CN201057476Y - Central air conditioning photocatalysis air purifying device - Google Patents

Abstract

The utility model relates to a photocatalytic air purification device for a centralized air conditioner, comprising a housing (1), a photocatalytic antibacterial device (2), and a light source lamp tube (3). The light source lamp tube (3) is located directly opposite the photocatalytic antibacterial device ( 2), constitute the direct irradiation of the photocatalytic antibacterial device (2), the housing (1) is provided with an air inlet (7) and an air outlet (8), the photocatalytic antibacterial device (2) and the light source The lamp tube (3) is arranged between the air inlet (7) and the air outlet (8); it is characterized in that: the photocatalytic antibacterial device (2) is composed of a three-dimensional structure of foam metal mesh and adsorbed on the surface of the metal mesh of photocatalytic materials. Good sterilization effect and good deodorization effect: can quickly and effectively degrade organic matter: high safety and long-term effect: the photocatalytic antibacterial device of this utility model uses metal as the base material, and uses a special process to "mosaic" the photocatalytic material On the metal surface of the three-dimensional structure, the photocatalytic material will never fall off, can be washed repeatedly with water, and has a service life of more than 20 years.

Description

Centralized air conditioning photocatalytic air purification device

technical field

The utility model relates to an air purification device, in particular to a photocatalytic air purification device for a centralized air conditioner. It belongs to the field of air purification equipment.

Background technique

The air purification function in the existing central air-conditioning system only depends on the single link of the filter screen, and its purification index is only the number of dust particles in the air per unit volume, and does not involve the removal of VOC (volatile organic compounds). ), odors, and other functions of bacteria, viruses, and microorganisms. With the long-term use of the central air conditioner, various pollutions are prone to occur indoors, and the flow of circulating air in the system may also cause cross-infection of infectious bacteria. In February 2006, the Ministry of Health issued regulations and documents such as the "Hygienic Management Measures for Centralized Air-conditioning and Ventilation Systems in Public Places" and "Hygienic Specifications for Centralized Air-conditioning and Ventilation Systems in Public Places". The "Measures" and "Specifications" clearly stipulate that the central air-conditioning ventilation system should be equipped with air purification and disinfection devices, and put forward specific technical requirements for the devices. Existing technologies mainly use technologies such as ultraviolet rays, ozone, high-voltage electrostatic adsorption, and activated carbon. These technologies have low efficiency or cannot be present. The placement method is mainly to place a single air disinfection and purification equipment with its own air drive device indoors. , this kind of equipment has high cost, high energy consumption, and takes up space. The patent application with the patent number 03272010.6 discloses a central air-conditioning air purification device, including a housing, at least one nano-photocatalytic reaction sheet, and at least one light source lamp tube, which constitutes a direct irradiation of the nano-photocatalytic reaction sheet , the housing is provided with an air inlet and an air outlet, and the nano-photocatalytic reaction sheet and the light source lamp tube are arranged between the air inlet and the air outlet. It has the characteristics of long life, no need for self-contained fan and long-term use in the presence of people, etc., but the nano-photocatalytic reaction sheet disclosed in the patent application has a small contact area with the air, and the efficiency is low, so it is difficult to meet the requirements of the relevant regulations of the Ministry of Health. Technical requirements for air purification and disinfection of air conditioners.

Utility model content

The purpose of this utility model is to provide a centralized air-conditioning photocatalytic air purification device, which has high efficiency in sterilization, deodorization, and decomposition of organic matter; it can meet the requirements of the Ministry of Health for air purification and disinfection devices. various technical requirements.

The purpose of this utility model can be achieved through the following measures:

Centralized air-conditioning photocatalytic air purification device, including a housing, a photocatalytic antibacterial device, and a light source lamp tube. There is an air inlet and an air outlet, and the photocatalytic antibacterial device and the light source lamp are arranged between the air inlet and the air outlet; its structural feature is that the photocatalytic antibacterial device is made of a three-dimensional structure of foamed metal mesh It is composed of photocatalytic materials adsorbed on the surface of the metal mesh.

The purpose of this utility model can also be achieved through the following measures:

An embodiment of the utility model is: the housing is an air duct, and a rotating shaft is arranged in the housing; the photocatalytic antibacterial device is fixed on the surface of the rotating shaft; the light source lamp tube can be arranged in the rotating shaft or mounted on the housing Inside: the photocatalytic antibacterial device forms an angle of 90° with the air flow direction formed by the air inlet and the air outlet, or forms an angle of 30°-150°.

An embodiment of the utility model is: it also includes a filter net, and the filter net is arranged at the front end of the photocatalytic antibacterial device and the light source lamp tube.

An embodiment of the present utility model is: the filter screen can be nylon net, glass fiber, non-woven fabric or metal net.

An embodiment of the utility model is: the housing is a coil fan; the filter, the photocatalytic antibacterial device and the light source lamp are made into independent modules, and accessories can also be combined and installed in the coil fan. The photocatalytic antibacterial device 2 forms an angle of 90°, or an angle of 30°-150°, with the air flow direction formed by the air inlet and the air outlet.

An embodiment of the present utility model is: the housing is a centralized wind cabinet; the photocatalytic antibacterial device and the light source lamp are installed in a suitable position in the wind cabinet behind the filter screen; the power of the light source lamp is 30W/M2 according to the cross-sectional area Equipped, the distance between the lamp tube and the net is less than 50cm; the photocatalytic antibacterial device is formed and protected with a metal frame, and the photocatalytic antibacterial device is at an angle of 90° to the air flow direction formed by the air inlet and air outlet, or at an angle of 30° to 150° horn.

One embodiment of the present invention is: the photocatalytic antibacterial device uses metal as the base material, and adopts a special process to "embed" the photocatalytic material on the three-dimensional structure of the metal surface.

One embodiment of the present invention is: the photocatalytic antibacterial device can be a metal foam made of photocatalyst, silver catalyst, dark catalyst, cold catalyst and other technologies.

One embodiment of the present invention is: the photocatalytic antibacterial device can be a single-layer or multi-layer plane, or a single-layer, multi-layer wave type or w-type, or a combination of plane and wave type.

An embodiment of the present utility model is that: the light source lamp tube is a UV-C lamp or a UV-A lamp.

The beneficial effects of the utility model are:

1. Good sterilization effect: This new type of photocatalytic antibacterial device is composed of three-dimensional three-dimensional structure foam metal mesh and photocatalytic material adsorbed on the surface of the metal mesh, which can kill various bacteria and viruses in the air . According to the on-site sampling test results of the relevant product safety institute of the China Disease Center, using the utility model, the sterilization rate of the air passing through the device at one time reaches 78%; according to the test results of the Guangdong Provincial Center for Disease Control and Prevention, the utility model has a bactericidal effect on Legionella pneumophila up to 100%.

2. Good deodorizing effect: use the utility model to decompose various harmful gases and various odors and odors sustainably, efficiently and safely.

3. Can quickly and effectively degrade organic matter: the utility model can decompose formaldehyde, benzene and other organic pollutants sustainably and efficiently.

4. Safety: The utility model does not need its own fan, but only a small number of lamp tubes, low energy consumption, non-toxic, harmless, does not produce any secondary pollution, and is harmless to the human body.

5. Long-term effect: The photocatalytic antibacterial device of the present invention uses metal as the base material, and uses a special process to "embed" the photocatalytic material on the metal surface of the three-dimensional structure. The photocatalytic material will never fall off, and it can be washed repeatedly with water. The service life More than 20 years.

Description of drawings

Fig. 1a is a front view of the air duct air cleaning device.

Fig. 1b is a side view of the air duct air cleaning device.

Fig. 1c is a top view of the air duct air cleaning device.

Figure 2 is a schematic diagram of the microstructure of the photocatalytic antibacterial device.

Fig. 3a is a front view of the fan coil air cleaning device.

Fig. 3b is a side view of the fan coil air cleaning device.

Fig. 4 is a schematic structural diagram of the module described in Embodiment 3.

Fig. 5 is a structural schematic diagram of a centralized wind cupboard air purification device.

Fig. 6 is a schematic diagram of the working principle of the utility model.

Detailed ways

Specific embodiment 1:

With reference to Fig. 1a, Fig. 1b, Fig. 1c and Fig. 2, the present embodiment comprises housing 1, photocatalytic antibacterial device 2, light source lamp tube 3, and described light source lamp tube 3 is positioned at the position facing photocatalytic antibacterial device 2, constitutes For the direct irradiation of the photocatalytic antibacterial device 2, the housing 1 is provided with an air inlet 7 and an air outlet 8, and the photocatalytic antibacterial device 2 and the light source lamp tube 3 are arranged between the air inlet 7 and the air outlet 8; The photocatalytic antibacterial device 2 is composed of a three-dimensional structure of a foamed metal mesh and photocatalytic materials adsorbed on the surface of the metal mesh.

In this example:

The housing 1 is an air duct, and the housing 1 is provided with a rotating shaft 5; the photocatalytic antibacterial device 2 is fixed on the surface of the rotating shaft 5; the light source lamp tube 3 can be arranged in the rotating shaft 5 or installed inside the housing 1 The air flow direction formed by photocatalytic antibacterial device 2 and air inlet 7 and air outlet 8 is 90 ° angle, or 30 ° angle, 60 ° angle, 120 ° angle, 135 ° angle, 150 °, also can be less than or greater than Other angles of 90° angle. The photocatalytic antibacterial device uses metal as the base material, and adopts a special process to "embed" the photocatalytic material on the three-dimensional structure of the metal surface. The photocatalytic antibacterial device 2 adopts a single-layer corrugated type. The light source lamp tube 3 is a UV-A lamp.

Working principle of the utility model:

The first part of the coarse-effect filter system is to filter some particles in the air through the coarse-effect filter material to meet the preliminary requirements for air purification.

The second part is the photocatalytic reaction system. The principle of its antibacterial and antivirus, decomposition of organic pollutants, and degradation of air odor is as follows:

Referring to Figure 6, under the illumination of the light source tube, when the air swirls into the filter, that is, into the photocatalytic reaction chamber, the high-energy "electron-hole" pair rapidly destroys the cell membrane of the bacteria, causing the loss of cytoplasm, and then oxidizing the nucleus , so as to kill bacteria; at the same time, it also directly oxidizes formaldehyde, benzene, etc., and bacterial residues, and decomposes them into non-polluting water and carbon dioxide.

Specific embodiment 2:

Referring to Fig. 3a and Fig. 3b, the feature of this embodiment is: it also includes a filter 4, and the filter 4 is arranged at the front end of the photocatalytic antibacterial device 2 and the light source lamp 3. Described filter screen 4 is nylon net. The housing 1 is a coil fan; the filter 4, the photocatalytic antibacterial device 2 and the light source lamp tube 3 are accessories combined and installed in the coil fan, and the air flow formed by the photocatalytic antibacterial device 2, the air inlet and the air outlet The directions form an angle of 90 degrees or less than or greater than 90 degrees. The light source lamp tube 3 is a UV-C lamp. Others are with specific embodiment 1.

Specific embodiment 3:

Referring to Fig. 4, the feature of this embodiment is that the filter screen 4, the photocatalytic antibacterial device 2 and the light source lamp tube 3 are made into independent modules and installed in the coil fan. Others are with specific embodiment 2.

Specific embodiment 4:

Referring to Fig. 5, the characteristics of this embodiment are: the housing 1 is a centralized wind cabinet; the photocatalytic antibacterial device 2 and the light source lamp tube 3 are installed in a suitable position in the wind cabinet behind the filter screen 4; The cross-sectional area is 30W/M2, and the light energy is required to be fully irradiated on the net, so that the net has no shadow as much as possible, and the distance between the lamp tube and the net is less than 50cm; the photocatalytic antibacterial device is formed and protected by a metal frame, and the photocatalytic antibacterial device 2 and The air flow direction formed by the air inlet and the air outlet is at an angle of 90 degrees or less than or greater than 90 degrees; the light source lamp tube 3 is a UV-A lamp.

In this embodiment, all wind cabinets have filter screens. Considering cost savings, this embodiment does not add filter screens, but uses the original filter screen as a part of the device; in places with less dust, photocatalytic antibacterial devices can be used instead of filters. net. Others are with specific embodiment 2.

Other examples:

The characteristics of other embodiments of the present invention are: the photocatalytic antibacterial device 2 can be a single-layer, multi-layer plane, or a single-layer, multi-layer wave type or w-type, or a combination of plane and wave type ; The photocatalytic antibacterial device 2 can be metal foam made of photocatalysis, silver catalyst, dark catalyst, cold catalyst and other technologies; the filter screen 4 can be nylon mesh, glass fiber, non-woven fabric or metal net. All the other are with specific embodiment 1 or 2 or 3 or 4.

Claims (10)

1. Centralized air-conditioning photocatalytic air purification device, including a housing (1), a photocatalytic antibacterial device (2), and a light source lamp (3). The light source lamp (3) is located directly opposite the photocatalytic antibacterial device (2) The position of the photocatalytic antibacterial device (2) is directly irradiated, the housing (1) is provided with an air inlet (7) and an air outlet (8), and the photocatalytic antibacterial device (2) and the light source lamp tube (3) It is located between the air inlet (7) and the air outlet (8); it is characterized in that: the photocatalytic antibacterial device (2) consists of a foam-type metal mesh with a three-dimensional three-dimensional structure and light adsorbed on the surface of the metal mesh. Catalytic material composition. 2. The central air-conditioning photocatalytic air purification device according to claim 1, characterized in that: the housing (1) is an air duct, and a rotating shaft (5) is arranged inside the housing (1); the photocatalytic The antibacterial device (2) is fixed on the surface of the rotating shaft (5); the light source lamp tube (3) is arranged in the rotating shaft (5) or installed inside the casing (1); the photocatalytic antibacterial device (2) is connected with the The air flow direction formed by the tuyere (7) and the air outlet (8) forms an angle of 90°, or an angle of 30°-150°. 3. The central air-conditioning photocatalytic air purification device according to claim 1, characterized in that: it also includes a filter screen (4), and the filter screen (4) is arranged on the photocatalytic antibacterial device (2) and the light source lamp tube (3) front end. 4. The central air-conditioning photocatalytic air purification device according to claim 3, characterized in that: the filter (4) is made of nylon mesh, glass fiber, non-woven fabric or metal mesh. 5. The central air-conditioning photocatalytic air purification device according to claim 1 or 3, characterized in that: the housing (1) is a coil fan; filter screen (4), photocatalytic antibacterial device (2) and light source The lamp tube (3) is made into an independent module, and the accessories are combined and installed in the coil fan. The photocatalytic antibacterial device (2) forms an angle of 90° with the air flow direction formed by the air inlet (7) and the air outlet (8). Or form an angle of 30° to 150°. 6. The photocatalytic air purification device for centralized air conditioning according to claim 1 or 3, characterized in that: the housing (1) is a centralized wind cabinet; the photocatalytic antibacterial device (2) and the light source lamp (3) Installed in the air cabinet after the filter screen (4); the power of the light source lamp tube is equipped according to the cross-sectional area of 30W/ ^M2 , and the distance between the light source lamp tube (3) and the filter screen (4) is less than 50cm; the photocatalytic antibacterial device (2 ) is formed and protected by metal frame parts, and the photocatalytic antibacterial device (2) forms an angle of 90° with the air flow direction formed by the air inlet (7) and the air outlet (8), or an angle of 30° to 150°. 7. The central air-conditioning photocatalytic air purification device according to claim 1, characterized in that: the photocatalytic antibacterial device (2) uses metal as the base material, and the photocatalytic material is "embedded" on the metal surface of the three-dimensional structure . 8. A photocatalytic air purification device for centralized air conditioning according to claim 1, characterized in that: said photocatalytic antibacterial device (2) is a metal foam made of photocatalyst, silver catalyst, dark catalyst or cold catalyst technology net composition. 9. The central air-conditioning photocatalytic air purification device according to claim 1, characterized in that: the shape of the photocatalytic antibacterial device (2) is a single-layer or multi-layer planar structure, or a single-layer or multi-layer wave Type or w-type structure, or a combined structure of plane and wave type. 10. The central air-conditioning photocatalytic air purification device according to claim 1, characterized in that: the light source lamp tube (3) is composed of a UV-C lamp or a UV-A lamp.

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