WO2014079173A1 - Plasma photocatalyst negative ion air deodorization and sterilization apparatus - Google Patents

Abstract

An air deodorization and sterilization apparatus comprising an air transfer conduit (3), a negative ion apparatus, a photocatalysis main processor (5), and an activated carbon air filter (12). The negative ion apparatus is provided within the air transfer conduit (3). The photocatalysis main processor (5) is provided therein with an air passage. The air passage has arranged therein one or more ultraviolet light tubes (7) and titanium dioxide photocatalysis contact plates (9) fixedly arranged at the rear ends of the ultraviolet light tubes (7). The tail end of the air passage is in communication with the activated carbon air filter (12). Air is outputted via the activated carbon air filter (12).

Description

 Plasma photocatalyst negative ion air deodorization and sterilization device  Technical field

 The invention discloses a kitchen waste disposal device, and more particularly to a plasma photocatalyst negative ion air deodorization and sterilization device.

Background technique

The science and technology of waste resource utilization, after a long period of application, has proved that if the waste recycling technology is applied in a single application, the consequences will bring greater crisis to the human living environment, especially The serious problem of secondary pollution is difficult to control, so the comprehensive treatment of waste has become the current development trend. The composition of kitchen waste is extremely complicated, including sewage, plastic bags, plastic bottles, waste cloth strips, spoilage organic matter, paper, metal bottles, broken glass, broken ceramic sheets, animal fats, vegetable oils, primary bacteria and other substances. . At present, the kitchen waste resource treatment technology has presented a “hundred flowers” situation in the domestic and foreign methods and processes, but basically it is a simple single item treatment, and there is no international environmental treatment that shifts from simple treatment to comprehensive treatment, utilization and disposal. The trend and direction may cause the inevitable attachments in the kitchen waste to be transferred and randomly filled, causing water and soil pollution, or transfer, not only blocking the city's sewer pipes, but also emitting a foul smell and causing serious secondary pollution. The single treatment process of kitchen waste is feasible from the perspective of resource utilization value. However, considering the comprehensive protection of the global environment, people's livability and protection of the atmospheric environment, it may still do more harm than good. At present, all the links in the kitchen waste treatment system will inevitably produce some harmful microorganisms, odorous gases, etc., and discharge them directly into the atmosphere, which will cause secondary pollution to the atmosphere. The current kitchen waste treatment system There is a lack of processing steps for gases.

Summary of the invention

In view of the above-mentioned prior art kitchen waste disposal system lacking the treatment steps of gas and causing secondary pollution to the atmosphere, the present invention provides a new plasma photocatalyst negative ion air deodorization and sterilization device. The gas generated in the kitchen waste treatment system is treated with a negative ion corrugated plate combined with an ultraviolet light tube and activated carbon to meet atmospheric emission standards.

The technical solution adopted by the invention solves the technical problem is: a plasma photocatalyst negative ion air deodorization and sterilizing device, the device comprises an air conveying pipeline, a photocatalytic main processor and an activated carbon air filter, and the gas is input into the air conveying pipeline, An air ion transporting pipe is provided with a negative ion device, and the gas is input into the photocatalytic main processor through the air transport pipe. The photocatalytic main processor is provided with an air passage, and the air passage is equipped with more than one illuminating wavelength of 253 nm-258 nm. The ultraviolet light pipe and the ultraviolet light pipe are fixedly mounted with a titanium dioxide photocatalytic touch panel, and a plasma generator is arranged at a corner position of the air passage, and the air passage end is connected with the activated carbon air filter through an activated carbon air filter. Gas output.

The technical solution adopted by the present invention to solve the technical problem thereof further includes:

An air discharge pipe is connected between the photocatalytic main processor and the activated carbon air filter, and an negative ion device is arranged in the air discharge pipe, and the air passage end is connected with the air discharge pipe, the air discharge pipe and the activated carbon air filter Connected.

The negative ion device adopts a negative ion corrugated plate, and the negative ion corrugated plate is stackedly installed.

The negative ion corrugated plate is provided with two sections, the front section is horizontally installed, and the rear section is vertical installation.

The front end of the air conveying pipe is provided with an air inlet, and an automatic sliding gate valve is installed at the rear end of the air inlet.

The back surface of the ultraviolet light pipe is equipped with a light reflecting plate.

The air passage in the photocatalytic main processor is Z-shaped.

The size and shape of the titanium dioxide photocatalytic contact plate coincides with the cross section of the air passage and can be just blocked in the air passage.

The titanium dioxide photocatalytic touch panel is of a honeycomb type.

The titanium dioxide photocatalytic touch panel has a thickness of 1 cm - 10 cm and has more than one hole.

The invention has the beneficial effects that the invention can collect and treat the odor overflowing in various sections of the kitchen waste treatment process and the air of the entire workshop, and continuously and efficiently remove harmful microorganisms and kill bacteria. , virus, degrading the odor in the air at this time the gas is odorless, sterile, no solid particles, no toxic and harmful substances and fresh and clean.

The invention will be further described with reference to the drawings and specific embodiments.

DRAWINGS

Figure 1 is a schematic view of the structure of the present invention.

2 is a partial structural view of the gas collection and pretreatment apparatus of the present invention.

In the figure, 1-air inlet, 2-automatic slide gate valve, 3-air conveying pipe, 4-first negative ion corrugated plate, 5-photocatalytic main processor, 6-Z-shaped guide plate, 7-ultraviolet light pipe, 8 - Glossy reflector, 9-photocatalytic contact plate, 10-air discharge pipe, 11-second negative ion corrugated plate, 12-activated carbon air filter, 13-plasma generator.

detailed description

This embodiment is a preferred embodiment of the present invention, and other principles and basic structures are the same as or similar to those of the present embodiment, and are all within the scope of the present invention.

The invention is mainly used for collecting and treating the odor overflowing in the treatment of various kitchen wastes and the air of the entire workshop, and continuously and efficiently killing harmful microorganisms, killing bacteria, viruses and degrading air in the collected air. The smell.

Referring to Figure 1 and Figure 2, the air inlet 1 of the present invention is installed around each kitchen garbage collection tank to ensure the prevention of the spread of pollutants, as well as the production sections of the odors and the upper sides of the production workshop. An automatic slide gate valve 2 is installed at the rear end of each air inlet 1, and the automatic slide gate valve 2 is controlled to open and close by a pneumatic device or an electric device. The automatic slide gate valve 2 is used to prevent maintenance due to malfunction of the air treatment equipment, and is guaranteed. The pollution source does not spread, the rear end of the automatic slide gate valve 2 is connected to the air delivery pipe 3, and the negative ion corrugated plate 4 is disposed in the air delivery pipe 3. In this embodiment, the front end of the air delivery pipe 3 is installed at a distance of 30 cm - 80 cm from the entrance end. Multiple sets of 15,000/cm3 stacked first negative ion corrugated sheets 4 are released, where the negative ion corrugated sheets 4 are horizontally mounted, and the vertically mounted stacked negative ion corrugated sheets are provided at the rear end of the horizontally mounted negative ion corrugated sheets. In this embodiment, a horizontal negative ion corrugated plate is combined with a vertical negative ion corrugated plate, and when implemented, it can also be separately set according to actual needs. Multi-segment. In this embodiment, each segment of the negative ion corrugated plate comprises more than one piece, and the spacing between the plates and the plate is 10 mm. The end of the air delivery pipe 3 is connected with a photocatalytic main processor 5, and after the air is processed through the negative ion zone, the air is guided by the induced draft fan installed in the photocatalytic main processor 5 to the tail end of the air supply duct, and then enters. The photocatalytic main processor 5 is inside. In this embodiment, the photocatalytic main processor 5 is provided with an air passage, the air passage is a Z-shaped air passage, the Z-shaped air passage is a Z-shaped guide plate 6, and the Z-shaped guide plate 6 is a mirror aluminum alloy plate. The light emitted by the ultraviolet light pipe 7 is reflected in the Z-shaped air channel, and the Z-shaped air channel is provided with a plurality of ultraviolet light pipes 7 having an emission wavelength of 253 nm to 258 nm, and the back of each ultraviolet light pipe 7 Each of them is equipped with a smooth reflecting plate 8 for reflecting the light source emitted from the ultraviolet light pipe 7 into the air passage to maximize its function. In this embodiment, a honeycomb-shaped titanium dioxide photocatalytic touch panel 9 is installed at a distance of 10 cm to 20 cm behind the ultraviolet light tube 7. The size and shape of the photocatalytic touch panel 9 are identical to the cross-section of the Z-shaped air passage, and can be just blocked. In the Z-shaped air passage, the photocatalytic contact plate 9 has a thickness of 1 cm - 10 cm, and a plurality of holes are opened therein, and a plurality of plasma generators 13 are mounted at a corner position of the Z-shaped air passage of the photocatalytic main processor 5, and the plasma is installed. The discharge power of the generator 13 is 2.5 WH/m ³ , and the tail end of the Z-shaped air passage in the photocatalytic main processor 5 is connected to the air discharge duct 10, and the tail end inside the air discharge duct 10 is installed with a negative ion amount that can be released. The laminated second negative ion corrugated plate 11 of 15000/cm ^{3 has} the same structure as the first negative ion corrugated plate 4, and the air passes through the laminated second negative ion corrugated plate 11 and enters the activated carbon air filter. The device 12 is discharged after treatment. In the present embodiment, the activated carbon air filter 12 is provided with activated carbon in the outer casing to perform final activated carbon adsorption on the gas.

The operation method of the present invention is as follows: when the kitchen waste enters the collection pool, the air blower of the present invention is activated to open the automatic slide gate valve 2 at the front end of the air collection pipe around the pool, if the production workshop or other collection pool is not needed When the air is processed, the automatic slide gate valve 2 at the front end of the air collection pipe is closed. If the production workshop or other collection pool also needs to handle the air, the automatic slide valve at the front end of the collection pipe is opened. Due to the action of the air deflector, the air containing bacteria and odor is processed into the negative ion laminated corrugated plate 4 in the pipe through the gate valve 2, and the distance between the corrugated plate and the corrugated plate is 5 mm - 10 mm, and the negative ion laminated corrugated plate 4 The amount of negative ions released is 15000/cm ³ and does not need to be generated by electricity. The cells and odors with cations in the passing air are subjected to the first capture and killing, and the first killing and deodorizing gas is applied to the air blower. Under strong action, after entering the plasma processing zone along the air delivery pipeline, continue to enter the photocatalytic main processor 5, and the gas enters the main processor. In the Z-direction of the uppermost movement, the gas is irradiated by the ultraviolet light emitted from the ultraviolet light pipe 7 of the four walls of the Z-shaped channel, and then enters the passage of the honeycomb-shaped titanium dioxide photocatalytic plate 9, which absorbs light energy due to the titanium dioxide catalytic plate 9. After the generation of photoelectrons and photogenerated holes and generate strong energy, and react with the moisture and oxygen adsorbed on the surface of the air to form oxidative and active hydroxyl radicals and superoxide ion radicals, these capabilities are far higher than normal. The strength of the molecular chain of organic pollutants, so when the air enters the Z-shaped channel, the organic pollutants in the air are decomposed into the most primitive state, especially the air undergoes several times of repeated photocatalytic treatment in the Z-shaped air channel, the air The bacterial virus has been effectively removed, and the odor in the air is simultaneously degraded. In order to further ensure that the discharged air is fresh, the plasma generator 13 is installed at a corner position in the Z-shaped air passage to enhance the degradation and removal of the pollutant, and will already The air that has been subjected to photocatalysis and plasma combined treatment automatically enters the negative ion laminated corrugated plate 11 provided at the tail end of the device for another time. After the negative ion treatment, the residual impurities in the air are adsorbed by the activated carbon air processor and discharged. The gas discharged at this time is odorless, sterile, free of solid particles, free from toxic and harmful substances, and fresh and clean.

The invention can collect and treat the odor overflowing in various sections of the kitchen waste treatment process and the air of the entire workshop, and continuously and efficiently remove harmful microorganisms, kill bacteria, viruses and degrade air in the collected air. The gas emitted by the odor at this time is odorless, sterile, free of solid particles, free from toxic and harmful substances, and fresh and clean.

Claims (10)

1. A plasma photocatalyst negative ion air deodorizing and sterilizing device, characterized in that: the device comprises an air conveying pipe (3), a photocatalytic main processor (5) and an activated carbon air filter (12), and gas input air conveying In the pipe (3), an air ion transport pipe (3) is provided with a negative ion device, and the gas is input into the photocatalytic main processor (5) through the air transport pipe (3), and the photocatalytic main processor (5) is provided with air. In the channel, the air channel is equipped with more than one ultraviolet light pipe (7) with an emission wavelength of 253 nm - 258 nm, and a titanium dioxide photocatalytic contact plate (9) is fixedly mounted at the rear end of the ultraviolet light pipe (7), and the end of the air channel is The activated carbon air filter (12) is connected, and the gas is output through an activated carbon air filter (12).
2. The plasma photocatalyst negative ion air deodorizing and sterilizing device according to claim 1, wherein an air discharge pipe is connected between the photocatalytic main processor (5) and the activated carbon air filter (12). The air discharge pipe (10) is provided with an anion device, the end of the air passage is in communication with the air discharge pipe (10), and the air discharge pipe (10) is in communication with the activated carbon air filter (12).
3. The plasma photocatalyst negative ion air deodorizing and sterilizing device according to claim 1, wherein the negative ion device adopts a negative ion corrugated plate (4), and the negative ion corrugated plate (4) is stacked.
4. The plasma photocatalyst negative ion air deodorizing and sterilizing device according to claim 3, wherein the negative ion corrugated plate (4) is provided with two sections, the front section is horizontally mounted, and the rear section is vertically mounted.
5. The plasma photocatalyst negative ion air deodorizing and sterilizing device according to any one of claims 1 to 4, characterized in that: at the front end of the air conveying pipe (3), an air inlet (1) and an air inlet (1) are provided. The rear end is equipped with an automatic slide gate valve (2).
6. The plasma photocatalyst negative ion air deodorizing and sterilizing apparatus according to any one of claims 1 to 4, wherein the ultraviolet light pipe (7) is provided with a smooth reflecting plate (8) on the back surface thereof.
7. The plasma photocatalyst negative ion air deodorizing and sterilizing device according to any one of claims 1 to 4, wherein the air passage in the photocatalytic main processor (5) is Z-shaped and is Z-shaped. The air channel corner position is equipped with a plasma generator.
8. The plasma photocatalyst negative ion air deodorizing and sterilizing device according to any one of claims 1 to 4, wherein the size and shape of the titanium dioxide photocatalytic contact plate (9) coincide with the cross section of the air passage. It can just be blocked in the air passage.
9. The plasma photocatalyst negative ion air deodorizing and sterilizing device according to any one of claims 1 to 4, wherein the titanium dioxide photocatalytic contact plate (9) is of a honeycomb type.
10. The plasma photocatalyst negative ion air deodorizing and sterilizing device according to claim 9, wherein the titanium dioxide photocatalytic contact plate (9) has a thickness of 1 cm to 10 cm and has more than one hole.

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