CN205698629U - Air cleaner - Google Patents
Air cleaner Download PDFInfo
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- CN205698629U CN205698629U CN201620409479.9U CN201620409479U CN205698629U CN 205698629 U CN205698629 U CN 205698629U CN 201620409479 U CN201620409479 U CN 201620409479U CN 205698629 U CN205698629 U CN 205698629U
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- microwave
- ventilation shaft
- cavity
- generating apparatus
- air cleaner
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Abstract
The utility model discloses a kind of air cleaner, including cavity, microwave generating apparatus, ultraviolet ray generating apparatus, photocatalyst dielectric-slab and shell body;Cavity and microwave generating apparatus are installed in shell body;Shell body is provided with shutter;Cavity is provided with ventilation shaft, and ventilation shaft inwall top is provided with microwave entrance;Microwave generating apparatus includes microwave generator and microwave excitation cavity, is provided with microwave outlet and its sidewall is provided with manhole bottom microwave excitation cavity;The outfan of microwave generator stretches in manhole, and microwave exports just to microwave entrance;The inwall of microwave excitation cavity is towards microwave outlet-inclined impeller vane;Photocatalyst dielectric-slab is uniformly distributed on the inwall of ventilation shaft;Ultraviolet ray generating apparatus includes substrate and Burdick lamp, and substrate is fixed on the inwall of ventilation shaft;Burdick lamp is installed on substrate.This utility model can toxic and harmful in efficient waste gas decomposition kill antibacterial therein, processing cost is low, non-secondary pollution, safety and environmental protection.
Description
Technical field
This utility model belongs to technical field of environment protection equipment, relates in particular to a kind of air cleaner.
Background technology
In recent years, along with industrialization and urbanization progress faster, volatile organic solvent usage amount is big, and VOC (VOCs) discharge capacity is big.Such as Hydrocarbon, benzene and benzene homologues, alcohols, aldehydes, phenols, ketone, esters, amine, nitrile, cyanogen class, amino etc., if can not will impact health, crop growth and synoptic climate etc. and endanger by qualified discharge.It addition, abnormal flavour in air, stink have a strong impact on, people normally work, living also becomes one of importance that the current will of the people complains.Prior art includes combustion method and washing method to VOCs administering method.Wherein, using combustion method to there is equipment perishable, consume fuel, processing cost is high, the problem being easily formed secondary pollution;And use its chemical liquids used of washing method to need often to change, cause costly.And VOC is removed difficulty, absorption method adsorbent somewhat expensive, regenerate more difficult, it is desirable to pending gas has relatively low temperature and dustiness.Therefore how to break through the limitation of prior art, develop a kind of environmental protection, run efficient treatment facility be those skilled in the art need research direction.
Utility model content
For overcoming the problems referred to above, this utility model provides a kind of air cleaner.
Its concrete technical scheme used is as follows:
A kind of air cleaner, including cavity, microwave generating apparatus, ultraviolet ray generating apparatus, photocatalyst dielectric-slab and shell body;Described cavity and microwave generating apparatus are installed in shell body;Described shell body is provided with shutter;Described cavity is provided with ventilation shaft, and the input of described ventilation shaft and outfan lay respectively at the two side ends of cavity;Input, the air port of outfan just to ventilation shaft it is additionally provided with on described shell body;Described ventilation shaft inwall top is provided with microwave entrance;Described microwave generating apparatus includes microwave generator and microwave excitation cavity, is provided with rectangular microwave outlet and its sidewall is provided with manhole bottom described microwave excitation cavity;The outfan of described microwave generator stretches in manhole, and described microwave exports just to microwave entrance;The inwall of described microwave excitation cavity is towards microwave outlet-inclined impeller vane;Described photocatalyst dielectric-slab is uniformly distributed on the inwall of ventilation shaft;Described ultraviolet ray generating apparatus includes that substrate and Burdick lamp, described substrate are fixed on the inwall of ventilation shaft;Described Burdick lamp is installed on substrate.
By using this technical scheme: play a protective role microwave generating apparatus and cavity with shell body, the microwave radiation that microwave generator produces is entered continuous reflection in microwave excitation cavity, on the inwall of microwave excitation cavity by manhole and the most finally derives from microwave outlet, in microwave entrance enters ventilation shaft.Thereby reduce the radiation loss of microwave, reach using electricity wisely and promote the purpose of the efficiency of heating surface.Meanwhile, waste gas is imported in cavity by the input of ventilation shaft and derives from the outfan of ventilation shaft.The microwave heating effect produced by microwave generating apparatus makes change in protein, it is achieved kill antibacterial in waste gas.Meanwhile, photocatalyst dielectric-slab produces strong catalytic degradation effect under the radiation of Burdick lamp, and the toxic and harmful in waste gas is degraded to low molecular compound, water and carbon dioxide.Meanwhile, during microwave generator produce heat by the shutter on shell body realize heat radiation, ensured working for a long time of this product.
Preferably, in above-mentioned air cleaner: also include that wire netting, described wire netting are installed on the input of ventilation shaft.By using this technical scheme: realizing micro-wave screening with wire netting at the input of ventilation shaft, the microwave preventing microwave generating apparatus from producing leaks.
It is further preferred that in above-mentioned air cleaner: also including that ozone adsorption plate, described ozone adsorption plate are provided with air vent, described ozone adsorption plate is installed on the outfan of ventilation shaft.By using this technical scheme: realizing micro-wave screening with wire netting at the input of ventilation shaft, the microwave preventing microwave generating apparatus from producing leaks.
It may further be preferable that in above-mentioned air cleaner: described substrate is detachable block.By using this technical scheme: substrate is set to detachable block, beneficially installation and the quantity of Burdick lamp adjusts.
It is even furthermore preferable that in above-mentioned air cleaner: described Burdick lamp is electrodeless ultraviolet lamp.By using this technical scheme: make full use of microwave-excitation electrodeless ultraviolet lamp that microwave generating apparatus outfan produces from primary radiation ultraviolet, reach to save the purpose of the energy.
The most preferably, in above-mentioned air cleaner: the structure of employing pinnacle, described shell body top.By using this structure, can effectively prevent shell body end face hydrops when this product is arranged at open air, play the effect of protection against the tide.
The most preferably, in above-mentioned air cleaner: described Burdick lamp has several, and staggered floor distribution in ventilation shaft;Described photocatalyst dielectric-slab is Nano titanium dioxide dielectric-slab.
Compared with prior art, this utility model can toxic and harmful in efficient waste gas decomposition kill antibacterial therein, processing cost is low, non-secondary pollution, safety and environmental protection.
Accompanying drawing explanation
Fig. 1 is the schematic appearance of this utility model embodiment 1,
Fig. 2 is the schematic appearance that Fig. 1 removes shell body, and this figure omits wire netting;
Fig. 3 is the structural representation that Fig. 1 removes shell body, and this figure omits microwave generator;
Fig. 4 is the generalized section in Fig. 3 at A-A;
Fig. 5 is the structural representation of microwave excitation cavity.
In above-mentioned accompanying drawing, each parts are as follows with the corresponding relation of reference:
1, cavity;2, microwave generating apparatus;3, ultraviolet ray generating apparatus;4, photocatalyst dielectric-slab;5, wire netting;6, ozone adsorption plate;7, shell body;11, ventilation shaft;31, substrate;32, Burdick lamp;111, microwave entrance;21, microwave generator;22, microwave excitation cavity;221, manhole;222, microwave outlet;71, shutter;72, air port.
Detailed description of the invention
In order to be illustrated more clearly that the technical solution of the utility model, below in conjunction with accompanying drawing, this utility model is further described.
Embodiment 1 the most of the present utility model:
A kind of air cleaner, including cavity 1, microwave generating apparatus 2, ultraviolet ray generating apparatus 3, photocatalyst dielectric-slab 4, wire netting 5, ozone adsorption plate 6 and shell body 7.
Described cavity 1 and microwave generating apparatus 2 are installed in shell body 7;Described shell body is provided with shutter;Employing pinnacle, described shell body 7 top structure.Described cavity 1 is provided with ventilation shaft 11, and the input of described ventilation shaft 11 and outfan lay respectively at the two side ends of cavity 1;Described shell body 7 is provided with just input, the air port 72 of outfan to ventilation shaft 11;Described wire netting 5 is installed on the input of ventilation shaft 11.Described ozone adsorption plate 6 is provided with air vent, and described ozone adsorption plate 6 is installed on the outfan of ventilation shaft 11.
Described ventilation shaft 11 inwall top is provided with microwave entrance 111;Described microwave generating apparatus 2 includes microwave generator 21 and microwave excitation cavity 22, is provided with rectangular microwave outlet 222 and its sidewall is provided with manhole 221 bottom described microwave excitation cavity 22;The outfan of described microwave generator 21 stretches in manhole 221, and the outlet 222 of described microwave is just to microwave entrance 111;The inwall of described microwave excitation cavity 22 is towards microwave outlet 222 inclination.
Described photocatalyst dielectric-slab 4 is uniformly distributed on the inwall of ventilation shaft 11;Described ultraviolet ray generating apparatus 3 includes that substrate 31 and Burdick lamp 32, described substrate 31 are detachable block, are fixed on the inwall of ventilation shaft 11;Described Burdick lamp 32 has 21, all uses electrodeless ultraviolet lamp, is installed on substrate 31.Three row seven are divided to be listed in staggered floor distribution in ventilation shaft 11.Described photocatalyst dielectric-slab 4 is Nano titanium dioxide dielectric-slab.
In practice, its work process is as follows:
The waste gas that industry spot produces is entered shell body 7 by air port 72, is imported in cavity 1 by ventilation shaft 11 input.Waste gas sequentially passes through wire netting 5 and ozone adsorption plate 6, derives from ventilation shaft 11 outfan.In this process: the microwave radiation that microwave generating apparatus 2 starts, microwave generator 21 produces by outfan in manhole 221 enters microwave excitation cavity 22, on the inwall of microwave excitation cavity 22 continuous reflection and finally from microwave outlet 222 derivation, in microwave entrance 111 enters ventilation shaft 11.This microwave is polymerized reinforcement during continuous reflection, produced microwave heating effect changes the cell membrane section Potential distribution of contained antibacterial in waste gas, change membrane passage energy, causing bacteriotrophy bad, it is impossible to eubolism, structure function of cell is disorderly and dead.Realize antibacterial in waste gas is killed.Burdick lamp 32 is independently excited generation ultraviolet by this microwave radiation simultaneously, photocatalyst dielectric-slab 4 produces strong catalytic degradation effect under the radiation of this ultraviolet, ozone, OH (hydroxyl radical free radical) that TiO2 reaction produces carry out collaborative decomposition oxidation to stench and other organic gas, fission is reformed, ultimately produce H2O and CO2 and other nontoxic material, there is deodorization, the effect sterilized, sterilize simultaneously, secondary pollution will not be produced.During, heat produced by microwave generator 21 is dispelled the heat by the shutter 71 on shell body 7, it is ensured that working for a long time of this product.
The above; it is only specific embodiment of the utility model; but protection domain of the present utility model is not limited thereto; any those skilled in the art is in technical scope disclosed in this utility model; the change that can readily occur in or replacement, all should contain within protection domain of the present utility model.Protection domain of the present utility model is as the criterion with the protection domain of claims.
Claims (8)
1. an air cleaner, it is characterised in that: include cavity (1), microwave generating apparatus (2), ultraviolet ray generating apparatus (3), photocatalyst dielectric-slab (4) and shell body (7);Described cavity (1) and microwave generating apparatus (2) are installed in shell body (7);Described shell body (7) is provided with shutter (71);Described cavity (1) is provided with ventilation shaft (11), and the input of described ventilation shaft (11) and outfan lay respectively at the two side ends of cavity (1);Input, the air port (72) of outfan just to ventilation shaft (11) it is additionally provided with on described shell body (7);Described ventilation shaft (11) inwall top is provided with microwave entrance (111);Described microwave generating apparatus (2) includes microwave generator (21) and microwave excitation cavity (22), and described microwave excitation cavity (22) bottom is provided with rectangular microwave outlet (222) and its sidewall is provided with manhole (221);The outfan of described microwave generator (21) stretches in manhole (221), and described microwave outlet (222) is just to microwave entrance (111);The inwall of described microwave excitation cavity (22) tilts towards microwave outlet (222);Described photocatalyst dielectric-slab (4) is uniformly distributed on the inwall of ventilation shaft (11);Described ultraviolet ray generating apparatus (3) includes substrate (31) and Burdick lamp (32), and described substrate (31) is fixed on the inwall of ventilation shaft (11);Described Burdick lamp (32) is installed on substrate (31).
2. a kind of air cleaner, it is characterised in that: also include that wire netting (5), described wire netting (5) are installed on the input of ventilation shaft (11).
3. a kind of air cleaner, it is characterised in that: also including that ozone adsorption plate (6), described ozone adsorption plate (6) are provided with air vent, described ozone adsorption plate (6) is installed on the outfan of ventilation shaft (11).
4. a kind of air cleaner, it is characterised in that: described substrate (31) is detachable block.
5. a kind of air cleaner, it is characterised in that: described Burdick lamp (32) has several, and staggered floor distribution in ventilation shaft (11).
6. a kind of air cleaner, it is characterised in that: described photocatalyst dielectric-slab (4) is Nano titanium dioxide dielectric-slab.
7. a kind of air cleaner, it is characterised in that: described Burdick lamp (32) is electrodeless ultraviolet lamp.
8. a kind of air cleaner, it is characterised in that: employing pinnacle, described shell body (7) top structure.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620409479.9U CN205698629U (en) | 2016-05-09 | 2016-05-09 | Air cleaner |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620409479.9U CN205698629U (en) | 2016-05-09 | 2016-05-09 | Air cleaner |
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CN205698629U true CN205698629U (en) | 2016-11-23 |
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CN201620409479.9U Active CN205698629U (en) | 2016-05-09 | 2016-05-09 | Air cleaner |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106556084A (en) * | 2016-05-09 | 2017-04-05 | 鹰儒环保科技(上海)有限公司 | Air cleaning unit |
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2016
- 2016-05-09 CN CN201620409479.9U patent/CN205698629U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106556084A (en) * | 2016-05-09 | 2017-04-05 | 鹰儒环保科技(上海)有限公司 | Air cleaning unit |
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Legal Events
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
TR01 | Transfer of patent right | ||
TR01 | Transfer of patent right |
Effective date of registration: 20230724 Address after: Room 348, 3rd Floor, No. 4 Lane 889, Suide Road, Putuo District, Shanghai, 200331 Patentee after: Shanghai Huibeikang Pet Food Co.,Ltd. Address before: 200940 Room 232, Building 4, No. 199 Tongji Branch Road, Baoshan District, Shanghai Patentee before: YINGRU ENVIRONMENTAL PROTECTION TECHNOLOGY (SHANGHAI) CO.,LTD. |