CN112263893A

CN112263893A - Follow-up type adsorption and desorption mechanism for organic waste gas treatment equipment

Info

Publication number: CN112263893A
Application number: CN202010985049.2A
Authority: CN
Inventors: 夏志军
Original assignee: 夏志军
Current assignee: Jiangsu Sany Intelligent Equipment Technology Co.,Ltd.
Priority date: 2020-09-18
Filing date: 2020-09-18
Publication date: 2021-01-26

Abstract

The invention relates to the technical field of organic waste gas treatment devices, in particular to a follow-up type adsorption and desorption mechanism for organic waste gas treatment equipment. The follow-up type adsorption and desorption mechanism for organic waste gas treatment equipment has the advantages that the internal assembly pipe with the built-in electric heating pipe is transversely fixed in the main reaction box body, the transverse adjusting pipe, the overturning support plate and the lateral overturning plate which are controlled to rotate by the lateral adjusting motor are movably sleeved on the outer side surface of the internal assembly pipe, the installation stability of the adsorption and desorption block is improved, and the adsorption and desorption modes and efficiency of the adsorption and desorption block can be greatly improved by changing the height position of the adsorption and desorption block; the adsorption and desorption block is more stable and compact in stacking and more resistant to high temperature by adopting a cubic structure, so that more various organic matters in the waste gas can be separated; the surface adsorption and desorption block is convenient to disassemble, and the operation is very simple.

Description

Follow-up type adsorption and desorption mechanism for organic waste gas treatment equipment

Technical Field

The invention relates to the technical field of organic waste gas treatment devices, in particular to a follow-up type adsorption and desorption mechanism for organic waste gas treatment equipment.

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 masonry 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 masonry materials are arranged at the upper end and the lower end of the catalytic combustion bed, but the adsorption and desorption materials in the prior catalytic bed are mainly activated carbon mechanisms, the maximum temperature is 120 degrees, so that the catalytic effect is limited, and meanwhile, organic wastes adsorbed in the activated carbon cannot be completely desorbed and the desorption is not clean; and the loading and unloading of the adsorption and desorption materials are very troublesome, and the installation position is fixed, so that the adsorption and desorption effects are very limited.

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 art, an improved follow-up type adsorption and desorption mechanism for organic waste gas treatment equipment is provided, which solves the problems that the adsorption and desorption materials in the existing catalytic bed are mainly activated carbon mechanisms, so that the catalytic effect is limited and the desorption is not clean; and the loading and unloading of the adsorption and desorption materials are very troublesome, and the installation position is fixed, so that the adsorption and desorption effects are very limited.

The technical scheme adopted by the invention for solving the technical problems is as follows: the follow-up type adsorption and desorption mechanism for organic waste gas treatment equipment comprises a main reaction box body, a top air inlet flaring part, a bottom air outlet necking part, an electric heating pipe and a lateral adjusting motor, wherein an internal assembly pipe with a built-in electric heating pipe is transversely fixed in the main reaction box body, a lateral adjusting pipe controlled and rotated by the lateral adjusting motor is movably sleeved on the outer side surface of the internal assembly pipe, a lateral turnover plate with a built-in turnover support plate is arranged on the outer side surface of the lateral turnover plate, a first lateral transmission port and a second lateral transmission port are arranged on the outer side surface of the rear end of the lateral turnover plate, an internal assembly port for installing the turnover support plate is arranged in the lateral turnover plate, assembly rotating shafts on two sides of the turnover support plate are inserted into the first lateral transmission port from the internal assembly port and are movably connected with the lateral turnover plate, and the top end of the assembly rotating shafts on two sides of the turnover support plate is positioned in the first lateral transmission port and is The side direction returning face plate is characterized by comprising linkage gears, a transverse transmission hole with a built-in transverse rotating shaft is formed in the outer side of the inner portion of the side direction returning face plate, inner side linkage gears are arranged at two ends of the transverse rotating shaft, the inner side face of the main reaction box body is located at a second side direction transmission port and fixedly connected with an inner linkage gear ring, an upward convex side direction limiting frame is arranged at the edge of the upper surface of the side direction returning face plate, and a plurality of adsorption and desorption blocks made of zeolite molecular sieves are arranged on the opposite side of the upper surface of the side direction returning face plate.

The edge of the lower surface of the adsorption and desorption block and the upper surface of the lateral limiting frame are provided with inclined limiting surfaces which are matched with each other.

The outer diameter of the outer side linkage gear is the same as the outer diameter of the inner linkage gear ring, and the outer side linkage gear and the inner linkage gear ring are respectively in meshing transmission with the inner side linkage gears at two ends of the transverse rotating shaft.

The assembly pivot top of upset backup pad rear end is equipped with through the pivot activity and links the gear axial fixed outside transfer line with the outside, the assembly pivot top axial fixity of upset backup pad front end is connected with integrative structure external screw thread locking screw, external screw thread locking screw lateral surface on threaded connection have outside lock nut, side direction returning face plate front end be located the upset backup pad link and set up the leading loading and unloading groove that the lower extreme has the loading and unloading opening, side direction returning face plate front end set up the leading loading and unloading through-hole that is linked together with leading loading and unloading groove front end opening, leading loading and unloading through-hole medial surface be located leading loading and unloading groove link and set up the inside spacing draw-in groove with outside lock nut matched with.

The left and right side surfaces of the turnover supporting plate and the inner walls of the left and right sides of the internal assembly opening are arc surfaces which are matched with each other.

The invention has the beneficial effects that:

(1) the follow-up type adsorption and desorption mechanism for organic waste gas treatment equipment is characterized in that an internal assembly pipe with a built-in electric heating pipe is transversely fixed in a main reaction box body, a transverse adjusting pipe controlled to rotate by a lateral adjusting motor is movably sleeved on the outer side surface of the internal assembly pipe, a lateral overturning plate with a built-in overturning supporting plate is fixed on the outer side surface of the transverse adjusting pipe, and the overturning supporting plate is controlled to overturn synchronously through a transverse rotating shaft on the side wall of the lateral overturning plate in a linkage manner, so that the lateral overturning plate can keep the overturning supporting plate to be arranged horizontally regardless of overturning, the installation stability of an adsorption and desorption block is improved, and the adsorption and desorption modes and efficiency of the adsorption and desorption block can be greatly improved by changing the height position of;

(2) the adsorption and desorption blocks made of zeolite molecular sieves are stacked on the upper surface of the overturning support plate, and the cubic structure is adopted, so that the stacking is more stable and compact, and the high-temperature resistance is realized, and more various organic matters in waste gas can be separated;

(3) the assembly pivot top activity of upset backup pad rear end is equipped with the outside transfer line that is connected with outside linkage gear, and the assembly pivot top threaded connection of upset backup pad front end has outside lock nut, and control upset backup pad that can be very convenient through outside lock nut separates with the side direction returning face plate, changes the rotation angle of upset backup pad, makes things convenient for the surperficial absorption desorption piece to dismantle, and the operation is very simple.

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 schematic view of the structure of the position of the turning support plate in the present invention.

Fig. 3 is a schematic view of the transmission structure for laterally adjusting the position of the motor in the 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.

The follow-up type adsorption and desorption mechanism for organic waste gas treatment equipment shown in fig. 1, fig. 2 and fig. 3 comprises a main reaction box body 1, a top air inlet flared part 2, a bottom air outlet necking part 3, an electric heating pipe 4 and a lateral adjusting motor 5, wherein the electric heating pipe 4 and the lateral adjusting motor 5 are obtained by direct purchasing in the market, are powered by an external power supply and are controlled to be opened, closed and operated by an external switch.

Example (b): the electric heating pipe 4 is used for supplying heat to the transverse adjusting pipe 7, the turnover supporting plate 8 and the lateral turnover plate 9, the lateral adjusting motor 5 is used for controlling the transverse adjusting pipe 7 to rotate, and a rotating mode is used for driving and connecting a rotating shaft at the front end of the lateral adjusting motor 5 and a transmission gear on the outer side face of the transverse adjusting pipe 7 through a transmission gear box on the outer wall of the rear side of the main reaction box body 1.

An internal assembly pipe 6 with a built-in electric heating pipe 4 is transversely fixed in the main reaction box body 1, a transverse adjusting pipe 7 controlled to rotate by a transverse adjusting motor 5 is movably sleeved on the outer side surface of the internal assembly pipe 6, a lateral overturning plate 9 with a built-in overturning supporting plate 8 is arranged on the outer side surface of the transverse adjusting pipe 7, a first lateral transmission port 10 and a second lateral transmission port 11 are arranged on the outer side surface of the rear end of the lateral overturning plate 9, an internal assembly port 12 for installing the overturning supporting plate 8 is arranged in the lateral overturning plate 9, assembly rotating shafts on two sides of the overturning supporting plate 8 are inserted into the first lateral transmission port 10 from the internal assembly port 12 and are movably connected with the lateral overturning plate 9, the top ends of the assembly rotating shafts on two sides of the overturning supporting plate 8 are positioned in the first lateral transmission port 10 and are axially and fixedly connected with an external linkage gear 13, and a transverse transmission hole with a built-, the two ends of the transverse rotating shaft are provided with inner side linkage gears 14, the inner side surface of the main reaction box body 1 is fixedly connected with an inner linkage gear ring 15 at the position of the second lateral transmission port 11, the upper surface of the lateral overturning plate 9 is provided with a lateral limiting frame 16 protruding upwards at the edge, and the upper surface of the lateral overturning plate 9 is provided with a plurality of adsorption and desorption blocks 17 made of zeolite molecular sieves.

Example (b): can set up outside loading and unloading mouth on main reaction box 1 front right side, then utilize outside movable support to connect the upset apron to carry out the closure to outside loading and unloading mouth, then conveniently rotate the absorption desorption piece 17 of outside loading and unloading mouth position and load and unload, the loading and unloading mode is through lifting external screw thread lock screw 19, then rotate outside lock screw 20, dismantle outside lock screw 20, last external screw thread lock screw 19 alright dismantle 21 insidely in the preceding loading and unloading groove, 8 front ends of upset backup pad buckle downwards at this time, conveniently with the absorption desorption piece 17 slippage on surface, the spacing frame 16 of side direction can play the effect of the spacing support in bottom.

Further, in order to improve the assembly fitting property, the edge of the lower surface of the adsorption and desorption block 17 and the upper surface of the lateral limiting frame 16 are provided with inclined limiting surfaces which are matched with each other, further, in order to ensure consistent rotation efficiency and matched transmission, the outer diameter of the outer side linkage gear 13 is the same as that of the inner side linkage gear ring 15, and the outer side linkage gear 13 and the inner side linkage gear ring 15 are respectively in meshed transmission with the inner side linkage gears 14 at two ends of the transverse rotating shaft.

Further, for convenience of assembly and disassembly, the top end of the assembly rotating shaft at the rear end of the turnover support plate 8 is movably assembled with an external transmission rod 18 axially fixed with the external linkage gear 13 through a rotating shaft, the top end of the assembly rotating shaft at the front end of the turnover support plate 8 is axially and fixedly connected with an external thread locking screw 19 of an integrated structure, an external locking nut 20 is in threaded connection with the outer side surface of the external thread locking screw 19, a preposed assembly and disassembly groove 21 with an assembly and disassembly notch at the lower end is formed at the connecting end of the turnover support plate 8 at the front end of the lateral turnover plate 9, a preposed assembly and disassembly through hole 22 communicated with the opening at the front end of the preposed assembly and disassembly groove 21 is formed at the front end of the lateral turnover plate 9, an internal limiting clamping groove 23 matched with the external locking nut 20 is formed at the connecting end of the prepos, The inner walls of the right side surface and the left side and the right side of the internal assembly opening 12 are arc surfaces which are matched with each other.

The follow-up type adsorption and desorption mechanism for organic waste gas treatment equipment is characterized in that an internal assembly pipe 6 with a built-in electric heating pipe 4 is transversely fixed in a main reaction box body 1, a transverse adjusting pipe 7 controlled by a lateral adjusting motor 5 to rotate is movably sleeved on the outer side surface of the internal assembly pipe 6, a lateral overturning plate 9 with a built-in overturning support plate 8 is fixed on the outer side surface of the transverse adjusting pipe 7, and the overturning support plate 8 is controlled to overturn synchronously through a transverse rotating shaft on the side wall of the lateral overturning plate 9 in a linkage manner, so that the lateral overturning plate 9 can keep the overturning support plate 8 horizontally arranged no matter how to overturn, the installation stability of an adsorption and desorption block 17 is improved, and the adsorption and desorption modes and efficiency of the adsorption and desorption block can be greatly improved by changing the height position of the; the adsorption and desorption block 17 made of zeolite molecular sieve is stacked on the upper surface of the overturning support plate 8, and the cubic structure is adopted, so that the stacking is more stable and compact, and the high temperature resistance is realized, and more various organic matters in the waste gas can be separated; the assembly pivot top activity of the 8 rear ends of upset backup pad is equipped with the outside transfer line 18 that is connected with outside linkage gear 13, and the assembly pivot top threaded connection of the 8 front ends of upset backup pad has outside lock nut 20, and control upset backup pad 8 that can be very convenient through outside lock nut 20 separates with side direction returning face plate 9, changes the rotation angle of upset backup pad 8, makes things convenient for the surface to inhale to take off to attach the piece and dismantles, and the operation is very simple.

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

1. The utility model provides a desorption mechanism is inhaled to trailing type for organic waste gas treatment equipment, includes main reaction box (1), top air inlet flaring portion (2), bottom air outlet necking portion (3), electric heating pipe (4) and side direction accommodate motor (5), characterized by: the main reaction box body (1) inside transversely be fixed with inside assembly pipe (6) of built-in electric heating pipe (4), inside assembly pipe (6) lateral surface on the activity cup joint by side direction accommodate motor (5) control pivoted transverse adjustment pipe (7), transverse adjustment pipe (7) lateral surface on set up side direction returning face plate (9) of built-in upset backup pad (8), side direction returning face plate (9) rear end lateral surface on set up first side direction transmission mouth (10) and second side direction transmission mouth (11), side direction returning face plate (9) inside set up inside assembly mouth (12) that are used for installing upset backup pad (8), the assembly pivot of upset backup pad (8) both sides inserts first side direction transmission mouth (10) inside and side direction returning face plate (9) swing joint from inside assembly mouth (12), the assembly pivot top of upset backup pad (8) both sides is located first side direction transmission mouth (10) inside axial fixity mouth (10) Be connected with outside linkage gear (13), the inside outside of side direction returning face plate (9) set up the transverse transmission hole of built-in transverse rotation axle, transverse rotation axle both ends inboard linkage gear (14) have, main reaction box (1) medial surface be located second side direction transmission mouth (11) position fixedly connected with inside linkage ring gear (15), side direction returning face plate (9) upper surface be located the edge and have bellied side direction spacing frame (16) that makes progress, side direction returning face plate upper surface other side have a plurality of absorption desorption pieces (17) of making by zeolite molecular sieve.

2. The follow-up type adsorption and desorption mechanism for organic waste gas treatment equipment according to claim 1, which is characterized in that: the edge of the lower surface of the adsorption and desorption block (17) and the upper surface of the lateral limit frame (16) are provided with inclined limit surfaces which are matched with each other.

3. The follow-up type adsorption and desorption mechanism for organic waste gas treatment equipment according to claim 1, which is characterized in that: the outer diameter of the outer side linkage gear (13) is the same as the outer diameter of the inner linkage gear ring (15), and the outer side linkage gear (13) and the inner linkage gear ring (15) are respectively in meshing transmission with the inner side linkage gears (14) at two ends of the transverse rotating shaft.

4. The follow-up type adsorption and desorption mechanism for organic waste gas treatment equipment according to claim 1, which is characterized in that: an external transmission rod (18) axially fixed with the outer side linkage gear (13) is movably assembled at the top end of the assembling rotating shaft at the rear end of the turnover supporting plate (8), the top end of the assembling rotating shaft at the front end of the turning support plate (8) is axially and fixedly connected with an external thread locking screw rod (19) with an integral structure, an external locking nut (20) is connected with the outer side surface of the external thread locking screw rod (19) in a threaded manner, the front end of the lateral overturning plate (9) is positioned at the connecting end of the overturning supporting plate (8) and is provided with a preposed loading and unloading groove (21) with a loading and unloading notch at the lower end, the front end of the lateral overturning plate (9) is provided with a front loading and unloading through hole (22) communicated with the front opening of the front loading and unloading groove (21), the inner side surface of the front loading and unloading through hole (22) is positioned at the connecting end of the front loading and unloading groove (21) and is provided with an inner limiting clamping groove (23) matched with the outer locking nut (20).

5. The follow-up type adsorption and desorption mechanism for organic waste gas treatment equipment according to claim 1, which is characterized in that: the left and right side surfaces of the turnover supporting plate (8) and the inner walls of the left and right sides of the internal assembly opening (12) are arc surfaces which are matched with each other.