CN112127136A

CN112127136A - High-efficient dust collector of wool fabric for weaving

Info

Publication number: CN112127136A
Application number: CN202011046949.7A
Authority: CN
Inventors: 陈苏莲
Original assignee: Zhejiang Xiaotan Technology Co Ltd
Current assignee: Foshan Heshun Textile Co.,Ltd.
Priority date: 2020-09-29
Filing date: 2020-09-29
Publication date: 2020-12-25
Anticipated expiration: 2040-09-29
Also published as: CN112127136B

Abstract

The invention discloses a high-efficiency dust removal device for wool fabrics for spinning, which belongs to the technical field of wool fabric dust removal and comprises a dust removal mechanism, wherein a filtering mechanism is arranged at the top of the dust removal mechanism, a shielding mechanism is arranged at one side of the dust removal mechanism, a de-electrifying mechanism is arranged at the other side of the dust removal mechanism, the filtering mechanism comprises an upper shell and a lower shell, placing grooves are formed in the four corners of the top of the lower shell, and hydraulic cylinders are fixedly connected to the bottoms of inner cavities of the placing grooves. According to the dust removing device, dust flying to wool fabrics is rapidly removed, the wool fabrics are adsorbed through the conductive silk screen, the surfaces of the wool fabrics are blown through air circulation, the wool fabrics can be dried while being removed, the surfaces of the wool fabrics are prevented from being bonded by residual colloid, the wool fabrics are convenient to wind and place through jacking of the upper shell and the lower shell, the dust removing difficulty of workers is reduced, the dust removing efficiency can be remarkably improved, and the dust removing use requirement is met.

Description

High-efficient dust collector of wool fabric for weaving

Technical Field

The invention belongs to the technical field of wool fabric dust removal, and particularly relates to a high-efficiency dust removal device for wool fabric for spinning.

Background

Weaving is a general term taken from spinning and weaving, but with the continuous development and improvement of a weaving knowledge system and a subject system, particularly after non-woven textile materials and three-dimensional compound weaving and other technologies are produced, not only traditional hand spinning and weaving but also more flying dust is produced on the surface of wool fabric when the wool fabric is woven, and the flying dust is easy to accumulate in a space to bring adverse effects to workers, so that dust on the surface of the wool fabric needs to be removed to reduce dust scattering.

When removing dust to wool fabric among the prior art, it can only brush the dust removal to wool fabric surface residue through brush and viscose many times, but manual change viscose consumes more manpower, and need shut down to weaving the production line, influence machining efficiency, and sticky lead to wool fabric surface bonding easily, influence the whole pleasing to the eye degree after weaving, and wool fabric surface residue piles up when sticky roller surface, easily hold the roller with sticky roller and rotate when flying to placing the workshop with the waste residue separation, and wool fabric need wind again after sticky roller trades the glue, can not be fine satisfy the user demand.

Disclosure of Invention

The invention aims to: in order to solve brush and viscose and brush the dirt of going to wool fabric surface residue, but manual change viscose consumes more manpower to sticky easily leads to wool fabric surface bonding, influences the whole pleasing to the eye degree after weaving, and when wool fabric surface residue piles up on the adhesive roll surface, easily when adhesive roll appearance roller rotates with the waste residue separation problem of waving to placing the workshop in, and the high-efficient dust collector of wool fabric for weaving who provides.

In order to achieve the purpose, the invention adopts the following technical scheme:

a high-efficiency dust removal device for wool fabrics for spinning comprises a dust removal mechanism, wherein a filter mechanism is arranged at the top of the dust removal mechanism, a shielding mechanism is arranged on one side of the dust removal mechanism, and a de-electrifying mechanism is arranged on the other side of the dust removal mechanism;

the filtering mechanism comprises an upper shell and a lower shell, wherein the four corners of the top of the lower shell are respectively provided with a placing groove, the bottom of the inner cavity of the placing groove is fixedly connected with a hydraulic cylinder, sealing gaskets are fixedly connected between the opposite surfaces of the upper shell and the lower shell, and a groove and a through hole are arranged between the sealing gaskets at the corresponding positions, and the hydraulic rod of the hydraulic cylinder passes through the through hole and the groove and is fixedly connected with the bottom of the upper shell, an opening is arranged on one side of the sealing gasket, first sliding grooves are arranged on two sides of the inner cavity of the upper shell and the lower shell, a first sliding block is connected in the first sliding grooves in a sliding manner, a mesh enclosure is fixedly connected between the first sliding blocks in the horizontal position, a conductive wire mesh is arranged in the inner cavity of the mesh enclosure, both sides of the inner cavity of the sealing gasket are embedded with pumping pipes, one side of each pumping pipe is communicated with an external fan through a communicating pipe, and one side of each pumping pipe is communicated with an air nozzle;

the shielding mechanism comprises two wind shields, wherein one sides of the two wind shields are fixedly connected with one sides of an upper shell and a lower shell respectively, one side of each wind shield is provided with a second chute, a threaded cap is connected in the second chute in a sliding manner, a threaded column is connected in the threaded cap in a threaded manner, two ends of the threaded column are fixedly connected with rotating shafts respectively, bearings are sleeved on the outer side wall of each rotating shaft, the two bearings are embedded on two sides of the inner cavity of the second chute respectively, a handle is fixedly connected to the top of the upper rotating shaft, the other side of the threaded cap is fixedly connected with a wind shield, and the wind shield;

the electricity removal mechanism comprises two fixing seats, one sides of the two fixing seats are fixedly connected with the upper shell and one side of the lower shell respectively, a sliding sleeve is embedded at the top of each fixing seat, a sliding rod is connected in the sliding sleeve in a sliding mode, a top block is fixedly connected to the top end of the sliding rod, clamping blocks are fixedly connected to the bottom ends of the sliding rod, ion bars are fixedly connected between the clamping blocks on the two sides, springs are sleeved on the outer side walls of the sliding rods, and the two ends of each spring correspond to the fixed positions of the top block and the.

As a further description of the above technical solution:

the filtering mechanism comprises a filtering shell which is embedded at the top of an inner cavity of the upper shell, a plurality of air holes are formed in the corresponding position of the inner cavity of the upper shell, a filtering core is placed in the inner cavity of the upper shell, and the top of the upper shell is communicated with an exhaust pipe.

As a further description of the above technical solution:

and an inflation branch pipe is communicated with the other side of the exhaust pipe, and a valve body is arranged at the top of the inflation branch pipe.

As a further description of the above technical solution:

the sealing gasket is an elastic plastic gasket, and the width of the sealing gasket is equal to that of the upper shell.

As a further description of the above technical solution:

the outer wall shape of screw cap is the rectangle, and the width of screw cap equals with the width of first spout inner chamber.

As a further description of the above technical solution:

the inflation branch pipe is communicated with an external inflation fan, and the exhaust pipe is communicated with an external discharge pipeline.

As a further description of the above technical solution:

the cross section shapes of the first sliding block and the first sliding groove are both T-shaped, and a shifting opening is formed in one side of the first sliding groove on one side.

As a further description of the above technical solution:

the wind shield is an elastic plastic soft plate, and the width of the wind shield is equal to that of the wind shield.

As a further description of the above technical solution:

the filter core is a stainless steel wire mesh component.

As a further description of the above technical solution:

both sides of the filter shell are movably connected with the upper shell through bolts.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. according to the dust removal device, the upper shell is lifted to drive the bottom sealing gasket to be separated from the lower shell through the extension of the hydraulic cylinder, the wool fabric is directly moved into the opening in one side of the sealing gasket, the wool fabric is rapidly dedusted through the matching of the conductive wire mesh and the air nozzle, the wool fabric is adsorbed through the conductive wire mesh, the surface of the wool fabric is blown through air circulation, the wool fabric can be dried while dedusting is carried out, the surface of the wool fabric is prevented from being bonded by residual colloid, the wool fabric is conveniently wound and placed through the lifting of the upper shell and the lower shell, the dedusting difficulty of workers is reduced, the dedusting efficiency can be remarkably improved, and the dedusting use requirement is met.

2. According to the dust removal device, through the matching of the exhaust pipe and the filter element, when the surface of the conductive wire mesh is powered off, the electrostatic field can blow the mesh covers on two sides and fly ash adsorbed on the surface of the conductive wire mesh through blowing, meanwhile, the fly ash can be sucked out through the external air draft negative pressure of the exhaust pipe, enters the filter element to be filtered and then is discharged through the exhaust pipe, the inflation branch pipe can be inflated to carry out backwashing, and the dust removal efficiency is improved, so that the shutdown dust removal frequency is reduced compared with that of an adhesive roller, the cost caused by the shutdown dust removal is obviously reduced, and the cleanness of the environment.

3. According to the invention, the threaded cap which drives the threaded connection is driven to pull the wind shield to move downwards through the rotation of the threaded column, the wind shield can be attached to the upper side and the lower side of the wool fabric through the downward movement, the air blown from one side is reduced from flowing out of flying dust and splashing, the ion bar can be matched with the pulling attachment of the wool fabric through the sliding rod and the spring, the ion bar can take out static electricity on the surface of the wool fabric through internal current, the normal operation of subsequent processing work is ensured, and the dust removal use requirement is.

Drawings

FIG. 1 is a schematic structural view of a front cross section of a high-efficiency dust removing device for wool fabrics for spinning, which is provided by the invention;

FIG. 2 is an enlarged schematic structural view of part A in FIG. 1 of the efficient dust removing device for wool fabrics for spinning provided by the invention;

FIG. 3 is an enlarged schematic structural view of a part B in FIG. 1 of the high-efficiency dust removing device for the wool fabrics for spinning provided by the invention;

FIG. 4 is an enlarged schematic structural view of a part C in FIG. 1 of the high-efficiency dust removing device for the wool fabrics for spinning provided by the invention;

FIG. 5 is a schematic view of a three-dimensional structure of an ion bar of the high-efficiency dust removing device for wool fabrics for spinning provided by the invention;

FIG. 6 is a schematic view of a three-dimensional structure of a dust removing mechanism of the high-efficiency dust removing device for wool fabrics for spinning provided by the invention;

fig. 7 is a schematic view of a three-dimensional structure of a mesh enclosure of the efficient dust removing device for the wool fabrics for spinning provided by the invention.

Illustration of the drawings:

1. a dust removal mechanism; 101. a lower housing; 102. an upper housing; 103. a first chute; 104. a first slider; 105. a mesh enclosure; 106. a conductive wire mesh; 107. a gasket; 108. a pump air pipe; 109. an air nozzle; 110. a groove; 111. a hydraulic cylinder; 112. a through hole; 113. a placement groove; 2. a filtering mechanism; 201. a filter shell; 202. a filter element; 203. air holes are formed; 204. an exhaust pipe; 205. an inflation branch pipe; 3. a shielding mechanism; 301. a windshield; 302. a threaded cap; 303. a threaded post; 304. a second chute; 305. a bearing; 306. a rotating shaft; 307. a wind deflector; 4. a charge removing mechanism; 401. a fixed seat; 402. a sliding sleeve; 403. a slide bar; 404. a spring; 405. a top block; 406. a clamping block; 407. an ion rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the 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, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: a high-efficiency dust removal device for wool fabrics for spinning comprises a dust removal mechanism 1, wherein a filter mechanism 2 is arranged at the top of the dust removal mechanism 1, a shielding mechanism 3 is arranged on one side of the dust removal mechanism 1, and a de-electrifying mechanism 4 is arranged on the other side of the dust removal mechanism 1;

the filtering mechanism 2 comprises an upper shell 102 and a lower shell 101, wherein the four corners of the top of the lower shell 101 are respectively provided with a placing groove 113, the bottom of the inner cavity of the placing groove 113 is fixedly connected with a hydraulic cylinder 111, opposite surfaces of the upper shell 102 and the lower shell 101 are respectively and fixedly connected with a sealing gasket 107, a groove 110 and a through hole 112 are respectively arranged between the sealing gaskets 107 at corresponding positions, a hydraulic rod of the hydraulic cylinder 111 passes through the through hole 112 and the groove 110 to be fixedly connected with the bottom of the upper shell 102, one side of each sealing gasket 107 is provided with an opening, two sides of the inner cavities of the upper shell 102 and the lower shell 101 are respectively provided with a first sliding groove 103, the first sliding groove 103 is in sliding connection with a first sliding block 104, a mesh enclosure 105 is fixedly connected between the first sliding blocks 104 at a horizontal position, the inner cavity of the mesh enclosure 105 is provided with a conductive wire mesh 106, one side of the pumping air pipe 108 is communicated with an air nozzle 109;

the gasket 107 is an elastic plastic gasket, and the width of the gasket 107 is equal to the width of the upper housing 102.

The inflation branch pipe 205 is communicated with an external inflation fan, and the exhaust pipe 204 is communicated with an external exhaust pipeline.

The cross sections of the first sliding block 104 and the first sliding groove 103 are both T-shaped, and a shifting opening is formed in one side of the first sliding groove 103.

The implementation mode is specifically as follows: when the wool fabric needs to be dedusted, the external control switch is operated to control the hydraulic rod of the hydraulic cylinder 111 to extend, the hydraulic rod of the hydraulic cylinder 111 extends to lift the upper shell 102 to drive the bottom sealing gasket 107 to be separated from the lower shell 101, the sealing gasket 107 can seal a gap between the upper shell 102 and the lower shell 101, dust splashing during dedusting is effectively reduced, the upper shell 102 moves to drive the windshields 301 and the fixing seats 401 at two sides to be separated from the windshields 301 and the fixing seats 401 at the corresponding positions at the bottom, the wool fabric is directly moved into the opening at one side of the sealing gasket 107 from the winding device at one side, the hydraulic rod is operated to drive the hydraulic rod to shorten and pull the upper shell 102 to be attached to the lower shell 101, the rear winding mechanism pulls the wool fabric to move between the upper shell 102 and the lower shell 101, and the external switch controls the high potential conductor connected with the outside to be electrified, meanwhile, an external fan blows air into the air nozzle 109 through the air pumping pipe 108, the air nozzle 109 blows residues and flying dust on the surface of the wool fabric, the flying dust is blown to be separated from the wool fabric, when the wool fabric flying dust passes through the mesh enclosure 105 and the conductive wire mesh 106, the mesh enclosure 105 slides in the first sliding groove 103 through the first sliding block 104 on one side, the mesh enclosure 105 is convenient to move out and replace from the first sliding groove 103, an opening is formed in one side of the first sliding groove 103, the first sliding block 104 can move out after sliding to the tail end of the first sliding groove 103, the flying dust can be adsorbed on the surface of the conductive wire mesh 106 through an electrostatic field, therefore, the flying dust of the wool fabric can be rapidly removed and adsorbed through the conductive wire mesh 106, meanwhile, flying dust scattering is reduced through the adhesion of the sealing gasket 107, the surface of the wool fabric is blown through air circulation, the wool fabric can be dried while being subjected to dust removal, and the wool fabric is conveniently wound and placed by jacking the upper shell 102 and the lower shell 101, so that the dust removal difficulty of workers is reduced, the dust removal efficiency can be obviously improved, and the dust removal use requirement is met.

Filter mechanism 2 is including straining shell 201, strain shell 201 and inlay and locate last casing 102 inner chamber top, it has seted up a plurality of bleeder vents 203 to go up the corresponding position of casing 102 inner chamber, it has filter element 202 to go up casing 102 inner chamber, it has blast pipe 204 to go up casing 102 top intercommunication, blast pipe 204 opposite side intercommunication has aerifys branch pipe 205, and aerifys branch pipe 205 top and be equipped with the valve body, filter element 202 is the stainless steel wire net component, strain shell 201 both sides all through bolt and last casing 102 swing joint.

The implementation mode is specifically as follows: when more flying dust is accumulated on the surface of the conductive wire mesh 106, the electrostatic field is removed by cutting off the power on the surface of the conductive wire mesh 106 after the textile wire stops working, after the air nozzle 109 continues to blow air, the flying dust adsorbed on the surfaces of the two-side mesh enclosure 105 and the conductive wire mesh 106 can be blown by blowing, meanwhile, the flying dust can be sucked out by the external air draft negative pressure of the exhaust pipe 204, after entering the filter element 202 through the plurality of air vents 203 for filtration, the air is discharged through the exhaust pipe 204, the exhaust pipe 204 can avoid the vacuum closed state between the upper shell 102 and the lower shell 101, the gas can flow to drive the flying dust to be attached to the electrostatic field during dust removal, the inflation branch pipe 205 on one side of the exhaust pipe 204 can be inflated for backwashing, and the dust removal efficiency is improved, and the filter element 202 in the filter shell 201 can be rapidly assembled and replaced by disassembling the filter shell 201, so that the frequency, the cost caused by dust removal shutdown is obviously reduced, and the cleanliness of the environment in a workshop is ensured.

The shielding mechanism 3 comprises two wind shields 301, one sides of the two wind shields 301 are fixedly connected with one sides of an upper shell 102 and a lower shell 101 respectively, a second sliding groove 304 is formed in one side of the wind shield 301, a threaded cap 302 is connected in the second sliding groove 304 in a sliding manner, a threaded column 303 is connected in the threaded cap 302 in a threaded manner, rotating shafts 306 are fixedly connected to two ends of the threaded column 303, bearings 305 are sleeved on the outer side walls of the rotating shafts 306, the two bearings 305 are respectively embedded in two sides of the inner cavity of the second sliding groove 304, a handle is fixedly connected to the top of the rotating shaft 306 above, a wind shield 307 is fixedly connected to the other side of the threaded cap 302, and the wind shield 307 is located;

the electricity removal mechanism 4 comprises two fixing seats 401, one sides of the two fixing seats 401 are respectively fixedly connected with the upper shell 102 and one side of the lower shell 101, a sliding sleeve 402 is embedded at the top of the fixing seat 401, a sliding rod 403 is connected in the sliding sleeve 402 in a sliding mode, a top block 405 is fixedly connected to the top end of the sliding rod 403, a clamping block 406 is fixedly connected to the bottom end of the sliding rod 403, an ion rod 407 is fixedly connected between the clamping blocks 406 on the two sides of the sliding rod 403, a spring 404 is sleeved on the outer side wall of the sliding rod 403, and two ends of the spring 404 are respectively fixedly connected with the.

The outer wall of the threaded cap 302 is rectangular, and the width of the threaded cap 302 is equal to the width of the inner cavity of the first sliding chute 103.

The wind screen 307 is an elastic plastic soft board, and the width of the wind screen 307 is equal to the width of the windshield 301.

The implementation mode is specifically as follows: when wool fabric enters the inner cavity of the upper shell 102 through the wind shield 301 on one side, the wind shield 301 can slide in the second chute 304 through the threaded cap 302 on one side, the handle is screwed to drive the rotating shaft 306 and the threaded cap 302 to move, the threaded cap 302 moves to drive the threaded cap 302 to pull the wind shield 307 to move downwards, the wind shield 307 moves downwards to be attached to the upper side and the lower side of the wool fabric, air flowing out blown on one side can be reduced, flying dust splashing can be effectively reduced, the wool fabric can be attached to the ion rod 407 of the electric shock mechanism on the other side after dust removal, the ion rod 407 can slide in the sliding sleeve 402 through the clamping blocks 406 on the two sides and the sliding rod 403, the sliding rod 403 drives the jacking block 405 to extrude the spring 404, the spring 404 can absorb vibration of the ion rod 407 by using self elasticity, and then the ion rod 407 can adapt to the pulling attachment of the, the ion bar 407 can remove static electricity on the surface of the wool fabric through internal current, so that normal operation of subsequent processing work is ensured, and the use requirement of dust removal is met.

The working principle is as follows: when the dust removing device is used, when dust removal is needed to be carried out on wool fabrics, the hydraulic rod of the hydraulic cylinder 111 is controlled to extend by operating the external control switch, the hydraulic rod of the hydraulic cylinder 111 extends to lift the upper shell 102 to drive the bottom sealing gasket 107 to be separated from the lower shell 101, the upper shell 102 moves to drive the two side wind shields 301 and the fixed seat 401 to be separated from the wind shield 301 and the fixed seat 401 at the corresponding positions at the bottom, the wool fabrics are directly moved into the opening at one side of the sealing gasket 107 from the winding device at one side, the hydraulic rod is driven to shorten by operating the hydraulic cylinder 111 to pull the upper shell 102 to be attached to the lower shell 101, the wool fabrics are pulled to move between the upper shell 102 and the lower shell 101 by the rear winding mechanism, the external switch controls the high-potential conductor connected externally and the conductive wire mesh 106 to be electrified to form an electrostatic field, meanwhile, the external fan blows air into the air nozzle, the fly ash is blown to be separated from the wool fabric, and when the wool fabric fly ash passes through the mesh enclosure 105 and the conductive screen 106, the fly ash can be adsorbed on the surface of the conductive screen 106 through an electrostatic field.

When more flying dust is accumulated on the surface of the conductive wire mesh 106, the electrostatic field is removed by cutting off the power on the surface of the conductive wire mesh 106 after the textile wire is stopped, after the air nozzle 109 continues to blow air, the flying dust adsorbed on the surfaces of the mesh covers 105 on the two sides and the conductive wire mesh 106 can be blown by blowing, meanwhile, the flying dust can be sucked out by the external air draft negative pressure of the exhaust pipe 204, after the flying dust enters the filter core 202 through the plurality of air vents 203 and is filtered, the air is discharged through the exhaust pipe 204, and the inflation branch pipe 205 on one side of the exhaust pipe 204 can be inflated for backwashing.

When wool fabric enters the inner cavity of the upper shell 102 through the wind shield 301 on one side, the wind shield 301 can slide in the second sliding groove 304 through the threaded cap 302 on one side, the handle is screwed to drive the rotating shaft 306 and the threaded cap 302 to move, the threaded cap 302 moves to drive the threaded cap 302 to pull the wind shield 307 to move downwards, the wind shield 307 moves downwards and can be attached to the upper side and the lower side of the wool fabric, air flowing out from one side can be reduced, the wool fabric can be attached to the ion bar 407 of the electric shock mechanism on the other side after dust removal, the ion bar 407 can slide in the sliding sleeve 402 through the clamping blocks 406 on the two sides and the sliding rod 403, the sliding rod 403 slides to drive the jacking block 405 to extrude the spring 404, the spring 404 can absorb vibration of the ion bar 407 through self elasticity, and then the ion bar 407 can.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. A high-efficiency dust removal device for wool fabrics for spinning comprises a dust removal mechanism (1), and is characterized in that a filter mechanism (2) is arranged at the top of the dust removal mechanism (1), a shielding mechanism (3) is arranged on one side of the dust removal mechanism (1), and a de-electrifying mechanism (4) is arranged on the other side of the dust removal mechanism (1);

the filtering mechanism (2) comprises an upper shell (102) and a lower shell (101), wherein the four corners of the top of the lower shell (101) are respectively provided with a placing groove (113), the bottom of the inner cavity of the placing groove (113) is fixedly connected with a hydraulic cylinder (111), sealing gaskets (107) are fixedly connected between opposite surfaces of the upper shell (102) and the lower shell (101), a groove (110) and a through hole (112) are respectively arranged between the sealing gaskets (107) at corresponding positions, a hydraulic rod of the hydraulic cylinder (111) passes through the through hole (112) and the groove (110) to be fixedly connected with the bottom of the upper shell (102), one side of each sealing gasket (107) is provided with an opening, two sides of the inner cavities of the upper shell (102) and the lower shell (101) are respectively provided with a first sliding groove (103), a first sliding block (104) is slidably connected in the first sliding groove (103), and a mesh enclosure (105), an electric conduction wire mesh (106) is arranged in the inner cavity of the mesh enclosure (105), pumping pipes (108) are embedded in two sides of the inner cavity of the sealing gasket (107), one side of each pumping pipe (108) is communicated with an external fan through a communicating pipe, and one side of each pumping pipe (108) is communicated with an air nozzle (109);

the shielding mechanism comprises two wind shields (301) of the shielding mechanism (3), wherein one sides of the two wind shields (301) are fixedly connected with one sides of an upper shell (102) and a lower shell (101) respectively, one side of the wind shield (301) is provided with a second sliding groove (304), a threaded cap (302) is connected in the second sliding groove (304) in a sliding mode, a threaded column (303) is connected in the threaded cap (302) in an internal thread mode, two ends of the threaded column (303) are fixedly connected with a rotating shaft (306), the outer side wall of the rotating shaft (306) is sleeved with a bearing (305), the two bearings (305) are respectively embedded in two sides of the inner cavity of the second sliding groove (304), a handle is fixedly connected to the top of the upper rotating shaft (306), the other side of the threaded cap (302) is fixedly connected with a wind shield (307), and;

remove electricity mechanism (4) and include two fixing base (401), and two fixing base (401) one side respectively with last casing (102) and casing (101) one side fixed connection down, fixing base (401) top is inlayed and is equipped with sliding sleeve (402), sliding sleeve (402) sliding connection has slide bar (403), slide bar (403) top fixedly connected with kicking block (405), slide bar (403) bottom fixedly connected with clamp splice (406), and fixedly connected with ion stick (407) between both sides clamp splice (406), slide bar (403) lateral wall cover is equipped with spring (404), spring (404) both ends correspond position fixed connection with kicking block (405) and sliding sleeve (402) respectively.

2. The efficient dust removal device for the wool fabrics for spinning as claimed in claim 1, wherein the filter mechanism (2) comprises a filter shell (201), the filter shell (201) is embedded in the top of the inner cavity of the upper shell (102), a plurality of air holes (203) are formed in the inner cavity of the upper shell (102) at corresponding positions, a filter element (202) is placed in the inner cavity of the upper shell (102), and the top of the upper shell (102) is communicated with an exhaust pipe (204).

3. The efficient dust removing device for the wool fabrics for spinning as claimed in claim 2 is characterized in that the other side of the exhaust pipe (204) is communicated with an inflation branch pipe (205), and a valve body is arranged at the top of the inflation branch pipe (205).

4. The dust removing device for the wool fabric for textile use of claim 1, wherein the sealing gasket (107) is an elastic plastic gasket, and the width of the sealing gasket (107) is equal to the width of the upper shell (102).

5. The efficient dust removing device for the wool fabrics for spinning is characterized in that the outer wall of the threaded cap (302) is rectangular, and the width of the threaded cap (302) is equal to the width of the inner cavity of the first sliding groove (103).

6. The efficient dust collector for wool fabrics for textile use of claim 3 is characterized in that said inflation branch pipe (205) is communicated with an external inflation fan, and said exhaust pipe (204) is communicated with an external discharge pipeline.

7. The efficient dust removal device for the wool fabrics for spinning as claimed in claim 1, wherein the cross-sectional shapes of the first sliding block (104) and the first sliding groove (103) are both T-shaped, and a displacement opening is formed at one side of the first sliding groove (103).

8. The efficient dust removing device for the wool fabrics for spinning as claimed in claim 1, wherein the wind screen (307) is an elastic plastic soft board, and the width of the wind screen (307) is equal to the width of the wind screen (301).

9. The efficient dust collector for wool fabrics for textile use of claim 2, wherein the filter core (202) is a stainless steel wire mesh member.

10. The efficient dust removing device for the wool fabrics for spinning is characterized in that both sides of the filter shell (201) are movably connected with the upper shell (102) through bolts.