CN114182463B - Rope type washing machine for man-made cotton fabric and man-made cotton fabric processing technology - Google Patents

Abstract

The utility model relates to a cotton surface fabric of people is with rope form rinsing machine and cotton surface fabric processing technology of people, it includes the box, set up into cloth mouth and play cloth mouth on the box, vertical being provided with a plurality of U type pipes that are used for storing the washing liquid in the box and being used for driving the transport subassembly that cloth spiral advances, transport subassembly includes the conveying roller and is used for driving conveying roller pivoted conveying motor, conveying roller rotate connect in the box, a plurality of U type pipe is followed conveying roller length direction distributes, a plurality of U type pipe is located the conveying roller below. This application has the effect that makes the hydroenergy of the majority in the box wash the cloth.

Description

Rope type washing machine for man-made cotton fabric and man-made cotton fabric processing technology

Technical Field

The application relates to the field of rope-shaped rinsing machines, in particular to a rope-shaped rinsing machine for a cotton fabric and a cotton fabric processing technology.

Background

The rope-shaped rinsing machine is equipment for cleaning cloth such as man-made cotton fabrics.

The Chinese patent with the publication number of CN212925424U discloses a rope-shaped rinsing machine, which comprises a frame and a rinsing tank, wherein the rinsing tank is arranged in the frame, a filter screen is detachably arranged at the bottom of the rinsing tank, and a locking hole which is communicated with the rinsing tank and used for the detachment of the filter screen is arranged on the frame; the machine frame is rotationally connected with a fixing plate for blocking the locking hole, and a locking piece for fixing the fixing plate on the machine frame is arranged on the machine frame. This application has the effect of conveniently clearing up the washing tank.

With respect to the related art in the above, the inventors consider that there are the following drawbacks: the cleaning tank is divided into cleaning chambers with the same size by the partition boards, most of water in the cleaning chambers can not clean cloth, and most of water in the cleaning chambers is wasted.

Disclosure of Invention

In order to enable most of water in the box body to clean cloth, the application provides a rope-shaped washing machine for a cotton fabric and a cotton fabric processing technology.

In a first aspect, the present application provides a rope-shaped rinsing machine for cotton fabric, which adopts the following technical scheme:

the utility model provides a cotton surface fabric of people is with rope form rinsing machine, includes the box, set up into cloth mouth and play cloth mouth on the box, vertical being provided with a plurality of U type pipes that are used for storing the washing liquid in the box and being used for driving the conveying assembly that cloth spiral advances, conveying assembly includes the conveying roller and is used for driving conveying roller pivoted conveying motor, conveying roller rotate connect in the box, a plurality of U type pipe is followed conveying roller length direction distributes, a plurality of U type pipe is located conveying roller below.

Through the technical scheme, when the cleaning liquid cleaning device is used, cloth passes through the U-shaped pipe and is spirally wound on the conveying roller, and the conveying motor drives the conveying roller to rotate, so that the cloth is cleaned by the cleaning liquid in the U-shaped pipe, most of the cleaning liquid in the U-shaped pipe is used for cleaning the cloth, the utilization rate of the cleaning liquid is improved, and the waste of water resources is reduced; when the cloth takes away the cleaning solution, the liquid level of the cleaning solution in the U-shaped tube is reduced by half as much as the liquid level of a common box body, so that the liquid level reduction rate of the cleaning solution during use can be reduced, and the cleaning effect of the cleaning solution on the cloth is improved to a certain extent.

Optionally, a shaking assembly for driving the rope-shaped cloth to shake is arranged on the box body, and the shaking assembly comprises two sliding rods, a plurality of limiting rings and a driving piece for driving the two sliding rods to move in a direction of approaching or separating from each other; the conveying rollers are positioned between the two sliding rods, the two sliding rods are arranged in parallel with the conveying rollers, and the two sliding rods are connected in the box body in a sliding manner along the horizontal direction; the limiting rings are arranged on the sliding rod.

Through adopting above-mentioned technical scheme, the driver drives two sliding bars and removes along the direction that is close to each other or keep away from during the use for spacing clitellum moves the cloth and shakes, and the cloth shakes and realizes stirring the washing liquid in the U type pipe, has improved the cleaning performance of washing liquid to the cloth to a certain extent, also makes the cloth relax to the shake of cloth, makes the washing liquid can enter into the cloth overlap position more easily, further improves the cleaning performance of washing liquid to the cloth.

Optionally, the driving piece comprises a driving gear, two driving racks, two torsion springs for maintaining the meshing state of the driving racks and the driving gear, a return spring for restoring the sliding rod to the original position, and a disengaging structure for driving the driving racks to rotate along the direction of disengaging from the driving gear; the driving gear is coaxially arranged on the conveying roller; the two driving racks are in one-to-one correspondence with the two sliding rods, the driving racks are rotationally connected to the sliding rods, and the driving racks are meshed with the driving gears; one end of the return spring is arranged on the sliding rod, and the other end of the return spring is arranged on the box body.

Through adopting above-mentioned technical scheme, during the use, the conveying motor drive drives the gear and rotates, drive two drive racks of gear drive and remove along the direction that is close to each other for two sliding bars remove along the direction that is close to each other, the torsional spring restriction drives the rack and rotates along the direction of keeping away from the drive gear, break away from the structure drive and drive the rack and rotate along the direction that breaks away from the drive gear afterwards, make drive rack and drive the gear and break away from, reset spring drive drives the rack and resumes normal position and mesh with drive gear again afterwards, realize driving the reciprocating motion of two sliding bars simultaneously when conveying motor drives the conveying roller pivoted, the operation of operating personnel is convenient.

Optionally, the disengagement structure comprises a fixed block, a collision post and a maintaining rod for maintaining the disengagement state of the driving rack and the driving gear; the abutting column is arranged on the driving rack; the maintaining rod is arranged on the box body, the maintaining rod is positioned at one side of the driving rack, which is away from the driving gear, and one end of the maintaining rod, which is away from the driving gear, is used for being in contact with the contact column; the fixed block is arranged on the box body, a guide inclined plane used for guiding the abutting column to one side of the maintaining rod away from the driving gear is arranged on the fixed block, and the abutting column is used for abutting against the guide inclined plane.

Through adopting above-mentioned technical scheme, during the use, drive gear drive drives the rack and removes, then drive the conflict post on the rack and contradict with the direction inclined plane on the fixed block, it moves along the direction of keeping away from drive gear to support the touch post under the direction of direction inclined plane, make it remove along the direction of keeping away from drive gear to drive the rack, when drive rack and drive gear break away from, reset spring will drive the rack and pull back, make support touch post and keep away from the one end of drive gear with the maintenance pole and contradict, after reset spring resumes the length, support touch post and keep away from with the maintenance pole, drive rack and drive gear under the effect of torsional spring and mesh again, realize the reset; the driving gear is driven to drive the rack, and meanwhile the rack is driven to rotate along the direction separating from the driving gear, so that the operation of operators is facilitated.

Optionally, the radial cross section of the abutting column is circular; the release structure further comprises an elastic sheet; one end of the elastic piece is arranged at one end of the maintaining rod, which is close to the guide inclined plane, and the distance between one end of the elastic piece, which is close to the guide inclined plane, and the guide inclined plane is smaller than the diameter of the abutting column.

By adopting the technical scheme, when the guide inclined plane guides the abutting column, the elastic sheet bends along the direction away from the guide inclined plane under the abutting of the abutting column, and when the driving rack is separated from the driving gear, the abutting column passes through the space between the guide inclined plane and the elastic sheet, the elastic sheet returns to the original position, and the reset spring drives the rack to reset; the elastic piece can reduce and drive the conflict post on the rack to reenter the condition emergence between direction inclined plane and the maintenance pole, improves the reliability of operation.

Optionally, a feeding assembly is arranged on the box body, and the feeding assembly comprises a plurality of feeding tanks and a feeding pipe for feeding materials into the U-shaped pipe; the feeding tank body is positioned between two adjacent U-shaped pipes and is used for communicating the two adjacent U-shaped pipes; the feeding pipe is arranged on the box body.

When the cleaning liquid in the U-shaped pipe is used, a part of the cleaning liquid in the U-shaped pipe can be taken away by cloth, and the cleaning liquid in the U-shaped pipe needs to be added.

Through adopting above-mentioned technical scheme, during the use, in adding one of them U type intraductal with the washing liquid, the washing liquid that overflows will flow into next U type intraductal through the charging tank body, realizes feeding a plurality of U type pipe, makes things convenient for operating personnel's feeding.

Optionally, the conveying assembly further comprises a squeeze roller, the squeeze roller is located right above the conveying roller, the squeeze roller is rotatably connected in the box body, and a space for cloth extrusion is formed between the squeeze roller and the conveying roller; the liquid guide block is arranged in the box body and is positioned between the U-shaped pipe and the conveying roller, and two guide grooves used for guiding the cleaning liquid extruded by the conveying roller and the extruding roller into the feeding groove body are formed in the liquid guide block.

Through adopting above-mentioned technical scheme, squeeze roller and conveying roller extrude the washing liquid in the cloth during the use, and the washing liquid of extrusion flows into a plurality of U type pipes and the loading tank body through the guide way on the drain block for the washing liquid is gone into in the U type pipe again, reduces the waste of water resource.

Optionally, a cleaning assembly is arranged on the box body, and the cleaning assembly comprises a driving rope and a plurality of cleaning sponges for cleaning the inner wall of the U-shaped tube; the cleaning sponge is arranged on the driving rope, and the driving rope is used for penetrating through the U-shaped tubes and spirally winding on the conveying roller.

Through adopting above-mentioned technical scheme, when needs clear up U type pipe inner wall, operating personnel can pass a plurality of U type pipes and spiral winding on the conveying roller with driving the rope, clear up the sponge and drive the rope and rotate the spiral along with the conveying roller and advance, a plurality of clear up the sponge and clear up the inner wall of U type pipe after being squeezed by squeeze roller and conveying roller, clear up the sponge to a certain extent, clear up next U type pipe inner wall again later, make things convenient for operating personnel to clear up U type pipe inner wall.

Optionally, a cleaning through hole is formed in the lowest part of the U-shaped pipe, and a sealing column is connected with the cleaning through hole in a threaded manner.

Through adopting above-mentioned technical scheme, the cleaning solution that has impurity that is extruded by squeeze roll and conveying roller will flow into U type intraductal again, and operating personnel accessible is screwed out the sealed post in the clearance through-hole, realizes letting out the cleaning solution that has impurity in the U type intraductal, makes things convenient for operating personnel's clearance.

In a second aspect, the processing technology of the rayon fabric provided by the application adopts the following technical scheme:

s1, weighing: weighing the man-made cotton fabric with the processing function;

s2, alkali washing: alkali washing is carried out on the weighed man-made cotton fabric;

s3, carrying out hydrothermal treatment: putting the cotton fabric subjected to alkali washing into warm water, heating, keeping the temperature for a period of time, and taking out the cotton fabric;

s4, normal-temperature water treatment: washing the man-made cotton fabric subjected to the hydrothermal treatment in warm water;

s5, dyeing: dyeing the man-made cotton fabric;

s6, washing with warm water: carrying out warm water washing on the dyed cotton fabric by using the rope-shaped water washing machine;

s7, drying and shaping: and (5) drying and shaping the warm water washed man-made cotton fabric.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the cleaning liquid is stored by the U-shaped pipe, so that most of the cleaning liquid can clean the cloth, and when the cloth takes away part of the cleaning liquid, the liquid level in the U-shaped pipe is reduced in descending degree, and the cleaning effect of the cleaning liquid on the cloth is improved to a certain degree;

2. the cloth is dithered through the dithering component, so that the cleaning effect of the cleaning liquid on the cloth is further improved;

3. the conveying motor drives the conveying roller to rotate and simultaneously drives the rack to rotate along the direction separating from the driving gear through the driving piece, so that the operation of operators is facilitated.

Drawings

Fig. 1 is a schematic structural view of a rope-shaped washing machine for a cotton fabric.

Fig. 2 is a schematic structural view of a rope-shaped washing machine for cotton fabric in fig. 1 of the present application, for showing the structure of a shaking assembly.

Fig. 3 is a cross-sectional view of fig. 2 showing the configuration of the liquid guide block, the U-tube and the feed assembly within the housing.

Fig. 4 is a schematic structural view of the hidden liquid guide block in fig. 3, for showing the structure of the feeding assembly and the U-shaped tube.

Fig. 5 is a schematic diagram of the structure of the dithering assembly of fig. 2.

Fig. 6 is a schematic view of the disengaged structure of fig. 5.

Fig. 7 is a schematic view of the configuration of the cleaning assembly of fig. 2.

Fig. 8 is a schematic view of the U-tube and cleaning assembly of fig. 7.

Reference numerals: 1. a case; 11. a cleaning tank; 12. a cloth inlet; 13. a cloth outlet; 14. a U-shaped tube; 141. cleaning the through holes; 142. a closed column; 15. a liquid guide block; 16. a guide groove; 2. a transport assembly; 21. a conveying roller; 22. a squeeze roll; 23. a conveying motor; 3. a charging assembly; 31. a feeding tank body; 32. a feeding tube; 4. a dithering assembly; 41. a sliding rod; 42. a limiting ring; 43. a driver; 431. driving a gear; 432. driving a rack; 433. a torsion spring; 434. a return spring; 435. a release structure; 4351. a fixed block; 4352. an elastic sheet; 4353. a contact column; 4354. a maintenance rod; 44. a vertical rod; 45. a rotating shaft; 46. a guide slope; 5. cleaning the assembly; 51. driving the rope; 52. and cleaning the sponge.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-8.

The embodiment of the application discloses a rope-shaped rinsing machine for a cotton fabric. Referring to fig. 1 and 2, a rope-shaped washing machine for a cotton fabric comprises a box body 1, wherein a washing tank 11 is arranged in the box body 1, a cloth inlet 12 communicated with the washing tank 11 and a cloth outlet 13 communicated with the washing tank 11 are arranged on the side wall of the box body 1, the cloth inlet 12 and the cloth outlet 13 are distributed along the length direction of the box body 1, four vertically arranged U-shaped pipes 14 are fixedly connected in the box body 1, the U-shaped pipes 14 are obliquely arranged with the length direction of the box body 1, and the four U-shaped pipes 14 are mutually parallel; a conveying component 2 for driving the cloth to be transported spirally and a shaking component 4 for shaking the cloth are arranged in the box body 1.

When the cleaning device is used, the conveying assembly 2 drives the cloth to be transported spirally, the shaking assembly 4 drives the cloth to shake, the cloth is relaxed and the cleaning liquid in the U-shaped tube 14 is stirred, so that the cleaning liquid in the U-shaped tube 14 has a better cleaning effect on the cloth.

Referring to fig. 1 and 2, the conveying assembly 2 includes a conveying roller 21, a pressing roller 22, and a conveying motor 23; the length direction of the conveying roller 21 is parallel to the length direction of the box body 1, the conveying roller 21 is positioned right above the four U-shaped pipes 14, the conveying roller 21 is rotationally connected to the inner side wall of the box body 1, the conveying motor 23 is fixedly connected to the outer side wall of the box body 1, and an output shaft of the conveying motor 23 is coaxially and fixedly connected to the conveying roller 21; the squeeze roller 22 is parallel to the conveying roller 21, the squeeze roller 22 is positioned right above the conveying roller 21, the squeeze roller 22 is rotatably connected to the inner wall of the box body 1, and a space for cloth squeezing is formed between the squeeze roller 22 and the conveying roller 21.

When in use, cloth sequentially passes through the first U-shaped pipe 14, the conveying roller 21, the second U-shaped pipe 14, the conveying roller 21, the third U-shaped pipe 14, the conveying roller 21 and the fourth U-shaped pipe 14, the conveying motor 23 drives the conveying roller 21 to rotate, and the conveying roller 21 drives the cloth to be conveyed in a spiral manner; the U-shaped tube 14 enables most of cleaning liquid to clean cloth, and the utilization rate of the cleaning liquid is improved; the squeeze rollers 22 squeeze out the cleaning liquid in the cloth between the conveying rollers 21.

Referring to fig. 2 and 3, a feeding assembly 3 for feeding the U-shaped tube 14 is disposed in the case 1, and the feeding assembly 3 includes a plurality of feeding tanks 31 and a feeding tube 32 for feeding the U-shaped tube 14; the feeding tank body 31 is positioned between every two adjacent U-shaped pipes 14, one end of the feeding tank body 31 is fixedly connected with the pipe orifice of one U-shaped pipe 14, and the other end of the feeding tank body 31 is fixedly connected with the pipe orifice of the other U-shaped pipe 14; the feeding tube 32 is fixedly connected to the box 1, and the feeding tube 32 is located above the U-shaped tube 14 and is used for feeding one of the tube openings of the U-shaped tube 14.

Referring to fig. 3 and 4, a liquid guide block 15 is disposed in the tank 1, the length direction of the liquid guide block 15 is parallel to the length direction of the tank 1, the liquid guide block 15 is located between the conveying roller 21 and the four U-shaped pipes 14, the liquid guide block 15 is located between two openings of the U-shaped pipes 14, two guide grooves 16 for guiding cleaning liquid into the U-shaped pipes 14 and the feeding tank 31 are formed above the liquid guide block 15, the two guide grooves 16 are distributed along the width direction of the liquid guide block 15, the distance between the bottoms of the two guide grooves 16 is gradually increased along the vertical downward direction, and one end of the guide groove 16, which is close to the feeding tank 31, is communicated with the feeding tank 31.

When the cleaning liquid feeding device is used, the feeding pipe 32 guides the cleaning liquid to the opening at one end of the U-shaped pipe 14, and overflowed cleaning liquid flows into the next U-shaped pipe 14 through the feeding tank body 31, so that the four U-shaped pipes 14 are fed; the water extruded by the extrusion roller 22 and the conveying roller 21 flows into the four U-shaped pipes 14 and the feeding tank body 31 through the two guide grooves 16 on the liquid guide block 15, so that the cleaning liquid is recovered, the environment is protected, and the waste of water resources is reduced.

Referring to fig. 2 and 5, the shaking unit 4 includes two sliding rods 41, a plurality of limiting rings 42, and a driving member 43 for driving the two sliding rods 41 to move in a direction approaching or moving away from each other; the sliding rods 41 are clamped with the box body 1 in the circumferential direction, the two sliding rods 41 are parallel to the conveying roller 21, the two sliding rods 41 are positioned on the same horizontal plane, the two sliding rods 41 are positioned between the conveying roller 21 and the U-shaped tube 14, and the two sliding rods 41 are connected to the side wall of the box body 1 in a sliding manner along the width direction of the box body 1; the limiting rings 42 are horizontally arranged, the limiting rings 42 are fixedly connected to the sliding rod 41, and the limiting rings 42 are distributed along the length direction of the sliding rod 41.

Referring to fig. 2 and 5, the driver 43 includes a driving gear 431, two driving racks 432, two torsion springs 433 for maintaining the meshing state of the driving racks 432 and the driving gear 431, a return spring 434 for returning the sliding rod 41 to the original position, and a release structure 435 for driving the driving racks 432 to rotate along the direction of releasing from the driving gear 431; one end of the sliding rod 41 is fixedly connected with a vertical rod 44, and one end of the vertical rod 44 away from the box body 1 is fixedly connected with a rotating shaft 45; the driving gear 431 is coaxially and fixedly connected to one end of the conveying roller 21; the two driving racks 432 are respectively positioned at the upper side and the lower side of the driving gear 431, the length direction of the driving racks 432 is parallel to the width direction of the box body 1, one end of each driving rack 432 is rotationally connected to the rotating shaft 45, and each driving rack 432 is used for being meshed with the corresponding driving gear 431; the length direction of the return spring 434 is parallel to the driving gear 431, one end of the return spring 434 is fixedly connected to one end of the vertical rod 44, which is far away from the driving rack 432, and the other end of the return spring 434 is fixedly connected to the box 1.

Referring to fig. 5 and 6, the torsion spring 433 is sleeved on the rotation shaft 45, one end of the torsion spring 433 is fixedly connected to the rotation shaft 45, and the other end of the torsion spring 433 is fixedly connected to the driving rack 432.

When the automatic conveyer is used, the conveyer motor 23 drives the driving gear 431 and the conveyer roller 21 to rotate, the driving gear 431 drives the driving racks 432 on the upper side and the lower side to move along the direction close to each other, the torsion spring 433 maintains the meshing state of the driving racks 432 and the driving gear 431, the reset spring 434 is stretched, the two sliding rods 41 move along the direction close to each other, then the disengaging structure 435 drives the driving racks 432 to rotate along the direction disengaging from the driving gear 431, the reset spring 434 drives the driving racks 432 to reset, and then the disengaging structure 435 drives the driving racks 432 to rotate along the direction close to the driving gear 431 again, so that the driving gears 431 are meshed with the driving racks 432, and the two sliding rods 41 are driven to move along the direction close to each other or away from each other when the conveyer motor 23 drives the conveyer roller 21 to rotate, so that the operation of operators is facilitated.

Referring to fig. 5 and 6, the disengaging structure 435 includes a fixing block 4351, an elastic piece 4352, a cylindrical abutting column 4353, and a maintaining rod 4354 for maintaining the disengaging state of the driving rack 432 and the driving gear 431; the abutting column 4353 is fixedly connected to one end face of the driving rack 432, which is close to the box body 1; the fixed block 4351 is positioned between the driving gear 431 and the driving rack 432, the fixed block 4351 is positioned at one side of the vertical rod 44, which is away from the reset spring 434, the fixed block 4351 is fixedly connected to the side wall of the box body 1, and a guide inclined plane 46 is arranged between one end of the fixed block 4351, which is far away from the driving gear 431, and one end of the fixed block 4351, which is close to the vertical rod 44; the length direction of the maintaining rod 4354 is parallel to the length direction of the driving rack 432, the maintaining rod 4354 is positioned at one side of the abutting column 4353, which is away from the driving gear 431, the maintaining rod 4354 is positioned between the guide inclined surface 46 and the vertical rod 44, the maintaining rod 4354 is fixedly connected to the side wall of the box body 1, and one end surface of the maintaining rod 4354, which is away from the driving gear 431, is used for abutting against the abutting column 4353; the elastic piece 4352 is in an arc shape, the curvature center of the elastic piece 4352 is located at one side of the elastic piece 4352 away from the guide inclined plane 46, one end of the elastic piece 4352 is fixedly connected with one end of the maintaining rod 4354, which is close to the guide inclined plane 46, and the distance between one end of the elastic piece 4352, which is close to the guide inclined plane 46, and the guide inclined plane 46 is smaller than the diameter of the abutting column 4353.

When in use, the conveying motor 23 drives the driving rack 432 to move through the driving gear 431, then the abutting column 4353 abuts against the guide inclined surface 46, so that the driving rack 432 rotates along the direction of separating from the driving gear 431, then the abutting column 4353 passes through the guide inclined surface 46 and the elastic sheet 4352, and then the elastic sheet 4352 is restored to the original position, because the distance between one end of the elastic sheet 4352, which is close to the guide inclined surface 46, and the guide inclined surface 46 is smaller than the diameter of the abutting column 4353, the abutting column 4353 is convenient to move to one end surface of the maintaining rod 4354, which is far away from the driving gear 431, under the guide of the elastic sheet 4352, the maintaining rod 4354 is separated from the abutting column 4353 when the reset spring 434 is restored, and the torsion spring 433 drives the driving rack 432 to move along the direction of approaching to the driving gear 431, so that the driving gear 431 is meshed with the driving rack 432; the realization is realized when the conveying motor 23 drives the two sliding rods 41 to move in the direction of approaching or separating from each other and simultaneously realizes that the driving rack 432 rotates along the direction of separating from the driving gear 431, thereby being convenient for the operation of operators.

Referring to fig. 7 and 8, a cleaning assembly 5 for cleaning the U-shaped tube 14 is arranged on the box 1, and the cleaning assembly 5 comprises a driving rope 51 and a plurality of cleaning sponges 52 for cleaning the inner wall of the U-shaped tube 14; a plurality of cleaning sponge 52 are fixedly connected to the driving rope 51, and the cleaning sponge 52 are distributed along the length direction of the driving rope 51.

Referring to fig. 7 and 8,U, a cleaning through hole 141 extending in a vertical direction is formed at the lowest position of the tube 14, and a closing post 142 is screwed into the cleaning through hole 141.

When the U-shaped pipe cleaning device is used, the driving rope 51 sequentially penetrates through the first U-shaped pipe 14, the conveying roller 21, the second U-shaped pipe 14, the conveying roller 21, the third U-shaped pipe 14, the conveying roller 21 and the fourth U-shaped pipe 14, the conveying motor 23 drives the driving rope 51 to spirally advance through the conveying roller 21, the cleaning sponge 52 on the driving rope 51 cleans the inner wall of the U-shaped pipe 14, the cleaning sponge 52 extrudes the conveying roller 21 and the extrusion roller 22 after the cleaning of the inner wall of the U-shaped pipe 14 is completed, the cleaning sponge 52 is cleaned to a certain extent, then an operator can screw out the sealing column 142 to discharge dirty water in the U-shaped pipe 14, and the cleaning of the U-shaped pipe 14 by the operator is facilitated.

The implementation principle of the rope-shaped rinsing machine for the man-cotton fabric is as follows: when the cleaning machine is used, the conveying motor 23 drives the cloth to spirally advance through the conveying roller 21 and the extruding roller 22, and the cloth is cleaned in the U-shaped pipe 14, so that most cleaning liquid can clean the cloth, the cleaning capacity of the cleaning liquid is improved, and the waste of water is reduced; at this time, the conveying roller 21 drives the two sliding rods 41 to move along the directions approaching or separating from each other through the driving piece 43, so that the cloth is vibrated, the cleaning liquid in the U-shaped tube 14 is stirred while the cloth is relaxed, the cleaning effect of the cleaning liquid on the cloth is further improved, and the water resource is saved.

The embodiment of the application also discloses a processing technology of the man-made cotton fabric, which comprises the following processing steps:

s1, weighing: weighing the man-made cotton fabric with the processing function;

s2, alkali washing: alkali washing is carried out on the weighed man-made cotton fabric;

s3, carrying out hydrothermal treatment: putting the cotton fabric subjected to alkali washing into warm water, heating, keeping the temperature for a period of time, and taking out the cotton fabric;

s4, normal-temperature water treatment: washing the man-made cotton fabric subjected to the hydrothermal treatment in warm water;

s5, dyeing: dyeing the man-made cotton fabric;

s6, washing with warm water: carrying out warm water washing on the dyed cotton fabric by using the rope-shaped water washing machine;

s7, drying and shaping: and (5) drying and shaping the warm water washed man-made cotton fabric.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (9)

1. A rope-shaped rinsing machine for a cotton fabric is characterized in that: the cleaning device comprises a box body (1), wherein a cloth inlet (12) and a cloth outlet (13) are formed in the box body (1), a plurality of U-shaped pipes (14) for storing cleaning liquid and a conveying assembly (2) for driving cloth to spirally advance are vertically arranged in the box body (1), the conveying assembly (2) comprises a conveying roller (21) and a conveying motor (23) for driving the conveying roller (21) to rotate, the conveying roller (21) is rotationally connected in the box body (1), the plurality of U-shaped pipes (14) are distributed along the length direction of the conveying roller (21), the plurality of U-shaped pipes (14) are positioned below the conveying roller (21), the box body (1) is provided with a shaking assembly (4) for driving ropes (51) to shake cloth, and the shaking assembly (4) comprises two sliding rods (41), a plurality of limiting rings (42) and a driving piece (43) for driving the two sliding rods (41) to move in the direction of approaching or separating from each other; the conveying roller (21) is positioned between the two sliding rods (41), the two sliding rods (41) are arranged in parallel with the conveying roller (21), and the two sliding rods (41) are connected in the box body (1) in a sliding manner along the horizontal direction; the limiting rings (42) are arranged on the sliding rod (41).

2. The rope-shaped washing machine for the human cotton fabric according to claim 1, wherein the washing machine comprises the following components: the driving piece (43) comprises a driving gear (431), two driving racks (432), two torsion springs (433) used for maintaining the meshing state of the driving racks (432) and the driving gear (431), a reset spring (434) used for resetting the sliding rod (41) and a disengaging structure (435) used for driving the driving racks (432) to rotate along the direction of disengaging from the driving gear (431); the driving gear (431) is coaxially arranged on the conveying roller (21); the two driving racks (432) are in one-to-one correspondence with the two sliding rods (41), the driving racks (432) are rotationally connected to the sliding rods (41), and the driving racks (432) are meshed with the driving gears (431); one end of the return spring (434) is arranged on the sliding rod (41), and the other end of the return spring (434) is arranged on the box body (1).

3. The rope-shaped washing machine for the human cotton fabric as claimed in claim 2, wherein: the disengaging structure (435) comprises a fixed block (4351), a supporting column (4353) and a maintaining rod (4354) for maintaining the disengaging state of the driving rack (432) and the driving gear (431); the abutting column (4353) is arranged on the driving rack (432); the maintaining rod (4354) is arranged on the box body (1), the maintaining rod (4354) is positioned at one side of the driving rack (432) away from the driving gear (431), and one end of the maintaining rod (4354) away from the driving gear (431) is used for being in contact with the abutting column (4353); the fixed block (4351) is arranged on the box body (1), a guide inclined surface (46) for guiding the contact supporting column (4353) to one side of the maintaining rod (4354) far away from the driving gear (431) is arranged on the fixed block (4351), and the contact supporting column (4353) is used for contacting with the guide inclined surface (46).

4. A rope washer for a cotton fabric according to claim 3, wherein: the radial section of the abutting column (4353) is circular; the release structure (435) further comprises an elastic sheet (4352); one end of the elastic piece (4352) is arranged at one end of the maintaining rod (4354) close to the guide inclined plane (46), and the distance between one end of the elastic piece (4352) close to the guide inclined plane (46) and the guide inclined plane (46) is smaller than the diameter of the abutting column (4353).

5. The rope-shaped washing machine for the human cotton fabric according to claim 1, wherein the washing machine comprises the following components: the feeding assembly (3) is arranged on the box body (1), and the feeding assembly (3) comprises a plurality of feeding tanks (31) and feeding pipes (32) for feeding materials into the U-shaped pipes (14); the feeding tank body (31) is positioned between two adjacent U-shaped pipes (14), and the feeding tank body (31) is used for communicating the two adjacent U-shaped pipes (14); the feeding pipe (32) is arranged on the box body (1).

6. The rope-shaped washing machine for the human cotton fabric, as claimed in claim 5, wherein: the conveying assembly (2) further comprises a squeeze roller (22), the squeeze roller (22) is located right above the conveying roller (21), the squeeze roller (22) is rotatably connected in the box body (1), and a space for cloth extrusion is formed between the squeeze roller (22) and the conveying roller (21); be provided with in box (1) drain piece (15), drain piece (15) are located U type pipe (14) with between carry roller (21), two are used for with carry roller (21) with washing liquid that squeeze roll (22) extruded is directed to guide way (16) in loading tank (31) on drain piece (15).

7. The rope-shaped washing machine for the human cotton fabric according to claim 1, wherein the washing machine comprises the following components: the cleaning assembly (5) is arranged on the box body (1), and the cleaning assembly (5) comprises a driving rope (51) and a plurality of cleaning sponges (52) for cleaning the inner wall of the U-shaped tube (14); the cleaning sponge (52) is arranged on the driving rope (51), and the driving rope (51) is used for penetrating through the U-shaped tubes (14) and spirally winding on the conveying roller (21).

8. The rope-shaped washing machine for the human cotton fabric as claimed in claim 7, wherein: the cleaning through hole (141) is formed in the lowest position of the U-shaped pipe (14), and the sealing column (142) is connected with the cleaning through hole (141) through threads.

9. The processing technology of the man-made cotton fabric is characterized by comprising the following processing steps of:

s1, weighing: weighing the man-made cotton fabric with the processing function;

s2, alkali washing: alkali washing is carried out on the weighed man-made cotton fabric;

s3, carrying out hydrothermal treatment: putting the cotton fabric subjected to alkali washing into warm water, heating, keeping the temperature for a period of time, and taking out the cotton fabric;

s4, normal-temperature water treatment: washing the man-made cotton fabric subjected to the hydrothermal treatment in warm water;

s5, dyeing: dyeing the man-made cotton fabric;

s6, washing with warm water: warm washing the dyed cotton fabric by a rope-shaped washing machine according to any one of claims 1-8;

s7, drying and shaping: and (5) drying and shaping the warm water washed man-made cotton fabric.