CN112746423A

CN112746423A - Huff-puff impurity removing device for fabric desizing process

Info

Publication number: CN112746423A
Application number: CN202011463984.9A
Authority: CN
Inventors: 刘凤
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-14
Filing date: 2020-12-14
Publication date: 2021-05-04

Abstract

The invention discloses a huff-puff impurity cleaning device for fabric desizing process, belonging to the technical field of fabric desizing process, which can be placed in desizing water when the fabric is subjected to hot water desizing, after the desizing water enters a supporting spherical shell, an electric telescopic rod is started through a control switch, the supporting spherical shell can repeatedly suck and discharge the desizing water through a water inlet and outlet pipe through the arrangement of a huff-puff driving component, impurities can enter along with water when the desizing water is sucked, the impurities are filtered and remained in the supporting spherical shell when the desizing water is discharged, thereby achieving the purpose of removing the impurities, the invention is also provided with a specially-made static impurity suction component, the static impurity suction component can generate spontaneous static electricity and adsorb the filtered impurities to the surface of an isolating membrane when the desizing water is discharged, thereby effectively preventing the impurities from blocking a fan-shaped filter screen, the practicability is greatly improved, sundries can be removed during desizing, and the working efficiency is improved.

Description

Huff-puff impurity removing device for fabric desizing process

Technical Field

The invention relates to the technical field of fabric desizing processes, in particular to a huff-puff impurity removing device for a fabric desizing process.

Background

In the weaving process, the warp yarns can be subjected to larger tension and friction and are easy to break, so that in order to reduce broken warp and improve the weaving efficiency and the grey cloth quality, the warp yarns need to be subjected to sizing treatment before weaving, and the breaking strength and the wear resistance of the yarns are improved; although the sizing is beneficial to weaving, the sizing brings difficulties to the subsequent dyeing and finishing process and influences the printing and dyeing effect, so that the woven fabric needs to be subjected to desizing treatment before printing and dyeing.

The hot water desizing method is one of common desizing processes, after desizing is finished, sundries such as cloth scraps, thread ends and the like on the fabric can remain in hot water, if the hot water is directly used as waste water to be discharged, waste of water resources can be caused, and if the hot water is required to be recycled, the sundries need to be cleaned, so that the huff-puff type impurity cleaning device for the fabric desizing process is provided.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a huff-and-puff impurity removing device for a fabric desizing process, which can be used for putting the device in desizing water when hot water desizing is carried out on fabrics, starting an electric telescopic rod through a control switch after the desizing water enters a supporting spherical shell, enabling the supporting spherical shell to repeatedly suck and discharge the desizing water through a water inlet pipe and a water outlet pipe through the arrangement of a huff-and-puff driving component, enabling impurities to enter along with water when the desizing water is sucked in through the setting of a huff-and-puff filter pipe, filtering the impurities and leaving the impurities in the supporting spherical shell when the desizing water is discharged, thereby achieving the purpose of removing the impurities, and further being provided with a special electrostatic impurity absorbing component which can spontaneously generate static electricity and absorb the filtered impurities onto the surface of an isolating membrane when the desizing water is discharged, thereby effectively preventing the impurities from blocking a fan-shaped filter screen, the device has the advantages of greatly improving practicability, ingenious structure and convenient use, can clear sundries in the desizing process, does not need to wait for the completion of desizing, and can improve the working efficiency.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A throughput type impurity removing device for a fabric desizing process comprises a balance floating plate, wherein a support spherical shell is fixedly connected below the balance floating plate through two suspenders, a plurality of throughput filter tubes are arranged on the outer wall of the support spherical shell and are uniformly distributed along the spherical surface of the support spherical shell, each throughput filter tube comprises a water inlet pipe and a water outlet pipe which fixedly penetrate through the outer wall of the support spherical shell, a plurality of fan-shaped impurity filtering pieces are fixedly connected to the inner wall of the water inlet pipe and the water outlet pipe, two connecting rods are fixedly connected to the inner wall of the water inlet pipe and the water outlet pipe, a limiting ring is fixedly connected between the connecting rods, a sealing box is fixedly connected to the top end of the balance floating plate, a throughput driving assembly is arranged in the sealing box and comprises a pumping and spitting air cylinder, an electric telescopic rod, a power supply and a control switch, and a pumping and spitting piston matched with the pumping and spitting, the device comprises a pumping and spitting piston and is characterized in that a T-shaped push-pull rod is fixedly connected to the top end of the pumping and spitting piston, the T-shaped push-pull rod penetrates through the outer wall of the top of a pumping and spitting cylinder and is in sliding connection with the pumping and spitting cylinder, the bottom end of the pumping and spitting cylinder is communicated with a connecting air pipe, the connecting air pipe penetrates through the outer wall of a balance floating plate and extends to the inside of the balance floating plate, an elastic ball bag is fixedly connected with the connecting air pipe, an elastic ball sleeve matched with the elastic ball bag is sleeved on.

Further, the static gettering subassembly is including offering the dynamic change through-hole on the spherical cover outer wall of elasticity to and the friction pipe of fixed connection on elasticity sacculus outer wall, move a plurality of friction ropes of fixedly connected with on the inner wall of change through-hole, the friction rope runs through the outer wall of friction pipe and rather than sliding connection, move the annular elasticity adapter sleeve of fixedly connected with on the inner wall of change through-hole, the pull ring is prevented to the inboard fixedly connected with of elasticity adapter sleeve, fixedly connected with barrier film on the inner wall of pull ring.

Furthermore, the friction tube and the friction rope are respectively made of two different materials of polyurethane, nylon, acetate fiber, polypropylene, polyester, polyacrylonitrile and polyvinyl chloride, so that static electricity can be generated by friction between the friction tube and the friction rope, the elastic balloon and the elastic spherical sleeve are both made of elastic insulating materials, the static electricity generated by friction between the friction tube and the friction rope can be prevented from being conducted away by the elastic balloon and the elastic spherical sleeve, through the arrangement of the static electricity impurity absorbing component, when the elastic balloon is inflated and expanded to extrude water from the supporting spherical shell, the elastic spherical sleeve can be driven to expand, the aperture of the variable through hole is enlarged, so that the friction rope is pulled to move towards the outside of the friction tube, sliding friction is generated between the friction tube and the friction tube, static electricity is generated, the static electricity has an adsorption effect on sundries such as cloth scraps, thread ends and the like, and sundries left in the supporting spherical shell by the fan-shaped filter screen can be adsorbed to the surface of the isolating membrane, thereby effectively preventing sundries from blocking the fan-shaped filter screen and greatly improving the practicability.

Furthermore, the barrier film is waterproof ventilated membrane, and the barrier film can play a barrier effect to water, makes friction pipe, friction rope department keep dry, the elasticity adapter sleeve adopts elastic rubber material to make, the elasticity adapter sleeve, prevent the setting of pull ring, the elasticity adapter sleeve can be stretched the grow that adapts to dynamic variation through-hole aperture to prevent that the barrier film from stretching rupture.

Furthermore, the friction rope is located the intraductal one end fixedly connected with anticreep ball of friction, and the anticreep ball can prevent that friction rope and friction pipe break away from.

Furthermore, it is a plurality of fan-shaped miscellaneous piece of straining is annular evenly distributed, and two adjacent fan-shaped miscellaneous pieces of straining's side pastes mutually, fan-shaped miscellaneous piece of straining includes fan-shaped connection piece and fan-shaped filter screen.

Furthermore, one end of the fan-shaped connecting piece is embedded into the inner wall of the water inlet and outlet pipe, the other end of the fan-shaped connecting piece is fixedly connected with the fan-shaped filter screen, and the fan-shaped connecting piece is made of elastic metal sheet materials.

Furthermore, the spacing ring sets up in the inside one side of support spherical shell is kept away from to fan-shaped miscellaneous piece of straining, and the spacing ring offsets with fan-shaped miscellaneous piece of straining, through the setting of the chimney filter, after the device was put into the aquatic of destarch usefulness, water pressure can oppress fan-shaped miscellaneous piece of straining, make fan-shaped connection piece incurve, thereby make fan-shaped miscellaneous piece of straining inwards expand, and then make water and debris can enter into through business turn over water pipe and support the spherical shell, but when the inflation of elasticity sacculus outwards extruded water, under the limiting displacement of spacing ring, fan-shaped connection piece can't the incurve, and then make fan-shaped miscellaneous piece of straining can't the evagination, thereby make fan-shaped filter screen can play a filtering action, filter debris in supporting the spherical shell, and then reach a mesh of cleaing away debris.

Further, take out and spit an air section of thick bamboo and run through balanced bottom outer wall and the balanced board that floats of floating the board, electric telescopic handle, power fixed mounting are on the inner wall of seal box, control switch fixed mounting is on the top outer wall of seal box, electric telescopic handle is connected with power, control switch electricity, and the power can provide the electric energy for electric telescopic handle, and control switch can be convenient for control electric telescopic handle's start-up and stop.

Furthermore, one end of the T-shaped push-pull rod, which is far away from the pumping and spitting piston, is fixedly connected with the output end of the electric telescopic rod, the connecting air pipe is communicated with the interior of the elastic balloon, the electric telescopic rod is started through the arrangement of the handling driving assembly, the electric telescopic rod can drive the pumping and spitting piston to move up and down back and forth through the T-shaped push-pull rod, when the pumping and spitting piston moves downwards, air in the pumping and spitting cylinder can be squeezed into the elastic balloon through the connecting air pipe, the elastic balloon is expanded, water in the supporting spherical shell can be squeezed outwards through the expansion of the elastic balloon, when the pumping and spitting piston moves upwards, the elastic balloon can be contracted, and then water can enter the supporting spherical shell, so that the purposes of repeatedly sucking and spitting water can be achieved, and the action effect of the device is guaranteed.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) when the technical scheme is used for hot water desizing of the fabric, the device can be placed in desizing water, after the desizing water enters the supporting spherical shell, the electric telescopic rod is started through the control switch, the supporting spherical shell can repeatedly suck and discharge the desizing water through the water inlet and outlet pipe through the arrangement of the huff-puff driving assembly, impurities can enter along with the water when the desizing water is sucked, the impurities are filtered and left in the supporting spherical shell when the desizing water is discharged, so that the purpose of removing the impurities is achieved, the device is further provided with a specially-made static impurity suction assembly, the static impurity suction assembly can spontaneously generate static electricity and adsorb the filtered impurities to the surface of an isolating membrane when the desizing water is discharged, thereby effectively preventing the impurities from blocking a fan-shaped filter screen, greatly improving the practicability, the device is ingenious in structure and convenient to use, and can remove the impurities in the desizing process, the working efficiency can be improved without waiting for the completion of desizing.

(2) Through the setting of taking in and sending out the chimney filter, after the device was put into the aquatic of desizing usefulness, water pressure can oppress fan-shaped miscellaneous piece of straining, make fan-shaped connection piece incurve, thereby make fan-shaped miscellaneous piece of straining inwards expand, and then make water and debris can enter into through business turn over water pipe and support the spherical shell, nevertheless when the inflation of elasticity sacculus outwards extrudees water, under the limiting displacement of spacing ring, fan-shaped connection piece can't the incurve, and then make fan-shaped miscellaneous piece of straining can't the evagination, thereby make fan-shaped filter screen can play a filtering action, filter debris in supporting the spherical shell, and then reach a mesh of cleaing away debris.

(3) Through the setting of taking in and sending out drive assembly, start electric telescopic handle, can make electric telescopic handle drive through T type push-and-pull rod and take out and tell piston round trip movement from top to bottom, when taking out to tell piston downstream, can be with taking out the air in the spitting cylinder and crowd into the elasticity sacculus through connecting the trachea, make the elasticity sacculus inflation, the inflation of elasticity sacculus can outwards extrude the water in supporting the spherical shell, when taking out to tell piston upstream, can make the elasticity sacculus shrink, and then make water get into and support in the spherical shell, so relapse, can reach a and inhale repeatedly, the purpose of spitting out water, thereby guarantee the effect of device.

(4) Through the setting of static gettering subassembly, when elasticity sacculus inflation extrudees water from supporting the spherical shell, can drive elasticity spherical sleeve and expand, make the aperture grow in messenger's flexible through-hole, thereby pulling friction rope removes to the friction tube outside, make and take place sliding friction between friction rope and the friction tube, and produce static, static is to the cloth bits, debris such as end of a thread have adsorption, carry out and can be adsorbed to the surface of barrier film by debris that fan-shaped filter screen filters stay in supporting the spherical shell, thereby effectually prevent that debris from blockking up fan-shaped filter screen, the practicality has been improved greatly.

(5) The barrier film is waterproof ventilated membrane, and the barrier film can play a separation effect to water, makes friction pipe, friction rope department keep dry, and the elastic connection cover adopts elastic rubber material to make, the elastic connection cover, prevent the setting of pull ring, the elastic connection cover can be stretched the grow that adapts to dynamic variation through-hole aperture to prevent that the barrier film from tensile rupture.

(6) The friction rope is located the intraductal one end fixedly connected with anticreep ball of friction, and the anticreep ball can prevent that friction rope and friction pipe break away from.

Drawings

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

FIG. 2 is an enlarged view taken at A of FIG. 1 in accordance with the present invention;

FIG. 3 is a schematic structural view of a sector filter of the present invention;

FIG. 4 is a schematic cross-sectional view of a huff-and-puff tube according to the present invention;

FIG. 5 is a cross-sectional view of the interior of the support sphere of the present invention;

FIG. 6 is an enlarged view taken at B of FIG. 5 in accordance with the present invention;

fig. 7 is a cross-sectional view of the inside of the hermetic case of the present invention.

The reference numbers in the figures illustrate:

101. a balance floating plate; 102. a boom; 103. supporting the spherical shell; 104. a sealing box; 002. a huff and puff filter tube; 201. a water inlet pipe and a water outlet pipe; 202. a fan-shaped connecting sheet; 203. a fan-shaped filter screen; 204. a connecting rod; 205. a limiting ring; 301. pumping an air spitting cylinder; 302. an electric telescopic rod; 303. a power source; 304. a piston is pumped and discharged; 305. a T-shaped push-pull rod; 306. connecting an air pipe; 307. a control switch; 308. an elastic balloon; 309. an elastic spherical sleeve; 401. a dynamically varying through hole; 402. a friction tube; 403. a friction rope; 404. anti-drop balls; 405. an elastic connecting sleeve; 406. an anti-pull ring; 407. and (3) a barrier film.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

referring to fig. 1-4, a huff-and-puff impurity removing device for fabric desizing process comprises a balance floating plate 101, a support spherical shell 103 is fixedly connected below the balance floating plate 101 through two suspenders 102, a plurality of huff-and-puff filter tubes 002 are arranged on the outer wall of the support spherical shell 103, the huff-and-puff filter tubes 002 are uniformly distributed along the spherical surface of the support spherical shell 103, the huff-and-puff filter tubes 002 comprise a water inlet and outlet pipe 201 fixedly penetrating through the outer wall of the support spherical shell 103, a plurality of fan-shaped impurity filtering sheets are fixedly connected on the inner wall of the water inlet and outlet pipe 201, the fan-shaped impurity filtering sheets are uniformly distributed in a ring shape, the side edges of two adjacent fan-shaped impurity filtering sheets are attached to each other, each fan-shaped impurity filtering sheet comprises a fan-shaped connecting sheet 202 and a fan-shaped filter screen 203, one end of the fan-shaped connecting sheet 202 is embedded into the inner wall of the water, the limiting ring 205 is arranged on one side of the fan-shaped impurity filtering sheet far away from the interior of the supporting spherical shell 103, the limiting ring 205 is abutted against the fan-shaped impurity filtering sheet, after the device is placed into water for desizing through the arrangement of the huff-puff filter tube 002, water pressure can press the fan-shaped impurity filtering sheet to cause the fan-shaped connecting sheet 202 to bend inwards, thereby causing the fan-shaped impurity filtering sheet to expand inwards, further causing water and impurities to enter the supporting spherical shell 103 through the water inlet and outlet pipe 201, but when the elastic balloon 308 expands to extrude water outwards, the fan-shaped connecting sheet 202 cannot bend outwards under the limiting action of the limiting ring 205, further causing the fan-shaped impurity filtering sheet to not expand outwards, thereby causing the fan-shaped filter net 203 to play a filtering role, filtering the impurities in the supporting spherical shell 103, further achieving the purpose of removing the impurities, two connecting rods 204 are fixedly connected on the inner wall of the water inlet and outlet pipe 201, the limiting ring 205 is fixedly connected between, the top end of the balance floating plate 101 is fixedly connected with a seal box 104.

Referring to fig. 5 and 7, a handling driving assembly is arranged in the sealed box 104, the handling driving assembly includes an air pumping and discharging cylinder 301, an electric telescopic rod 302, a power supply 303, and a control switch 307, the air pumping and discharging cylinder 301 penetrates through the bottom outer wall of the balance floating plate 101 and the balance floating plate 101, the electric telescopic rod 302 and the power supply 303 are fixedly mounted on the inner wall of the sealed box 104, the control switch 307 is fixedly mounted on the top outer wall of the sealed box 104, the electric telescopic rod 302 is electrically connected with the power supply 303 and the control switch 307, the power supply 303 can provide electric energy for the electric telescopic rod 302, the control switch 307 can facilitate controlling the start and stop of the electric telescopic rod 302, a pumping and discharging piston 304 matched with the air pumping and discharging cylinder 301 is arranged in the air pumping and discharging cylinder 301, a T-shaped push-pull rod 305 is fixedly connected to the top end of the pumping and discharging piston 304, the T-shaped push-pull rod, the connecting air pipe 306 penetrates through the outer wall of the balance floating plate 101 and extends to the inside of the balance floating plate 101, the elastic balloon 308 is fixedly connected with the outer wall of the elastic balloon 308, the elastic spherical sleeve 309 matched with the elastic balloon 308 is sleeved on the outer wall of the elastic balloon 308, one end, far away from the suction and discharge piston 304, of the T-shaped push-pull rod 305 is fixedly connected with the output end of the electric telescopic rod 302, the connecting air pipe 306 is communicated with the inside of the elastic balloon 308, the electric telescopic rod 302 is started through the arrangement of the suction and discharge driving assembly, the electric telescopic rod 302 can drive the suction and discharge piston 304 to move up and down and back through the T-shaped push-pull rod 305, when the suction and discharge piston 304 moves downwards, air in the suction and discharge cylinder 301 can be squeezed into the elastic balloon 308 through the connecting air pipe 306, the elastic balloon 308 is expanded, water in the support spherical shell 103 can be squeezed outwards through the expansion of, so that water can enter the supporting spherical shell 103, and the aim of repeatedly sucking and discharging water can be achieved by repeating the above steps, thereby ensuring the action effect of the device.

Referring to fig. 5-6, a plurality of electrostatic gettering assemblies are disposed on the elastic spherical sleeve 309, each of the electrostatic gettering assemblies includes a dynamic change through hole 401 disposed on an outer wall of the elastic spherical sleeve 309, and a friction tube 402 fixedly connected to an outer wall of the elastic balloon 308, a plurality of friction ropes 403 are fixedly connected to an inner wall of the dynamic change through hole 401, each of the friction ropes 403 penetrates through and is slidably connected to an outer wall of the friction tube 402, an annular elastic connection sleeve 405 is fixedly connected to an inner wall of the dynamic change through hole 401, an anti-pulling ring 406 is fixedly connected to an inner side of the elastic connection sleeve 405, an isolation film 407 is fixedly connected to an inner wall of the anti-pulling ring 406, the friction tube 402 and the friction ropes 403 are made of two different materials, respectively, such that static electricity can be generated by friction between the friction tube 402 and the friction ropes 403, and the elastic balloon 308, the friction tube 403, and the elastic balloon, The elastic spherical sleeve 309 is made of elastic insulating materials, static electricity generated by friction of the friction tube 402 and the friction rope 403 can be prevented from being guided away by the elastic balloon 308 and the elastic spherical sleeve 309, through the arrangement of the static electricity absorbing component, when the elastic balloon 308 is inflated and expanded to extrude water from the supporting spherical shell 103, the elastic spherical sleeve 309 can be driven to expand to enlarge the aperture of the dynamic through hole 401, so that the friction rope 403 is pulled to move towards the outside of the friction tube 402, sliding friction is generated between the friction rope 403 and the friction tube 402, static electricity is generated, the static electricity has an adsorption effect on sundries such as cloth scraps, thread ends and the like, the sundries filtered and left in the supporting spherical shell 103 by the fan-shaped filter net 203 can be adsorbed to the surface of the isolating membrane 407, the fan-shaped filter net 203 is effectively prevented from being blocked by the sundries, the practicability is greatly improved, the isolating membrane 407 is a waterproof breathable film, and the isolating membrane 407 can play a, the friction pipe 402 and the friction rope 403 are kept dry, the elastic connecting sleeve 405 is made of elastic rubber materials, the elastic connecting sleeve 405 and the anti-pulling ring 406 are arranged, the elastic connecting sleeve 405 can be stretched to adapt to the enlargement of the aperture of the dynamic change through hole 401, so that the isolating membrane 407 is prevented from being stretched and broken, the anti-falling ball 404 is fixedly connected to one end, located in the friction pipe 402, of the friction rope 403, and the anti-falling ball 404 can prevent the friction rope 403 from being separated from the friction pipe 402.

When the invention carries out hot water desizing on the fabric, the device can be placed in desizing water, after the desizing water enters the supporting spherical shell 103, the electric telescopic rod 302 is started through the control switch 307, the supporting spherical shell 103 can repeatedly suck and discharge the desizing water through the water inlet and outlet pipe 201 through the arrangement of the handling driving component, and through the arrangement of the handling filter pipe 002, sundries can enter along with water when the desizing water is sucked, and the sundries are filtered and remained in the supporting spherical shell 103 when the desizing water is discharged, thereby achieving the purpose of removing the sundries, and the device is also provided with a special electrostatic impurity suction component which can spontaneously generate static electricity and adsorb the filtered sundries to the surface of the isolating membrane 407 when the desizing water is discharged, thereby effectively preventing the sundries from blocking the fan-shaped filter screen 203, greatly improving the practicability, having ingenious structure and convenient use, and being capable of removing the sundries in the desizing process, the working efficiency can be improved without waiting for the completion of desizing.

The foregoing is only a preferred embodiment of the present invention; the scope of the invention is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims

1. The throughput type impurity removing device for the fabric desizing process comprises a balance floating plate (101), and is characterized in that: the lower part of the balance floating plate (101) is fixedly connected with a supporting spherical shell (103) through two suspenders (102), a plurality of throughput filter tubes (002) are arranged on the outer wall of the supporting spherical shell (103) and are uniformly distributed along the spherical surface of the supporting spherical shell (103), the throughput filter tubes (002) comprise water inlet and outlet pipes (201) which are fixedly penetrated through the outer wall of the supporting spherical shell (103), a plurality of fan-shaped impurity filtering pieces are fixedly connected to the inner wall of the water inlet and outlet pipes (201), two connecting rods (204) are fixedly connected to the inner wall of the water inlet and outlet pipes (201), a limiting ring (205) is fixedly connected between the connecting rods (204), a sealing box (104) is fixedly connected to the top end of the balance floating plate (101), a throughput driving assembly is arranged in the sealing box (104), and the throughput driving assembly comprises a pumping and discharging air cylinder (301), Electric telescopic handle (302), power (303), control switch (307), it spits piston (304) rather than assorted pump to be provided with in pump spitting gas cylinder (301), the top fixedly connected with T type push-and-pull rod (305) of pump spitting piston (304), T type push-and-pull rod (305) run through the top outer wall of pump spitting gas cylinder (301) and rather than sliding connection, the bottom intercommunication of pump spitting gas cylinder (301) has connecting trachea (306), connecting trachea (306) run through the inside that the outer wall of balanced floating plate (101) extends to balanced floating plate (101) to fixed connection has elasticity sacculus (308), the cover is equipped with rather than assorted elasticity spherical cover (309) on the outer wall of elasticity sacculus (308), be provided with a plurality of static on the spherical cover (309) and inhale miscellaneous subassembly.

2. The throughput type impurity removing device for the fabric desizing process according to claim 1, wherein: the static gettering subassembly is including offering moving on elasticity spherical cover (309) outer wall and becoming through-hole (401) to and fixed connection friction pipe (402) on elasticity sacculus (308) outer wall, move a plurality of friction ropes of fixedly connected with (403) on the inner wall that becomes through-hole (401), friction rope (403) run through the outer wall of friction pipe (402) and rather than sliding connection, move on the inner wall of becoming through-hole (401) annular elastic connection cover (405) of fixedly connected with, pull ring (406) are prevented to the inboard fixedly connected with of elastic connection cover (405), fixedly connected with barrier film (407) on the inner wall of pull ring (406) are prevented.

3. The throughput type impurity removing device for the fabric desizing process according to claim 2, wherein: the elastic balloon (308) and the elastic spherical sleeve (309) are both made of elastic insulating materials, and the friction tube (402) and the friction rope (403) are respectively made of two different materials of polyurethane, nylon, acetate fiber, polypropylene, polyester, polyacrylonitrile and polyvinyl chloride.

4. The throughput type impurity removing device for the fabric desizing process according to claim 2, wherein: the isolating membrane (407) is a waterproof breathable membrane, and the elastic connecting sleeve (405) is made of an elastic rubber material.

5. The throughput type impurity removing device for the fabric desizing process according to claim 2, wherein: one end of the friction rope (403) in the friction pipe (402) is fixedly connected with an anti-dropping ball (404).

6. The throughput type impurity removing device for the fabric desizing process according to claim 1, wherein: a plurality of fan-shaped miscellaneous piece of straining is annular evenly distributed, and two adjacent fan-shaped miscellaneous piece of straining's side pastes mutually, fan-shaped miscellaneous piece of straining includes fan-shaped connection piece (202) and fan-shaped filter screen (203).

7. The throughput type impurity removing device for the fabric desizing process according to claim 6, wherein: one end of the fan-shaped connecting piece (202) is embedded into the inner wall of the water inlet and outlet pipe (201), the other end of the fan-shaped connecting piece (202) is fixedly connected with the fan-shaped filter screen (203), and the fan-shaped connecting piece (202) is made of elastic metal sheet materials.

8. The throughput type impurity removing device for the fabric desizing process according to claim 1, wherein: the limiting ring (205) is arranged on one side, away from the inside of the supporting spherical shell (103), of the fan-shaped impurity filtering piece, and the limiting ring (205) is abutted to the fan-shaped impurity filtering piece.

9. The throughput type impurity removing device for the fabric desizing process according to claim 1, wherein: the electric telescopic rod type floating device is characterized in that the air pumping and spitting cylinder (301) penetrates through the outer wall of the bottom of the balance floating plate (101) and the balance floating plate (101), the electric telescopic rod (302) and the power source (303) are fixedly installed on the inner wall of the sealing box (104), the control switch (307) is fixedly installed on the outer wall of the top of the sealing box (104), and the electric telescopic rod (302) is electrically connected with the power source (303) and the control switch (307).

10. The throughput type impurity removing device for the fabric desizing process according to claim 1, wherein: one end of the T-shaped push-pull rod (305), which is far away from the extraction and spitting piston (304), is fixedly connected with the output end of the electric telescopic rod (302), and the connecting air pipe (306) is communicated with the interior of the elastic balloon (308).