CN113322650A

CN113322650A - Non-woven fabric dust removal device based on static electricity and dust removal method thereof

Info

Publication number: CN113322650A
Application number: CN202110395288.7A
Authority: CN
Inventors: 赵山伟
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-04-13
Filing date: 2021-04-13
Publication date: 2021-08-31

Abstract

The invention discloses a non-woven fabric dust removal device based on static electricity and a dust removal method thereof, and relates to the technical field of dust removal devices. This non-woven fabrics dust collector based on static, including the transmission mount, the position swing joint that the inner wall of transmission mount is close to the bottom has transport mechanism, the position fixedly connected with dust adsorption device that the inner wall of transmission mount is close to the top, the bottom of dust adsorption device is through the transmission mount that sets up and transport mechanism's outer wall swing joint. This non-woven fabrics dust collector and dust removal method based on static, after fixing the non-woven fabrics, utilize static to adsorb the dust on the non-woven fabrics, absorbed the dust and kept away from the position of non-woven fabrics and collect the dust, the absorbent efficiency of dust is than higher to can not influence the quality of finished product non-woven fabrics, not only reduce the damage to the non-woven fabrics, can also prevent that the dust from floating in the atmosphere, produce the harm to workman's health.

Description

Non-woven fabric dust removal device based on static electricity and dust removal method thereof

Technical Field

The invention relates to the technical field of dust removal devices, in particular to a non-woven fabric dust removal device based on static electricity and a dust removal method thereof.

Background

The non-woven fabric, also called non-woven fabric, is formed from oriented or random fibre, is a new generation of environment-protecting material, and possesses the characteristics of moisture-proofing, air-permeability, flexibility, light weight, no combustion-supporting, easy decomposition, non-toxic, non-irritant, rich colour, low cost and can be cyclically reused. For example, the polypropylene fiber is produced by adopting polypropylene granules as raw materials through a continuous one-step method of high-temperature melting, spinning, laying a line and hot-pressing coiling. It is called a cloth because of its appearance and certain properties. And the structure of non-woven fabrics makes the non-woven fabrics be infected with the dust easily, so need remove dust to the non-woven fabrics in the production process of non-woven fabrics, and the dust of adhesion in the non-woven fabrics is hardly drawn to conventional dust catcher, makes the non-woven fabrics produce the damage very easily moreover.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a non-woven fabric dust removing device based on static electricity and a dust removing method thereof.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a non-woven fabrics dust collector based on static, includes the transmission mount, the position swing joint that the inner wall of transmission mount is close to the bottom has transport mechanism, the position fixedly connected with dust adsorption device that the inner wall of transmission mount is close to the top, the bottom of dust adsorption device is through the transmission mount that sets up and transport mechanism's outer wall swing joint.

Preferably, the structure of the dust adsorption mechanism comprises a dust adsorption box mechanism, an air pump and a dust collection box, the position, close to the center, of the inner top end of the transmission fixing frame is provided with the dust adsorption box mechanism, the position, close to the dust adsorption box mechanism, of the back face of the transmission fixing frame is fixedly connected with the air pump and the dust collection box, and the outer walls of the air pump and the dust collection box are communicated with the inner wall of the dust adsorption box mechanism through the transmission fixing frame.

Preferably, the structure of the dust adsorption box mechanism comprises a fixed box, a rotary adsorption mechanism, a collecting tank and first permanent magnets, the position, close to the left side and the right side, of the inner wall of the fixed box is movably connected with the collecting tank, the inner wall of the collecting tank is communicated with the inner wall of the air pump and the dust collecting tank, the position, close to the collecting tank, of the inner wall of the fixed box is movably connected with the rotary adsorption mechanism, the inner wall of the rotary adsorption mechanism is movably connected with the outer wall of the collecting tank through the arranged fixed box, the inner top end of the fixed box is fixedly connected with the first permanent magnets, and the outer wall of the first permanent magnets is movably connected with the outer wall of the rotary adsorption mechanism through the arranged fixed box.

Preferably, the structure of the rotary adsorption mechanism comprises a fixed ring, a connecting hole, a corrugated pipe, a sealed telescopic pipe, a permanent magnet movable block, an air vent, a first rotary shaft, an electrostatic generator and an electrostatic adsorption ring, the outer wall of the fixed ring is uniformly provided with the connecting hole, the inner wall of the connecting hole is communicated with the inner wall of the collecting tank, the position of the outer wall of the fixed ring, which is close to the connecting hole, is movably connected with the sealed telescopic pipe, the position of the outer wall of the fixed ring, which is close to the connecting hole, is fixedly connected with the corrugated pipe, the inner wall of the corrugated pipe is movably connected with the outer wall of the sealed telescopic pipe through the arranged fixed ring, the inner wall of the corrugated pipe is communicated with the inner wall of the collecting tank through the arranged fixed ring, one side of the outer wall of the sealed telescopic pipe, which is far away from the fixed ring, is fixedly connected with the permanent magnet movable block, one side of the outer wall of the permanent magnet movable block, which is close to the sealed telescopic pipe, is fixedly connected with the outer wall of the corrugated pipe, the permanent magnet movable block is internally provided with a vent hole, and the inner wall of the vent hole is communicated with the inner wall of the connecting hole through a corrugated pipe.

Preferably, the outer wall of permanent magnetism movable block keeps away from the even fixedly connected with bracing piece in the position of sealed flexible pipe, one side swing joint that the permanent magnetism movable block was kept away from to the outer wall of bracing piece has first axis of rotation, the outer wall swing joint of first axis of rotation has electrostatic generator, the inner wall of electrostatic generator is through the first axis of rotation that sets up and the outer wall swing joint of bracing piece, the outer wall swing joint of electrostatic generator has the electrostatic absorption circle, the outer wall of electrostatic absorption circle is through the electrostatic generator who sets up and the outer wall swing joint of first axis of rotation.

Preferably, transport mechanism's structure includes second axis of rotation, counter weight loose axle and second permanent magnetism piece, the position swing joint that the inner wall of transmission mount is close to the bottom has the second axis of rotation, the outer wall swing joint of second axis of rotation has the conveyer belt, the top swing joint that the inner wall of transmission mount is close to the second axis of rotation has the counter weight loose axle, the position fixedly connected with second permanent magnetism piece that the inner wall of transmission mount is close to the second axis of rotation, the outer wall swing joint of the outer wall of second permanent magnetism piece through the transmission mount that sets up and dust adsorption apparatus structure.

A dedusting method of a non-woven fabric dedusting device based on static electricity comprises the following steps:

s1: the non-woven fabric is flatly laid at the top end of the conveyor belt and is flatly pressed by the outer wall of the counterweight movable shaft and the top end of the conveyor belt when passing through the counterweight movable shaft;

s2: the second permanent magnet block generates attraction force on the permanent magnet movable block, so that the sealing extension tube is stretched and closed, and meanwhile, the outer wall of the electrostatic adsorption ring generates friction on the non-woven fabric, so that the electrostatic generator generates static electricity, and the non-woven fabric generates a dust adsorption effect;

s3: the permanent magnet movable block is pushed by the magnetic force of the first permanent magnet block to move to the position of the collecting groove, so that the sealed telescopic sealing pipe is opened;

s4: the air flow enters the inner wall of the vent hole from the outer wall of the electrostatic adsorption ring and then enters the inner wall of the corrugated pipe through the inner wall of the vent hole, and the air flow carries dust and enters the inner wall of the collecting tank from the inner wall of the corrugated pipe through the connecting hole;

s5: the air flow enters the air pump and the dust collecting box due to the negative pressure in the collecting tank.

The invention provides a non-woven fabric dust removal device based on static electricity and a dust removal method thereof. The method has the following beneficial effects:

(1) this non-woven fabrics dust collector and dust removal method based on static, after fixing the non-woven fabrics, utilize static to adsorb the dust on the non-woven fabrics, absorbed the dust and kept away from the position of non-woven fabrics and collect the dust, the absorbent efficiency of dust is than higher to can not influence the quality of finished product non-woven fabrics.

(2) This non-woven fabrics dust collector and dust removal method based on static, through the dust adsorption mechanism who sets up, can adsorb the dust on non-woven fabrics surface, reduce the condition that directly uses the air current to adsorb the dust and produce the damage to the quality of finished product non-woven fabrics and appear, improve the device's degree of automation, more facilitate the use.

(3) This non-woven fabrics dust collector and dust removal method based on static through the cooperation of the rotation adsorption device who sets up and first permanent magnetism piece, can collect the dust at the position farthest away from the non-woven fabrics after the dust adsorbs, not only reduces the damage to the non-woven fabrics, can also prevent that the dust from floating in the atmosphere, produces the harm to workman's health.

(4) This non-woven fabrics dust collector and dust removal method based on static through the cooperation of the first axis of rotation that sets up, electrostatic generator and electrostatic absorption circle, can adsorb the inside dust of non-woven fabrics as far as, at the frictional in-process of electrostatic absorption circle and non-woven fabrics, make during the dust gets into the gap of electrostatic absorption circle outer wall, convenient follow-up collection to the dust.

(5) This non-woven fabrics dust collector and dust removal method based on static can fix the non-woven fabrics through the transport mechanism who sets up, prevents to carry out the in-process that the dust adsorbs to the non-woven fabrics, and the non-woven fabrics produces the displacement and leads to the dust to adsorb incompletely to lead to the not thorough condition of dust removal to the non-woven fabrics to appear.

Drawings

FIG. 1 is an isometric view of the structure of the present invention;

FIG. 2 is a schematic top view of the structure of the present invention;

FIG. 3 is a front cross-sectional view of the structure of the present invention;

FIG. 4 is an enlarged view of the structure at A in FIG. 3 according to the present invention;

FIG. 5 is an enlarged view of the structure at B in FIG. 4 according to the present invention;

FIG. 6 is an enlarged view of the structure at C in FIG. 5 according to the present invention.

In the figure: 1. a transmission fixing frame; 2. a dust adsorption mechanism; 21. a dust adsorption box mechanism; 211. a fixing box; 212. rotating the adsorption mechanism; 2121. a stationary ring; 2122. connecting holes; 2123. a bellows; 2124. sealing the telescopic pipe; 2125. a permanent magnet movable block; 2126. a vent hole; 2127. a first rotating shaft; 2128. an electrostatic generator; 2129. an electrostatic adsorption ring; 213. collecting tank; 214. a first permanent magnet; 22. an air pump and a dust collecting box; 3. a transport mechanism; 31. a second rotating shaft; 32. a counterweight movable shaft; 33. and the second permanent magnet block.

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.

Examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

Referring to fig. 1-6, the present invention provides a technical solution: the utility model provides a non-woven fabrics dust collector based on static, including transmission mount 1, the position swing joint that the inner wall of transmission mount 1 is close to the bottom has transport mechanism 3, the position fixedly connected with dust adsorption mechanism 2 that the inner wall of transmission mount 1 is close to the top, the bottom of dust adsorption mechanism 2 is through the outer wall swing joint of transmission mount 1 and transport mechanism 3 that sets up, the position that the inside of transmission mount 1 is close to the bottom is provided with the motor, provide power for the device.

The structure of the dust adsorption mechanism 2 comprises a dust adsorption box mechanism 21 and an air pump and dust collection box 22, the dust adsorption box mechanism 21 is arranged at the position close to the center of the inner top end of the transmission fixing frame 1, the air pump and dust collection box 22 is fixedly connected with the position close to the dust adsorption box mechanism 21 on the back surface of the transmission fixing frame 1, and the outer wall of the air pump and dust collection box 22 is communicated with the inner wall of the dust adsorption box mechanism 21 through the arranged transmission fixing frame 1.

The structure of dust adsorption box mechanism 21 includes fixed box 211, rotation adsorption mechanism 212, collecting vat 213 and first permanent magnetism piece 214, the position swing joint that the inner wall of fixed box 211 is close to the left and right sides has collecting vat 213, the inner wall of collecting vat 213 link up with the inner wall of air pump and dust collecting box 22, the position swing joint that the inner wall of fixed box 211 is close to collecting vat 213 has rotation adsorption mechanism 212, the inner wall of rotation adsorption mechanism 212 is through the fixed box 211 that sets up and the outer wall swing joint of collecting vat 213, the interior top end fixedly connected with first permanent magnetism piece 214 of fixed box 211, the outer wall of first permanent magnetism piece 214 is through the fixed box 211 that sets up and the outer wall swing joint who rotates adsorption mechanism 212, the inner wall of collecting vat 213 link up with the inner wall of air pump and dust collecting box 22 through the fixed box 211 that sets up.

The structure of the rotary adsorption mechanism 212 includes a fixed ring 2121, a connecting hole 2122, a corrugated pipe 2123, a sealing extension pipe 2124, a permanent magnetic movable block 2125, an air vent 2126, a first rotating shaft 2127, an electrostatic generator 2128 and an electrostatic adsorption ring 2129, the outer wall of the fixed ring 2121 is uniformly provided with the connecting hole 2122, the inner wall of the connecting hole 2122 is communicated with the inner wall of the collecting tank 213, the outer wall of the fixed ring 2121 near the connecting hole 2122 is movably connected with the sealing extension pipe 2124, the outer wall of the fixed ring 2121 near the connecting hole 2122 is fixedly connected with the corrugated pipe 2123, the inner wall of the corrugated pipe 2123 is movably connected with the outer wall of the sealing extension pipe 2124 through the arranged fixed ring 2121, the inner wall of the corrugated pipe 2123 is communicated with the inner wall of the collecting tank 213 through the arranged fixed ring 2121, the outer wall of the sealing extension pipe 2124 far away from the fixed ring 2121 is fixedly connected with the permanent magnetic movable block 2125, one side of the outer wall of the permanent magnetic movable block 2125 near the sealing extension pipe 2124 is fixedly connected with the outer wall of the corrugated pipe 2123, an air vent 2126 is formed inside the permanent magnet movable block 2125, the inner wall of the air vent 2126 is communicated with the inner wall of the connecting hole 2122 through a corrugated pipe 2123, a supporting rod is uniformly and fixedly connected to the position, far away from the sealing telescopic pipe 2124, of the outer wall of the permanent magnet movable block 2125, one side, far away from the permanent magnet movable block 2125, of the outer wall of the supporting rod is movably connected with a first rotating shaft 2127, the outer wall of the first rotating shaft 2127 is movably connected with an electrostatic generator 2128, the inner wall of the electrostatic generator 2128 is movably connected with the outer wall of the supporting rod through the first rotating shaft 2127, an electrostatic adsorption ring 2129 is movably connected to the outer wall of the electrostatic generator 2128, the outer wall of the electrostatic adsorption ring 2129 is movably connected with the outer wall of the first rotating shaft 2127 through the electrostatic generator 2128, and an electrostatic adsorption rod is uniformly and fixedly connected to the outer wall of the electrostatic adsorption ring 2129.

Transport mechanism 3's structure includes second axis of rotation 31, counter weight loose axle 32 and second permanent magnetism piece 33, the position swing joint that the inner wall of transmission mount 1 is close to the bottom has second axis of rotation 31, the outer wall swing joint of second axis of rotation 31 has the conveyer belt, the top swing joint that the inner wall of transmission mount 1 is close to second axis of rotation 31 has counter weight loose axle 32, the position fixedly connected with second permanent magnetism piece 33 that the inner wall of transmission mount 1 is close to second axis of rotation 31, the outer wall swing joint of the outer wall of second permanent magnetism piece 33 through the transmission mount 1 that sets up and dust adsorption mechanism 2, the outer wall swing joint of counter weight loose axle 32 through the transmission mount 1 that sets up and conveyer belt.

s1: the non-woven fabric is flatly laid at the top end of the conveyor belt and is flatly pressed by the outer wall of the counterweight movable shaft 32 and the top end of the conveyor belt when passing through the counterweight movable shaft 32;

s2: the second permanent magnet 33 generates attraction force to the permanent magnet moving block 2125, so that the sealing extension tube 2124 is extended and closed, and the outer wall of the electrostatic adsorption ring 2129 generates friction to the non-woven fabric, so that the electrostatic generator 2128 generates static electricity, thereby generating a dust adsorption effect to the non-woven fabric;

s3: the permanent magnet movable block 2125 is pushed by the magnetic force of the first permanent magnet block 214 to move to the position of the collecting groove 213, so that the sealed telescopic sealing pipe 2124 is opened;

s4: the airflow enters the inner wall of the vent hole 2126 from the outer wall of the electrostatic adsorption ring 2129, and then enters the inner wall of the corrugated tube 2123 through the inner wall of the vent hole 2126, and the airflow carries dust from the inner wall of the corrugated tube 2123 to enter the inner wall of the collecting groove 213 through the connecting hole 2122;

s5: the air flow enters the interior of the air pump and dust collecting bin 22 due to the negative pressure inside the collecting tank 213.

After the device is assembled, the motor at the bottom end of the transmission fixing frame 1 is electrified with the air pump and the dust collecting box 22, the motor at the bottom end of the transmission fixing frame 1 is electrified to drive the second rotating shaft 31 to rotate, so as to drive the conveyor belt to rotate anticlockwise, the air pump and the dust collecting box 22 are electrified to drive the fixing ring 2121 to rotate, and the inside of the collecting tank 213 generates negative pressure, when the device is used, the non-woven fabric is flatly laid at the top end of the conveyor belt, the rotation of the conveyor belt can drive the non-woven fabric to move towards the left side of the device, when the non-woven fabric passes through the counterweight movable shaft 32, the outer wall of the counterweight movable shaft 32 is flatly pressed with the top end of the conveyor belt, when the connecting hole 2122 of the outer wall of the rotary adsorption mechanism 212 rotates to the bottom end of the collecting tank 213, the second permanent magnet block 33 generates attraction force to the permanent magnet movable block 2125, so that the seal 2124 telescopic pipe is stretched and sealed, and simultaneously, the outer wall of the electrostatic adsorption ring 2129 generates friction to the non-woven fabric, when the electrostatic absorption ring 2129 rubs and rotates with the first rotation shaft 2127, the electrostatic generator 2128 generates static electricity, which is conducted to the electrostatic absorption rod on the outer wall of the electrostatic absorption ring 2129, so as to generate a dust absorption effect on the non-woven fabric, after dust absorption is completed, when the connection hole 2122 rotates to the top end of the collection groove 213, the permanent magnet movable block 2125 is pushed by the magnetic force of the first permanent magnet 214 to move to the position of the collection groove 213, so that the sealed extension tube 2124 is opened, so that the airflow enters the inner wall of the air vent 2126 from the outer wall of the electrostatic absorption ring 2129, and then enters the inner wall of the bellows 2123 through the inner wall of the air vent 2126, the airflow carries the dust from the inner wall of the bellows 2123 through the connection hole 2122 and then enters the inner wall of the collection groove 213, the airflow enters the air pump and the dust collection box 22 due to the negative pressure inside the collection groove 213, and brings the dust on the outer wall of the electrostatic absorption rod into the air pump and the dust collection box 22, and after the dust adsorption is finished, the non-woven fabric is discharged from the left side of the conveying belt.

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. The utility model provides a non-woven fabrics dust collector based on static, includes transmission mount (1), its characterized in that: the inner wall of transmission mount (1) is close to the position swing joint of bottom and has transport mechanism (3), the inner wall of transmission mount (1) is close to the position fixedly connected with dust adsorption device (2) on top, the bottom of dust adsorption device (2) is through the transmission mount (1) of setting and the outer wall swing joint of transport mechanism (3).

2. The electrostatic-based nonwoven fabric dust removal device of claim 1, wherein: the structure of the dust adsorption mechanism (2) comprises a dust adsorption box mechanism (21) and an air pump and dust collection box (22), the position, close to the center, of the inner top end of the transmission fixing frame (1) is provided with the dust adsorption box mechanism (21), the position, close to the dust adsorption box mechanism (21), of the back face of the transmission fixing frame (1) is fixedly connected with the air pump and the dust collection box (22), and the outer wall of the air pump and the dust collection box (22) is communicated with the inner wall of the dust adsorption box mechanism (21) through the transmission fixing frame (1).

3. The electrostatic-based nonwoven fabric dust removal device of claim 2, wherein: the dust adsorption box mechanism (21) comprises a fixed box (211), a rotary adsorption mechanism (212), a collecting tank (213) and a first permanent magnet block (214), the inner wall of the fixed box (211) is movably connected with collecting grooves (213) at the positions close to the left side and the right side, the inner wall of the collecting tank (213) is communicated with the inner wall of the air pump and the dust collecting tank (22), the inner wall of the fixed box (211) is movably connected with a rotary adsorption mechanism (212) at a position close to the collecting groove (213), the inner wall of the rotary adsorption mechanism (212) is movably connected with the outer wall of the collecting tank (213) through a fixed box (211), the inner top end of the fixed box (211) is fixedly connected with a first permanent magnet block (214), the outer wall of the first permanent magnet block (214) is movably connected with the outer wall of the rotary adsorption mechanism (212) through a fixed box (211).

4. An electrostatic based nonwoven fabric dusting apparatus as claimed in claim 3 wherein: the structure of the rotary adsorption mechanism (212) comprises a fixed ring (2121), a connecting hole (2122), a corrugated pipe (2123), a sealed telescopic pipe (2124), a permanent magnet movable block (2125), an air vent (2126), a first rotating shaft (2127), an electrostatic generator (2128) and an electrostatic adsorption ring (2129), wherein the connecting hole (2122) is uniformly formed in the outer wall of the fixed ring (2121), the inner wall of the connecting hole (2122) is communicated with the inner wall of the collecting tank (213), the position, close to the connecting hole (2122), of the outer wall of the fixed ring (2121) is movably connected with the sealed telescopic pipe (2124), the position, close to the connecting hole (2122), of the outer wall of the fixed ring (2121) is fixedly connected with the corrugated pipe (2123), the inner wall of the corrugated pipe (2123) is movably connected with the outer wall of the sealed telescopic pipe (2124) through the arranged fixed ring (2121), and the inner wall of the corrugated pipe (2123) is communicated with the inner wall of the collecting tank (213), one side fixedly connected with permanent magnetism movable block (2125) that the retainer plate (2121) was kept away from to the outer wall of sealed flexible pipe (2124), one side that the outer wall of permanent magnetism movable block (2125) is close to sealed flexible pipe (2124) and the outer wall fixed connection of bellows (2123), air vent (2126) have been seted up to the inside of permanent magnetism movable block (2125), the inner wall of air vent (2126) link up through the inner wall of bellows (2123) and connecting hole (2122) that set up.

5. The electrostatic-based nonwoven fabric dust removal device of claim 4, wherein: the utility model discloses a seal flexible pipe (2124) is kept away from to the outer wall of permanent magnetism movable block (2125) the even fixedly connected with bracing piece in position of sealed flexible pipe (2124), one side swing joint that permanent magnetism movable block (2125) was kept away from to the outer wall of bracing piece has first axis of rotation (2127), the outer wall swing joint of first axis of rotation (2127) has electrostatic generator (2128), the outer wall swing joint of the inner wall of electrostatic generator (2128) through the first axis of rotation (2127) that set up and the outer wall swing joint of bracing piece, the outer wall swing joint of electrostatic generator (2128) has electrostatic absorption circle (2129), the outer wall of electrostatic absorption circle (2129) is through the electrostatic generator (2128) that sets up and the outer wall swing joint of first axis of rotation (2127).

6. The electrostatic-based nonwoven fabric dust removal device of claim 1, wherein: the structure of transport mechanism (3) includes second axis of rotation (31), counter weight loose axle (32) and second permanent magnetism piece (33), the position swing joint that the inner wall of transmission mount (1) is close to the bottom has second axis of rotation (31), the outer wall swing joint of second axis of rotation (31) has the conveyer belt, the top swing joint that the inner wall of transmission mount (1) is close to second axis of rotation (31) has counter weight loose axle (32), the position fixedly connected with second permanent magnetism piece (33) that the inner wall of transmission mount (1) is close to second axis of rotation (31), the outer wall swing joint of the outer wall of second permanent magnetism piece (33) through transmission mount (1) that sets up and dust adsorption apparatus (2).

7. A dedusting method of a non-woven fabric dedusting device based on static electricity is characterized in that: comprises the following steps of (a) carrying out,

s1: the non-woven fabric is flatly laid at the top end of the conveyor belt and is flatly pressed by the outer wall of the counterweight movable shaft (32) and the top end of the conveyor belt when passing through the counterweight movable shaft (32);

s2: the second permanent magnet block (33) generates attraction force on the permanent magnet movable block (2125), so that the sealing extension tube (2124) is extended and closed, and meanwhile, the outer wall of the electrostatic adsorption ring (2129) generates friction on the non-woven fabric, so that the electrostatic generator (2128) generates static electricity, and a dust adsorption effect is generated on the non-woven fabric;

s3: the permanent magnet movable block (2125) is pushed by the magnetic force of the first permanent magnet block (214) to move to the position of the collecting tank (213), so that the sealed telescopic sealing pipe (2124) is opened;

s4: the airflow enters the inner wall of the vent hole (2126) from the outer wall of the electrostatic adsorption ring (2129), then enters the inner wall of the corrugated pipe (2123) through the inner wall of the vent hole (2126), and carries dust to enter the inner wall of the collecting tank (213) from the inner wall of the corrugated pipe (2123) through the connecting hole (2122);

s5: the air flow enters the interior of the air pump and dust collecting tank (22) because of the negative pressure inside the collecting tank (213).