CN116556003A - Pad dyeing equipment and pad dyeing method - Google Patents

Abstract

The invention belongs to the technical field of pad dyeing, and particularly relates to pad dyeing equipment and a pad dyeing method, which comprise a base, wherein a controller is arranged on one side of the base, retraction assemblies are arranged at two ends of the top of the base, a cleaning assembly is arranged on one side of the top of the base, a pad dyeing assembly is arranged on one side of the cleaning assembly, and a drying assembly is arranged on one side of the pad dyeing assembly; the cleaning assembly comprises an inner pipe, and a fixing ring is arranged in the middle of the outer surface of the inner pipe; when the fold takes place for the device, the controller realizes the clamp fixation to the cloth and break away from the pad dyeing through controlling the mutually supporting of receive and release subassembly, clean subassembly, pad dyeing subassembly and stoving subassembly, avoids fold department repeated pad dyeing many times to influence the pad dyeing effect, and the inner tube reverse rotation and cooperates the lateral shifting of slip cap to realize the smooth peaceful cleanness to the cloth fold, and dust removal edulcoration is efficient, and is effectual, smooth peaceful effectual, guarantees the normal processing pad dyeing demand of cloth, energy saving and emission reduction, green.

Description

Pad dyeing equipment and pad dyeing method

Technical Field

The invention belongs to the technical field of pad dyeing, and particularly relates to pad dyeing equipment and a pad dyeing method.

Background

Pad dyeing refers to a dyeing method that a fabric pad dyeing machine is used for immersing the fabric and then is subjected to roller pressure to enable the dye liquor to penetrate into the fabric, the pad dyeing is realized through the pad dyeing machine, and a pad dyeing process is usually required to be realized through the pad dyeing machine when pad dyeing of cloth is realized.

The Chinese patent 2021204177222 relates to a padding machine, which relates to the technical field of fabric dyeing and comprises a tank body, wherein a padding roller set is arranged on the tank body, a protective box is arranged on the tank body, a cloth passing hole for cloth to pass through is formed in the protective box, a return port is formed in the bottom of the protective box, and the padding roller set is arranged on the inner side wall of the protective box; the pad dyeing machine has low pad dyeing efficiency and poor pad dyeing quality.

The Chinese patent 2021220238639 relates to a padding machine, which comprises a frame, wherein a padding pool is arranged on the frame, a movable roller and a fixed roller are arranged on the frame, the fixed roller and the movable roller are positioned above the padding pool, a first driving motor is arranged on the frame, an output shaft of the first driving motor is fixedly connected with the movable roller, a hairbrush roller is arranged on the frame, the hairbrush roller is positioned above one side, far away from the movable roller, of the padding pool, and a second driving motor for driving the hairbrush roller is arranged on the frame; the pad dyeing machine cannot realize the adaptive pad dyeing process for different fabrics, and has poor pad dyeing adaptability and poor pad dyeing stability.

Before pad dyeing of cloth, the cleaning effect on the cloth is lacked in the prior art, and then dust impurities and the like are remained on the outer surface of the cloth, so that the pad dyeing quality of the cloth can be reduced, and the subsequent pad dyeing of the cloth can be influenced.

And when cloth is pad-dyed, folds appear to influence the subsequent pad-dyed quality, and the prior art is lack of a process of smoothing the folded cloth, so that the pad-dyed efficiency is reduced when the cloth is manually smoothed, the smoothing quality is poor, the smoothing efficiency is low, and the method is not suitable for mass high-efficiency production requirements.

Meanwhile, when the wrinkles exist in the cloth, the front end distribution is already pad-dyed, and if the part cannot be reversely transmitted again and is pad-dyed for the second time, the pad-dyed quality of the cloth is easily reduced, so that serious quality problems occur.

Disclosure of Invention

The invention provides pad dyeing equipment and a pad dyeing method aiming at the problems.

In order to achieve the above purpose, the present invention provides the following technical solutions: the pad dyeing equipment comprises a base, wherein a controller is arranged on one side of the base, retraction assemblies are arranged at two end parts of the top of the base, a cleaning assembly is arranged on one side of the top of the base, a pad dyeing assembly is arranged on one side of the cleaning assembly, and a drying assembly is arranged on one side of the pad dyeing assembly;

the cleaning assembly comprises an inner pipe, a fixed ring is arranged in the middle of the outer surface of the inner pipe, electric telescopic rods are arranged on two sides of the fixed ring, a sliding sleeve is arranged at the output end of one side of the electric telescopic rods, which is far away from the fixed ring, and the inner wall of the sliding sleeve is in sealing sliding connection with the outer wall of the inner pipe;

the pad dyeing assembly comprises a pad dyeing box, wherein two groups of splicing blocks are symmetrically arranged at the inner bottom of the pad dyeing box, and distance sensors are arranged on the opposite end surfaces of the splicing blocks;

the drying assembly comprises a drying box, a drying cavity is formed in the drying box, two groups of connecting blocks are symmetrically arranged on the inner wall of the drying cavity, heat expansion pipes are arranged at the bottoms of the connecting blocks, a supporting plate is arranged at the bottoms of the heat expansion pipes, and movable tensioning rollers are arranged on the opposite end faces of the supporting plate.

The utility model provides a clean not only before the cloth carries out pad dyeing, can also smooth out the level with fingers the cloth when the fold appears in the cloth simultaneously to smooth out the level with fingers the level and carry out the feed back to front end cloth and pad dye again, guarantee pad dyeing quality.

As a preferable technical scheme of the invention, the winding and unwinding assembly comprises two groups of risers, the bottoms of the risers are fixedly connected with the tops of two side ends of the base, the opposite end surfaces of the risers are rotationally connected with winding rollers through bearings, one side of the riser far away from the winding rollers is provided with a winding motor, the output end of the winding motor penetrates through the risers and is fixedly connected with the end parts of the winding rollers, and the outer surface of the winding rollers is rotationally connected with cloth; the retraction assembly mainly realizes retraction of cloth.

As a preferable technical scheme of the invention, the controller is used for electrically controlling all electric elements, the bottom of the base is provided with a buffer pad, the distance sensor is used for detecting the distance between the buffer pad and the side end of cloth, and the cloth sequentially passes through the cleaning assembly, the pad dyeing assembly and the drying assembly from one side and reaches the collecting and releasing assembly from the other side.

As a preferred technical scheme of the invention, the cleaning assembly further comprises two groups of side plates, the bottoms of the side plates are fixedly connected with the top of the base, the bottoms of the side plates are rotatably connected with a bottom roller through bearings, the tops of the side plates are provided with top plates, the bottoms of the top plates are provided with electric push rods which are positioned on one sides of the side plates, far away from the bottom roller, of the side plates, the bottom output ends of the electric push rods are provided with square blocks, and the center shafts of the square blocks are rotatably connected with the outer surface of the inner pipe through bearings; further arrangement of the cleaning assembly improves the advanced cleaning effect on the cloth.

As a preferable technical scheme of the invention, one side of the inner pipe is provided with a middle hole, the end part of the inner wall of the middle hole is provided with a fan blade, the end part of the square block far away from one side of the fan blade is provided with a driving motor, the output end of the driving motor penetrates through the square block and is fixedly connected with the end part of the inner pipe, the outer surface of the inner pipe is uniformly provided with a plurality of groups of vent holes in an array manner, the other end of the vent hole is communicated with the middle hole, the outer surface of the sliding sleeve is uniformly provided with a plurality of groups of matching holes in an array manner, and the matching holes are matched with the vent holes; the vent holes are subjected to wind exhaust cleaning.

As a preferable technical scheme of the invention, the outer surfaces of the bottom roller and the sliding sleeve are respectively provided with a cleaning sleeve, the inner parts of the side plates are respectively provided with a scraping hole, the scraping holes are matched with the inner pipe, the inner walls of the scraping holes are provided with scraping plates, and the distance between the two groups of the opposite end surfaces of the scraping plates is matched with the outer diameter of the cleaning sleeve; the scraping holes and the scraping plates realize scraping and cleaning of dust and impurities on the outer surface of the cleaning assembly.

As a preferable technical scheme of the invention, two groups of end faces of the splicing blocks are rotationally connected with bottom rollers through bearings, the top of the splicing blocks is provided with a pneumatic push plate, the top of the pneumatic push plate is provided with a top block, the end faces of the top block are provided with top rollers, a pad dyeing cavity is formed in the pad dyeing box, dyes are arranged in the pad dyeing cavity, and side rollers are arranged at the tops of two side walls of the pad dyeing box; the top roller and the bottom roller are matched to realize pad dyeing of cloth.

As a preferable technical scheme of the invention, a fixed tensioning roller is rotationally connected between the opposite end surfaces of the connecting blocks through bearings, thermal expansion gas is arranged in the thermal expansion pipe, a connecting spring is arranged at the bottom of the connecting block and positioned in the thermal expansion pipe, and the bottom of the connecting spring is fixedly connected with the top of the supporting plate; the tensioning roller mainly performs the tensioning process.

As a preferable technical scheme of the invention, through holes are formed in two sides of the drying box, the other ends of the through holes are communicated with the drying cavity, the inner bottom of the through holes are provided with passing rollers, the inner bottom and the inner top of the drying cavity are provided with electromagnetic heating plates, and the opposite output ends of the electromagnetic heating plates are opposite to the central position of the drying cavity; the through holes are used for the cloth to pass through.

A pad dyeing method for pad dyeing cloth by using the pad dyeing device as claimed in claim 1, comprising the following steps,

s1, the controller controls the retraction assembly to drive the cloth backwards, the cleaning assembly cleans the outer surface of the cloth, the pad dyeing assembly pad-dyes the cloth, and the drying assembly dries the cloth;

s2, the controller controls the inner tube to rotate positively, the sliding sleeve performs transmission cleaning on the outer surface of the cloth, and the distance value detected by the distance sensor is a preset distance value;

and S3, when the distance value detected by the distance sensor is increased, the controller controls the inner tube to rotate reversely, and the movable tension roller compresses and fixes the bottom of the cloth.

By further limiting the pad dyeing process, the pad dyeing quality and pad dyeing efficiency are effectively improved.

Compared with the prior art, the invention has the following beneficial effects:

1. the device has the advantages of high pad dyeing quality, good pad dyeing effect, high pad dyeing precision, strong adaptability, simple operation, good tensioning effect on different fabrics, integrated operation of cleaning, pad dyeing and drying, strong integrity, high device linkage, energy conservation and emission reduction, and environment friendliness by arranging the components such as the retraction assembly, the cleaning assembly, the pad dyeing assembly and the drying assembly.

2. The device is simple to operate, high in pad dyeing efficiency, good in pad dyeing effect, stable, efficient and strong in adaptability, meets pad dyeing requirements of different fabrics, can clean the fabrics by rotating and wind force, is strong in cleaning performance, and is good in tensioning effect on the fabrics, and stability and transmission of the fabrics during pad dyeing are guaranteed.

3. According to the device, through the mutual matching of the parts such as the thermal expansion pipe, the sliding pipe and the inner pipe, when the cloth is wrinkled, the controller realizes the clamping fixation of the cloth and the separation of pad dyeing by controlling the mutual matching of the folding and unfolding assembly, the cleaning assembly, the pad dyeing assembly and the drying assembly, the repeated pad dyeing at the wrinkled part is avoided to influence the pad dyeing effect, the inner pipe reversely rotates and is matched with the transverse movement of the sliding sleeve to smooth and clean the cloth wrinkled, the dust removal and impurity removal efficiency is high, the effect is good, the smoothing effect is good, the normal processing pad dyeing requirement of the cloth is ensured, the energy conservation and the emission reduction are realized, and the device is green and environment-friendly.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

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

FIG. 3 is an enlarged schematic view of FIG. 1 at A;

FIG. 4 is an enlarged schematic view of FIG. 2B;

FIG. 5 is a schematic view of a cleaning assembly according to the present invention;

FIG. 6 is a schematic elevational cross-sectional view of a cleaning assembly of the present invention;

fig. 7 is a schematic structural view of a drying assembly according to the present invention;

fig. 8 is a schematic front cross-sectional view of a drying assembly of the present invention;

fig. 9 is an enlarged schematic view at C in fig. 8.

In the figure, 1, a base; 2. a retraction assembly; 201. a riser; 202. a wind-up roll; 203. a winding motor; 3. a cleaning assembly; 301. a side plate; 302. a bottom roller; 303. a top plate; 304. an electric push rod; 305. square blocks; 306. a driving motor; 307. an inner tube; 308. a sliding sleeve; 309. a vent hole; 310. matching holes; 311. a fan blade; 312. a middle hole; 313. a fixing ring; 314. an electric telescopic rod; 315. a cleaning sleeve; 316. scraping the hole; 4. padding the assembly; 401. padding a dyeing box; 402. splicing blocks; 403. a pneumatic push plate; 404. a bottom roller; 405. a top roller; 406. a distance sensor; 407. a side roller; 408. padding the dyeing cavity; 409. a top block; 5. a drying assembly; 501. a drying box; 502. an electromagnetic heating plate; 503. a support plate; 504. a movable tension roller; 505. a thermal expansion tube; 506. a connecting spring; 507. a connecting block; 508. a fixed tension roller; 509. a through hole; 510. passing through a roller; 511. and a drying cavity.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

First embodiment

As shown in figures 1-9, the pad dyeing equipment comprises a base 1, the bottom of the base 1 is provided with a buffer pad, elastic buffer contact between the base 1 and the ground is realized by means of the buffer pad, one side of the base 1 is provided with a controller, each electric element is electrically controlled by the controller, both ends of the top of the base 1 are respectively provided with a collecting and releasing assembly 2, the collecting and releasing effect on cloth is realized by the arrangement of the collecting and releasing assemblies 2, one side of the top of the base 1 is provided with a cleaning assembly 3, the cleaning assembly 3 cleans the cloth, one side of the cleaning assembly 3 is provided with a pad dyeing assembly 4, the pad dyeing assembly 4 pad-dyes the cloth, one side of the pad dyeing assembly 4 is provided with a drying assembly 5, the drying assembly 5 realizes drying treatment on the cloth, the pad dyeing effect of the cloth is improved, and the cloth sequentially passes through the cleaning assembly 3, the pad dyeing assembly 4 and the drying assembly 5 from the collecting and releasing assembly 2 at the other side.

The winding and unwinding assembly 2 comprises two groups of vertical plates 201, the bottoms of the vertical plates 201 are fixedly connected with the tops of two side ends of the base 1, the opposite end faces of the vertical plates 201 are rotatably connected with winding rollers 202 through bearings, one side, far away from the winding rollers 202, of each vertical plate 201 is provided with a winding motor 203, the output end of each winding motor 203 penetrates through the vertical plates 201 and is fixedly connected with the end part of each winding roller 202, the outer surfaces of the winding rollers 202 are rotatably connected with cloth, therefore, when the winding motors 203 rotate, the winding rollers 202 are driven to rotate, the winding rollers 202 release and wind the cloth, namely, the outer surfaces of one group of winding rollers 202 wind the non-pad dyed cloth, and the outer surfaces of the other group of winding rollers 202 wind the pad dyed cloth, so that the two groups of winding rollers 202 synchronously rotate to realize the pad dyeing process of the cloth.

The cleaning assembly 3 further comprises two groups of side plates 301, the bottoms of the side plates 301 are fixedly connected with the top of the base 1, the side plates 301 play a role in fixedly connecting, bottom rollers 302 are rotatably connected to the lower portions of the opposite end faces of the side plates 301 through bearings, and the bottom rollers 302 support the bottoms of cloth.

The pad dyeing assembly 4 comprises a pad dyeing box 401, two groups of splicing blocks 402 are symmetrically arranged at the inner bottom of the pad dyeing box 401, end faces of the two groups of splicing blocks 402, which face each other, are connected with a bottom roller 404 through bearings in a rotating mode, the bottoms of cloth are supported and pad dyed by the bottom roller 404, a pneumatic push plate 403 is arranged at the top of the splicing blocks 402, a top block 409 is arranged at the top of the pneumatic push plate 403, a top roller 405 is arranged at the opposite end faces of the top block 409, then the controller controls the pneumatic push plate 403 to start and drive the top block 409 to move, the top block 409 moves and drives the top roller 405 to move, the top roller 405 cooperates with the bottom roller 404 to pad dye the cloth, a pad dyeing cavity 408 is formed in the pad dyeing box 401, dye is arranged in the pad dyeing cavity 408, the dye is used for pad dyeing the cloth through the dye in the pad dyeing cavity 408, side rollers 407 are arranged at the tops of the two side walls of the pad dyeing box 401, the bottoms of the cloth are mainly supported and limited, and the cloth is prevented from sliding on the two sides of the top of the pad dyeing box 401, and the integrity and durability of the cloth are reduced.

The drying component 5 includes stoving case 501, stoving chamber 511 has been seted up to the inside of stoving case 501, the through-hole 509 has all been seted up to the inside cloth that carries out of stoving chamber 511, the other end and the stoving chamber 511 of through-hole 509 are linked together, consequently, the cloth gets into stoving chamber 511 inside along one side through-hole 509 and dries, and roll off along opposite side through-hole 509, the interior bottom of through-hole 509 is equipped with through roller 510, the slip stability and the trafficability characteristic of the same further improvement cloth of setting through roller 510, the interior bottom and the interior top in stoving chamber 511 all are equipped with electromagnetic heating board 502, electromagnetic heating board 502 is right to the central point of stoving chamber 511 to the output that faces, electromagnetic heating board 502 work and carry out the stoving to the inside cloth of stoving chamber 511.

When the cloth rolling machine is used, cloth is wound on the outer surface of the wind-up roller 202 on one side, the controller controls the wind-up motor 203 to start and drive the wind-up roller 202 to rotate, the wind-up roller 202 rotates and feeds the cloth backwards, meanwhile, the cloth passes through the bottom roller 302 inside the cleaning component 3, the bottom roller 302 not only rotates and cleans the bottom of the cloth, but also can carry out a tensioning procedure on the cloth by matching with the drying component 5, and the stability and the cleanliness of cloth transmission pad dyeing are effectively improved.

When the cloth passes through the bottom roller 302 and reaches the inside of the pad dyeing box 401, the cloth is positioned at the bottom of the bottom roller 404, meanwhile, the controller controls the pneumatic push plate 403 to start and drive the splicing block 402 to move downwards, the splicing block 402 moves downwards to drive the top roller 405 to move downwards, the top roller 405 moves downwards and is in mutual extrusion contact with the top of the cloth, the top roller 405 cooperates with the bottom roller 404 to carry out extrusion pad dyeing on the top and the bottom of the cloth, and meanwhile, the winding roller 202 drives the cloth to drive the backward transmission, so that the dye in the pad dyeing cavity 408 is pad dyed in the cloth, and the cloth obtains the required color and texture.

And when the cloth after pad dyeing is finished enters the drying cavity 511 along the through hole 509, the controller controls the electromagnetic heating plate 502 to start and heat the cloth, so that the cloth after pad dyeing presents a uniform coating and dyeing effect, the pad dyeing quality and the pad dyeing stability are improved, and when the cloth after drying is finished is wound on the outer surface of the winding roller 202 on the other side, the winding and the storage of the cloth after pad dyeing are finished, and the stability and the uniformity of the cloth are effectively improved.

The device pad dyeing quality is high, and the pad dyeing is effectual, and the pad dyeing precision is high, satisfies the actual pad dyeing effect of different cloth, and strong adaptability, easy operation, and it is effectual to the tensioning of cloth, clean, pad dyeing and stoving integration operation, and the wholeness is strong, mutually support and the device linkage is high between each part, energy saving and emission reduction, green.

Second embodiment

When the cloth is pad-dyed, a large amount of dust and impurities are easy to adhere to the outer surface of the cloth, if the cloth cannot be recovered and cleaned in time, the pad-dyeing effect of the cloth can be reduced, and meanwhile, the pad-dyeing of the subsequent cloth can be influenced; meanwhile, when the cloth is wrinkled suddenly in the pad dyeing process, the pad dyeing quality of the cloth is reduced, so that the quality requirement of the batch of cloth cannot be met; however, in the prior art, a smoothing device for cloth is lacking, and when the smoothing device is manually used for smoothing, the working efficiency is low, and meanwhile, the smoothing quality is poor, so that the production requirement of large-batch high efficiency cannot be met; when the wrinkles are found in the cloth, the front part of the cloth is padded, so that the problems of poor pad dyeing quality, uneven pad dyeing and the like are caused; when the cloth is smoothed out, if the drying component 5 is still in a working state, part of the cloth is excessively dried, so that the quality of the cloth is reduced; in order to solve the above problems, the pad dyeing apparatus further comprises: the cleaning assembly 3 comprises an inner pipe 307, a fixing ring 313 is arranged in the middle of the outer surface of the inner pipe 307, electric telescopic rods 314 are arranged on two sides of the fixing ring 313, a sliding sleeve 308 is arranged at the output end of one side of the electric telescopic rods 314 away from the fixing ring 313, the inner wall of the sliding sleeve 308 is in sealing sliding connection with the outer wall of the inner pipe 307, the sliding sleeve 308 rotates to clean the outer surface of cloth, when the cloth is wrinkled, a controller controls the electric telescopic rods 314 to drive the sliding sleeve 308 to slide along the inner pipe 307 after being started, the outer surface of the sliding sleeve 308 is in mutual extrusion contact with the top of the cloth and matched with the top of the cloth to transversely move, so that the working procedure of smoothing the cloth is realized, meanwhile, the sliding sleeve 308 transversely moves to scrape dust and impurities and the like remained on the outer surface of the sliding sleeve 308, and the cleaning performance of the sliding sleeve 308 is improved.

The top of curb plate 301 is equipped with roof 303, and the bottom of roof 303 just is located the side of curb plate 301 and keeps away from bottom roll 302 and is equipped with electric putter 304, and electric putter 304's bottom output is equipped with square piece 305, and square piece 305's axis department and the surface of inner tube 307 pass through the bearing and rotate to be connected, consequently when the electric putter 304 start and drive square piece 305 and move down of controller control, synchronous drive inner tube 307 moves down when square piece 305 moves down.

The inner tube 307 is provided with a middle hole 312 at one side, the inner wall end of the middle hole 312 is provided with a fan blade 311, the end of the square block 305 far away from one side of the fan blade 311 is provided with a driving motor 306, the output end of the driving motor 306 passes through the square block 305 and is fixedly connected with the end of the inner tube 307, the controller controls the driving motor 306 to start and drive the inner tube 307 to rotate, the inner tube 307 rotates to drive the inner fan blade 311 to rotate, the fan blade 311 rotates to apply suction force or exhaust force to the inside of the middle hole 312, the cloth cleaning or flattening process is further realized, the outer surface of the inner tube 307 is uniformly provided with a plurality of groups of ventilation holes 309, the other end of the ventilation holes 309 is communicated with the middle hole 312, the outer surface of the sliding sleeve 308 is uniformly provided with a plurality of groups of matching holes 310, the matching holes 310 are matched with the ventilation holes 309, when the matching holes 310 and the ventilation holes 309 are mutually overlapped, dust impurities and the like remained on the outer surface of the cloth are adsorbed and cleaned by means of the suction force applied by the middle hole 312, and after the sliding sleeve 308 moves transversely and the matching holes 310 and 309 are mutually staggered and blocked, part of the ventilation holes 309 are separated from the blocking of the sliding sleeve 308, and the middle hole 312 is subjected to exhaust force or exhaust force to the air and the air is further exhausted to the outside, the cloth cleaning process is realized, and the cloth cleaning and flattening process is realized by the cloth.

The outer surfaces of the bottom roller 302 and the sliding sleeve 308 are respectively provided with a cleaning sleeve 315, so when the electric telescopic rod 314 is not started, the side wall of the sliding sleeve 308 and the side wall of the fixed ring 313 are mutually in extrusion contact, the vent 309 and the matching hole 310 are mutually overlapped, the matching hole 310 is blocked by the cleaning sleeve 315, inclined folds in cloth transmission caused by overlarge suction force applied to external cloth by the middle hole 312 are avoided, the inner side of the side plate 301 is provided with a scraping hole 316, the scraping hole 316 is matched with the inner pipe 307, the inner wall of the scraping hole 316 is provided with scraping plates, the distance between the opposite end surfaces of the two groups of scraping plates is matched with the outer diameter of the cleaning sleeve 315, and when the sliding sleeve 308 slides to one side along the inner pipe 307, the outer surface of the sliding sleeve 308 and the scraping plates on the inner wall of the scraping hole 316 are mutually in extrusion contact, so that dust and impurities on the outer surface of the sliding sleeve 308 are effectively scraped and cleaned, and the cleanliness of the sliding sleeve 308 is improved.

The opposite end surfaces of the splicing block 402 are provided with distance sensors 406, and the distance sensors 406 are used for detecting the distance between the opposite end surfaces and the side ends of the cloth, so that when the cloth is driven between the top roller 405 and the bottom roller 404, the flatness of the cloth is detected by the distance sensors 406, and when one side of the cloth is wrinkled, the distance value detected by the distance sensors 406 at the side is increased, and accordingly, the flattening process of the cloth at the side is correspondingly realized by the sliding of the sliding sleeve 308.

The inner wall symmetry in stoving chamber 511 is equipped with two sets of connecting blocks 507, the bottom of connecting block 507 all is equipped with thermal expansion pipe 505, thermal expansion pipe 505's bottom is equipped with backup pad 503, backup pad 503 is equipped with movable tensioning roller 504 opposite end face, then when electromagnetic heating board 502 starts and makes the inside temperature of stoving chamber 511 rise, thermal expansion pipe 505 increases and drives backup pad 503 and move down, then backup pad 503 drives movable tensioning roller 504 and moves down, movable tensioning roller 504 reduces the tensioning force of cloth bottom, and then when avoiding top roll 405 to carry out extrusion contact pad dyeing to the cloth top, movable tensioning roller 504 stretches up the bottom of cloth and causes the cloth to take place the damage.

The fixed tensioning roller 508 is rotatably connected between the opposite end surfaces of the connecting blocks 507 through bearings, the thermal expansion gas is arranged in the thermal expansion pipe 505, the volume of the thermal expansion gas is increased along with the increase of the external temperature, the connecting springs 506 are arranged at the bottoms of the connecting blocks 507 and are positioned in the thermal expansion pipe 505, the bottoms of the connecting springs 506 are fixedly connected with the tops of the supporting plates 503, the resetting performance of the connecting blocks 507 is realized by means of the connecting springs 506, namely, when the temperature in the drying cavity 511 is reduced, the connecting blocks 507 are driven to move upwards under the elastic force of the connecting springs 506, the movable tensioning roller 504 is driven to move upwards and clamp cloth by being matched with the fixed tensioning roller 508, and the phenomenon that the front end of the cloth which is already dyed due to unclamping of the cloth at the side is prevented from rolling when the cloth is smoothed out, so that the quality of pad dyeing is reduced for a plurality of times is caused.

When the novel rolling device is used, cloth is wound on the outer surface of the rolling roller 202 on one side, the rolling motor 203 is controlled by the controller to start and drive the rolling roller 202 to rotate, the rolling roller 202 rotates and drives the cloth on the outer surface to drive backwards, the cloth sequentially passes through the cleaning component 3, the pad dyeing component 4 and the drying component 5 and reaches the outer surface of the rolling roller 202 on the other side, the height of the pad dyeing component 4 is lower than that of the cleaning component 3 and the drying component 5 on the two sides, and the cloth is distributed in a wavy mode.

Meanwhile, the controller controls the electric push rod 304 to start and drive the square block 305 to move downwards, the square block 305 moves downwards to drive the inner tube 307 to move downwards, the outer surface of the sliding sleeve 308 and the driving motor 306 start and drive the inner tube 307 to rotate forwards, the inner tube 307 rotates forwards and drives the sliding sleeve 308 on the outer surface to rotate forwards, and meanwhile, as the controller controls the electric telescopic rod 314 to be not started, the side wall of the sliding sleeve 308 contacts with the side wall of the fixed ring 313, the vent holes 309 are mutually overlapped with the matching holes 310, the cleaning sleeve 315 is synchronously driven to rotate forwards when the sliding sleeve 308 rotates, the cleaning sleeve 315 can apply backward pushing force to cloth when rotating forwards, the feeding efficiency of the cloth is improved, and meanwhile, the top and the bottom of the cloth are matched with the bottom roller 302 to rotate and clean, so that the cleaning effect on dust impurities on the outer surface of the cloth is further improved.

Meanwhile, when the inner pipe 307 rotates positively, the inner pipe 307 drives the fan blades 311 to rotate positively, suction force is applied to the inside of the middle hole 312 by the forward rotation of the fan blades 311, dust impurities and the like on the outer surface of the cloth enter the middle hole 312 along the cleaning sleeve 315, the matching hole 310 and the ventilation hole 309 by means of the suction force, and finally are discharged and collected along the middle hole 312, meanwhile, in order to ensure the integrity of the cleaning sleeve 315 when being subjected to the suction force, the cleaning sleeve 315 can be made of hard materials, such as a rubber sleeve and the like, and meanwhile, a hard brush is arranged on the outer surface of the rubber sleeve, a plurality of groups of pinholes are formed on the outer surface of the cleaning sleeve 315, so that deformation damage can not occur when the cleaning sleeve 315 is subjected to the suction force, the cleaning effect on the outer surface of the cloth is good, the friction force at ordinary times is large, and the smoothing effect is good.

When the cloth passes through the bottom of the bottom roller 404, the controller controls the pneumatic push plate 403 to start and drive the splicing block 402 to move downwards, the splicing block 402 moves downwards and drives the top roller 405 to move downwards and make mutual extrusion contact with the top of the cloth, at the moment, the dye in the pad dyeing cavity 408 is dyed inside the cloth by means of the extrusion force of the bottom roller 404 and the top roller 405, so that the cloth obtains a required color, and meanwhile, the distance value detected by the distance sensor 406 reaches a preset distance value, so that both ends of the cloth are in stable positions.

When cloth enters the drying cavity 511 along the through hole 509 after pad dyeing, the controller controls the electromagnetic heating plate 502 to start drying the cloth inside, meanwhile, due to the fact that the temperature inside the drying cavity 511 is increased, the thermal expansion tube 505 is increased in volume, the stretching connecting spring 506 drives the supporting plate 503 to move downwards, the supporting plate 503 synchronously drives the movable tensioning roller 504 to move downwards when moving downwards, the cloth passes through between the movable tensioning roller 504 and the fixed tensioning roller 508 and is dried and tensioned, the cloth is tensioned by means of the downward movement of the movable tensioning roller 504 and the downward movement of the top roller 405, tensioning of the cloth is achieved, and the fact that the cloth is loose or tensioned in a transmission process is avoided, and tensioning effect of the cloth is reduced.

And the cloth passes through the drying box 501 and then reaches the outer surface of the wind-up roll 202 at the other end to finish the pad dyeing process.

When the cloth is wrinkled and is transmitted to the top of the bottom roller 404, the distance value detected by the distance sensor 406 increases, so that the fact that the cloth is wrinkled at the side is indicated, the controller controls the winding motor 203 to stop rotating, the cloth stops transmitting back to pad dyeing, meanwhile, the controller controls the pneumatic push plate 403 to start and drive the splicing block 402 to move upwards, the splicing block 402 drives the top roller 405 to move upwards when moving upwards, and the top roller 405 moves upwards so that the cloth is separated from the pad dyeing state, and further the subsequent working procedures of flattening the cloth and reversely recycling pad dyeing are facilitated.

Meanwhile, in order to ensure that the dried cloth cannot reversely move to perform secondary pad dyeing when the cloth is smoothed out, the controller controls the electromagnetic heating plate 502 to stop heating, the temperature in the drying cavity 511 is reduced, the thermal expansion tube 505 is reduced along with the reduction of the temperature, the connecting block 507 is driven to move upwards under the action of the elastic force of the connecting spring 506, the movable tensioning roller 504 is synchronously driven to move upwards when the connecting block 507 moves upwards, the fixed tensioning roller 508 is matched to press and fix the cloth, the cloth is prevented from being separated from the drying box 501 when the cloth is reversely moved and is matched with the upward movement of the top roller 405, the cloth is still in a relatively stable state at the moment, and the pad dyeing quality and the pad dyeing level of the cloth are improved.

After completion, the controller controls the electric push rod 304 to move downwards and drives the square block 305 to move downwards, the square block 305 moves downwards and drives the inner pipe 307 to move downwards, then the outer surface of the sliding sleeve 308 and the top of the cloth are in mutual extrusion contact, so that the efficiency and stability of subsequent flattening and reverse transmission of the cloth are effectively improved, meanwhile, the controller controls the starting of the electric telescopic rod 314 matched with the distance value increasing end detected by the distance sensor 406, the electric telescopic rod 314 drives the sliding sleeve 308 to move towards two sides and synchronously apply friction force to the top of the cloth when the sliding sleeve 308 moves, so that the cloth fold part moves towards two sides to flatten, the effect and the effect of flattening the cloth are effectively improved, meanwhile, along with the transverse movement of the sliding sleeve 308, the sliding sleeve 308 and the scraping plate inside the scraping hole 316 are in mutual extrusion contact friction, the outer surface of the sliding sleeve 308, especially the cleaning sleeve 315 is scraped, the cleaning performance and stability of the device are improved, and the influence of excessive residual dust impurities on the outer surface of the cleaning sleeve 315 on the subsequent cloth is avoided.

Then the controller controls the driving motor 306 to drive the inner tube 307 to reversely rotate, the inner tube 307 reversely rotates to drive the cloth to move forwards through the extrusion action with the top of the cloth, the matched top roller 405 is separated from the pad dyeing of the top of the cloth and the tension of the movable tension roller 504 on the cloth, the cloth moves to the front end, further the folded part is separated from the pad dyeing assembly 4 again, the pad dyeing process is repeatedly carried out on the part after the cloth is smoothed out, thus the pad dyeing effect is effectively improved, the cloth quality reduction caused by continuous backward transmission of the folded cloth is avoided, the fan blades 311 are driven to reversely rotate when the inner tube 307 reversely rotates, the suction force of the fan blades 311 is changed into exhaust force to the middle hole 312, the outside air enters the middle hole 312, the gap between the opposite end faces of the two sliding sleeves 308 is gradually increased along with the sliding sleeve 308, the part 309 at the position is separated from the blocking of the sliding sleeve 308, the air is directly discharged to the top along the vent 309, the number of the sliding sleeve 308 is gradually increased along with the continuous transverse movement of the sliding sleeve 308, the air vent 309 is gradually increased, the air vent 309 is smoothly matched with the air vent 309, and the air quality of the cloth is smoothly increased, and the effect of the air vent is effectively improved.

After the cloth is smoothed out along with the continuous transverse movement of the sliding sleeve 308, the distance value detected by the distance sensor 406 is restored to the preset distance value, the controller controls the electric push rod 304 to reversely move to drive the square block 305 to reversely move to the initial position, the electric telescopic rod 314 drives the sliding sleeve 308 to reversely move and contact with the side wall of the fixed ring 313, the driving motor 306 positively rotates and drives the inner tube 307 to positively rotate, the inner tube 307 drives the sliding sleeve 308 to positively rotate and convey the cloth backwards, meanwhile, the controller controls the pneumatic push plate 403 to drive the splicing block 402 to downwardly move, the splicing block 402 downwardly moves to synchronously drive the top roller 405 downwardly to compress the top of the cloth, the controller controls the electromagnetic heating plate 502 to start and heat and dry the inside of the drying cavity 511, the heated expansion volume of the thermal expansion tube 505 is increased, the supporting plate 503 stretches the connecting spring 506 to drive the movable tension roller 504 downwardly to be separated from the clamping and fixing state of the cloth, the cloth is restored to the normal pad dyeing transmission state, and the process is repeated.

The device is simple to operate, high in pad dyeing efficiency, good in pad dyeing effect, stable, efficient and high in adaptability, meets pad dyeing requirements of different fabrics, can simultaneously clean the fabrics by rotating wind force, is high in cleaning performance, and is good in tensioning effect on the fabrics, and stability and transmission of the fabrics during pad dyeing are guaranteed; and when the fold takes place for the cloth, the controller realizes the clamp fixing to the cloth and break away from the pad dyeing through the mutual cooperation of control receive and release subassembly 2, clean subassembly 3, pad dyeing subassembly 4 and stoving subassembly 5, avoids fold department repeated pad dyeing reduction effect many times, and inner tube 307 reverse rotation and cooperation sliding sleeve 308's lateral shifting realize the smooth and clean to the smooth and flat cleanness of cloth fold, and dust removal edulcoration is efficient, and is effectual, smooth and flat effectual, guarantees the normal processing pad dyeing demand of cloth, energy saving and emission reduction, green.

Third embodiment

A pad dyeing method realizes pad dyeing work on cloth by using the pad dyeing equipment, and comprises the following steps:

s1, a controller controls the retraction assembly 2 to drive the cloth backwards, the cleaning assembly 3 cleans the outer surface of the cloth, the pad dyeing assembly 4 pad-dyes the cloth, and the drying assembly 5 dries the cloth.

S2, the controller controls the inner tube 307 to rotate positively, the sliding sleeve 308 performs transmission cleaning on the outer surface of the cloth, and the distance value detected by the distance sensor is a preset distance value.

And S3, when the distance value detected by the distance sensor is increased, the controller controls the inner tube 307 to rotate reversely, and the movable tension roller 504 compresses and fixes the bottom of the cloth.

The method further improves pad dyeing efficiency of the cloth, and has better pad dyeing effect, stronger adaptability and higher stability.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The pad dyeing equipment comprises a base, wherein a controller is arranged on one side of the base, and the pad dyeing equipment is characterized in that retraction assemblies are arranged at two end parts of the top of the base, a cleaning assembly is arranged on one side of the top of the base, a pad dyeing assembly is arranged on one side of the cleaning assembly, and a drying assembly is arranged on one side of the pad dyeing assembly;

the cleaning assembly comprises an inner pipe, a fixed ring is arranged in the middle of the outer surface of the inner pipe, electric telescopic rods are arranged on two sides of the fixed ring, a sliding sleeve is arranged at the output end of one side of the electric telescopic rods, which is far away from the fixed ring, and the inner wall of the sliding sleeve is in sealing sliding connection with the outer wall of the inner pipe;

the pad dyeing assembly comprises a pad dyeing box, wherein two groups of splicing blocks are symmetrically arranged at the inner bottom of the pad dyeing box, and distance sensors are arranged on the opposite end surfaces of the splicing blocks;

the drying assembly comprises a drying box, a drying cavity is formed in the drying box, two groups of connecting blocks are symmetrically arranged on the inner wall of the drying cavity, heat expansion pipes are arranged at the bottoms of the connecting blocks, a supporting plate is arranged at the bottoms of the heat expansion pipes, and movable tensioning rollers are arranged on the opposite end faces of the supporting plate.

2. The pad dyeing equipment according to claim 1, wherein the winding and unwinding assembly comprises two groups of vertical plates, the bottoms of the vertical plates are fixedly connected with the tops of two side ends of the base, the opposite end surfaces of the vertical plates are rotatably connected with winding rollers through bearings, one side of each vertical plate, far away from each winding roller, is provided with a winding motor, the output end of each winding motor penetrates through each vertical plate and is fixedly connected with the end part of each winding roller, and the outer surface of each winding roller is rotatably connected with cloth.

3. The pad dyeing apparatus according to claim 1, wherein the controller electrically controls each electrical component, a buffer pad is provided at the bottom of the base, and the distance sensor is configured to detect a distance between the buffer pad and a side end of a cloth, and the cloth is sequentially passed through the cleaning assembly, the pad dyeing assembly and the drying assembly by the retraction assembly on one side and reaches the retraction assembly on the other side.

4. The pad dyeing equipment according to claim 1, wherein the cleaning assembly further comprises two groups of side plates, the bottoms of the side plates are fixedly connected with the top of the base, bottom rollers are rotatably connected below the opposite end surfaces of the side plates through bearings, top plates are arranged on the tops of the side plates, electric push rods are arranged at the bottoms of the top plates and on the sides, away from the bottom rollers, of the side plates, square blocks are arranged at the bottom output ends of the electric push rods, and the center shafts of the square blocks are rotatably connected with the outer surfaces of the inner tubes through bearings.

5. The pad dyeing device according to claim 4, wherein a middle hole is formed in one side of the inner tube, a fan blade is arranged at the end part of the inner wall of the middle hole, a driving motor is arranged at the end part of the square block, which is far away from one side of the fan blade, an output end of the driving motor penetrates through the square block and is fixedly connected with the end part of the inner tube, a plurality of groups of vent holes are uniformly arranged on the outer surface of the inner tube in an array manner, the other end of each vent hole is communicated with the middle hole, a plurality of groups of matching holes are uniformly arranged on the outer surface of the sliding sleeve in an array manner, and the matching holes are matched with the vent holes.

6. The pad dyeing apparatus according to claim 5, wherein the outer surfaces of the bottom roller and the sliding sleeve are provided with cleaning sleeves, scraping holes are formed in the side plates, the scraping holes are matched with the inner pipe, scraping plates are arranged on the inner walls of the scraping holes, and the distance between the two groups of the facing end surfaces of the scraping plates is matched with the outer diameter of the cleaning sleeves.

7. The pad dyeing device according to claim 1, wherein two groups of end faces of the splicing blocks are rotatably connected with bottom rollers through bearings, pneumatic pushing plates are arranged at the tops of the splicing blocks, pushing blocks are arranged at the tops of the pneumatic pushing plates, pushing rollers are arranged at the end faces of the pushing blocks, a pad dyeing cavity is formed in the pad dyeing box, dyes are arranged in the pad dyeing cavity, and side rollers are arranged at the tops of two side walls of the pad dyeing box.

8. The pad dyeing equipment according to claim 1, wherein fixed tensioning rollers are rotatably connected between opposite end surfaces of the connecting blocks through bearings, thermal expansion gas is arranged in the thermal expansion pipe, connecting springs are arranged at the bottoms of the connecting blocks and in the thermal expansion pipe, and the bottoms of the connecting springs are fixedly connected with the tops of the supporting plates.

9. The pad dyeing apparatus according to claim 1, wherein through holes are formed in both sides of the drying box, the other ends of the through holes are communicated with the drying chamber, passing rollers are arranged at inner bottoms of the through holes, electromagnetic heating plates are arranged at inner bottoms and inner tops of the drying chamber, and facing output ends of the electromagnetic heating plates face to the center of the drying chamber.

10. A pad dyeing method for pad dyeing cloth by using the pad dyeing device as claimed in claim 1, comprising the following steps,

s1, the controller controls the retraction assembly to drive the cloth backwards, the cleaning assembly cleans the outer surface of the cloth, the pad dyeing assembly pad-dyes the cloth, and the drying assembly dries the cloth;

s2, the controller controls the inner tube to rotate positively, the sliding sleeve performs transmission cleaning on the outer surface of the cloth, and the distance value detected by the distance sensor is a preset distance value;

and S3, when the distance value detected by the distance sensor is increased, the controller controls the inner tube to rotate reversely, and the movable tension roller compresses and fixes the bottom of the cloth.