CN216935371U - Filling type rotating wheel structure - Google Patents

Abstract

A filling type rotating wheel structure comprises a middle rotating wheel, an upper rotating wheel cover and a lower rotating wheel cover, wherein at least 3 filter cavities are uniformly distributed between the outer ring of the middle rotating wheel and a central shaft sleeve, the upper rotating wheel cover is arranged on the air inlet side of the middle rotating wheel, the lower rotating wheel cover is arranged on the air outlet side of the middle rotating wheel, the upper rotating wheel cover and the lower rotating wheel cover are net-shaped plates, the shapes of the net-shaped plates are matched with the air inlet or the air outlet of the middle rotating wheel, inner flanges are arranged on the air inlet side and the air outlet side of the outer ring of the middle rotating wheel, and the upper rotating wheel cover and the lower rotating wheel cover are connected onto a first inner flange; adopt this to load formula runner structure greatly reduced product manufacturing cost, compared with traditional runner and reduced the requirement to the precision, processing is convenient, and it is convenient to change adsorption material, has improved work efficiency.

Description

Filling type rotating wheel structure

Technical Field

The utility model relates to the technical field of waste gas treatment equipment, in particular to a filling type adsorption rotating wheel structure.

Background

According to the description in the specification of the modular wheel disclosed in the chinese patent CN 208115445U, the modular wheel has the characteristics of facilitating the independent disassembly, assembly, disassembly and replacement of the modules, and facilitating the replacement of the media particles. Is a novel product for replacing the prior traditional zeolite rotating wheel. However, due to the structural characteristics of the modular runner, the following problems exist:

in the manufacturing process of the modules, errors exist in the sizes of the modules due to processing and manufacturing reasons, so that the workload of field assembly and debugging personnel is increased in the assembling process; if the error is reduced and the processing and manufacturing precision is increased, the processing and manufacturing cost of the rotating wheel is increased;

the runner equipment is often inconvenient to disassemble and assemble, the service lives of all parts are basically consistent, the possibility of replacing a certain module independently does not exist, and if the certain module is required to be replaced, the replacement can be carried out only under the condition that a manufacturer in the prior period has quality problems. The time and the human cost of changing a module are equivalent to the time and the human cost of changing the whole rotating wheel due to depreciation of equipment and reduction of adsorbability of adsorbing materials in the later stage, and the time and the human cost can also be correspondingly increased when the module is disassembled and assembled and replaced for many times.

In a word, the modularized rotating wheel has the disadvantages of high processing cost, high requirement on processing precision, high assembly and disassembly cost and the like, so that the structural design of the existing rotating wheel needs to be perfected.

Disclosure of Invention

In view of the above, the present invention provides a filling type adsorption rotating wheel structure, which has the advantages of low production cost, convenient assembly and disassembly, and convenient replacement of the adsorption material. Meanwhile, as the adsorption, desorption and cooling areas are circular, corresponding standard pipelines correspond to the corresponding areas, and the installation and butt joint work such as sealing, butt joint and the like is facilitated.

A filling type rotating wheel structure comprises a middle rotating wheel, an upper rotating wheel cover and a lower rotating wheel cover, wherein at least 3 filter cavities are uniformly distributed between the outer ring of the middle rotating wheel and a central shaft sleeve, the upper rotating wheel cover is arranged on the air inlet side of the middle rotating wheel, the lower rotating wheel cover is arranged on the air outlet side of the middle rotating wheel, the upper rotating wheel cover and the lower rotating wheel cover are net-shaped plates, the shapes of the upper rotating wheel cover and the lower rotating wheel cover are matched with the air inlet or the air outlet of the middle rotating wheel, inner flanges are arranged on the air inlet side and the air outlet side of the outer ring of the middle rotating wheel, and the upper rotating wheel cover and the lower rotating wheel cover are connected to a first inner flange; the filter in the filter cavity can be replaced by disassembling the upper cover or the lower cover of the rotating wheel, so that the problem of complicated filter replacement process is solved, and the working efficiency is improved;

the rotating wheel upper cover and/or the rotating wheel lower cover are/is formed by combining a mesh plate and a solid plate, and the position of the mesh plate is matched with that of the filter cavity.

The rotating wheel upper cover and the rotating wheel lower cover are connected in a threaded hole formed in the first inner flange through a bolt.

One of the upper cover or the lower cover of the rotating wheel is connected in a threaded hole formed in the first inner flange through a bolt, and the other cover is welded on the first inner flange.

The mesh plate and the solid plate on the upper cover or the lower cover of the rotating wheel are arranged in a split manner, the two ends of the filter cavity are respectively provided with a second inner flange, the mesh plate is connected onto the second inner flange, and the solid plate is connected onto the first inner flange.

The mesh plate is connected in a threaded hole formed in the second inner flange through a bolt.

The solid plate is connected in a threaded hole formed in the first inner flange through a bolt or welded on the first inner flange.

The outer dimension of the solid plate can be just clamped into the inner cavity of the outer ring of the middle rotating wheel.

The number of the filter cavities is 4-8, and the filter cavities are uniformly distributed between the outer ring of the middle rotating wheel and the central shaft sleeve.

The cross section of the filter cavity is circular, and the axis of the filter cavity is parallel to the axis of the middle rotating wheel.

A filling type rotating wheel structure comprises a middle rotating wheel, an upper rotating wheel cover and a lower rotating wheel cover, wherein at least 3 filter cavities penetrating through the middle rotating wheel in the thickness direction of the rotating wheel are arranged on the middle rotating wheel, the filter cavities are uniformly distributed around a shaft hole in the center of the middle rotating wheel, the upper rotating wheel cover is arranged on the air inlet side of the middle rotating wheel, the lower rotating wheel cover is arranged on the air outlet side of the middle rotating wheel, the upper rotating wheel cover and the lower rotating wheel cover are net-shaped cover plates matched with the shapes of an air inlet and an air outlet of the middle rotating wheel, an inner flange edge is arranged on the air inlet side and the air outlet side of the middle rotating wheel, a threaded hole is formed in the flange edge, and the upper rotating wheel cover and the lower rotating wheel cover are connected to the middle rotating wheel through bolts; the filter in the filter cavity can be replaced by disassembling the upper cover or the lower cover of the rotating wheel;

the upper cover and the lower cover of the rotating wheel can be replaced by a combined cover plate with a part of air permeability by a net cover plate.

The combined cover plate consists of a cover body frame and a mounting cover, the cover body frame is a solid cover plate matched with the shapes of the air outlet side and the air inlet side of the middle rotating wheel, mounting holes corresponding to the air permeable cavities on the middle rotating wheel in a one-to-one mode are formed in the solid cover plate, inner flange edges are arranged on the air permeable cavities, threaded holes are formed in the flange edges, the mounting cover is a mesh cover and is mounted on the air permeable cavities through bolts, and the cover body frame is welded on the middle rotating wheel; the solid apron on the combination apron has strengthened the holistic stability of runner structure, and has made every filter chamber all have independent installation lid, need not to dismantle whole apron again when changing the filter material, can dismantle the filter chamber that needs to be changed alone, greatly increased the practicality of device.

The number of the filter cavities is 4, and the filter cavities are uniformly distributed around the shaft hole in the center of the middle rotating wheel; the outline of the cover body frame is slightly smaller than the outline of the middle rotating wheel, so that the upper cover of the rotating wheel and the lower cover of the rotating wheel can be conveniently welded;

the utility model has the beneficial effects that: the loading type adsorption rotating wheel structure adopting the structure has the advantages that through the simple and practical integral structure, the production cost is greatly reduced, the assembly and disassembly are convenient, the adsorption material is convenient to replace, and the replacement difficulty of workers is greatly reduced.

Drawings

FIG. 1 is an exploded view of a product of the present invention;

FIG. 2 is a schematic structural diagram of the product of the present invention 1;

FIG. 3 is a schematic structural diagram of the product of the present invention shown in FIG. 2;

fig. 4 is a functional area schematic diagram of the product of the utility model.

Numbering in the figures: 1. a filter chamber; 2. a central shaft sleeve; 3. a middle rotating wheel; 4. a lower cover of the rotating wheel; 5. a solid plate; 6. a mesh plate; 7. a cooling zone; 8. a desorption zone; 9. an adsorption zone.

Detailed Description

A filling type rotating wheel structure comprises a middle rotating wheel 3, an upper rotating wheel cover and a lower rotating wheel cover 4, wherein at least 3 filter cavities 1 are uniformly distributed between the outer ring of the middle rotating wheel 3 and a central shaft sleeve 2, the upper rotating wheel cover is arranged on the air inlet side of the middle rotating wheel 3, the lower rotating wheel cover 4 is arranged on the air outlet side of the middle rotating wheel, the upper rotating wheel cover and the lower rotating wheel cover 4 are net-shaped plates, the shapes of the net-shaped plates are matched with the air inlet or the air outlet of the middle rotating wheel 3, inner flanges are arranged on the air inlet side and the air outlet side of the outer ring of the middle rotating wheel 3, and the upper rotating wheel cover and the lower rotating wheel cover are connected onto a first inner flange; the filter in the filter cavity can be replaced by disassembling the upper cover or the lower cover 4 of the rotating wheel, so that the problem of complicated filter replacing process is solved, and the working efficiency is improved;

the rotating wheel upper cover and/or the rotating wheel lower cover 4 is formed by combining a mesh plate 6 and a solid plate 5, and the position of the mesh plate is matched with that of the filter cavity.

The rotating wheel upper cover and the rotating wheel lower cover 4 are connected in a threaded hole formed in the first inner flange through bolts.

One of the upper cover or the lower cover 4 of the rotating wheel is connected in a threaded hole formed in the first inner flange through a bolt, and the other one of the upper cover or the lower cover of the rotating wheel is welded on the first inner flange.

The mesh plate 6 and the solid plate 5 on the upper cover or the lower cover 4 of the rotating wheel are arranged in a split mode, the two ends of the filter cavity are respectively provided with a second inner flange, the mesh plate is connected to the second inner flange, and the solid plate is connected to the first inner flange.

And the mesh plate 6 is connected in a threaded hole formed in the second inner flange through a bolt.

The solid plate 5 is connected in a threaded hole formed in the first inner flange through a bolt or welded on the first inner flange.

The solid plate 5 can be just clamped into the inner cavity of the outer ring of the middle rotating wheel in the shape and size.

4-8 filter chambers 1 are uniformly distributed between the outer ring of the middle rotating wheel and the central shaft sleeve 2.

The cross section of the filter cavity 1 is circular, and the axis of the filter cavity is parallel to the axis of the middle rotating wheel.

Example 1

Selecting a proper upper rotating wheel cover and a proper lower rotating wheel cover 4, filling the four filter cavities of the filling type rotating wheel structure with filter substances, then installing the upper rotating wheel cover and the lower rotating wheel cover 4, butting the installation hole on the upper rotating wheel cover with the air inlet pipeline, and butting the installation hole on the lower rotating wheel cover 4 with the air outlet pipeline; the two filter cavities on the upper half part are in the desorption area 8 and the cooling area 7, and the two filter cavities on the lower half part are in the adsorption area 9. After 8 concentration sensor in desorption district detected organic waste gas desorption totally, the runner rotated 45, and former desorption district 8 becomes cooling zone 7, and former cooling zone 7 becomes adsorption zone 9, and desorption district 8 is changeed to a centre circle of former adsorption zone 9, so circulation to reach the concentrated purpose with low concentration waste gas.

Claims (10)

1. The utility model provides a fill formula runner structure, includes middle runner, runner upper cover and runner lower cover, its characterized in that: at least 3 filter chambers are uniformly distributed between the outer ring of the middle rotating wheel and the central shaft sleeve, the upper rotating wheel cover is arranged on the air inlet side of the middle rotating wheel, the lower rotating wheel cover is arranged on the air outlet side of the middle rotating wheel, the upper rotating wheel cover and the lower rotating wheel cover are net-shaped plates, the shapes of the upper rotating wheel cover and the lower rotating wheel cover are matched with the air inlet or the air outlet of the middle rotating wheel, inner flanges are arranged on the air inlet side and the air outlet side of the outer ring of the middle rotating wheel, and the upper rotating wheel cover and the lower rotating wheel cover are connected onto the first inner flange.

2. A filled rotor structure according to claim 1, wherein: the rotating wheel upper cover and/or the rotating wheel lower cover is formed by combining a mesh plate and a solid plate, and the position of the mesh plate is matched with that of the filter cavity.

3. A filled rotor structure according to claim 2, wherein: the rotating wheel upper cover and the rotating wheel lower cover are connected in a threaded hole formed in the first inner flange through a bolt.

4. A filled rotor structure according to claim 3, wherein: one of the upper cover or the lower cover of the rotating wheel is connected in a threaded hole formed in the first inner flange through a bolt, and the other cover is welded on the first inner flange.

5. A filled rotor structure according to claim 2, wherein: the mesh plate and the solid plate on the upper cover or the lower cover of the rotating wheel are arranged in a split manner, the two ends of the filter cavity are respectively provided with a second inner flange, the mesh plate is connected onto the second inner flange, and the solid plate is connected onto the first inner flange.

6. A filled rotor structure according to claim 5, wherein: the mesh plate is connected in a threaded hole formed in the second inner flange through a bolt.

7. A filled rotor structure according to claim 6, wherein: the solid plate is connected in a threaded hole formed in the first inner flange through a bolt or welded on the first inner flange.

8. A filled rotor structure according to claim 7, wherein: the solid plate can be just clamped into the inner cavity of the outer ring of the middle rotating wheel in the overall dimension.

9. A filled rotor structure according to any one of claims 1-8, wherein: 4-8 filter chambers are uniformly distributed between the outer ring of the middle rotating wheel and the central shaft sleeve.

10. A filled rotor construction according to claim 9 wherein: the cross section of the filter cavity is circular, and the axis of the filter cavity is parallel to the axis of the middle rotating wheel.

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