CN218249515U - High-efficiency nano catalytic deodorization equipment - Google Patents

Abstract

The utility model provides a high-efficient nanometer catalysis deodorization equipment relates to foul gas treatment technical field, the power distribution box comprises a box body, the inside of box is installed through installation mechanism and is used for filtering deodorant nanometer photocatalysis module and ultraviolet tube, and ultraviolet tube is located nanometer photocatalysis module's front end respectively. The utility model discloses well user is interconnect between nanometer photocatalysis module and ultraviolet tube and the block, then block the inside of support frame into the block card, then along with the removal of block, let the block can extrude spacing, let spacing use the dead lever as the axle center to rotate, thereby realize that spacing upper end is fixed a position between the block, replace the bolt to nanometer photocatalysis module and ultraviolet tube installation work, thereby both can improve the user and also be convenient for the later stage user to dismantle the change to it to nanometer photocatalysis module and ultraviolet tube's installation effectiveness, user's work efficiency has been improved greatly.

Description

High-efficiency nano catalytic deodorization equipment

Technical Field

The utility model relates to a foul gas handles technical field, particularly, relates to high-efficient nanometer catalysis deodorization equipment.

Background

High-efficient nanometer catalysis deodorization equipment is a long son that is used for carrying out deodorization filtering to waste gas, generally all be used for oil refining, chemical industry, trades such as pharmacy and environmental protection, be used for reducing the harm that waste gas led to the fact environment and human body, but when using high-efficient nanometer catalysis deodorization equipment, because its inside deodorization part, all install work through the bolt like ultraviolet fluorescent tube and nanometer photocatalysis module etc, cause when using for a long time nanometer catalysis deodorization equipment, can make the bolt, ultraviolet fluorescent tube and nanometer photocatalysis module etc. produce the erosion damage of different degrees, thereby cause the later stage at the user when needs change ultraviolet fluorescent tube and nanometer photocatalysis module, because the erosion of bolt causes user's dismantlement inefficiency, greatly increased the user to ultraviolet fluorescent tube and nanometer photocatalysis module's the change degree of difficulty.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main aim at provides high-efficient nanometer catalysis deodorization equipment, can effectively solve the problem in the background art.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the efficient nano-catalysis deodorization equipment comprises a box body, wherein a nano-photocatalysis module and an ultraviolet lamp tube for filtering and deodorizing are arranged in the box body through an installation mechanism, and the ultraviolet lamp tube is respectively positioned at the front end of the nano-photocatalysis module;

and a sealing door is arranged on one side of the box body through a hinge and used for sealing and protecting the inside of the box body.

Preferably, the inside of the box body is provided with a guide groove, and the upper end of the guide groove is provided with a shutter;

the upper end and the lower end of the inside of the guide groove are respectively provided with a nano photocatalysis module and an ultraviolet lamp tube through an installing mechanism, and the nano photocatalysis module is parallel to the ultraviolet lamp tube.

Preferably, the lower end of the inside of the guide groove is provided with an air inlet in a penetrating manner, and a filter screen for filtering dust and impurities contained in the air is arranged in the air inlet;

the fan is installed to the inside lower extreme of guiding groove, and the fan is used for improving the flow efficiency of the inside air of guiding groove.

Preferably, the mounting mechanism comprises support frames, the support frames are respectively fixedly mounted on two sides in the guide groove, and the support frames are in one-to-one correspondence and are parallel to each other;

the inside of support frame is the block respectively and is installed the block, installs nanometer photocatalysis module and ultraviolet tube between the block that is parallel to each other respectively, and is parallel to each other between the ultraviolet tube.

Preferably, grooves are respectively formed in one side of the interior of the supporting frame, limiting frames are respectively movably arranged in the grooves in a penetrating mode, fixing rods are respectively fixedly arranged in the grooves, and the limiting frames are respectively arranged on the outer sides of the rod bodies of the fixing rods in a penetrating mode in an interactive mode;

the limiting frame is connected with the clamping block in a clamping mode.

Preferably, a sealing gasket is arranged on one side of the sealing door close to the box body, and the sealing gasket is clamped and arranged inside the guide groove and used for sealing the guide groove;

magnets are respectively arranged in the sealing door and the box body, and the magnets are magnetically attracted with each other;

and a handle is arranged on one side of the sealing door.

(1) The utility model discloses well user is interconnect between nanometer photocatalysis module and ultraviolet tube and the block, then block card income support frame's inside, thereby fix a position the position of block and nanometer photocatalysis module and ultraviolet tube, then along with the removal of block, let the block can extrude spacing, let spacing use the dead lever to rotate as the axle center, thereby realize fixing a position between the block in spacing upper end, replace the bolt to carry out installation work to nanometer photocatalysis module and ultraviolet tube, thereby both can improve the user and also be convenient for the later stage user to dismantle the change to it to the installation effectiveness of nanometer photocatalysis module and ultraviolet tube, user's work efficiency has been improved greatly.

(2) The utility model discloses in come to carry out sealed work between guiding groove and sealing door through sealed the pad to having avoided when carrying out deodorization to waste gas, having produced the condition of gas leakage, improving the deodorant efficiency of waste gas, and having protected filtering work through shutter and filter screen, the inside of having avoided external large-scale impurity or dust etc. to get into the guiding groove causes the damage to nanometer photocatalysis module, better protects it, improves holistic life.

Drawings

FIG. 1 is a schematic view of the overall structure of the high-efficiency nano-catalytic deodorizing apparatus of the present invention;

FIG. 2 is a schematic view of the structure of the high-efficiency nano-catalytic deodorizing apparatus according to the present invention;

FIG. 3 isbase:Sub>A schematic view of the cross-sectional structure at A-A in FIG. 2 of the high-efficiency nano-catalytic deodorizing apparatus of the present invention;

FIG. 4 is a schematic cross-sectional view taken along line B-B of the high-efficiency nano-catalytic deodorizing apparatus of the present invention shown in FIG. 2;

fig. 5 is an enlarged schematic structural diagram of C in fig. 3 of the high-efficiency nano-catalytic deodorizing apparatus of the present invention.

In the figure: 1. a box body; 2. a sealing door; 3. a blind window; 4. a gasket; 5. a handle; 6. a guide groove; 7. an installation mechanism; 701. a support frame; 702. a groove; 703. a clamping block; 704. a limiting frame; 705. a fixing rod; 8. a magnet; 9. a nano-photocatalytic module; 10. an ultraviolet lamp tube; 11. a fan; 12. an air inlet; 13. and (5) filtering the screen.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

As shown in fig. 1 and 3, the high-efficiency nano-catalysis deodorization device comprises a box body 1, wherein a nano-photocatalysis module 9 and an ultraviolet lamp 10 for filtering and deodorization are installed in the box body 1 through an installation mechanism 7, and the ultraviolet lamp 10 is respectively positioned at the front end of the nano-photocatalysis module 9; sealing door 2 is installed through the hinge in one side of box 1, and sealing door 2 is used for carrying out sealed protection to the inside of box 1.

As shown in fig. 3, when the device is specifically installed, a guide groove 6 is arranged in the box body 1, and a louver 3 is installed at the upper end of the guide groove 6; the upper end and the lower end of the inside of the guide groove 6 are respectively provided with a nano photocatalytic module 9 and an ultraviolet lamp tube 10 through an installation mechanism 7, the nano photocatalytic module 9 is parallel to the ultraviolet lamp tube 10, the lower end of the inside of the guide groove 6 is provided with an air inlet 12 in a penetrating manner, and a filter screen 13 for filtering dust and impurities contained in the air is arranged in the air inlet 12; a fan 11 is installed at the inner lower end of the guide groove 6, and the fan 11 is used to improve the flow efficiency of the air inside the guide groove 6.

The fan 11 sucks external waste gas into the guide groove 6 through the air inlet 12, meanwhile, the moving efficiency of the waste gas in the guide groove 6 is improved, then the waste gas entering the guide groove 6 is processed through the nano photocatalytic modules 9 and the ultraviolet lamp tube 10, and finally, the processed air flow is discharged through the upper end of the guide groove 6;

the louver 3 and the air inlet 12 are used for isolating various external large impurities or dust, so that the various external impurities or dust are prevented from entering the inside of the guide groove 6 and being retained on the surfaces of the nano-photocatalytic module 9 and the ultraviolet lamp tube 10, and the nano-photocatalytic module 9 and the ultraviolet lamp tube 10 cannot work normally.

As shown in fig. 3 and 5, in a specific arrangement, the mounting mechanism 7 includes support frames 701, the support frames 701 are respectively fixedly mounted on two sides of the interior of the guide slot 6, and each support frame 701 corresponds to and is parallel to each other; clamping blocks 703 are respectively clamped and installed inside the support frame 701, the nano photocatalytic module 9 and the ultraviolet lamp tube 10 are respectively installed between the clamping blocks 703 which are parallel to each other, the ultraviolet lamp tubes 10 are parallel to each other, grooves 702 are respectively arranged on one side inside the support frame 701, limiting frames 704 are respectively movably installed inside the grooves 702 in a penetrating mode, fixing rods 705 are respectively fixedly installed inside the grooves 702, and the limiting frames 704 are respectively installed on the outer sides of the rods of the fixing rods 705 in a penetrating mode; the limiting frame 704 is connected with the clamping block 703 in a clamping manner.

The user replaces objects such as bolts and the like with the mounting mechanism 7 to rapidly mount the nano photocatalytic module 9 and the ultraviolet lamp tube 10, so that the mounting efficiency of the user can be improved, and the user can rapidly detach and replace the nano photocatalytic module 9 and the ultraviolet lamp tube 10 in the later period, so that the operation is more rapid;

and after the block 703 drives the nano-photocatalytic module 9 and the ultraviolet lamp tube 10 to be clamped into the inside of the support frame 701 respectively, the positioning of the limiting frame 704 and the sealing door 2 drive the sealing gasket 4 and the extrusion between the nano-photocatalytic module 9 and the ultraviolet lamp tube 10 to be limited, so that the stability of the nano-photocatalytic module 9 and the ultraviolet lamp tube 10 is ensured, the nano-photocatalytic module does not shake during the working process, and the waste gas is deodorized and processed more stably.

As shown in fig. 4, in specific setting, a sealing gasket 4 is installed on one side of the sealing door 2 close to the box body 1, and the sealing gasket 4 is installed inside the guiding groove 6 in a clamping manner and used for sealing the guiding groove 6; magnets 8 are respectively arranged in the sealing door 2 and the box body 1, and the magnets 8 are attracted magnetically; a handle 5 is installed at one side of the sealing door 2.

The sealing gasket 4 is used for sealing between the sealing door 2 and the guide groove 6, so that the situation that waste gas leaks when moving in the guide groove 6 is avoided, the waste gas is prevented from flowing between the nano photocatalytic module 9 and the ultraviolet lamp tube 10 and the sealing door 2, and the efficiency of deodorizing the waste gas by the nano photocatalytic module 9 and the ultraviolet lamp tube 10 is improved;

and through the magnetic attraction between the magnets 8, the user can open or close the sealing door 2 quickly, and the sealing door is more convenient and faster.

When the device is used, firstly, a user drives the nano photocatalytic module 9 and the ultraviolet lamp tube 10 to be clamped into the support frame 701 by the clamping block 703 respectively, and then the clamping block 703 extrudes the limiting frame 704 along with the continuous movement of the clamping block 703, so that the limiting frame 704 rotates by taking the fixed rod 705 as an axis, and the clamping block 703, the nano photocatalytic module 9 and the ultraviolet lamp tube 10 are positioned;

then, after the nano photocatalytic module 9 and the ultraviolet lamp tube 10 are installed, a user closes the sealing door 2 through the handle 5, and the sealing gasket 4 is enabled to be attached and sealed between the guide groove 6 and the nano photocatalytic module 9 and the ultraviolet lamp tube 10;

then fan 11 is through air inlet 12 thereby to inhale outside waste gas the inside of guiding groove 6, improves the mobility efficiency of waste gas in guiding groove 6 inside simultaneously, then gets into the inside waste gas of guiding groove 6 and handles processing through a plurality of nanometer photocatalysis module 9 and ultraviolet tube 10, and the air current after handling the completion at last then can discharge through the upper end of guiding groove 6.

Obviously, the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention, and it is obvious for those skilled in the art to make other variations or changes based on the above descriptions, and all embodiments cannot be exhausted here, and all obvious variations or changes introduced by the technical solution of the present invention are still within the protection scope of the present invention.

Claims (6)

1. High-efficient nanometer catalysis deodorization equipment, including box (1), its characterized in that: a nano-photocatalysis module (9) and an ultraviolet lamp tube (10) for filtering and deodorizing are arranged in the box body (1) through an installation mechanism (7), and the ultraviolet lamp tube (10) is respectively positioned at the front end of the nano-photocatalysis module (9);

sealing door (2) are installed through the hinge in one side of box (1), and sealing door (2) are used for sealing up the inside of box (1).

2. The high efficiency nanocatalyst deodorization device as recited in claim 1, further comprising: a guide groove (6) is formed in the box body (1), and a blind window (3) is installed at the upper end of the guide groove (6);

the upper end and the lower end of the interior of the guide groove (6) are respectively provided with a nano-photocatalysis module (9) and an ultraviolet lamp tube (10) through an installation mechanism (7), and the nano-photocatalysis module (9) is parallel to the ultraviolet lamp tube (10).

3. The high efficiency nano-catalytic deodorizing apparatus according to claim 2, wherein: an air inlet (12) penetrates through the lower end of the inner part of the guide groove (6), and a filter screen (13) for filtering dust and impurities contained in air is arranged in the air inlet (12);

the fan (11) is installed to the inside lower extreme of guiding groove (6), and fan (11) are used for improving the flow efficiency of guiding groove (6) inside air.

4. The high efficiency nanocatalyst deodorization device as recited in claim 1, further comprising: the mounting mechanism (7) comprises support frames (701), the support frames (701) are respectively fixedly mounted at two sides of the interior of the guide groove (6), and the support frames (701) are in one-to-one correspondence and are parallel to each other;

the inside of the support frame (701) is respectively provided with clamping blocks (703) in a clamping way, the clamping blocks (703) which are parallel to each other are respectively provided with a nano photocatalytic module (9) and an ultraviolet lamp tube (10), and the ultraviolet lamp tubes (10) are parallel to each other.

5. The high efficiency nanocatalyst deodorization device as recited in claim 4, wherein: grooves (702) are respectively formed in one side of the interior of the supporting frame (701), limiting frames (704) are respectively movably installed in the grooves (702) in a penetrating mode, fixing rods (705) are respectively fixedly installed in the grooves (702), and the limiting frames (704) are respectively installed on the outer sides of the rod bodies of the fixing rods (705) in a penetrating mode in an interactive mode;

the limiting frame (704) is connected with the clamping block (703) in a clamping manner.

6. The high efficiency nanocatalyst deodorization device as recited in claim 1, further comprising: a sealing gasket (4) is arranged on one side, close to the box body (1), of the sealing door (2), and the sealing gasket (4) is clamped and arranged inside the guide groove (6) and used for sealing the guide groove (6);

magnets (8) are respectively arranged inside the sealing door (2) and the box body (1), and the magnets (8) are attracted magnetically;

and a handle (5) is installed on one side of the sealing door (2).

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