CN205073857U - Exhaust purification quasi -molecule optoelectronic integration equipment - Google Patents

Abstract

Exhaust purification quasi -molecule optoelectronic integration equipment, characterized by, waste gas collecting tank links to each other with the waste gas intake pipe, and the waste gas intake pipe links to each other with filtration membrane, and filtration membrane's outer wall and purge tube way link to each other, and purge tube says and is equipped with air pump, photocatalyst purification layer, ultraviolet recess leaded light mirror and quasi -molecule recess leaded light mirror in order from a left side to the right side, purge tube says that the right side links to each other with the blast pipe, waste gas in waste gas collecting tank gets into after the waste gas intake pipe, starting switch, waste gas is along with pipeline and filtration membrane contact, at this moment, the large granule dust of filtration membrane in to waste gas filters, later the air pump carries out the pressure boost for waste gas, let waste gas rapidly from the left side that purge tube the said right side of moving, waste gas purifies the layer through the photocatalyst during from the left side to the right side in order, the photocatalyst coating, ultraviolet lamp's the radiation area and the radiation area of quasi -molecule transmitter, handle the back through these four regions to waste gas, waste gas will become fresh air, rethread air pump later, let the air discharge from the blast pipe.

Description

Waste gas purification quasi-molecule optoelectronic integration equipment

Technical field

The invention belongs to environmental technology field, especially waste gas purification quasi-molecule optoelectronic integration equipment.

Background technology

After the industrial revolution, heavy industry is greatly developed in a lot of area in the world, the waste gas produced is caused to get more and more, serious threat is caused to human health, nearly ten years, China GDP maintains sustained and rapid growth, but mode of economic development relatively tradition falls behind, certain destruction is caused to the ecological balance and natural environment, air-polluting disadvantage becomes increasingly conspicuous, the haze weather particularly day by day increased the weight of has interfered with trip order and the quality of life of society, along with social economy's persistent levels advances, the demand of people to quality of life improves day by day, living environment residing for self is more and more paid close attention to, photocatalyst is a kind of nano level metal oxide materials, it coats substrate surface, under the effect of light, produce strong catalytic degradation function: toxic and harmful in air of effectively degrading, effectively can kill various bacteria, and the toxin that bacterium or fungi can be discharged decomposes and harmless treatment, also possesses the function such as deodorizing, anti-soil simultaneously, UV radiation technology for sterilization is more widely used in increasing field, especially in air disinfection, body surface kills, and water treatment sterilization aspect, the principles of science of disinfection by ultraviolet light: the DNA mainly acting on microorganism, destroy DNA structure, make it to lose the function of breeding and self-replacation thus reach the object of sterilizing, ultraviolet sterilization has the advantage that colorless and odorless is left over without chemical substance, quasi-molecule is to the upper state with constraint (life-span is 10-6 ~ 10-7s) and the general designation of ground state molecule (life-span 10-13s) repelling (weak beam is tied up), is also referred to as the radiationless compound of three-body collision or atomic collision state.Quasi-molecule could can only produce under the gas discharge condition that some is special, as dielectric barrier discharge (DielectricBarrierDischarge, DBD), high-power electron beam, α particle, synchrotron radiation, high-frequency discharge, microwave discharge, the conditions such as pulsed discharge, during electric discharge, atom is excited to high electron energy level, these excited atoms and ground state atom or molecular collision produce a molecule and make it from the slow Henan of high vibration excited state to low vibration excited state by third party transfer part energy, become metastable molecule, send the radiation of respective wavelength simultaneously, excimer radiation power is strong, light efficiency is higher, adapt to specific wavelength needed for photochemical reaction, the new ultra-violet light source of high strength, disinfection effect is better, the scientist of China also have developed some equipment to exhaust-gas treatment, but high actually rare of practicality, cost performance, intellectuality, combination property.

Summary of the invention

It is simple, easy to operate that technical problem to be solved of the present invention is to provide a kind of structure, can the waste gas purification quasi-molecule optoelectronic integration equipment of purifying exhaust air.

The technical scheme that the present invention takes is:

Waste gas purification quasi-molecule optoelectronic integration equipment, it is characterized in that, be made up of waste gas collection box (1), cabinet (2), exhaust inlet pipe (3), filter membrane (4), purification pipeline (5), air pump (6), photocatalyst purification layer (7), photocatalyst coating (8), the guide-lighting mirror (9) of ultraviolet groove, ultraviolet lamp (10), the guide-lighting mirror (11) of quasi-molecule groove, quasi-molecule transmitter (12), exhaust pump (13), blast pipe (14), control panel (15), contactor (16), switch (17) and plug (18); Waste gas collection box (1) is arranged on the left side of cabinet (2), waste gas collection box (1) is connected with exhaust inlet pipe (3), exhaust inlet pipe (3) is connected with filter membrane (4), the outer wall of filter membrane (4) is connected with purification pipeline (5), and purification pipeline (5) is provided with air pump (6), photocatalyst purification layer (7), the guide-lighting mirror (9) of ultraviolet groove and the guide-lighting mirror (11) of quasi-molecule groove from left to right in turn; Purification pipeline (5) right side is connected with blast pipe (14), and blast pipe (14) is provided with exhaust pump (13);

Purification pipeline (5) inwall scribbles photocatalyst coating (8), is provided with ultraviolet lamp (10) in the guide-lighting mirror (9) of ultraviolet groove, is provided with quasi-molecule transmitter (12) in the guide-lighting mirror (11) of quasi-molecule groove.

Described waste gas purification quasi-molecule optoelectronic integration equipment, cabinet (2) top is provided with control panel (15), control panel (15) is provided with contactor (16), and contactor (16) is connected with switch (17), and switch (17) is connected with plug (18) by cable.

Described waste gas purification quasi-molecule optoelectronic integration equipment, air pump (6), ultraviolet lamp (10), quasi-molecule transmitter (12) and exhaust pump (13) sequentially pass through cable and are connected with contactor (16).

Described waste gas purification quasi-molecule optoelectronic integration equipment, photocatalyst coating (8) shape is zigzag, and this shape can increase the area of photocatalyst coating (8), improves purification efficiency.

The guide-lighting mirror (9) of described ultraviolet groove can be reflected ultraviolet, allows ultraviolet stay in the radiation area of setting, improves the efficiency of sterilization, sterilizing, reduce the radiation to equipment miscellaneous part simultaneously, improve the service life of equipment.

The guide-lighting mirror (11) of described quasi-molecule groove can be reflected quasi-molecule, allows quasi-molecule stay in the radiation area of setting, improves the efficiency of sterilization, sterilizing, reduce the radiation to equipment miscellaneous part simultaneously, improve the service life of equipment.

Described waste gas purification quasi-molecule optoelectronic integration equipment, after the waste gas in waste gas collection box (1) enters exhaust inlet pipe (3), starting switch (17), waste gas contacts with filter membrane (4) along with pipeline, at this moment filter membrane (4) filters the bulky grain dust in waste gas, air pump (6) carries out supercharging to waste gas afterwards, waste gas is allowed to move to right side from the left side of purification pipeline (5) rapidly, waste gas from left side to during right side sequentially through photocatalyst purification layer (7), photocatalyst coating (8), the radiation area of ultraviolet lamp (10) and the radiation area of quasi-molecule transmitter (12), after waste gas being processed by these four regions, waste gas will become ozone, afterwards again by exhaust pump (13), air is allowed to discharge from blast pipe (14), complete the process of exhaust-gas treatment.

Advantage of the present invention and good effect are:

1, structure is simple, economy and durability;

2, multiple working procedure processes waste gas;

3, light and being electrically coupled is processed waste gas;

4, automatic equipment, can save cost of labor.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention.

Detailed description of the invention

Below in conjunction with embodiment, the present invention is further described, and following embodiment is illustrative, is not determinate, can not limit protection scope of the present invention with following embodiment.

Waste gas purification quasi-molecule optoelectronic integration equipment, it is characterized in that, be made up of waste gas collection box (1), cabinet (2), exhaust inlet pipe (3), filter membrane (4), purification pipeline (5), air pump (6), photocatalyst purification layer (7), photocatalyst coating (8), the guide-lighting mirror (9) of ultraviolet groove, ultraviolet lamp (10), the guide-lighting mirror (11) of quasi-molecule groove, quasi-molecule transmitter (12), exhaust pump (13), blast pipe (14), control panel (15), contactor (16), switch (17) and plug (18); Waste gas collection box (1) is arranged on the left side of cabinet (2), waste gas collection box (1) is connected with exhaust inlet pipe (3), exhaust inlet pipe (3) is connected with filter membrane (4), the outer wall of filter membrane (4) is connected with purification pipeline (5), and purification pipeline (5) is provided with air pump (6), photocatalyst purification layer (7), the guide-lighting mirror (9) of ultraviolet groove and the guide-lighting mirror (11) of quasi-molecule groove from left to right in turn; Purification pipeline (5) right side is connected with blast pipe (14), and blast pipe (14) is provided with exhaust pump (13);

Purification pipeline (5) inwall scribbles photocatalyst coating (8), is provided with ultraviolet lamp (10) in the guide-lighting mirror (9) of ultraviolet groove, is provided with quasi-molecule transmitter (12) in the guide-lighting mirror (11) of quasi-molecule groove.

Described waste gas purification quasi-molecule optoelectronic integration equipment, cabinet (2) top is provided with control panel (15), control panel (15) is provided with contactor (16), and contactor (16) is connected with switch (17), and switch (17) is connected with plug (18) by cable.

Described waste gas purification quasi-molecule optoelectronic integration equipment, air pump (6), ultraviolet lamp (10), quasi-molecule transmitter (12) and exhaust pump (13) sequentially pass through cable and are connected with contactor (16).

Described waste gas purification quasi-molecule optoelectronic integration equipment, after the waste gas in waste gas collection box (1) enters exhaust inlet pipe (3), starting switch (17), waste gas contacts with filter membrane (4) along with pipeline, at this moment filter membrane (4) filters the bulky grain dust in waste gas, air pump (6) carries out supercharging to waste gas afterwards, waste gas is allowed to move to right side from the left side of purification pipeline (5) rapidly, waste gas from left side to during right side sequentially through photocatalyst purification layer (7), photocatalyst coating (8), the radiation area of ultraviolet lamp (10) and the radiation area of quasi-molecule transmitter (12), after waste gas being processed by these four regions, waste gas will become ozone, afterwards again by exhaust pump (13), air is allowed to discharge from blast pipe (14), complete the process of exhaust-gas treatment, waste gas purification quasi-molecule optoelectronic integration device structure is simple, economy and durability, and multiple working procedure processes waste gas, and processed waste gas with being electrically coupled by light, automatic equipment, can save cost of labor.

Claims (4)

1. waste gas purification quasi-molecule optoelectronic integration equipment, it is characterized in that, be made up of waste gas collection box (1), cabinet (2), exhaust inlet pipe (3), filter membrane (4), purification pipeline (5), air pump (6), photocatalyst purification layer (7), photocatalyst coating (8), the guide-lighting mirror (9) of ultraviolet groove, ultraviolet lamp (10), the guide-lighting mirror (11) of quasi-molecule groove, quasi-molecule transmitter (12), exhaust pump (13), blast pipe (14), control panel (15), contactor (16), switch (17) and plug (18); Waste gas collection box (1) is arranged on the left side of cabinet (2), waste gas collection box (1) is connected with exhaust inlet pipe (3), exhaust inlet pipe (3) is connected with filter membrane (4), the outer wall of filter membrane (4) is connected with purification pipeline (5), and purification pipeline (5) is provided with air pump (6), photocatalyst purification layer (7), the guide-lighting mirror (9) of ultraviolet groove and the guide-lighting mirror (11) of quasi-molecule groove from left to right in turn; Purification pipeline (5) right side is connected with blast pipe (14), and blast pipe (14) is provided with exhaust pump (13);

Purification pipeline (5) inwall scribbles photocatalyst coating (8), is provided with ultraviolet lamp (10) in the guide-lighting mirror (9) of ultraviolet groove, is provided with quasi-molecule transmitter (12) in the guide-lighting mirror (11) of quasi-molecule groove.

2. waste gas purification quasi-molecule optoelectronic integration equipment according to claim 1, it is characterized in that, cabinet (2) top is provided with control panel (15), control panel (15) is provided with contactor (16), contactor (16) is connected with switch (17), and switch (17) is connected with plug (18) by cable.

3. waste gas purification quasi-molecule optoelectronic integration equipment according to claim 1, is characterized in that, air pump (6), ultraviolet lamp (10), quasi-molecule transmitter (12) and exhaust pump (13) sequentially pass through cable and be connected with contactor (16).

4. waste gas purification quasi-molecule optoelectronic integration equipment according to claim 1, it is characterized in that, photocatalyst coating (8) shape is zigzag.