CN217646016U - High efficiency inertial dust collector - Google Patents

Abstract

The utility model discloses a high efficiency inertial dust collector, including the supporting component, be provided with the dust removal subassembly on the supporting component, the dust removal subassembly includes dust separation subassembly, be connected with the buffering subassembly on the dust separation subassembly, the buffering subassembly is kept away from dust separation subassembly one end is provided with the dust and collects the subassembly, the dust is collected the subassembly bottom and is provided with the dust and stores the subassembly, the dust stores the subassembly setting on the supporting component, supporting component one side is provided with dust exhausting fan. The beneficial effects of the utility model are that, this inertial dust collector, simple structure, the practicality is stronger, and the cost is lower, and dust removal effect is good, utilizes this inertial dust collector, can realize fast that dust particle and gas separation come in the gas, can realize dust particle's collection simultaneously, and in addition, this inertial dust collector has also improved the efficiency of dust removal, has reduced the cost of dust removal.

Description

High efficiency inertial dust collector

Technical Field

The utility model relates to a dust remover technical field, especially a high efficiency inertial dust collector.

Background

In modern industry, dust pollution can be generated in many production occasions, such as pharmaceutical factories, refractory material factories, construction sites and the like, in order to protect the environment and reduce the dust pollution and ensure the health of people, dust removal equipment is required to be used, dust-containing gas takes gas as a continuous phase, solid particles as aerosol of a dispersed phase, the dust removal process is also the separation process of the solid particles and carrier gas, the dust removal device is provided with a mechanical dust remover and an electric dust remover, the inertial dust remover is one of the mechanical dust removers, the inertial dust remover enables dust-containing airflow to collide with a baffle plate or enables the airflow direction to be changed rapidly, the dust particles and the gas are separated by means of the inertia force of the dust particles, and then the dust particles are trapped, and the dust content of the gas is reduced.

When the existing inertial dust collector is used for separation, dust particles and airflow are separated by the dust-containing airflow through collision with the baffle, and when the airflow collides with the baffle, the existing inertial dust collector is high in cost, low in efficiency and incapable of meeting the dust removal requirement, so that a high-efficiency inertial dust collector needs to be designed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem, a high efficiency inertial dust collector is designed.

The technical scheme of the utility model for, a high efficiency inertial dust collector, including the supporting component, be provided with the dust removal subassembly on the supporting component, the dust removal subassembly includes the dust separation subassembly, be connected with the buffering subassembly on the dust separation subassembly, the buffering subassembly is kept away from dust separation subassembly one end is provided with the dust and collects the subassembly, the dust is collected the subassembly bottom and is provided with the dust and stores the subassembly, the dust stores the subassembly and sets up on the supporting component, supporting component one side is provided with dust exhausting fan.

As further description of the technical scheme, the supporting assembly comprises a supporting base plate, a plurality of supporting stand columns are arranged on the supporting base plate, a plurality of supporting sleeves are arranged on the supporting stand columns, and a dust removal assembly is arranged on each supporting sleeve.

As a further description of the technical solution, the dust separation assembly includes a circular truncated cone-shaped dust separation barrel, a plurality of layers of dust guide plates are stacked and distributed in the circular truncated cone-shaped dust separation barrel, and the distance between two adjacent layers of dust guide plates is the same.

As a further description of the technical solution, an air outlet assembly is arranged on a central axis of the circular truncated cone type dust separation barrel, an air inlet assembly is arranged on a side portion of the circular truncated cone type dust separation barrel, and the air inlet assembly is connected with the dust removal fan through a pipeline.

As a further description of this technical scheme, the subassembly of giving vent to anger is including setting up the outlet duct on round platform type dust separation bucket, the one end setting of outlet duct is inside round platform type dust separation bucket, the subassembly of admitting air is including setting up the intake pipe at round platform type dust separation bucket lateral part, the intake pipe with through the pipe connection between the dust exhausting fan, a plurality of layers are and have seted up the inlet port on piling up the dust guide plate that distributes, the inlet port sets up in intake pipe one end.

As further description of the technical scheme, the buffering component comprises a buffering barrel connected with the circular truncated cone type dust separation barrel, auxiliary fixing lugs are arranged on the outer side of the buffering barrel, and the buffering barrel is connected with the dust collection component.

As a further description of the present solution, the dust collecting assembly includes a trumpet-shaped dust collecting hopper connected to the buffering tub.

As a further description of the present technical solution, the dust storage assembly includes a dust storage barrel disposed at the bottom of the trumpet-shaped dust collecting bucket, and the dust storage barrel is detachably connected to the trumpet-shaped dust collecting bucket.

The inertial dust collector has the beneficial effects that the inertial dust collector is simple in structure, high in practicability, low in cost and good in dust removal effect, dust particles in gas can be quickly separated from the gas by applying the inertial dust collector, and meanwhile, the dust particles can be collected.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic view of the structure of the dust deflector of the present invention.

In the figure, 1, a support assembly; 2. a dust removal assembly; 3. a dust separation assembly; 4. a buffer assembly; 5. a dust collection assembly; 6. a dust storage assembly; 7. a dust removal fan; 8. a support base plate; 9. supporting the upright post; 10. a support sleeve; 11. a round table type dust separating barrel; 12. a dust deflector; 13. an air outlet component; 14. an air intake assembly; 15. an air outlet pipe; 16. an air inlet pipe; 17. an air intake; 18. a buffer barrel; 19. auxiliary fixing lugs; 20. a horn-shaped dust collecting hopper; 21. a dust storage barrel.

Detailed Description

First explain the utility model discloses a design is original intention, in the modern industry, dust pollution can be produced in many production occasions, if pharmaceutical factory, refractory material factory, construction site and so on, in order to protect the environment, reduce dust pollution, ensure people's healthy, need use dust collecting equipment, current inertial dust collector is when separating, the dusty air current is realizing separating dust particle and air current through bumping with the baffle, the air current lies in when the baffle bumps, current inertial dust collector, the cost is higher, when using, efficiency is lower, can't satisfy the requirement of removing dust, therefore, the utility model discloses a high efficiency inertial dust collector.

The utility model discloses it is following to combine the attached drawing to be to describe the utility model specifically, as shown in fig. 1-fig. 2, a high efficiency inertial dust collector, including supporting component 1, the supporting component 1 will be introduced in detail below, and supporting component 1 includes supporting baseplate 8, be provided with a plurality of support post 9 on the supporting baseplate 8, a plurality of be provided with supporting sleeve 10 on the supporting post 9, be provided with dust removal component 2 on the supporting sleeve 10.

Be provided with dust removal component 2 on supporting component 1, the following will describe dust removal component 2 in detail, dust removal component 2 includes dust separation component 3, is connected with buffering component 4 on dust separation component 3, buffering component 4 keeps away from dust separation component 3 one end is provided with dust collection component 5, dust collection component 5 bottom is provided with the dust and stores subassembly 6, the dust stores subassembly 6 and sets up on supporting component 1, supporting component 1 one side is provided with dust exhausting fan 7.

The dust separating assembly 3 is described in detail below, the dust separating assembly 3 includes a circular truncated cone type dust separating barrel 11, a plurality of layers of dust guide plates 12 which are distributed in a stacked manner are arranged in the circular truncated cone type dust separating barrel 11, the distance between every two adjacent layers of dust guide plates 12 is the same, an air outlet assembly 13 is arranged on the central axis of the circular truncated cone type dust separating barrel 11, an air inlet assembly 14 is arranged on the side portion of the circular truncated cone type dust separating barrel 11, and the air inlet assembly 14 is connected with the dust removing fan 7 through a pipeline.

The air outlet assembly 13 is described in detail below, the air outlet assembly 13 comprises an air outlet pipe 15 arranged on the circular truncated cone type dust separation barrel 11, one end of the air outlet pipe 15 is arranged inside the circular truncated cone type dust separation barrel 11, the air inlet assembly 14 is described in detail below, the air inlet assembly 14 comprises an air inlet pipe 16 arranged on the side portion of the circular truncated cone type dust separation barrel 11, the air inlet pipe 16 is connected with the dust removing fan 7 through a pipeline, air inlet holes 17 are formed in a plurality of layers of dust guide plates 12 which are distributed in a stacked mode, and the air inlet holes 17 are formed in one end of the air inlet pipe 16.

The buffering assembly 4 will be described in detail, the buffering assembly 4 includes a buffering barrel 18 connected to the truncated cone type dust separating barrel 11, an auxiliary fixing lug 19 is provided at an outer side of the buffering barrel 18, and the buffering barrel 18 is connected to the dust collecting assembly 5.

The dust collecting assembly 5 will be described in detail below, and the dust collecting assembly 5 includes a trumpet-shaped dust collecting hopper 20 connected to the buffer tank 18.

In order to collect dust in the air, the dust storage assembly 6 is needed, and the dust storage assembly 6 will be described in detail below, and the dust storage assembly 6 includes a dust storage barrel 21 disposed at the bottom of the trumpet-shaped dust collecting bucket 20, and the dust storage barrel 21 is detachably connected to the trumpet-shaped dust collecting bucket 20.

The above detailed description explains the concrete structure of the present invention, and the following description explains the working principle of the present invention: during the use, start dust exhausting fan 7, the air current gets into intake pipe 16 through the pipeline, loop through in the inlet port 17 gets into the interval between a plurality of layers of dust guide plate 12 again, the air current collides with a plurality of layers of dust guide plate 12, dust particle and carrier gas separation in the air current, dust particle gets into in loudspeaker form dust collection hopper 20 through buffer barrel 18, get into the dust and deposit bucket 21 after that, accomplish the collection of dust particle, realize the dust removal in the air current, this inertial dust remover, moreover, the steam generator is simple in structure, the practicality is stronger, and the cost is lower, and the dust removal effect is good, utilize this inertial dust remover, can realize fast that dust particle and gas separation come in the gas, can realize the collection of dust particle simultaneously, in addition, this inertial dust remover, the efficiency of removing dust has also been improved, the cost of removing dust is reduced.

Above-mentioned technical scheme has only embodied the utility model discloses technical scheme's preferred technical scheme, some changes that this technical field's technical staff probably made to some parts wherein have all embodied the utility model discloses a principle belongs to within the protection scope of the utility model.

Claims (8)

1. The utility model provides a high efficiency inertia dust remover, its characterized in that, includes supporting component (1), be provided with dust removal component (2) on supporting component (1), dust removal component (2) are including dust separation subassembly (3), be connected with buffering subassembly (4) on dust separation subassembly (3), buffering subassembly (4) are kept away from dust separation subassembly (3) one end is provided with dust collection subassembly (5), dust collection subassembly (5) bottom is provided with the dust and stores subassembly (6), the dust stores subassembly (6) and sets up on supporting component (1), supporting component (1) one side is provided with dust exhausting fan (7).

2. A high efficiency inertial dust collector as claimed in claim 1, characterized in that the support assembly (1) comprises a support base plate (8), a plurality of support uprights (9) are provided on the support base plate (8), a plurality of support sleeves (10) are provided on the support uprights (9), and a dust collecting assembly (2) is provided on the support sleeves (10).

3. The high-efficiency inertial dust collector of claim 1, wherein the dust separating assembly (3) comprises a truncated cone-shaped dust separating barrel (11), a plurality of layers of dust guide plates (12) are arranged in the truncated cone-shaped dust separating barrel (11) in a stacked manner, and the distance between two adjacent layers of dust guide plates (12) is the same.

4. A high efficiency inertial dust collector as claimed in claim 3, wherein the central axis of the truncated cone type dust separating barrel (11) is provided with an air outlet assembly (13), the side of the truncated cone type dust separating barrel (11) is provided with an air inlet assembly (14), and the air inlet assembly (14) is connected with the dust removing fan (7) through a pipeline.

5. The high-efficiency inertial dust collector of claim 4, wherein the air outlet assembly (13) comprises an air outlet pipe (15) arranged on the truncated cone-shaped dust separation barrel (11), one end of the air outlet pipe (15) is arranged inside the truncated cone-shaped dust separation barrel (11), the air inlet assembly (14) comprises an air inlet pipe (16) arranged on the side portion of the truncated cone-shaped dust separation barrel (11), the air inlet pipe (16) is connected with the dust removal fan (7) through a pipeline, air inlet holes (17) are formed in the dust guide plates (12) which are distributed in a stacked manner, and the air inlet holes (17) are arranged at one end of the air inlet pipe (16).

6. A high efficiency inertial dust collector as claimed in claim 1, characterized in that the buffer assembly (4) comprises a buffer tank (18) connected to a dust separating tank (11) of the circular truncated cone type, the buffer tank (18) being provided with auxiliary fixing lugs (19) on its outside, the buffer tank (18) being connected to a dust collecting assembly (5).

7. A high efficiency inertial dust collector as claimed in claim 6, characterized in that the dust collecting assembly (5) comprises a trumpet-shaped dust collecting hopper (20) connected to a buffer tank (18).

8. A high efficiency inertial precipitator according to claim 7, characterised in that the dust storage assembly (6) comprises a dust storage bin (21) disposed at the bottom of a trumpet-shaped dust collection hopper (20), the dust storage bin (21) being detachably connected to the trumpet-shaped dust collection hopper (20).

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