CN108609425B - Method for improving cloth stability in textile lapping process - Google Patents

Abstract

The invention relates to the field of textile, in particular to a method for improving the stability of cloth in the textile lapping process, which comprises the steps of s1 to s 3; the compression roller system adopted by the method comprises a supporting structure, a driving structure, a transmission structure, two compression rollers and four bearings; the supporting structure is provided with a driving structure for driving the transmission structure to provide power; the end part of the supporting structure is provided with a transmission structure which is used for transmission and is detachably connected with the driving structure; the supporting structure is provided with a press roller which is used for conveying cloth and is rotationally connected with two bearings which are symmetrically arranged. The supporting structure is convenient to use, the device is fixed at one end of the cloth forming equipment, the two parallel compression rollers rotate to push the cloth to move, the stability of the long-distance conveying of the cloth is improved, the compression roller rotation is beneficial to promoting air circulation, the temperature of the equipment is reduced, the cloth is effectively prevented from being damaged due to overhigh temperature of the cloth, and the conveying quality is improved.

Description

Method for improving cloth stability in textile lapping process

Technical Field

The invention relates to the field of textiles, in particular to a method for improving cloth stability in a textile lapping process.

Background

The chemical fiber or the chemical fiber is processed into a textile product, various needed related mechanical devices are called textile devices, in the textile industry, the textile devices are often used as production means, the technical level of the textile devices is utilized, the textile flat quality is greatly improved, the textile manufacturing cost is greatly reduced, the rapid development of the textile industry is better promoted, and a lapping machine is needed to be used in the cloth winding and packaging process.

However, the traditional textile method has poor stability when processing long-distance cloth, thereby affecting the production quality and having poor cooling effect in the cloth transmission process. In view of this, the invention provides a method for improving the stability of cloth in the textile lapping process, which has the following characteristics:

(1) according to the method for improving the stability of the cloth in the textile lapping process, the supporting structure in the adopted press roller system is used for fixing the device at one end of the cloth forming equipment, the drive structure is used for driving the transmission structure to enable the press rollers to rotate, the two press rollers arranged in parallel are enabled to rotate to push the cloth to move, the stability of long-distance conveying of the cloth is improved, and the processing quality and the processing efficiency of the cloth are improved.

(2) According to the method for improving the stability of the cloth in the textile lapping process, the transmission structure in the compression roller system is detachably connected with the supporting structure, so that the maintenance is convenient, the compression roller rotates to facilitate air circulation, the temperature of equipment is reduced, the cloth is effectively prevented from being damaged due to overhigh temperature of the cloth, and the conveying quality is improved.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a method for improving the stability of cloth in the textile lapping process, the use of a supporting structure is convenient for fixing the device at one end of cloth forming equipment, a driving structure drives a transmission structure to enable a compression roller to rotate, so that two compression rollers arranged in parallel rotate to push the cloth to move, the stability of the long-distance conveying of the cloth is improved, and the processing quality and the efficiency of the cloth are improved; the transmission structure is detachably connected with the supporting structure, so that the maintenance and the repair are convenient, the rotation of the compression roller is favorable for promoting air circulation, the temperature of the equipment is reduced, cloth is effectively prevented from being damaged due to overhigh temperature, and the conveying quality is improved.

The technical scheme adopted by the invention for solving the technical problems is as follows: a method of improving the stability of cloth in a textile lapping process, the method comprising the steps of:

s 1: conveying the cleaned cloth to a compression roller system;

s 2: starting a press roll system in s1 to pave the cloth;

s 3: conveying the cloth in s2 to the next process;

the compression roller system comprises a supporting structure, a driving structure, a transmission structure, two compression rollers and four bearings; the supporting structure is provided with the driving structure for providing power for the transmission structure; the end part of the supporting structure is provided with the transmission structure which is used for transmission and is detachably connected with the driving structure; the four bearings penetrate through the supporting structure in a pairwise symmetrical manner; the supporting structure is provided with two cylindrical structures which are used for conveying cloth and are symmetrically arranged, the bearing rotates to be connected with the compression roller, the compression roller is arranged in parallel, one end of the compression roller is connected with the transmission structure, and the compression roller is connected with the supporting structure in a rotating mode.

Specifically, the supporting structure comprises a supporting frame and a bottom plate, the four bearings are embedded into the side wall of the supporting frame in pairwise symmetry, and the supporting frame is fixed on the bottom plate for fixing; firstly, the device is fixed at one end of the cloth forming machine through the bottom plate, so that the device is more convenient to fix.

Specifically, the driving structure comprises a motor and a junction box, the motor is fixed on the bottom plate and penetrates through the supporting frame, and the junction box is arranged on the side wall of the motor; will the junction box switch on, through on-off control the start-up of motor, the motor is located the bottom of compression roller has improved space utilization efficiency, makes the structure more firm.

Specifically, the transmission structure comprises two driving wheels, a belt and two limiting structures, one limiting structure for limiting is connected with one driving wheel and the motor in a penetrating manner, the other limiting structure is connected with the other driving wheel and one compression roller close to the bottom plate in a penetrating manner, the limiting structures are detachably connected with the driving wheels, and the belt is wound on the driving wheels; when the driving wheel needs to be overhauled and maintained, the limiting structure is disassembled, so that the driving wheel is separated from the motor, and the driving wheel is convenient to replace and maintain.

Specifically, the driving wheel comprises a driving wheel body and a baffle plate, one driving wheel body is fixed on the motor, the other driving wheel body is fixed on the compression roller, one end, away from the support frame, of the driving wheel body is provided with the baffle plate with a disc-shaped structure, the baffle plate is detachably connected with the driving wheel body, and the belt is wound on the two driving wheel bodies; when the belt is installed, the baffle is detached, the belt is fixed on the driving wheel body, then the baffle is fixed, the installation and detachment are facilitated by the arrangement of the baffle, and the belt is prevented from being damaged due to too much stress.

Specifically, the limiting structure comprises a limiting rod, a connecting plate and first limiting columns, the limiting rod is embedded into the baffle and the driving wheel body, the limiting rod is abutted against the baffle, the limiting rod is detachably connected with the driving wheel body, the connecting plate is fixed on the limiting rod and is connected with the first limiting columns of the cylindrical structure, one first limiting column is detachably connected with the motor, and the other first limiting column is detachably connected with the compression roller; the first limiting column and the bolt on the limiting rod are screwed through a wrench, then the baffle is pulled out, the belt is installed on the driving wheel bodies which are symmetrically arranged, then the baffle is fixed on the driving wheel bodies, and similarly, when the driving wheel bodies need to be disassembled, the first limiting column and the bolt on the limiting rod are screwed through the wrench, then the driving wheel bodies are pulled out, and the driving wheel bodies are disassembled.

Specifically, the compression roller comprises a connecting structure, a sleeve, fan blades, a lapping cylinder, an anti-skidding structure and a second limiting column, the connecting structure penetrates through the bearing and is rotatably connected with the support frame, the connecting structure is fixed at two ends of the sleeve with a cylindrical structure for accommodating a cavity, the fan blades which are of a cross-shaped structure and used for cooling are arranged in the sleeve, the lapping cylinder with a circular ring-shaped structure is arranged outside the sleeve, the second limiting column which is of a semi-cylindrical structure for limiting and is in sliding connection with the sleeve and distributed in a circumferential array manner is arranged in the lapping cylinder, the anti-skidding structure is arranged outside the lapping cylinder, one driving wheel body is fixed on the connecting structure close to the motor, and the first limiting column penetrates through the connecting structure; when using, motor drive the drive wheel body rotates, two the drive wheel body passes through belt drive, the drive wheel body rotates and drives connection structure rotates, thereby makes the sleeve rotates, and cloth is followed two on the sleeve pass on the lapping section of thick bamboo, drive cloth at the uniform velocity, the flabellum promotes circulation of air around rotating the in-process, thereby makes telescopic inside cooling makes the transport effect of cloth better, the sleeve with be equipped with the half cylinder structure between the lapping section of thick bamboo the spacing post of second makes the dismantlement installation the lapping section of thick bamboo is more convenient, has avoided dismantling back secondary location, has strengthened simultaneously the sleeve with stability ability between the lapping section of thick bamboo.

Specifically, the connecting structure comprises a first limiting groove, a second limiting groove, a connecting shaft, a limiting block, a radiating hole and a cover plate, the cover plate is detachably connected with the sleeve, the limiting block of a semi-cylinder structure is arranged in the circumferential direction of the cover plate, the limiting block is clamped with the sleeve, the radiating hole is arranged on the cover plate, the connecting shaft of a cylinder structure is arranged at one end of the cover plate, which is far away from the sleeve, the connecting shaft penetrates through the bearing, the second limiting groove of the cylinder structure is arranged on the connecting shaft, the first limiting groove of the semi-cylinder structure is arranged on the side wall of the connecting shaft, the first limiting column is clamped with the second limiting groove, the limiting rod is clamped with the first limiting groove, and the cover plate is abutted against the lapping cylinder; twist through the spanner and move bolt on the apron dismantles the apron makes the sleeve with the apron separation is dismantled and is changed a lapping section of thick bamboo makes it more convenient to dismantle the change, setting up of first spacing groove is convenient for pass through the gag lever post will the baffle with drive wheel body block, setting up of second spacing groove is convenient for with the drive wheel body with first spacing post is fixed, makes the installation dismantle more convenient, the one end of apron the stopper is convenient for right the apron is carried on spacingly, avoids when the installation right the secondary of apron is spacing.

Specifically, the anti-skid structure comprises a plurality of first air cushions and a plurality of second air cushions, the second air cushions with hemispherical structures and hemispherical accommodating cavities are circumferentially distributed on the lapping drum in an array manner, the first air cushions with hemispherical structures and hemispherical accommodating cavities are circumferentially distributed on the lapping drum in an array manner, and the first air cushions are arranged inside the second air cushions; cloth contact the second air cushion warp under the pressure effect, makes cloth carry more stable, effectively prevents simultaneously that too big cloth of causing of pressure from damaging, first air cushion is located inside the messenger of second air cushion the second air cushion is more firm, is convenient for simultaneously continue to use after the second air cushion damages.

The invention has the beneficial effects that:

(1) according to the method for improving the stability of the cloth in the textile lapping process, the supporting structure in the adopted press roller system is used for fixing the device at one end of the cloth forming equipment, the drive structure is used for driving the transmission structure to enable the press rollers to rotate, the two press rollers arranged in parallel are enabled to rotate to push the cloth to move, the stability of long-distance conveying of the cloth is improved, and the processing quality and the processing efficiency of the cloth are improved.

(2) According to the method for improving the stability of the cloth in the textile lapping process, the transmission structure in the compression roller system is detachably connected with the supporting structure, so that the maintenance is convenient, the compression roller rotates to facilitate air circulation, the temperature of equipment is reduced, the cloth is effectively prevented from being damaged due to overhigh temperature of the cloth, and the conveying quality is improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic structural diagram of a preferred embodiment of a cross-type roller system for textile use according to the present invention;

FIG. 2 is a schematic view of the construction of the press roll shown in FIG. 1;

FIG. 3 is a schematic view of the connection structure of the sleeve and the lapping cylinder shown in FIG. 2;

FIG. 4 is an enlarged view of portion A of FIG. 1;

fig. 5 is a schematic structural view of the limiting structure shown in fig. 4.

In the figure: 1. support structure, 11, the support frame, 12, the bottom plate, 2, drive structure, 21, including a motor, 22, the junction box, 3, transmission structure, 31, the drive wheel, 311, the drive wheel body, 312, the baffle, 32, the belt, 33, limit structure, 331, the gag lever post, 332, the connecting plate, 333, first spacing post, 4, the compression roller, 41, connection structure, 411, first spacing groove, 412, the second spacing groove, 413, the connecting axle, 414, the stopper, 415, the louvre, 416, the apron, 42, the sleeve, 43, the flabellum, 44, the lapping section of thick bamboo, 45, anti-skidding structure, 451, first air cushion, 452, the second air cushion, 46, the spacing post of second, 5, the bearing.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 and 4, the method for improving the stability of cloth in the textile lapping process comprises the following steps:

s 1: conveying the cleaned cloth to a compression roller system;

s 2: starting a press roll system in s1 to pave the cloth;

s 3: conveying the cloth in s2 to the next process;

the compression roller system comprises a supporting structure 1, a driving structure 2, a transmission structure 3, two compression rollers 4 and four bearings 5; the supporting structure 1 is provided with the driving structure 2 for providing power for the transmission structure 3; the end part of the supporting structure 1 is provided with the transmission structure 3 which is used for transmission and is detachably connected with the driving structure 2; the four bearings 5 symmetrically penetrate through the supporting structure 1 in pairs; be equipped with on bearing structure 1 and be used for carrying cloth with two the bearing 5 rotates the cylinder structure of connecting compression roller 4, two compression roller 4 parallel arrangement, one compression roller 4's tip connect in drive structure 3, two compression roller 4 with bearing structure 1 rotates and connects.

Specifically, as shown in fig. 1, in the method for improving the stability of cloth in the textile lapping process, the supporting structure 1 includes a supporting frame 11 and a bottom plate 12, four bearings 5 are embedded into the side wall of the supporting frame 11 for supporting in a pairwise symmetry manner, and the supporting frame 11 is fixed on the bottom plate 12 for fixing; firstly, the device is fixed at one end of the cloth forming machine through the bottom plate 12, so that the device is more convenient to fix.

Specifically, as shown in fig. 1, in the method for improving the stability of cloth in the textile lapping process, the driving structure 2 includes a motor 21 and a junction box 22, the motor 21 is fixed on the bottom plate 12 and penetrates through the supporting frame 11, and the junction box 22 is arranged on a side wall of the motor 21; will junction box 22 switch on, through on-off control the start-up of motor 21, motor 21 is located the bottom of compression roller 4 has improved space utilization efficiency, makes the structure more firm.

Specifically, as shown in fig. 4, in the method for improving the stability of the cloth in the textile lapping process, the transmission structure 3 includes two driving wheels 31, a belt 32 and two limiting structures 33, one limiting structure 33 for limiting is connected to one driving wheel 31 and the motor 21 in a penetrating manner, the other limiting structure 33 is connected to the other driving wheel 31 in a penetrating manner and is connected to one compression roller 4 close to the bottom plate 12, the limiting structure 33 is detachably connected to the driving wheel 31, and the belt 32 is wound around the driving wheel 31; when the driving wheel 31 needs to be repaired and maintained, the limiting structure 33 is disassembled so that the driving wheel 31 is separated from the motor 21, and the driving wheel 31 is convenient to replace and repair.

Specifically, as shown in fig. 4, in the method for improving the stability of cloth in the textile lapping process, the driving wheel 31 includes a driving wheel body 311 and a baffle 312, one driving wheel body 311 is fixed to the motor 21, the other driving wheel body 311 is fixed to the compression roller 4, one end of the driving wheel body 311 away from the support frame 11 is provided with the baffle 312 in a disc-shaped structure, the baffle 312 is detachably connected to the driving wheel body 311, and the belt 32 is wound around the two driving wheel bodies 311; when the belt 32 is installed, the baffle 312 is detached, the belt 32 is fixed on the driving wheel body 311, then the baffle 312 is fixed, the installation and detachment are facilitated by the arrangement of the baffle 312, and the belt 32 is prevented from being damaged due to overlarge stress.

Specifically, as shown in fig. 5, in the method for improving the stability of the cloth in the textile lapping process, the limiting structure 33 includes a limiting rod 331, a connecting plate 332 and a first limiting post 333, the limiting rod 331 is embedded into the baffle 312 and the driving wheel body 311, the limiting rod 331 is abutted against the baffle 312, the limiting rod 331 is detachably connected with the driving wheel body 311, the connecting plate 332 is fixed on the limiting rod 331 and connected to the first limiting post 333 of the cylindrical structure, one of the first limiting posts 333 is detachably connected with the motor 21, and the other first limiting post 333 is detachably connected with the press roller 4; similarly, when the driving wheel body 311 needs to be disassembled, the driving wheel body 311 is disassembled by screwing the bolts on the first limiting column 333 and the limiting rod 331 with a wrench, and then extracting the driving wheel body 311, so that the driving wheel body 311 is disassembled.

Specifically, as shown in fig. 2 and 3, in the method for improving the stability of cloth in the textile lapping process of the present invention, the press roller 4 includes a connecting structure 41, a sleeve 42, fan blades 43, a lapping cylinder 44, an anti-slip structure 45 and a second limiting column 46, the connecting structure 41 penetrates through the bearing 5 and is rotatably connected with the support frame 11, the connecting structure 41 is fixed at two ends of the sleeve 42 having a cylindrical structure with a receiving cavity, the fan blades 43 for cooling having a cross-shaped structure are arranged inside the sleeve 42, the lapping cylinder 44 having a circular structure is arranged outside the sleeve 42, the second limiting columns 46 which are arranged inside the lapping cylinder 44 in a circumferential array and are slidably connected with the sleeve 42 and are of a semi-cylindrical structure for limiting are arranged inside the lapping cylinder 44, the anti-slip structure 45 is arranged outside the lapping cylinder 44, the driving wheel body 311 is fixed to the connecting structure 41 close to the motor 21, and the first limiting column 333 penetrates through the connecting structure 41; when using, the motor 21 drive wheel body 311 rotates, two drive wheel body 311 passes through the transmission of belt 32, drive wheel body 311 rotates and drives connection structure 41 rotates, thereby makes sleeve 42 rotates, and cloth is followed two on the sleeve 42 pass on the lapping section of thick bamboo 44, drive cloth at the uniform velocity and rotate, flabellum 43 promotes circulation of air around rotating the in-process, thereby makes sleeve 42's inside cooling makes cloth's transport effect better, sleeve 42 with be equipped with the half cylinder structure between the lapping section of thick bamboo 44 spacing post 46 of second makes the dismantlement installation lapping section of thick bamboo 44 is more convenient, has avoided dismantling back secondary location, has strengthened simultaneously sleeve 42 with stability performance between the lapping section of thick bamboo 44.

Specifically, as shown in fig. 2, in the method for improving the stability of cloth in the textile lapping process of the present invention, the connecting structure 41 includes a first limiting groove 411, a second limiting groove 412, a connecting shaft 413, a limiting block 414, a heat dissipation hole 415, and a cover plate 416, the cover plate 416 is detachably connected to the sleeve 42, the limiting block 414 having a semi-cylindrical structure is disposed on the circumferential direction of the cover plate 416, the limiting block 414 is engaged with the sleeve 42, the heat dissipation hole 415 is disposed on the cover plate 416, the connecting shaft 413 having a cylindrical structure is disposed on one end of the cover plate 416 away from the sleeve 42, the connecting shaft 413 penetrates through the bearing 5, the second limiting groove 412 having a cylindrical structure is disposed on the connecting shaft 413, the first limiting groove 411 having a semi-cylindrical structure is disposed on the sidewall of the connecting shaft 413, and the first limiting post 333 is engaged with the second limiting groove 412, the limiting rod 331 is clamped with the first limiting groove 411, and the cover plate 416 is abutted against the lapping cylinder 44; the bolt on the cover plate 416 is screwed through a wrench, the cover plate 416 is disassembled, the sleeve 42 is separated from the cover plate 416, the lapping cylinder 44 is disassembled and replaced, the disassembling and the replacement are more convenient, the first limit groove 411 is arranged to pass through the limit rod 331, the baffle plate 312 is clamped with the driving wheel body 311, the second limit groove 412 is arranged to fix the driving wheel body 311 with the first limit column 333, the assembling and the disassembling are more convenient, the limit block 414 at one end of the cover plate 416 is arranged to limit the cover plate 416, and the secondary limit of the cover plate 416 during the assembling is avoided.

Specifically, as shown in fig. 2, in the method for improving cloth stability in a textile lapping process of the present invention, the anti-slip structure 45 includes a plurality of first air pads 451 and a plurality of second air pads 452, the plurality of second air pads 452 having a hemispherical structure with hemispherical accommodating cavities are circumferentially arrayed on the lapping cylinder 44, the plurality of first air pads 451 having a hemispherical structure with hemispherical accommodating cavities are circumferentially arrayed on the lapping cylinder 44, and the first air pads 451 are disposed inside the second air pads 452; cloth contact second air cushion 452 warp under the pressure effect, make cloth transport more stable, effectively prevent simultaneously that too big cloth from damaging that causes of pressure, first air cushion 451 locates inside messenger of second air cushion 452 is more firm, is convenient for continue to use after second air cushion 452 damages.

Firstly, fixing the device at one end of a cloth forming machine through a supporting structure 1, switching on a driving structure 2 to enable the cloth to pass through between two compression rollers 4, driving the driving structure 2 to drive a transmission structure 3 to drive the compression rollers 4 to rotate, so that the cloth is conveyed uniformly, promoting air circulation by rotating the compression rollers 4, improving the quality of a working environment, and detaching the transmission structure 3 and the compression rollers 4 during maintenance; the method specifically comprises the following steps:

(1) firstly, the device is fixed at one end of a cloth forming machine through a bottom plate 12, so that the device is more convenient to fix, a junction box 22 is connected with a power supply, the starting of a motor 21 is controlled through a switch, the motor 21 is arranged at the bottom end of a compression roller 4, the space utilization efficiency is improved, the structure is more stable, and cloth passes through two lapping cylinders 44;

(2) the motor 21 drives the driving wheel body 311 to rotate, the two driving wheel bodies 311 are driven by the belt 32, the driving wheel body 311 rotates to drive the connecting structure 41 to rotate, so that the sleeves 42 rotate, cloth passes through the lapping cylinders 44 on the two sleeves 42, the cloth is contacted with the second air cushion 452 to deform under the action of pressure, the cloth conveying is more stable, meanwhile, the cloth damage caused by overlarge pressure is effectively prevented, the first air cushion 451 is arranged in the second air cushion 452 to enable the second air cushion 452 to be more stable, meanwhile, the cloth is convenient to continue to use after the second air cushion 452 is damaged, the cloth is driven to rotate at a constant speed, the fan blades 43 promote the circulation of ambient air in the rotating process, thereby cooling the inside of the sleeves 42, the cloth conveying effect is better, the second limiting columns 46 with a semi-cylinder structure are arranged between the sleeves 42 and the lapping cylinders 44, the lapping cylinders 44 are more convenient to disassemble and install, and the secondary positioning after disassembly is avoided, meanwhile, the stability between the sleeve 42 and the lapping cylinder 44 is enhanced;

(3) when the belt 32 is installed, the baffle 312 is disassembled, the belt 32 is fixed on the driving wheel body 311, then the baffle 312 is fixed, the installation and the disassembly of the belt 32 are more convenient due to the arrangement of the baffle 312, the belt 32 is prevented from being damaged due to overlarge stress, the bolts on the first limiting column 333 and the limiting rod 331 are screwed by a wrench, then the baffle 312 is pulled out, the belt 32 is installed on the two driving wheel bodies 311 which are symmetrically arranged, then the baffle 312 is fixed on the driving wheel body 311, and similarly, when the driving wheel body 311 needs to be disassembled, the bolts on the first limiting column 333 and the limiting rod 331 are screwed by the wrench, then the driving wheel body 311 is pulled out, and the driving wheel body 311 is disassembled;

(4) the bolt on the cover plate 416 is screwed through a wrench, the cover plate 416 is disassembled, the sleeve 42 is separated from the cover plate 416, the net laying barrel 44 is disassembled and replaced, the disassembly and the replacement are more convenient, the baffle 312 and the driving wheel body 311 are clamped through the limiting rod 331 due to the arrangement of the first limiting groove 411, the driving wheel body 311 and the first limiting column 333 are fixed due to the arrangement of the second limiting groove 412, the assembly and the disassembly are more convenient, the limiting block 414 at one end of the cover plate 416 is convenient to limit the cover plate 416, and the secondary limitation of the cover plate 416 during the assembly is avoided.

The supporting structure 1 is convenient to use, the device is fixed at one end of cloth forming equipment, the driving structure 2 drives the transmission structure 3 to enable the compression rollers 4 to rotate, the two compression rollers 4 arranged in parallel are enabled to rotate to push cloth to move, the stability of long-distance cloth conveying is improved, the processing quality and the efficiency of the cloth are improved, the transmission structure 3 is detachably connected with the supporting structure 1, the overhauling and maintenance are convenient, the rotation of the compression rollers 4 is beneficial to promoting air circulation, the temperature of the equipment is reduced, the cloth is effectively prevented from being damaged due to overhigh temperature of the cloth, and the conveying quality is improved.

The foregoing illustrates and describes the principles, general features, and advantages of the present 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 embodiments and descriptions given above are only illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (3)

1. A method for improving cloth stability in a textile lapping procedure is characterized in that: the method comprises the following steps:

s 1: conveying the cleaned cloth to a compression roller system;

s 2: starting a press roll system in s1 to pave the cloth;

s 3: conveying the cloth in s2 to the next process;

the compression roller system comprises a supporting structure (1), a driving structure (2), a transmission structure (3), two compression rollers (4) and four bearings (5); the supporting structure (1) is provided with the driving structure (2) for providing power for the transmission structure (3); the end part of the supporting structure (1) is provided with the transmission structure (3) which is used for transmission and is detachably connected with the driving structure (2); the four bearings (5) symmetrically penetrate through the supporting structure (1) in pairs; the supporting structure (1) is provided with the compression rollers (4) which are used for conveying cloth and are of a cylindrical structure rotationally connected with two bearings (5) which are symmetrically arranged, the two compression rollers (4) are arranged in parallel, the end part of one compression roller (4) is connected with the transmission structure (3), and the two compression rollers (4) are rotationally connected with the supporting structure (1);

the supporting structure (1) comprises supporting frames (11) and a bottom plate (12), the four bearings (5) are embedded into the side wall of each supporting frame (11) in pairwise symmetry, and the supporting frames (11) are fixed on the bottom plate (12) for fixing;

the driving structure (2) comprises a motor (21) and a junction box (22), the motor (21) is fixed on the bottom plate (12) and penetrates through the supporting frame (11), and the junction box (22) is arranged on the side wall of the motor (21);

the transmission structure (3) comprises two driving wheels (31), a belt (32) and two limiting structures (33), one limiting structure (33) for limiting is connected with one driving wheel (31) and the motor (21) in a penetrating manner, the other limiting structure (33) is connected with the other driving wheel (31) and one compression roller (4) close to the bottom plate (12) in a penetrating manner, the limiting structures (33) are detachably connected with the driving wheels (31), and the belt (32) is wound on the driving wheels (31);

the driving wheel (31) comprises driving wheel bodies (311) and baffle plates (312), one driving wheel body (311) is fixed on the motor (21), the other driving wheel body (311) is fixed on the compression roller (4), one end, away from the support frame (11), of the driving wheel body (311) is provided with the baffle plate (312) with a disc-shaped structure, the baffle plate (312) is detachably connected with the driving wheel bodies (311), and the belt (32) is wound on the two driving wheel bodies (311);

the limiting structure (33) comprises a limiting rod (331), a connecting plate (332) and a first limiting column (333), the limiting rod (331) is embedded into the baffle (312) and the driving wheel body (311), the limiting rod (331) is abutted against the baffle (312), the limiting rod (331) is detachably connected with the driving wheel body (311), the connecting plate (332) is fixed on the limiting rod (331) and connected with the first limiting column (333) of the cylindrical structure, one first limiting column (333) is detachably connected with the motor (21), and the other first limiting column (333) is detachably connected with the pressing roller (4);

the compression roller (4) comprises a connecting structure (41), a sleeve (42), fan blades (43), a lapping cylinder (44), an anti-skid structure (45) and a second limiting column (46), wherein the connecting structure (41) penetrates through the bearing (5) and the support frame (11) to be connected in a rotating mode, the connecting structure (41) is fixed at the two ends of the sleeve (42) and is provided with a cylindrical structure for accommodating a cavity, the fan blades (43) which are of a cross-shaped structure and used for cooling are arranged inside the sleeve (42), the outer side of the sleeve (42) is provided with the lapping cylinder (44) of a circular ring-shaped structure, the inner portion of the lapping cylinder (44) is provided with the second limiting column (46) which is distributed in a circumferential array mode and is used for limiting half-cylinder structure and is connected with the sleeve (42) in a sliding mode, the outer side of the lapping cylinder (44) is provided with the anti-skid structure (45), one driving wheel body (311) is fixed to the connecting structure (41) close to the motor (21), and the first limiting column (333) penetrates through the connecting structure (41).

2. A method of improving the stability of a piece of cloth in a textile lapping process according to claim 1, wherein: the connecting structure (41) comprises a first limiting groove (411), a second limiting groove (412), a connecting shaft (413), a limiting block (414), a radiating hole (415) and a cover plate (416), the cover plate (416) is detachably connected with the sleeve (42), the limiting block (414) with a semi-cylinder structure is arranged in the circumferential direction of the cover plate (416), the limiting block (414) is clamped with the sleeve (42), the radiating hole (415) is arranged on the cover plate (416), the connecting shaft (413) with a cylinder structure is arranged at one end of the cover plate (416) departing from the sleeve (42), the connecting shaft (413) penetrates through the bearing (5), the second limiting groove (412) with a cylinder structure is arranged on the connecting shaft (413), and the first limiting groove (411) with a semi-cylinder structure is arranged on the side wall of the connecting shaft (413), the first limiting column (333) is clamped with the second limiting groove (412), the limiting rod (331) is clamped with the first limiting groove (411), and the cover plate (416) is abutted against the lapping cylinder (44).

3. A method of improving the stability of a piece of cloth in a textile lapping process according to claim 1, wherein: the anti-skid structure (45) comprises a plurality of first air cushions (451) and a plurality of second air cushions (452), the plurality of second air cushions (452) with hemispherical structures and hemispherical accommodating cavities are circumferentially distributed on the lapping drum (44) in an array manner, the plurality of first air cushions (451) with hemispherical structures and hemispherical accommodating cavities are circumferentially distributed on the lapping drum (44) in an array manner, and the first air cushions (451) are arranged inside the second air cushions (452).

Images