CN113213262A - Spinning processing is with rotatory winding mechanism with adjustable - Google Patents

Abstract

The invention discloses an adjustable rotary winding mechanism for textile processing, which comprises a limiting mechanism, a guide mechanism, a positioning cylinder, a connecting clamping seat, a supporting clamping plate, an installation clamping hole, a transmission mechanism, an adjusting mechanism, a connecting cylinder and a limiting slider, wherein the inner end surface of the supporting clamping plate, which is close to the upper part, is rotatably clamped with the transmission mechanism for limiting, and the inner end surface of the transmission mechanism is rotatably clamped with the adjusting mechanism. According to the invention, by arranging the limiting mechanism, the guide mechanism and the transmission mechanism, when the winding operation is carried out in different states, a user can extend or contract by operating the connecting cylinder, so that the guide mechanism can be respectively positioned outside the transmission mechanism and the adjusting mechanism, power can be respectively provided for the transmission mechanism and the adjusting mechanism, the user can conveniently rotate to wind or horizontally wind according to requirements, and the adaptability of the device is improved.

Description

Spinning processing is with rotatory winding mechanism with adjustable

Technical Field

The invention relates to the technical field of textile equipment, in particular to an adjustable rotary winding mechanism for textile processing.

Background

When the textile is processed, the equipment for rolling the textile raw materials is not less, the rolling equipment can feed various textile raw materials or quickly roll finished products, the regularity of subsequent product collection is improved, the subsequent production and conveying are convenient,

but current spinning machine winding mechanism can not be according to the quick regulation rolling mode of user's demand, if when cooperating the rolling with stranded conductor equipment, can not cooperate stranded conductor equipment, the rotatory rolling operation of quick switching has reduced the holistic adaptability of rolling equipment, and current rolling equipment, when carrying out the rolling, also can not adjust the radius of rolling or the rate of tension of rolling at any time according to user's demand, has reduced the follow-up efficiency of carrying out the rolling to the fabric.

Disclosure of Invention

The invention aims to provide an adjustable rotary winding mechanism for textile processing, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an adjustable rotary winding mechanism for textile processing comprises a limiting mechanism, a guide mechanism, a positioning cylinder, a connecting clamping seat, a supporting clamping plate, a mounting clamping hole, a transmission mechanism, an adjusting mechanism, a connecting cylinder and a limiting slide block,

the inner end face of the supporting clamping plate is rotatably clamped with a transmission mechanism for limiting near the upper part, and is rotatably clamped with an adjusting mechanism, the center of the rear end face of the adjusting mechanism is slidably clamped with a limiting mechanism for positioning, the rear end face of the supporting clamping plate is symmetrically and fixedly provided with a connecting clamping seat for guiding opposite to the limiting mechanism, the center of the rear end face of the connecting clamping seat is fixedly provided with a positioning cylinder for supporting, the rear end face of the adjusting mechanism is slidably clamped with a guiding mechanism for guiding near the limiting mechanism, the limiting mechanism and the guiding mechanism are rotatably clamped, the rear end face of the adjusting mechanism is fixedly provided with a connecting cylinder near the center, the upper end face of the connecting cylinder is fixedly provided with a limiting slide block, and the connecting cylinder is slidably clamped with the guiding mechanism through the limiting slide block,

the limiting mechanism comprises an inserting rod, a positioning support plate, a limiting clamping block, a connecting shaft and a sliding block, the inserting rod used for supporting is symmetrically and fixedly connected to the position, close to the end, of the side end face of the positioning support plate, the limiting clamping block is fixedly arranged at the center of the side end face of the positioning support plate, the connecting shaft used for positioning is symmetrically and fixedly arranged at the position, close to the center, of the side end face of the positioning support plate, and the sliding block is fixedly arranged at the position, close to the end, of the side end face of the connecting shaft.

Preferably, guiding mechanism is including rotating chuck, gear groove, spacing rotary slot, spacing spout and joint groove, the side end face center department that rotates the chuck offers and is used for spacing gear groove, and is located the rear end face center department that rotates the chuck link up the inside and outside spacing spout that is used for the direction of offering, the rear end face that rotates the chuck is close to middle part department and has offered spacing rotary slot, and is located the joint groove has been offered to the preceding terminal surface that rotates the chuck is close to middle part department.

Preferably, drive mechanism includes gear chuck, spacing slide, positioning slot, fixed rotating shaft, spacing snap ring and spacing grooving, fixed rotating shaft's outer terminal surface fixed mounting has the spacing slide that is used for the support, and is located fixed rotating shaft's end department fixed mounting has gear chuck, fixed rotating shaft's outer terminal surface is close to gear chuck department fixed mounting and has spacing snap ring, fixed rotating shaft's rear end face center department offers and is used for spacing positioning slot, and is located fixed rotating shaft's preceding terminal surface is close to the opening part and has seted up spacing grooving.

Preferably, the adjusting mechanism comprises a coiling plate, a gear clamping plate, a turnover support plate, a positioning chuck, a connecting chute, a connecting motor, a transmission shaft, a support frame, an installation clamping shaft, a fixing groove, a support gear, a transmission rod, a toothed belt pulley, a toothed belt, a belt pulley shaft and a bidirectional screw rod, the installation clamping shaft for transmission is fixedly installed at the center of the lower end face of the support frame, the fixing groove for limiting is formed in the lower end face of the installation clamping shaft, the transmission rod for guiding is rotatably clamped on the bottom end face of the support frame, the support gear is fixedly installed at the position, close to the installation clamping shaft, of the outer end face of the transmission rod, the toothed belt pulley is fixedly installed at the end head of the front end face of the transmission rod, the belt pulley shaft for supporting is rotatably clamped at the center of the side end face of the support frame, and the belt pulley shaft and the toothed belt pulley are meshed for rotating connection through the toothed belt, and be located the outer terminal surface symmetry fixed mounting of belt pulley axle has and is used for spacing location chuck, four groups of connection spouts have been seted up to the even equidistance of location chuck's outer terminal surface, the side end face center department fixed mounting of belt pulley axle has the connection motor, and is located the outer terminal surface symmetry fixed mounting of connection motor has the two-way lead screw that is used for the direction, the outer terminal surface symmetry screw thread slip joint of two-way lead screw has the gear cardboard, and two sets of rotate the joint through the crisscross upset extension board each other between the gear cardboard, the up end rotation joint of upset extension board has and is used for spacing coiling board.

Preferably, the fixed slot is including being used for spacing square groove and seting up the circular slot at square groove top, square groove and spacing fixture block looks adaptation, just stop gear passes through square groove and spacing fixture block looks adaptation and then the rear end face of slip joint at adjustment mechanism.

Preferably, the sliding block all is the T shape setting with spacing rotary groove, just stop gear rotates the joint through sliding block and spacing rotary groove looks adaptation and then with guiding mechanism's rear end face, the rotation chuck carries out the joint that slides with spacing slide and installation card axle respectively through spacing spout, spacing slider all is the T shape setting with the joint groove, just spacing slider passes through the joint groove slip joint at guiding mechanism's interior terminal surface.

Preferably, the two groups of the inserting rods are opposite to the positioning cylinder, a positioning round angle is formed in the inner end face of the positioning cylinder, the transmission mechanism is matched with the limiting clamp ring through the mounting clamp hole and then is rotatably clamped on the inner end face of the supporting clamp plate, the mounting clamp ring is fixedly mounted on the outer end face of the mounting clamp shaft, and the mounting clamp shaft is rotatably clamped on the inner end face of the limiting branch groove through the mounting clamp ring.

Preferably, the gear chuck is in meshing rotation connection with the supporting gear, the coiling plate is in sliding clamping connection with the inner end face of the positioning chuck through a connecting chute, the positioning chuck is fixedly mounted at the center of the rear end face of the transmission rod, and the transmission rod is in rotating clamping connection with the inner end face of the supporting frame through the positioning chuck.

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

1. according to the invention, by arranging the limiting mechanism, the guide mechanism and the transmission mechanism, when the winding operation is carried out in different states, a user can extend or contract by operating the connecting cylinder, so that the guide mechanism can be respectively positioned outside the transmission mechanism and the adjusting mechanism, power can be respectively provided for the transmission mechanism and the adjusting mechanism, the user can conveniently rotate to wind or horizontally wind according to requirements, and the adaptability of the device is improved.

2. According to the invention, through arranging the adjusting mechanism, if the radius or the tensioning degree during rolling needs to be regulated, a user can start the connecting motor, the connecting motor can drive the transmission shaft to rotate, the transmission shaft can drive the two groups of bidirectional screw rods to rotate, and further the bidirectional screw rods drive the two groups of gear clamping plates to move relatively, so that the gear clamping plates can enlarge the rolling radius of the rolling plate outside the positioning chuck along the connecting sliding groove through the staggered overturning support plates, or increase the rolling tensioning degree, otherwise reduce the rolling, reduce the rolling tensioning degree, and further improve the adaptability of the device.

Drawings

FIG. 1 is an exploded view of a body of the present invention;

FIG. 2 is an assembled view of the body of the present invention;

FIG. 3 is a front view of the body of the present invention;

FIG. 4 is a cross-sectional view of the present invention taken along the front view A-A of the body;

FIG. 5 is a schematic structural view of a limiting mechanism of the present invention;

FIG. 6 is a schematic structural view of a guide mechanism of the present invention;

FIG. 7 is a side view of the guide mechanism of the present invention;

FIG. 8 is a schematic view of the transmission mechanism of the present invention;

FIG. 9 is a side view of the drive mechanism of the present invention;

FIG. 10 is a schematic view of the adjustment mechanism of the present invention;

FIG. 11 is a front view of the adjustment mechanism of the present invention;

FIG. 12 is a cross-sectional view of the present invention taken along the front view B-B of the adjustment mechanism;

fig. 13 is a partial enlarged view of the adjusting mechanism I of the present invention.

In the figure: 1-limiting mechanism, 2-guiding mechanism, 3-positioning cylinder, 4-connecting clamping seat, 5-supporting clamping plate, 6-mounting clamping hole, 7-transmission mechanism, 8-adjusting mechanism, 9-connecting cylinder, 10-limiting sliding block, 11-inserting rod, 12-positioning support plate, 13-limiting clamping block, 14-connecting shaft, 15-sliding block, 21-rotating chuck, 22-gear groove, 23-limiting rotating groove, 24-limiting sliding groove, 25-clamping groove, 71-gear chuck, 72-limiting sliding plate, 73-positioning slot, 74-fixed rotating shaft, 75-limiting clamping ring, 76-limiting supporting groove, 81-rolling plate, 82-gear clamping plate, 83-rolling support plate, 84-positioning chuck, 84-positioning clamping plate, 85-connecting sliding grooves, 86-connecting motors, 87-transmission shafts, 88-supporting frames, 89-mounting clamping shafts, 810-fixing grooves, 811-supporting gears, 812-transmission rods, 813-first toothed belt pulleys, 814-toothed belts, 815-belt wheel shafts and 816-bidirectional screw rods.

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 derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-13, an embodiment of the present invention is shown: an adjustable rotary winding mechanism for textile processing comprises a limiting mechanism 1, a guide mechanism 2, a positioning cylinder 3, a connecting clamping seat 4, a supporting clamping plate 5, a mounting clamping hole 6, a transmission mechanism 7, an adjusting mechanism 8, a connecting cylinder 9 and a limiting slide block 10,

a transmission mechanism 7 for limiting is rotatably clamped on the inner end surface of the supporting clamping plate 5 close to the upper part, an adjusting mechanism 8 is rotatably clamped on the inner end surface of the transmission mechanism 7, a limiting mechanism 1 for positioning is slidably clamped on the center of the rear end surface of the adjusting mechanism 8, a connecting clamping seat 4 for guiding is symmetrically and fixedly arranged on the rear end surface of the supporting clamping plate 5 opposite to the limiting mechanism 1, a positioning cylinder 3 for supporting is fixedly arranged on the center of the rear end surface of the connecting clamping seat 4, a guiding mechanism 2 for guiding is slidably clamped on the rear end surface of the adjusting mechanism 8 close to the limiting mechanism 1, the limiting mechanism 1 and the guiding mechanism 2 are rotatably clamped, a connecting cylinder 9 is fixedly arranged on the rear end surface of the adjusting mechanism 8 close to the center, a limiting slide block 10 is fixedly arranged on the upper end surface of the connecting cylinder 9, and the connecting cylinder 9 is slidably clamped with the guiding mechanism 2 through the limiting slide block 10,

the limiting mechanism 1 comprises an insertion rod 11, a positioning support plate 12, a limiting clamping block 13, a connecting shaft 14 and a sliding block 15, the insertion rod 11 for supporting is symmetrically and fixedly connected to the position, close to the end, of the side end face of the positioning support plate 12, the limiting clamping block 13 is fixedly installed in the position, located in the center of the side end face of the positioning support plate 12, the connecting shaft 14 for positioning is symmetrically and fixedly installed in the position, close to the center, of the side end face of the positioning support plate 12, and the sliding block 15 is fixedly installed in the position, located in the end of the side end face of the connecting shaft 14.

The guide mechanism 2 comprises a rotating chuck 21, a gear groove 22, a limiting rotating groove 23, a limiting sliding groove 24 and a clamping groove 25, the gear groove 22 used for limiting is arranged at the center of the side end face of the rotating chuck 21, the limiting sliding groove 24 used for guiding is arranged inside and outside the center of the rear end face of the rotating chuck 21 in a penetrating mode, the limiting rotating groove 23 is arranged at the position, close to the middle, of the rear end face of the rotating chuck 21, and the clamping groove 25 is arranged at the position, close to the middle, of the front end face of the rotating chuck 21.

Drive mechanism 7 includes gear chuck 71, spacing slide 72, location slot 73, fixed pivot 74, spacing snap ring 75 and spacing grooving 76, the outer terminal surface fixed mounting of fixed pivot 74 has spacing slide 72 that is used for supporting, and the end department fixed mounting who is located fixed pivot 74 has gear chuck 71, the outer terminal surface of fixed pivot 74 is close to gear chuck 71 department fixed mounting has spacing snap ring 75, the rear end face center department of fixed pivot 74 offers and is used for spacing location slot 73, and the preceding terminal surface that is located fixed pivot 74 is close to the opening part and has offered spacing grooving 76.

The adjusting mechanism 8 comprises a coiling plate 81, a gear clamping plate 82, an overturning support plate 83, a positioning chuck 84, a connecting chute 85, a connecting motor 86, a transmission shaft 87, a support frame 88, an installation clamping shaft 89, a fixing groove 810, a support gear 811, a transmission rod 812, a toothed belt wheel 813, a toothed belt 814, a belt wheel shaft 815 and a bidirectional screw 816, wherein the center of the lower end face of the support frame 88 is fixedly provided with the installation clamping shaft 89 for transmission, the lower end face of the installation clamping shaft 89 is provided with the fixing groove 810 for limiting, the bottom end face of the support frame 88 is rotatably clamped with the transmission rod 812 for guiding, the outer end face of the transmission rod 812 is fixedly provided with the support gear 811 close to the installation clamping shaft 89, the end head of the front end face of the transmission rod 812 is fixedly provided with the toothed belt wheel 813, the center of the side end face of the support frame 88 is rotatably clamped with the belt wheel shaft 815 for supporting, and the belt wheel shaft 815 and the toothed belt wheel 813 are meshed and rotatably connected through the toothed belt 814, the outer end face of the belt pulley shaft 815 is symmetrically and fixedly provided with positioning chucks 84 for limiting, four groups of connecting chutes 85 are uniformly and equidistantly formed in the outer end face of each positioning chuck 84, a connecting motor 86 is fixedly installed in the center of the side end face of the belt pulley shaft 815, two-way screws 816 for guiding are symmetrically and fixedly installed on the outer end face of the connecting motor 86, gear clamping plates 82 are slidably clamped on the outer end faces of the two-way screws 816 in a symmetrical threaded manner, the two groups of gear clamping plates 82 are rotatably clamped through staggered turnover supporting plates 83, and winding plates 81 for limiting are rotatably clamped on the upper end faces of the turnover supporting plates 83.

The fixed slot 810 is including being used for spacing square groove and seting up the circular slot at square groove top, square groove and spacing fixture block 13 looks adaptation, and stop gear 1 is through square groove and spacing fixture block 13 looks adaptation and then the sliding clamping connects at adjustment mechanism 8's rear end face, square groove and spacing fixture block 13's cooperation, can make things convenient for follow-up stop gear 1 to provide sufficient spacing basis to adjustment mechanism 8's rear portion, make adjustment mechanism 8 keep static when guiding mechanism 2 and drive mechanism 7 rotate.

Sliding block 15 all is T shape setting with spacing rotary trough 23, and stop gear 1 rotates the joint through sliding block 15 and spacing rotary trough 23 looks adaptation and then with guiding mechanism 2's rear end face, rotation chuck 21 carries out the slip joint with spacing slide 72 and installation card axle 89 respectively through spacing spout 24, stop gear 10 all is T shape setting with joint groove 25, and stop gear 10 slides the joint at guiding mechanism 2's interior terminal surface through joint groove 25, joint groove 25 and spacing rotary trough 23 can provide spacing basis for connecting cylinder 9 and stop gear 1 respectively, thereby make when guiding mechanism 2 rotates, stop gear 1 can keep static with connecting cylinder 9.

Two groups of insertion rods 11 are opposite to the positioning cylinder 3, the inner end face of the positioning cylinder 3 is provided with a positioning round angle, the transmission mechanism 7 is matched with the limiting snap ring 75 through the mounting snap hole 6 and then is rotationally clamped on the inner end face of the supporting snap plate 5, the outer end face of the mounting snap shaft 89 is fixedly provided with the mounting snap ring, the mounting snap shaft 89 is rotationally clamped on the inner end face of the limiting support groove 76 through the mounting snap ring, when the guide mechanism 2 is positioned outside the limiting slide plate 72, the guide mechanism 2 can drive the limiting mechanism 1 to move together, meanwhile, the limiting snap block 13 inside the limiting mechanism 1 can be slidably clamped inside the fixing groove 810, so that a sufficient limiting base is provided for limiting the subsequent adjusting mechanism 8, the insertion rods 11 at two sides of the limiting mechanism 1 can be inserted into the positioning cylinder 3 to finish final limiting of the adjusting mechanism 8, and the subsequent transmission mechanism 7 can conveniently rotate, the adjusting mechanism 8 keeps static operation, the mounting clamp hole 6 and the limiting clamp ring 75 can furthest ensure that the transmission mechanism 7 carries out rotating stability inside the supporting clamp plate 5, and meanwhile, the limiting of the mounting clamp ring and the limiting support groove 76 can ensure that the adjusting mechanism 8 carries out limiting stability inside the transmission mechanism 7.

Gear chuck 71 meshes with supporting gear 811 to rotate and is connected, roll board 81 is through connecting spout 85 and then the interior terminal surface of slip joint at location chuck 84, the rear end face center department fixed mounting of transfer line 812 has location chuck, and transfer line 812 rotates the interior terminal surface of joint at support frame 88 through location chuck, can effectively improve follow-up transfer line 812 and carry out driven stability, prevent that follow-up supporting gear 811 from taking place the skew when meshing with gear chuck 71, it can provide sufficient spacing basis for roll board 81 to connect spout 85, thereby guarantee that roll board 81 can carry out stable vertical displacement, and then improve the stability of follow-up rolling to the fabric.

The working principle is as follows: as shown in fig. 1-4, when in use, a user can wind the wire body to be wound around the outside of the adjusting mechanism 8, so as to facilitate the subsequent winding operation of various types, and before winding, the user can engage and connect an external transmission belt with the outside of the guiding mechanism 2, so as to conveniently provide enough power for the device to transmit,

as shown in fig. 1, fig. 4 and fig. 8, if the textile stranded wire needs to be wound, at this time, the user can start the external power mechanism, the external power mechanism can drive the guiding mechanism 2 to rotate through the transmission belt, at this time, the guiding mechanism 2 is at the initial position and is located at the end of the mounting clamping shaft 89, and when the guiding mechanism 2 rotates, because the limiting chute 24 inside the guiding mechanism 2 is in sliding clamping connection with the mounting clamping shaft 89, further when the guiding mechanism 2 rotates, the adjusting mechanism 8 can be driven to rotate outside the supporting clamping plate 5 through the mounting clamping shaft 89, and when the adjusting mechanism 8 rotates, because the supporting gear 811 is in meshing connection with the outside of the gear chuck 71, further when the adjusting mechanism 8 rotates circumferentially, the supporting gear 811 can rotate around the upper portion of the gear chuck 71, and when the supporting gear 811 rotates, the supporting gear 811 can drive the belt pulley shaft 815 to rotate through the toothed belt 814, so that the belt pulley shaft 815 can drive the rolling plate 81 to roll various line bodies through the positioning chuck 84, and meanwhile, the adjusting mechanism 8 can roll while rotating, and can be matched with an external stranding mechanism, so that the stranding efficiency of a subsequent stranding mechanism is improved,

as shown in fig. 1, 4, 5, 7, if horizontal rolling is required, at this time, the user can start the connection cylinder 9 through the external control mechanism, at this time, the connection cylinder 9 can drive the guiding mechanism 2 to contract towards the inside through the limiting sliding block 10, at this time, the inside of the guiding mechanism 2 can be slidably clamped to the outside of the limiting sliding plate 72 from the outside of the installation clamping shaft 89 through the limiting sliding groove 24, at the same time, when the guiding mechanism 2 is displaced towards the inside, the guiding mechanism 2 can drive the limiting mechanism 1 to displace towards the inside of the supporting clamping plate 5 through the sliding block 15, at this time, the inserting rod 11 can just be inserted into the inside of the positioning cylinder 3, so that the subsequent limiting mechanism 1 can limit the outside of the installation clamping shaft 89, the adjusting mechanism 8 is prevented from rotating, when the limiting is completed, the user can drive the guiding mechanism 2 to rotate through the driving belt, because the limiting sliding block 10 and the sliding block 15 are both slidably clamped to the outside of the guiding mechanism 2, when the guide mechanism 2 rotates, the limiting mechanism 1 and the connecting cylinder 9 are both kept stationary, at this time, the guide mechanism 2 can drive the transmission mechanism 7 to rotate through the matching relationship between the limiting chute 24 and the limiting sliding plate 72, and simultaneously, when the transmission mechanism 7 rotates, the gear chuck 71 can drive the toothed belt wheel 813 to rotate through the supporting gear 811, so that the toothed belt wheel 813 can drive the belt pulley shaft 815 to rotate through the toothed belt 814, thereby facilitating the subsequent belt pulley shaft 815 to provide enough power for the winding plate 81 to horizontally wind the line body,

as shown in fig. 10, 12 and 13, if the radius of the rolling plate 81 needs to be adjusted, or the tensioning degree during rolling needs to be adjusted, at this time, a user can start the connection motor 86 through an external control mechanism, the connection motor 86 can drive the transmission shaft 87 to rotate, the transmission shaft 87 can simultaneously drive the two sets of bidirectional screws 816 to rotate when rotating, and as the gear clamping plate 82 is slidably clamped outside the pulley shaft 815, the bidirectional screws 816 can simultaneously drive the two sets of gear clamping plates 82 to move relatively when rotating, so that the gear clamping plate 82 can expand the rolling radius of the rolling plate 81 outside the positioning chuck 84 along the connection sliding groove 85 through the staggered turnover support plates 83, or increase the tensioning degree of the rolling, otherwise, the rolling is reduced, the tensioning degree of the rolling is reduced, and the adaptability of the device is improved.

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

Claims (8)

1. Spinning processing is with rotatory winding mechanism with adjustable, its characterized in that: comprises a limiting mechanism (1), a guide mechanism (2), a positioning cylinder (3), a connecting clamping seat (4), a supporting clamping plate (5), a mounting clamping hole (6), a transmission mechanism (7), an adjusting mechanism (8), a connecting cylinder (9) and a limiting slide block (10),

a transmission mechanism (7) for limiting is rotatably clamped on the inner end surface of the supporting clamping plate (5) close to the upper part, an adjusting mechanism (8) is rotatably clamped on the inner end surface of the transmission mechanism (7), a limiting mechanism (1) for positioning is slidably clamped on the center of the rear end surface of the adjusting mechanism (8), a connecting clamping seat (4) for guiding is symmetrically and fixedly arranged on the rear end surface of the supporting clamping plate (5) right opposite to the limiting mechanism (1), a positioning cylinder (3) for supporting is fixedly arranged on the center of the rear end surface of the connecting clamping seat (4), a guide mechanism (2) for guiding is slidably clamped on the rear end surface of the adjusting mechanism (8) close to the limiting mechanism (1), the limiting mechanism (1) and the guide mechanism (2) are rotatably clamped, and a connecting cylinder (9) is fixedly arranged on the rear end surface of the adjusting mechanism (8) close to the center, and a limiting slide block (10) is fixedly arranged on the upper end surface of the connecting cylinder (9), the connecting cylinder (9) is in sliding clamping connection with the guide mechanism (2) through the limiting slide block (10),

the limiting mechanism (1) comprises an inserting rod (11), a positioning support plate (12), a limiting clamping block (13), a connecting shaft (14) and a sliding block (15), wherein the inserting rod (11) used for supporting is symmetrically and fixedly connected to the position, close to the end, of the side end face of the positioning support plate (12), the limiting clamping block (13) is fixedly installed at the center of the side end face of the positioning support plate (12), the connecting shaft (14) used for positioning is symmetrically and fixedly installed at the position, close to the center, of the side end face of the positioning support plate (12), and the sliding block (15) is fixedly installed at the position, close to the end, of the side end face of the connecting shaft (14).

2. The adjustable rotary winding mechanism for textile processing as claimed in claim 1, wherein: guiding mechanism (2) are including rotating chuck (21), gear groove (22), spacing rotating groove (23), spacing spout (24) and joint groove (25), the side end face center department that rotates chuck (21) offers and is used for spacing gear groove (22), and is located the rear end face center department that rotates chuck (21) link up inside and outside offers spacing spout (24) that are used for the direction, the rear end face that rotates chuck (21) is close to middle part department and has offered spacing rotating groove (23), and is located joint groove (25) have been offered near middle part department to the preceding terminal surface of rotating chuck (21).

3. The adjustable rotary winding mechanism for textile processing as claimed in claim 2, wherein: drive mechanism (7) include gear chuck (71), spacing slide (72), location slot (73), fixed rotating shaft (74), spacing snap ring (75) and spacing groove (76), the outer terminal surface fixed mounting of fixed rotating shaft (74) has spacing slide (72) that is used for the support, and is located fixed mounting of end department of fixed rotating shaft (74) has gear chuck (71), the outer terminal surface of fixed rotating shaft (74) is close to gear chuck (71) and locates fixed mounting to have spacing snap ring (75), the rear end face center department of fixed rotating shaft (74) offers and is used for spacing location slot (73), and is located spacing groove (76) have been seted up near the opening part to the preceding terminal surface of fixed rotating shaft (74).

4. The adjustable rotary winding mechanism for textile processing as claimed in claim 3, wherein: the adjusting mechanism (8) comprises a rolling plate (81), a gear clamping plate (82), an overturning support plate (83), a positioning chuck (84), a connecting chute (85), a connecting motor (86), a transmission shaft (87), a support frame (88), an installation clamping shaft (89), a fixing groove (810), a supporting gear (811), a transmission rod (812), a toothed belt pulley (813), a toothed belt (814), a belt pulley shaft (815) and a bidirectional screw rod (816), wherein the center of the lower end face of the support frame (88) is fixedly provided with the installation clamping shaft (89) for transmission, the lower end face of the installation clamping shaft (89) is provided with the fixing groove (810) for limiting, the transmission rod (812) for guiding is rotationally clamped on the bottom end face of the support frame (88), and the supporting gear (811) is fixedly arranged at the position, close to the installation clamping shaft (89), of the outer end face of the transmission rod (812), a toothed belt wheel (813) is fixedly installed at the end of the front end face of the transmission rod (812), a belt pulley shaft (815) used for supporting is rotationally clamped at the center of the side end face of the support frame (88), the belt pulley shaft (815) and the toothed belt wheel (813) are meshed and rotationally connected through a toothed belt (814), a positioning chuck (84) used for limiting is symmetrically and fixedly installed at the outer end face of the belt pulley shaft (815), four groups of connecting sliding grooves (85) are uniformly and equidistantly formed in the outer end face of the positioning chuck (84), a connecting motor (86) is fixedly installed at the center of the side end face of the belt pulley shaft (815), a two-way screw rod (816) used for guiding is symmetrically and fixedly installed at the outer end face of the connecting motor (86), and a gear clamping plate (82) is slidably clamped at the outer end face of the two-way screw rod (816) in a symmetrical threaded manner, and the two groups of gear clamping plates (82) are rotationally clamped through mutually staggered turnover supporting plates (83), and the upper end surfaces of the turnover supporting plates (83) are rotationally clamped with winding plates (81) for limiting.

5. The adjustable rotary winding mechanism for textile processing as claimed in claim 4, wherein: the fixing groove (810) comprises a square groove used for limiting and a circular groove formed in the top of the square groove, the square groove is matched with the limiting clamping block (13), and the limiting mechanism (1) is matched with the limiting clamping block (13) through the square groove and then is in sliding clamping connection with the rear end face of the adjusting mechanism (8).

6. The adjustable rotary winding mechanism for textile processing as claimed in claim 5, wherein: sliding block (15) all are the T shape setting with spacing rotating groove (23), just stop gear (1) rotates the joint through sliding block (15) and spacing rotating groove (23) looks adaptation and then with the rear end face of guiding mechanism (2), rotation chuck (21) carry out the joint that slides with spacing slide (72) and installation card axle (89) respectively through spacing spout (24), stop slider (10) all are the T shape setting with joint groove (25), just stop slider (10) are through joint groove (25) slip joint at the interior terminal surface of guiding mechanism (2).

7. The adjustable rotary winding mechanism for textile processing as claimed in claim 4, wherein: two sets of peg graft pole (11) are just right mutually with a location section of thick bamboo (3), just location fillet has been seted up to the interior terminal surface of a location section of thick bamboo (3), drive mechanism (7) are through installation card hole (6) and spacing snap ring (75) looks adaptation and then rotate the joint and support the interior terminal surface of cardboard (5), the outer terminal surface fixed mounting of installation card axle (89) has the installation snap ring, just installation card axle (89) are through the installation snap ring and then rotate the joint at the interior terminal surface of spacing groove (76).

8. The adjustable rotary winding mechanism for textile processing as claimed in claim 4, wherein: gear chuck (71) and supporting gear (811) carry out the meshing rotation and are connected, roll up board (81) and then slip joint at the interior terminal surface of location chuck (84) through connecting spout (85), the rear end face center department fixed mounting of transfer line (812) has the location chuck, just transfer line (812) rotate the joint at the interior terminal surface of support frame (88) through the location chuck.

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