CN115094596B

CN115094596B - Energy-saving and efficient printing and dyeing equipment for knitted fabric

Info

Publication number: CN115094596B
Application number: CN202210935987.0A
Authority: CN
Inventors: 姚璐娅; 吴晓峰; 王玲娟
Original assignee: Zhejiang Fantaipingyang Knitting Printing And Dyeing Co ltd
Current assignee: Zhejiang Fantaipingyang Knitting Printing And Dyeing Co ltd
Priority date: 2022-08-05
Filing date: 2022-08-05
Publication date: 2023-11-14
Anticipated expiration: 2042-08-05
Also published as: CN115094596A

Abstract

The application relates to energy-saving and efficient printing and dyeing equipment for knitted fabric, which is characterized in that a handle is rotated according to the overall softness of the knitted fabric and a sleeve is driven to rotate, at the moment, the sleeve is pushed to slide relatively with the sleeve under the action of a thread groove, at the moment, the distance between a tensioning rod and the center position of a rotating rod is changed, a roller is extruded on the surface of the knitted fabric, the roller and the knitted fabric rotate, the knitted fabric is conveniently and rapidly conveyed, and meanwhile, the knitted fabric is in a straight state by utilizing the tensioning of a first tensioning assembly and a second tensioning assembly, the change of an inner hole is large, and the printing and dyeing are easy; the first connecting rod is driven to do circumferential rotation through rotation of the driving shaft, the pressing plate is driven to lift in the printing and dyeing box, and the racks are pressed against the knitted fabric by lifting of the pressing plate, so that the printing and dyeing part of the knitted fabric vibrates, and uniformity of the whole knitted fabric is easy to ensure.

Description

Energy-saving and efficient printing and dyeing equipment for knitted fabric

Technical Field

The application belongs to the technical field of knitted fabric printing and dyeing, and particularly relates to energy-saving and efficient printing and dyeing equipment for knitted fabrics.

Background

The printing and dyeing industry in China has faster development, the processing capacity is the first place in the world, and the printing and dyeing industry in China is the large country of textile printing and dyeing production. In recent years, the technical transformation of the printing and dyeing industry is listed in one of industries which are mainly supported by the textile industry in China, and corresponding policy support is also provided in the aspects of technical development and technological attack, so that the printing and dyeing industry in China is greatly improved in quality, variety, benefit and the like, and the overall competitiveness is improved.

Through retrieving, the patent of publication number CN216688677U discloses a high-efficient knitting surface fabric polychrome processing printing equipment, this high-efficient knitting surface fabric polychrome processing printing equipment, including the shell, the inside of shell is equipped with the steering roller, the outer wall transmission of steering roller is connected with the surface fabric body, the top sliding connection of surface fabric body has the squeeze roller, the top swing joint of squeeze roller has supporting spring. This high-efficient knitting surface fabric polychrome processing printing and dyeing equipment, the cam drives the connecting rod and rotates, and the cleaning cloth can reciprocate the clearance to the bottom of surface fabric body this moment, and the cam intermittent type nature promotes the riser, and the cleaning brush is left and right sides reciprocal to clean the bottom of surface fabric body this moment to reached the effect of being convenient for high-efficient clear away surface fabric surface dust, avoid the dust to influence the printing quality. The vertical plate drives the sliding rod to reciprocate left and right, so that the fixing plate further pushes the ink in the ink box to reciprocate left and right, and the effects of avoiding ink precipitation, improving fabric coloring and increasing fabric printing and dyeing quality are achieved; however, when the existing energy-saving and efficient dyeing equipment fabric of the knitted fabric is dyed, the knitted fabric is partially folded under a soft state due to elasticity, holes of the knitted fabric are reduced, the dyeing effect is not obvious in the dyeing process, the dyeing quality is difficult to ensure, a large amount of dye remains on the fabric after dyeing, and quick cleaning is difficult, so that the efficient dyeing equipment for multicolor processing of the knitted fabric is provided for solving the problems.

Disclosure of Invention

The application aims to solve the problems and provide energy-saving and high-efficiency printing and dyeing equipment for knitted fabrics.

The application realizes the above purpose through the following technical scheme:

the utility model provides an energy-conserving high-efficient printing and dyeing equipment of knitting surface fabric, includes the printing and dyeing case, be equipped with feed inlet and discharge gate on the printing and dyeing case, the inside of printing and dyeing case is equipped with first tensioning assembly, second tensioning assembly, first printing and dyeing axle, second printing and dyeing axle, third printing and dyeing axle and fourth printing and dyeing axle in proper order along the transmission direction of knitting surface fabric, the inside of printing and dyeing case is equipped with the liquid line, be equipped with the overflow hole on the liquid line, during the use, the user passes knitting surface fabric at first the feed inlet to along the upper surface of first tensioning assembly, the side of second tensioning assembly, the lower surface of first printing and dyeing axle and second printing and dyeing axle and fourth printing and dyeing axle's upper surface, finally follow the discharge gate and settle knitting surface fabric's one end on the coiling mechanism;

the novel tension device comprises a first tension assembly and a second tension assembly, wherein the first tension assembly and the second tension assembly are identical in structure, the first tension assembly and the second tension assembly respectively comprise a driving motor, the output end of the driving motor is connected with a rotating rod, the outer side of the rotating rod is rotationally provided with a sleeve, the outer side of the sleeve is provided with a threaded groove, the shaft end of the sleeve is provided with a handle, the outer side of the rotating rod is fixedly provided with a fixed cylinder, the outer side of the sleeve is connected with a movable pushing sleeve, the pushing sleeve and the fixed cylinder are respectively provided with a first outer push rod and a second outer push rod, the middle parts of the first outer push rod and the second outer push rod are hinged, the free ends of the first outer push rod and the second outer push rod are rotationally connected with a tension rod, and the inner rotation of the tension rod is provided with a rolling shaft.

Before the use, according to the whole compliance of knitting surface fabric, rotate the handle, and drive the sleeve rotation, make at this moment and promote the sleeve under the effect of screw groove, promote taking place relative slip between sleeve and the sleeve, at this moment, the angle between first outer push rod and the second outer push rod changes, the distance of tensioning pole and bull stick central point put changes this moment, thereby be convenient for adjust the extrusion degree of roller bearing and knitting surface fabric, in addition, the roller bearing extrudees the surface at knitting surface fabric, and start driving motor's external power supply, make take place to rotate between roller bearing and the knitting surface fabric, be convenient for lead fast and send knitting surface fabric, and similarly, utilize the tensioning of first tensioning module and second tensioning module, make knitting surface fabric be in the state of stretching straightly, inside hole change is big, easily printing and dyeing.

As a further optimization scheme of the application, the second tensioning assembly further comprises a limiting baffle plate provided with an inner end of a tensioning rod, wherein flexible fibers are arranged on the inner surface of the limiting baffle plate, and the flexible fibers are made of silica gel; the setting of limit baffle conveniently prescribes a limit to the position of knitting surface fabric, avoids knitting surface fabric to take place the skew in the transmission in-process, in addition, is equipped with flexible fiber on the limit baffle, is convenient for clear up the dust of knitting surface fabric's edge, and the clearance is effectual, and easily realizes.

As a further optimization scheme of the application, the pushing sleeve is in threaded connection with the sleeve, the central axis of the sleeve is mutually overlapped with the central axis of the handle, and the handle is manually rotated to realize the rotation of the sleeve, so that the driving is convenient.

As a further optimization scheme of the application, the rotation angle range between the first outer push rod and the second outer push rod is 0-45 degrees, the first outer push rod and the second outer push rod form an X-shaped structure, a plurality of groups are arranged around the central axis of the rotating rod, and the uniform attachment of the knitted fabric is realized through the first outer push rod and the second outer push rod which are provided with the plurality of groups.

As a further optimization scheme of the application, the rolling shafts are rotatably arranged in the tensioning rods, the rolling shafts and the tensioning rods are in one-to-one correspondence, the rolling shafts and the knitted fabric roll mutually, friction between the tensioning rods and the knitted fabric is avoided, and therefore surface friction damage of the knitted fabric is avoided.

As a further optimization scheme of the application, a pressing component for pressing down the knitted fabric is arranged between the first printing and dyeing shaft and the second printing and dyeing shaft, the pressing component comprises a rotatable driving shaft, a first connecting rod is arranged at the shaft end of the driving shaft, the free end of the first connecting rod is connected with a Y-shaped rod, the other two free ends of the Y-shaped rod are respectively provided with a second connecting rod and a pressing plate, the free end of the second connecting rod is connected to a printing and dyeing box, and a plurality of groups of racks are arranged at the bottom of the pressing plate; through the rotation of drive shaft, drive the head rod and do the circumference and rotate, utilize the rotation of head rod, realize the linkage of second connecting rod and press the board to drive the inside lift of press board at the printing and dyeing case, utilize the lift of press board, make rack press knitting material, make the printing and dyeing part of knitting material produce vibrations, easily guarantee the homogeneity of whole knitting material.

As a further optimization scheme of the application, the Y-shaped rod is hinged with the first connecting rod and the second connecting rod in a connecting mode; the linkage between the Y-shaped rod and the first connecting rod and the second connecting rod is easy to be ensured.

As a further optimization scheme of the application, the bottom of the rack is provided with an inclined plane, the rack and the pressing plate are vertically arranged, and the pressing plate generates longitudinal displacement in the printing and dyeing box; the lifting of the pressing plate is utilized to enable the racks to press the knitted fabric, so that the printing and dyeing part of the knitted fabric vibrates, and the uniformity of the whole knitted fabric is easy to ensure.

As a further optimization scheme of the application, the bottom horizontal lines of the first printing shaft and the second printing shaft are positioned at the lower side of the liquid line; can effectively ensure the uniformity of printing and dyeing, avoid the ink from crossing the liquid surface line and cause the pollution to the instruments on the liquid surface line, and is convenient to be managed.

As a further optimization scheme of the application, a linkage assembly is arranged between the second tensioning assembly and the pressing assembly, the linkage assembly comprises a first gear arranged at the shaft end of the rotating rod and a second gear arranged at the shaft end of the driving shaft, and a third gear is connected between the first gear and the second gear; the first gear, the second gear and the third gear are good in linkage, and the rotating rod is conveniently and simultaneously driven. And the rotation of the driving shaft, so that energy conservation and emission reduction are realized, and the power consumption is reduced.

The application has the beneficial effects that: according to the overall softness of the knitted fabric, the handle is rotated, the sleeve is driven to rotate, at the moment, the sleeve is pushed to slide relatively with the sleeve under the action of the threaded groove, at the moment, the angle between the first outer push rod and the second outer push rod is changed, at the moment, the distance between the tensioning rod and the center position of the rotating rod is changed, so that the extrusion degree of the roller and the knitted fabric is convenient to adjust, in addition, the roller is extruded on the surface of the knitted fabric, an external power supply of a driving motor is started, the roller and the knitted fabric are enabled to rotate, the knitted fabric is convenient to be quickly guided, and the knitted fabric is in a straight state due to the fact that the first tensioning assembly and the second tensioning assembly are used for tensioning, the internal holes are large in change, and printing and dyeing are easy;

furthermore, the setting of the limit baffle plate is convenient for limiting the position of the knitted fabric, avoiding the deviation of the knitted fabric in the transmission process, and in addition, the limit baffle plate is provided with flexible fibers, so that dust at the edge of the knitted fabric can be conveniently cleaned, the cleaning effect is good, and the method is easy to realize;

through the rotation of drive shaft, drive the head rod and do the circumference and rotate, utilize the rotation of head rod, realize the linkage of second connecting rod and press the board to drive the inside lift of press board at the printing and dyeing case, utilize the lift of press board, make rack press knitting material, make the printing and dyeing part of knitting material produce vibrations, easily guarantee the homogeneity of whole knitting material.

Drawings

FIG. 1 is a schematic view of the axial side structure of the present application in front view;

FIG. 2 is a schematic view of a primary visual axis side structure of the second tensioning assembly of the present application;

FIG. 3 is a schematic top view of a second tensioning assembly of the present application;

fig. 4 is a schematic view of the main view axis side structure of the pressing assembly of the present application.

In the figure: 1. a printing box; 2. a feed inlet; 3. a discharge port; 4. a first tensioning assembly; 5. a second tensioning assembly; 501. a driving motor; 502. a rotating rod; 503. a sleeve; 504. a thread groove; 505. a handle; 506. a fixed cylinder; 507. pushing the sleeve; 508. a first outer pushrod; 509. a second outer pushrod; 5010. a tension rod; 5011. a roller; 5012. a limit baffle; 5013. a flexible fiber; 6. a first printing shaft; 7. a second printing shaft; 8. a third printing shaft; 9. a fourth printing shaft; 10. a liquid surface line; 11. an overflow hole; 12. a pressing assembly; 1201. a drive shaft; 1202. a first connecting rod; 1203. a Y-shaped rod; 1204. a second connecting rod; 1205. pressing the plate; 1206. a rack; 13. a linkage assembly; 1301. a first gear; 1302. a third gear; 1303. and a second gear.

Detailed Description

The present application will be described in further detail with reference to the accompanying drawings, wherein it is to be understood that the following detailed description is for the purpose of further illustrating the application only and is not to be construed as limiting the scope of the application, as various insubstantial modifications and adaptations of the application to those skilled in the art can be made in light of the foregoing disclosure.

As shown in fig. 1, an energy-saving and efficient printing and dyeing device for knitted fabric comprises a printing and dyeing box 1, wherein a feeding port 2 and a discharging port 3 are arranged on the printing and dyeing box 1, a first tensioning assembly 4, a second tensioning assembly 5, a first printing and dyeing shaft 6, a second printing and dyeing shaft 7, a third printing and dyeing shaft 8 and a fourth printing and dyeing shaft 9 are sequentially arranged in the printing and dyeing box 1 along the transmission direction of the knitted fabric, a liquid surface line 10 is arranged in the printing and dyeing box 1, and an overflow hole 11 is arranged on the liquid surface line 10;

as shown in fig. 2, the first tensioning assembly 4 and the second tensioning assembly 5 have the same structure, the first tensioning assembly 4 and the second tensioning assembly 5 both comprise a driving motor 501, the output end of the driving motor 501 is connected with a rotating rod 502, the outer side of the rotating rod 502 is rotationally provided with a sleeve 503, the outer side of the sleeve 503 is provided with a threaded groove 504, the shaft end of the sleeve 503 is provided with a handle 505, the outer side of the rotating rod 502 is fixedly provided with a fixed cylinder 506, the outer side of the sleeve 503 is connected with a movable pushing sleeve 507, the pushing sleeve 507 and the fixed cylinder 506 are respectively provided with a first outer push rod 508 and a second outer push rod 509, the middle parts of the first outer push rod 508 and the second outer push rod 509 are hinged, the free ends of the first outer push rod 508 and the second outer push rod 509 are rotationally connected with a tensioning rod 5010, and the inner rotation of the tensioning rod 5010 is provided with a roller 5011.

Before use, according to the whole softness of the knitted fabric, the handle 505 is rotated, and the sleeve 503 is driven to rotate, at this time, the sleeve 507 is pushed to slide relatively with the sleeve 503 under the action of the thread groove 504, at this time, the angle between the first outer push rod 508 and the second outer push rod 509 is changed, at this time, the distance between the tensioning rod 5010 and the center position of the rotating rod 502 is changed, thereby being convenient for adjust the extrusion degree of the roller 5011 and the knitted fabric, in addition, the roller 5011 is extruded on the surface of the knitted fabric, and the external power supply of the driving motor 501 is started, so that the roller 5011 and the knitted fabric rotate, thereby being convenient for quickly guiding the knitted fabric.

As shown in fig. 3, the second tensioning assembly 5 further comprises a limit baffle 5012 provided with an inner end of a tensioning rod 5010, wherein the inner surface of the limit baffle 5012 is provided with flexible fibers 5013, and the flexible fibers 5013 are made of silica gel; the setting of limit baffle 5012 conveniently prescribes a limit to the position of knitted fabric, avoids knitted fabric to take place the skew in the transmission in-process, in addition, is equipped with flexible fiber 5013 on the limit baffle 5012, is convenient for clear up the dust of knitted fabric's edge, and the clearance is effectual, and easily realizes.

The sleeve 507 and the sleeve 503 are pushed to be in threaded connection, the central axis of the sleeve 503 is coincident with the central axis of the handle 505, and the handle 505 is manually rotated to realize the rotation of the sleeve 503, so that the driving is convenient.

The rotation angle range between the first outer push rod 508 and the second outer push rod 509 is 0-45 degrees, the first outer push rod 508 and the second outer push rod 509 form an X-shaped structure, a plurality of groups are arranged around the central axis of the rotary rod 502 integrally formed by the first outer push rod 508 and the second outer push rod 509, the uniform attachment of the knitted fabric is realized through the first outer push rod 508 and the second outer push rod 509 which are arranged in the plurality of groups, and in addition, the integral transmission of the knitted fabric is realized under the stable support of the first outer push rod 508 and the second outer push rod 509.

The roller 5011 rotates in the tensioning rod 5010, the roller 5011 and the tensioning rod 5010 are in one-to-one correspondence, the roller 5011 and the knitted fabric roll mutually, friction between the tensioning rod 5010 and the knitted fabric is avoided, and therefore surface friction of the knitted fabric is prevented from being damaged.

As shown in fig. 4, a pressing component 12 for pressing down the knitted fabric is arranged between the first printing shaft 6 and the second printing shaft 7, the pressing component 12 comprises a rotatable driving shaft 1201, a first connecting rod 1202 is arranged at the shaft end of the driving shaft 1201, a Y-shaped rod 1203 is connected to the free end of the first connecting rod 1202, a second connecting rod 1204 and a pressing plate 1205 are respectively arranged at the other two free ends of the Y-shaped rod 1203, the free end of the second connecting rod 1204 is connected to the printing box 1, and a plurality of groups of racks 1206 are arranged at the bottom of the pressing plate 1205; through the rotation of drive shaft 1201, drive head rod 1202 and do the circumference and rotate, utilize the rotation of head rod 1202, realize the linkage of second connecting rod 1204 and pressing plate 1205 to drive the inside of pressing plate 1205 at printing and dyeing case 1 and go up and down, utilize the lift of pressing plate 1205, make rack 1206 press the knitting material, make the printing and dyeing part of knitting material produce vibrations, easily guarantee the homogeneity of whole knitting material.

The Y-shaped rod 1203 is hinged with the first connecting rod 1202 and the second connecting rod 1204; the linkage between the Y-shaped rod 1203 and the first connecting rod 1202 and the second connecting rod 1204 is easily ensured.

The bottom of the rack 1206 is provided with an inclined plane, the rack 1206 and the pressing plate 1205 are vertically arranged, and the pressing plate 1205 generates longitudinal displacement in the printing and dyeing box 1; the rack 1206 presses the knitted fabric by lifting the pressing plate 1205, so that the printing and dyeing part of the knitted fabric vibrates, and the uniformity of the whole knitted fabric is easy to ensure.

The bottom horizontal lines of the first printing shaft 6 and the second printing shaft 7 are positioned at the lower side of the liquid line 10; can effectively ensure the uniformity of printing and dyeing, avoid the ink from crossing the liquid surface line 10 and cause the pollution to the instruments on the liquid surface line 10, and is convenient to be managed.

A linkage assembly 13 is arranged between the second tensioning assembly 5 and the pressing assembly 12, the linkage assembly 13 comprises a first gear 1301 arranged at the shaft end of the rotating rod 502 and a second gear 1303 arranged at the shaft end of the driving shaft 1201, and a third gear 1302 is connected between the first gear 1301 and the second gear 1303; the first gear 1301, the second gear 1303 and the third gear 1302 have good linkage, and the rotating rod 502 is conveniently and simultaneously driven. And the rotation of the driving shaft 1201, energy saving and emission reduction, and power consumption reduction.

The foregoing examples illustrate only a few embodiments of the application and are described in detail herein without thereby limiting the scope of the application. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the application, which are all within the scope of the application.

Claims

1. The utility model provides a knitting surface fabric energy-conserving high-efficient printing and dyeing equipment which characterized in that: including printing and dyeing case (1), be equipped with feed inlet (2) and discharge gate (3) on printing and dyeing case (1), the inside of printing and dyeing case (1) is equipped with first tensioning assembly (4), second tensioning assembly (5), first printing and dyeing axle (6), second printing and dyeing axle (7), third printing and dyeing axle (8) and fourth printing and dyeing axle (9) in proper order along the direction of transmission of knitting surface fabric, the inside of printing and dyeing case (1) is equipped with liquid line (10), be equipped with overflow hole (11) on liquid line (10), first tensioning assembly (4) and second tensioning assembly (5) structure are the same, first tensioning assembly (4) and second tensioning assembly (5) all include driving motor (501), the output of driving motor (501) is connected with bull stick (502), the outside rotation of bull stick (502) is equipped with sleeve (503), the outside of sleeve (503) is equipped with screw thread groove (504), the axle head of sleeve (503) is equipped with handle (505), the outside fixed mounting of bull stick (502) has fixed sleeve (506), can be connected with outside (507) and outside (507) are equipped with outside (507) respectively on the fixed sleeve (507) and the outside (507), the middle parts of the first outer push rod (508) and the second outer push rod (509) are hinged, the free ends of the first outer push rod (508) and the second outer push rod (509) are respectively connected with a tensioning rod (5010) in a rotating mode, a roller (5011) is arranged in the tensioning rods (5010) in a rotating mode, the pushing sleeve (507) is in threaded connection with the sleeve (503), the central axis of the sleeve (503) is coincident with the central axis of the handle (505), the rotating angle range between the first outer push rod (508) and the second outer push rod (509) is 0-45 degrees, the first outer push rod (508) and the second outer push rod (509) form an X-shaped structure, a plurality of groups are arranged around the central axis of the rotary rod (502) in the whole body, a pressing assembly (12) for pressing knitted fabric is arranged between the first printing and dyeing shaft (6) and the second printing shaft (7), the pressing assembly (12) comprises a rotatable driving shaft (1201), the driving shaft (1202) is provided with a free end (1203) of the first connecting rod (1201) and the second connecting rod (1203) respectively, the free end (1203) of the first connecting rod (1202) is connected with the free end (1204), the free end of second connecting rod (1204) is connected on printing and dyeing case (1), the bottom of pressing plate (1205) is equipped with a plurality of groups of racks (1206), Y type pole (1203) are articulated with the connected mode of head rod (1202) and second connecting rod (1204), the bottom of rack (1206) is equipped with the inclined plane, be perpendicular setting between rack (1206) and pressing plate (1205), pressing plate (1205) produces longitudinal displacement in the inside of printing and dyeing case (1), be equipped with interlock subassembly (13) between second tensioning subassembly (5) and pressing subassembly (12), interlock subassembly (13) are including first gear (1301) and second gear (1303) of locating drive shaft (1201) axle head that locate bull stick (502), be connected with third gear (1302) between first gear (1301) and second gear (1303).

2. The energy-saving and efficient printing and dyeing equipment for knitted fabrics according to claim 1 is characterized in that: the second tensioning assembly (5) further comprises a limiting baffle (5012) provided with an inner end of a tensioning rod (5010), flexible fibers (5013) are arranged on the inner surface of the limiting baffle (5012), and the flexible fibers (5013) are made of silica gel.

3. The energy-saving and efficient printing and dyeing equipment for knitted fabrics according to claim 1 is characterized in that: the roller (5011) is rotatably arranged in the tensioning rod (5010), and the roller (5011) and the tensioning rod (5010) are arranged in a one-to-one correspondence.

4. The energy-saving and efficient printing and dyeing equipment for knitted fabrics according to claim 1 is characterized in that: the bottom horizontal lines of the first printing shaft (6) and the second printing shaft (7) are positioned at the lower side of the liquid line (10).