CN115959507A - Textile lap former and using method thereof - Google Patents

Abstract

The present invention relates to the field of textile lapping. The invention discloses a lap former for spinning and a using method thereof, and aims to solve the problems that in the lapping process of textile cloth, the contact part of the textile cloth and a wind-up roller cannot be tightly attached effectively, so that the textile cloth is easy to generate gaps when being wound by the wind-up roller, the generated gaps can cause the phenomenon that the cloth is wrinkled in the wind-up roller to influence the finished product effect of the textile cloth, the textile cloth is required to be subjected to dust removal treatment when being wound, the existing dust removal process is performed before the textile cloth is transported, and the textile cloth can cause dust adhesion in the transportation process to influence the quality of the textile cloth. According to the invention, the textile cloth is wound by the winding device, and the dust removal treatment is carried out in the winding process of the textile cloth, so that the textile cloth can be pulled to be tighter when being wound to the winding roller during the dust removal treatment.

Description

Textile lap former and using method thereof

Technical Field

The invention relates to the field of spinning coiling, in particular to a spinning coiling machine and a using method thereof.

Background

In a production workshop of a textile mill, a production process for coiling the grey cloth is generally implemented by a coiling device, namely, the grey cloth is coiled on a cloth coiling roller on a coiling mechanism through the conveying and guiding of each conveying roller on the coiling device so as to be better utilized in the next process. .

Present textile fabric is at the lapping in-process, textile fabric can not effectively paste tightly with the position of wind-up roll contact, and then lead to textile fabric to produce the gap when being rolled by the wind-up roll easily, the gap that produces then can lead to the cloth the phenomenon of fold to appear in the wind-up roll to influence textile fabric's finished product effect, and textile fabric still need carry out dust removal processing when carrying out the rolling, and current dust removal process is before textile fabric transports, and then textile fabric can lead to the dust adhesion in the transportation, influence textile fabric's quality.

Disclosure of Invention

The invention aims to provide a lap winder for spinning and a using method thereof, which aim to solve the problems in the background technology. In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a lap former is used in weaving, includes the processing platform, the processing platform is the level and places in subaerial, the top of processing platform is equipped with the rolling equipment with the rolling of weaving cloth, the rolling equipment includes coiling mechanism and dust collector, the coiling mechanism sets up the top at the processing platform, dust collector sets up on the coiling mechanism, and dust collector and coiling mechanism sliding fit.

Preferably, the coiling mechanism includes coiling motor, actuating lever, wind-up roll and two supporting seats, two the supporting seat symmetry sets up the top at the processing platform, the fixed setting on the lateral wall of one of them supporting seat of coiling motor, the actuating lever sets up on coiling motor's main shaft, and actuating lever and two supporting seat normal running fit, the wind-up roll cover is established on the actuating lever.

Preferably, dust collector is equipped with two sets ofly, and is two sets of dust collector rotates respectively and sets up on two supporting seats, and is two sets of dust collector all includes drive gear, rolling gear, dwang and removal rack, drive gear sets up on the actuating lever, and the inner wall normal running fit of drive gear and supporting seat, the dwang rotates and sets up on the supporting seat, rolling gear sets up on the dwang, and rolling gear meshes with drive gear mutually, drive gear is less than the rolling gear diameter, it slides and sets up on the supporting seat to remove the rack, it meshes with rolling gear mutually, and is two sets of the outer wall of the last removal rack of dust collector articulates and is connected with the absorption dust remover, the absorption dust remover is located the side of wind-up roll.

Preferably, the top of adsorbing the dust remover is the arc setting, and the top of adsorbing the dust remover has seted up a plurality of absorption mouths, and the absorption mouth on the adsorbing dust remover is laminated with textile fabric's bottom mutually, and adsorbs the dust remover and is located textile fabric and the position of wind-up roll rolling contact.

Preferably, two still be equipped with on the supporting seat and shake the piece, two sets of shake the piece and all include ratchet, pawl and spring pressing piece, the ratchet sets up on the actuating lever, the pawl sets up on the inside wall of supporting seat, and pawl and supporting seat normal running fit, the spring pressing piece sets up at the top of supporting seat, and the spring pressing piece is contradicted with the top of pawl and is cooperated, the pawl does not extend with the one end of ratchet contact and has pressed the depression bar, the side of pressing the depression bar extends to the direction of weaving cloth has the frame of shaking, shake the bottom contact of frame and weaving cloth.

Preferably, two the top of supporting seat still is equipped with the installation frame, be equipped with cleaning equipment on the installation frame, cleaning equipment includes rotating electrical machines, rotary rod and a plurality of clearance brush, the rotating electrical machines sets up on the outer wall of installation frame, the rotary rod sets up on the main shaft of rotating electrical machines, and rotary rod and installation frame normal running fit, and is a plurality of clearance brush equidistant setting is on the rotary rod, a plurality of clearance brushes and textile fabric's top contact, and the direction of rotation of clearance brush and textile fabric get into the direction of wind-up roll and set up relatively, and is a plurality of the clearance brush comprises flexible material.

Preferably, the processing bench still is equipped with conveyor, conveyor includes first conveying roller, second conveying roller, rotates motor, two live-rollers, two regulating plates and two threaded rods, first conveying roller rotates and sets up at the processing bench, the processing bench is equipped with the spout that the symmetry set up, two the regulating plate symmetry sets up in the spout of processing bench, the both ends of second conveying roller set up respectively on two regulating plates, two the threaded rod symmetry sets up at the top of processing bench, and two threaded rods and processing bench screw-thread fit, and the bottom of two threaded rods is connected with two regulating plates respectively, two the live-rollers rotates towards the direction of coiling mechanism and sets up at the processing bench, and two live-rollers symmetry sets up, the motor sets up on the outer wall of processing bench, and the main shaft that just rotates the motor is connected with one of them live-rollers.

Preferably, the use method of the textile lap winder comprises the following steps:

s1: when the textile fabric moves towards the wind-up roll, the textile fabric passes through the first conveying roll and the second conveying roll, the two threaded rods rotate to drive the two adjusting plates to move in the sliding grooves in the processing table, the second conveying roll can adjust the height at the moment, and the tightness in the textile fabric conveying process is further adjusted, so that the phenomenon of wrinkling of the textile fabric in the conveying process is avoided, the rotating motor drives one of the rotating rolls to rotate, and the textile fabric can be driven by the rotating rolls to move towards the wind-up roll;

s2: when the textile fabric is conveyed towards the winding roller through the conveying equipment, the winding motor can drive the driving rod to rotate, and the driving rod rotates to drive the winding roller to rotate so as to wind the textile fabric;

s3: when the winding roller winds the textile fabric, an adsorption port on the adsorption dust remover can be attached to the bottom of the textile fabric, dust removal operation is carried out on the bottom of the textile fabric entering the winding roller, the adsorption dust remover sucks dust from the textile fabric through the adsorption port, and meanwhile, adsorption force generated by the adsorption port on the textile fabric can drive the textile fabric to be pulled down, so that when the winding roller winds the textile fabric, the position where the textile fabric is in contact with the winding roller is attached more tightly, when dust removal operation is carried out on the bottom of the textile fabric in this way, the winding roller can wind the textile fabric more tightly, the textile fabric is wound onto the winding roller more closely, and therefore the situation that the textile fabric is wound askew in the textile fabric winding process on the winding roller due to the fact that gaps occur on the winding roller can be avoided;

s4: when the wind-up roll carries out the rolling to textile material, textile material then can wind into the bundle gradually on the wind-up roll, become more and more thick, and can effectively contact with the position of textile material and wind-up roll rolling for making the absorption dust remover, and then when the actuating lever drives the wind-up roll and rotates, the actuating lever then can drive the drive gear rotation on two sets of dust collector, drive gear rotates then can drive the rotating gear rotation, because of drive gear is less than the rotating gear, then can drive the rotating gear and slightly deflect when drive gear rotates a week, the rotating gear deflects then can drive and remove the rack and upwards remove, and then when the outside expansion of the cloth of rolling on the wind-up roll, it can drive the absorption dust remover and contradict with the position of cloth and wind-up roll contact all the time to remove the rack, and absorption dust remover and removal rack articulate the setting, can outwards contradict the absorption dust remover when the cloth expands gradually, can not influence the normal work of absorption dust remover, adopt this mode can effectively to adsorb the bottom contact with the cloth all the time when the cloth rolling, realize the dust removal operation:

s5: when the driving rod drives the winding roller to rotate, the driving rod can also drive the ratchet wheel to rotate, the ratchet wheel can be continuously contacted with the pawl, the pawl can be continuously shaken under the rotation of the ratchet wheel and the pressure of the spring pressing sheet, at the moment, the shaking frame on the pawl can be continuously contacted with the bottom of the textile fabric, so that the textile fabric conveyed to the winding roller can be continuously shaken, the textile fabric in the conveying process can be further shaken to remove dust, dust and other impurities on the textile fabric can be shaken off, when the winding roller finishes winding the textile fabric, the driving motor drives the driving rod to rotate, an operator only needs to press the pressing rod on the pawl, and at the moment, the pawl cannot obstruct the rotation of the ratchet wheel;

s6: textile material is when carrying out the rolling, rotating electrical machines then can drive the rotary rod and rotate, the rotary rod rotates and drives a plurality of clearance brushes and rotates, the clearance brush then can be to textile material's top surface contact, and then get rid of the impurity of textile material top surface, and textile material is reverse setting with the moving direction of a plurality of clearance brushes, and then when clearance brush and textile material's top surface contact, then can play the effect of dragging textile material tight, be in the state of flare-outing when making textile material get into in the wind-up roll.

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

according to the invention, when the winding roller winds the textile fabric, the adsorption port on the adsorption dust remover can be attached to the bottom of the textile fabric, dust removal operation is carried out on the bottom of the textile fabric entering the winding roller, the adsorption dust remover sucks dust from the textile fabric through the adsorption port, and meanwhile, the adsorption force generated by the adsorption port on the textile fabric can drive the textile fabric to be pulled down, so that when the winding roller winds the textile fabric, the position where the textile fabric is in contact with the winding roller is attached more tightly, and when the dust removal operation is carried out on the bottom of the textile fabric in this way, the winding roller can wind the textile fabric more tightly, so that the textile fabric is wound onto the winding roller more closely, and the situation that the textile fabric is skewed in the winding process of the textile fabric on the winding roller due to the fact that gaps appear on the winding roller can be avoided.

According to the invention, when the winding roller winds the textile fabric, the textile fabric can be gradually wound on the winding roller to form a bundle, the bundle becomes thicker and thicker, and in order to enable the adsorption dust remover to be effectively contacted with the textile fabric and the winding position of the winding roller, and further when the driving rod drives the winding roller to rotate, the driving rod can drive the driving gears on the two groups of dust removal devices to rotate, the driving gears can drive the rotating gears to rotate when rotating, and the driving gears are smaller than the rotating gears, so that the driving gears can drive the rotating gears to slightly deflect when rotating for one circle, the rotating gears can drive the moving racks to move upwards, and further when the fabric wound on the winding roller expands outwards, the moving racks can drive the adsorption dust remover to always abut against the contact part of the fabric and the winding roller, and the adsorption dust remover is hinged to the moving racks, so that the adsorption dust remover can always abut against outwards when the fabric expands gradually, the normal operation of the adsorption dust remover cannot be influenced, and the adsorption dust remover can be effectively contacted with the bottom of the fabric all the time when the fabric is wound, and the dust removal operation can be realized.

According to the invention, when the driving rod drives the winding roller to rotate, the driving rod can also drive the ratchet wheel to rotate, the ratchet wheel can be continuously contacted with the pawl when rotating, the pawl can be continuously shaken under the rotation of the ratchet wheel and the pressure of the spring pressing sheet, at the moment, the shaking frame on the pawl can be continuously contacted with the bottom of the textile fabric, so that the textile fabric conveyed to the winding roller can be continuously shaken, the textile fabric in the conveying process can be further shaken to remove dust, dust and other impurities on the textile fabric can be shaken off, after the winding roller finishes winding the textile fabric, the driving motor drives the driving rod to rotate, an operator only needs to press the pressing rod on the pawl, and at the moment, the pawl cannot obstruct the rotation of the ratchet wheel.

According to the invention, when the textile fabric is wound, the rotating motor can drive the rotating rod to rotate, the rotating rod drives the cleaning brushes to rotate, the cleaning brushes can contact the top surface of the textile fabric to remove impurities on the top surface of the textile fabric, the textile fabric and the cleaning brushes are arranged in a reverse direction, and when the cleaning brushes are in contact with the top surface of the textile fabric, the textile fabric can be pulled tightly, so that the textile fabric is in a straightening state when entering the winding roller.

Drawings

FIG. 1 is a first perspective view of the present invention;

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

FIG. 3 is a schematic perspective view of the winding device of the present invention;

FIG. 4 is a partial perspective view of the first embodiment of the present invention;

FIG. 5 is a partial perspective view of the second embodiment of the present invention;

FIG. 6 is a third perspective view of the present invention;

fig. 7 is a partial perspective view illustrating a fourth embodiment of the present invention.

In the figure: 1. a processing table; 11. a chute; 2. winding equipment; 3. a winding device; 31. a winding motor; 32. a drive rod; 33. a wind-up roll; 34. a supporting seat; 4. a dust removal device; 41. a drive gear; 42. a rotating gear; 43. rotating the rod; 44. moving the rack; 5. an adsorption dust remover; 51. an adsorption port; 6. a shaking piece; 61. a ratchet wheel; 62. a pawl; 63. spring tabletting; 64. a pressing lever; 65. a shaking frame; 7. a mounting frame; 71. cleaning the equipment; 72. a rotating electric machine; 73. rotating the rod; 74. cleaning the brush; 8. a conveying device; 81. a first conveying roller; 82. a second conveying roller; 83. rotating the motor; 84. a rotating roller; 85. an adjusting plate; 86. a threaded rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a worker skilled in the art based on the embodiments of the present invention without making creative efforts, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 7, the present invention provides a technical solution: the utility model provides a lap former for weaving, includes processing platform 1, processing platform 1 is the level and places subaerial, the top of processing platform 1 is equipped with the rolling equipment 2 with the rolling of weaving cloth, rolling equipment 2 includes coiling mechanism 3 and dust collector 4, coiling mechanism 3 sets up the top at processing platform 1, dust collector 4 sets up on coiling mechanism 3, and dust collector 4 and 3 sliding fit of coiling mechanism.

In this embodiment, as shown in fig. 1, fig. 2, fig. 3, and fig. 4, the winding device 3 includes a winding motor 31, a driving rod 32, a winding roller 33, and two supporting seats 34, where the two supporting seats 34 are symmetrically disposed at the top of the processing table 1, the winding motor 31 is fixedly disposed on a side wall of one of the supporting seats 34, the driving rod 32 is disposed on a spindle of the winding motor 31, the driving rod 32 is rotationally matched with the two supporting seats 34, and the winding roller 33 is sleeved on the driving rod 32; when textile material passes through conveying equipment and carries towards wind-up roll 33, winding motor 31 then can drive actuating lever 32 and rotate, and actuating lever 32 rotates and drives wind-up roll 33 rotatory and then carry out the rolling operation to textile material.

In this embodiment, as shown in fig. 1, fig. 2, fig. 3, fig. 5, and fig. 6, two sets of dust removing devices 4 are provided, the two sets of dust removing devices 4 are respectively rotatably disposed on two supporting seats 34, each of the two sets of dust removing devices 4 includes a driving gear 41, a rotating gear 42, a rotating rod 43, and a moving rack 44, the driving gear 41 is disposed on the driving rod 32, the driving gear 41 is rotatably fitted to an inner wall of the supporting seat 34, the rotating rod 43 is rotatably disposed on the supporting seat 34, the rotating gear 42 is disposed on the rotating rod 43, the rotating gear 42 is engaged with the driving gear 41, the driving gear 41 has a smaller diameter than the rotating gear 42, the moving rack 44 is slidably disposed on the supporting seat 34, the moving rack 44 is engaged with the rotating gear 42, outer walls of the moving racks 44 on the two sets of dust removing devices 4 are hingedly connected to the dust adsorbing device 5, and the dust adsorbing device 5 is located beside the wind-up roller 33; when the wind-up roller 33 winds the textile fabric, the textile fabric is gradually wound on the wind-up roller 33 to become thicker, and in order to enable the adsorption dust remover 5 to be effectively contacted with the textile fabric and the position wound by the wind-up roller 33, when the driving rod 32 drives the wind-up roller 33 to rotate, the driving rod 32 can drive the driving gears 41 on the two groups of dust removing devices 4 to rotate, the driving gears 41 can drive the rotating gears 42 to rotate, because the driving gears 41 are smaller than the rotating gears 42, when the driving gears 41 rotate for one circle, the rotating gears 42 can drive the rotating gears 42 to slightly deflect, the rotating gears 42 deflect can drive the moving racks 44 to move upwards, when the fabric wound on the wind-up roller 33 expands outwards, the moving racks 44 can drive the adsorption dust remover 5 to always abut against the position where the fabric is contacted with the wind-up roller 33, and the adsorption dust remover 5 is hinged to the moving racks 44, and when the fabric expands gradually, the adsorption dust remover 5 can always abut against the bottom of the fabric, and the normal work of the adsorption dust remover 5 cannot be influenced.

In this embodiment, as shown in fig. 1, fig. 2, fig. 3, fig. 5, and fig. 6, the top of the adsorption dust collector 5 is arranged in an arc shape, the top of the adsorption dust collector 5 is provided with a plurality of adsorption ports 51, the adsorption ports 51 on the adsorption dust collector 5 are attached to the bottom of the textile fabric, and the adsorption dust collector 5 is located at a position where the textile fabric is in rolling contact with the winding roller 33; when wind-up roll 33 carries out the rolling to textile material, adsorb mouthful 51 on the dust remover 5 then can laminate with textile material's bottom, carry out the operation of removing dust to textile material bottom that gets into wind-up roll 33, and adsorb when dust remover 5 carries out the dust absorption to textile material through adsorbing mouthful 51, the adsorption affinity that adsorbs mouthful 51 to textile material production then can drive textile material pull-down, and then when wind-up roll 33 carries out the rolling to textile material, make textile material and the laminating of the position of wind-up roll 33 contact inseparabler, when carrying out the operation of removing dust to textile material's bottom through this mode, can make wind-up roll 33 inseparabler when carrying out the rolling to textile material, make textile material roll-up to wind-up roll 33 on laminating more, and then textile material appears leading to textile material rolling in-process on wind-up roll 33 skew condition emergence in the textile material rolling gap on wind-up roll 33.

In this embodiment, as shown in fig. 1, fig. 2, fig. 3, fig. 5 and fig. 6, two groups of shaking elements 6 are further disposed on two of the supporting bases 34, each of the two groups of shaking elements 6 includes a ratchet wheel 61, a pawl 62 and a spring pressing plate 63, the ratchet wheel 61 is disposed on the driving rod 32, the pawl 62 is disposed on an inner side wall of the supporting base 34, the pawl 62 is rotatably engaged with the supporting base 34, the spring pressing plate 63 is disposed on a top of the supporting base 34, the spring pressing plate 63 is in interference engagement with a top of the pawl 62, a pressing rod 64 extends from an end of the pawl 62 that is not in contact with the ratchet wheel 61, a shaking textile frame 65 extends from a side of the pressing rod 64 in a direction of the textile fabric, and the shaking textile frame 65 is in contact with a bottom of the textile fabric; when the driving rod 32 drives the wind-up roll 33 to rotate, the driving rod 32 can also drive the ratchet wheel 61 to rotate, the ratchet wheel 61 can continuously contact with the pawl 62 when rotating, the pawl 62 can continuously shake under the rotation of the ratchet wheel 61 and the pressure of the spring pressing sheet 63, the shaking frame 65 on the pawl 62 can continuously contact with the bottom of the textile fabric at the moment, so that the textile fabric conveyed to the wind-up roll 33 can continuously shake, the textile fabric in the conveying process can be further shaken and dedusted by the shaking frame in the shaking process, dust and other impurities on the textile fabric can be removed, when the wind-up roll 33 finishes shaking the textile fabric, the driving motor drives the driving rod 32 to rotate, an operator only needs to press the pressing rod 64 on the pawl 62, and at the moment, the pawl 62 cannot obstruct the rotation of the ratchet wheel 61.

In this embodiment, as shown in fig. 1, fig. 2, fig. 3, fig. 5, and fig. 6, an installation frame 7 is further disposed on the tops of the two support seats 34, a cleaning device 71 is disposed on the installation frame 7, the cleaning device 71 includes a rotating motor 72, a rotating rod 73, and a plurality of cleaning brushes 74, the rotating motor 72 is disposed on the outer wall of the installation frame 7, the rotating rod 73 is disposed on the main shaft of the rotating motor 72, the rotating rod 73 is rotationally matched with the installation frame 7, the plurality of cleaning brushes 74 are disposed on the rotating rod 73 at equal intervals, the plurality of cleaning brushes 74 are in contact with the top of the textile fabric, the rotating direction of the cleaning brushes 74 is opposite to the direction in which the textile fabric enters the wind-up roller 33, and the plurality of cleaning brushes 74 are made of a flexible material; textile material is when carrying out the rolling, rotating electrical machines 72 then can drive rotary rod 73 and rotate, rotary rod 73 rotates and drives a plurality of clearance brushes 74 and rotates, clearance brushes 74 then can be to textile material's top surface contact, and then get rid of the impurity of textile material top surface, and textile material is reverse setting with the moving direction of a plurality of clearance brushes 74, and then when clearance brushes 74 and textile material's top surface contact, then can play the effect of pulling textile material tight, be in the state of flare-outing when making textile material get into in wind-up roll 33.

In this embodiment, as shown in fig. 1, fig. 2 and fig. 7, a conveying device 8 is further disposed on the processing table 1, the conveying device 8 includes a first conveying roller 81, a second conveying roller 82, a rotating motor 83, two rotating rollers 84, two adjusting plates 85 and two threaded rods 86, the first conveying roller 81 is rotatably disposed on the processing table 1, symmetrically disposed chutes 11 are disposed on the processing table 1, the two adjusting plates 85 are symmetrically disposed in the chutes 11 on the processing table 1, two ends of the second conveying roller 82 are respectively disposed on the two adjusting plates 85, the two threaded rods 86 are symmetrically disposed at the top of the processing table 1, the two threaded rods 86 are in threaded fit with the processing table 1, bottoms of the two threaded rods 86 are respectively connected with the two adjusting plates 85, the two rotating rollers 84 are rotatably disposed on the processing table 1 toward the winding device 3, the two rotating rollers 84 are symmetrically disposed, the rotating motor 83 is disposed on the outer wall of the processing table 1, and a main shaft of the rotating motor 83 is connected with one rotating roller 84; when textile material moved to wind-up roll 33's direction, textile material passed through first conveying roller 81 and second conveying roller 82, and then can drive two regulating plates 85 through two threaded rod 86 rotations and remove in the spout 11 on processing platform 1, but second conveying roller 82 is height-adjusting then this moment, and then adjust textile material conveying process's elasticity, make textile material avoid appearing the phenomenon of fold in transportation process, and rotate motor 83 and drive one of them live-rollers 84 and rotate, and then accessible live-rollers 84 drives textile material and removes towards wind-up roll 33's direction.

The use method and the advantages of the invention are as follows: the using method of the lap former for spinning comprises the following working processes:

as shown in fig. 1, 2, 3, 4, 5, 6, and 7:

s1: when the textile fabric moves towards the direction of the winding roller 33, the textile fabric passes through the first conveying roller 81 and the second conveying roller 82, the two adjusting plates 85 can be driven to move in the chute 11 on the processing table 1 through the rotation of the two threaded rods 86, the height of the second conveying roller 82 can be adjusted at the moment, and further the tightness in the textile fabric conveying process is adjusted, so that the phenomenon of wrinkling of the textile fabric in the conveying process is avoided, the rotating motor 83 drives one of the rotating rollers 84 to rotate, and further the textile fabric can be driven to move towards the direction of the winding roller 33 through the rotating roller 84;

s2: when the textile fabric is conveyed towards the winding roller 33 through the conveying equipment, the winding motor 31 can drive the driving rod 32 to rotate, and the driving rod 32 rotates to drive the winding roller 33 to rotate so as to wind the textile fabric;

s3: when the winding roller 33 winds the textile fabric, the adsorption port 51 on the adsorption dust remover 5 can be attached to the bottom of the textile fabric, dust removal operation is performed on the bottom of the textile fabric entering the winding roller 33, the adsorption dust remover 5 sucks dust from the textile fabric through the adsorption port 51, and meanwhile, the adsorption force generated by the adsorption port 51 on the textile fabric can drive the textile fabric to be pulled down, so that when the winding roller 33 winds the textile fabric, the position where the textile fabric is in contact with the winding roller 33 is attached more tightly, when dust removal operation is performed on the bottom of the textile fabric in this way, the winding roller 33 can wind the textile fabric more tightly, the textile fabric is wound onto the winding roller 33 more closely, and the situation that the textile fabric is skewed in the winding process of the textile fabric on the winding roller 33 due to gaps of the textile fabric on the winding roller 33 can be avoided;

s4: when the wind-up roll 33 winds the textile fabric, the textile fabric can be gradually wound on the wind-up roll 33 to form a bundle, the bundle becomes thicker and thicker, and in order to enable the adsorption dust collector 5 to be effectively contacted with the textile fabric and the position wound by the wind-up roll 33, and further when the driving rod 32 drives the wind-up roll 33 to rotate, the driving rod 32 can drive the driving gears 41 on the two groups of dust collectors 4 to rotate, the driving gears 41 rotate to drive the rotating gears 42 to rotate, because the driving gears 41 are smaller than the rotating gears 42, when the driving gears 41 rotate for one week, the rotating gears 42 slightly deflect, the rotating gears 42 deflect to drive the moving racks 44 to move upwards, and further when the fabric wound on the wind-up roll 33 expands outwards, the moving racks 44 can drive the adsorption dust collector 5 to always collide with the contact part of the fabric and the wind-up roll 33, and the adsorption dust collector 5 is hinged to the moving racks 44, and when the fabric expands gradually, the adsorption dust collector 5 can collide outwards, the normal work of the adsorption dust collector 5 cannot be influenced, and the bottom of the adsorption dust collector 5 can be effectively contacted with the fabric when the fabric is wound, and the bottom of the dust collector can be contacted with the fabric:

s5: when the driving rod 32 drives the winding roller 33 to rotate, the driving rod 32 can also drive the ratchet wheel 61 to rotate, the ratchet wheel 61 can be continuously contacted with the pawl 62 in rotation, the pawl 62 can be continuously shaken under the rotation of the ratchet wheel 61 and the pressure of the spring pressing sheet 63, at the moment, the shaking frame 65 on the pawl 62 can be continuously contacted with the bottom of the textile fabric, so that the textile fabric conveyed to the winding roller 33 can be continuously shaken, the textile fabric in the conveying process can be further shaken to remove dust, dust and other impurities on the textile fabric can be shaken off, when the winding roller 33 finishes winding the textile fabric, the driving motor drives the driving rod 32 to rotate, an operator only needs to press the pressing rod 64 on the pawl 62, and at the moment, the pawl 62 cannot obstruct the rotation of the ratchet wheel 61;

s6: textile material is when carrying out the rolling, rotating electrical machines 72 then can drive rotary rod 73 and rotate, rotary rod 73 rotates and drives a plurality of clearance brushes 74 and rotates, clearance brush 74 then can be to textile material's top surface contact, and then get rid of the impurity of textile material top surface, and textile material is reverse setting with the moving direction of a plurality of clearance brushes 74, and then when clearance brush 74 and textile material's top surface contact, then can play and drag tight effect with textile material, be in the state of flare-outing when making textile material get into in wind-up roll 33.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a lap former is used in weaving, includes processing platform (1), processing platform (1) is the level and places subaerial, the top of processing platform (1) is equipped with rolling equipment (2) with the rolling of weaving cloth, its characterized in that: the winding device (2) comprises a winding device (3) and a dust removal device (4), wherein the winding device (3) is arranged at the top of the processing table (1), the dust removal device (4) is arranged on the winding device (3), and the dust removal device (4) is in sliding fit with the winding device (3).

2. A textile lap winder according to claim 1, characterized in that: coiling mechanism (3) are including coiling motor (31), actuating lever (32), wind-up roll (33) and two supporting seats (34), two supporting seat (34) symmetry sets up the top at processing platform (1), coiling motor (31) are fixed to be set up on the lateral wall of one of them supporting seat (34), actuating lever (32) set up on the main shaft of coiling motor (31), and actuating lever (32) and two supporting seats (34) normal running fit, wind-up roll (33) cover is established on actuating lever (32).

3. A textile lap winder according to claim 2, characterized in that: dust collector (4) are equipped with two sets ofly, two sets of dust collector (4) rotate respectively and set up on two supporting seats (34), and are two sets of dust collector (4) all include drive gear (41), rotating gear (42), dwang (43) and removal rack (44), drive gear (41) set up on actuating lever (32), and the inner wall normal running fit of drive gear (41) and supporting seat (34), dwang (43) rotate and set up on supporting seat (34), rotating gear (42) set up on dwang (43), and rotating gear (42) mesh with drive gear (41), drive gear (41) are than rotating gear (42) diameter little, it slides and sets up on supporting seat (34) to remove rack (44), remove rack (44) and rotating gear (42) mesh mutually, and be two sets of the outer wall hinge of removal rack (44) on dust collector (4) is connected with adsorption dust remover (5), adsorption dust remover (5) are located the side of wind-up roller (33).

4. A textile lap winder according to claim 3, characterized in that: the top of adsorption dust collector (5) is the arc setting, and has seted up a plurality of absorption mouths (51) at the top of adsorption dust collector (5), and adsorption mouth (51) on adsorption dust collector (5) are laminated with textile fabric's bottom mutually, and adsorption dust collector (5) are located textile fabric and wind-up roll (33) rolling contact's position.

5. A textile lap winder according to claim 2, characterized in that: two still be equipped with on supporting seat (34) and shake piece (6), two sets of shake piece (6) and all include ratchet (61), pawl (62) and spring pressing piece (63), ratchet (61) set up on actuating lever (32), pawl (62) set up on the inside wall of supporting seat (34), and pawl (62) and supporting seat (34) normal running fit, spring pressing piece (63) set up the top at supporting seat (34), and spring pressing piece (63) contradict the cooperation with the top of pawl (62), pawl (62) do not extend with the one end of ratchet (61) contact and have press bar (64), the side of press bar (64) extends to the direction of weaving cloth has shake frame (65), shake frame (65) and the bottom contact of weaving cloth.

6. A textile lap winder according to claim 2, characterized in that: two the top of supporting seat (34) still is equipped with installation frame (7), be equipped with cleaning device (71) on installation frame (7), cleaning device (71) include rotating electrical machines (72), rotary rod (73) and a plurality of clearance brush (74), rotating electrical machines (72) set up on the outer wall of installation frame (7), rotary rod (73) set up on the main shaft of rotating electrical machines (72), and rotary rod (73) and installation frame (7) normal running fit, and are a plurality of clearance brush (74) equidistant setting is on rotary rod (73), a plurality of clearance brushes (74) and textile fabric's top contact, and the direction of rotation of clearance brush (74) and textile fabric get into the relative setting of direction of wind-up roll (33), and is a plurality of clearance brush (74) comprise flexible material.

7. A textile lap winder according to claim 1, characterized in that: processing platform (1) is last still to be equipped with conveyor (8), conveyor (8) include first conveying roller (81), second conveying roller (82), rotate motor (83), two and rotate roller (84), two regulating plates (85) and two threaded rods (86), first conveying roller (81) are rotated and are set up on processing platform (1), be equipped with spout (11) that the symmetry set up on processing platform (1), two in regulating plate (85) symmetry sets up spout (11) on processing platform (1), the both ends of second conveying roller (82) set up respectively on two regulating plates (85), two threaded rod (86) symmetry sets up the top at processing platform (1), and two threaded rod (86) and processing platform (1) screw-thread fit, and the bottom of two threaded rod (86) is connected with two regulating plates (85) respectively, two rotate roller (84) and rotate the direction setting of coiling mechanism (3) and on processing platform (1), and two rotate roller (84) symmetry settings, rotate motor (83) and set up on the processing platform (1) outer wall, and one of rotating motor (84) is connected with one of rotating shaft (84).

8. Use of a textile lap winder according to claim 1, comprising the steps of:

s1: when the textile fabric moves towards the direction of the winding roller (33), the textile fabric passes through a first conveying roller (81) and a second conveying roller (82), two adjusting plates (85) can be driven to move in a sliding groove (11) on a processing table (1) through rotation of two threaded rods (86), the height of the second conveying roller (82) can be adjusted, the tightness of the textile fabric in the conveying process is adjusted, the textile fabric is prevented from appearing in the conveying process, a fold is driven by a rotating motor (83) to drive one rotating roller (84) to rotate, and the textile fabric can be driven by the rotating roller (84) to move towards the direction of the winding roller (33);

s2: when the textile fabric is conveyed towards the winding roller (33) through conveying equipment, the winding motor (31) can drive the driving rod (32) to rotate, and the driving rod (32) rotates to drive the winding roller (33) to rotate so as to wind the textile fabric;

s3: when the winding roller (33) winds the textile fabric, an adsorption port (51) on an adsorption dust remover (5) can be attached to the bottom of the textile fabric, the bottom of the textile fabric entering the winding roller (33) is subjected to dust removal operation, the adsorption dust remover (5) sucks dust from the textile fabric through the adsorption port (51), and meanwhile, adsorption force generated by the adsorption port (51) on the textile fabric drives the textile fabric to be pulled down, so that when the winding roller (33) winds the textile fabric, the position where the textile fabric is contacted with the winding roller (33) is attached more tightly, when the dust removal operation is performed on the bottom of the textile fabric, the winding roller (33) can wind the textile fabric more tightly, the textile fabric is wound on the winding roller (33) more tightly, and the situation that the textile fabric on the winding roller (33) is skewed in the winding process due to gaps of the textile fabric on the winding roller (33) is avoided;

s4: when the winding roller (33) winds the textile fabric, the textile fabric can be gradually wound on the winding roller (33) to form a bundle, the textile fabric becomes thicker and thicker, and the position where the adsorption dust remover (5) can be effectively wound with the textile fabric and the winding roller (33) is contacted, further when the driving rod (32) drives the winding roller (33) to rotate, the driving rod (32) can drive the driving gears (41) on the two groups of dust removing devices (4) to rotate, the driving gears (41) can drive the rotating gears (42) to rotate, because the driving gears (41) are smaller than the rotating gears (42), when the driving gears (41) rotate for one week, the rotating gears (42) can be driven to slightly deflect, the rotating gears (42) can drive the moving racks (44) to move upwards, further when the fabric wound on the winding roller (33) expands outwards, the moving racks (44) can drive the adsorption dust remover (5) to always contact with the fabric and the winding roller (33), and the adsorption dust remover (5) and the adsorption dust remover (44) can not contact with the bottom of the winding roller all the dust remover gradually, and the dust remover can not affect the normal operation of the dust remover all the dust remover, and the dust remover can not affect the dust remover, and the dust remover can be achieved that the dust remover (5) when the dust remover (5) and the dust remover (5) can contact all the dust remover and the dust remover can contact all the dust remover:

s5: when the drive rod (32) drives the wind-up roll (33) to rotate, the drive rod (32) can also drive the ratchet wheel (61) to rotate, the ratchet wheel (61) can continuously contact with the pawl (62) in rotation, the pawl (62) can continuously shake under the rotation of the ratchet wheel (61) and the pressure of the spring pressing sheet (63), at the moment, the shaking frame (65) on the pawl (62) can continuously contact with the bottom of the textile fabric, so that the textile fabric conveyed to the wind-up roll (33) can continuously shake, the shaking and dust removing operation can be further carried out on the textile fabric in the conveying process through the method, dust and other impurities on the textile fabric are shaken off, when the wind-up roll (33) finishes winding up the textile fabric, and when the drive motor drives the drive rod (32) to rotate, an operator needs to press the pressing rod (64) on the pawl (62), and at the moment, the pawl (62) can not obstruct the rotation of the ratchet wheel (61);

s6: textile material is when carrying out the rolling, rotating electrical machines (72) then can drive rotary rod (73) and rotate, rotary rod (73) are rotated and are driven a plurality of clearance brushes (74) and rotate, clearance brushes (74) then can be to textile material's top surface contact, and then get rid of the impurity of textile material top surface, and textile material is reverse setting with the moving direction of a plurality of clearance brushes (74), and then when clearance brushes (74) and textile material's top surface contact, then can play the effect of pulling textile material tight, be in the state of flare-outing when making textile material get into wind-up roll (33).

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