KR20230010925A - Air handling unit with high-efficiency plasma discharge structure - Google Patents

Abstract

The present invention relates to an air conditioning device. The purpose of the present invention is to provide the air conditioning device, which circulates air with increased density due to a low temperature around a coil, and releases a large amount of positive and negative ions through plasma discharge in the circulating air, such that air sterilization efficiency can be further improved. According to the present invention, the air conditioning device including a high-efficiency plasma discharge structure comprises: a casing formed with an air inlet and an air outlet; a blower installed in the casing, allowing air to flow in through the air inlet, and enabling the air to flow so that the introduced air exits through the air outlet; a coil installed on an air flow path inside the casing and configured to circulate a heat exchange medium which cools or heats the air through heat exchange with the air; a plasma discharger which emits positive and negative ions into the air through plasma discharge; and a sterilization induction tube through which the air with high density and moisture saturation due to a temperature lower than the surrounding temperature enters the plasma discharger such that the large amount of positive and negative ions are discharged.

Description

Air handling unit with high-efficiency plasma discharge structure

The present invention relates to an air conditioner installed in an indoor space for the purpose of cooling or heating, and more particularly, air having a high density and saturation of moisture due to a temperature lower than the ambient temperature is introduced into a plasma discharger to produce a large amount of air. positive and negative ions are released, and air having a sterilizing function is sprayed into the coil to remove germs and viruses on the surface of the coil so that the coil can be maintained in a clean state, and indoor air is discharged from the air conditioner It relates to an air conditioning device that sterilizes.

In general, an air handling unit is a device made of a unit by combining a coil capable of heat exchange, a blower, an air filter, and a casing, and is installed and used in various indoor spaces such as houses, offices, and warehouses.

The coil includes a zigzag conduit through which a heat exchange medium such as cold water, hot water, or a refrigerant flows, and is installed on a flow path of air passing through an air conditioning device to cool air through heat exchange between air and a heat exchange medium. It is configured to heat, and the air cooled or heated while passing through the coil passes through the blower and is supplied to the air conditioning target space.

On the other hand, since the air supplied to the air conditioning target may contain bacteria or viruses, positive ions and negative ions are generated by a plasma discharger or an ultraviolet ray generator in the flow path of the air and released into the air to kill bacteria or viruses.

However, since these devices generate positive ions and negative ions by introducing refluxed or newly introduced outdoor air into a plasma discharger or an ultraviolet ray generator, the efficiency of generating positive ions and negative ions is low.

In addition, in the process of cooling the air by exchanging heat between the cold water or refrigerant circulating through the coil and cooling the air, water vapor in the air is condensed on the surface of the coil and water droplets form on the surface of the coil, which makes the surface of the coil moist and wet. This creates an environment conducive to mold growth.

In particular, Legionella bacteria, a representative bacterium that propagates on the surface of the coil, has a fatal effect on the health of children and the elderly with weak immunity, and there is a problem in that pleasant air conditioning is impossible, such as generating odors due to the propagation of various bacteria and fungi. .

Therefore, in cooling using an air conditioner, it is desirable to keep the surface of the coil clean through continuous maintenance work on the coil.

However, the coil has a complicated structure including not only the conduit through which the heat exchange medium flows, but also a plate-shaped radiating fin to increase the contact area with air to increase the heat exchange efficiency between the heat exchange medium and the air, and thus maintenance management. It is difficult to keep every corner of the coil in a clean state through work, and there are problems in that the normal operation of the air conditioner is impossible while the maintenance work of the coil is being performed.

Registered Utility Model Publication No. 20-0439060 (Announced on March 18, 2008)

The present invention has been made in consideration of the above problems, and an object of the present invention is to circulate air having a high density due to a low temperature around the coil and to release a large amount of positive ions and negative ions through plasma discharge in the circulating air. It is to provide an air conditioning device made to further improve the sterilization efficiency.

Another object of the present invention is to provide an air conditioning device capable of maintaining a coil in a clean state without a separate operation for removing bacteria and viruses on the surface of the coil.

The present invention to achieve the object as described above and to eliminate the conventional drawbacks is a casing formed with an air inlet and an air outlet; a blower installed in the casing, introducing air through the air inlet, and flowing air so that the introduced air is discharged through the air outlet; a coil installed to be positioned on an air flow path inside the casing and configured to circulate a heat exchanging medium that cools or heats the air through heat exchange with the air; Plasma discharger for discharging positive and negative ions into the air through plasma discharge; and a sterilization induction pipe through which air, which has a high density and saturation of moisture due to a temperature lower than the ambient temperature, is introduced into the plasma discharger so that a large amount of positive and negative ions are discharged. It provides an air conditioning device that does.

On the other hand, in the air conditioner including the high-efficiency plasma discharge structure, the sterilization induction pipe is composed of a circulation pipe extending from the coil to the coil again via the plasma discharger, so that the density and saturation are high due to the low temperature around the coil. Air may be configured to pass through the plasma discharger.

On the other hand, in the air conditioner including the high-efficiency plasma discharge structure, the suction side end of the sterilization induction pipe is installed to be positioned below the central part based on the height direction of the coil so that air of relatively high humidity circulates through the plasma discharger. It can be done.

On the other hand, in the air conditioner including the high-efficiency plasma discharge structure, the air inlet pipe is installed to be connected to the sterilization guide pipe at the front end of the plasma discharger and introduces external air to the front end of the plasma discharger; and 3, which is installed at the connection between the air inlet pipe and the sterilization induction pipe, and controls the flow path so that either one of external air introduced through the air inlet pipe and circulating air introduced through the sterilization induction pipe is supplied to the plasma discharger. A vent valve; may be further included.

Meanwhile, in the air conditioning device including the high-efficiency plasma discharge structure, the air conditioning device may be one of a fan coil unit, an air sterilizer, an air circulator, an air conditioner, an air purifier, and an air conditioner.

According to the present invention having the above characteristics, it is possible to efficiently generate hydroperoxy radicals (HOO ^- ) generated by the combination of cations and anions discharged from the plasma discharger, and the generated hydroperoxy radicals (HOO ^- ) ) along with air to remove germs and viruses on the surface of the coil, the coil can be maintained in a more hygienic state, and through this, a healthy air-conditioning environment can be realized.

In addition, when plasma discharge occurs while circulating air whose density is increased due to the low temperature around the coil to the plasma discharger, the emission of positive and negative ions increases due to more electrons and gas molecules than air at room temperature, so the disinfection efficiency is improved. can make it

1 is a structural diagram of an air conditioner according to a preferred embodiment of the present invention;
2 is an exemplary view showing a state in which a plasma discharger is installed in a sterilization induction tube according to the present invention;
3 is a structural diagram of an air conditioning system in which an air inlet pipe and a 3-way valve are added for selectively introducing air.

Hereinafter, a preferred embodiment of the present invention will be described in detail in connection with the accompanying drawings. In describing the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description will be omitted.

1 is a structural diagram of an air conditioner according to a preferred embodiment of the present invention, FIG. 2 is an exemplary view showing a state in which a plasma discharger is installed in a sterilization induction pipe according to the present invention, and FIG. 3 is a view for selectively introducing air. It shows a structural diagram of an air conditioning system in which an air inlet pipe and a 3-way valve are added.

An air conditioner according to the present invention includes a casing 110, a first blower 120, an air filter 130, a coil 140, a plasma discharger 150, a sterilization induction pipe 160, and a second blower 170. may consist of

The casing 110 is made in the form of an empty box inside so that the coil 140 can be installed therein, an air inlet 111 is formed on one side, and an air outlet 112 is formed on the opposite side or upper surface. made up of formed

On the other hand, a drain pan 113 is installed at the lower end of the casing 110 to receive and temporarily store condensate generated by heat exchange between air and a cold heat exchange medium, and the condensate collected in the drain pan 113 drains the drain pipe. It can be configured to be discharged to a designated place through.

The first blower 120 flows air so that outside air can be introduced into the casing 110 through the air inlet 111 formed in the casing 110 and then discharged again through the air outlet 112. As such, it is installed in the air outlet 112 and is configured to forcibly discharge the air inside the casing 110 through the air outlet 112.

The air filter 130 filters foreign substances such as dust flowing into the casing 110 together with air, and is installed in the air inlet 111 to filter foreign substances in the air flowing into the casing 110.

Meanwhile, the air filter 130 may be configured by combining one or more known filters used for the purpose of removing foreign substances in the air, such as a pre-filter, a HEPA filter, and a deodorizing filter.

The coil 140 cools or heats the air introduced into the casing 110 through heat exchange with a heat exchange medium, is installed inside the casing 110, and has a zigzag shape inside the casing 110. It may be a conduit 141 formed to be bent and a plurality of heat dissipation fins 142 installed to be connected to the conduit 141.

On the other hand, the coil 140 may be configured to receive cold water cooled by a cooling tower, hot water heated by a boiler, or refrigerant made at low temperature and low pressure through an expansion valve constituting a refrigeration cycle.

The plasma discharger 150 emits positive ions and negative ions into the air through plasma discharge to give air a sterilizing function, and a first electrode unit 151 that emits hydrogen ions (H ⁺ ) through plasma discharge; The second electrode unit 152 that emits superoxide anion (O ₂ ^- ) through plasma discharge, and the first electrode unit 151 and the second electrode unit 152 to generate a plasma discharge in the first electrode unit 152. Consists of a power supply unit 153 that supplies electricity to the second electrode units 151 and 152, and a housing 154 in which the first electrode unit 151, the second electrode unit 152, and the power supply unit 153 are installed It can be.

On the other hand, the first electrode unit 151 is composed of a first discharge electrode 155 and an induction electrode 156, and receives a positive high voltage (2kV to 4kV) from the power supply unit 153 to generate a plasma discharge. while generating positive ions.

In addition, the second electrode unit 152 is composed of a second discharge electrode 157 and a ground electrode 158, and receives a negative high voltage (2 kV to 4 kV) from the power supply unit 153 to generate plasma discharge. It may be configured to generate negative ions while doing so.

As described above, the first electrode unit 151 and the second electrode unit 152 are spaced apart from each other by a predetermined distance, and a part of the first discharge electrode 155 and the second discharge electrode 157 extends to the outside of the housing 154. It is installed to have a protruding structure.

On the other hand, hydroperoxy has excellent oxidizing power by the combination of hydrogen ions (H ⁺ ) released from the first electrode part 151 and superoxide anion (O ₂ ^- ) released from the second electrode part 152 Radicals (HOO ^- ) are formed, and the hydroperoxy radical (HOO ^- ) thus formed flows together with air and is sprayed onto the surface of the coil 140 to remove bacteria or viruses on the surface of the coil 140 .

In the sterilization induction tube 160, hydroperoxy radicals (HOO ^- ) formed by combining hydrogen ions (H ⁺ ) and superoxide anions (O ₂ ^- ) emitted from the plasma discharger 150 are coiled together with air. A tube for inducing air to be sprayed to the surface of 140, and may be installed to extend from the coil 140 from the plasma discharger 150.

On the other hand, a plurality of nozzles (not shown) are distributedly installed at the end of the sterilization induction pipe 160 close to the coil 140 to expand the spray range of air, so that the air is evenly sprayed over the entire surface of the coil 140. may be

The second blower 170 blows air containing hydroperoxy radicals (HOO ^- ) formed by the combination of hydrogen ions (H ⁺ ) and superoxide anion (O ₂ ^- ) discharged from the plasma discharger 150. It is installed in the middle of the sterilization induction pipe 160 and sterilizes the air around the plasma discharger 150 by flowing the air so that it can be sprayed to the surface of the coil 140 by flowing through the sterilization induction pipe 160. Suction is performed through the pipe 160, and the sucked air is operated to flow in the direction of the coil 140 through the sterilization induction pipe 160.

On the other hand, the sterilization induction tube 160 sucks in cold air around the coil 140, and the sucked air passes through the plasma discharger 150 and then sprays the coil 140 to the surface of the coil 140 to plasma. It may be composed of a circulation pipe having a structure extending to the coil 140 via the discharger 150 again.

In this way, when the sterilization induction pipe 160 is composed of a circulation pipe, when the air conditioner operates in a cooling or freezing mode, supersaturated air having a relatively high density is supplied to the plasma discharger 150, so that sterilization efficiency can be further improved.

That is, when the air conditioner operates in a cooling or freezing mode, the air around the coil 140 is cooled due to heat exchange with the heat exchange medium to maintain a low temperature, and the density of the air is inversely proportional to the temperature. Therefore, the low-temperature air around the coil 140 has a high density including a relatively large number of molecules, and maintains a supersaturated state.

When such high-density supersaturated air passes through the plasma discharger 150, a larger amount of hydrogen ions (H ⁺ ) and Superoxide anion (O ₂ ^- ) is released, and as a result, the generation amount of hydroperoxy radical (HOO ^- ) is increased, so that the air sterilization effect can be further enhanced.

In configuring the sterilization induction pipe 160 as a circulation pipe as described above, it is preferable that the suction side end 160a of the sterilization induction pipe 160 is located below the central portion with respect to the height direction of the coil 140. Do.

This is because the condensate formed on the surface of the coil 140 flows down the coil 140 by gravity and forms a relatively high humidity atmosphere at the lower end of the coil 140, so that the lower part of the coil 140 is humid. By supplying air to the plasma discharger 150, the sterilization effect of air can be further enhanced.

On the other hand, when the external temperature is low, such as in winter, the air inlet pipe 180 replaces the air around the coil 140 and allows outside air to be sucked into the sterilization induction pipe 160, and the outside air and around the coil 140 A three-way valve 190 for controlling a flow path so that any one of the air is supplied to the plasma discharger 150 may be further included.

The air inlet pipe 180 is branched from the sterilization induction pipe 160 at the front end of the plasma discharger 150 and is installed to extend to the outside. It is configured to form a passage leading to the sterilization induction pipe 160.

The 3-way valve 190 is installed to be located at the connection between the sterilization induction pipe 160 and the air inlet pipe 180, and closes the flow path on the air inlet pipe 180 so that the air around the coil 140 induces sterilization. It operates to form a passage through which the pipe 160 circulates, or closes the flow passage on the suction side of the sterilization induction pipe 160 to form a passage through which external air circulates through the sterilization induction pipe 160.

The three-way valve 190 operates to switch the flow path by manual operation of the manager, or operates automatically according to a preset program in response to the difference between the ambient temperature of the coil 140 and the external temperature, while relatively low-temperature air is sterilized. It can operate so as to flow into the guide tube 160.

In the air conditioning apparatus according to the present invention configured as described above, external air is introduced into the casing 110 through the air inlet 111 by the operation of the first blower 120, and air introduced into the casing 110 In the process of passing through the coil 140, it exchanges heat with the heat exchange medium to be cooled or heated, and then discharged through the air outlet 112.

As described above, during the operation of the air conditioner, the second blower 170 and the plasma discharger 150 operate together, and accordingly, some of the air around the coil 140 is sucked into the sterilization induction pipe 160 and plasma discharged. It passes through the discharger 150.

As such, in the process of the circulating air passing through the plasma discharger 150, in the first electrode unit 151 provided in the plasma discharger 150, moisture (H ₂ O) in the air is ionized by the plasma discharge and hydrogen ions (H ⁺ ) is emitted, and a large amount of electrons are emitted from the second electrode unit 152 and adsorbed to oxygen molecules (O ₂ ) in the air to form superoxide anion (O ₂ ^- ), and thus formed hydrogen ions ( H ⁺ ) and superoxide anion (O ₂ ^- ) are combined to generate a hydroperoxy radical (HOO ^- ).

Therefore, the air passing through the plasma discharger 150 contains hydroperoxy radicals (HOO ^- ) having excellent oxidizing power, and by spraying the air to the surface of the coil 140, various bacteria and viruses on the surface of the coil 140 can destroy

On the other hand, when the air conditioner operates in the cooling mode, when supersaturated air at low temperature around the coil 140 is circulated to the plasma discharger 150, a larger amount of hydroperoxy radicals (HOO ^- ) is generated. , the efficiency of sterilization by circulating air can be increased.

As described above, the air conditioning device according to the present invention is made to cool or heat air through heat exchange between air and a heat exchange medium, similar to the air conditioning device that is widely used in general, but the hydroperoxy radical (HOO ^- ) Since it is configured to kill various bacteria and viruses on the surface of the coil 140 by spraying air having a sterilizing function, including air to the surface of the coil 140, it is possible to realize a cleaner air-conditioning environment, as well as convenience in maintenance. It is a very useful invention that can improve.

The present invention is not limited to the specific preferred embodiments described above, and various modifications can be made by anyone skilled in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes are within the scope of the claims.

<Description of symbols for main parts of drawings>
110: casing 111: air inlet
112: air outlet 120: first blower
130: air filter 140: coil
150: plasma discharger 160: sterilization induction pipe
170: second blower 180: air inlet pipe
190: 3-way valve

Claims (5)

a casing 110 in which an air inlet 111 and an air outlet 112 are formed;
a blower 120 installed in the casing 110, introducing air through the air inlet 111, and flowing air so that the introduced air exits through the air outlet 112;
A coil 140 installed to be positioned on an air flow path inside the casing 110 and configured to circulate a heat exchange medium that cools or heats the air through heat exchange with the air;
Plasma discharger 150 for discharging positive and negative ions into the air through plasma discharge; and
A sterilization induction pipe (160) through which air, which has a high density and saturation of moisture due to a temperature lower than the ambient temperature, is introduced into the plasma discharger (150) to discharge a large amount of positive and negative ions; high efficiency characterized by including a An air conditioning device comprising a plasma discharge structure.
The method of claim 1,
The sterilization induction pipe 160 is composed of a circulation pipe that extends from the coil 140 to the coil 140 via the plasma discharger 150, and has high density and saturation due to the low temperature around the coil 140. An air conditioner comprising a high-efficiency plasma discharge structure, characterized in that configured to allow air to pass through the plasma discharger (150).
The method of claim 2,
The suction side end (160a) of the sterilization induction tube (160) is installed to be positioned below the central part with respect to the height direction of the coil (140), so that relatively high humidity air circulates through the plasma discharger (150). An air conditioning device comprising a high-efficiency plasma discharge structure.
The method of claim 2,
An air inlet pipe 180 installed at the front end of the plasma discharger 150 to be connected to the sterilization induction pipe 160 to introduce external air into the front end of the plasma discharger 150; and
It is installed at the connection between the air inlet pipe 180 and the sterilization induction pipe 160, and any one of external air introduced through the air inlet pipe 180 and circulating air introduced through the sterilization induction pipe 160 An air conditioner comprising a high-efficiency plasma discharge structure, further comprising a;
According to any one of claims 1 to 4,
The air conditioner includes a high-efficiency plasma discharge structure, characterized in that the air conditioner is one of a fan coil unit, an air sterilizer, an air circulator, an air conditioner, an air purifier, and an air conditioner.

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