generator is turned on, the air in the room is sucked into the oxygen generator, and nitrogen in the air is collected in the capture powder of the oxygen generator, and accordingly, a fourth step of discharging the air having the reduced nitrogen ratio into the room is performed.

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In addition, the control method of the oxygen generating air conditioner is characterized in that it further comprises a fourth step of the microcomputer outputs a signal on the display to display the oxygen concentration detected in the first step on the display.

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

1 is a schematic diagram showing an embodiment of an oxygen generating air conditioner according to the present invention, Figure 2 is an oxygen generation control block diagram of an embodiment of an oxygen generating air conditioner according to the present invention.

As shown in FIGS. 1 and 2, the oxygen generating air conditioner according to the present embodiment includes an air conditioner 50 for air conditioning the room, an oxygen generator 60 mounted to the air conditioner 50, The oxygen generator 70 mounted on the air conditioner 50 detects the oxygen concentration in the room, converts the voltage into a voltage, and outputs the same, and receives the signal according to the voltage output from the oxygen sensor 70. And a microcomputer 80 for instructing 60 to turn on / off.

The air conditioner 50 is composed of a separate air conditioner installed by connecting a cooling / heat dissipation device in the indoor side and a heat dissipation / cooling and compression device in the outdoor side by connecting the two devices separated from each other by a refrigerant pipe, or cooling It consists of an integrated air conditioner that integrates the function of heat dissipation and drills a hole in the wall of a house or hangs the device on a window.

Hereinafter, for convenience of description, the air conditioner 50 has an indoor unit 52 and an outdoor unit 54 connected to the refrigerant pipe 54 so that the refrigerant is circulated inside the indoor unit 52 and the outdoor unit 54, and the indoor unit. The air of the air is sucked into the indoor unit 52, heat exchanged with the refrigerant, and then discharged back into the room, so that the air conditioner is limited to a separate air conditioner for cooling or heating the room.

The indoor unit 52 has an inlet 53a through which air is sucked into the room, and a discharge port 53b through which air is discharged into the room. An indoor heat exchanger through which refrigerant passes, and indoor air are sucked into the indoor unit. Then, the indoor side blower is discharged back to the room.

The outdoor unit 54 is formed with an inlet port 55a through which outdoor air is sucked, a discharge port 55b through which air is discharged to the outside, and an outdoor side heat exchanger 55c through which refrigerant passes, and outdoor air. It is equipped with an outdoor blower that sucks into the outdoor unit and discharges it to the outside again.

The oxygen generator 60 may be mounted on the outdoor unit 54 to supply oxygen to the indoor unit 52 through a separate oxygen supply hose, and may be mounted on the indoor unit 52 to generate oxygen by sucking air in the room. It is also possible, and will be described as being mounted inside the indoor unit 52 for convenience of description below.

And the oxygen sensor 70 is analyzer 72 which analyzes the decision to the zirconia (ZrO ₂₎ is a coated tube, the oxygen introduced into the tube formed by the chemical reaction and zirconia (ZrO _2), the analyzer It is configured to include an output unit 74 for generating and outputting a voltage according to the analyzed oxygen concentration.

The microcomputer 80 determines whether the oxygen generator 60 is on or off by comparing the detected oxygen concentration with a set value.

Here, the set value is preferably set so that the oxygen concentration in the air is maintained at 21%.

The oxygen generating air conditioner further comprises a display 90 for displaying the sensed oxygen concentration.

The display 90 may be formed of a liquid crystal display device or a plasma display panel which displays oxygen concentration by numbers or letters (for example, excessive, proper or insufficient), a bar graph, or the like. It is also possible to comprise a light emission diode, it is preferable that it is mounted on one side of the indoor unit (52).

The oxygen generating air conditioner further includes an oxygen generating key input unit 92 input by a user to turn on / off the oxygen generator 60.

The oxygen generation key input unit 92 is preferably provided in the remote controller 57 for remote operation of the air conditioner or the indoor unit 52, and preferably made of any one of a push button, a touch button, and a rotary switch. Do.

Reference numeral 94 is a timer which outputs a clock signal to the oxygen sensor 70 so that the oxygen sensor 70 can detect oxygen at a set time interval, and reference numeral 96 is generated by the oxygen generator 60. The guide hose for guiding the oxygen to the discharge port 53b of the indoor unit 52, reference numeral 98 is an oxygen injection nozzle formed at the discharge port side end of the guide hose 96, reference numeral 99 is the oxygen generator Nitrogen discharge hose connected to (60) to discharge nitrogen separated from oxygen to the outside.

3 is a schematic block diagram showing the oxygen and nitrogen discharge process through the first nitrogen adsorption unit of the oxygen generator of one embodiment of the oxygen generating air conditioner according to the present invention, Figure 4 is an oxygen generating air conditioner according to the present invention The schematic diagram of the oxygen and nitrogen discharge process through the second nitrogen adsorption unit of the oxygen generator of the embodiment is shown.

As shown in FIGS. 3 to 4, the oxygen generator 60 communicates with an air intake unit 101 through which air is sucked and is branched in two directions, and a branch of the air intake unit 101, respectively, and nitrogen. The first and second nitrogen adsorption units 102a and 102b to which the adsorbed water is branched into two branches so as to communicate with each of the first and second nitrogen adsorption units 102a and 102b. Oxygen discharge unit 103 for discharging oxygen separated from nitrogen while passing through 102b, Oxygen discharge pump 104 for pumping the oxygen discharged to the oxygen discharge unit 103, and the first and second nitrogen Nitrogen discharge portion 105 branched into two branches to communicate with each of the adsorption portions 102a and 102b and extending through the indoor unit to the outside, and nitrogen adsorbed to the first and second nitrogen adsorption portions 102a and 102b. Including a vacuum pump 106 mounted on the nitrogen discharge portion 105 so that the vacuum pumping to discharge to the outside It is.

The air suction unit 101 may be disposed in the interior of the indoor unit to suck the air sucked into the indoor unit, the air suction hose may be connected to directly suck the air in the room. Of course.

The first and second nitrogen adsorption units 102a and 102b include a case in which an inlet and an outlet are formed, and a capture powder which collects nitrogen in air that is received and passed through the case and increases oxygen content of the air.

The capture powder is a zeolite that uses a difference in the collection power of a plurality of molecules constituting the air, and since nitrogen is easily collected compared to oxygen or other molecules, the ratio of nitrogen in the air passing through the capture powder This decreases and the air with increased oxygen content is discharged.

Reference numerals 101a and 101b are first and second suction opening / closing valves mounted to the branch portions of the air intake unit 101, and reference numerals 105a and 105b are attached to the branch portions of the nitrogen outlet portion 105 respectively. And first and second exhaust opening / closing valves, and reference numeral 107 denotes a filter mounted on the air intake unit 101 to purify the air, and reference numerals 108a and 108b denote the first and second exhaust opening / closing valves. The 1st, 2nd nitrogen adsorption part 102a, 102b is a 1st, 2nd check valve which prevents oxygen backflow between each other.

Looking at the operation and control method of the oxygen generating air conditioner of the present invention configured as described above are as follows.

5 is a flowchart illustrating an embodiment of a control method of an oxygen generating air conditioner according to the present invention.

First, when the user operates the indoor unit, the timer 94 outputs a clock signal to the oxygen sensor 70 at a set time interval (for example, one minute), and the oxygen sensor 70 outputs the timer. The oxygen concentration of the room is detected according to the clock signal output from 94. (S1).

The oxygen sensor 70 analyzes the crystal formed by the analyzer 72 inside the tube to calculate the oxygen concentration according to the analysis result, and the output unit 74 is connected to the oxygen concentration calculated by the analyzer 72. Generates a voltage according to the output to the microcomputer (80).

The microcomputer 80 receives the signal output from the oxygen sensor 70 and compares the detected oxygen concentration with a set value.

If it is determined that the detected oxygen concentration is smaller than the set value, the microcomputer 80 determines that the oxygen concentration in the room is low and turns on the oxygen generator 60 (S3).

When the oxygen generator 60 is turned on, some of the indoor air is sucked into the oxygen generator 60 so that only a high concentration of oxygen is discharged to the outside of the oxygen generator 60, and the discharged oxygen is discharged from the indoor unit 52. It is discharged to the outside of the room to increase the oxygen concentration in the room.

On the other hand, if it is determined that the detected oxygen concentration is greater than or equal to the set value, the microcomputer 80 determines that the oxygen concentration in the room is high and turns off the oxygen generator 60 (S4).

Thereafter, the on / off of the oxygen generator 60 is repeated according to the change in the concentration of oxygen sensed by the oxygen sensor 70.

Hereinafter, the oxygen generator 60 will be described in more detail with reference to FIGS. 3 and 4 with reference to FIGS. 3 and 4.

The microcomputer 80 turns on the oxygen discharge pump 104 and the vacuum pump 106 of the oxygen generator 60, and some of the indoor air is turned on when the oxygen discharge pump 104 and the vacuum pump 106 are turned on. It is sucked into the oxygen generator 60.

In the inhaled air, nitrogen is collected in the nitrogen collecting units 102a and 102b and discharged to the outside, and oxygen is passed through the nitrogen collecting units 102a and 102b and concentrated and discharged to the guide hose 96. The high concentration of oxygen passing through the guide hose 96 is discharged in front of the discharge port 53b of the indoor unit 52.

6 is a flowchart illustrating another embodiment of a control method of an oxygen generating air conditioner according to the present invention.

First, when the user operates the indoor unit 52 and inputs an oxygen generation command through the oxygen generation key input unit 92, the microcomputer 80 receives the signal output from the oxygen generation key input unit 92. It accepts and waits for the oxygen generator 60 to be turned on. (S11)

The timer 94 outputs a clock signal to the oxygen sensor 70 at a set time interval (for example, 1 minute), and the oxygen sensor 70 is output according to the clock signal output from the timer 94. Detect the oxygen concentration in the room. (S12)

The oxygen sensor 70 analyzes the crystal formed by the analyzer 72 inside the tube to calculate the oxygen concentration according to the analysis result, and the output unit 74 is connected to the oxygen concentration calculated by the analyzer 72. Generates a voltage according to the output to the microcomputer (80).

The microcomputer 80 receives the signal output from the oxygen sensor 70 and compares the detected oxygen concentration with a set value.

If it is determined that the detected oxygen concentration is smaller than the set value, the microcomputer 80 determines that the oxygen concentration in the room is low and turns on the oxygen generator 60 (S14).

When the oxygen generator 60 is turned on, some of the indoor air is sucked into the oxygen generator 60 so that only a high concentration of oxygen is discharged to the outside of the oxygen generator 60, and the discharged oxygen is discharged from the indoor unit 52. It is discharged to the outside of the room to increase the oxygen concentration in the room.

On the other hand, if it is determined that the detected oxygen concentration is greater than or equal to the set value, the microcomputer 80 determines that the oxygen concentration in the room is high and turns off the oxygen generator 60 (S15).

Thereafter, the on / off of the oxygen generator 60 is repeated according to the change in the concentration of oxygen sensed by the oxygen sensor 70.

Meanwhile, when a user inputs an oxygen stop command through the oxygen generation key input unit 92 while the oxygen generator 60 is turned on and thus oxygen is discharged into the room, the microcomputer 80 inputs the oxygen generation key input unit. The oxygen generator receives the signal output from 92 to turn off the oxygen generator. (S16, S17)

Oxygen generating air conditioner according to the present invention is configured as described above is equipped with an oxygen generator for generating oxygen in the air conditioner, the oxygen sensor for detecting the oxygen concentration in the room, the oxygen in accordance with the oxygen concentration detected by the oxygen sensor It is equipped with a microcomputer to turn the generator on and off, there is an advantage that can maintain the optimal oxygen concentration in the room.

In addition, the oxygen generating air conditioner according to the present invention further comprises a display for displaying the detected oxygen concentration, there is an advantage that the user can check the oxygen concentration in the room.

In addition, the oxygen generating air conditioner according to the present invention further comprises an oxygen generating key input unit input by the user to turn on / off the oxygen generator, the user can turn on / off the oxygen generator as desired There is this.

In addition, the control method of the oxygen generating air conditioner according to the present invention, the oxygen sensor detects the indoor oxygen concentration and converts the detected oxygen concentration into a voltage, and outputs, the microcomputer receives the signal of the output voltage detected oxygen By comparing the concentration with the set value, if the oxygen concentration is less than the set value, the oxygen generator is turned on, and if the oxygen concentration is above the set value, there is an advantage of automatically optimizing the oxygen concentration in the room.

In addition, in the control method of the oxygen generating air conditioner according to the present invention, the oxygen sensor detects the indoor oxygen concentration, converts the detected oxygen concentration into a voltage, and outputs it, and the microcomputer receives the signal of the output voltage of the microcomputer to detect the microcomputer. Compared with the set oxygen concentration and the set value, the oxygen generator is turned on and off according to the comparison result and the command input by the user, so that the oxygen concentration in the room can be automatically optimized and the user's needs can be met. .

Claims (6)

An air conditioner for air conditioning the room; An oxygen generator mounted to the air conditioner; An oxygen sensor mounted to the air conditioner to detect an oxygen concentration in the room and convert the converted oxygen into a voltage; It comprises a microcomputer for receiving a signal according to the voltage output from the oxygen sensor to command the on / off to the oxygen generator, The oxygen generator may include an air suction unit through which indoor air is sucked; A nitrogen adsorption unit communicating with the air intake unit and adsorbing nitrogen; An oxygen discharge part communicating with the nitrogen adsorption part and discharging oxygen separated from nitrogen into the room while passing through the nitrogen adsorption part; An oxygen discharge pump for pumping oxygen discharged to the oxygen discharge unit; A jalso discharge unit communicating with the nitrogen adsorption unit and extending outdoors to discharge nitrogen separated from oxygen; It is composed of a vacuum pump mounted on the nitrogen discharge unit to discharge the nitrogen adsorbed on the nitrogen adsorption unit to the outside by vacuum pumping, The nitrogen adsorption unit oxygen generation air conditioner characterized in that the inlet and outlet is formed with a collecting powder to increase the oxygen content of the air by trapping nitrogen in the air that is received inside the case. The method of claim 1, And the oxygen generating air conditioner further comprises a display indicative of the detected oxygen concentration. The method of claim 1, And the oxygen generating air conditioner further comprises an oxygen generating key input unit input by a user to turn on / off the oxygen generator. The method of claim 1, The collecting powder is an oxygen-generating air conditioner, characterized in that composed of a zeolite for collecting nitrogen by using a difference in the collection power for a plurality of molecules constituting the air. A first step of detecting, by the oxygen sensor, indoor oxygen concentration, converting the detected oxygen concentration into a voltage and then outputting the voltage; A second step in which the microcomputer receives the signal of the voltage output in the first step and compares the detected oxygen concentration with a set value; A third step of turning on the oxygen generator when the detected oxygen concentration is less than a set value as a result of the comparison of the second step; When the oxygen generator is turned on in the third step, the air in the room is sucked into the oxygen generator, and the nitrogen in the air is collected in the capture powder of the oxygen generator, and accordingly, the fourth step in which the air having the reduced nitrogen ratio is discharged into the room. Control method of an oxygen generating air conditioner, characterized in that comprises a. delete

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