CN214469197U - Horizontal compound odour removal device - Google Patents

Abstract

The utility model provides a horizontal compound odor removal device, which comprises a body shell, a left U shell, a right U shell, an upper cover plate and a lower cover plate, wherein the upper cover plate and the lower cover plate are arranged between the left U shell and the right U shell; the air outlet that still is linked together on the U shell of left side and with fuselage shell inside, the air intake that sets up on the U shell of right side and be linked together with fuselage shell inside, set up at the first stationary dog of left side U shell lateral wall lower extreme, set up at the second stationary dog of right side U shell lateral wall lower extreme, set up the top panel at the top of the upper cover plate and set up the lower panel in apron bottom down. Through horizontal compound odour removal device, not only can remove the function of peculiar smell suppression germ with the photocatalyst and the ultraviolet function of disinfecting combines organically, reach harmful gas in the air-purifying, exterminate bacterium and influenza virus, clear away the purpose of peculiar smell, and have that equipment is simple, convenient operation, with long-lived, the amount of wind is big, the noise is low, the maintenance cost is low, the advantage of effect excellence.

Description

Horizontal compound odour removal device

Technical Field

The utility model belongs to the technical field of odour removal device, in particular to horizontal compound odour removal device.

Background

In industrial production, a large amount of industrial waste gas and sewage are generated, and the industrial waste gas and the sewage generate a large amount of odor harmful to human bodies and environment.

In recent years, with the intensive development of the green production concept, people also have higher pursuit and demand on the quality of the air environment, so that in production and life, the air purification device is generally used for purifying and filtering off the peculiar smell in the air.

The existing air purification device can remove large-particle pollutants such as animal hair scraps, leather scraps, dust, pollen and the like and harmful gases such as PM2.5, formaldehyde, benzene, ammonia, smoke odor and the like in the air, but has the following defects: (1) the purification means is single, mainly purifies the particulate matter, can not remove the gaseous pollutant effectively or can only absorb a small amount of single gaseous pollutants; (2) the mechanical filters with various grades are used for purification in a centralized manner, so that the defects of small outlet air quantity, large noise and the like are caused; (3) the external structure size of the filtering unit is smaller, the maintenance and replacement period is short, and the target pollutants cannot be purified durably and effectively; (4) most of the existing air purification technologies are derived from industrial purification technologies, and secondary pollution is difficult to avoid while pollutants are removed. Therefore, it is one of the research focuses to develop a composite type odor removal device.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a to prior art's not enough, provide a horizontal compound odour removal device, not only can remove the function that the peculiar smell suppressed the germ with the photocatalyst and the function organic combination that disinfects of ultraviolet ray, reach harmful gas in the air-purifying, kill bacterium and influenza virus, clear away the purpose of peculiar smell, and have that equipment is simple, convenient operation, long service life, the amount of wind is big, the noise is low, the maintenance cost is low, the excellent advantage of effect.

In order to solve the technical problem, the utility model discloses a technical scheme is: a horizontal composite odor removal device comprises a machine body shell, a left U shell arranged at the left end of the machine body shell, a right U shell arranged at the right end of the machine body shell, an upper cover plate and a lower cover plate, wherein the upper cover plate and the lower cover plate are arranged between the left U shell and the right U shell;

the air outlet is arranged on the left U shell and communicated with the inside of the machine body shell, the air inlet is arranged on the right U shell and communicated with the inside of the machine body shell, the first fixing claw is arranged at the lower end of the outer side wall of the left U shell, the second fixing claw is arranged at the lower end of the outer side wall of the right U shell, the upper panel is arranged at the top of the upper cover plate, and the lower panel is arranged at the bottom of the lower cover plate;

the multifunctional sterilizing machine further comprises a buffer section, a primary filtering section, a UV sterilizing lamp module, a medium-efficiency filter, a first static pressure section, a final-efficiency filter, a power section and a second static pressure section which are sequentially arranged inside the machine body shell from right to left.

Further, the primary filtering section is a primary filter.

Further, the UV germicidal lamp module is arranged on the inner wall of the upper cover plate.

Furthermore, the medium-efficiency filter is arranged by adopting a multi-stage active carbon filtering layer.

Further, the first static pressure section includes a plasma module.

Furthermore, the final filter is arranged by adopting a multi-stage active carbon filter layer.

Further, the power section is a fan, a fan bottom supporting plate matched with the fan is arranged on the bottom wall of the machine body shell, and the air outlet end of the fan is communicated with the second static pressure section.

Compared with the prior art, the beneficial effects of the utility model are as follows: one of them, outside air passes through the inside back of air intake entering fuselage, can get into the buffer segment, the setting of buffer segment can make above-mentioned air have a buffer zone, make the great large tracts of land of the air of introduction cover buffer zone, thereby form great effective area, and then make above-mentioned air can evenly pass through each filtering point of primary filter, make the effective area through primary filter increase, can not carry out primary filter to the air that gets into, get rid of great particulate contamination, for example, animal dander, the dust, pollen etc., can also make the filter effect better, filter life is longer.

Secondly, because ultraviolet rays are transmitted out through the (specially-made glass) lamp tube, microorganisms can be killed and killed in a short time at a high concentration and in a short time, bacteria, viruses and other microorganisms in the air are highly killed and purified, the ultraviolet lamp can destroy the molecular structure of DNA (deoxyribonucleic acid) or RNA (ribonucleic acid) in cells of a microorganism body by using ultraviolet rays with the wavelength of 254nm, so that growth cells and (or) regenerative cells are killed, the effect of sterilization and disinfection is achieved, the ozone released by the UV lamp module can oxidize and decompose peculiar smell and the like in the air, the peculiar smell can be removed, and the air is purified; because the UV lamp module arranged in the machine body of the utility model can form a secondary sterilization area for air, and can sterilize microorganisms (bacteria, viruses and the like) in the air; meanwhile, ozone released by the UV lamp module can be used for carrying out oxidative decomposition on peculiar smell of the air and the like, so that harmful gases such as PM2.5, formaldehyde, benzene, ammonia, smoke peculiar smell and the like in the air are removed, and the air is further purified.

Thirdly, because the middle-effect filter adopts the three-level active carbon filter layer, the sterilized and disinfected air is adsorbed by the multi-level active carbon of the middle-effect filter, and toxic and harmful gases such as oil smoke peculiar smell and the like in the air and substances such as animal corpses and the like are filtered, so that the air is purified.

After the air enters the area where the first static pressure section is located, the plasma module is arranged in the area, and the plasma module can rapidly eliminate bacteria and viruses in the air by using a plasma disinfection technology, such as common bacteria and viruses, and effectively prevent smoke, peculiar smell and the like in the air with infection risk from decomposing the peculiar smell in the air in the process of ionizing through a plasma electric field; collecting and purifying the particulate matters such as smoke dust and the like in the purified air again by utilizing a high-voltage electrostatic adsorption principle; the device can be cleaned regularly and reused, and the later maintenance cost is low; because the middle-effect filter and the final-effect filter of the multistage active carbon filter layer structure are respectively arranged on two sides of the plasma module at a certain distance, the wind speed of the module passing through the region can be controlled within an optimal range (at a constant speed of 2.5 m/s-3.0 m/s) when the machine works, and therefore the working effect of the plasma module is optimal.

Fifthly, as the final effect filter adopts the multi-stage active carbon filter layers, PM2.5, formaldehyde, ammonia, benzene, smoke odor and other harmful substances in the air can be adsorbed and removed, and the air can achieve the purification effect of removing oil smoke and peculiar smell after being adsorbed and treated by the multi-stage active carbon net of the final effect filter.

Sixthly, the clean air purified by the final filter passes through a second static pressure section driven by the fan and then is discharged out of the machine through the air outlet, so that the air purification treatment process is completed; through the second static pressure section, the process that clean air is discharged out of the machine can be more uniform and more comfortable, the air consumption of the rear pipe section is reduced, and the noise in the process of discharging the air is reduced; namely, the second static pressure section can equalize wind speed, reduce wind consumption and reduce noise.

Seventhly, similar devices in the general industry, the panels are all single-layer thin plates; and technical scheme's difference lie in, set up the top panel in the top cover plate outside, set up down the panel in the apron outside down, can be connected the inside electrical apparatus connecting wire of fuselage shell through the space between top cover plate and top panel, lower apron and top panel, solve the built-in potential safety hazard problem of crossing the line. The upper cover plate, the upper panel, the lower cover plate and the lower panel are all arranged by metal plates, so that the sound insulation and noise reduction effects can be achieved, and the machine body is firmer and more attractive in appearance.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic front view of a cross-sectional structure of the present invention;

fig. 2 is a schematic front view of the structure of the present invention;

fig. 3 is a schematic top view of the cross-sectional structure of the present invention.

In the figure: 1. a fuselage shell; 2. a left U shell; 3. a right U shell; 4. an upper cover plate; 5. a lower cover plate; 6. an air outlet; 7. an air inlet; 8. a first fixed jaw; 9. a second stationary jaw; 10. an upper panel; 11. a lower panel; 12. a buffer section; 13. a primary filtration section; 14. a UV germicidal lamp module; 15. a medium-efficiency filter; 16. a first static pressure section; 17. a final effect filter; 18. a power section; 19. a second static pressure section; 20. a fan bottom support plate; 21. a power panel fixing box; 22. fixing the knob; 23. a fan left baffle; 24. a static pressure bin baffle; 25. an electric control maintenance cover plate; 26. a first overhaul cover plate; 27. a second overhaul cover plate; 28. and a control panel.

Detailed Description

For a better understanding of the present invention, the contents of the present invention will be further clarified below by referring to examples, but the present invention is not limited to the following examples. In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present invention. It will be apparent, however, to one skilled in the art, that the present invention may be practiced without one or more of these specific details.

As shown in fig. 1-3, a horizontal compound odor removing device comprises a body shell 1, a left U-shaped shell 2 arranged at the left end of the body shell 1, a right U-shaped shell 3 arranged at the right end of the body shell, an upper cover plate 4 and a lower cover plate 5 arranged between the left U-shaped shell 2 and the right U-shaped shell 3;

the air conditioner further comprises an air outlet 6 which is arranged on the left U-shaped shell 2 and is communicated with the interior of the machine body shell 1, an air inlet 7 which is arranged on the right U-shaped shell 3 and is communicated with the interior of the machine body shell 1, a first fixed claw 8 which is arranged at the lower end of the outer side wall of the left U-shaped shell 2, a second fixed claw 9 which is arranged at the lower end of the outer side wall of the right U-shaped shell 3, an upper panel 10 which is arranged at the top of the upper cover plate 4 and a lower panel 11 which is arranged at the bottom of the lower cover plate 5;

the multifunctional sterilizing machine further comprises a buffer section 12, a primary filtering section 13, a UV sterilizing lamp module 14, a medium-efficiency filter 15, a first static pressure section 16, a final-efficiency filter 17, a power section 18 and a second static pressure section 19 which are sequentially arranged inside the machine body shell 1 from right to left.

The primary filtering section 13 is a primary filter.

The UV germicidal lamp module 14 is arranged on the inner wall of the upper cover plate 4.

The medium-efficiency filter 15 is arranged by adopting three-stage activated carbon filter layers.

The first static pressure section 16 comprises a plasma module.

The final filter 17 is arranged by adopting three stages of activated carbon filter layers.

The power section 18 is a fan, a fan bottom supporting plate 20 matched with the fan is arranged on the bottom wall of the machine body shell 1, and the air outlet end of the fan is communicated with the second static pressure section 19.

A power panel fixing box 21 is further arranged at the left end of the upper panel 10, and a power control panel is arranged in the power panel fixing box 21; the body housing 1 is further provided with a fixing knob 22 for fixing the upper panel 10 and the lower panel 11.

The left end of the second static pressure section 19 is connected with the inner wall of the left U-shaped shell 2, the right side end of the second static pressure section 19 is provided with a fan left baffle 23 connected with the air outlet end of a fan, and the front side end and the rear side end of the second static pressure section 19 are provided with static pressure bin baffles 24.

The first fixed claw 8, the second fixed claw 9, the air inlet 7, the air outlet 6 and the second static pressure section 19 are respectively 2.

The front side left end of fuselage shell 1 still is provided with automatically controlled maintenance apron 25, the front side right-hand member of fuselage shell 1 still is provided with maintenance apron one 26 and maintenance apron two 27, still be provided with control panel 28 on the automatically controlled maintenance apron 25.

The first fixing claw 8 and the second fixing claw 9 are machine body fixing devices and are used for hoisting and fixing machine body shells, and the control panel 28 is used for controlling the operation of the whole device.

Specifically, the rotation of the fan enables air in the machine body to be discharged, negative pressure is formed in the machine body, and therefore air outside the machine enters from the air inlet.

Firstly, the air outside the machine passes through the buffer section part of the machine body, so that the air has a buffer area, a larger action area is formed, the air can uniformly pass through the primary filter, and substances such as larger particles, animal hair, catkins and the like in the air are filtered in the area.

Then, the air passes through a secondary sterilizing area of the UV lamp module, and microbes (such as bacteria, viruses and the like) in the air can be sterilized; meanwhile, ozone released by the UV lamp module can oxidize and decompose peculiar smell of the air and the like, so that the peculiar smell in the air is removed and purified.

Then, the sterilized and disinfected air is absorbed by the multistage active carbon of the medium-efficiency filter, toxic and harmful gases such as oil smoke peculiar smell and the like in the air and substances such as micro animal carcasses are filtered, and the air is purified.

Then, the air enters a static pressure section area arranged on the machine body, a plasma module is arranged in the static pressure section area, and the module efficiently kills microorganisms in the air again; various oil smoke, peculiar smell and the like in the air are decomposed in the ionization process of the plasma electric field; meanwhile, substances such as particulate matters in the air adsorb smoke dust and the like to the dirt collecting plate under the action of the high-voltage electric field.

Then, the air is adsorbed by the multistage active carbon net of the final effect filter, so that the purification effect of the oil smoke and the peculiar smell is achieved.

And finally, the clean air is driven by the fan to pass through the static pressure section of the machine body and then is discharged out of the machine body through the air outlet.

Outside air passes through inside the back of air intake entering fuselage, can get into the buffer segment, the setting of buffer segment can make above-mentioned air have a buffer zone, make the great area of coverage buffer zone of air of introducing, thereby form great effective area, and then make above-mentioned air can evenly pass through each filtering point of primary filter, make the effective area through primary filter increase, can not carry out primary filter to the air that gets into, get rid of bigger particle pollutant, for example, animal dander, the dust, pollen, can also make the filter effect better, the filter life is longer.

Because ultraviolet rays penetrate through a (specially-made glass) lamp tube to be transmitted out, microorganisms can be killed and killed in a short time at a high concentration and bacteria, viruses and other microorganisms in the air are highly killed and killed, the air is purified, the ultraviolet lamp can damage the molecular structure of DNA (deoxyribonucleic acid) or RNA (ribonucleic acid) in cells of a microorganism organism by utilizing ultraviolet rays with the wavelength of 254nm, so that growth cell death and (or) regenerative cell death are caused, the effect of sterilization and disinfection is achieved, the ozone released by the UV lamp module can oxidize and decompose air peculiar smell and the like, the peculiar smell can be removed, and the air is purified; because the UV lamp module arranged in the machine body of the utility model can form a secondary sterilization area for air, and can sterilize microorganisms (bacteria, viruses and the like) in the air; meanwhile, ozone released by the UV lamp module can be used for carrying out oxidative decomposition on peculiar smell of the air and the like, so that harmful gases such as PM2.5, formaldehyde, benzene, ammonia, smoke peculiar smell and the like in the air are removed, and the air is further purified.

Because the middle-effect filter adopts the three-stage active carbon filter layer, the sterilized and disinfected air is adsorbed by the multi-stage active carbon of the middle-effect filter, and then toxic and harmful gases such as oil smoke peculiar smell and the like in the air and substances such as micro animal carcasses are filtered, so that the air is purified.

After the air enters the area where the first static pressure section is located, the plasma module is arranged in the area, and the plasma module can rapidly eliminate bacteria and viruses in the air by using a plasma disinfection technology, such as common bacteria and viruses, and effectively prevent smoke, peculiar smell and the like in the infection risk air from decomposing the peculiar smell in the air in the process of ionizing through a plasma electric field; collecting and purifying the particulate matters such as smoke dust and the like in the purified air again by utilizing a high-voltage electrostatic adsorption principle; the device can be cleaned regularly and reused, and the later maintenance cost is low; because the middle-effect filter and the final-effect filter of the multistage active carbon filter layer structure are respectively arranged on two sides of the plasma module at a certain distance, the wind speed of the module passing through the region can be controlled within an optimal range (at a constant speed of 2.5 m/s-3.0 m/s) when the machine works, and therefore the working effect of the plasma module is optimal.

Because the final effect filter adopts the multi-stage active carbon filter layer arrangement, harmful substances such as PM2.5, formaldehyde, ammonia, benzene, cigarette smell peculiar smell in the air can be adsorbed and dispelled, so the air can reach the purifying effect of getting rid of oil smoke and peculiar smell after the adsorption treatment of the multi-stage active carbon net of the final effect filter.

The clean air purified by the final filter passes through a second static pressure section driven by the fan and then is discharged out of the machine through the air outlet, so that the air purification treatment process is completed; through the second static pressure section, the process that clean air is discharged out of the machine can be more uniform and more comfortable, the air consumption of the rear pipe section is reduced, and the noise in the process of discharging the air is reduced; namely, the second static pressure section can equalize wind speed, reduce wind consumption and reduce noise.

Similar devices in the general industry, the panels are all single-layer thin plates; and technical scheme's difference lie in, set up the top panel in the top cover plate outside, set up down the panel in the apron outside down, can be connected the inside electrical apparatus connecting wire of fuselage shell through the space between top cover plate and top panel, lower apron and top panel, solve the built-in potential safety hazard problem of crossing the line. The upper cover plate, the upper panel, the lower cover plate and the lower panel are all arranged by metal plates, so that the sound insulation and noise reduction effects can be achieved, and the machine body is firmer and more attractive in appearance.

Finally, the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting, and other modifications or equivalent replacements made by the technical solutions of the present invention by those of ordinary skill in the art should be covered within the scope of the claims of the present invention as long as they do not depart from the spirit and scope of the technical solutions of the present invention.

Claims (7)

1. A horizontal compound odour removal device which is characterized in that: the device comprises a machine body shell, a left U shell arranged at the left end of the machine body shell, a right U shell arranged at the right end of the machine body shell, an upper cover plate and a lower cover plate, wherein the upper cover plate and the lower cover plate are arranged between the left U shell and the right U shell;

the air outlet is arranged on the left U shell and communicated with the inside of the machine body shell, the air inlet is arranged on the right U shell and communicated with the inside of the machine body shell, the first fixing claw is arranged at the lower end of the outer side wall of the left U shell, the second fixing claw is arranged at the lower end of the outer side wall of the right U shell, the upper panel is arranged at the top of the upper cover plate, and the lower panel is arranged at the bottom of the lower cover plate;

the multifunctional sterilizing machine further comprises a buffer section, a primary filtering section, a UV sterilizing lamp module, a medium-efficiency filter, a first static pressure section, a final-efficiency filter, a power section and a second static pressure section which are sequentially arranged inside the machine body shell from right to left.

2. A horizontal compound odor removal device as defined in claim 1, wherein: the primary filtering section is a primary filter.

3. A horizontal compound odor removal device as defined in claim 2, wherein: the UV germicidal lamp module is arranged on the inner wall of the upper cover plate.

4. A horizontal compound odor removal device as defined in claim 3, wherein: the middle-effect filter is arranged by adopting a plurality of stages of activated carbon filter layers.

5. A horizontal compound odor removal device as defined in claim 4, wherein: the first static pressure section includes a plasma module.

6. A horizontal compound odor removal device as defined in claim 5, wherein: the final filter is arranged by adopting a plurality of stages of activated carbon filter layers.

7. A horizontal compound odor removal device as defined in claim 6, wherein: the power section is a fan, a fan bottom supporting plate matched with the fan is arranged on the bottom wall of the machine body shell, and the air outlet end of the fan is communicated with the second static pressure section.

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