CN114535240A - A dust collecting equipment for using in production of novel high performance fiber product - Google Patents

Abstract

The invention provides dust removal equipment used in production of novel high-performance fiber products, which comprises an air suction pipeline, wherein an adsorption piece with a limiting function is arranged on the inner wall of the air suction pipeline, the bottom of the air suction pipeline is connected with a fixed disc, the inner wall of the fixed disc is connected with a chassis, the outer side surface of the chassis is connected with a bearing block, and the upper surface of the chassis is connected with a scraping piece with a contraction function. The invention provides dust removing equipment used in the production of novel high-performance fiber products, which is characterized in that fibers are convenient to collect and clean and prevented from blocking an air draft channel through the mutual matching of an adsorption piece and a scraping piece.

Description

A dust collecting equipment that is arranged in production of novel high performance fiber product to use

Technical Field

The invention relates to the technical field of fiber product production equipment, in particular to dust removal equipment used in the production of novel high-performance fiber products.

Background

The fiber product is usually dedusted by an exhaust fan in the production process, so that the air in the production plant is discharged to the outside.

As to dust collecting equipment in the fiber product production, through retrieval discovery, there is a patent No. 201721303106.4 a dust collecting equipment who is used for using in novel high performance fiber product production, this kind of dust collecting equipment who is used for using in novel high performance fiber product production, through the air extraction machine extraction workshop air, fibre in the air adheres on first centrum and second centrum, rethread water halter leads water to in going out the water centrum, at last from shower pipe flow to first centrum and second centrum, fibre on first centrum and the second centrum fuses into the aquatic and falls into the sedimentation tank, thereby reduce the probability of fibre jam, and the maintenance probability of air extraction machine.

This kind of a dust collecting equipment for use in novel high performance fiber product production utilizes first centrum and second centrum to prevent that the fibre from blockking up the air exhauster, because the fibre is the material of compriseing continuous or discontinuous filament, exists the condition of being geted in touch easily when adsorbing on first centrum and second centrum to be difficult to be taken by the rivers and fall, along with fibrous quantity increase gradually, and then influence the air in the air exhauster extraction workshop.

Disclosure of Invention

In order to solve the technical problems, the invention provides a dust removing device used in the production of novel high-performance fiber products, which solves the problems described in the background technology.

The invention relates to a purpose and an effect of dust removing equipment used in the production of novel high-performance fiber products, which are achieved by the following specific technical means: the utility model provides a dust collecting equipment for use in novel high performance fiber product production, includes the suction line, suction line inner wall embedding is provided with the slide rail, suction line inner wall top fixedly connected with fixed block, suction line bottom fixedly connected with fixed disk, fixed disk inner wall swing joint has the chassis, chassis lateral surface fixedly connected with bearing block, the fixedly connected with connection pad of chassis upper surface center department, connection pad left and right sides fixedly connected with slider, connection pad bottom edge fixedly connected with sliding tooth.

Preferably, the fixed block is located right above the slide rail.

Preferably, the cotton material layer is arranged on the inner wall of the air draft pipeline.

Preferably, the length of the slide rail is equal to that of the cotton material layer.

Preferably, the connecting disc is formed by continuous spiral step surfaces, the upper part of the connecting disc is larger than the lower part of the connecting disc, and the diameter of the connecting disc is gradually increased.

Preferably, the spiral step surfaces of the connecting disc are sequentially embedded into the upper step surface from bottom to top, and two adjacent step surfaces are in sliding connection.

Preferably, the spiral step surfaces of the connecting disc are all arranged in a net shape.

Preferably, the spiral step surface with the maximum diameter of the connecting disc is attached to the inner wall of the air draft pipeline.

Preferably, the chassis is provided with a through hole.

Preferably, the bottom of the fixed disc is provided with a groove and a sliding groove which are matched with the bearing block.

Preferably, the sliding block is connected with the sliding rail in a sliding manner.

Advantageous effects

Produce suction through the air exhauster, the suction pipeline passes through the chassis through-hole with the workshop in inside the air suction, suction will strike off the piece simultaneously and pass through adsorption element rebound, form the heliciform after striking off an rebound, thereby strike off the piece and be heliciform extraction fibre, the fibre produces centrifugal force at the in-process of spiral extraction and gets rid of to the adsorption element surface, the fibre produces static through constantly rubbing with the adsorption element at rotatory in-process, the fibre passes through static adsorption and on the adsorption element surface, air exhauster stop work, strike off the suction that the piece receives and disappear downstream, the fibre area to the adsorption element surface falls simultaneously, take out the chassis again and clear up the fibre.

Drawings

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

FIG. 2 is a schematic front sectional view of the draft tube according to the present invention;

FIG. 3 is a schematic cross-sectional view of the draft tube of the present invention;

fig. 4 is a partial structural view of the scraping element of the present invention;

FIG. 5 is a schematic structural view of example 9 of the present invention;

FIG. 6 is a schematic view of a sliding tooth structure according to the present invention;

FIG. 7 is a schematic cross-sectional view of the front surface of the land of the present invention.

In fig. 1 to 7, the correspondence between the component names and the reference numbers is:

1. an air extraction duct; 101. a slide rail; 102. a fixed block; 103. a cotton layer; 2. fixing the disc; 3. a chassis; 301. a connecting disc; 3011. a slider; 3012. sliding the teeth; 302. and a bearing block.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, rather than all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention. As shown in figures 1 to 7:

example 1

The embodiment provides a dust collecting equipment for using in novel high performance fiber product production, and it includes suction line 1, limit function's absorption piece is installed to suction line 1 inner wall, suction line 1 bottom is connected with fixed disk 2, 2 internal wall connections of fixed disk have chassis 3, 3 lateral surfaces on chassis are connected with bearing block 302, 3 upper surface connections on chassis have the piece of striking off of shrink function.

The dust removing equipment used in the production of the novel high-performance fiber product provided by the embodiment pumps air in a workshop into the air pumping pipeline 1 through the chassis 3 by the exhaust fan through the air pumping pipeline 1, in the drawing process, the air extractor can generate suction force to enable the scraping piece to move upwards through the adsorption piece, then the scraping piece extracts air and fibers in a spiral shape, so that the fiber is influenced by centrifugal force in the process of spiral extraction, the fiber is thrown outwards and attached to the adsorption part to rotate, the fiber generates static electricity by continuously rubbing with the adsorption part in the process of attaching to the adsorption part to rotate, then the fiber is adsorbed on the surface of the adsorption part by the static electricity, and after the exhaust fan stops extracting air, when the suction force disappears, the scraping piece slides downwards under the action of gravity, and simultaneously scrapes the fibers on the surface of the suction piece, thereby be convenient for collect the clearance to it, prevent that fibre quantity too much from influencing the air exhauster and twitching the fibre.

The dust collecting equipment who is used for using in novel high performance fiber product production that this embodiment provided, it is through adsorbing the piece and strike off mutually supporting between the piece to this makes the fibre be convenient for collect the clearance and prevent that the fibre from blockking up convulsions passageway.

Example 2

This example differs from example 1 in that: the adsorption member of the present embodiment includes a slide rail 101 and a fixed block 102, and the fixed block 102 is located right above the slide rail 101.

Wherein, start the air exhauster and produce suction to draft tube 1, connection pad 301 passes through suction and upwards moves in slide rail 101, then moves to fixed block 102 below, and fixed block 102 is spacing connection pad 301.

Wherein, be favorable to making connection pad 301 through the production of suction and disappear can remove through slide rail 101, and then carry out spacingly through fixed block 102 to connection pad 301, prevent that it from inhaling in the convulsions machine through suction.

Example 3

This example differs from example 1 in that: the absorbing member of the embodiment further comprises a cotton layer 103, and the cotton layer 103 is arranged on the inner wall of the air draft pipeline 1.

Wherein, the cotton layer 103 can be selected from materials which can generate static electricity by friction with the fiber.

Wherein, inside the air exhauster passes through 3 suction air extraction pipelines of chassis 1 with the fibre in the air in the workshop, the air exhauster is the heliciform through connection pad 301 and extracts air and fibre to make air and fibre get into air extraction pipelines and be the spiral and rotate, the fibre is at the pivoted in-process, receives centrifugal force effect to 1 inner wall of air extraction pipeline and throws away, thereby the fibre is constantly rubbed with cotton material layer 103 through the rotation.

Wherein, be favorable to the fibre to pass through behind the centrifugal force effect, rotate constantly and with the cotton layer 103 friction production static, make the fibre pass through static and adsorb on cotton layer 103 surface.

Example 4

This example differs from example 1 in that: the length of the slide rail 101 in this embodiment is equal to the length of the cotton layer 103.

The connecting disc 301 moves upwards in the sliding rail 101 through suction, and after the limiting is carried out through the fixing block 102, the connecting disc 301 and the cotton material layer 103 are located on the same horizontal line, so that fibers in a workshop are always rubbed with the cotton material layer 103 through centrifugal force after entering the air draft pipeline 1.

The fiber is favorably rubbed with the cotton material layer 103 continuously under the action of centrifugal force after entering the air draft pipeline 1 to generate static electricity, and the fiber is prevented from rubbing the cotton material layer 103 insufficiently after entering the air draft pipeline 1 and being incapable of generating static electricity.

Example 5

This example differs from example 1 in that: the scraping piece comprises a connecting disc 301, a sliding block 3011 and a sliding tooth 3012, the sliding block 3011 is connected to the left side and the right side of the connecting disc 301, the sliding tooth 3012 is connected to the bottom of the connecting disc 301, and the sliding block 3011 is connected with the sliding rail 101 in a sliding mode.

The connection disc 301 moves upwards inside the sliding rail 101 through the slider 3011 when the suction fan stops pulling, and the connection disc 301 drives the sliding tooth 3012 to move downwards inside the sliding rail 101 through the slider 3011 under the action of gravity after the suction force disappears.

After the dust removal process of the exhaust fan is completed, the connecting disc 301 drives the sliding teeth 3012 to scrape off fibers on the surface of the cotton layer 103 under the action of gravity.

Example 6

This example differs from example 1 in that: the connecting disc 301 of the embodiment is composed of continuous spiral step surfaces, the upper part is large, the lower part is small, and the diameter is gradually increased; the spiral step surfaces of the connecting disc 301 are sequentially embedded into the inner part of the upper step surface from bottom to top, and two adjacent step surfaces are in sliding connection; and the spiral step surfaces are all arranged in a net shape.

The connection disc 301 is connected with the adjacent two step surfaces in a sliding manner, so that the connection disc 301 is in a spiral step surface with gradually increasing upward diameter, and the exhaust fan rotates spirally through the connection disc 301.

Wherein, the suction force generated by the exhaust fan is facilitated to make the fiber sucked into the exhaust duct 1 form a spiral rotation through the connection disc 301, thereby generating a centrifugal force.

Example 7

This example differs from example 1 in that: the spiral step surface of the maximum diameter of the connecting disc 301 of the present embodiment is attached to the inner wall of the suction duct 1.

After the connection disc 301 moves upwards in the slide rail 101 through the slider 3011 by the suction generated by the suction fan, the outer side surface of the connection disc 301 gradually moves upwards by being attached to the inner wall of the suction pipeline 1 through the suction.

Wherein, be favorable to preventing that the air exhauster from producing the suction after, inside the gap entering air exhauster between connection pad 301 and the suction duct 1 inner wall is crossed to the fibre.

Example 8

This example differs from example 1 in that: the chassis 3 of this embodiment is provided with a through hole.

Wherein, the exhaust fan is through the through-hole suction exhaust duct 1 inside of chassis 3 with the fibre in the workshop air.

Wherein, be favorable to fibre in the workshop to pass through 3 through-holes on the chassis and inhale inside the exhaust duct 1.

Example 9

This example differs from example 1 in that: the bottom of the fixed plate 2 of this embodiment is provided with a groove and a chute which are matched with the bearing block 302.

Wherein, after the air exhauster stopped twitching, connection pad 301 drives smooth tooth 3012 through the action of gravity and strikes off the fibre on cotton material layer 103 surface the back, through rotating chassis 3 to the 2 bottom groove departments of fixed disk, takes out chassis 3, takes out the fibre afterwards and collects.

Wherein, be favorable to collecting unnecessary fibre to the dismouting of chassis 3.

In summary, the embodiment of the present invention provides a dust removing apparatus used in production of a novel high-performance fiber product, which includes an air suction pipeline 1, an adsorption member with a limiting function is installed on an inner wall of the air suction pipeline 1, a fixed disk 2 is connected to a bottom of the air suction pipeline 1, a chassis 3 is connected to an inner wall of the fixed disk 2, a bearing block 302 is connected to an outer side surface of the chassis 3, and a scraping member with a shrinking function is connected to an upper surface of the chassis 3.

The invention provides dust removing equipment used in the production of novel high-performance fiber products, which is characterized in that fibers are convenient to collect and clean and prevented from blocking an air draft channel through the mutual matching of an adsorption piece and a scraping piece.

Claims (10)

1. The utility model provides a dust collecting equipment for use in novel high performance fiber product production, includes air suction pipe way (1), its characterized in that, limit function's adsorption component is installed to air suction pipe way (1) inner wall, air suction pipe way (1) bottom is connected with fixed disk (2), fixed disk (2) inner wall connection has chassis (3), surface connection has the piece of striking off of shrink function on chassis (3).

2. The dust removing device used in the production of the novel high-performance fiber product is characterized in that the adsorption part comprises a slide rail (101) and a fixed block (102), and the fixed block (102) is positioned right above the slide rail (101).

3. The dust removing equipment used in the production of the novel high-performance fiber product is characterized in that the adsorption piece further comprises a cotton layer (103), and the cotton layer (103) is arranged on the inner wall of the air draft pipeline (1).

4. The dusting equipment for the production of new high performance fibre products of claim 3, characterized in that the length of the sliding rail (101) is equal to the length of the cotton layer (103).

5. The dust removal device used in the production of the novel high-performance fiber product is characterized in that the scraping piece comprises a connecting disc (301), sliding blocks (3011) and sliding teeth (3012), the sliding blocks (3011) are connected to the left side and the right side of the connecting disc (301), and the sliding teeth (3012) are connected to the bottom of the connecting disc (301).

6. The dusting equipment for the production of new high performance fibre products of claim 5, characterized by that the connection disc (301) is made up of continuous spiral step surfaces, big-end-up and gradually increasing in diameter.

7. The dust removing equipment used in the production of the novel high-performance fiber product is characterized in that the spiral step surfaces of the connecting disc (301) are embedded inside the upper step surface from bottom to top in sequence, and two adjacent step surfaces are in sliding connection.

8. The dust removing device used in the production of the novel high-performance fiber product is characterized in that the spiral step surfaces of the connecting disc (301) are arranged in a net shape.

9. The dust removing equipment used in the production of the novel high-performance fiber product is characterized in that the spiral step surface of the maximum diameter of the connecting disc (301) is attached to the inner wall of the air suction pipeline (1).

10. The dust removing device used in the production of the novel high-performance fiber product is characterized in that a through hole is formed in the base plate (3), a groove and a sliding groove matched with the bearing block (302) are formed in the bottom of the fixed plate (2), and the sliding block (3011) is connected with the sliding rail (101) in a sliding mode.

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