KR101681955B1 - Sterilizing air conditioner making use ofelectrolytic water - Google Patents

Abstract

The present invention relates to an air-conditioning device wherein a vaporizing humidifier with a sterilizing function using electro-analyzed water is installed capable of supplying clean air indoors by sterilizing bacteria generated in a heat-exchange unit or the vaporizing humidifier by injecting the electro-analyzed water to the heat-exchange unit or the vaporizing humidifier. The air-conditioning device includes: a case (106); the heat-exchange unit (118); and a first electro-analyzed water injecting unit (123). The case (106) includes a suction unit (100) with a suction blower (110) sucking indoor air and an air mixing unit (102) mixing some of the indoor air sucked by the suction unit (100) with indoor air discharged through an indoor air outlet (115) and outdoor air newly received through an outdoor air inlet (116) as much as an amount of the discharged indoor air and then sending the mixed air to a discharge unit (104). The heat-exchange unit (118) is installed in one inner side of the air mixing unit (102) and heat-exchanges the supplied air. The first electro-analyzed water injecting unit (123) is installed in one side of an internal ceiling of the air mixing unit (102) by being separated at a predetermined interval from the heat-exchange unit (118) and injects the electro-analyzed water to the top of the heat-exchanging unit, thereby sterilizing bacteria generated in the heat-exchanging unit and removing odor.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an air conditioner having a sterilizing function by electrolytic water,

The present invention relates to an air conditioner, and more particularly, to an air conditioner that discharges electrolytic water with a heat exchanger or an evaporative humidifier to sterilize bacteria generated in a heat exchanger or a vaporizing humidifier and remove odors to supply clean air to the room And an evaporative humidifier having a sterilizing function by electrolytic water.

Generally, the air conditioner is a device that adjusts the temperature, humidity, air flow and cleanliness of the air sent to the room to create a pleasant indoor environment. It is divided into small capacity or large capacity according to the installation place and the cooling / heating capacity, For home use, large capacity is used for large buildings such as buildings or factories.

The air conditioner performs cooling or heating by repetitive cycles in which indoor air is forcibly sucked and heat-exchanged to a high temperature or a low temperature and then returned to the room.

In the air conditioner, a number of cases have been filed with the Korean Intellectual Property Office (KIPO). Among them, the application number 10-2005-0096416 of October 13, 2005 (entitled "Power saving type air conditioner using heat pump") , The scope of claim is as follows. The indoor air is introduced through the indoor air intake port 7a, and is supplied to the evaporator A first heat exchanger HE1, an expansion valve EV1 for a first heat exchanger, and a second heat exchanger HE1 connected in parallel with the first heat exchanger HE1. The second heat exchanger HE2 and the expansion valve EV2 for the second heat exchanger are provided and the mixed air of the indoor air and the outdoor air is introduced through the indoor air intake port 7b and the outdoor air intake port 13b A second heat exchange chamber (21) for condensing or evaporating the refrigerant and sending it to the first heat exchange chamber (5) or the compressor (CO) (E1), an evaporator expansion valve (EV), a reheat condenser (RC), a first heat exchanger (HE1), an expansion valve (EV1) for a first heat exchanger, a second heat exchanger And a switching means for switching the refrigerant flow between the compressor HE2, the expansion valve EV2 for the second heat exchanger, and the compressor CO, wherein the switching means comprises a compressor CO, If the high-pressure pipe pressure of the compressor (CO) is less than the preset pressure, the pressure of the high-pressure pipe of either the first heat exchanger (HE1) or the second heat exchanger (HE2) The refrigerant is switched from the compressor (CO) to the reheat (HE) and the second heat exchanger (HE2) to the evaporator expansion valve (EV) When the temperature of the low-pressure pipe of the condenser (RC) -> the compressor (CO) is equal to or higher than a predetermined temperature, the expansion valve EV1 for the first heat exchanger or the expansion valve EV2 for the second heat exchanger If the temperature of the low-pressure pipe of any one of the expansion valves and the compressors (CO) is lower than the predetermined temperature, the expansion valve EV1 for the first heat exchanger and the expansion valve EV2 for the second heat exchanger-> the first heat exchanger HE1 or the second To a heat exchanger (CO) connected to an expansion valve through which the refrigerant flows in the heat exchanger HE2,

(CO) -> reheat condenser (RC) -> evaporator expansion valve (EV) -> evaporator (E) -> compressor (CO) at the time of dehumidification. Harmonics. " to be.

However, the power saving type air conditioner using the conventional heat pump has a problem in that bacteria are generated in the heat exchanger or the evaporative humidifier because the electrolytic water is not sprayed by the heat exchanger or the evaporative humidifier.

Accordingly, odor is generated in the heat exchanger or the evaporative humidifier, and indoor air is contaminated by the discharged air.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide an apparatus and a method for producing a sterilizing apparatus, And an evaporative humidifier having sterilizing function by electrolytic water for sterilizing and removing odors to supply clean air to the room.

However, the object of the present invention is not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, there is provided an air conditioner including a vaporization type humidifier having a sterilizing function by electrolytic water,

A suction unit 100 having a suction blower 110 for sucking indoor air and a suction unit 100 for suctioning a part of the indoor air sucked through the suction unit 100 from the indoor air discharged through the indoor air outlet 114 and the discharged indoor air amount A case 106 including an air mixing unit 102 for mixing outdoor fresh air introduced through the outdoor air inlet 116 to the discharge unit 104;

A heat exchange unit 118 installed at one side of the air mixing unit 102 for exchanging heat with the supplied air;

The first electrolytic water supply unit 102 is installed at one side of the inner ceiling of the air mixing unit 102 at a predetermined distance from the heat exchanging unit 118 to spray the electrolytic water to the upper end of the heat exchanging unit to sterilize bacteria generated in the heat exchanging unit, And includes a female part 123.

As described above, the air conditioner equipped with the evaporative humidifier having the sterilizing function by the electrolytic water according to the present invention can be used as a heat exchanger provided with electrolytic water or a vaporization type humidifier, so that the bacteria generated in the heat exchanger or the evaporative humidifier It is effective not only to sterilize but also to remove odor.

In addition, the present invention has the effect of improving the indoor air as well as improving the health of the user by supplying clean air to the room.

1 is a schematic view of an air conditioner equipped with a vaporization type humidifier having sterilizing function by electrolytic water according to the present invention,
Fig. 2 is a schematic view showing the inside of the case of Fig. 1,
FIG. 3 is a schematic cross-sectional view of an air conditioner provided with a vaporization type humidifier having sterilizing function by the electrolytic water of FIG. 1,
Fig. 4 is a schematic diagram of an air conditioner equipped with a vaporization type humidifier having sterilizing function by the electrolytic water of Fig. 1; Fig.

Hereinafter, a preferred embodiment of an air conditioner provided with a vaporization type humidifier having sterilizing function by electrolytic water according to the present invention will be described.

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 1 is a schematic view of an air conditioner equipped with a vaporization type humidifier having sterilizing function by electrolytic water according to the present invention, FIG. 2 is a view schematically showing the inside of the case of FIG. 1, FIG. 4 is a schematic diagram of an air conditioner having a vaporization type humidifier having a sterilizing function by the electrolytic water shown in FIG. 1; FIG. 4 is a schematic cross-sectional view of an air conditioner provided with a vaporization type humidifier having electrolytic water-

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1 to 4, an air conditioner in which a vaporization type humidifier having sterilizing function by electrolytic water according to the present invention is installed,
An air mixing portion 102 and a discharge portion 104 are sequentially arranged inside the case 106 along the air flow direction.

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Here, the space in which the air is introduced or discharged is configured to control airflow by isolating it from the frame except for a part of the open area.

The suction unit 100 is formed at one side of the upper portion of the case 106 and is connected to the interior of the case by an indoor air inlet 108 through which circulated indoor air (R.A.) is sucked.

A suction blower 110 for sucking indoor air through an indoor air suction port 108 is installed in the suction unit 100.

The suction blower 110 sucks the indoor air to one side by the rotation of the centrifugal fan and discharges the indoor air to the air mixing unit to the other side.

In addition, the suction part 100 is separated from the air mixing part 102 by the isolation frame, and only the suction blower 110 outlet communicates with the air mixing part.

The inside of the air mixing unit 102 is divided into a portion where the suction unit 100 is in contact with the heat exchange unit and a portion where the heat exchange unit is in contact with the isolation frame on which the bypass damper 112 is installed. An indoor air outlet 114 for discharging a part of the indoor air introduced from the suction unit 100 to the outside is provided at one side of the upper surface of the case 106 of the case 106, An outdoor air inlet 116 is formed so that a part of the outdoor air is introduced.

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A heat exchanger 118 is installed at a predetermined distance from the bypass damper 112 at one side of the air mixing unit 102.

The heat exchanger 118 is provided at a front end of the heat exchanger and includes a heat exchanger for exchanging heat between the introduced mixed air and the mixed air having a predetermined amount of outdoor air and heat-exchanging the heat with the coil through which the heat medium flows, And an air filter for removing contaminants in the mixed air.

A first electrolytic water dispersing unit 123 is installed at one side of the inner ceiling of the air mixing unit 102 at a predetermined distance from the heat exchanging unit 118.

The first electrolytic water splitting part 123 injects the electrolytic water sucked from the suction pump to the upper end of the heat exchanging part 118 according to the on-state of the solenoid valve.

The heat-exchanged air in the heat exchanging unit 118 is sent to the evaporative humidifier through a heat exchange outlet (not shown) of the isolation frame.

On the other hand, a control unit 120 is provided at one side of the outer surface of the case 106 to control it according to a predetermined program.

A vaporization type humidifier 122 is installed at one side of the air mixing unit 102 at a predetermined interval from the heat exchange unit 118.

A second electrolytic water dispersing unit 124 is installed at a predetermined distance from the evaporative humidifier 122 at one side of the inner ceiling of the air mixing unit 102.

The second electrolytic water splitter 124 injects the electrolytic water sucked from the suction pump to the upper end of the vaporization type humidifier 122 according to the ON of the solenoid valve.

Here, the electrolytic water serves to sterilize the bacteria generated in the evaporative humidifier 122.

More specifically, the electrolytic water (electrolytic water) is obtained by applying an electric force to general water such as tap water or ground water, and there are acidic ionized water and alkaline ionized water.

Also called ion water. When titanium is plated with gold (platinum) on the positive and negative sides of the water, the anions dissolved in the water are collected into acidic ionized water on the (+) pole side and the positive ions are collected on the .

In the case of acidic ionized water, it contracts and shrinks the skin. Therefore, it protects weakly acidic skin and has an excellent effect on beauty. In the case of alkaline ionized water, the beneficial minerals (inorganic salts) are more common than water. In addition, because water molecules are made smaller, absorption of minerals and so on is increased, and diarrhea, improvement of constipation, helps the above action.

In particular, it is also used as a substitute for a chemical such as a sterilizing / disinfecting agent, a detergent, a detergent, a wax, and an agricultural chemical. In addition, it can be used in various industrial fields to reduce various pollutants, thereby preventing water pollution and air pollution, and reducing harmful elements in terms of health and environment.

An electromagnetic valve 126 for opening and closing the first and second electrolytic water dispersing units 123 and 124 is provided at one end of the first and second electrolytic water dispersing units 123 and 124.

The solenoid valve 126 is electrically connected to the controller 120 and is turned on or off according to a control signal of the controller 120.

A suction pump 128 and an electrolytic water supply unit 130 are installed on one side of the case 106.

The suction pump 128 is electrically connected to the control unit 120 and sucks the electrolytic water stored in the electrolytic water supply unit 130 according to a control signal of the control unit 120 and sends the electrolytic water to the solenoid valve 126.

A first moisture sensor 119 is installed at a lower end of the heat exchanger 118 and a second moisture sensor 132 is installed at a lower end of the evaporative humidifier 122.

The first moisture sensor 119 is electrically connected to the controller 120 and senses electrolytic water flowing down to the lower end of the heat exchanger 118 according to a control signal of the controller 120.

The second moisture sensor 132 is electrically connected to the controller 120 and senses the electrolytic water flowing down to the lower end of the evaporative humidifier 122 according to a control signal of the controller 120.

A vaporization type humidifier motion detection sensor 138 is installed at a predetermined distance from the evaporative humidifier 122 at one side of the air mixing unit 102.

The evaporative humidifier motion detection sensor 138 is electrically connected to the controller 120 and senses the operation of the evaporative humidifier 122 according to a control signal of the controller 120.

The air sterilized by the heat exchanging unit 118 and the evaporative humidifier 122 is sent to the discharge blower of the discharge unit 104 through the discharge port (not shown) of the isolation frame.

The discharge port 104 is formed with an air discharge port 134 on one side of the case 106 and forcedly discharges the sterilized air to one side of the discharge port 104 through the air discharge port 134 And a discharge blower 136.

The discharge blower 136 may be of the same type as the suction blower.

The operation of the air conditioner provided with the evaporative humidifier having the sterilizing function by the electrolytic water according to the present invention,

The control unit 120 sends a control signal to the second moisture sensor 132 provided at the lower end of the evaporative humidifier 122.

The second moisture sensor 132 senses the moisture at the lower end of the evaporative humidifier 122 according to the control signal of the controller 120 and sends the sensed moisture value to the controller 120.

If the received moisture value is smaller than the predetermined moisture value, the controller 120 compares the predetermined moisture value with the moisture value received from the second moisture sensor 132, It is assumed that there is no moisture, that is, bacteria are generated in the evaporative humidifier, and a control signal is sent to the suction pump 128 and the electromagnetic valve 126.

The suction pump 128 sends the electrolytic water stored in the electrolytic water supply unit 130 to the solenoid valve 126 according to a control signal of the controller 120.

The electromagnetic valve 126 is turned on in response to a control signal from the control unit 120 to close the first electrolytic water splitting unit 123 and open the second electrolytic water splitting unit 124, (124).

The second electrolytic water splitter 124 injects electrolytic water to the upper end of the evaporative humidifier 122.

Therefore, the electrolytic water sterilizes the bacteria generated in the evaporative humidifier and removes the odor. The evaporative humidifier removes odors and sends sterile clean air to the exhaust blower at the exhaust.

However, if the user does not want the operation of the evaporative humidifier or the operation of the evaporative humidifier is stopped,

The controller 120 sends a control signal to the evaporative humidifier motion sensor 138.

The evaporative humidifier motion sensor 138 senses the operation of the evaporative humidifier 122 according to the control signal of the controller 120 and sends the sensed operating value to the controller 120.

If the received operation value is greater than a predetermined operation value, the controller 120 compares the predetermined operation value with the operation value received from the vaporization type humidifier operation detection sensor 138. If the operation value is larger than the predetermined operation value, the vaporization type humidifier 122 It is regarded as operating. Here, in order to stop the operation of the evaporative humidifier 122, the user stops the operation of the evaporative humidifier 122.

If the received operation value is smaller than the predetermined operation value, the control unit 120 regards the operation of the evaporative humidifier 122 as being stopped, and the first moisture sensor 122 installed at the lower end of the heat exchanger 118, (119).

The first moisture sensor 119 senses moisture at the lower end of the heat exchanger 118 according to a control signal from the controller 120 and sends the sensed moisture value to the controller 120.

If the received moisture value is smaller than the predetermined moisture value, the controller 120 compares the predetermined moisture value with the moisture value received from the first moisture sensor 119, It is assumed that bacteria are generated in the heat exchanger, and a control signal is sent to the suction pump 128 and the solenoid valve 126.

The suction pump 128 sends the electrolytic water stored in the electrolytic water supply unit 130 to the solenoid valve 126 according to a control signal of the controller 120.

The electromagnetic valve 126 is turned on in response to a control signal from the control unit 120 to close the second electrolytic water dispersing unit 124 and open the first electrolytic water dispersing unit 123 to electrolyze the electrolytic water, (123).

The first electrolytic water splitting part 123 injects electrolytic water to the upper end of the heat exchanging part 118.

Therefore, the electrolytic water sterilizes the bacteria generated in the heat exchanging part and removes odors. The heat exchanger removes odors and sends sterilized clean air to the discharge blower of the discharge section.

The foregoing description of the invention is merely exemplary of the invention and is used for the purpose of illustration only and is not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: suction part 102: air mixing part
104: discharging part 106: case
108: Indoor air intake port 110: Suction blower
112: bypass damper 114: indoor air outlet
116: outdoor air inlet 118: heat exchanger
119: first moisture sensor 120:
122: evaporative humidifier 123: first electrolytic water distributor
124: Second electrolytic water distribution part 126: Solenoid valve
128: suction pump 130: electrolytic water supply part
132: second moisture sensor 134: air outlet
136: exhaust blower 138: evaporative humidifier motion detection sensor

Claims (4)

A suction unit 100 having a suction blower 110 for sucking indoor air and a suction unit 100 for suctioning a part of the indoor air sucked through the suction unit 100 from the indoor air discharged through the indoor air outlet 114 and the discharged indoor air amount A case 106 including an air mixing unit 102 for mixing outdoor fresh air introduced through the outdoor air inlet 116 to the discharge unit 104;
A heat exchange unit 118 installed at one side of the air mixing unit 102 for exchanging heat with the supplied air;
A vaporization type humidifier 122 installed at one side of the air mixing part 102 at a predetermined interval from the heat exchange part 118 to humidify heat exchanged air from the heat exchange part 118;
A control unit 120 installed at one side of the outer surface of the case 106 to control according to a preset program;
A first moisture sensor 119 installed at a lower end of the heat exchanging unit 118 to sense the moisture of the heat exchanging unit 118,
A second moisture sensor 132 installed at a lower end of the evaporative humidifier 122 for sensing the moisture of the evaporative humidifier 122;
An electrolytic water supply unit 130 positioned at a predetermined distance from the case 106 to supply electrolytic water;
A suction pump 128 connected to the electrolytic water supply unit 130 and electrically connected to the control unit 120 for sucking the electrolytic water stored in the electrolytic water supply unit 130 according to a control signal of the control unit 120 and sending the electrolytic water to the solenoid valve;
A solenoid valve 126 electrically connected to the controller 120 to turn on according to a control signal of the controller 120 to supply electrolytic water to the first electrolytic water distributor or the second electrolytic water distributor;
The electrolytic water supplied from the solenoid valve is installed at one side of the inner ceiling of the air mixing part 102 at a predetermined distance from the heat exchanging part 118 to spray the electrolytic water to the upper end of the heat exchanging part to sterilize the bacteria generated in the heat exchanging part, A first electrolytic water dividing section 123 for removing electrolytic water;
The electrolytic water supplied from the electromagnetic valve installed at one side of the inner ceiling of the air mixer 102 at a predetermined distance from the evaporative humidifier 122 is sprayed to the upper end of the evaporative humidifier to remove the bacteria generated in the evaporative humidifier And a second electrolytic water dispersing unit (124) for sterilizing and removing odors. The air conditioner according to claim 1,
A suction unit 100 having a suction blower 110 for sucking indoor air and a suction unit 100 for suctioning a part of the indoor air sucked through the suction unit 100 from the indoor air discharged through the indoor air outlet 114 and the discharged indoor air amount A case 106 including an air mixing unit 102 for mixing outdoor fresh air introduced through the outdoor air inlet 116 to the discharge unit 104;
A heat exchange unit 118 installed at one side of the air mixing unit 102 for exchanging heat with the supplied air;
A vaporization type humidifier 122 installed at one side of the air mixing part 102 at a predetermined interval from the heat exchange part 118 to humidify heat exchanged air from the heat exchange part 118;
A control unit 120 installed at one side of the outer surface of the case 106 to control according to a preset program;
A first moisture sensor 119 installed at a lower end of the heat exchanging unit 118 to sense the moisture of the heat exchanging unit 118,
A second moisture sensor 132 installed at a lower end of the evaporative humidifier 122 for sensing the moisture of the evaporative humidifier 122;
An electrolytic water supply unit 130 positioned at a predetermined distance from the case 106 to supply electrolytic water;
A suction pump 128 connected to the electrolytic water supply unit 130 and electrically connected to the control unit 120 for sucking the electrolytic water stored in the electrolytic water supply unit 130 according to a control signal of the control unit 120 and sending the electrolytic water to the solenoid valve;
A solenoid valve 126 electrically connected to the controller 120 to turn on according to a control signal of the controller 120 to supply electrolytic water to the first electrolytic water distributor or the second electrolytic water distributor;
The electrolytic water supplied from the solenoid valve is installed at one side of the inner ceiling of the air mixing part 102 at a predetermined distance from the heat exchanging part 118 to spray the electrolytic water to the upper end of the heat exchanging part to sterilize the bacteria generated in the heat exchanging part, A first electrolytic water dividing section 123 for removing electrolytic water;
The electrolytic water supplied from the electromagnetic valve installed at one side of the inner ceiling of the air mixer 102 at a predetermined distance from the evaporative humidifier 122 is sprayed to the upper end of the evaporative humidifier to remove the bacteria generated in the evaporative humidifier A second electrolytic water dividing section (124) for sterilizing and removing odor;
The evaporative humidifier 122 is disposed at a certain distance from the evaporative humidifier 122 and is installed at one side of the interior of the air mixer 102 and is electrically connected to the controller 120 to operate the evaporative humidifier 122 in accordance with a control signal of the controller 120 And a vaporization-type humidifier motion detection sensor 138 for sensing the humidity of the humidified humidifier. The air conditioner is equipped with a vaporizing humidifier having sterilizing function by electrolytic water.





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