CN116692549A - Continuous winding device and method for textile printing and dyeing - Google Patents

Abstract

The invention belongs to the technical field of textile printing and dyeing, and particularly discloses a textile printing and dyeing continuous winding device and a method. According to the invention, after the rolled square round rod is taken down, the rotating frame is driven to move downwards by the moving frame, at the moment, the notches at the bottoms of the two arc plates are mutually separated in the process of extruding the square round rod, the arc plates use the convex rods to pull the springs until the square round rod is correspondingly buckled between the two arc plates, the clamping structure of the rotating frame is conveniently clamped on the surface of the square round rod at the bottom by using the elasticity of the springs, the quick replacement of the square round rod is completed, and the cloth after textile printing and dyeing is continuously rolled by the square round rod.

Description

Continuous winding device and method for textile printing and dyeing

Technical Field

The invention belongs to the technical field of textile printing and dyeing, and particularly relates to a continuous winding device and method for textile printing and dyeing.

Background

In the production and processing of fabrics, the fabrics are generally rolled by adopting the rolling device, and the fabrics are orderly collected on the rolling device by mutually matching different rolling rollers, so that the rolling of different fabrics is finished by using different rolling rollers, and the production work is finished.

After the wind-up roll in the winding device winds the cloth printed and dyed by spinning, the wind-up roll needs to be replaced for continuous collection, and the wind-up roll is more troublesome to replace, so that the winding work is affected, and the work efficiency is reduced.

Therefore, it is necessary to invent a continuous winding device and a method for textile printing and dyeing to solve the above problems.

Disclosure of Invention

The invention provides a continuous winding device and a method for textile printing and dyeing, aiming at the problems, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a continuous coiling mechanism of textile printing and dyeing, includes two movable frames that set up relatively, two movable frames all utilize connection structure to correspond respectively and prescribe a limit to the both ends of square round bar, square round bar surface annular fixed mounting has the rolling support, connection structure includes the revolving rack, revolving rack outside end corresponds and runs through movable frame center department, revolving rack inside end utilizes clamping structure to prescribe a limit to at square round bar tip, the motor output is connected to the revolving rack outside end, and motor fixed mounting is in movable frame outside face, square round bar both ends surface all is provided with the revolving board, and the revolving board circumference outside is provided with two frame plates relatively, two frame plates set up relatively, and two frame plate medial surface all is provided with the inside groove that corresponds with the revolving board, and riser is all installed at two frame plate tops, riser center department spiral run through has the screw rod, screw rod one end is connected with step motor output, and step motor fixed mounting is at riser lateral surface, riser outside end and frame plate bottom all run through and are provided with prescribe a limit to the pole, and two inner block that prescribe a limit to the revolving board are all fixed with to two inner side surfaces;

the top and the bottom of the movable frame are respectively provided with a top plate and a bottom plate, the top plate is connected with the bottom plate by two vertical rods, the two vertical rods correspondingly penetrate through the two ends of the movable frame, an air cylinder is installed at the top of the top plate, the output end of the air cylinder is connected with the top surface of the movable frame through the top plate, a damping strip is installed on the bottom surface of a convex plate outside the top plate, and the bottom end of the damping strip is located between the two vertical plates.

Further, the frame plate and the vertical plate are combined to form an L-shaped structure, the bottom surface of the vertical plate is correspondingly attached to the top surface of the movable frame, the two frame plates are mutually close, and the two frame plates are correspondingly clamped on the surface of the square round rod.

Further, two square round bars are correspondingly arranged between the two frame plates, the movable frame moves upwards on the surface of the vertical rod, the movable frame drives the square round bars at the top to move upwards by using the clamping structure at the inner side of the rotary frame, and the movable frame drives the square round bars at the bottom to move upwards by using the vertical plate and the frame plates.

Further, the clamping structure comprises two arc plates which are oppositely arranged, the inner concave surface of each arc plate is correspondingly arranged with the outer side surface of the circumference of the square rod, the top edge and the bottom edge of each arc plate are chamfered, the two arc plates are correspondingly sleeved on the surface of the square rod by utilizing the chamfer edges, openings are formed in the top and the bottom of the rotating frame, and two notches formed by the two arc plates are correspondingly arranged and respectively correspond to two openings of the rotating frame.

Further, the convex rod penetrating through the rotating frame is arranged at the center of the convex surface of the arc-shaped plate, the outer side end of the convex rod is connected with the side face of the rotating frame through a spring, the two arc-shaped plates are separated from each other, the arc-shaped plates pull the spring through the convex rod, the bottom face of the rotating frame is provided with a convex block, and the gravity center of the rotating frame is located at the bottom of the center point of the rotating frame through the convex block.

Further, the top surfaces at two ends of the bottom plate are respectively fixed with an L-shaped frame, the vertical rods correspondingly penetrate through the bending parts of the L-shaped frames, the two ends of the movable frames are respectively provided with an inner notch, the bending parts of the L-shaped frames are positioned in the inner notches at the two ends of the movable frames, and the bottoms of the inner sides of the inner notches are connected with the bottoms of the bending parts of the L-shaped frames by using elastic plates.

Further, the bottom plate bottom is provided with the chassis, install two horizontal poles of parallel arrangement between the chassis both ends side, two horizontal poles run through two bottom plate both ends respectively, the bottom plate medial surface is provided with the card strip that corresponds with the horizontal pole, and the card strip surface rotation has cup jointed the commentaries on classics cover, changeing the cover spiral and cup jointing in the horizontal pole surface, two relative internal thread opposite directions that change the cover.

The invention also provides a textile printing and dyeing continuous winding method, which is applied to the textile printing and dyeing continuous winding device and comprises the following steps:

s1, starting a motor, wherein when the motor works to drive rotating frames to rotate, the two rotating frames are limited and clamped at two ends of a square round rod by utilizing a clamping structure, the rotating frames drive the other rotating frame to synchronously rotate by utilizing the square round rod, and the square round rod winds the cloth subjected to textile printing and dyeing by utilizing a rotating winding bracket;

s2, after winding is completed, the motor stops working, the stepping motor works to enable the screw rod to rotate, the rotating screw rod enables two opposite vertical plates to be close to each other, the two frame plates are correspondingly clamped on the surface of the square round rod by using the inner grooves, and the two opposite vertical plates are correspondingly clamped on two side edges of the damping strip;

s3, when the air cylinder works to pull the movable frames to move upwards on the surfaces of the two vertical rods, the two movable frames drive the rolled square round rods to move upwards by using the clamping structure on the inner side of the rotary frame, and when the movable frames drive the frame plates to move upwards by using the vertical plates, the two opposite frame plates drive the square round rods at the bottom to move upwards by using the inner blocks, and the movable frames and the bottoms of the bent parts of the L-shaped frames correspondingly squeeze the elastic plates;

s4, the two opposite vertical plates move upwards on the surface of the damping strip, the square round bar at the top is taken down from between the two clamping structures, the two arc plates are close to each other by the elasticity of the springs, the two rotating frames are stably arranged by the convex blocks, the cylinder works to push the movable frames to move downwards, the two movable frames drive the rotating frames to move downwards synchronously under the elastic force fit of the elastic plates, and the opening at the bottom of the rotating frames and the notch at the bottom of the two arc plates are correspondingly buckled at the end parts of the square round bar at the bottom due to the limitation of the damping strip on the two vertical plates, so that the clamping connection of the rotating frames and the square round bar is completed;

s5, the screw rod is reversely rotated by the operation of the stepping motor, the two vertical plates are mutually far away from each other, a new square round rod is correspondingly placed between the two frame plates, and the square round rod continuously winds the cloth subjected to textile printing and dyeing through the winding bracket.

The invention has the technical effects and advantages that:

1. according to the invention, after the rolled square round rod is taken down, the rotating frame is driven to move downwards by the moving frame, at the moment, the notches at the bottoms of the two arc plates are mutually separated in the process of extruding the square round rod, the arc plates use the convex rods to pull the springs until the square round rod is correspondingly buckled between the two arc plates, the clamping structure of the rotating frame is conveniently clamped on the surface of the square round rod at the bottom by using the elasticity of the springs, the quick replacement of the square round rod is completed, and the cloth after textile printing and dyeing is continuously rolled by the square round rod.

2. According to the invention, after the end part of the square round bar is moved to the inner side of the rotating frame through the opening of the rotating frame, the convex surfaces in the chamfer edges of the two arc plates are contacted with the square round bar, the square round bar is moved to separate the two arc plates, the two arc plates are separated from each other, the arc plates pull the spring by the convex bar until the end part of the square round bar is moved between the two arc plates, the clamping structure of the rotating frame is convenient to clamp the surface of the square round bar at the bottom correspondingly by the elastic force of the spring, and the spring is matched with the arc plates, so that the square round bars with different diameters can be clamped at the inner side of the rotating frame, and the adaptability of the clamping structure to the square round bars with different diameters is improved.

3. According to the invention, the plurality of rotating sleeves are rotated simultaneously, the rotating sleeves rotate on the surfaces of the clamping bars, the cross bars are prevented from moving due to the limitation of the side edges of the underframe to the cross bars, when the rotating sleeves rotate on the surfaces of the cross bars, the bottom plates move on the tops of the underframe due to the spiral effect between the rotating sleeves and the cross bars, and at the moment, the two opposite bottom plates drive the two moving frames to approach or separate from each other, so that the distance between the two moving frames can be conveniently changed in real time according to the length of the square round bars.

Drawings

FIG. 1 is a schematic overall perspective view of a textile printing and dyeing continuous winding device according to an embodiment of the invention;

fig. 2 is a schematic perspective view of two square rods clamped by two frame plates according to an embodiment of the present invention;

FIG. 3 is a schematic view of a clamping structure on a turret according to an embodiment of the invention;

FIG. 4 is a schematic illustration of a floor and rail slip fit of an embodiment of the present invention;

in the figure: 1. a moving rack; 2. a square round bar; 3. winding a bracket; 4. a rotating frame; 5. a motor; 6. a rotating plate; 7. a frame plate; 8. an inner tank; 9. a riser; 10. a screw; 11. a stepping motor; 12. a limiting rod; 13. an inner block; 14. a top plate; 15. a bottom plate; 16. a vertical rod; 17. a cylinder; 18. damping strips; 19. an arc-shaped plate; 20. a protruding rod; 21. a spring; 22. a bump; 23. an L-shaped frame; 24. an elastic plate; 25. a chassis; 26. a cross bar; 27. clamping strips; 28. and (5) rotating the sleeve.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the embodiments.

The invention provides a continuous winding device for textile printing and dyeing, which comprises two oppositely arranged movable frames 1, wherein the two movable frames 1 respectively correspond to and limit two ends of a square round rod 2 by utilizing a connecting structure, a winding bracket 3 is fixedly arranged on the surface of the square round rod 2 in an annular mode, the connecting structure comprises a rotating frame 4, the outer side end of the rotating frame 4 correspondingly penetrates through the center of the movable frame 1, the inner side end of the rotating frame 4 is correspondingly limited at the end part of the square round rod 2 by utilizing a clamping structure, the outer side end of the rotating frame 4 is connected with the output end of a motor 5, the motor 5 is fixedly arranged on the outer side surface of the movable frame 1, two end surfaces of the square round rod 2 are respectively provided with a rotating plate 6, two frame plates 7 are respectively arranged on the outer sides of the circumference of the rotating plate 6 in an opposite mode, two frame plates 7 are respectively arranged on the inner side surfaces of the two frame plates 7 in an opposite mode, an inner groove 8 corresponding to the rotating plate 6 is respectively arranged on the tops of the two frame plates 7, a vertical plate 9 is respectively arranged on the two frame plates 7, a screw 10 is spirally penetrated through the center of the vertical plate 9, one end of the screw 10 is connected with the output end of a stepping motor 11, the stepping motor 11 is fixedly arranged on the outer side of the vertical plate 7 is correspondingly limited on the end of the vertical plate 9, and the two frame plates are respectively arranged on the inner side surfaces of the corresponding frame plates 13 and the two frame plates are respectively arranged on the inner sides of the frame plates and 13; when two revolving racks 4 utilize the clamping structure to correspond the centre gripping at square round bar 2 both ends, and motor 5 work utilizes revolving racks 4 to drive square round bar 2 when rotating, and square round bar 2 drives another revolving rack 4 synchronous rotation, and square round bar 2 utilizes a plurality of rolling support 3 rolling cloth after the textile printing and dyeing of pivoted at this moment, and the rolling is accomplished the back, and motor 5 stop work. When the stepping motor 11 is started, the stepping motor 11 drives the screw rod 10 to rotate, the screw rod 10 rotates to enable the two opposite vertical plates 9 to be close to each other, the two vertical plates 9 enable the two opposite frame plates 7 to be close to each other, at the moment, the two frame plates 7 are correspondingly clamped on the surface of the rotating plate 6 by the aid of the inner grooves 8, the inner side faces of the frame plates 7 are limited to be clamped on the surface of the square round rod 2, and the square round rod 2 is prevented from rotating by means of the clamping of the two opposite frame plates 7.

The stepping motor 11 works to enable the screw rod 10 to rotate, at the moment, the two vertical plates 9 are mutually close to or far away from each other under the limit of rotation of the screw rod 10, and as the two limiting rods 12 respectively limit the vertical plates 9 and the frame plates 7, the two vertical plates 9 and the frame plates 7 are conveniently and synchronously mutually far away from and separated from each other, and the situation that the vertical plates 9 deviate or are misplaced in the separation process is avoided.

The top and the bottom of the movable frame 1 are respectively provided with a top plate 14 and a bottom plate 15, the top plate 14 and the bottom plate 15 are connected by utilizing two vertical rods 16, the two vertical rods 16 correspondingly penetrate through the two ends of the movable frame 1, an air cylinder 17 is installed at the top of the top plate 14, the output end of the air cylinder 17 is connected with the top surface of the movable frame 1 through the top plate 14, a damping strip 18 is installed at the bottom surface of a convex plate outside the top plate 14, and the bottom end of the damping strip 18 is positioned between the two vertical plates 9. Two relatively close risers 9 are correspondingly clamped on the surfaces of damping strips 18, when the cylinder 17 works to pull the movable frame 1 to move upwards, the movable frame 1 is enabled to move upwards on the surfaces of the two vertical rods 16 by utilizing the two vertical rods 16, and the situation that the two movable frames 1 deviate in the upward moving process is avoided.

In fig. 1 and 2, the frame plates 7 and the vertical plates 9 are combined to form an L-shaped structure, the bottom surfaces of the vertical plates 9 are correspondingly attached to the top surface of the movable frame 1, the two frame plates 7 are mutually close, and the two frame plates 7 are correspondingly clamped on the surface of the square round rod 2. Two square round bars 2 are correspondingly placed between the two frame plates 7, the movable frame 1 moves upwards on the surface of the vertical rod 16, the movable frame 1 drives the square round bars 2 at the top to move upwards by using the clamping structure at the inner side of the rotary frame 4, and the movable frame 1 drives the square round bars 2 at the bottom to move upwards by using the vertical plate 9 and the frame plates 7. When the movable frame 1 moves upwards, the movable frame 1 drives the square round bars 2 at the top to move upwards synchronously by using the clamping structure on the rotating frame 4, and when the movable frame 1 drives the frame plates 7 to move upwards by using the vertical plates 9, the two frame plates 7 drive the square round bars 2 at the bottom to move upwards by using the clamping fit of the inner blocks 13, and the two vertical plates 9 moving upwards slide and move upwards on the surfaces of the damping strips 18.

After the square round rod 2 at the top is pulled down from the clamping structure on the rotating frame 4, two air cylinders 17 are started, the two air cylinders 17 work to push the two moving frames 1 to move downwards, the two vertical plates 9 are prevented from moving downwards due to the limitation of the damping strips 18 on the two vertical plates 9 until the two rotating frames 4 are correspondingly clamped at the two ends of the square round rod 2 at the bottom by the clamping structure again, the stepping motor 11 works to enable the screw rod 10 to reversely rotate, the two vertical plates 9 are mutually separated, at the moment, the two vertical plates 9 are not clamped on the damping strips 18, and the two vertical plates 9 move downwards synchronously under the cooperation of the limiting rods 12 until the two vertical plates 9 are correspondingly attached to the top surface of the moving frame 1.

The novel square round rod 2 is limited and placed between the two frame plates 7, the process is repeated, and the square round rod 2 can be used for continuously winding the fabric subjected to textile printing and dyeing through the winding bracket 3.

In fig. 1 and 3, the clamping structure includes two arc plates 19 that set up relatively, the interior concave surface of arc plate 19 sets up with square pole 2 circumference outside face, and arc plate 19 topside and base all chamfer setting, and two arc plates 19 utilize chamfer limit to correspond to cup joint in square pole 2 surface, swivel stand 4 top and bottom all are provided with the opening, and two notches that two arc plates 19 set up relatively form correspond respectively and cooperate two openings of swivel stand 4. When utilizing the clamping structure to correspond centre gripping square round bar 2, remove square round bar 2 tip through the opening of revolving rack 4 behind the revolving rack 4 inboard, the convex surface contacts square round bar 2 in the chamfer limit of two arc 19, square round bar 2 removes and makes two arc 19 separation, until square round bar 2 tip removes between two arc 19, the interior concave surface of two arc 19 corresponds the centre gripping at square round bar 2 surface this moment, when motor 5 work drove revolving rack 4 and rotates, revolving rack 4 utilizes two relative arc 19 to drive square round bar 2 rotation, make things convenient for the cloth after the rolling support 3 rolling textile printing and dyeing on square round bar 2 surface.

In fig. 1 and 3, a protruding rod 20 penetrating through the rotating frame 4 is arranged at the center of the outer convex surface of the arc-shaped plate 19, the outer side end of the protruding rod 20 is connected with the side surface of the rotating frame 4 through a spring 21, the two arc-shaped plates 19 are separated from each other, the arc-shaped plate 19 pulls the spring 21 through the protruding rod 20, a protruding block 22 is arranged on the bottom surface of the rotating frame 4, and the gravity center of the rotating frame 4 is located at the bottom of the central point of the rotating frame 4 through the protruding block 22. When the movable frame 1 drives the rotating frame 4 to move downwards, the bottom openings of the two rotating frames 4 are vertically downward due to the limitation of the convex blocks 22 to the rotating frame 4, the damping strips 18 limit the two vertical plates 9, the vertical plates 9 are prevented from moving downwards, the two frame plates 7 limit the square round rod 2 at the bottom by the inner blocks 13, the rotating frame 4 impacts the end part of the square round rod 2 at the bottom by the opening at the bottom, the impact force enables the vertical plates 9 to move downwards on the surface of the damping strips 18, the impact force of the rotating frame 4 and the square round rod 2 is slowed down, the movable frame 1 continues to drive the rotating frame 4 to move downwards, at the moment, the notches at the bottoms of the two arc plates 19 are separated from each other in the process of extruding the square round rod 2, the arc plates 19 utilize the convex rods 20 to pull the springs 21 until the square round rod 2 is correspondingly buckled between the two arc plates 19, the clamping structures of the springs 21 are utilized to facilitate the clamping structures of the square round rod 2 at the bottom, the quick change of the square round rod 2 after the square round rod 2 is continuously rolled and dyed cloth is ensured, and the springs 21 and the diameter of the square rod 2 can be matched with the square rod 2 at different diameters.

In fig. 3 and fig. 4, the top surfaces of two ends of the bottom plate 15 are both fixed with L-shaped frames 23, the vertical rods 16 correspondingly penetrate through the bending parts of the L-shaped frames 23, two ends of the movable frame 1 are both provided with inner notches, the bending parts of the L-shaped frames 23 are positioned inside the inner notches of two ends of the movable frame 1, and the bottoms of the inner sides of the inner notches are connected with the bottom surfaces of the bending parts of the L-shaped frames 23 by using elastic plates 24. When the movable frame 1 moves upwards, the notch in the movable frame 1 is matched with the bending part of the L-shaped frame 23 to press the elastic plate 24, so that the synchronism of the two ends of the movable frame 1 during the upward movement is ensured; when the movable frame 1 moves downwards, the elastic force of the elastic plate 24 is matched with the movable frame 1 to move downwards, and when the notch in the movable frame 1 is matched with the bending part of the L-shaped frame 23 to pull the elastic plate 24, the elastic force of the elastic plate 24 is utilized to avoid impact damage to the movable frame 1 and the bottom plate 15 caused by damage of the air cylinder 17.

In fig. 3 and fig. 4, the bottom of the bottom plate 15 is provided with a bottom frame 25, two cross bars 26 arranged in parallel are installed between the side edges of two ends of the bottom frame 25, the two cross bars 26 respectively penetrate through two ends of the two bottom plates 15, the inner side surface of the bottom plate 15 is provided with a clamping strip 27 corresponding to the cross bars 26, the surface of the clamping strip 27 is rotatably sleeved with a rotating sleeve 28, the rotating sleeve 28 is spirally sleeved on the surface of the cross bars 26, and the directions of internal threads of the two rotating sleeves 28 are opposite. When the length of square rod 2 changes, rotate a plurality of changers 28 simultaneously, change the cover 28 and rotate on card strip 27 surface, because the limit of chassis 25 side to horizontal pole 26, avoid horizontal pole 26 to remove, change the cover 28 when the surface rotation of horizontal pole 26, the spiral effect between pivoted change cover 28 and the horizontal pole 26 makes bottom plate 15 remove at the chassis 25 top, and two relative bottom plates 15 drive two removal frames 1 and are close to each other or keep away from this moment, conveniently change the distance between two removal frames 1 in real time according to the length of square rod 2.

The invention also provides a textile printing and dyeing continuous winding method, which is applied to the textile printing and dyeing continuous winding device, and referring to the accompanying drawings from 1 to 4 of the specification, the method comprises the following steps:

s1, starting a motor 5, wherein when the motor 5 works to drive a rotating frame 4 to rotate, as the two rotating frames 4 are limited and clamped at two ends of a square round rod 2 by using a clamping structure, the rotating frame 4 drives the other rotating frame 4 to synchronously rotate by using the square round rod 2, and the square round rod 2 winds cloth subjected to textile printing by using a rotating winding bracket 3;

s2, after winding is completed, the motor 5 stops working, the stepping motor 11 works to enable the screw rod 10 to rotate, the rotating screw rod 10 enables two opposite vertical plates 9 to be close to each other, two frame plates 7 are correspondingly clamped on the surface of the square round rod 2 by using the inner grooves 8, and the two opposite vertical plates 9 are correspondingly clamped on two sides of the damping strip 18;

s3, when the air cylinders 17 work to pull the movable frames 1 to move upwards on the surfaces of the two vertical rods 16, the two movable frames 1 drive the rolled square round rods 2 to move upwards by utilizing the clamping structure on the inner side of the rotary frame 4, and when the movable frames 1 drive the frame plates 7 to move upwards by utilizing the vertical plates 9, the opposite two frame plates 7 drive the square round rods 2 at the bottom to move upwards by utilizing the inner blocks 13, and the bottoms of the bent parts of the movable frames 1 and the L-shaped frames 23 correspondingly squeeze the elastic plates 24;

s4, the two opposite vertical plates 9 move upwards on the surface of the damping strip 18, the square round bar 2 at the top is taken down from between the two clamping structures, the elastic force of the spring 21 enables the two arc plates 19 to be close to each other, the two rotating frames 4 are stably arranged by the convex blocks 22, the cylinder 17 works to push the movable frame 1 to move downwards, the two movable frames 1 drive the rotating frames 4 to move downwards synchronously under the elastic force cooperation of the elastic plates 24, and the opening at the bottom of the rotating frame 4 and the notch at the bottom of the two arc plates 19 are correspondingly buckled at the end parts of the square round bar 2 at the bottom due to the limitation of the damping strip 18 on the two vertical plates 9, so that the clamping connection of the rotating frame 4 and the square round bar 2 is completed;

s5, the stepping motor 11 works to enable the screw rod 10 to rotate reversely, the two vertical plates 9 enable the two frame plates 7 to be far away from each other, at the moment, a new square round rod 2 is correspondingly placed between the two frame plates 7, and the square round rod 2 continuously winds the cloth subjected to textile printing and dyeing through the winding bracket 3.

The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting.

Claims (8)

1. The utility model provides a continuous coiling mechanism of textile printing and dyeing which characterized in that: including two relative movable frames (1) that set up, two movable frames (1) all utilize connection structure to correspond respectively and prescribe a limit to the both ends of square round bar (2), square round bar (2) surface annular fixed mounting has rolling support (3), connection structure includes revolving rack (4), revolving rack (4) outside end corresponds and runs through movable frame (1) center department, revolving rack (4) inboard end utilizes clamping structure to prescribe a limit to at square round bar (2) tip, revolving rack (4) outside end connection motor (5) output, and motor (5) fixed mounting is in movable frame (1) lateral surface, square round bar (2) both ends surface all is provided with revolving plate (6), and revolving plate (6) circumference outside is provided with two frame plates (7) relatively, and two frame plates (7) medial surface all is provided with inside groove (8) that correspond with revolving plate (6), riser (9) are all installed at two frame plates (7) tops, riser (9) center department is corresponding to prescribe a limit to motor (10), screw rod (10) and outside screw rod (11) are installed in step-by-out end (11) and step-by-step screw rod (11), and inner blocks (13) for limiting the rotating plate (6) are fixed on the inner side surfaces of the two opposite frame plates (7);

the top and the bottom of the movable frame (1) are respectively provided with a top plate (14) and a bottom plate (15), the top plate (14) and the bottom plate (15) are connected by utilizing two vertical rods (16), the two vertical rods (16) correspondingly penetrate through the two ends of the movable frame (1), an air cylinder (17) is mounted at the top of the top plate (14), the output end of the air cylinder (17) is connected with the top surface of the movable frame (1) through the top plate (14), a damping strip (18) is mounted on the bottom surface of a convex plate at the outer side of the top plate (14), and the bottom end of the damping strip (18) is positioned between the two vertical plates (9).

2. The continuous take-up device for textile printing as defined in claim 1, wherein:

the frame plates (7) and the vertical plates (9) are combined to form an L-shaped structure, the bottom surfaces of the vertical plates (9) are correspondingly attached to the top surfaces of the movable frames (1), the two frame plates (7) are mutually close, and the two frame plates (7) are correspondingly clamped on the surfaces of the square round rods (2).

3. The continuous take-up device for textile printing as defined in claim 2, wherein:

two square round bars (2) are correspondingly placed between the two frame plates (7), the movable frame (1) moves upwards on the surface of the vertical rod (16), the movable frame (1) drives the square round bars (2) at the top to move upwards by using the clamping structure at the inner side of the rotary frame (4), and the movable frame (1) drives the square round bars (2) at the bottom to move upwards by using the vertical plate (9) and the frame plates (7).

4. The continuous take-up device for textile printing as defined in claim 1, wherein:

the clamping structure comprises two oppositely arranged arc plates (19), the inner concave surfaces of the arc plates (19) are opposite to the circumference outer side surface of the square round bar (2), the top edges and the bottom edges of the arc plates (19) are chamfered, the two arc plates (19) are correspondingly sleeved on the surface of the square round bar (2) by utilizing the chamfer edges, openings are formed in the top and the bottom of the rotating frame (4), and two notches formed by the two arc plates (19) are correspondingly matched with the two openings of the rotating frame (4) respectively.

5. The continuous take-up device for textile printing as defined in claim 4, wherein:

convex surface center department of arc (19) is provided with protruding pole (20) that run through revolving rack (4), protruding pole (20) outside end utilizes spring (21) to be connected with revolving rack (4) side, and two arc (19) are separated each other, and arc (19) utilize protruding pole (20) to pull spring (21), lug (22) are installed to revolving rack (4) bottom surface, make the focus of revolving rack (4) be in the central point bottom of revolving rack (4) through lug (22).

6. The continuous take-up device for textile printing as defined in claim 1, wherein:

the top surfaces of two ends of the bottom plate (15) are respectively fixed with an L-shaped frame (23), the vertical rods (16) correspondingly penetrate through the bending parts of the L-shaped frames (23), the two ends of the movable frame (1) are respectively provided with an inner notch, the bending parts of the L-shaped frames (23) are positioned inside the inner notches at the two ends of the movable frame (1), and the bottoms of the inner sides of the inner notches are connected with the bottoms of the bending parts of the L-shaped frames (23) by using elastic plates (24).

7. The continuous take-up device for textile printing as defined in claim 1, wherein:

the bottom plate (15) bottom is provided with chassis (25), install two horizontal poles (26) of parallel arrangement between chassis (25) both ends side, two horizontal poles (26) run through two bottom plate (15) both ends respectively, bottom plate (15) medial surface is provided with card strip (27) that correspond with horizontal pole (26), and card strip (27) surface rotation has cup jointed and has changeed cover (28), changeing cover (28) spiral and cup jointing in horizontal pole (26) surface, the internal thread opposite direction of two relative changeing cover (28).

8. A continuous winding method for textile printing and dyeing is characterized in that: the method uses the textile printing and dyeing continuous winding device as claimed in any one of claims 1 to 7, and comprises the following steps:

s1, starting a motor (5), wherein when the motor (5) works to drive a rotating frame (4) to rotate, the two rotating frames (4) are limited and clamped at two ends of a square round rod (2) by using a clamping structure, the rotating frame (4) drives the other rotating frame (4) to synchronously rotate by using Fang Yuangan (2), and the square round rod (2) winds cloth subjected to textile printing by using a rotating winding bracket (3);

s2, after winding is completed, the motor (5) stops working, the stepping motor (11) works to enable the screw rod (10) to rotate, the rotating screw rod (10) enables two opposite vertical plates (9) to be close to each other, the two frame plates (7) are correspondingly clamped on the surface of the square round rod (2) by using the inner groove (8), and the two opposite vertical plates (9) are correspondingly clamped on two sides of the damping strip (18);

s3, when the air cylinder (17) works to pull the movable frame (1) to move upwards on the surfaces of the two vertical rods (16), the two movable frames (1) drive the rolled square round rods (2) to move upwards by using the clamping structure on the inner side of the rotary frame (4), and when the movable frame (1) drives the frame plates (7) to move upwards by using the vertical plates (9), the two opposite frame plates (7) drive the square round rods (2) at the bottom to move upwards by using the inner blocks (13), and the bottoms of the bent parts of the movable frame (1) and the L-shaped frame (23) correspondingly squeeze the elastic plates (24);

s4, the two opposite vertical plates (9) move upwards on the surface of the damping strip (18), the square round rod (2) at the top is taken down from between the two clamping structures, the elastic force of the spring (21) enables the two arc plates (19) to be close to each other, the two rotating frames (4) are stably arranged through the convex blocks (22), the air cylinders (17) work to push the moving frames (1) to move downwards, under the cooperation of the elastic force of the elastic plates (24), the two moving frames (1) drive the rotating frames (4) to move downwards synchronously, and due to the limitation of the damping strip (18) on the two vertical plates (9), the opening at the bottom of the rotating frames (4) and the notch at the bottom of the two arc plates (19) are correspondingly buckled at the end parts of the square round rod (2) at the bottom, so that the clamping connection of the rotating frames (4) and the square round rod (2) is completed;

s5, the stepping motor (11) works to enable the screw rod (10) to rotate reversely, the two vertical plates (9) enable the two frame plates (7) to be far away from each other, at the moment, a new square round rod (2) is correspondingly placed between the two frame plates (7), and the square round rod (2) continuously winds the cloth subjected to textile printing and dyeing through the winding bracket (3).