CN112090229A - Electric control adjusting mechanism for organic waste gas treatment system - Google Patents

Abstract

The invention relates to the technical field of organic waste gas treatment devices, in particular to an electronic control adjusting mechanism for an organic waste gas treatment system. The electronic control adjusting mechanism for the organic waste gas treatment system comprises an external rotating pipe sleeved on the outer side surface of a transverse supporting pipe, an electric telescopic rod used for controlling the external rotating pipe to rotate and an overturning assembly frame movably assembled on the external rotating pipe, wherein the overturning assembly frame is used for installing adsorption and desorption blocks, the height and the number of the adsorption and desorption blocks can be freely changed as required, the application range is wide, and the operation is simple and convenient; the adsorption and desorption block made of the zeolite molecular sieve replaces the traditional activated carbon material, so that the high-temperature resistance of the adsorption and desorption block is higher, and the desorption is more thorough; the adsorption and desorption blocks with different specifications and quantities can be installed according to the requirements, and the operation of loading, unloading and adjustment is simple and convenient.

Description

Electric control adjusting mechanism for organic waste gas treatment system

Technical Field

The invention relates to the technical field of organic waste gas treatment devices, in particular to an electronic control adjusting mechanism for an organic waste gas treatment system.

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 mounting position and structure of the adsorption and desorption material are quite single, and the loading and unloading operation is also troublesome.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: in order to solve the problems existing in the background technology, an improved electric control adjusting mechanism for an organic waste gas treatment system is provided, and the problems that adsorption and desorption materials in a catalytic combustion bed on the market are mainly activated carbon, the high temperature resistance is poor, the desorption mode is single, the desorption is not clean, the installation position and the structure of the adsorption and desorption materials are single, and the loading and unloading operation is troublesome are solved.

The technical scheme adopted by the invention for solving the technical problems is as follows: an electric control adjusting mechanism for an organic waste gas treatment system comprises a main reaction box body, an upper gas pipe communicated with an upper end opening of the main reaction box body, a lower gas pipe communicated with a lower end opening of the main reaction box body and an electric telescopic rod, wherein a transverse supporting pipe is fixedly arranged in the main reaction box body, an outer rotating pipe is sleeved on the outer side surface of the transverse supporting pipe, an integral bottom linkage rod is arranged at the right end of the outer side surface of the outer rotating pipe, a transverse linkage rod is movably assembled at the inner side of the bottom linkage rod through a lateral rotating shaft, the top end of the transverse linkage rod is connected with a telescopic rod at the front end of the electric telescopic rod through a movable connecting rod, an n-shaped lateral assembly frame is fixedly arranged on the lower surface of the outer rotating pipe through bolts, and an overturning assembly frame is movably assembled inside the lateral assembly frame through a, the inside of the overturning assembly frame is inserted with an adsorption and desorption block made of zeolite molecular sieve.

Upset assembly frame upper surface both ends all have top-mounted contact inclined plane, the side direction assembly frame medial surface on the symmetry seted up side direction activity pilot hole, upset assembly frame both ends structure side direction axis of rotation of having, upset assembly frame insert through the side direction axis of rotation and correspond inside and the side direction assembly frame activity assembly of position side direction activity pilot hole.

And a lateral limiting strip matched with the overhead contact inclined plane at the corresponding position is arranged on the outer side surface of the external rotating pipe.

The overturning assembly frame comprises a top assembly frame, a lateral support frame, a lateral adjusting frame and a bottom support frame, wherein lateral rotation axes are arranged on two sides of the top assembly frame, the lateral support frame is welded at the lower end of the top assembly frame, the lateral adjusting frame is elastically assembled on two sides of the lateral support frame, the bottom support frame is welded at the lower end of the lateral adjusting frame, an internal lifting groove with a built-in external thread adjusting screw rod is formed in the inner side surface of the lateral support frame, an internal thread adjusting through hole matched with the external thread adjusting screw rod is formed in the inner top surface of the lateral adjusting frame, and the lateral support frame is connected with the lateral adjusting.

The lateral adjusting frame is of an n-shaped structure, and the lower surface of the bottom supporting frame is provided with a bottom assembling through hole for conveniently controlling the external thread adjusting screw rod.

The inner side surfaces of the lateral supporting frame and the lateral adjusting frame are positioned on the same longitudinal vertical surface.

The top assembly frame medial surface be located the lower extreme opening and be located and the bottom carriage medial surface be located upper end open position and all seted up inside heavy groove down.

The invention has the beneficial effects that:

(1) the electronic control adjusting mechanism for the organic waste gas treatment system comprises an external rotating pipe sleeved on the outer side surface of a transverse supporting pipe, an electric telescopic rod used for controlling the external rotating pipe to rotate and an overturning assembly frame movably assembled on the external rotating pipe, wherein the overturning assembly frame is used for installing the adsorption and desorption blocks, people can freely change the height and the number of the adsorption and desorption blocks according to needs, the application range is wider, and the operation is simple and convenient;

(2) an adsorption and desorption block made of zeolite molecular sieve is arranged in the overturning assembly frame to replace the traditional activated carbon material, so that the high-temperature resistance performance of the adsorption and desorption block is higher, and the desorption is more thorough;

(3) set up the inside lift groove of built-in external screw thread accommodate the lead screw on side direction carriage medial surface, adjust the lead screw through the external screw thread and adjust the height of upset assembly frame, make it can install the adsorption and desorption piece of different specifications and quantity as required, loading and unloading regulation easy operation is convenient.

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 a side cross-sectional view of the present invention.

Fig. 3 is an internal sectional view of the flip assembly 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 an electric control adjusting mechanism for organic waste gas treatment system, which comprises a main reaction box 1, an upper gas pipe 2 communicated with the upper end opening of the main reaction box 1, a lower gas pipe 3 communicated with the lower end opening of the main reaction box 1 and an electric telescopic rod 4, wherein a transverse supporting pipe 5 is fixedly installed inside the main reaction box 1, an external rotating pipe 6 is sleeved on the outer side surface of the transverse supporting pipe 5, a bottom linkage rod 7 with an integrated structure is arranged at the right end of the outer side surface of the external rotating pipe 6, a transverse linkage rod 8 is movably assembled inside the bottom linkage rod 7 through a lateral rotating shaft, the top end of the transverse linkage rod 8 is connected with the telescopic rod at the front end of the electric telescopic rod 4 through a movable connecting rod, an n-shaped lateral assembly frame 9 is fixedly installed on the lower surface of the external rotating pipe 6 through bolts, a turnover assembly frame 10 is movably, an adsorption and desorption block 11 made of zeolite molecular sieve is inserted into the overturning assembly frame 10.

The zeolite molecular sieve can resist high temperature and can be improved to 180-220 ℃ from the maximum 120 ℃ of the traditional activated carbon, and simultaneously, the internal organic waste can be completely separated and desorbed.

Example (b): the electric telescopic rod 4 is directly purchased and obtained in the market, can be installed at the rear side of the main reaction box body 1, and also can be installed on the outer side wall of the main reaction box body 1, the sealing performance of the electric telescopic rod 4 at the connecting end of the main reaction box body 1 is improved by utilizing an installation sealing mechanism, external air leakage is avoided, the electric telescopic rod 4 extends towards the inside of the main reaction box body 1, so that the external rotating pipe 6 is controlled to rotate forwards, the lateral assembling frame 9 is driven to overturn downwards, the overturning assembling frame 10 is controlled to descend at this time, the internal air flowability can be improved by utilizing height reduction, and the internal adsorption and desorption block 11 can be conveniently detached; on the contrary, when it withdraws, outside rotating tube 6 reverses, drives side direction assembly frame 9 and upwards overturns, and upset assembly frame 10 rises, and is sealed spacing with the contact of the spacing 12 bottoms in side direction, and the upper portion air blows off downwards, inhales the inside high temperature desorption that carries out of desorption piece 11.

Further, for convenient movable assembly, upset assembly frame 10 upper surface both ends all have top contact inclined plane, the side direction activity pilot hole has been seted up to the symmetry on the 9 medial surfaces of side direction assembly frame, upset assembly frame 10 both ends have a body structure side direction axis of rotation, upset assembly frame 10 inserts corresponding position side direction activity pilot hole inside and 9 movable assembly of side direction assembly frame through the side direction axis of rotation, and furtherly, for the cooperation is spacing and sealed, have on the 6 lateral surfaces of outside rotating tube with corresponding position top contact inclined plane matched with side direction spacing 12.

Further, in order to adjust the height and improve the applicability, the turnover assembly frame 10 includes a top assembly frame 13 having lateral rotation shafts on both sides, a lateral support frame 14 welded to the lower end of the top assembly frame 13, lateral adjustment frames 15 elastically assembled to both sides of the lateral support frame 14, and a bottom support frame 16 welded to the lower end of the lateral adjustment frame 15, an inner lifting groove 18 having a built-in external thread adjustment screw 17 is formed on the inner side of the lateral support frame 14, an internal thread adjustment through hole matched with the external thread adjustment screw 17 is formed on the inner top surface of the lateral adjustment frame 15, the lateral support frame 14 is screwed into the internal thread adjustment through hole through the external thread adjustment screw 17 to be connected with the lateral adjustment frame 15, and further, for convenience of adjustment, the lateral adjusting frame 15 is of an n-shaped structure, and the lower surface of the bottom supporting frame 16 is provided with a bottom assembling through hole 19 for conveniently controlling the external thread adjusting screw rod 17.

The bottom assembly through hole 19 is used for controlling the rotation of the external thread adjusting screw rod 17 by inserting a bolt, and the bottom of the external thread adjusting screw rod 17 is provided with a straight groove for being matched with a screwdriver to adjust.

Further, for promoting the fit of the interior assembly, the medial surface of the lateral support frame 14 and the medial surface of the lateral adjusting frame 15 are located on the same vertical plane, and further, for promoting the assembly stability, the medial surface of the top assembly frame 13 is located at the lower end opening and located at the upper end opening with the medial surface of the bottom support frame 16, and an inner sunken groove 20 is formed.

The invention relates to an electronic control adjusting mechanism for an organic waste gas treatment system, which comprises an external rotating pipe 6 sleeved on the outer side surface of a transverse supporting pipe 5, an electric telescopic rod 4 used for controlling the external rotating pipe 6 to rotate and an overturning assembly frame 10 movably assembled on the external rotating pipe 6, wherein the overturning assembly frame 10 is used for installing adsorption and desorption blocks 11, people can freely change the height and the number of the adsorption and desorption blocks 11 according to the needs, the application range is wider, and the operation is simple and convenient; an adsorption and desorption block 11 made of zeolite molecular sieve is arranged in the overturning assembly frame 10 to replace the traditional activated carbon material, so that the high-temperature resistance of the adsorption and desorption block is higher, and the desorption is more thorough; an internal lifting groove 18 with a built-in external thread adjusting screw rod 17 is formed in the inner side face of the lateral supporting frame 14, the height of the overturning assembly frame 10 is adjusted through the external thread adjusting screw rod 17, the adsorption and desorption blocks 11 with different specifications and quantities can be installed according to needs, and the assembly, disassembly and adjustment operations are simple and convenient.

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 an automatically controlled adjustment mechanism for organic waste gas treatment system, includes main reaction box (1), the overhead gas-supply pipe (2) that are linked together with main reaction box (1) upper end opening, lower gas-supply pipe (3) and electric telescopic handle (4) that are linked together with main reaction box (1) lower extreme opening, characterized by: a transverse supporting tube (5) is fixedly arranged in the main reaction box body (1), an outer rotating pipe (6) is sleeved on the outer side surface of the transverse supporting pipe (5), the right end of the outer side surface of the outer rotating pipe (6) is provided with an integral structure bottom linkage rod (7), the inner side of the bottom linkage rod (7) is movably provided with a transverse linkage rod (8) through a lateral rotating shaft, the top end of the transverse linkage rod (8) is connected with the telescopic rod at the front end of the electric telescopic rod (4) through a movable connecting rod, the lower surface of the external rotating pipe (6) is fixedly provided with an n-shaped structure lateral assembly frame (9) through bolts, the inside of the lateral assembly frame (9) is movably assembled with a turnover assembly frame (10) through a lateral rotating shaft, an adsorption and desorption block (11) made of zeolite molecular sieve is inserted in the overturning assembly frame (10).

2. An electronically controlled adjustment mechanism for an organic exhaust treatment system according to claim 1, wherein: upset assembly frame (10) upper surface both ends all have overhead contact inclined plane, side direction assembly frame (9) medial surface on the symmetry seted up side direction activity pilot hole, upset assembly frame (10) both ends structure side direction axis of rotation has, upset assembly frame (10) insert through the side direction axis of rotation and correspond inside and the side direction assembly frame (9) movable assembly of position side direction activity pilot hole.

3. An electronically controlled adjustment mechanism for an organic exhaust treatment system according to claim 2, wherein: and a lateral limiting strip (12) matched with the overhead contact inclined plane at the corresponding position is arranged on the outer side surface of the outer rotating pipe (6).

4. An electronically controlled adjustment mechanism for an organic exhaust treatment system according to claim 2, wherein: the overturning assembly frame (10) comprises a top assembly frame (13) with lateral rotation shafts on two sides, a lateral support frame (14) welded and fixed to the lower end of the top assembly frame (13), lateral adjusting frames (15) elastically assembled on two sides of the lateral support frame (14) and a bottom support frame (16) welded to the lower end of the lateral adjusting frame (15), wherein an inner lifting groove (18) of a built-in external thread adjusting screw rod (17) is formed in the inner side face of the lateral support frame (14), an internal thread adjusting through hole matched with the external thread adjusting screw rod (17) is formed in the inner top face of the lateral adjusting frame (15), and the lateral support frame (14) is connected with the lateral adjusting frame (15) through the external thread adjusting screw rod (17) screwed into the internal thread adjusting through hole.

5. An electronically controlled adjustment mechanism for an organic exhaust treatment system according to claim 4, wherein: the lateral adjusting frame (15) is of an n-shaped structure, and a bottom assembling through hole (19) used for conveniently controlling the external thread adjusting screw rod (17) is formed in the lower surface of the bottom supporting frame (16).

6. An electronically controlled adjustment mechanism for an organic exhaust treatment system according to claim 4, wherein: the inner side surfaces of the lateral supporting frame (14) and the lateral adjusting frame (15) are positioned on the same vertical plane.

7. An electronically controlled adjustment mechanism for an organic exhaust treatment system according to claim 4, wherein: the inner side surface of the top assembly frame (13) is positioned at the lower end opening position and the inner side surface of the bottom support frame (16) is positioned at the upper end opening position, and an inner sinking groove (20) is formed.

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