CN114457521B - High-speed water jet cleaning device capable of reciprocating back and forth for textile equipment - Google Patents

Abstract

The invention discloses a high-speed water jet cleaning device capable of reciprocating back and forth for textile equipment, and relates to the technical field of textile processing. This weaving equipment is with high-speed water jet belt cleaning device of round trip to and fro reciprocating motion is washed through blowing impurity earlier to produce sticky sense after avoiding impurity to mix the water, and carry out the parcel to the clearance position and shelter from at blowing impurity and washing in-process, avoid impurity to raise and avoid the water to splash, guarantee peripheral air quality, and carry out accurate collection to the water after washing, avoid the water to scatter along ground at will and pass through, and wash through mechanical system and reduce manual burden, and improve cleaning efficiency.

Description

High-speed water jet cleaning device capable of reciprocating back and forth for textile equipment

Technical Field

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

Background

The textile equipment is used for processing fiber raw materials such as cotton, hemp, silk and the like 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, so that the normal heat dissipation of the equipment is affected, equipment faults are easily caused, and the equipment needs to be cleaned regularly.

The existing cleaning of textile equipment adopts a manual flushing mode, but impurities and water stains are easy to sputter during flushing, so that the peripheral air quality of the equipment is affected, and the efficiency is low due to the manual flushing mode.

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 moves back and forth in a reciprocating manner, and solves the problems that in the prior art, the existing cleaning of the textile equipment is mostly carried out by adopting a manual flushing mode, but impurities and water stains are easy to sputter during flushing, thereby influencing the peripheral air quality of the equipment, and the efficiency is low due to the manual flushing mode.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides a weaving equipment is with reciprocating motion's high-speed water jet belt cleaning device, includes locking round bar and flushing subassembly, the left side of locking round bar is connected with flexible lag, and the right side of flexible lag is connected with electronic round bar, the spout has been seted up to the side of electronic round bar, the inside sliding connection of spout has automatically controlled coaster, flushing subassembly sliding connection is in automatically controlled coaster's side, flushing subassembly includes servo motor, rectangular gas port board, intake pipe, air pump, exhaust tube, splash guard, gas vent and high pressure nozzle, servo motor's right side rotation is connected with rectangular gas port board, and the top of rectangular gas port board is connected with the intake pipe, the intake pipe top is connected with the air pump, and the air pump top is connected with the exhaust tube, the exhaust tube other end is connected with splash guard, and the air vent has been seted up to splash guard's internal surface, the both sides of rectangular board are run through there is high pressure nozzle.

Further, the air pump is fixedly connected with the strip air port plate, and the air pump is mutually communicated with the strip air port plate through the air inlet pipe.

Further, the air pump is communicated with the splash guard through the exhaust pipe, and the top of the splash guard is fixedly connected with the bottom of the strip air port plate.

Further, a water collecting box is arranged on the inner side face of the electric wheel rod, a shaping rod is 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.

Further, the telescopic protective sleeve is connected with the locking wheel rod and the electric wheel rod in a clamping way through the setting rod and the limiting hook, and the telescopic protective sleeve is in an arch shape.

Further, the bottom side of the textile equipment must be located above the water receiving box when the water receiving box is placed, and the shape of the water receiving box after being placed is matched with the shape of the bottom outline of the textile equipment.

Further, the air filter component is inserted into the air pump, and the air filter component is positioned on the right side of the exhaust pipe.

Further, the air filtering component comprises an inserting plate, a filter screen, a locking rope and an air bag, wherein the filter screen is embedded in the inserting plate, the locking rope is connected to the middle of the filter screen in a locking manner, and the air bag is connected to the other end of the locking rope.

Further, 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 catch rope.

Further, the air filtering assembly further comprises annular slits and plugs, the annular slits are arranged on two sides of the filter screen, the annular slits are formed in the surface of the plugboard, and the plugs are inserted into the bottoms of the side faces of the plugboard.

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

through blowing impurity earlier and washing again to produce sticky sense after avoiding impurity to mix the water, avoid taking place the adhesion in order to reduce the washing degree of difficulty, and carry out the parcel to the clearance position and shelter from in blowing impurity and washing the in-process, avoid impurity to raise and avoid the water to splash, guarantee peripheral air quality, and carry out accurate collection to the water after washing, avoid the water to scatter along ground at will and pass, and wash through mechanical system and reduce manual burden, and improve cleaning efficiency.

1. This weaving equipment is with high-speed water jet belt cleaning device of back and forth reciprocating motion, the air pump operation makes the air current jet out from rectangular gas port board, blows off the impurity on equipment surface, and the impurity consequently lifts up but can be sheltered from the separation by splash guard to avoid impurity scattering, and strengthen through flexible lag and roll over the fender effect, avoid having impurity to escape, impurity is absorbed to the exhaust tube inside simultaneously under the negative air pressure effect of gas vent department, thereby avoid impurity gathering to increase weight and fall back to equipment surface again.

2. This weaving equipment is with reciprocating motion's high-speed water jet belt cleaning device, electronic wheel pole, automatically controlled coaster constantly reciprocating sliding for rectangular gas port board can carry out impurity blow off to equipment surface different positions, and the operation is started to operate to equipment different positions after the impurity blow off to the same reason, still avoids splash sputtering through splash guard simultaneously, and the water can be along equipment surface gliding, and because the bottom side of weaving equipment must be located the top of receipts water box when receiving the water box and place, and the shape after receiving the water box and the bottom profile shape looks adaptation of weaving equipment, make the water can finally drip to receive inside the water box, thereby avoid the water to flow at will.

3. This weaving equipment is with high-speed water jet belt cleaning device of round trip movement, locking round bar and electronic round bar fold each other when this belt cleaning device is idle, 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 follow go into spacing couple inside take out can wholly take off flexible lag, thereby make things convenient for the later stage to wash flexible lag internal surface, and easy dismounting convenient for operation use.

4. This weaving equipment is with reciprocating motion's high-speed water jet belt cleaning device makes a round trip, the air that contains the impurity is inhaled inside the air pump, this moment separates the impurity in the air through the filter screen, avoid the impurity to spray out from rectangular gas port board, can promote the gasbag when flowing simultaneously and make it constantly drift, and the gasbag pulls the filter screen through the hasp cotton rope when drifting, because the gasbag is quick constantly remove, and gasbag quantity can set up a plurality ofly, thereby make the filter screen shake, be favorable to shaking the impurity on filter screen surface, and impurity shakes the back and get into the picture peg inside temporary through the girth, extract the plug again after the picture peg is pulled out to the later stage and can take out the impurity, this setting shakes the impurity on its surface through the power that the contact air flows and shakes down, avoid the filter screen surface to take place to block up because of the impurity.

Drawings

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

FIG. 2 is a schematic view of a flushing assembly according to 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 showing the internal side view of the air pump of the present invention;

FIG. 5 is a schematic view of the three-dimensional structure of the air bag according to 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 telescopic protective sleeve of the present invention;

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

In the figure: 1. a locking wheel lever; 2. a telescopic protective sleeve; 3. a motorized wheel lever; 4. a chute; 5. an electric control pulley; 6. a flushing assembly; 601. a servo motor; 602. a strip gas port plate; 603. an air inlet pipe; 604. an air pump; 605. an exhaust pipe; 606. a splash guard; 607. an air suction hole; 608. a high pressure nozzle; 7. a water receiving box; 8. a shaping rod; 9. limiting hooks; 10. a gas filtering component; 1001. inserting plate; 1002. a filter screen; 1003. locking the rope; 1004. an air bag; 1005. circular seams; 1006. and (5) embolism.

Detailed Description

As shown in fig. 1-3 and fig. 7, the present invention provides a technical solution: the high-speed water jet cleaning device 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, a sliding chute 4 is formed in the side surface of the electric wheel rod 3, an electric control pulley 5 is connected inside the sliding chute 4 in a sliding manner, the flushing component 6 is connected to the side surface of the electric control pulley 5 in a sliding manner, the flushing component 6 comprises a servo motor 601, a strip air port plate 602, an air inlet 603, an air pump 604, an exhaust pipe 605, a splash guard 606, an exhaust hole 607 and a high-pressure nozzle 608, the right side of the servo motor 601 is rotationally connected with the strip air port plate 602, the top of the strip air port plate 602 is connected with the air inlet 603, the top of the air inlet 603 is connected with the air pump 604, the top of the air pump 604 is connected with an exhaust pipe 605, the other end of the exhaust pipe 605 is connected with a splash guard 606, the inner surface of the splash guard 606 is provided with the exhaust hole 607, two sides of the strip plate 602 are penetrated with the high-pressure nozzle 608, the air pump 604 is fixedly connected with the strip air port plate 602, the air pump 604 is mutually communicated with the strip air port plate 602 through the air inlet 603, the air pump 602 is mutually communicated with the strip air pump 602, and the air pump 602 is fixedly communicated with the bottom of the air exhaust port 602 through the exhaust pipe 606;

the operation is that firstly, waterproof films such as preservative films are used for protecting the non-water-sticky parts on the surface of textile equipment to prevent water from entering the equipment from the places, then a locking wheel rod 1 is arranged at one end of the textile equipment and locked through a locking function, then an electric wheel rod 3 automatically slides to enable a telescopic protective sleeve 2 to be unfolded and cover the front side, the rear side and the top of the textile equipment, then an air pump 604 is operated to pump air from an air pumping hole 607 to generate negative air pressure, so that air sequentially passes through the air pumping hole 607, a splash guard 606, an air pumping pipe 605, an air pump 604 and an air inlet pipe 603 to finally be sprayed out from the bottom of a strip air port plate 602, meanwhile, an electric control pulley 5 drives a flushing assembly 6 to slide back and forth along the inside of a chute 4 and parallel to the surface of the equipment, and drives the strip air port plate 602 and the splash guard 606 to adjust the orientation through a servo motor 601, the air flow sprayed by the long-strip air port plate 602 reaches the surface of the equipment to remove impurities, the impurities are raised and blocked by the splash guard 606, so that the scattering of the impurities is avoided, the folding and blocking effect is enhanced by the telescopic protective sleeve 2, the escape of the impurities is avoided, the impurities are absorbed into the exhaust pipe 605 under the negative air pressure effect of the air suction hole 607, the impurities are prevented from gathering, increasing weight and falling back to the surface of the equipment, the impurities are removed, the electric wheel rod 3 approaches the locking wheel rod 1 again, the telescopic protective sleeve 2 is contracted, the electric control pulley 5 continuously reciprocates along the inside of the chute 4 to remove the impurities at different positions of the surface of the equipment, the air pump 604 stops operating after the impurities are removed, the high-pressure nozzle 608 starts to operate, the electric wheel rod 3 and the electric control pulley 5 reciprocate to wash the surface of the equipment, while also avoiding splash splatter by the splash shield 606.

As shown in fig. 1, 5 and 8, a water collecting box 7 is arranged on the inner side surface of the electric wheel rod 3, a shaping rod 8 is arranged inside two sides of the telescopic protective sleeve 2, limit hooks 9 are arranged on the side surfaces of the locking wheel rod 1 and the electric wheel rod 3, the telescopic protective sleeve 2 is in clamping connection with the locking wheel rod 1 and the electric wheel rod 3 through the shaping rod 8 and the limit hooks 9, and the telescopic protective sleeve 2 is in an arch shape;

the concrete operation is as follows, flexible lag 2 adopts rubber materials, flexible lag 2 is arch form and both sides inside is provided with shaping pole 8, flexible lag 2 is gone into spacing couple 9 inside by the card based on the elastic action of flexible lag 2 with shaping pole 8 coincidence position to realize that flexible lag 2 is connected with locking round pole 1, the block of electric round pole 3, later stage only need with flexible lag 2 and shaping pole 8 coincidence position follow go into spacing couple 9 inside take out can take off flexible lag 2 entirely, thereby conveniently later stage washs flexible lag 2 internal surface, and easy dismounting convenient operation uses.

As shown in fig. 5, when the water receiving box 7 is placed, the bottom side surface 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 shape of the bottom outline of the textile equipment;

the device is lifted during installation, the bottom edge of the device is suspended, water slides down along the surface of the device when the device is flushed through the high-pressure nozzle 608, the bottom side surface of the textile device is located above the water receiving box 7 when the water receiving box 7 is placed, and the shape of the placed water receiving box 7 is matched with the shape of the bottom outline of the textile device, so that the water body can be finally dropped into the water receiving box 7, and the random flow of the water body is avoided.

As shown in fig. 1-2 and fig. 4-5, an air filtering component 10 is inserted into the air pump 604, the air filtering component 10 is positioned on the right side of the exhaust tube 605, the air filtering component 10 comprises an insert plate 1001, a filter screen 1002, a lock rope 1003 and an air bag 1004, the filter screen 1002 is embedded into the insert plate 1001, the lock rope 1003 is connected to the middle part of the filter screen 1002 in a locked manner, the air bag 1004 is connected to the other end of the lock rope 1003, 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 lock rope 1003, the air filtering component 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 and is arranged on the surface of the insert plate 1001, and the plug 1006 is inserted into the bottom of the side surface of the insert plate 1001;

the concrete operation is as follows, when air gets into the air pump 604 along the exhaust tube 605, the air need pass filter screen 1002, filter screen 1002 separates the impurity in the air, then the air can promote gasbag 1004 when flowing and make it constantly flutter, and the gasbag 1004 is undulant through hasp cotton rope 1003 when fluttering to filter screen 1002, because the gasbag 1004 is quick continuous removal, and gasbag 1004 quantity can set up a plurality of, thereby make filter screen 1002 take place vibrations, be favorable to shaking off the impurity on filter screen 1002 surface, and impurity shakes the back and can get into the picture peg 1001 through circular seam 1005 and keep in, later extract the picture peg 1001 after again and pull out plug 1006 can take out the impurity, this setting shakes filter screen 1002 through the power that contacts the air flow and makes its surperficial impurity shake off, avoid filter screen 1002 surperficial because of impurity to take place to block.

In sum, when the high-speed water jet cleaning device for the textile equipment, which moves back and forth, is used, firstly, the waterproof film, such as the preservative film, is used for protecting the non-water-sticky part of 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 bottom edge of the equipment is suspended;

the locking wheel rod 1 is arranged at one end of the textile equipment and locked through a locking function, then the electric wheel rod 3 automatically slides to enable the telescopic protective sleeve 2 to be unfolded and 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 receiving box 7 when the water receiving box 7 is placed, and the shape of the placed water receiving box 7 is matched with the shape of the bottom outline of the textile equipment;

then the air pump 604 is operated to pump air from the air pumping hole 607 to generate negative air pressure, so that 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 finally is sprayed out from the bottom of the long-strip air port plate 602, meanwhile, the electric control pulley 5 drives the flushing assembly 6 to slide reciprocally along the inside of the sliding chute 4 in parallel with the surface of the equipment, and drives the long-strip air port plate 602 and the splash guard 606 to adjust the orientation through the servo motor 601, so that the air flow sprayed by the long-strip air port plate 602 reaches the surface of the equipment to remove impurities, the impurities are raised but blocked by the splash guard 606, thereby avoiding the scattering of the impurities, enhancing the blocking effect through the telescopic protective sleeve 2, and avoiding the escape of the impurities;

meanwhile, impurities are absorbed into the exhaust pipe 605 under the action of negative air pressure at the exhaust hole 607, when air enters the air pump 604 along the exhaust pipe 605, the air needs to pass through the filter screen 1002, the filter screen 1002 separates the impurities in the air, then the air pushes the air bag 1004 to continuously drift when flowing, the air bag 1004 pulls the filter screen 1002 through the lock catch ropes 1003 when drifting, as the air bag 1004 moves continuously and rapidly, the filter screen 1002 can vibrate, the impurities on the surface of the filter screen 1002 are favorable to be shaken off, the impurities enter the plugboard 1001 through the circular seam 1005 for temporary storage after shaking off, the impurities can be taken out after the plugboard 1001 is pulled out later, the impurities on the surface of the filter screen 1002 are shaken off by shaking the filter screen 1002 by the force of contacting with the air, and the surface of the filter screen 1002 is prevented from being blocked by the impurities;

when dust impurities adhere to the surface of the filter screen 1002, the weight is increased along with the increase of the impurity amount, 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, 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 circularly pulled in one direction under the action of air flow and is deflected to the periphery, so that the pulling force is not fixed, the existence of a plurality of air bags 1004 is recorded, the vibration force of the filter screen 1002 can be increased, the vibration amplitude of the filter screen 1002 is related to the air flow velocity, and the larger the pulling amplitude of the air bag 1004 is, the larger the vibration amplitude of the filter screen 1002 is, so that the dust impurities which are already gathered on the surface and weighted are shaken off.

The electric wheel rod 3 approaches the locking wheel rod 1 again during impurity removal, at the moment, the telescopic protective sleeve 2 is contracted, the electric control pulley 5 continuously reciprocates along the inside of the chute 4 to remove impurities at different positions of the surface of the device, the air pump 604 stops operating after impurity removal, the high-pressure nozzle 608 starts to operate, the electric wheel rod 3 and the electric control pulley 5 reciprocate to wash the surface of the device, splash sputtering is avoided through the splash guard 606, water slides downwards along the surface of the device during washing the surface of the device through the high-pressure nozzle 608, and the bottom side surface of the textile device is required to be positioned above the water receiving box 7 during placement of the water receiving box 7, the shape of the placed water receiving box 7 is matched with the shape of the bottom outline of the textile device, so that water can be finally dripped into the water receiving box 7, and water body free flow is avoided;

finally, the telescopic protective sleeve 2 is made of rubber materials, the telescopic protective sleeve 2 is arched, the forming rods 8 are arranged on the two sides of the telescopic protective sleeve 2, the overlapping parts of the telescopic protective sleeve 2 and the forming rods 8 are clamped into the limiting hooks 9 based on the elastic action of the telescopic protective sleeve 2, so that the telescopic protective sleeve 2 is connected with the locking wheel rod 1 and the electric wheel rod 3 in a clamping manner, the telescopic protective sleeve 2 can be taken down entirely only by taking out the overlapping parts of the telescopic protective sleeve 2 and the forming rods 8 from the inside of the limiting hooks 9, and the inner surface of the telescopic protective sleeve 2 is cleaned in the later period conveniently, and the telescopic protective sleeve is convenient to disassemble and assemble and operate.

Claims (3)

1. The utility model provides a weaving equipment is with high-speed water jet belt cleaning device of back and forth reciprocating motion, includes locking wheel pole (1) and washes subassembly (6), its characterized in that: the left side of locking round pole (1) is connected with flexible lag (2), and the right side of flexible lag (2) is connected with electric round pole (3), spout (4) have been seted up to the side of electric round pole (3), spout (4) inside sliding connection has automatically controlled coaster (5), wash subassembly (6) sliding connection in the side of automatically controlled coaster (5), wash subassembly (6) including servo motor (601), rectangular gas port board (602), intake pipe (603), air pump (604), exhaust tube (605), splash baffle (606), bleed hole (607) and high pressure nozzle (608), the right side rotation of servo motor (601) 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 pipe (605), the other end is connected with splash baffle (606), and the internal surface of splash baffle (606) has seted up gas vent (607), the bleed hole (607) is connected with high pressure nozzle (608) in advance of air pump (602) and is pegged graft in the inside of high pressure nozzle (602), and strain gas subassembly (10) be located exhaust tube (605) right side, strain gas subassembly (10) including picture peg (1001), filter screen (1002), hasp cotton rope (1003) and balloon (1004), the inside embedding of picture peg (1001) has filter screen (1002), and the middle part hasp of filter screen (1002) is connected with hasp cotton rope (1003), the other end of hasp cotton rope (1003) is connected with gasbag (1004), the external diameter size of gasbag (1004) is less than the internal diameter size of air pump (604), and gasbag (1004) pass through hasp cotton rope (1003) and filter screen (1002) transmission connection, strain gas subassembly (10) still include circumferential weld (1005) and embolism (1006), filter screen (1002) both sides are provided with circumferential weld (1005), and circumferential weld (1005) are seted up in picture peg (1001) surface, peg (1001) side bottom is pegged graft and is had embolism (1006), water receiving box (7) have been placed to the medial surface of electric wheel pole (3), the both sides inside of flexible lag (2) is provided with gasbag (8), locking wheel (1) and electric wheel (3) are provided with locking wheel (9) and locking wheel (8) are set up with the transmission of couple (9), and stop collar (9) are all set up with stop collar (9) to side (1) The electric wheel pole (3) is connected in a clamping mode, the telescopic protective sleeve (2) is in an arch shape, the bottom side face of the textile equipment is located above the water collecting box (7) when the water collecting box (7) is placed, and the shape of the water collecting box (7) after being placed is matched with the shape of the bottom outline of the textile equipment.

2. A high-speed water jet cleaning device for a textile machine reciprocating back and forth according to claim 1, wherein: the air pump (604) is fixedly connected with the strip air port plate (602), and the air pump (604) is communicated with the strip air port plate (602) through the air inlet pipe (603).

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