CN110803566B - Woven belt weaving, pressing and leveling textile machine and processing method - Google Patents

Abstract

The invention relates to a woven tape weaving, pressing and leveling processing textile machinery and a processing method, and the woven tape weaving, pressing and leveling processing textile machinery comprises a bottom plate, a release rod, a guide roller, a leveling mechanism, a leveling device, a tensioning roller and a winding mechanism, wherein the release rod is longitudinally arranged above the bottom plate, a plurality of rolls of woven tapes are sleeved on the middle part of the release rod, two ends of the release rod are installed on the left side of the top end of the bottom plate, the guide roller is located on the right side of the release rod, the leveling mechanism is located on the right side of the guide roller, the leveling mechanism is installed on the top end of the bottom plate, the leveling device is arranged on the right side of the leveling mechanism, the leveling device is installed on the middle part of the top end of the bottom plate, the tensioning roller is located on the right side of the leveling device, the guide roller and the tensioning roller are installed on the. The invention can solve the problems that when the woven belt is flattened at the present stage, the flattening dead angles can appear at the two ends of the woven belt, and the flattening effect on uneven tresses is not good.

Description

Woven belt weaving, pressing and leveling textile machine and processing method

Technical Field

The invention relates to the technical field of weaving and processing of textile woven belts, in particular to a textile machine and a processing method for weaving, pressing and leveling textile woven belts.

Background

The woven belt is made of various yarns as raw materials into narrow-width fabric or tubular fabric. The woven fabric has various varieties and is widely applied to various industrial departments such as clothes, shoe materials, cases, industry, agriculture, military needs, transportation and the like. In the 30 s, the woven belts were produced by manual workshops and made of cotton threads and linen threads. After the new China is established, the raw materials for the mesh belt are gradually developed into chinlon, vinylon, terylene, polypropylene fiber, spandex, viscose glue and the like to form three major process technologies of weaving, knitting and knitting, and the fabric structure has plain weave, twill, satin, jacquard weave, double layers, multi-layer, tubular and combined weave. The braid is taken as an auxiliary product industry, after ten years of development, the braid plays a role in lifting the weight of Chinese textile industry in structure adjustment and optimization, the contribution rate to Chinese economy is increased more and more, and the braid industry forms a bright economic bright spot in China and even in the world.

Traditional meshbelt is weaving the in-process, unevenness appears in the easy because the lock of beating of longitude and latitude line is uneven, and because tension of carry over pinch rolls is different in process of production, the phenomenon that the meshbelt warp can appear, and fold phenomenon can appear sometimes, influence the product quality of meshbelt, so need level and smooth the operation, meshbelt on the market at present levels often uses two flattening rollers to compress tightly and levels, when this kind of mode carries out leveling of meshbelt, level and smooth dead angle can appear in the both ends of meshbelt, and it is not good to the level and smooth effect of beating lock unevenness.

Disclosure of Invention

In order to solve the problems, the invention provides a woven belt weaving, pressing and leveling processing textile machine which comprises a bottom plate, a release rod, a guide roller, a leveling mechanism, a leveling device, a tension roller and a winding mechanism, wherein the release rod is longitudinally arranged above the bottom plate, a plurality of woven belts are sleeved on the middle part of the release rod, two ends of the release rod are arranged on the left side of the top end of the bottom plate, the guide roller is arranged on the right side of the release rod, the leveling mechanism is arranged on the right side of the guide roller, the leveling mechanism is arranged on the top end of the bottom plate, the leveling device is arranged on the middle part of the top end of the bottom plate, the tension roller is arranged on the right side of the leveling device, the guide roller and the tension roller are arranged on the top end of the bottom plate through brackets, the winding mechanism is arranged on the right side of the tension roller, the winding mechanism is arranged on the right side of the top end of the bottom plate, and, smoothing the mechanism and can compressing tightly great angle crease department and fold department on the meshbelt and level, the leading-in leveling device of many meshbelts later, leveling the device and can beating the weaving on the meshbelt and not leveling and less fold compaction, and leveling the device and can avoiding the both ends of meshbelt compaction dead angle to appear, then the meshbelt is by the leading-in winding mechanism of tensioning roller, winding mechanism can carry out the rolling to many meshbelts after leveling simultaneously, and winding mechanism can provide meshbelt right traction force.

The winding mechanism comprises a winding roller, a winding rod, bearing seats, a driving gear set and a winding motor, wherein the winding rod is positioned on the right side of the tensioning roller, two ends of the winding rod are installed on the top surface of the bottom plate through the bearing seats, the winding roller is sleeved on the winding rod at equal intervals, the driving gear set is installed at the front end of the winding rod, the winding motor is positioned on the front side of the driving gear set, the winding motor is installed at the top end of the bottom plate through a motor seat, an output shaft of the winding motor is connected with the driving gear set through a coupler, during the specific work, the winding mechanism can synchronously wind a plurality of flattened woven belts and provide right traction force for the woven belts to lock the ends of the woven belts on the winding roller, the winding motor is controlled to drive the driving gear set to rotate, so that the winding rod drives the winding roller to rotate, and the winding action of the braid is completed.

The smoothing mechanism comprises a smoothing support frame, a jacking spring, a smoothing pressure plate and a bearing bottom plate, the smoothing support frame is arranged on the right side of the guide roller, the lower ends of the front side and the rear side of the smoothing support frame are arranged on the top end of the bottom plate, the bearing bottom plate is arranged between the upper end inner walls of the smoothing support frame and is positioned on the upper side of the bearing bottom plate, the smoothing pressure plate is connected with the top end inner wall of the smoothing support frame through the jacking spring, the jacking springs are equidistantly arranged above the smoothing pressure plate, the bottoms of the jacking springs are arranged on the smoothing pressure plate, the top ends of the jacking springs are arranged on the top end inner wall of the smoothing support frame, the smoothing pressure plate and the top end of the guide roller are at the same height, during specific work, the smoothing mechanism can roughly compact unsmooth woven belts, the woven belts are pulled rightwards by controlling the rotation of the winding motor, and the woven belts are attached to the top, the cooperation of roof pressure spring and smoothing clamp plate can make and smooth the mechanism and flatten the meshbelt of different thickness, smooths clamp plate and bearing bottom plate cooperation and can flatten the crease department and the fold department of great angle on the meshbelt.

The left end of the smoothing pressing plate is provided with the slope-shaped structural plate which inclines upwards, the slope-shaped structure at the left end of the smoothing pressing plate can facilitate the woven belts to enter between the smoothing pressing plate and the bearing bottom plate, so that the smoothing pressing plate can compact and level the woven belts with different thicknesses under the action of the jacking spring, and the practicability of the woven belt flattening device is improved.

The leveling device comprises a rotating roller, separating rings, balls, a leveling support and a pressing mechanism, wherein the rotating roller is symmetrically arranged on the left side and the right side of the upper portion of the bottom plate, the front end and the rear end of the rotating roller are both installed on the top end of the bottom plate through the leveling support, the separating rings are evenly installed in the middle of the rotating roller, a braid roller groove is formed between every two adjacent separating rings in a surrounding mode, a U-shaped groove is formed in the middle of each separating ring along the circumferential direction of the separating ring, the balls are evenly installed in the U-shaped groove along the circumferential direction of the separating rings, the pressing mechanism is arranged above the rotating roller, and the lower ends of the front side and the.

The leveling device further comprises a rotating worm wheel, a worm, worm bearing seats and a worm motor, wherein the rotating worm wheel is installed at the front end of each rotating roller, the worm is transversely arranged below the rotating worm wheel, the two rotating worm wheels are all meshed with the worm, the left end and the right end of the worm are installed on the top end of the bottom plate through the worm bearing seats, the worm motor is located on the right side of the worm, the worm motor is installed on the worm bearing seats through a motor sleeve, and an output shaft of the worm motor is connected with the worm through a coupler.

The lower pressing mechanism comprises a pressing roller fixing block, a lower pressing roller, a connecting plate, side pressing blocks, a pressing spring and an electric push rod, wherein the pressing roller fixing block is arranged right above each rotating roller, a spring groove is formed in the position, corresponding to the separation ring, of the bottom end of each pressing roller fixing block, the side pressing blocks are positioned right above the separation ring and are connected with the pressing roller fixing blocks through the pressing spring, the top ends of the pressing springs are installed in the spring grooves of the pressing roller fixing blocks, the bottoms of the pressing springs are installed on the top surfaces of the side pressing blocks, a pressing roller groove is formed in the lower end of each pressing roller fixing block between every two adjacent side pressing blocks, the lower pressing roller is installed in the pressing roller groove of each pressing roller fixing block, a U-shaped groove hole is formed in the middle of each side pressing block, the two ends of each pressing roller fixing block are connected, when the weaving machine works specifically, the leveling device simultaneously performs relatively fine compaction leveling on a plurality of woven belts, after rough pressing of the woven belts is completed, the woven belts synchronously penetrate into a woven belt roller groove, the woven belts are attached to the top ends of rotating rollers and are contracted through controlling an electric push rod, so that a lower pressing roller is tightly attached to the top surfaces of the woven belts, balls are attached to U-shaped grooves of side pressing blocks, the balls can facilitate the rotating rollers to rotate, the lower pressing roller is matched with the rotating rollers to level the woven belts, uneven weaving locks and smaller folds on the woven belts can be compacted and leveled, when the lower pressing roller levels the woven belts, dead corners of flattening can appear at both ends of the woven belts, both ends of the woven belts can be upwards tilted, the side pressing blocks can compress and level both ends of the woven belts, the dead corners of flattening are avoided, then two rotating rollers are driven by a worm motor to synchronously rotate, the rotating rollers can drive the woven belts to, and the rotating roller is matched with the lower pressing roller to better flatten the mesh belt, so that the flattening effect of the mesh belt is improved.

The processing method for weaving, pressing and leveling the braid to process the textile machinery comprises the following steps:

s1, fixing the woven tape: before carrying out grouting and leveling on the woven belts, firstly sleeving a plurality of woven belts which are not leveled on the middle part of the unwinding rod at equal intervals, then sequentially penetrating one end of each woven belt through a guide roller, a leveling mechanism, a leveling device and a tensioning roller, and finally locking the end heads of the woven belts on a winding mechanism;

s2, coarse pressing of the woven belt: the woven belt is pulled rightwards by controlling the rotation of the winding motor, the woven belt is attached to the top end of the bearing bottom plate, and the pressing spring is matched with the flattening pressing plate, so that the flattening mechanism can flatten the woven belts with different thicknesses, and the flattening pressing plate is matched with the bearing bottom plate to flatten crease positions and fold positions with larger angles on the woven belt;

s3, ribbon fine pressing: after the rough pressing of the mesh belt is completed, a plurality of mesh belts synchronously penetrate into mesh belt roller grooves, the mesh belts are attached to the top ends of the rotating rollers and are contracted by controlling the electric push rod, so that the lower pressing rollers are attached to the top surfaces of the mesh belts, the balls are attached to the U-shaped grooves of the side pressing blocks, then the worm motor drives the two rotating rollers to synchronously rotate, the lower pressing rollers are matched with the rotating rollers to level the mesh belts, the uneven weaving and the smaller folds on the mesh belts can be leveled, when the lower pressing rollers level the mesh belts, the two ends of the mesh belts can be flattened to dead angles, the two ends of the mesh belts can be tilted upwards, and the side pressing blocks can compress and level the two ends of the mesh belts;

s4, winding the woven tape: the winding motor is controlled to drive the driving gear set to rotate, so that the winding roller can intensively wind the flattened woven belts.

The invention has the beneficial effects that:

the pressing and leveling processing of the woven ribbons can be carried out while the plurality of woven ribbons are rolled, the two modes can be sequentially used for pressing and leveling the ribbons, rough pressing and fine leveling of the woven ribbons are successively completed, leveling dead angles are avoided when the ribbons are leveled, and the leveling effect of the ribbons is improved;

the leveling mechanism is arranged, the slope-shaped structural plate which is inclined upwards is arranged at the left end of the leveling pressure plate on the leveling mechanism, and the slope-shaped structure at the left end of the leveling pressure plate can facilitate the woven belts to enter between the leveling pressure plate and the bearing bottom plate, so that the leveling pressure plate can compact and level the woven belts with different thicknesses under the action of the jacking spring, and the practicability of the device is improved;

the leveling device is arranged, and the side edge pressing block on the leveling device can compact and level the two tilted ends of the woven belt when the lower pressing roller is matched with the rotating roller to level the woven belt, so that dead corners of the two ends of the woven belt can be prevented from being flattened, and the leveling effect of the woven belt is improved.

Drawings

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

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

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

FIG. 3 is a cross-sectional view of the smoothing mechanism of the present invention;

FIG. 4 is a schematic view of the structure of the leveling device of the present invention;

fig. 5 is a partial enlarged view in the X direction in fig. 4.

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 explained below by combining the specific drawings. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

As shown in fig. 1 to 5, a woven tape weaving, pressing, leveling and processing textile machine comprises a bottom plate 1, a release rod 2, a guide roller 3, a leveling mechanism 4, a leveling device 5, a tension roller 6 and a winding mechanism 7, wherein the release rod 2 is longitudinally arranged above the bottom plate 1, a plurality of woven tapes are sleeved on the middle part of the release rod 2, two ends of the release rod 2 are installed on the left side of the top end of the bottom plate 1, the guide roller 3 is positioned on the right side of the release rod 2, the leveling mechanism 4 is positioned on the right side of the guide roller 3, the leveling mechanism 4 is installed on the top end of the bottom plate 1, the leveling device 5 is arranged on the right side of the leveling mechanism 4, the leveling device 5 is installed on the middle part of the top end of the bottom plate 1, the tension roller 6 is positioned on the right side of the leveling device 5, the guide roller 3 and the tension roller 6 are both installed on the top end of the bottom plate 1 through brackets, the winding mechanism 7 is positioned on, during specific work, the meshbelt is by the leading-in mechanism 4 of smoothing of guide roll 3, smooth mechanism 4 can compress tightly flattening with the crease department and the fold department of great angle on the meshbelt, the leading-in leveling device 5 of many meshbelts later, leveling device 5 can beat the lock uneven department and less fold compaction with weaving on the meshbelt is leveled, and leveling device 5 can avoid the both ends of meshbelt compaction dead angle to appear, then the meshbelt is by the leading-in winding mechanism 7 of tensioning roller 6, winding mechanism 7 can carry out the rolling to many meshbelts after leveling simultaneously, and winding mechanism 7 can provide meshbelt traction force right.

The winding mechanism 7 comprises a winding roller 71, a winding rod 72, a bearing seat 73, a driving gear set 74 and a winding motor 75, the winding rod 72 is positioned at the right side of the tensioning roller 6, two ends of the winding rod 72 are installed on the top surface of the bottom plate 1 through the bearing seat 73, the winding roller 71 is sleeved on the winding rod 72 at equal intervals, the driving gear set 74 is installed at the front end of the winding rod 72, the winding motor 75 is positioned at the front side of the driving gear set 74, the winding motor 75 is installed at the top end of the bottom plate 1 through a motor seat, the output shaft of the winding motor 75 is connected with the driving gear set 74 through a coupler, when the winding mechanism 7 works specifically, the winding mechanism 7 can synchronously wind a plurality of flattened woven belts and can provide right traction force for the woven belts, the ends of the woven belts are locked on the winding roller 71, the driving gear set 74 is driven to rotate by controlling the winding motor 75, so that the winding rod 72 drives the, thereby completing the rolling action of the braid.

The smoothing mechanism 4 comprises a smoothing support frame 41, a jacking spring 42, a smoothing press plate 43 and a bearing bottom plate 44, the smoothing support frame 41 is arranged on the right side of the guide roller 3, the lower ends of the front side and the rear side of the smoothing support frame 41 are arranged on the top end of the bottom plate 1, the bearing bottom plate 44 is arranged between the upper end inner walls of the smoothing support frame 41, the smoothing press plate 43 is positioned on the upper side of the bearing bottom plate 44, the smoothing press plate 43 is connected with the top end inner wall of the smoothing support frame 41 through the jacking spring 42, the jacking springs 42 are equidistantly arranged above the smoothing press plate 43, the bottom of the jacking spring 42 is arranged on the smoothing press plate 43, the top end of the jacking spring 42 is arranged on the top end inner wall of the smoothing support frame 41, the smoothing press plate 43 and the top end of the guide roller 3 are at the same height, during specific work, the smoothing mechanism 4 can roughly compact the unplanned mesh belt, the mesh belt is pulled rightwards by controlling the rolling, the meshbelt laminating is on bearing bottom plate 44's top, and roof pressure spring 42 and the cooperation of smoothing clamp plate 43 can make to smooth mechanism 4 and flatten the meshbelt of different thickness, and the crease department and the fold department that smooth clamp plate 43 and bearing bottom plate 44 cooperation can be with great angle on the meshbelt flatten.

The left end of the smoothing pressing plate 43 is provided with a slope-shaped structural plate which is downwards inclined, the slope-shaped structure at the left end of the smoothing pressing plate 43 can facilitate the woven belts to enter between the smoothing pressing plate 43 and the bearing bottom plate 44, so that the smoothing pressing plate 43 can compact and level the woven belts with different thicknesses under the action of the jacking spring 42, and the practicability of the invention is improved.

The leveling device 5 comprises a rotating roller 51, separating rings 52, balls 53, a leveling support 54 and a pressing mechanism 55, wherein the rotating roller 51 is symmetrically arranged on the left side and the right side above the bottom plate 1, the front end and the rear end of the rotating roller 51 are both installed on the top end of the bottom plate 1 through the leveling support 54, the separating rings 52 are evenly installed in the middle of the rotating roller 51, a ribbon roller groove is formed between every two adjacent separating rings 52 in a surrounding mode, a U-shaped groove is formed in the middle of each separating ring 52 along the circumferential direction of the separating ring, the balls 53 are evenly installed in the U-shaped grooves along the circumferential direction of the separating rings 52, the pressing mechanism 55 is arranged above the rotating roller 51, and the lower ends of the front side and the rear side of the pressing mechanism 55.

The leveling device 5 further comprises a rotating worm wheel 56, a worm 57, worm bearing seats 58 and worm motors 59, wherein the front end of each rotating roller 51 is provided with one rotating worm wheel 56, the worm 57 is transversely arranged below the rotating worm wheel 56, the two rotating worm wheels 56 are meshed with the worm 57, the left end and the right end of the worm 57 are arranged on the top end of the bottom plate 1 through the worm bearing seats 58, the worm motors 59 are located on the right sides of the worm 57, the worm motors 59 are arranged on the worm bearing seats 58 through motor sleeves, and output shafts of the worm motors 59 are connected with the worm 57 through couplings.

The pressing mechanism 55 comprises a press roller fixing block 551, a pressing roller 552, a connecting plate 553, side pressing blocks 554, a pressing spring 555 and an electric push rod 556, wherein a press roller fixing block 551 is arranged right above each rotating roller 51, a spring groove is formed at the bottom end of each press roller fixing block 551 corresponding to the position of the separating ring 52, the side pressing blocks 554 are positioned right above the separating rings 52, the side pressing blocks 554 are connected with the press roller fixing block 551 through the pressing springs 555, the top ends of the pressing springs 555 are arranged in the spring groove of the press roller fixing block 551, the bottoms of the pressing springs 555 are arranged on the top surface of the side pressing blocks 554, a press roller groove is formed at the lower end of the press roller fixing block 551 between every two adjacent side pressing blocks 554, the pressing roller 552 is arranged in the press roller groove of the press roller fixing block 551, a U-shaped groove hole is formed in the middle of each side pressing block 554, the electric push rod 556 is located below the connecting plate 553, the connecting plate 553 is connected with the bottom plate 1 through the electric push rod 556, during specific work, the leveling device 5 simultaneously carries out fine compaction leveling on a plurality of woven belts, after rough pressing of the woven belts is completed, the woven belts synchronously penetrate into woven belt roller grooves, the woven belts are attached to the top ends of the rotating rollers 51, contraction is carried out through controlling the electric push rod 556, the lower pressing roller 552 is attached to the top surfaces of the woven belts, the balls 53 are attached to U-shaped grooves of the side pressing blocks 554, the balls 53 can facilitate the rotating rollers 51 to rotate, the lower pressing rollers 552 are matched with the rotating rollers 51 to level the woven belts, weaving uneven weft knitting and small wrinkles on the woven belts can be compacted and leveled, when the lower pressing rollers 552 level the woven belts, dead corners can be flattened at two ends of the woven belts, and the two ends of the woven belts can be upwardly warped, the side pressing blocks 554 can compress and level two ends, avoid the meshbelt dead angle that flattens to appear, later drive two live-rollers 51 through worm motor 59 and rotate in step, live-rollers 51 can drive the meshbelt and move right, and pivoted live-rollers 51 cooperation compression roller 552 can carry out better flattening to the meshbelt to the level and smooth effect to the meshbelt has been improved.

In addition, the invention provides a processing method for weaving, pressing and leveling a braid to process textile machinery, which comprises the following steps:

s1, fixing the woven tape: before carrying out grouting and leveling on the woven belts, firstly sleeving a plurality of woven belts which are not leveled on the middle part of the discharging rod 2 at equal intervals, then sequentially passing one end of the woven belts through the guide roller 3, the leveling mechanism 4, the leveling device 5 and the tensioning roller 6, and finally locking the end heads of the woven belts on the winding mechanism 7;

s2, coarse pressing of the woven belt: the woven belt is pulled rightwards by controlling the rotation of the winding motor 75, the woven belt is attached to the top end of the bearing bottom plate 44, the pressing spring 42 and the flattening pressing plate 43 are matched, so that the flattening mechanism 4 can flatten the woven belts with different thicknesses, and the flattening pressing plate 43 and the bearing bottom plate 44 are matched to flatten crease lines and folds with larger angles on the woven belt;

s3, ribbon fine pressing: after rough pressing of the woven belts is completed, a plurality of woven belts synchronously penetrate into woven belt roller grooves, the woven belts are attached to the top ends of the rotating rollers 51 and are contracted by controlling the electric push rods 556, so that the lower pressing rollers 552 are attached to the top surfaces of the woven belts, the balls 53 are attached to the U-shaped grooves of the side pressing blocks 554, then the worm motors 59 are used for driving the two rotating rollers 51 to synchronously rotate, the lower pressing rollers 552 are matched with the rotating rollers 51 to level the woven belts, weaving uneven weft lengths and smaller folds on the woven belts can be compacted and leveled, when the lower pressing rollers 552 level the woven belts, dead corners for flattening can appear at two ends of the woven belts, the two ends of the woven belts can tilt upwards, and the side pressing blocks 554 can compress and level the two ends of the woven belts;

s4, winding the woven tape: the winding motor 75 is controlled to drive the driving gear set 74 to rotate, so that the winding roller 71 performs centralized winding on the flattened multiple ribbons.

The invention can compress and flatten woven ribbons while rolling a plurality of woven ribbons, and can sequentially use two modes to compress and flatten the woven ribbons, so that rough compaction and fine flattening of the woven ribbons can be successively completed, flattening dead angles can be avoided when flattening the woven ribbons, and the flattening effect on the woven ribbons can be improved.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (4)

1. The utility model provides a meshbelt is woven and is compressed tightly level and process spinning machine, includes bottom plate (1), emits pole (2), guide roll (3), smooths mechanism (4), levels device (5), tensioning roller (6) and winding mechanism (7), its characterized in that: the device is characterized in that a release rod (2) is longitudinally arranged above a bottom plate (1), a plurality of rolls of woven belts are sleeved on the middle of the release rod (2), two ends of the release rod (2) are installed on the left side of the top end of the bottom plate (1), a guide roller (3) is located on the right side of the release rod (2), a smoothing mechanism (4) is located on the right side of the guide roller (3), the smoothing mechanism (4) is installed on the top end of the bottom plate (1), a smoothing device (5) is arranged on the right side of the smoothing mechanism (4), the smoothing device (5) is installed on the middle of the top end of the bottom plate (1), a tensioning roller (6) is located on the right side of the smoothing device (5), the guide roller (3) and the tensioning roller (6) are installed on the top end of the bottom plate (1) through supports, a winding mechanism (7) is located on the right side of the tensioning roller (6), and the winding mechanism (7); wherein:

the leveling device (5) comprises rotating rollers (51), separating rings (52), rolling balls (53), leveling supports (54) and a pressing mechanism (55), wherein the rotating rollers (51) are symmetrically arranged on the left side and the right side above the bottom plate (1), the front end and the rear end of each rotating roller (51) are both installed on the top end of the bottom plate (1) through the leveling supports (54), the separating rings (52) are evenly installed in the middle of each rotating roller (51), a braid roller groove is formed between every two adjacent separating rings (52), a U-shaped groove is formed in the middle of each separating ring (52) along the circumferential direction of the separating ring, the rolling balls (53) are evenly installed in the U-shaped groove along the circumferential direction of the separating rings (52), the pressing mechanism (55) is arranged above the rotating rollers (51), and the lower ends of the front side and the rear side of the pressing mechanism (55) are installed on the top end of the;

the pressing mechanism (55) comprises a press roller fixing block (551), a pressing roller (552), a connecting plate (553), side pressing blocks (554), a pressing spring (555) and an electric push rod (556), wherein a press roller fixing block (551) is arranged right above each rotating roller (51), the bottom end of each press roller fixing block (551) is provided with a spring groove corresponding to the position of the separation ring (52), the side pressing block (554) is positioned right above the separation ring (52), the side pressing block (554) is connected with the press roller fixing block (551) through the pressing spring (555), the top end of the pressing spring (555) is arranged in the spring groove of the press roller fixing block (551), the bottom of the pressing spring (555) is arranged on the top surface of the side pressing block (554), a press roller groove is formed at the lower end of the press roller fixing block (551) between every two adjacent side pressing blocks (554), the lower press roller (552) is arranged in the press roller groove of the press roller fixing block (551), a U-shaped slotted hole is formed in the middle of the side pressing block (554), two ends of the press roller fixing block (551) are connected through a connecting plate (553), an electric push rod (556) is located below the connecting plate (553), and the connecting plate (553) is connected with the bottom plate (1) through the electric push rod (556);

winding mechanism (7) include wind-up roll (71), winding rod (72), bearing frame (73), drive gear group (74), rolling motor (75), winding rod (72) are located the right side of tensioning roller (6), the both ends of winding rod (72) are passed through bearing frame (73) and are installed on the top surface of bottom plate (1), wind-up roll (71) equidistance suit is on winding rod (72), drive gear group (74) are installed on the front end of winding rod (72), rolling motor (75) are located the front side of drive gear group (74), rolling motor (75) are installed on the top of bottom plate (1) through the motor cabinet, the output shaft of rolling motor (75) is connected with drive gear group (74) through the shaft coupling.

2. The textile machine for weaving, pressing and leveling textile tapes according to claim 1, characterized in that: the smoothing mechanism (4) comprises a smoothing supporting frame (41) and a top pressure spring (42), smooth clamp plate (43), bearing bottom plate (44), smooth support frame (41) is arranged on the right side of guide roll (3), the lower extreme of smooth support frame (41) front and back both sides is installed on the top of bottom plate (1), install between the upper end inner wall of smooth support frame (41) bearing bottom plate (44), smooth clamp plate (43) are located the upside of bearing bottom plate (44), smooth clamp plate (43) are connected with the top inner wall of smooth support frame (41) through roof pressure spring (42), roof pressure spring (42) equidistance is arranged in the top of smoothing clamp plate (43), the bottom of roof pressure spring (42) is installed on smoothing clamp plate (43), the top of roof pressure spring (42) is installed on the top inner wall of smoothing support frame (41), the top of smoothing clamp plate (43) and guide roll (3) is at same height.

3. The textile machine for weaving, pressing and leveling textile tapes according to claim 2, characterized in that: and a slope-shaped structural plate which is inclined upwards is arranged at the left end of the flattening pressure plate (43).

4. The textile machine for weaving, pressing and leveling textile tapes according to claim 1, characterized in that: leveling device (5) still including rotating worm wheel (56), worm (57), worm bearing frame (58), worm motor (59), one rotation worm wheel (56) is all installed to the front end of every live-rollers (51), worm (57) transversely arrange in the below of rotating worm wheel (56), two rotate worm wheel (56) all mesh with worm (57), both ends are installed on the top of bottom plate (1) through worm bearing frame (58) about worm (57), worm motor (59) are located the right side of worm (57), worm motor (59) are installed on worm bearing frame (58) through the motor cover, the output shaft of worm motor (59) is connected with worm (57) through the shaft coupling.

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