CN209909621U - Multifunctional VOC (volatile organic compound) absorption lighting device - Google Patents

Abstract

The utility model discloses a multi-functional VOC absorbs lighting device, including air-collecting cover and VOC absorbing device, VOC absorbing device is located the top of air-collecting cover, VOC absorbing device with be connected through a plurality of junctures between the air-collecting cover, the bottom of air-collecting cover is provided with the wind gap, the air-collecting cover lower extreme just is located the both sides in wind gap all are connected with UV circular lamp shade one, the bottom of UV circular lamp shade one all is provided with UV circular lamp shade two, all be provided with light one on the reflecting plate in UV circular lamp shade one, all be provided with light two on the reflecting plate in UV circular lamp shade two, the bottom of air-collecting cover be provided with wind gap matched with baffle device. Has the advantages that: the effect of simultaneous illumination is achieved under the condition of effectively improving the emission rate, the environments of a printing workshop and a factory are obviously improved, and the physical health of workers is guaranteed.

Description

Multifunctional VOC (volatile organic compound) absorption lighting device

Technical Field

The utility model relates to a printing technology field particularly, relates to a multi-functional VOC absorbs lighting device.

Background

VOCs are acronyms for volatile organic compounds (volatile organic compounds). VOCs in the general sense are commanding organic matters; but the definition in the environmental protection sense refers to an active class of volatile organic compounds, namely, volatile organic compounds which can cause harm. The waste gas of the printing industry mainly comes from the volatilization of organic solvents such as printing ink and the like in the printing process, the total content of volatile components emitted by the printing ink accounts for 70-80%, and organic gases such as ethanol, ethyl acetate, butyl acetate, propyl acetate, toluene, xylene and the like are volatilized and discharged. These gases not only pollute the atmosphere, but also pose a health hazard to humans. The printing environment needs to be illuminated and the generated VOC gas is completely discharged, the equipment on the current market only has an illumination function, and if the VOC gas needs to be treated, separate equipment is needed, so that the space is wasted, and the integrated illumination equipment needs to be illuminated under the condition of improving the discharge rate, so that the multifunctional VOC absorption illumination device is needed.

An effective solution to the problems in the related art has not been proposed yet.

SUMMERY OF THE UTILITY MODEL

To the problem among the correlation technique, the utility model provides a multi-functional VOC absorbs lighting device to overcome the above-mentioned technical problem that current correlation technique exists.

Therefore, the utility model discloses a specific technical scheme as follows:

the utility model provides a multi-functional VOC absorbs lighting device, includes air-collecting cover and VOC absorbing device, VOC absorbing device is located the top of air-collecting cover, VOC absorbing device with be connected through a plurality of junctures between the air-collecting cover, the bottom of air-collecting cover is provided with the wind gap, the air-collecting cover lower extreme just is located the both sides in wind gap all are connected with UV circular lamp shade one, the bottom of UV circular lamp shade one all is provided with UV circular lamp shade two, all be provided with light one on the reflecting plate in UV circular lamp shade one, all be provided with light two on the reflecting plate in UV circular lamp shade two, the bottom of air-collecting cover be provided with wind gap matched with baffle device.

Furthermore, an air detector is arranged on one side of the air collecting cover.

Further, the first illuminating lamp is an infrared illuminating lamp tube, the second illuminating lamp is an ultraviolet lamp tube, and the infrared illuminating lamp tube and the ultraviolet lamp tube are both coated with titanium dioxide nanometer material layers.

Furthermore, a plurality of negative ion generators are arranged between the second illuminating lamps.

Further, the baffle device is including being located the slide rail at wind-collecting cover bottom both ends, the one end of slide rail is provided with places the frame, the inside of placing the frame is provided with micro motor one and micro motor two respectively, the slide rail is kept away from place the inside toughness deep bead and the toughness dust screen that cooperatees respectively of one end of frame, the bottom of toughness deep bead and toughness dust screen all is provided with automatic spool spare, the connecting piece at toughness deep bead both ends with it cooperatees through the hawser to connect between the epaxial rotation wheel of micro motor output, toughness dust screen both ends the connecting piece with it cooperatees through the hawser to connect between the epaxial rotation wheel of two output shafts of micro motor.

The utility model provides a multi-functional VOC absorbs lighting device, beneficial effect as follows: the utility model discloses a VOC absorbing device can fully absorb volatile organic gases such as benzene, toluene, xylol, acetone, butanone, lipids, ethers in the workshop air. Low energy consumption, economy, applicability, convenient maintenance and good treatment effect. The adsorption air quantity is greatly improved, the waste gas treatment effect is obviously improved, the purification efficiency is effectively improved, and the VOC operation and maintenance cost is reduced. The concentration of organic gas in a production workshop is remarkably reduced, and the VOC absorption illuminating equipment integrated with the first illuminating lamp, the second illuminating lamp and the VOC absorption device in the illuminating device is combined, so that the effect of simultaneous illumination is achieved under the condition of effectively improving the emission rate, the environments of the printing workshop and a factory are obviously improved, and the physical health of workers is guaranteed.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of a multifunctional VOC-absorbing lighting device according to an embodiment of the present invention;

fig. 2 is a bottom view of a vent of a multifunctional VOC absorption lighting device according to an embodiment of the present invention;

fig. 3 is a schematic view of a baffle device of a multifunctional VOC-absorbing lighting device according to an embodiment of the present invention.

In the figure:

1. a wind collecting cover; 2. a VOC absorption device; 3. a connecting section; 4. a tuyere; 5. a first UV circular lampshade; 6. a UV circular lampshade II; 7. a first illuminating lamp; 8. a second lighting lamp; 9. a baffle device; 10. an air detector; 11. a negative ion generator; 12. a slide rail; 13. placing the frame; 14. a first micro motor; 15. a second micro motor; 16. a tough wind shield; 17. a tough dust-proof net; 18. an automatic reel member; 19. a connecting member.

Detailed Description

For further explanation of the embodiments, the drawings are provided as part of the disclosure and serve primarily to illustrate the embodiments and, together with the description, to explain the principles of operation of the embodiments, and to provide further explanation of the invention and advantages thereof, it will be understood by those skilled in the art that various other embodiments and advantages of the invention are possible, and that elements in the drawings are not to scale and that like reference numerals are generally used to designate like elements.

According to the utility model discloses an embodiment provides a multi-functional VOC absorbs lighting device.

The first embodiment is as follows:

as shown in fig. 1-3, according to the utility model discloses multi-functional VOC absorbs lighting device, including wind-collecting cover 1 and VOC absorbing device 2, VOC absorbing device 2 is located the top of wind-collecting cover 1, VOC absorbing device 2 with be connected through a plurality of junctures 3 between the wind-collecting cover 1, the bottom of wind-collecting cover 1 is provided with wind gap 4, wind-collecting cover 1 lower extreme just is located the both sides of wind gap 4 all are connected with UV circular lamp cover one 5, the bottom of UV circular lamp cover one 5 all is provided with UV circular lamp cover two 6, all be provided with light one 7 on the reflecting plate in UV circular lamp cover one 5, all be provided with light two 8 on the reflecting plate in UV circular lamp cover two 6, the bottom of wind-collecting cover 1 be provided with wind gap 4 matched with baffle device 9.

The following description specifically refers to the specific arrangement and function of the air collecting cover 1, the VOC absorbing device 2, the air inlet 4, the first illuminating lamp 7, the second illuminating lamp 8 and the baffle device 9.

As shown in fig. 1-3, the baffle device 9 is opened to enable the VOC absorption device 2 to absorb VOC gas in the air opening 4 of the air collecting cover 1, and the first illuminating lamp 7 and the second illuminating lamp 8 in the illuminating device are combined with the VOC absorption illuminating device integrated with the VOC absorption device 2, so that the emission rate is effectively improved, the effect of simultaneous illumination is achieved, the space is effectively saved, and the emission rate is improved.

VOC absorbing device 2 is combined type light oxygen catalysis exhaust-gas treatment equipment, and combined type light oxygen catalysis exhaust-gas treatment equipment comprises bag collector, UV light oxidation host computer, photocatalyst net and active carbon filter screen, and bag collector: the front end of the composite photo-oxidation catalytic waste gas treatment device adopts a cloth bag type middle-effect dust remover to collect dust particles in a printing workshop. UV photooxidation host computer: the product adopts high-energy C-band light to cut, break and crack molecular chains of waste gas, so as to change the molecular structure. The exhaust gas molecules are catalyzed and oxidized by double-waveband 185+254 wave band light, the damaged molecules or neutrons and atoms are combined with O3, organic or inorganic polymer malodorous compound molecular chains are converted into low molecular compounds CO2 and H2O in the catalytic and oxidation process, the exhaust gas is cracked for the second time by single-waveband 185 light, and ozone is decomposed at the same time. A photocatalyst net: through the decomposition effect of photocatalyst net to formaldehyde and organic waste gas, promote the purification efficiency of equipment greatly. The substrate used in the environmental-friendly photocatalyst filter screen used by the company is a honeycomb aluminum substrate, which can be used for a long time without any treatment. An activated carbon filter screen: the environment-friendly activated carbon filter screen is used as the last line of defense of the equipment and is used for absorbing a small amount of residual waste gas, and the filter screen is different from the traditional activated carbon particles, is environment-friendly and clean and does not produce secondary pollution. The purification efficiency of the combined type UV photooxidation waste gas treatment equipment exceeds 80%, and the equipment is high in cleaning, environmental protection and safety, and is the most ideal equipment for treating the printing waste gas at present.

Example two:

as shown in fig. 1 to 3, an air detector 10 is disposed on one side of the air collection cover 1. The first illuminating lamp 7 is an infrared illuminating lamp tube, the second illuminating lamp 8 is an ultraviolet lamp tube, and titanium dioxide nanometer material layers are coated on the infrared illuminating lamp tube and the ultraviolet lamp tube. A plurality of negative ion generators 11 are arranged between the second illuminating lamps 8. The infrared lamp tube of the first illuminating lamp 7 dries common solvent type ink, the solvent is volatilized through infrared drying, the ultraviolet lamp tube of the second illuminating lamp 8 dries UV dry ink, and the negative ion generator 11 effectively purifies air.

As shown in fig. 1-3, the baffle device 9 includes slide rails 12 located at two ends of the bottom of the wind collecting cover 1, a placing frame 13 is arranged at one end of each slide rail 12, a first micro motor 14 and a second micro motor 15 are respectively arranged inside the placing frame 13, a flexible wind shield 16 and a flexible dust-proof net 17 are respectively arranged inside one end of each slide rail 12 away from the placing frame 13 in a matching manner, automatic reel members 18 are respectively arranged at the bottoms of the flexible wind shield 16 and the flexible dust-proof net 17, connecting members 19 at two ends of the flexible wind shield 16 are connected with rotating wheels on an output shaft of the first micro motor 14 in a matching manner through cables, and the connecting members 19 at two ends of the flexible dust-proof net 17 are connected with rotating wheels on an output shaft of the second micro motor 15 in a matching manner through cables. It can be seen from the above design that, the flexible wind deflector 16 seals or separates dust at the air inlet 4 under the movement of the first micro motor 14 and the flexible dust-separating net 17 at the second micro motor 15, so that the flexible wind deflector 16 closes the air inlet when the absorbing and illuminating device is not in use, the flexible dust-separating net 17 can block dust during printing operation, so as to prevent the dust from entering the VOC absorbing device 2, and the adjustment of the air inlet by the sliding of the flexible wind deflector 16 and the flexible dust-separating net 17 in the sliding rail 12 is completed under the cooperation of the automatic rolling member 18, the first micro motor 14 and the second micro motor 15.

To sum up, with the aid of the above technical scheme of the utility model, can fully absorb volatile organic gas such as benzene, toluene, xylol, acetone, butanone, lipids, ethers in the workshop air through VOC absorbing device 2. Low energy consumption, economy, applicability, convenient maintenance and good treatment effect. The adsorption air quantity is greatly improved, the waste gas treatment effect is obviously improved, the purification efficiency is effectively improved, and the VOC operation and maintenance cost is reduced. The concentration of organic gas in a production workshop is remarkably reduced, and the VOC absorption lighting equipment integrated with the first lighting lamp 7, the second lighting lamp 8 and the VOC absorption device 2 in the lighting device is combined, so that the effect of lighting at the same time is achieved under the condition of effectively improving the emission rate, the environments of the printing workshop and a factory are obviously improved, and the physical health of workers is guaranteed.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. A multifunctional VOC absorbing illumination device is characterized by comprising an air collecting cover (1) and a VOC absorbing device (2), the VOC absorbing device (2) is positioned above the wind collecting cover (1), the VOC absorbing device (2) is connected with the wind collecting cover (1) through a plurality of connecting joints (3), an air inlet (4) is formed in the bottom of the air collecting cover (1), UV circular lamp covers (5) are connected to the lower end of the air collecting cover (1) and located on two sides of the air inlet (4), the bottom ends of the UV round lamp covers (5) are respectively provided with a UV round lamp cover II (6), a first illuminating lamp (7) is arranged on the reflecting plate in the first UV circular lampshade (5), a second illuminating lamp (8) is arranged on the reflecting plate in the second UV circular lampshade (6), and a baffle device (9) matched with the air port (4) is arranged at the bottom of the air collecting cover (1).

2. The multifunctional VOC absorbing illumination device as claimed in claim 1, wherein an air detector (10) is disposed at one side of said air collection cover (1).

3. The multifunctional VOC absorbing lighting device as claimed in claim 1, wherein said first lighting lamp (7) is an infrared lighting lamp, said second lighting lamp (8) is an ultraviolet lamp, and said infrared lighting lamp and said ultraviolet lamp are coated with a layer of titanium dioxide nano material.

4. The multifunctional VOC absorbing illumination device as claimed in claim 1, wherein a plurality of anion generators (11) are arranged between said two illumination lamps (8).

5. The multifunctional VOC absorbing lighting device as claimed in claim 1, wherein said baffle device (9) comprises slide rails (12) at two ends of the bottom of said wind collecting cover (1), a placing frame (13) is disposed at one end of said slide rails (12), a first micro motor (14) and a second micro motor (15) are disposed inside said placing frame (13), a flexible wind shield (16) and a flexible dust screen (17) are disposed inside one end of said slide rails (12) away from said placing frame (13), an automatic rolling component (18) is disposed at the bottom of each of said flexible wind shield (16) and said flexible dust screen (17), a connecting component (19) at two ends of said flexible wind shield (16) is connected with a rotating wheel on the output shaft of said first micro motor (14) by a cable, and said connecting component (19) at two ends of said flexible dust screen (17) is connected with a rotating wheel on the output shaft of said second micro motor (15) by a cable The wheels are connected in a matching way through cables.

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