KR102366125B1 - Air conditioning system using rotary dehumidification rotor and indoor air conditioning method - Google Patents

Abstract

According to the present invention, there is provided an air conditioning system for introducing or discharging air from an outdoor area (1) to an indoor (2), comprising: a first passage (110) through which air from the outdoor (1) is introduced into an indoor (2); a second passage 120 through which air from the indoor 2 is discharged to the outdoor 1; and a rotary member 200 exposed to both the first passage 110 and the second passage 120; An air conditioning system is provided.
According to the present invention, in addition to the regeneration of the adsorbent formed on the surface of the dehumidifying rotor, there is an effect of maximizing the efficiency of the adsorbent.

Description

Air conditioning system using rotary dehumidification rotor and indoor air conditioning method using the same

The present invention relates to an air conditioning system. In more detail, it relates to an air conditioning system using a rotary dehumidification rotor that can simultaneously perform constant temperature and dehumidification using a rotary dehumidification rotor exposed to both an outdoor air inlet and an indoor air outlet, and an indoor air conditioning method using the same.

In general, an air conditioning system is a device that maintains the conditions such as temperature, humidity, airflow, and cleanliness of the air in the most suitable state for the purpose of indoor use. It refers to a device that supplies the room through the Such an air conditioning system uses evaporation heat that takes heat away from the surroundings when a liquid evaporates, such as a refrigerator or a refrigerator, and liquids that are easy to evaporate even at low temperatures are used as refrigerants. As the environmental requirements increase along with improvement, increase in ventilation requirements, and global warming, the quality of life increases, an alternative refrigerant is required.

Recently, the air conditioning system has been banned from the use of CFCs as described above, increasing cooling energy, improving indoor air quality, increasing ventilation requirements, global warming, and environmental requirements due to the improvement of quality of life. Environmentally friendly air conditioning systems using

As part of energy saving measures, the effectiveness of the air conditioning method, which separates latent and sensible heat, is recognized. Compared to the existing method of cooling and dehumidifying by supercooling, the dehumidification air conditioning method, which is an air conditioner that processes outdoor air, does not overcool to the dew point temperature, so energy saving is high, and dehumidification does not occur because cooling and dehumidification are not performed. does not The existing dehumidification and air conditioning method requires heating to desorb (regenerate) the moisture adsorbed to the dehumidifying rotor. Therefore, if the heated rotor is adsorbed (treated) by the treatment side as it is, the efficiency of the adsorbent decreases and the overall dehumidification efficiency decreases. there is a problem.

The present invention has been derived to solve the problems of the conventional air conditioning system described above, and an object of the present invention is to regenerate the adsorbent formed on the surface of the dehumidification rotor, and to maximize the efficiency of the adsorbent. An object of the present invention is to provide an indoor air conditioning method using the same.

Another object of the present invention is to provide both a cooling unit and a heating unit in the dehumidification rotor body to achieve operational efficiency and structural simplification compared to a case in which separate cooling and heating units are formed, and an air conditioning system using a rotary dehumidification rotor and an indoor using the same To provide an air conditioning method.

According to an aspect of the present invention, in the air conditioning system for introducing or discharging air from the outdoors (1) into the indoor (2), the first passage (110) through which the air from the outdoor (1) is introduced into the indoor (2) ; a second passage 120 through which air from the indoor 2 is discharged to the outdoor 1; and a rotary member 200 exposed to both the first passage 110 and the second passage 120; An air conditioning system is provided.

In this case, the rotating member 200 includes a heating unit 210 for heating the surface of the rotating member 200; and a cooling unit 220 for cooling the surface of the rotating member 200; may be an air conditioning system comprising a.

In addition, the heating unit 210 includes a heating wire 211 accommodated in the rotating member 200 , and the cooling unit 220 includes a cooling wire 221 accommodated in the rotating member 200 . It may be an air conditioning system comprising a;

In addition, the rotating member 200 has a first surface (200a) exposed to the first passage (110); and a second surface 200b exposed to the second passage 120 , wherein the first surface 200a and the second surface 200b are formed according to the rotation of the rotating member 200 . It may be an air conditioning system, characterized in that it is changed.

In addition, when the outdoor air 1 is hotter and humid than the indoor air 2 , the first surface 200a may be an air conditioning system characterized in that it is cooled by the cooling unit 220 .

Also, the second surface 200b may be an air conditioning system, characterized in that it is heated by the heating unit 210 .

In addition, when the air in the indoor 2 is hotter and humid than the air in the outdoor 1 , the second surface 200b may be an air conditioning system characterized in that it is cooled by the cooling unit 220 .

Also, the first surface 200a may be an air conditioning system, characterized in that it is heated by the heating unit 210 .

According to another aspect of the present invention, there is provided an indoor air conditioning method using an air conditioning system, comprising: a first step (S100) of introducing outdoor (1) air into an indoor (2) through the first passage (110); and a second step (S200) of discharging the indoor (2) air to the outdoor (3) through the second passage (120). In one case, the first surface 200a is heated using the cooling unit 220 and the second surface 200b is heated using the heating unit 210, and the air in the room 2 is heated. When the air temperature and humidity is higher than that of the outdoor air 1 , the first surface 200a is heated using the heating unit 210 and the second surface 200b is heated using the cooling unit 220 . Provided is an indoor air conditioning method characterized in that the cooling.

According to the present invention, in addition to regeneration of the adsorbent formed on the surface of the dehumidifying rotor, there is an effect of maximizing the efficiency of the adsorbent.

According to the present invention, there is an effect that the operation efficiency and structural simplification can be obtained compared to the case where a separate cooling and heating unit is provided by providing both a cooling unit and a heating unit in the dehumidification rotor body.

1 is a block diagram of an air conditioning system according to an embodiment of the present invention.
2 is a side view of an air conditioning system according to an embodiment of the present invention.
3 to 6 are views showing changes in the positions of the heating unit and the cooling unit according to the phase of the rotating member of the air conditioning system according to an embodiment of the present invention.
7 is a view showing an example of summer operation of the air conditioning system according to an embodiment of the present invention.
8 is a view showing an operation example in winter of the air conditioning system according to an embodiment of the present invention.
9 is a view showing only the cooling unit of the air conditioning system according to an embodiment of the present invention.
10 is a view showing only the heating unit of the air conditioning system according to an embodiment of the present invention.

An embodiment of an air conditioning system using a rotary dehumidification rotor according to the present invention and an indoor air conditioning method using the same will be described in detail with reference to the accompanying drawings. In the description with reference to the accompanying drawings, the same or corresponding components are identical Reference numerals are given, and overlapping descriptions thereof will be omitted.

In addition, terms such as first, second, etc. used below are merely identification symbols for distinguishing the same or corresponding components, and the same or corresponding components are limited by terms such as first and second not.

In addition, the term "coupling" does not mean only when there is direct physical contact between each component in the contact relationship between each component, but another component is interposed between each component, so that the component is in the other component. It should be used as a concept that encompasses even the cases in which each is in contact.

The present invention relates to an air conditioning system using a rotary dehumidifying rotor and an indoor air conditioning method using the same.

The air conditioning system according to an embodiment of the present invention performs a function of introducing or discharging air (outdoor air) from the outdoor 1 into the indoor 2, and the air from the outdoor 1 is introduced into the indoor 2 The first passage 110 to be used, the second passage 120 through which the air of the indoor 2 is discharged to the outdoor 1, and the rotating member 200 exposed to both the first passage 110 and the second passage 120 ) (Fig. 1).

In this case, the dehumidifying adsorbent 10 may be formed on the surface of the rotating member 200 by coating, bonding, or the like.

The desiccant 10 for dehumidification, which is formed in the form of coating or coating on the rotating member 200, may include a dehumidifying reinforcing polymer, a polymer-based network structure resin, a liquid stabilizer, a viscosity reinforcing agent, a surface curing agent, a moisture absorption reinforcing agent, and the like. .

In addition, the rotating member 200 is configured to rotate in one direction or in both directions with respect to the central axis, and may be formed in a configuration such as a rotor.

The rotating member 200 according to the present invention includes a heating unit 210 for heating the surface of the rotating member 200 and a cooling unit 220 for cooling the surface of the rotating member 200 (FIG. 2).

The heating unit 210 may include a heating wire 211 accommodated in the rotating member 200 , and the cooling unit 220 may include a cooling wire 221 accommodated in the rotating member 200 .

When described based on a cross-sectional view of the side surface of the rotating member 200, a heating wire 211 is formed in one region of the rotating member 200, and a cooling wire 221 is formed in the other region, and the rotating member 200 ) can be heated or cooled. The heating wire 211 and the cooling wire 221 may be overlapped with respect to a predetermined surface. In this case, in order to heat the surface, the operation of the cooling wire 221 is stopped and the heating wire 211 is operated. can be selected. For cooling the surface, as opposed to the heating method, a method of stopping the operation of the heating wire 211 and operating the cooling wire 221 may be selected.

The rotary member 200 according to the present invention may be formed by overlapping the heating wire 211 and the cooling wire 221 therein, so that both methods of cooling and heating a predetermined point on the surface of the rotary member 200 are performed. There are advantages you can take.

The rotating member 200 according to an embodiment of the present invention includes a first surface 200a exposed to the first passage 110 and a second surface 200b exposed to the second passage 120 . In this case, the formation positions of the first surface 200a and the second surface 200b may be changed according to the rotation of the rotating member 200 .

Specifically, referring to FIGS. 3 to 6 , in the initial state ( FIG. 3 ), the first surface 200a is formed in the portion where the first cooling line 221a is located, but the rotation of the rotating member 200 is Accordingly, when the phase is changed by 90 degrees with respect to the initial state ( FIG. 4 ), the first surface 200a may be formed in the portion where the second cooling line 221b is located.

As will be described later, in the air conditioning system according to the present invention, the first surface 200a is cooled in summer, and the first surface 200a is heated in winter, so the position of the first surface 200a is changed Accordingly, it may be determined whether the heating wire 211 and the cooling wire 221 accommodated in the rotating member 200 are operated.

In the case of the air conditioning system according to an embodiment of the present invention, in summer when the outdoor (1) air is hot and humid and the indoor (2) is required to provide dehumidified and cooled air in order to maintain an optimized air condition in the indoor (2). In this case, the first surface 200a is cooled by the cooling unit 220 and the second surface 200b is heated by the heating unit 210 ( FIG. 7 ).

In order to increase the adsorption efficiency of the dehumidifying adsorbent 10 formed on the surface of the rotating member 200 , it is required to cool the adsorption heat generated in the process of adsorbing water molecules to the adsorbent 10 surface. In addition, after moisture is sufficiently absorbed by the adsorbent 10 , the adsorbent 10 can be regenerated by heating the adsorbent 10 to evaporate water molecules.

In consideration of these two aspects, in the air conditioning system according to the present invention, the first surface 200a exposed to the first passage 110 through which high temperature and high humidity outside air flows in summer is cooled by the cooling unit 220 so that moisture Increase the efficiency of adsorption and lower the temperature of the air to provide it to the room 2, and the surface of the rotating member 200, which was the first surface 200a, is the second passage 120 due to the rotation of the rotating member 200. When it is changed from to the second surface 200b, the second surface 200b is heated using the heating unit 210 to evaporate the moisture adsorbed on the dehumidifying absorbent 10, and through the second passage 120 to the outdoor (1) ) to discharge.

In comparison, in the case of winter when the outdoor (1) air is in a low-temperature dry state and the indoor (2) is required to be heated and humidified, the air conditioning system according to the present invention has a heating unit on the first surface 200a. It is heated to 210, and the second surface 200b is characterized in that it is cooled by the cooling unit 220 (FIG. 8).

In this case, the first surface 200a exposed to the first passage 110 through which the outer shell in a low-temperature dry state flows is heated by the heating unit 210, and is adsorbed from the second surface 200b as will be described later. It is characterized in that the outdoor air contains moisture, and the heated and humidified air is provided to the indoor 2 by heating the low-temperature outdoor air. In addition, in the second passage 120 , the second surface 200b is cooled while the air in the indoor 2 containing relatively higher moisture than the outside air is discharged through the second passage 120 to dehumidify the adsorbent. By increasing the adsorption efficiency of (10), there is a process of adsorbing moisture to be discharged from the above-described first passage 110 .

The rotating member 200 of the air conditioning system according to an embodiment of the present invention has a first surface ( 200a) or the second surface 200b may include first to fourth heating wires 211a to 211d and first cooling wires 221a to 221d to be formed at positions corresponding to the second surface 200b. . The division of the cooling wire 221 and the heating wire 211 is divided by numbers 1 to 4 when the rotational state of the rotating member 200 is divided into a phase of 90 degrees, and the phase of the angle dividing the rotational state is In case of different cases, it can be distinguished by fewer or more numbers.

Hereinafter, an indoor air conditioning method using the air conditioning system according to the present invention will be described.

In the indoor air conditioning method according to the present invention, the first step (S100) of introducing outdoor (1) air into the indoor (2) through the first passage (110) and the indoor (2) air through the second passage (120) may include a second step (S200) of discharging to the outdoors (3).

In this case, when the air of the outdoor 1 is hotter and humid than the air of the indoor 2 , the first surface 200a is heated using the cooling unit 220 and the second surface 200a is heated using the heating unit 210 . The surface 200b may be heated.

In addition, when the air in the indoor 2 is hotter and humid than the air in the outdoor 1 , the first surface 200a is heated using the heating unit 210 and the second surface 200a is heated using the cooling unit 220 . It may be characterized in that the surface (200b) is cooled.

Since the above has only been described with respect to some of the preferred embodiments that can be implemented by the present invention, as noted, the scope of the present invention should not be construed as being limited to the above embodiments, and It will be said that the technical idea and the technical idea having its roots are all included in the scope of the present invention.

1: Outdoor
2: Indoor
10 : Server Rack
100: passage
200: rotating member

Claims (9)

In the air conditioning system for introducing or discharging air from the outdoor (1) to the indoor (2),
a first passage 110 through which air from the outdoor 1 is introduced into the indoor 2;
a second passage 120 through which air from the indoor 2 is discharged to the outdoor 1; and
The first passage 110 and the second passage 120 are both exposed to the rotating member 200; Containing,
An adsorbent 10 for dehumidification is formed on the surface of the rotating member 200,
The rotating member 200 is
a heating unit 210 for heating the surface of the rotating member 200; and
A cooling unit 220 for cooling the surface of the rotating member 200;
Air conditioning system, characterized in that it comprises.
delete According to claim 1,
The heating unit 210 includes a heating wire 211 accommodated inside the rotating member 200;
The cooling unit 220 includes a cooling wire 221 accommodated in the rotating member 200;
4. The method of claim 3,
The rotating member 200 is
a first surface 200a exposed to the first passage 110; and
A second surface (200b) exposed to the second passageway (120); including,
The air conditioning system, characterized in that the formation position of the first surface (200a) and the second surface (200b) is changed according to the rotation of the rotating member (200).
5. The method of claim 4,
When the air of the outdoor (1) is hotter and humid than the air of the indoor (2), the first surface (200a) is cooled by the cooling unit (220).
6. The method of claim 5,
The second surface (200b) is an air conditioning system, characterized in that heated by the heating unit (210).
7. The method of claim 6,
When the air in the indoor (2) is hotter and humid than the air in the outdoor (1), the second surface (200b) is cooled by the cooling unit (220).
8. The method of claim 7,
The air conditioning system, characterized in that the first surface (200a) is heated by the heating unit (210).
In the indoor air conditioning method using the air conditioning system of claim 8,
a first step (S100) of introducing outdoor (1) air into the indoor (2) through the first passage (110); and
A second step (S200) of discharging the indoor (2) air to the outdoor (3) through the second passage (120); including;
When the air of the outdoor 1 is hotter and humid than the air of the indoor 2, the first surface 200a is heated using the cooling unit 220, and the first surface 200a is heated using the heating unit 210. Heating the second surface (200b),
When the air in the indoor 2 is hotter and more humid than the air in the outdoor 1, the first surface 200a is heated using the heating unit 210 and the cooling unit 220 is used to heat the first surface 200a. An indoor air conditioning method characterized in that the second surface (200b) is cooled.

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