CN112275087A - Desorption assembly devices is inhaled to organic waste gas with adjustable multi-angle - Google Patents

Abstract

The invention relates to the technical field of organic waste gas treatment devices, in particular to a multi-angle adjustable organic waste gas adsorption and desorption assembly mechanism which comprises a main reaction box body, a top air inlet pipe fixed at an opening position at the upper end of the main reaction box body and a bottom air outlet pipe fixed at an opening position at the lower end of the main reaction box body. According to the multi-angle adjustable organic waste gas adsorption and desorption assembly mechanism, the internal installation frames with the built-in internal support plates are installed inside the main reaction box body, the lateral telescopic through holes with the built-in elastic telescopic rods and the middle telescopic through holes with the built-in manual stretching rods are formed in the front ends of the internal support plates, the installation angles of the internal support plates are supported and fixed through the elastic telescopic rods, meanwhile, the manual stretching rods are used for driving the transverse linkage control plates to control the internal reaction blocks to translate on the upper surfaces of the internal support plates, so that the internal reaction blocks are convenient to assemble and disassemble, and the operation mode is simple.

Description

Desorption assembly devices is inhaled to organic waste gas with adjustable multi-angle

Technical Field

The invention relates to the technical field of organic waste gas treatment devices, in particular to a multi-angle adjustable organic waste gas adsorption and desorption assembly mechanism.

Background

The main equipment in the prior desorption system for treating the industrial volatile organic pollutants comprises a catalytic bed, wherein the catalytic bed is usually made of heat-resistant steel plates or industrial furnace brickwork materials to form an enclosure structure, an air inlet in the prior catalytic combustion bed structure and the enclosure structure often made of the heat-resistant steel plates or the industrial furnace brickwork materials are arranged at the upper end and the lower end of the catalytic combustion bed, but the prior catalytic bed has the following problems that 1, the adsorption and desorption materials in the catalytic combustion bed are mainly active carbon mechanisms, and the catalytic effect is limited when the highest temperature is 120 degrees; 2. meanwhile, organic waste adsorbed in the activated carbon cannot be completely desorbed, the desorption is not clean, and the desorption mode is single; 3. the adsorption and desorption materials are troublesome to assemble and disassemble.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: in order to solve the problem that exists among the above-mentioned background art, provide a desorption assembly devices is inhaled to organic waste gas with adjustable modified multi-angle, solve catalytic combustion bed inside on the market at present and inhale desorption material and mainly be active carbon, high temperature resistance can be poor, desorption mode is single, the desorption is unclean and inhale the trouble problem of desorption material loading and unloading.

The technical scheme adopted by the invention for solving the technical problems is as follows: a multi-angle adjustable organic waste gas adsorption and desorption assembly mechanism comprises a main reaction box body, a top air inlet pipe fixed at the upper end opening position of the main reaction box body and a bottom air outlet pipe fixed at the lower end opening position of the main reaction box body, wherein a plurality of horizontally arranged internal mounting frames are fixedly mounted in the main reaction box body, internal supporting plates are arranged in the internal mounting frames, internal reaction blocks made of zeolite molecular sieves are arranged on the upper surface of each internal supporting plate, lateral telescopic through holes with built-in elastic telescopic rods are formed in two sides of the front surface of each internal supporting plate, a middle telescopic through hole with a built-in manual control stretching rod is formed in the middle position of the front surface of each internal supporting plate, a front limiting through hole is formed in the inner side surface of each internal mounting frame corresponding to the position of each elastic telescopic rod, and a front operation opening is formed in the inner, the inner supporting plate is internally provided with a lower guide pipe communicated with the middle telescopic through hole, the upper end of the lower guide pipe is provided with a top adjusting opening, the manual control stretching rod is inserted into the lower guide pipe from the middle telescopic through hole and is movably connected with the lower guide pipe, the rear end of the upper surface of the manual control stretching rod is positioned at the inner side of the top adjusting opening and is fixedly welded with a top connecting block protruding upwards, and the upper surface of the top connecting block is provided with a transverse linkage control plate.

The inside movable mounting support of bellied integrative structure has forward on the inside wall of internally mounted frame rear side, inside backup pad rear side rearmounted assembly axle has, inside backup pad insert through rearmounted assembly axle correspond the position inside movable mounting support in with internally mounted frame swing joint.

The inner mounting frame front end medial surface be located leading spacing through-hole below and seted up leading assembly through-hole, inner mounting frame front end medial surface set up and be used for communicateing leading spacing through-hole and leading assembly through-hole indulge and put the guide way, indulge and put the guide way medial surface be located leading assembly through-hole and leading spacing through-hole between seted up indulge and put the mounting groove.

The inner wall of the rear side of the inner mounting frame is located below the inner supporting plate and provided with a bottom limiting plate protruding forwards, an inner adjusting screw hole with a built-in adjusting bolt is formed in the bottom limiting plate, and the upper surface of the adjusting bolt is fixedly connected with a top extrusion spring used for elastically supporting the inner supporting plate.

The inner supporting plate is internally provided with an internal ventilation opening internally provided with a metal supporting grid, and the upper surface of the inner supporting plate is positioned at the outer edge and is provided with a lateral containing groove of a square structure internally provided with an elastic limiting frame.

The elastic limiting frame is characterized in that an integrated L-shaped structure assembling support protruding forwards is arranged on the inner side face of the front end of the elastic limiting frame and the inner side face of the rear end of the elastic limiting frame, a lateral assembling clamping groove is formed in the inner side face of the lateral accommodating groove corresponding to the assembling support, and the elastic limiting frame is inserted into the lateral assembling clamping groove corresponding to the position through the assembling support and is elastically connected with the lateral accommodating groove.

The elastic telescopic rod comprises a lateral telescopic rod inserted into the lateral telescopic through hole, an inner limiting block axially fixed at the top end of the inner side of the lateral telescopic rod and an outer limiting block axially fixed at the top end of the outer side of the lateral telescopic rod, an inner extrusion hole matched with the inner limiting block is formed in the inner side surface of the lateral telescopic through hole, and a built-in extrusion spring is sleeved in the inner extrusion hole in the outer side of the lateral telescopic rod.

The invention has the beneficial effects that:

(1) according to the multi-angle adjustable organic waste gas adsorption and desorption assembly mechanism, the plurality of internal mounting frames with the built-in internal support plates are mounted inside the main reaction box body, the lateral telescopic through holes with the built-in elastic telescopic rods and the middle telescopic through holes with the built-in manual stretching rods are formed in the front ends of the internal support plates, the mounting angles of the internal support plates are supported and fixed through the elastic telescopic rods, and meanwhile, the manual stretching rods are used for driving the transverse linkage control plates to control the internal reaction blocks to translate on the upper surfaces of the internal support plates, so that the internal reaction blocks are convenient to mount and dismount, and the operation mode is simple;

(2) the recess is accomodate in the side direction of seting up the spacing frame of built-in elasticity in inside backup pad upper surface, can carry out spacing support to inside reaction piece edge in the outside, promotes putting stability of whole inside reaction piece, utilizes zeolite molecular sieve to replace traditional active carbon simultaneously, makes its high temperature resistance can show the promotion, and the desorption is more thoroughly high-efficient simultaneously.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is an internal sectional view of the internal mounting frame of the present invention.

Fig. 3 is a plan view of the inner mount frame of the present invention.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

FIG. 1, FIG. 2 and FIG. 3 show a multi-angle adjustable organic waste gas adsorption and desorption assembly mechanism, which comprises a main reaction box 1, a top gas inlet pipe 2 fixed at the upper end opening position of the main reaction box 1 and a bottom gas outlet pipe 3 fixed at the lower end opening position of the main reaction box 1, wherein 3 horizontally arranged inner installation frames 4 are fixedly installed inside the main reaction box 1, inner support plates 5 are respectively arranged inside the inner installation frames 4, inner reaction blocks 6 made of zeolite molecular sieves are arranged on the upper surfaces of the inner support plates 5, lateral telescopic through holes with built-in elastic telescopic rods are arranged on both sides of the front surface of the inner support plates 5, a middle telescopic through hole with a built-in manual stretching rod 7 is arranged in the front surface of the inner support plate 5, a front limiting through hole 8 is arranged on the inner side surface of the inner installation frame 4 corresponding to the position of the elastic telescopic rod, and a front operation port 9, the inside lower stand pipe 10 that is linked together with middle-placed flexible through-hole that offers of inside backup pad 5, the opening is adjusted at the top has been seted up to lower stand pipe 10 upper end, and manual tensile pole 7 is inserted the inside and lower stand pipe 10 swing joint of lower stand pipe 10 from middle-placed flexible through-hole, and the inboard welded fastening that is located the opening is adjusted at the top of manual tensile pole 7 upper surface rear end has upwards bellied top connecting block 11, and top connecting block 11 upper surface has horizontal linkage control panel 12.

Example (b): when people need to disassemble the internal reaction block 6, the elastic telescopic rod is pressed from outside to inside, and is pressed into the lateral telescopic through hole, so that the external limiting block 25 on the elastic telescopic rod is pressed away from the front assembling through hole 14, then the internal supporting plate 5 is turned downwards, and finally the internal supporting plate is supported by the bottom limiting plate 17 to form an inclined state with a low front part and a high back part, at this time, the internal reaction block 6 on the internal supporting plate 5 can slide out from the front end opening, the front end of the elastic limiting frame 21 needs to be pressed into the lateral accommodating groove 22, then the manual control stretching rod 7 can be pulled out forwards, the internal reaction block 6 is translated forwards by using the horizontal linkage control plate 12, and the internal reaction block 6 deep inside can be conveniently moved forwards; when the reaction device is installed, the external limiting block 25 is pressed away from the front assembling through hole 14, then the internal support plate 5 is turned upwards, the external limiting block 25 is inserted into the front limiting through hole 8, a structure with a high front part and a low rear part is formed, and therefore the internal reaction block 6 slides backwards due to gravity as long as the internal reaction block is swung to the upper surface of the internal support plate 5 from the front end opening.

The front surface of the main reaction box body 1 is positioned at the upper end and the lower end of the internal installation frame 4 and is provided with a front loading and unloading port matched with the internal reaction block 6 for installation and disassembly, and an external sealing cover plate is arranged at the opening position outside the front loading and unloading port.

Further, in order to facilitate the rear movable assembly, the inner wall of the rear side of the inner mounting frame 4 is provided with a forward protruding integral structure inner movable mounting support 13, the rear side of the inner support plate 5 is provided with a rear mounting shaft, the inner support plate 5 is inserted into the corresponding position inner movable mounting support 13 through the rear mounting shaft and is movably connected with the inner mounting frame 4, furthermore, in order to improve the safety during adjustment while facilitating adjustment, the inner side face of the front end of the inner mounting frame 4 is positioned below the front limiting through hole 8 and is provided with a front mounting through hole 14, the inner side face of the front end of the inner mounting frame 4 is provided with a longitudinal guide groove 15 for communicating the front limiting through hole 8 with the front mounting through hole 14, and the inner side face of the longitudinal guide groove 15 is positioned between the front mounting through hole 14 and the front limiting through hole 8 and is provided with a longitudinal mounting groove 16.

Further, for the convenience of bottom sprag and regulation spacing, the inside wall of the rear side of the inner mounting frame 4 is located the inside backup pad 5 below and has a bottom limiting plate 17 protruding forward, the inside regulation screw hole of seting up built-in adjusting bolt 18 inside the bottom limiting plate 17, fixed surface is connected with the top extrusion spring 19 that is used for the inside backup pad 5 of elastic support on the adjusting bolt 18, furthermore, for the convenience of bottom ventilation and promotion side direction anti-loosening nature, the inside ventilative mouth of built-in metal support grid 20 is seted up to inside backup pad 5 inside, the inside backup pad 5 upper surface is located the outside edge position and has seted up the mouth style of calligraphy structure side direction storage groove 22 of built-in elastic spacing frame 21.

Furthermore, in order to facilitate the assembly, the inner side surface of the front end and the inner side surface of the rear end of the elastic limit frame 21 are respectively provided with an integrated L-shaped structural assembly bracket 23 protruding forwards, the inner side surface of the lateral accommodating groove 22 corresponding to the position of the assembly bracket 23 is respectively provided with a lateral assembly clamping groove, the elastic limit frame 21 is inserted into the lateral assembly clamping groove at the corresponding position through the assembly bracket 23 and is elastically connected with the lateral accommodating groove 22, further, in order to cooperate elastic expansion, convenient control, elastic expansion rod is including pegging graft at the side direction telescopic through-hole's side direction telescopic link 24, the inside stopper 25 and the outside stopper 26 of axial fixation on the 24 outside tops of side direction telescopic link of axial fixation on the 24 inboard tops of side direction telescopic link, the inside extrusion hole with inside stopper 25 matched with is seted up to the side direction telescopic through-hole medial surface, the 24 outside of side direction telescopic link is located inside extrusion hole and has been overlapped built-in extrusion spring 26.

According to the multi-angle adjustable organic waste gas adsorption and desorption assembly mechanism, the plurality of internal mounting frames 4 with the internal support plates 5 are mounted inside the main reaction box body 1, the front ends of the internal support plates 5 are provided with the lateral telescopic through holes with the built-in elastic telescopic rods and the middle telescopic through holes with the built-in manual stretching rods 7, the mounting angles of the internal support plates 5 are supported and fixed through the elastic telescopic rods, and meanwhile, the manual stretching rods 7 are used for driving the transverse linkage control plate 12 to control the internal reaction blocks 6 to translate on the upper surfaces of the internal support plates 5, so that the internal reaction blocks 6 are convenient to assemble and disassemble, and the operation mode is simple; the recess 22 is accomodate in the side direction of seting up built-in elasticity limit frame 21 on 5 upper surfaces of inside backup pad, can carry out spacing support to 6 edges of inside reaction piece in the outside, promotes putting of whole inside reaction piece 6 stability, utilizes zeolite molecular sieve to replace traditional active carbon simultaneously, makes its high temperature resistance can show the promotion, and the desorption is more thoroughly high-efficient simultaneously.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (7)

1. The utility model provides a desorption assembly devices is inhaled to organic waste gas with adjustable multi-angle, includes main reaction box (1), fixes top intake pipe (2) at main reaction box (1) upper end open position and fixes bottom outlet duct (3) at main reaction box (1) lower extreme open position, characterized by: a plurality of horizontally arranged internal mounting frames (4) are fixedly mounted inside the main reaction box body (1), internal support plates (5) are arranged inside the internal mounting frames (4), internal reaction blocks (6) made of zeolite molecular sieves are arranged on the upper surfaces of the internal support plates (5), lateral telescopic through holes with built-in elastic telescopic rods are formed in two sides of the front surface of each internal support plate (5), a middle telescopic through hole with a built-in manual control stretching rod (7) is formed in the middle position of the front surface of each internal support plate (5), a front limiting through hole (8) is formed in the inner side surface of each internal mounting frame (4) corresponding to the position of each elastic telescopic rod, a front operation opening (9) is formed in the inner side surface of each internal mounting frame (4) positioned in the front limiting through hole (8), a lower guide pipe (10) communicated with the middle telescopic through hole is formed in each internal support plate (5), the upper end of the lower guide pipe (10) is provided with a top adjusting opening, the manual stretching rod (7) is inserted into the lower guide pipe (10) from the middle telescopic through hole and movably connected with the lower guide pipe (10), the rear end of the upper surface of the manual stretching rod (7) is positioned on the inner side of the top adjusting opening and is fixedly welded with a top connecting block (11) protruding upwards, and the upper surface of the top connecting block (11) is provided with a transverse linkage control plate (12).

2. The multi-angle adjustable organic waste gas adsorption and desorption assembly mechanism as claimed in claim 1, which is characterized in that: inside movable mounting support (13) of bellied body structure forward has on inside wall of internally mounted frame (4) rear side, inside backup pad (5) rear side rearmounted assembly axle has, inside backup pad (5) insert through rearmounted assembly axle correspond in the inside movable mounting support (13) of position with internally mounted frame (4) swing joint.

3. The multi-angle adjustable organic waste gas adsorption and desorption assembly mechanism as claimed in claim 1, which is characterized in that: interior mounting frame (4) front end medial surface be located leading spacing through-hole (8) below and seted up leading assembly through-hole (14), interior mounting frame (4) front end medial surface offer and be used for communicateing leading spacing through-hole (8) and leading assembly through-hole (14) indulge and put guide way (15), indulge and put guide way (15) medial surface be located leading assembly through-hole (14) and leading spacing through-hole (8) between seted up and indulged mounting groove (16).

4. The multi-angle adjustable organic waste gas adsorption and desorption assembly mechanism as claimed in claim 1, which is characterized in that: the inside mounting frame (4) rear side inner wall be located inside backup pad (5) below and have bellied bottom limiting plate (17) forward, bottom limiting plate (17) inside the inside regulation screw of seting up built-in adjusting bolt (18), adjusting bolt (18) last fixed surface be connected with top extrusion spring (19) that are used for elastic support inside backup pad (5).

5. The multi-angle adjustable organic waste gas adsorption and desorption assembly mechanism as claimed in claim 1, which is characterized in that: an inner ventilation opening with a built-in metal supporting grid (20) is formed in the inner supporting plate (5), and a square-shaped structure lateral storage groove (22) with a built-in elastic limiting frame (21) is formed in the position, located on the outer edge of the upper surface of the inner supporting plate (5).

6. The multi-angle adjustable organic waste gas adsorption and desorption assembly mechanism as claimed in claim 5, which is characterized in that: spacing frame of elasticity (21) front end medial surface and rear end medial surface on all have forward bellied integrative L type structure assembly support (23), the side direction accomodate recess (22) medial surface and correspond assembly support (23) position and all seted up side direction assembly draw-in groove, spacing frame of elasticity (21) insert through assembly support (23) and correspond inside and the side direction of position side direction assembly draw-in groove and accomodate recess (22) elastic connection.

7. The multi-angle adjustable organic waste gas adsorption and desorption assembly mechanism as claimed in claim 1, which is characterized in that: the elastic telescopic rod comprises a lateral telescopic rod (24) inserted into the lateral telescopic through hole, an inner limiting block (25) axially fixed at the top end of the inner side of the lateral telescopic rod (24) and an outer limiting block (26) axially fixed at the top end of the outer side of the lateral telescopic rod (24), an inner side face of the lateral telescopic through hole is provided with an inner extrusion hole matched with the inner limiting block (25), and the outer side of the lateral telescopic rod (24) is sleeved with a built-in extrusion spring (27) inside the inner extrusion hole.

Images