CN114457521A

CN114457521A - Weaving equipment is with reciprocating motion's high-speed water jet belt cleaning device that makes a round trip

Info

Publication number: CN114457521A
Application number: CN202111560031.9A
Authority: CN
Inventors: 熊原; 斗攀利; 郭杰; 苗馨匀; 刘渊民; 余胜
Original assignee: Jihua 3509 Textile Co Ltd
Current assignee: Jihua 3509 Textile Co Ltd
Priority date: 2021-12-20
Filing date: 2021-12-20
Publication date: 2022-05-10
Anticipated expiration: 2041-12-20
Also published as: CN114457521B

Abstract

The invention discloses a high-speed water jet cleaning device for textile equipment, which reciprocates back and forth, relates to the technical field of textile processing, and particularly relates to a locking wheel rod and a flushing component. This weaving equipment is with reciprocating motion's high-speed water jet belt cleaning device makes a round trip, wash through blowing off impurity earlier again, produce thick sense of gluing behind the impurity mixing water body to avoid, and wrap up the clearance position at blowing off impurity and washing in-process and shelter from, avoid impurity to raise and avoid water sputtering, guarantee peripheral air quality, and carry out accurate collection to the water after washing, avoid the water to scatter the lapse along ground at will, and wash through mechanical system and reduce artifical burden, and improve the cleaning efficiency.

Description

Weaving equipment is with reciprocating motion's high-speed water jet belt cleaning device that makes a round trip

Technical Field

The invention relates to the technical field of textile processing, in particular to a high-speed water jet cleaning device which reciprocates back and forth and is used for textile equipment.

Background

Textile equipment is used for processing cotton, hemp, silk and other fiber raw materials into cloth, but after the textile equipment is used for a long time, impurities such as broken silk threads, thread ends, dust and the like can be gradually accumulated on the surface of the textile equipment, normal heat dissipation of the equipment is influenced, equipment faults are easily caused, and therefore the equipment needs to be cleaned regularly.

The existing washing to the textile equipment mostly adopts the manual washing mode, but the impurities and water stain are easy to sputter when washing, thereby influencing the peripheral air quality of the equipment, and the manual washing mode also causes low efficiency.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a high-speed water jet cleaning device for textile equipment, which reciprocates back and forth, and solves the problems that the conventional cleaning method for the textile equipment mostly adopts a manual washing mode, but impurities and water stains are easy to sputter during washing, so that the quality of air around the equipment is influenced, and the efficiency is low due to the manual washing mode.

In order to realize the purpose, the invention is realized by the following technical scheme: a high-speed water jet cleaning device moving back and forth for textile equipment comprises a locking wheel rod and a flushing assembly, wherein the left side of the locking wheel rod is connected with a telescopic protective sleeve, the right side of the telescopic protective sleeve is connected with an electric wheel rod, the side surface of the electric wheel rod is provided with a sliding groove, the inside of the sliding groove is connected with an electric control pulley in a sliding manner, the flushing assembly is connected with the side surface of the electric control pulley in a sliding manner, the flushing assembly comprises a servo motor, a strip air port plate, an air inlet pipe, an air pump, an air exhaust pipe, a splash guard, an air exhaust hole and a high-pressure nozzle, the right side of the servo motor is rotatably connected with the strip air port plate, the top of the strip air port plate is connected with the air inlet pipe, the top of the air inlet pipe is connected with the air exhaust pipe, the other end of the air exhaust pipe is connected with the splash guard, and the inner surface of the splash guard is provided with the air exhaust hole, and high-pressure nozzles penetrate through two sides of the strip air port plate.

Further, air pump and rectangular gas pocket board fixed connection, and the air pump passes through the intake pipe and communicates each other with rectangular gas pocket board.

Further, the air pump passes through the exhaust tube and communicates each other with splash guard, and splash guard top and rectangular gas port board bottom fixed connection.

Furthermore, a water collecting box is placed on the inner side face of the electric wheel rod, shaping rods are arranged inside two sides of the telescopic protective sleeve, and limiting hooks are arranged on the side faces of the locking wheel rod and the electric wheel rod.

Furthermore, flexible lag is connected through setting type pole, spacing couple and locking wheel pole, electronic round of pole block, and flexible lag is the arch shape.

Furthermore, the side face of the bottom of the spinning equipment is required to be positioned above the water collecting box when the water collecting box is placed, and the shape of the placed water collecting box is matched with the shape of the bottom contour of the spinning equipment.

Furthermore, the inside of air pump is pegged graft and is had the gas filtering component, and gas filtering component is located the exhaust tube right side.

Further, it includes picture peg, filter screen, hasp cotton rope and gasbag to strain the gas subassembly, the inside embedding of picture peg has the filter screen, and the middle part hasp of filter screen is connected with the hasp cotton rope, the other end of hasp cotton rope is connected with the gasbag.

Furthermore, the outer diameter of the air bag is smaller than the inner diameter of the air pump, and the air bag is in transmission connection with the filter screen through a lock cord.

Furthermore, the air filtering component further comprises a circular seam and a plug, the two sides of the filter screen are provided with the circular seam, the circular seam is arranged on the surface of the plug board, and the plug is inserted into the bottom of the side surface of the plug board.

The invention provides a high-speed water jet cleaning device for textile equipment, which reciprocates back and forth and has the following beneficial effects:

through blowing off impurity earlier and washing again to produce thick sense of gluing after avoiding impurity to mix the water, avoid taking place the adhesion and wash the degree of difficulty in order to reduce, and blow off impurity and wash the in-process and wrap up the clearance position and shelter from, avoid impurity to raise and avoid the water sputtering, guarantee peripheral air quality, and carry out accurate collection to the water after washing, avoid the water to scatter the lapse along ground at will, and wash through mechanical system and reduce artifical burden, and improve the cleaning efficiency.

1. This weaving equipment is with reciprocating motion's high-speed water jet belt cleaning device makes the air current spout from rectangular gas port board, blow off the impurity on equipment surface, impurity consequently raises but can be sheltered from the separation by splashproof baffle, thereby avoid impurity four to scatter, and through flexible lag reinforcing baffle effect, avoid having impurity escape to scatter, impurity is absorbed to the exhaust tube inside under the negative pressure effect of exhaust hole department simultaneously, thereby avoid impurity gathering to increase weight and fall and get back to the equipment surface again.

2. This weaving equipment is with reciprocating motion's high-speed water jet belt cleaning device that makes a round trip, electronic round of pole, the continuous reciprocating sliding of automatically controlled coaster, make rectangular gas port board can carry out the impurity blowdown to equipment surface different positions, high pressure nozzle begins the operation to wash equipment different positions after the impurity blowdown of the same reason, still avoid splash to sputter simultaneously through splash guard, and the water can glide along equipment surface, and because the bottom side of weaving equipment must be located the top of receiving the water box when receiving the water box and placing, and the shape after receiving the water box and weaving equipment's bottom profile shape looks adaptation, make the water finally can drip to receiving inside the water box, thereby avoid the water to flow at will.

3. This weaving equipment is with reciprocating motion's high-speed water jet belt cleaning device makes a round trip, locking wheel pole folds each other with electronic wheel pole when this belt cleaning device is idle, the flexible lag shrink this moment to reduce the volume, be convenient for accomodate the removal, later stage only need with flexible lag and design pole coincidence position from going into spacing couple inside take out can be with the whole taking off of flexible lag, thereby make things convenient for the later stage to wash flexible lag internal surface, and easy dismounting is convenient for operate and use.

4. This weaving equipment is with reciprocating motion's high-speed water jet belt cleaning device, the air that contains impurity is inside by the suction air pump, through the filter screen impurity in to the air this moment separate, avoid impurity to spray out from rectangular gas port board, the air can promote the gasbag when flowing simultaneously and make its constantly indefinite drift, and drag the filter screen through the hasp cotton rope when the gasbag drifts, because the quick continuous removal of gasbag, and gasbag quantity can set up a plurality ofly, thereby make the filter screen take place vibrations, be favorable to shaking the impurity on filter screen surface, and impurity shakes after can get into the inside temporary storage of picture peg through the circumferential weld, extract the embolism again after the picture peg in the later stage and can take out impurity, this setting shakes the impurity on its surface through the strength that the contact air flows and falls to the filter screen, avoid the filter screen surface to take place to block up because of impurity.

Drawings

FIG. 1 is a schematic cross-sectional view of a telescopic protective cover according to the present invention;

FIG. 2 is a schematic view of the flushing assembly of the present invention;

FIG. 3 is a schematic view of the bottom structure of the elongated gas port plate of the present invention;

FIG. 4 is a schematic diagram of the internal side view of the air pump of the present invention;

FIG. 5 is a schematic perspective view of the bladder of the present invention;

FIG. 6 is a schematic view of the placement of the water receiving box according to the present invention;

FIG. 7 is a schematic side view of the retractable shield of the present invention;

fig. 8 is a schematic top view of the hook according to the present invention.

In the figure: 1. locking the wheel lever; 2. a telescopic protective sleeve; 3. an electric wheel rod; 4. a chute; 5. an electric control pulley; 6. a flushing assembly; 601. a servo motor; 602. a strip vent plate; 603. an air inlet pipe; 604. an air pump; 605. an air exhaust pipe; 606. a splash guard; 607. an air exhaust hole; 608. a high pressure nozzle; 7. a water collecting box; 8. a sizing rod; 9. a limiting hook; 10. a gas filtering assembly; 1001. inserting plates; 1002. filtering with a screen; 1003. a locking cord; 1004. an air bag; 1005. performing circular sewing; 1006. and (6) plugging.

Detailed Description

As shown in fig. 1-3 and fig. 7, the present invention provides a technical solution: a high-speed water jet cleaning device for textile equipment, which reciprocates back and forth, comprises a locking wheel rod 1 and a flushing component 6, wherein the left side of the locking wheel rod 1 is connected with a telescopic protective sleeve 2, the right side of the telescopic protective sleeve 2 is connected with an electric wheel rod 3, the side surface of the electric wheel rod 3 is provided with a sliding groove 4, the inside of the sliding groove 4 is connected with an electric control pulley 5 in a sliding way, the flushing component 6 is connected with the side surface of the electric control pulley 5 in a sliding way, the flushing component 6 comprises a servo motor 601, a strip air port plate 602, an air inlet pipe 603, an air pump 604, an air exhaust pipe 605, a splash baffle 606, an air exhaust hole 607 and a high-pressure nozzle 608, the right side of the servo motor 601 is rotatably connected with the strip air port plate 602, the top of the strip air port plate 602 is connected with an air inlet pipe 603, the top of the air inlet pipe 603 is connected with the air pump 604, the top of the air pump 604 is connected with the air exhaust pipe 605, and the other end of the splash baffle 606, an air suction hole 607 is formed in the inner surface of the splash guard 606, high-pressure nozzles 608 penetrate through the two sides of the long air port plate 602, the air pump 604 is fixedly connected with the long air port plate 602, the air pump 604 is communicated with the long air port plate 602 through an air inlet pipe 603, the air pump 604 is communicated with the splash guard 606 through an air suction pipe 605, and the top of the splash guard 606 is fixedly connected with the bottom of the long air port plate 602;

the operation is as follows, firstly, a waterproof film, such as a preservative film, is used for protecting the non-water-sticky part of the surface of the textile equipment, so as to prevent water from entering the interior of the equipment from the places, then the locking wheel rod 1 is arranged at one end of the textile equipment and is locked through the locking function, then the electric wheel rod 3 slides automatically to enable the telescopic protection sleeve 2 to be unfolded to cover the front side, the rear side and the top of the textile equipment, then the air pump 604 operates to pump air from the air pumping hole 607 to generate negative air pressure, so that the air sequentially passes through the air pumping hole 607, the splash guard 606, the air pumping pipe 605, the air pump 604 and the air inlet pipe 603 and is finally ejected from the bottom of the long air port plate 602, meanwhile, the electric control pulley 5 drives the flushing component 6 to slide back and forth along the inside of the sliding chute 4 in parallel to the surface of the equipment, and drives the long air port plate 602 and the splash guard 606 to adjust the orientation through the servo motor 601, so that the air ejected from the long air port plate 602 reaches the surface of the equipment, plays a role in removing impurities, so that the impurities are raised but blocked by the splash baffle 606, thereby preventing the impurities from scattering, and the flexible protective sleeve 2 enhances the blocking effect, thereby preventing the impurities from escaping and scattering, meanwhile, impurities are absorbed into the air pumping pipe 605 under the action of the negative air pressure at the air pumping hole 607, so that the impurities are prevented from accumulating and increasing weight and falling to the surface of the equipment again, the electric wheel rod 3 approaches to the locking wheel rod 1 again while removing impurities, at the moment, the telescopic protective sleeve 2 contracts, the electric control pulley 5 continuously reciprocates along the inside of the chute 4 to ensure that the flushing component 6 removes impurities from different positions on the surface of the equipment, the air pump 604 stops operating after the impurities are removed, and the high-pressure nozzle 608 starts to work, and the electric wheel rod 3 and the electric control pulley 5 move back and forth to wash the surface of the equipment, and simultaneously splash splashing is avoided through the splash baffle 606.

As shown in fig. 1, 5 and 8, a water receiving box 7 is placed on the inner side surface of the electric wheel rod 3, setting rods 8 are arranged inside two sides of the telescopic protection sleeve 2, limiting hooks 9 are arranged on the side surfaces of the locking wheel rod 1 and the electric wheel rod 3, the telescopic protection sleeve 2 is connected with the locking wheel rod 1 and the electric wheel rod 3 in a clamping manner through the setting rods 8 and the limiting hooks 9, and the telescopic protection sleeve 2 is in an arch shape;

the concrete operation is as follows, flexible lag 2 adopts rubber materials, flexible lag 2 is the inside setting pole 8 that is provided with in arch shape and both sides, flexible lag 2 is inside by the spacing couple 9 of blocking based on the elastic action of flexible lag 2 with setting pole 8 coincidence position, thereby realize flexible lag 2 and locking wheel pole 1, the block of electronic wheel pole 3 is connected, the later stage only needs to take out flexible lag 2 and setting pole 8 coincidence position from getting into spacing couple 9 inside and can take off flexible lag 2 is whole, thereby make things convenient for the later stage to wash 2 internal surfaces of flexible lag, and easy dismounting is convenient for the operation and use.

As shown in fig. 5, when the water receiving box 7 is placed, the bottom side of the textile equipment must be located above the water receiving box 7, and the shape of the placed water receiving box 7 is matched with the bottom contour shape of the textile equipment;

the specific operation is as follows, equipment is heightened during installation, makes its bottom edge unsettled, and when washing the equipment surface through high pressure nozzle 608, the water can slide down along the equipment surface, and because the bottom side of weaving equipment must be located the top of receiving water box 7 when receiving water box 7 and placing, and the shape after receiving water box 7 and weaving equipment's bottom profile shape looks adaptation for the water finally can drip to inside receiving water box 7, thereby avoids the water to flow at will.

As shown in fig. 1-2 and 4-5, an air filtering assembly 10 is inserted into an air pump 604, the air filtering assembly 10 is located on the right side of an air exhaust pipe 605, the air filtering assembly 10 includes an insertion plate 1001, a filter screen 1002, a locking cord 1003 and an air bag 1004, the filter screen 1002 is embedded into the insertion plate 1001, the middle of the filter screen 1002 is locked and connected with the locking cord 1003, the other end of the locking cord 1003 is connected with the air bag 1004, the outer diameter of the air bag 1004 is smaller than the inner diameter of the air pump 604, the air bag 1004 is in transmission connection with the filter screen 1002 through the locking cord 1003, the air filtering assembly 10 further includes a circular seam 1005 and a plug 1006, circular seams 1005 are arranged on two sides of the filter screen 1002, the circular seam 1005 is opened on the surface of the insertion plate 1001, and the plug 1006 is inserted into the bottom of the side of the insertion plate 1001;

the specific operation is as follows, when the air enters the air pump 604 along the exhaust tube 605, the air needs to pass through the filter screen 1002, the filter screen 1002 separates the impurity in the air, then the air can promote the gasbag 1004 when flowing and make it constantly float indefinitely, and the gasbag 1004 floats and pulls the filter screen 1002 through the hasp cotton rope 1003, because the gasbag 1004 is quick and constantly removes, and gasbag 1004 quantity can set up a plurality ofly, thereby make the filter screen 1002 shake, be favorable to shaking off the impurity on filter screen 1002 surface, and impurity shake and later can get into the inside temporary storage of picture peg 1001 through the circumferential weld 1005, extract plug 1006 after later stage extracting picture peg 1001 and can take out impurity, this setting shakes the impurity on its surface and falls through the strength that contacts the air flow to the filter screen 1002, avoid the filter screen 1002 surface to take place to block up because of impurity.

In summary, when the high-speed water jet cleaning device for the textile equipment, which reciprocates back and forth, is used, firstly, a waterproof film, such as a preservative film, is used for protecting the part, which is not stained with water, on the surface of the textile equipment, so that water is prevented from entering the equipment from the places, and the equipment is raised when being installed, so that the edge of the bottom of the equipment is suspended;

then, the locking wheel rod 1 is arranged at one end of the textile equipment and is locked through a locking function, then the electric wheel rod 3 automatically slides to enable the telescopic protection sleeve 2 to be unfolded to cover the front side, the rear side and the top of the textile equipment, the bottom side of the textile equipment is required to be positioned above the water collecting box 7 when the water collecting box 7 is placed, and the shape of the placed water collecting box 7 is matched with the bottom outline shape of the textile equipment;

then the air pump 604 operates to extract air from the air extraction hole 607 to generate negative air pressure, so that the air sequentially passes through the air extraction hole 607, the splash guard 606, the air extraction pipe 605, the air pump 604 and the air inlet pipe 603 and is finally ejected from the bottom of the long air port plate 602, meanwhile, the electric control pulley 5 drives the flushing assembly 6 to slide back and forth along the inside of the sliding groove 4 and parallel to the surface of the equipment, and the servo motor 601 drives the long air port plate 602 and the splash guard 606 to adjust the orientation, so that the air flow ejected by the long air port plate 602 reaches the surface of the equipment to play a role in removing impurities, the impurities are raised but blocked by the splash guard 606, the impurities are prevented from being scattered, and the folding effect is enhanced by the telescopic protection sleeve 2, and the impurities are prevented from escaping;

meanwhile, impurities are absorbed into the air pumping pipe 605 under the action of the negative air pressure at the air pumping hole 607, when air enters the air pump 604 along the air pumping pipe 605, the air needs to pass through the filter screen 1002, the filter screen 1002 separates the impurities in the air, the air then moves to push the bladder 1004 to flap constantly, while the bladder 1004 flaps to pull the filter screen 1002 through the locking cord 1003, since the air cells 1004 are moved rapidly and continuously, and the number of the air cells 1004 can be set to be plural, thereby causing the filter screen 1002 to vibrate, being beneficial to vibrating off the impurities on the surface of the filter screen 1002, after the impurities are shaken out, the impurities enter the insert plate 1001 through the annular seam 1005 for temporary storage, and the impurities can be taken out by pulling out the plug 1006 after pulling out the insert plate 1001 at the later stage, the arrangement vibrates the filter screen 1002 by the force of the flowing contact air, so that impurities on the surface of the filter screen 1002 are vibrated, and the surface of the filter screen 1002 is prevented from being blocked by the impurities;

when dust and impurities are adhered to the surface of the filter screen 1002, the impurities are adhered to each other to increase the weight, the air bag 1004 gives a pulling force to the filter screen 1002 under the action of air flow, but the direction of the pulling force is not fixed actually, only the air bag 1004 is pulled to one side of the filter screen 1002 in the air flow direction, the air bag 1004 is circular, and can be pulled in one direction and simultaneously shifts to the periphery under the action of the air flow, so that the pulling force is not fixed, the number of the air bags 1004 is also recorded, the pulling force of the air bag 1002 can be increased, the filter screen 1002 vibrates due to the pulling force, the amplitude of the vibration of the filter screen 1002 is related to the air flow rate, the larger the flow rate is, the larger the pulling amplitude of the air bag 1004 is, and the vibration of the filter screen 1002 is increased, so that the dust and impurities accumulated and weighted on the surface of the filter screen 1002 are shaken.

While removing impurities, the electric wheel rod 3 approaches to the locking wheel rod 1 again, at the moment, the telescopic protective sleeve 2 contracts, the electric control pulley 5 continuously reciprocates along the inside of the chute 4 to ensure that the flushing component 6 removes impurities from different positions on the surface of the equipment, the air pump 604 stops operating after the impurities are removed, the high-pressure nozzle 608 starts to work, the electric wheel rod 3 and the electric control pulley 5 move back and forth to wash the surface of the equipment, the splash guard 606 is used for avoiding splash sputtering, as the surface of the equipment is flushed through the high pressure nozzles 608, the body of water will slide down the surface of the equipment, and because the bottom side of the weaving equipment must be positioned above the water collecting box 7 when the water collecting box 7 is placed, the shape of the placed water receiving box 7 is matched with the bottom outline shape of the textile equipment, so that the water body can finally drip into the water receiving box 7, and the water body is prevented from flowing randomly;

last flexible lag 2 adopts rubber materials, flexible lag 2 is the inside setting pole 8 that is provided with in hunch shape and both sides, flexible lag 2 is inside by the spacing couple 9 of blocking based on flexible lag 2 with the elastic action of setting pole 8 coincidence position, thereby realize flexible lag 2 and locking wheel pole 1, electronic wheel pole 3's block is connected, the later stage only needs to take out flexible lag 2 and setting pole 8 coincidence position from getting into spacing couple 9 inside and can take off flexible lag 2 is whole, thereby make things convenient for the later stage to wash flexible lag 2 internal surfaces, and easy dismounting is convenient for operate and use.

Claims

1. The utility model provides a weaving equipment is with reciprocating motion's high-speed water jet belt cleaning device that makes a round trip, includes locking wheel pole (1) and washes subassembly (6), its characterized in that: the left side of locking wheel pole (1) is connected with flexible lag (2), and the right side of flexible lag (2) is connected with electronic wheel pole (3), spout (4) have been seted up to the side of electronic wheel pole (3), spout (4) inside sliding connection has automatically controlled coaster (5), flushing assembly (6) sliding connection is in the side of automatically controlled coaster (5), flushing assembly (6) include servo motor (601), rectangular gas port board (602), intake pipe (603), air pump (604), exhaust tube (605), splashproof baffle (606), aspirating hole (607) and high pressure nozzle (608), the right side of servo motor (601) rotates and is connected with rectangular gas port board (602), and the top of rectangular gas port board (602) is connected with intake pipe (603), intake pipe (603) top is connected with air pump (604), and air pump (604) top is connected with exhaust tube (605), the other end of the air suction pipe (605) is connected with a splash guard (606), an air suction hole (607) is formed in the inner surface of the splash guard (606), and high-pressure nozzles (608) penetrate through two sides of the long air port plate (602).

2. The high-speed water jet cleaning device for the textile equipment reciprocating back and forth according to claim 1, characterized in that: air pump (604) and rectangular gas port board (602) fixed connection, and air pump (604) communicate each other with rectangular gas port board (602) through intake pipe (603).

3. The high-speed water jet cleaning device for the textile equipment reciprocating back and forth according to claim 1, characterized in that: the air pump (604) is communicated with the splash guard (606) through the air exhaust pipe (605), and the top of the splash guard (606) is fixedly connected with the bottom of the strip air port plate (602).

4. The high-speed water jet cleaning device for the textile equipment reciprocating back and forth according to claim 1, characterized in that: the water collecting box (7) is placed on the inner side face of the electric wheel rod (3), the shaping rods (8) are arranged inside two sides of the telescopic protective sleeve (2), and the side faces of the locking wheel rod (1) and the electric wheel rod (3) are provided with limiting hooks (9).

5. The high-speed water jet cleaning device capable of reciprocating back and forth for the textile equipment according to claim 4, is characterized in that: the telescopic protection sleeve (2) is connected with the locking wheel rod (1) and the electric wheel rod (3) in a clamping mode through the shaping rod (8) and the limiting hook (9), and the telescopic protection sleeve (2) is in an arch shape.

6. The high-speed water jet cleaning device capable of reciprocating back and forth for the textile equipment according to claim 4, is characterized in that: when the water collecting box (7) is placed, the side face of the bottom of the spinning equipment is required to be positioned above the water collecting box (7), and the shape of the placed water collecting box (7) is matched with the shape of the bottom outline of the spinning equipment.

7. The high-speed water jet cleaning device for the textile equipment reciprocating back and forth according to claim 1, characterized in that: an air filtering assembly (10) is inserted into the air pump (604), and the air filtering assembly (10) is positioned on the right side of the air exhaust pipe (605).

8. The high-speed water jet cleaning device for the textile equipment reciprocating back and forth according to claim 7, characterized in that: the air filtering component (10) comprises an inserting plate (1001), a filter screen (1002), a locking line rope (1003) and an air bag (1004), the filter screen (1002) is embedded into the inserting plate (1001), the middle of the filter screen (1002) is connected with the locking line rope (1003) in a locking mode, and the other end of the locking line rope (1003) is connected with the air bag (1004).

9. The high-speed water jet cleaning device for the textile equipment reciprocating back and forth according to claim 8, characterized in that: the outer diameter of the air bag (1004) is smaller than the inner diameter of the air pump (604), and the air bag (1004) is in transmission connection with the filter screen (1002) through a lock cord (1003).

10. The high-speed water jet cleaning device for the textile equipment reciprocating back and forth according to claim 8, characterized in that: the air filtering assembly (10) further comprises a circular seam (1005) and a plug (1006), the circular seam (1005) is arranged on two sides of the filter screen (1002), the surface of the inserting plate (1001) is opened through the circular seam (1005), and the plug (1006) is inserted into the bottom of the side surface of the inserting plate (1001).