KR200261097Y1 - rotor of air-to-air heat exchanger - Google Patents

Abstract

The present invention relates to a rotor of a total heat exchanger that is capable of suppressing bacteria caused by high heat while forming an antimicrobial layer, an accelerating layer, and an air antibacterial layer on the surface of a heat exchange element of a rotor. Coated aluminum sheet; An antibacterial and promotion layer coated on a surface of the aluminum thin plate and mixed with an accelerator and an adhesive to quickly exchange heat with an antibacterial material; And an antimicrobial layer formed on the antimicrobial and promoting layer and erasing various bacteria and the like contained in the air.

Description

Rotor of air-to-air heat exchanger

The present invention relates to a rotor of a total heat exchanger, and more particularly, by forming an antimicrobial layer and an accelerating layer and an air antimicrobial layer on the surface of a heat exchange element of a rotor to suppress bacteria generation due to high heat, It relates to a rotor of the total heat exchanger capable of eradicating bacteria.

In general, the total heat exchanger refers to a device that supplies heat energy by heat-exchanging the temperature as a heat medium, and uses heat generated by the heat exchanger through waste heat discharged to the atmosphere for the purpose of using it according to industrial development and regenerating the remaining heat. By raising the temperature to the proper temperature, waste heat is used as recycled energy.

In the process of producing waste product by applying heat, the heat released into the air passes through the air duct by using a blower fan to suck the waste heat, and this waste heat is blown to the heat exchanger by the blower fan again and the inside of the heat exchanger It is possible to utilize the waste heat as alternative energy by raising the flowing heat medium temperature to the set temperature.

1 is a schematic view showing the principle of a general heat exchanger. Referring to FIG. 1, a chamber frame F, which is enclosed in a fluid supply / exhaust passage, is installed to partition the interior into two sections of an air supply passage and an exhaust passage by a partition P, and the middle of the chamber frame F. An electrothermal heat exchanger (E) is provided to share the supply / exhaust passage in the air, and while the rotor is rotated at low speed, the outside air is sucked into the supply fan B1 and the waste gas is discharged to the exhaust fan B2. Then, the waste heat is absorbed by exchanging the enthalpy difference between the two fluids by the double heat exchange (endothermic and heat dissipation) action of the rotating rotor while continuously passing the supply / exhaust fluid, thereby preheating, precooling, and humidifying the air supply. And by dehumidification it is possible to significantly reduce the energy required for cooling and heating.

However, when the rotor of the total heat exchanger is exposed to the air for a long time, bacteria in the atmosphere are adsorbed to the heat exchange element of the rotor, and bacteria are generated by the high heat of the waste gas. Not only did it cause disease, but it also contaminated indoor air.

The present invention has been made in view of the above-described conventional problems, and by maintaining the hygienic indoor environment by antibacterial treatment of the heat exchange element of the rotor to suppress the generation of bacteria due to high heat and at the same time eradicate the bacteria contained in the air supply. It is to provide a rotor of the total heat exchanger.

1 is a schematic diagram showing the principle of a general heat exchanger

Figure 2 is a perspective view schematically showing a rotor of the total heat exchanger according to the present invention

Figure 3 is a cross-sectional view showing the configuration of the heat exchange element of the rotor according to the present invention

♣ Explanation of symbols for main part of drawing ♣

1: frame 3: rotor

3a, 3b: heat exchange element 4: separator

5 geared motor 10 heat exchange element disc

11: aluminum sheet 12: antibacterial and promoting layer

13: air antibacterial layer

In order to achieve the above object, the rotor of the total heat exchanger according to the present invention is a rotor of the total heat exchanger configured to have a fluid passage by alternately stacking at least two heat exchanger plates having different shapes, the coated aluminum sheet; An antibacterial and promotion layer coated on a surface of the aluminum thin plate and mixed with an accelerator and an adhesive to quickly exchange heat with an antibacterial material; And an antimicrobial layer formed on the antibacterial and promoting layer and erasing various bacteria and the like contained in the air.

Accordingly, the present invention can suppress the generation of bacteria due to high heat in the heat exchange element of the rotor, as well as eliminate the bacteria contained in the air supply while passing through the rotor to maintain a sanitary indoor environment, thereby improving the quality and hygiene of the heat exchanger. It will have a great effect.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the rotor of the total heat exchanger according to the present invention.

Figure 2 is a perspective view schematically showing a rotor of the total heat exchanger according to the present invention, Figure 3 is a cross-sectional view showing the configuration of the heat exchange element of the rotor according to the present invention. Referring to Figures 2 and 3, the heat exchanger according to the present invention is rotatably mounted a rotor (3) for heat-exchanging the inside and the outside air sucked into the internal space of the frame 1 of the rectangular frame shape. The frame 1 is detachably provided with a cover 2 that shields the periphery of the rotor 3 so that only both sides of the rotor 3 are exposed to the outside, and the openings on both sides of the cover 2 partition the flow of the inside and the outside air. The separator 4 which prevents both from flowing to the other side is installed so as to face in the radial direction. In addition, a geared motor 5 is installed at one side of the frame 1 so as to be electrically connected by the rotor 3 and the belt 6.

On the other hand, the rotor 3 has a cylindrical shape having a honeycomb cross section with two band heat exchange elements 3a and a wave form heat exchange element 3b alternately stacked on each other. These heat exchange elements 3a and 3b are thin plate heat exchanger discs for sensible heat exchange as well as latent heat exchange which absorbs and stores moisture from an air stream having a high humidity and releases moisture to the air stream having a relatively low humidity. It consists of 10.

As shown in FIG. 3, the heat exchanger element plate 10 is mixed with an accelerator and an adhesive to quickly exchange heat with an antimicrobial material on the surface of the aluminum thin plate 11 coated according to the characteristics of the present invention. After forming the antibacterial and promoting layer 12, the antimicrobial and promoting layer 12 is formed by forming an air antibacterial layer 13 to kill various bacteria and the like contained in the air. The air antibacterial layer 13 may be made of various materials. Preferably, the air antibacterial layer 13 is impregnated with a predetermined antimicrobial material such as alumina, zircon, zirconia, or chromium, since the thermal conductivity should be excellent while the heat resistance should be good. Can be formed by spraying.

The electrothermal heat exchanger according to the present invention configured as described above is installed in the chamber frame (F) located in the supply / exhaust passage of the air conditioning system, as shown in FIG. 1, so that the rotor (3) rotates by the motor (5). While passing through the exhaust air and the air supply air that is moved by the air supply fan (B1) and the exhaust fan (B2) continuously to perform a heat exchange action of heat absorption and heat dissipation.

In this process, bacteria and the like contained in the supply / exhaust may be attached to the heat exchange elements 3a and 3b of the rotor 3. Since the heat exchange elements 3a and 3b of the present invention are coated with an antimicrobial material, Bacterial generation due to high heat as in the prior art is effectively suppressed. That is, the heat exchange elements 3a and 3b of the rotor 3 of the present invention are coated with the antimicrobial and promotion layer 12 and the air antibacterial layer 13, so that the bacterial generation in the aluminum thin plate 11 is antibacterial. And the bacteria contained in the atmosphere as well as inhibited by the promotion layer 12 are properly eradicated while passing through the rotor 3 by the air antibacterial layer 13.

Therefore, it is possible to keep the indoor environment more comfortable and safe in the air conditioning system, etc., and to suppress the occurrence of various diseases caused by bacteria.

As described above, according to the rotor of the total heat exchanger according to the present invention, since the surface of the heat exchange element is coated with an antimicrobial material, it is possible to eradicate the bacteria in the air supply as well as to suppress the occurrence of bacteria due to high heat as in the prior art. Accordingly, it is possible to maintain a more comfortable and safe indoor environment.

Therefore, the present invention has a very excellent effect of greatly improving the quality and hygiene safety of the total heat exchanger.

Claims (1)

In the rotor of the total heat exchanger configured in a cylindrical shape to have a fluid passageway by alternately stacking at least two heat exchange plates of different shapes, Coated aluminum sheet; An antibacterial and promotion layer coated on a surface of the aluminum thin plate and mixed with an accelerator and an adhesive to quickly exchange heat with an antibacterial material; And The rotor of the total heat exchanger, characterized in that formed on the antibacterial and promoted layer, an air antibacterial layer to kill various bacteria contained in the air.