CN214406398U - PSI photosynthetic ion catalysis active space purification reactor - Google Patents

Abstract

The utility model discloses a PSI photosynthetic ion catalysis active space purification reactor, which comprises a PSI photosynthetic ion catalysis active space purification reactor module; a PSI photosynthetic catalytic reaction cavity is arranged in the PSI photosynthetic ion catalytic active space purification reactor module and close to the front side; a catalytic light source assembly is arranged inside the PSI photosynthetic catalytic reaction cavity; one end of the catalytic light source component is provided with an air inlet fan; the other end of the catalytic light source assembly is provided with a gas outlet diffusion plate: the utility model discloses PSI photosynthetic ion catalysis active space purification reactor core module, whole reactor encapsulates into integral type modular structure, possesses the automatic standard scale production manufacturing of being convenient for, and the modularization installation is maintained and is replaced, and the reactor module constitutes simply, connects reliably, gets electric safety and can unify standard safety input voltage, advantage such as the equipment is easy.

Description

PSI photosynthetic ion catalysis active space purification reactor

Technical Field

The utility model relates to an air purification field specifically is an active space purification reactor of PSI photosynthetic ion catalysis.

Background

The photocatalysis principle is based on the oxidation-reduction capability of the photocatalyst under the condition of illumination, so that the aims of purifying pollutants, synthesizing and converting substances and the like can be fulfilled. In general, a photocatalytic oxidation reaction uses a semiconductor as a catalyst and light as energy to degrade organic substances into carbon dioxide and water. Therefore, the photocatalytic technology is an efficient and safe environment-friendly environmental purification technology, and the improvement of indoor air quality is approved by international academia.

The photocatalysis principle technology is the catalytic purification technology that mankind is mature relatively, and PSI photosynthetic ion catalysis active space purifies the reactor, is based on this basic technical principle, calculates through novel structural design and optimization catalysis prescription reaction, and the photocatalysis that has utility model technical uniqueness of itself of formation purifies the reactor, has possessed each item advantage of photocatalysis technical principle simultaneously, including high-effect, to human safety, environmental protection, low-cost non-maintaining etc. technical advantage.

At present, the environmental purification application mainly based on the photocatalysis technology in daily life is mainly a paint or an air purifier using a photocatalyst method. The traditional photocatalyst purification technology mainly adopts a coating mode, namely, a semiconductor material with a photocatalytic function such as titanium dioxide is used as a raw material, and is coated or sprayed on the surface of a purification space such as a room wall in a coating mode or the surface of a coatable target object in a room in a coating mode, and natural light is used for forming photocatalytic indoor air to generate a purification effect. The photocatalyst coating belongs to the relatively late photocatalyst purification technology at present, and has the practical defects of numerous application limitations, such as easy falling and loss of the photocatalyst coating, no natural light irradiation position, no photocatalytic purification effect and the like.

The defects of the application of the traditional photocatalyst purification technology are that firstly, the photocatalyst coating is coated in a purification space on the surface of an object, only natural light can be used as a photocatalytic energy source, the energy density is unstable along with the change of the natural light, and the purification efficiency is very low; meanwhile, the surfaces of a plurality of objects cannot be coated with photocatalyst purifying coatings, so that the effective photocatalytic reaction area cannot be calculated quantitatively; in addition, the surface of the coating is easy to be polluted, fall off, decompose and the like, and the coating is completely ineffective; in places where natural light cannot be irradiated, the photocatalyst coating cannot be used and has excessive application dead angles.

The technical defects of the existing photocatalyst air purifier are that the sucked air is subjected to plasma purification in the air purifier through a photocatalyst coating, and the purified air is output to the outside of the air purifier, belonging to an 'in-machine purification' mode, wherein a part of air purifiers are additionally provided with HEPA (high efficiency particulate air) filter screens and other purification devices, such as an internal plasma generator, which causes large working power consumption and needs to replace consumables, and meanwhile, the photocatalyst coating in the air purifier is easy to age and lose efficacy. Meanwhile, the purification efficiency is relatively low, and the purification effect cannot be completed due to a plurality of dead angles in the purification space.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an active space purification reactor of PSI photosynthetic ion catalysis to solve the problem that provides among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a PSI photosynthetic ion catalysis active space purification reactor comprises a PSI photosynthetic ion catalysis active space purification reactor module; a PSI photosynthetic catalytic reaction cavity is arranged in the PSI photosynthetic ion catalytic active space purification reactor module and close to the front side; a catalytic light source assembly is arranged inside the PSI photosynthetic catalytic reaction cavity; one end of the catalytic light source component is provided with an air inlet fan; and the other end of the catalytic light source component is provided with an air outlet diffusion plate.

As a further aspect of the present invention: a power rectifier for a catalytic light source is arranged on the rear side of the PSI photosynthetic catalytic reaction cavity; and the power rectifier used by the catalytic light source is electrically connected with the catalytic light source assembly and the air inlet fan.

As a further aspect of the present invention: the PSI photosynthetic ion catalytic reaction cavity is a cuboid hollow structure formed by metal plates and has the function of an air duct; the photocatalytic reaction layer is formed on the inner surface of the reaction cavity by coating catalytic semiconductor materials.

As a further aspect of the present invention: the catalytic light source assembly is composed of a UVC wave band ultraviolet lamp tube and a mounting lamp holder, the lamp holder is embedded in the reaction cavity, after the light source is electrified and lightened, the catalytic layer of the reaction cavity is irradiated by ultraviolet light with specific wavelength, and the photosynthetic catalytic reaction is formed on the water and oxygen molecules in the air in the reaction cavity.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses PSI photosynthetic ion catalysis active space purification reactor core module, whole reactor encapsulates into integral type modular structure, possesses the automatic standard scale production manufacturing of being convenient for, and the modularization installation is maintained and is replaced, and the reactor module constitutes simply, connects reliably, gets electric safety and can unify standard safety input voltage, advantage such as the equipment is easy.

2. The modules can be assembled in a module standardized mode, the modules are installed in a superposition mode, the working efficiency superposition of the whole machine is achieved, and flexible configuration design and implementation of the full-space purification and disinfection terminal machine types with different areas are achieved.

3. The catalytic semiconductor material is coated on the surface of the inner wall of the reaction cavity to form the PSI photosynthetic catalytic layer.

4. The photosynthetic catalytic light source is embedded into the reaction cavity, and the design of the air channel of the reaction cavity is not blocked.

And 5, the PSI photosynthetic catalytic reaction cavity has the design realization characteristics that the structure of the PSI photosynthetic catalytic reaction cavity is a one-way air channel type (air inlet-photocatalytic air-air outlet) catalytic reaction generating device.

Drawings

Fig. 1 is a schematic structural diagram of a PSI photosynthetic ion catalytic active space purification reactor.

In the figure: PSI photosynthetic ion catalysis active space purification reactor module 1, PSI photosynthetic catalytic reaction cavity 2, catalysis light source subassembly 3, power rectifier 4 for the catalysis light source, air inlet fan 5, gas outlet diffuser plate 6.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, in an embodiment of the present invention, a PSI photosynthetic ion catalysis active space purification reactor includes a PSI photosynthetic ion catalysis active space purification reactor module 1; a PSI photosynthetic catalytic reaction cavity 2 is arranged in the PSI photosynthetic ion catalytic active space purification reactor module 1 close to the front side; a catalytic light source assembly 3 is arranged inside the PSI photosynthetic catalytic reaction cavity 2; one end of the catalytic light source component 3 is provided with an air inlet fan 5; and the other end of the catalytic light source component 3 is provided with an air outlet diffusion plate 6.

A power rectifier 4 for a catalytic light source is arranged at the rear side of the PSI photosynthetic catalytic reaction cavity 2; and a power rectifier 4 for the catalytic light source is electrically connected with the catalytic light source assembly 3 and the air inlet fan 5.

The PSI photosynthetic ion catalysis active space purification reactor module 1 is a cuboid hollow structure formed by metal plates and has the function of an air duct; the photocatalytic reaction layer is formed on the inner surface of the reaction cavity by coating catalytic semiconductor materials.

The catalytic light source assembly 3 is composed of a UVC wave band ultraviolet lamp tube and a mounting lamp holder, the lamp holder is embedded in the reaction cavity, after the light source is electrified and lightened, the catalytic layer of the reaction cavity is irradiated by ultraviolet light with specific wavelength, and the photosynthetic catalytic reaction is formed on the water and oxygen molecules in the air in the reaction cavity.

The power rectifier 4 for the catalytic light source is embedded and arranged beside the outer side of the reaction cavity and supplies power for the photocatalytic light source; the reaction cavity air inlet fan is arranged at the air inlet end of the photocatalytic reaction cavity and sucks air into the reaction cavity to form a photosynthetic catalytic reaction; the air outlet diffusion plate 6 actively discharges and diffuses the OHFS disinfection and purification factors and air generated by the photosynthetic catalytic reaction in the reaction cavity to a target space.

The utility model discloses a theory of operation is:

1. full-time full-effect dead-angle-free full-space purification and disinfection: through the device to high-efficient controllable realization photocatalysis air generation purifies disinfection factor material, and through one-way formula wind channel structure, can initiatively be full to the target space in, form no dead angle purification and kill. Completely overcomes the defects of falling off, dirt, covering, no light, incapability of using and the like of the traditional photocatalyst coating.

2. Standardized assembly of module and extension efficiency are possible, make and are based on the utility model discloses the total space sterilizing machine of technique can form quick customization and the standardized production capacity of scale according to different area spaces, and reduction in production cost is convenient for the scale and deploys total space disinfection system equipment.

3. The utility model discloses the PSI photosynthetic ion catalysis technique that contains surpasss all traditional air purifier and traditional art sterilizing machines (plasma, ozone, atomizing etc.), need not the disinfectant additive, need not the filter screen, and no consumptive material needs, zero artifical routine maintenance needs, zero secondary infection. Meanwhile, the human-computer coexistence full-space purification and disinfection operation capability of human body safety can be realized.

4. Low energy consumption, environmental protection, user friendliness, environmental friendliness and high purification, disinfection and energy efficiency.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (4)

1. A PSI photosynthetic ion catalysis active space purification reactor is characterized by comprising a PSI photosynthetic ion catalysis active space purification reactor module (1); a PSI photosynthetic catalytic reaction cavity (2) is arranged in the PSI photosynthetic ion catalytic active space purification reactor module (1) close to the front side; a catalytic light source assembly (3) is arranged inside the PSI photosynthetic catalytic reaction cavity (2); one end of the catalytic light source component (3) is provided with an air inlet fan (5); and an air outlet diffusion plate (6) is arranged at the other end of the catalytic light source component (3).

2. The PSI photosynthetic ion catalysis active space purification reactor according to claim 1, wherein a power rectifier (4) for a catalysis light source is arranged at the rear side of the PSI photosynthetic catalysis reaction cavity (2); and the power rectifier (4) for the catalytic light source is electrically connected with the catalytic light source assembly (3) and the air inlet fan (5).

3. The PSI photosynthetic ion catalysis active space purification reactor according to claim 1, wherein the PSI photosynthetic ion catalysis active space purification reactor module (1) is a cuboid hollow structure formed by metal plates and has an air duct function; the photocatalytic reaction layer is formed on the inner surface of the reaction cavity by coating catalytic semiconductor materials.

4. A PSI photosynthetic ion catalytic active space purifying reactor according to claim 1, characterized in that the catalytic light source assembly (3) is composed of UVC band ultraviolet lamp and mounting lamp holder, the lamp holder is embedded and mounted in the reaction chamber.

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