CN1807743A - Warp dyeing and multi-shaft winding process, warp dyeing and multi-shaft winding machine - Google Patents

Abstract

This invention belongs to the yarn dye technique filed, the main technique as follows: unreeling a plurality of t yarns which reel around the warping shaft in parallel, then laminating the unreeled yarns to the flake yarns, and then dyeing them into the indigo colour or disparting them into many flake yarns with lesser head share after dyeing by coating, then reeling the flake yarns around another pluralities of warp beams which is for the warp thread cartridge-made machine to produce the cheese. The character of this invention is that it combines the warp thread dyeing with the multiracial convolution, so the technique flow process is short.

Description

Warp dyeing multi-shaft winding process and warp dyeing multi-shaft winding combination machine

Technical field

The invention belongs to yarn dyeing coiling field, especially relate to a kind of warp dyeing multi-shaft winding process and warp dyeing multi-shaft winding combination machine.

Background technology

People are in order to develop knitted jean and pigment dyeing dress ornament, the cheese that just must have the indigo and pigment dyeing of satisfying the knitting and weaving technological requirement, because the physicochemical property of indigo dyeing is more special, it forms by repeatedly dying to roll with redox, and the pigment dyeing dye liquor is a kind of water-soluble intermixture, poor permeability, adhesive force is low, be difficult to quality, the yarn that this two big class is dyed all has Bai Xin, dyes not saturating.But a kind of the recovering one's original simplicity that has people to need after the dress ornament of the making washing done old effect of missing old times or old friends.Because the characteristic of indigo and pigment dyeing is different with ordinary stain, the general method that adopts warp dyeing, the cheese that obtains this type just must solve the problem of warp dyeing earlier, and satisfies the problem through axle that is wound with indigo and pigment dyeing yarn that the warp thread tube-making machine is produced the cheese technological requirement.

The present technology of warp dyeing has the sheet sizing-dyeing combination machine, the ring-type sizing-dyeing combination machine, these two kinds of methods all are the warps parallel on the warp beam to be built up the yarn-dyed slurry of thicker sheet back be wound on respectively on the beam of a loom by certain length section, use for the tatting manufacturing, this beam of a loom head part is up to several thousand, only several kms of single thread length, also having a kind of is ball warp pencil dyeing machine, and the warp thread of dying is pencil or is rope form, also will divide the pencil warp thread slabbing to be wound up on the lease making axle through leasing machine again, though it can be used for the warp thread tube-making machine, but operation is many, and wearing and tearing are big, yield poorly, take up an area of greatly, recruitment is many.Generally speaking, more than the method for two kinds of warp dyeings beam of a loom and the lease making axle that obtain all short because of single thread length, head part is too many, roll compacting is inhomogeneous, and dye aberration is big, and bath raio is big, operation is many, defectives such as surface abrasion is big can't satisfy the requirement that the warp thread tube-making machine is produced cheese and knitting yarn technology fully, have restricted the development of knitted jean and coating dress ornament.

Summary of the invention

In order to overcome the deficiencies in the prior art, the invention provides a kind of technology and warp dyeing multi-shaft winding combination machine of warp dyeing multi-shaft winding, the warp thread that solves on a plurality of warp beams is wound up into a plurality of another groups existing problem on axle simultaneously by directly being divided into many parts of sheet yarns after the indigo or pigment dyeing, for the warp thread tube-making machine produce indigo or pigment dyeing cheese provide meet the knitting and weaving technological requirement through axle.

The technical scheme that the present invention solves the employing of its technical problem is: a kind of warp dyeing multi-shaft winding process has following processing step: draw parallelization at least (1) in the white yarn unwinding more than 2 warp beams on the bracing strut, builds up than the sheet yarn after the commutation of multiple tracks cord roller; (2) the sheet yarn is imported the pre-treatment of dyeing of kiering water washing device; (3) when indigo dyeing: a. directly enters dyeing apparatus through the sheet yarn of dyeing pre-treatment and dyes and roll; B. will in dyeing apparatus, dye sheet yarn after rolling through cyclic oxidation frame cyclic oxidation; C. the sheet yarn behind the cyclic oxidation enters dyeing apparatus once more and dyes bundle; D. dye after rolling the sheet yarn once more through cyclic oxidation frame cyclic oxidation, dye and roll, the circulation repeat at least 4 times; E. the sheet yarn after will circulating for the last time enters the washing color-fixing device and washes fixation treatment, and the sheet yarn after the washing fixation treatment enters first drying room dries; When pigment dyeing: a. imports earlier through the sheet yarn of dyeing pre-treatment and enters dyeing apparatus after second drying room is dried again and circulate to dye and roll; B. the sheet yarn that dyes after rolling that circulates enters the oven dry of first drying room; (4) the sheet yarn after the oven dry enters storage yarn mechanism, enters Yarn-feeding mechanism again after storage yarn mechanism is coordinated; (5) the sheet yarn is sent by Yarn-feeding mechanism, and the cord roller on yarn guide steadily leads the sheet yarn and is sent to first winder unit; (6) the dividing sinker mechanism of first winder unit separates the sheet yarn of setting head part down, and the yarn-feeding device that commutation is given, yarn-feeding device are fed the sheet yarn and reeled through the axle winding mechanism; (7) remaining yarn was sent to second winder unit reposefully after the dividing sinker mechanism of first winder unit will separate, the dividing sinker mechanism of second winder unit separates the sheet yarn of setting head part down once more, yarn-feeding device is given in commutation, and yarn-feeding device is fed the sheet yarn and reeled through the axle winding mechanism; The dividing sinker mechanism of (8) second winder units will separate the remaining yarn in back once more and be sent to next winder unit reposefully, all will be wound up into successively on the axle winding mechanism by winder unit up to the sheet yarn; (9) measuring motion is measured linear resonance surface velocity and the feedback to the computer control centre once axle winding mechanism coiling sheet yarn, computer control centre adjusts winding rotary speed according to the measuring motion feedback information, simultaneously, the dyeing kinetics of computer control centre control dyeing transmission system, the yarn feed speed that send yarn speed and yarn-feeding device of Yarn-feeding mechanism, make the permanent harmoniously linear speed perseverance of sheet yarn tension force ground be wound up into respectively each winder unit on the axle winding mechanism.

A kind of warp dyeing multi-shaft winding combination machine has warp dyeing part, sheet yarn separating and multi-shaft winding part, computer control centre, the warps parallel unwinding on the warp beam of parallelization on the bracing strut of warp dyeing part is drawn and is built up the sheet yarn successively, the sheet yarn partly dyes at warp dyeing, the sheet yarn after the dyeing enter sheet yarn separating and multi-shaft winding part the sheet yarn be divided into dye before the sheet yarn of warping number of axle equal parts and head part independently be wound up into each successively on axle; Computer control centre makes dyeing kinetics, send the winding speed of yarn speed, each winder unit to keep synchronous coordination according to the Yarn-feeding mechanism of the dyeing transmission mechanism of the feedback information control warp dyeing part of the measuring motion of program of setting and sheet yarn separating and multi-shaft winding part and sheet yarn separating and multi-shaft winding part, yarn-feeding device with through the axle winding mechanism.

Further, described warp dyeing partly comprises through bracing strut, cyclic oxidation frame, boiling-off water washing device, dyeing apparatus, washing color-fixing device, first drying room, second drying room, storage yarn mechanism, dyeing transmission system, through parallelization on the bracing strut have more than 8 through axle, draw and build up thicker sheet yarn successively and import the boiling-off water washing device through the multiple tracks cord roller and carry out the warp dyeing pre-treatment being wound on warps parallel unwinding on axle; When carrying out indigo dyeing, sheet yarn through the dyeing pre-treatment directly enters dyeing apparatus dyeing, sheet yarn guiding circulation split rods after the dyeing, the sheet yarn is guided into the top of cyclic oxidation frame, and through being arranged on the last reversing roller on the cyclic oxidation frame, following reversing roller passes through through bracing strut, the below of kiering water washing device, go back to the dyeing apparatus top, converge the another dyeing apparatus that enters together in overlapping back with first sheet yarn, and together repeat last time circulation route with preceding batch sheet yarn, circulate 4～6 times, the continuous film yarn contacts the generation redox reaction with air and forms indigo in the multiple cycles process, through cyclic oxidation repeatedly, dye the sheet yarn that rolls and carry out further redox around second zoneofoxidation of yarn length with still separating to enter by having necessarily of forming of a plurality of cord rollers at the sheet yarn of circular flow at circulation split rods place, go into to wash color-fixing device and wash fixation treatment in that the second zoneofoxidation redox is laggard, the sheet yarn after the washing fixation treatment enters first drying room dries; When pigment dyeing, the sheet yarn of process dyeing pre-treatment imports earlier and enters dyeing apparatus dyeing again after second drying room is dried, and the sheet yarn after the dyeing directly enters first drying room and dries; Sheet yarn after the oven dry enters storage yarn mechanism, tension force and the dyeing kinetics of dyeing transmission mechanism control sheet yarn in the warp dyeing part.

Described boiling-off water washing device, dyeing apparatus, washing color-fixing device have at least one cell body, are provided with the submergence roller in each cell body inside, are provided with padding machine on the top of cell body.

Further; Described padding machine has roll, pressure roller, cylinder, connecting rod, padding machine frame, one end of one end, roll and the connecting rod of cylinder is installed on the padding machine frame, the other end of the cylinder other end and connecting rod flexibly connects, pressure roller is installed on the connecting rod, pressure roller is pressed on the roll by cylinder and connecting rod, roll is by the transmission of dyeing transmission mechanism, roll compacting driver blade yarn.

Described storage yarn feeding device has two groups of cord rollers by horizontal positioned and forms; one group is fixed on the top; one group can parallelly up and down be moved; the sheet yarn is from the first fixing cord roller; around to first cord roller movably; again around to second fixing cord roller; again around to second mobile cord roller; after walking around all cord rollers in the storage yarn mechanism successively; the sheet yarn is guided into warp-feeding mechanism; when normal operation; the cord roller group that moves is pulled in the top by the tension force of sheet yarn, and when the temporary parking of multi-shaft winding mechanism, warp-feeding mechanism is clamped the sheet yarn and stopped to send yarn; the sheet yarn of being sent continually by first drying room is stored up the storage of yarn mechanism around between two groups of cord rollers; the mobile cord roller group that lived by the suspention of sheet yarn tension this moment begins to move down under the gravity effect, thereby reaches the purpose of storage yarn, when mobile cord roller group moves down into extreme position; sheet yarn multi-shaft winding mechanism must begin to reel, otherwise full machine must be shut down.

In addition, described yarn separating and multi-shaft winding partly has Yarn-feeding mechanism, yarn guide, be arranged on the cord roller on the yarn guide, the winder unit of a plurality of parallel connections, the yarn feeding motor, the yarn feeding power transmission shaft, the coiling motor, the coiling power transmission shaft, measuring motion, winder unit has dividing sinker mechanism, yarn-feeding device, through the axle winding mechanism, the yarn feeding motor drives the yarn-feeding device of each winder unit by the yarn feeding power transmission shaft, the coiling motor by the coiling power transmission shaft drive each winder unit through the axle winding mechanism, computer control centre respectively with Yarn-feeding mechanism, the yarn feeding motor, the coiling motor links to each other with measuring motion; The sheet yarn is sent by Yarn-feeding mechanism, through cord roller the steady guiding of sheet yarn is sent to first winder unit, the dividing sinker mechanism of first winder unit separates the sheet yarn of setting head part down, and the yarn-feeding device that commutation is given, yarn-feeding device are fed the sheet yarn and reeled through the axle winding mechanism; The dividing sinker mechanism of first winder unit will separate the remaining yarn in back and be sent to second winder unit reposefully, the dividing sinker mechanism of second winder unit separates the sheet yarn of setting head part down once more, yarn-feeding device is given in commutation, and yarn-feeding device is fed the sheet yarn and reeled through the axle winding mechanism; The dividing sinker mechanism of second winder unit will separate the remaining yarn in back once more and be sent to next winder unit reposefully, all will be wound up into successively on the axle winding mechanism by winder unit up to the sheet yarn; Measuring motion is measured the linear resonance surface velocity and the feedback to the computer control centre through axle winding mechanism coiling sheet yarn of a winder unit.

Further: described Yarn-feeding mechanism has the yarn of sending motor, the synchronous band chain wheel of Yarn-feeding mechanism, the Yarn-feeding mechanism connecting rod, the Yarn-feeding mechanism cylinder, yarn-feeding roller and Yarn-feeding mechanism press roller, yarn-feeding roller is connected with sending the yarn motor by the synchronous band chain wheel of Yarn-feeding mechanism, the Yarn-feeding mechanism press roller is connected with the Yarn-feeding mechanism cylinder by the Yarn-feeding mechanism connecting rod, during the compression of Yarn-feeding mechanism cylinder, the Yarn-feeding mechanism cylinder is pressed on the Yarn-feeding mechanism press roller on the yarn-feeding roller by the Yarn-feeding mechanism connecting rod, send the yarn motor to rotate by the synchronous band chain wheel drive of Yarn-feeding mechanism yarn-feeding roller, Yarn-feeding mechanism press roller and yarn-feeding roller are sent the clamping of sheet yarn to rolling.

Described dividing sinker mechanism has split rods and reversing roller, the sheet yarn that split rods will be sent into by the split rods of the dividing sinker mechanism of a cord roller or a last winder unit is according to the head of setting part separating sheet yarn, reversing roller is sent in sheet yarn commutation under separating, reversing roller is sent to yarn-feeding device to the commutation of sheet yarn, and split rods also will separate the split rods that the remaining yarn in back is sent to the dividing sinker mechanism of next winder unit simultaneously.

Described yarn-feeding device is by last cured oiling device, flexible spacing reed, spider watcher, the yarn feeding roller, the synchronous band chain wheel of yarn-feeding device, the yarn-feeding device connecting rod, the yarn-feeding device cylinder, the yarn-feeding device press roller, the yarn-feeding device reversing machine is formed, go up cured oiling device and have the cured roller of going up, the yarn-feeding device press roller is connected with the yarn-feeding device cylinder by the yarn-feeding device connecting rod, during the compression of yarn-feeding device cylinder, the yarn-feeding device press roller is pressed on the yarn feeding roller, the yarn-feeding device reversing machine is fixedlyed connected with the yarn feeding power transmission shaft, the yarn feeding roller links to each other with the yarn-feeding device reversing machine by the synchronous band chain wheel of yarn-feeding device, the sheet yarn of being sent into by dividing sinker mechanism is during through the last cured roller of the cured device that oils surperficial, the sheet yarn is stained with oil or cured, be stained with oil or cured sheet yarn, press the size tentering of reeling through flexible spacing reed through the axle fabric width, arrange and to deliver to the yarn feeding roller through spider watcher equably, yarn-feeding device press roller and yarn feeding roller are fed to through the axle winding mechanism rolling the sheet yarn clamped.

Described through the axle winding mechanism have the synchronous band chain wheel of winding mechanism reversing machine, winding mechanism, through axle, the winding mechanism reversing machine is fixedlyed connected with the coiling power transmission shaft, takes turns by the synchronous band chain of winding mechanism through axle to link to each other with the winding mechanism reversing machine; Reel by the sheet yarn of yarn-feeding device feeding through axle.

Described measuring motion has measuring roller, support, measuring motion cylinder and sensor, the measuring motion cylinder is fixed on the support, measuring roller is fixed on the piston rod or the plunger rod front end of measuring motion cylinder, sensor is contained on the measuring roller, measuring roller is adjacent to the sheet yarn surface through axle winding mechanism coiling at first winder unit under the pressure effect of measuring motion cylinder, measuring roller with through the axle winding mechanism to rolling, detection is through the linear resonance surface velocity of axle winding mechanism coiling sheet yarn, and by sensor with testing result feedback to the computer control centre.

Described computer control centre has Programmable Logic Controller and man-machine interface, Programmable Logic Controller respectively with dyeing transmission mechanism, Yarn-feeding mechanism, yarn-feeding device, connect through axle winding mechanism and man-machine interface, Programmable Logic Controller is adjusted winding rotary speed according to the linear resonance surface velocity information once axle winding mechanism coiling sheet yarn of measuring motion feedback, simultaneously, the dyeing kinetics of computer control centre control dyeing transmission mechanism, Yarn-feeding mechanism send yarn speed, the yarn feed speed of yarn-feeding device, make the permanent tension force of the permanent harmoniously linear speed of sheet yarn ground be wound up into respectively each winder unit on axle

The invention has the beneficial effects as follows to utilize warp dyeing multi-shaft winding combination machine to solve the indigo formula pigment dyeing of warp thread and directly be divided into many parts of sheet yarns and be wound up into the problem of another group on axle, the cheese of producing the pigment dyeing of indigo formula for warp thread provide suitable warp thread tube-making machine and knitting yarn technological requirement through axle, to acomia knitted jean and pigment dyeing dress ornament with and industrialization production have certain meaning.

Description of drawings

Below in conjunction with accompanying drawing embodiments of the invention are described in further detail.

Fig. 1 is the structural representation of warp dyeing multi-shaft winding combination machine of the present invention.

Fig. 2 is the structural representation through bracing strut of warp dyeing part of the present invention;

Fig. 3 be warp dyeing part kiering water washing device of the present invention and dyeing apparatus structural representation;

Fig. 4 is the sheet dyeing yarn and the cyclic oxidation structural representation of warp dyeing part of the present invention;

Fig. 5 is the structural representation of the washing color-fixing device of warp dyeing part of the present invention;

Fig. 6 is the drying room of warp dyeing part of the present invention and the structural representation of storage yarn mechanism;

Fig. 7 is the structural representation of of the present invention yarn separating and multi-shaft winding part;

Fig. 8 is the front view of warp separating and multi-shaft winding part of the present invention;

Fig. 9 be among the present invention warp-feeding mechanism, yarn-feeding device and through the structural representation of axle winding mechanism;

Figure 10 is the control principle block diagram of computer of the present invention control centre;

Among the figure: 1, following reversing roller, 2, last reversing shaft, 3, the cyclic oxidation frame, 4, warp beam, 5, through bracing strut, 6, the kiering rinsing bowl, 7, the submergence roller, 8, padding machine, 9, staining trough, 10, the circulation split rods, 11, the washing soaper, 12, storage yarn mechanism, 13, Yarn-feeding mechanism, 14, yarn guide, 15, winder unit, 16, measuring motion, 17, first drying room, 18, second zoneofoxidation, 19, second drying room, 20, the sheet yarn, 21, the kiering water washing device, 22, dyeing apparatus, 23, the washing color-fixing device, 24, send the yarn motor, 25, the synchronous band chain wheel of Yarn-feeding mechanism, 26, the Yarn-feeding mechanism connecting rod, 27, the Yarn-feeding mechanism cylinder, 28, yarn-feeding roller, 29, the Yarn-feeding mechanism press roller, 30, the yarn feeding motor, 32, the yarn feeding power transmission shaft, 31. cord rollers, 33, the dyeing transmission mechanism, 34, the warp dyeing part, 35, sheet yarn separating and multi-shaft winding part, 41. dividing sinker mechanisms, 411. split rods, 412. reversing roller, 42. yarn-feeding devices, cured oiling device on 421., 422. flexible spacing reed, 423. spider watcher, 424. yarn feeding rollers, the synchronous band chain wheel of 425. yarn-feeding devices, 426. yarn-feeding device connecting rod, 427. the yarn-feeding device cylinder, 428. yarn-feeding device press rollers, 429. yarn-feeding device reversing machines, 4211. go up cured roller, 43. through the axle winding mechanism, 431. winding mechanism reversing machines, the synchronous band chain wheel of 432. winding mechanisms, 433 through axle, 71. the coiling motor, 81. coiling power transmission shafts, 82, pressure roller, 83, cylinder, 84, connecting rod, 85, the padding machine frame, 86, roll, 95. measuring motion, 91. measuring roller, 92. supports, 93. measuring motion cylinders, 94. sensor, 103. computer control centre, 101. Programmable Logic Controllers, 102. man-machine interfaces.

The specific embodiment

As shown in Figure 1, 2 before dyeing, at first pass through disclosed warping machines requires the cheese of needs dyeing according to warp thread system tube head part, length arrangement is wound up on the warp beam 4 equably, then with such 8 above warp beam 4 parallelizations on bracing strut 5, draw and build up the sheet yarn successively being wound on warps parallel unwinding on the warp beam 4.

The sheet yarn that builds up shown in Fig. 1,3,4,5 imports boiling-off water washing device 21 through the multiple tracks cord roller, boiling-off water washing device 21 is made up of two groups of boiling-off rinsing bowls 6, the sheet yarn is through the submergence roller 7 of the first road kiering rinsing bowl 6, pass padding machine 8, enter the submergence roller 7 and the padding machine 8 of the second road kiering rinsing bowl 6 again, carry out the pre-treatment of dying of sheet yarn.

The sheet yarn is when carrying out indigo dyeing: the sheet yarn after dying pre-treatment enters dyeing apparatus 22 again, dyeing apparatus 22 comprises two groups of staining troughs 9, dye the padding machine 8 that sheet yarn after the pre-treatment is walked around the submergence roller 7 of first group and second group staining trough 9 and successively passed two groups of staining troughs 9, the guiding and by circulation split rods 10, the sheet yarn is guided into the top of cyclic oxidation frame 3, the top of cyclic oxidation frame 3 is provided with reversing roller 2, following reversing roller 1, sheet yarn after the dyeing passes through through bracing strut 5 for the first time, the below of boiling-off rinsing bowl 6, go back to first group of staining trough 9 the top, with after enter dyeing apparatus 22 the sheet yarn to mix overlapping back another with entering first group of staining trough 9, submergence roller 7 and padding machine 8 by first group of staining trough 9, the sheet yarn that passes the padding machine 8 of second group of staining trough 9 and criticize subsequently together repeats cyclic oxidation route 4～6 times last time, the continuous film yarn is in the multiple cycles process, through repeatedly pad dyeing and air fully contact generation redox reaction formation COLOR FASTNESS indigo preferably; Dye the sheet yarn that rolls through circulation repeatedly and enter second zoneofoxidation 18 with still separating at the sheet yarn of circular flow at circulation split rods 10 places, second zoneofoxidation 18 is made up of many groups cord roller of upper and lower settings, repeatedly circulation is dyed the sheet yarn that rolls and is obtained redox more fully in second zoneofoxidation 18, the sheet yarn enters washing color-fixing device 23 subsequently, washing color-fixing device 23 is made up of three groups of washing soapers 11, the sheet yarn is walked around the submergence roller 7 of three groups of washing soapers 11 successively and is passed the padding machine 8 of three groups of washing soapers 11, carries out the washing fixation of staining section yarn.

When pigment dyeing: the sheet yarn of process dyeing pre-treatment imports earlier to enter by a plurality of staining troughs 11 after second drying room 19 is dried again forms dyeing apparatus 22 dyeing cycles.

Sheet yarn shown in Fig. 1,6 after the process dyeing enters again and enters storage yarn mechanism 12 after first drying room of being made up of a plurality of drying cylinders 17 is dried, storage yarn mechanism 12 has two groups of cord rollers by horizontal positioned and forms, one group is fixed on the top, one group can parallelly up and down be moved, the sheet yarn is from the first fixing cord roller, around to first cord roller movably, again around to second fixing cord roller, again around to second mobile cord roller, after walking around all cord rollers in the storage yarn mechanism successively, the sheet yarn is guided into warp-feeding mechanism 13.When normal operation; the cord roller group that moves is pulled in the top by the tension force of sheet yarn; when the temporary parking of sheet yarn separating and multi-shaft winding part; warp-feeding mechanism 13 is clamped the sheet yarn and is stopped to send yarn; the sheet yarn of being sent continually by first drying room 17 is stored up 12 storages of yarn mechanism around between two groups of cord rollers; the mobile cord roller group that lived by the suspention of sheet yarn tension this moment begins to move down under the gravity effect; thereby reach the purpose of storage yarn; when mobile cord roller group moves down into extreme position; sheet yarn multi-shaft winding part must begin to reel, otherwise full machine must be shut down.

As Fig. 1,7,8, shown in 9 is of the present invention yarn separating and multi-shaft winding part, has Yarn-feeding mechanism 13, yarn guide 14, be arranged on the cord roller 31 on the yarn guide 14, the winder unit 15 of a plurality of parallel connections, yarn feeding motor 30, yarn feeding power transmission shaft 32, coiling motor 71, coiling power transmission shaft 81 and measuring motion 95, winder unit 15 has dividing sinker mechanism 41, yarn-feeding device 42, through axle winding mechanism 43, Yarn-feeding mechanism 13 has the yarn of sending motor 24, the synchronous band chain wheel 25 of Yarn-feeding mechanism, Yarn-feeding mechanism connecting rod 26, Yarn-feeding mechanism cylinder 27, yarn-feeding roller 28 and Yarn-feeding mechanism press roller 29, yarn-feeding roller 28 is connected with sending yarn motor 24 by the synchronous band chain of Yarn-feeding mechanism wheel 25, Yarn-feeding mechanism press roller 29 is connected with Yarn-feeding mechanism cylinder 27 by Yarn-feeding mechanism connecting rod 26, sending yarn motor 24 to drive yarn-feeding roller 28 by the synchronous band chain wheel 25 of Yarn-feeding mechanism rotates, during 27 compressions of Yarn-feeding mechanism cylinder, Yarn-feeding mechanism connecting rod 26 moves with Yarn-feeding mechanism cylinder 27 backward with Yarn-feeding mechanism cylinder 27 links, Yarn-feeding mechanism connecting rod 26 is close to yarn-feeding roller 28 with Yarn-feeding mechanism press roller 29 links, driving the Yarn-feeding mechanism press roller tightly is pressed on the yarn-feeding roller 28, the sheet yarn that Yarn-feeding mechanism press roller 29 and 28 pairs of yarn-feeding rollers are sent after rolling warp dyeing partly being dyeed clamps, send, cord roller 31 guiding on yarn guide 14 steadily are sent to the dividing sinker mechanism 41 of first winder unit 15, dividing sinker mechanism 41 has split rods 411 and reversing roller 412, the sheet yarn that split rods 411 will be sent into by cord roller 31 is according to the head of setting part separating sheet yarn, a number of setting is the number of total number of sheet yarn divided by winder unit 15, reversing roller 412 is sent in sheet yarn commutation under separating, reversing roller 412 is sent to yarn-feeding device 42 to the sheet yarn commutation under separating, split rods 411 also will separate the split rods 411 that the remaining yarn in back is sent to the dividing sinker mechanism 41 of second winder unit 15 simultaneously, the split rods of the dividing sinker mechanism 41 of second winder unit 15 is the separating sheet yarn once more, reversing roller 412 is sent in sheet yarn commutation under separating, reversing roller 412 is sent to yarn-feeding device 42 to the sheet yarn commutation under separating, split rods 411 will separate the split rods 411 that the remaining yarn in back is sent to the dividing sinker mechanism 41 of next winder unit 15 once more, until the sheet yarn has been divided; Yarn-feeding device 42 is by last cured oiling device 421, flexible spacing reed 422, spider watcher 423, yarn feeding roller 424, the synchronous band chain wheel 425 of yarn-feeding device, yarn-feeding device connecting rod 426, yarn-feeding device cylinder 427, yarn-feeding device press roller 428, yarn-feeding device reversing machine 429 is formed, go up cured oiling device 421 and have the cured roller 4211 of going up, yarn-feeding device reversing machine 429 is fixedlyed connected with yarn feeding power transmission shaft 32, yarn feeding roller 424 links to each other with yarn-feeding device reversing machine 429 by the synchronous band chain wheel of yarn-feeding device 425, yarn-feeding device press roller 428 is connected with yarn-feeding device cylinder 427 by yarn-feeding device connecting rod 426, yarn feeding motor 30 is by yarn feeding power transmission shaft 32, the yarn feeding reversing machine 429 of each winder unit 15, the synchronous band chain wheel 425 of yarn-feeding device synchronously drives the yarn feeding roller 424 of each winder unit 15, during 427 compressions of yarn-feeding device cylinder, yarn-feeding device connecting rod 426 moves with yarn-feeding device cylinder 427 backward with yarn-feeding device cylinder 427 links, yarn-feeding device connecting rod 426 is close to yarn feeding roller 424 with yarn-feeding device press roller 428 links, yarn-feeding device press roller 428 tightly is pressed on the yarn feeding roller 424, the sheet yarn of being sent into by dividing sinker mechanism 41 is during through the last cured roller 4211 of the cured device 421 that oils surperficial, the sheet yarn is stained with oil or cured, make yam surface smooth, soft, be beneficial to weave, satisfy the knitting requirement, be stained with oil or cured sheet yarn, press the size tentering of reeling through flexible spacing reed 422 through the axle fabric width, arrange and pass through spider watcher 423 equably, whether the detection lug yarn has broken end, so that in time find to handle, deliver to yarn feeding roller 424 then, yarn-feeding device press roller 428 and 424 pairs on yarn feeding roller roll the sheet yarn clamped to feed and give through axle winding mechanism 43; Through axle winding mechanism 43 have the synchronous band chain wheel 432 of winding mechanism reversing machine 431, winding mechanism, through axle 433, winding mechanism reversing machine 431 is fixedlyed connected with coiling power transmission shaft 81, links to each other with winding mechanism reversing machine 431 by the synchronous band chain wheel of winding mechanism 432 through axle 433; Coiling motor 71 by the synchronous band chain wheel 432 of coiling power transmission shaft 81, the coiling reversing machine 431 of each winder unit 15, winding mechanism synchronously drive each winder unit 15 through axle 433, reel by the sheet yarn of yarn-feeding device 42 feedings through axle 433; Measuring motion 95 has measuring roller 91, support 92, measuring motion cylinder 93 and sensor 94, measuring motion cylinder 93 is fixed on the support 92, measuring roller 91 is fixed on the piston rod or the plunger rod front end of measuring motion cylinder 93, sensor 94 is contained on the measuring roller 91, measuring roller 91 is adjacent to the sheet yarn surface through axle 433 coilings at first winder unit 15 under the pressure effect of measuring motion cylinder 93, measuring roller 91 with roll through 433 pairs on axle, detection is through the linear resonance surface velocity of axle 433 coiling sheet yarns, and by sensor 94 with testing result feedback to the computer control centre 103; Computer control centre 103 has Programmable Logic Controller 101 and man-machine interface 102, Programmable Logic Controller 101 respectively with send yarn motor 24, yarn feeding motor 30, coiling motor 71, sensor 94 and man-machine interface 102 link to each other, the running state information of the sheet yarn after Programmable Logic Controller 101 dyes according to the dyeing machine that receives, the rotating speed of yarn motor 24, yarn feeding motor 30 is sent in control, make the speed of service of Yarn-feeding mechanism 13 and yarn-feeding device 42 and the speed of service synchronous coordination of dyeing machine, the sheet yarn keeps permanent tension force and the operation of permanent linear speed; The linear velocity that Programmable Logic Controller 101 records according to the feed quantity of sheet yarn, measuring motion 95 that sensor 94 feeds back to Programmable Logic Controller 101 through axle 433 coiling sheet yarns, the rotating speed of control coiling motor 71, make through axle 433 and reel, realize permanent linear speed constant tension winding by the program of setting.

Computer control centre 103 has Programmable Logic Controller 101 and man-machine interface 102 as shown in figure 10, Programmable Logic Controller 101 respectively with dyeing transmission mechanism 33, Yarn-feeding mechanism 13, yarn-feeding device 42, connect through axle winding mechanism 43 and man-machine interface 102, Programmable Logic Controller 101 is adjusted winding rotary speed according to the linear resonance surface velocity information once axle winding mechanism 43 coiling sheet yarns of measuring motion 95 feedbacks, simultaneously, the dyeing kinetics of computer control centre 103 control dyeing transmission mechanisms 33, Yarn-feeding mechanism 13 send yarn speed, the yarn feed speed of yarn-feeding device 42, make the permanent tension force of the permanent harmoniously linear speed of sheet yarn ground be wound up into respectively each winder unit 15 on axle 433, realize the dyeing formation one of reeling.

Warp dyeing multi-shaft winding process of the present invention, has following processing step: be wound on warps parallel unwinding on the warp beam 4 and draw and build up the sheet yarn successively, the sheet yarn is through the submergence roller 7 of the first road kiering rinsing bowl 6 of kiering water washing device 21, pass padding machine 8, enter the pre-treatment of dyeing of the submergence roller 7 of the second road kiering rinsing bowl 6 and padding machine 8 again.

The dyeing pre-treatment gets the sheet yarn when carrying out indigo dyeing, sheet yarn through the dyeing pre-treatment directly enters dyeing apparatus 22 dyeing, the sheet yarn is through the submergence roller 7 of the first road staining trough 9 of dyeing apparatus 22, pass padding machine 8, enter the submergence roller 7 of the second road staining trough 9 and padding machine 8 back guiding again and by circulation split rods 10, the sheet yarn is guided into the top of cyclic oxidation frame 3, the last reversing roller 2 of rear panel yarn by being provided with on the cyclic oxidation frame 3 dyes for the first time, following reversing roller 1 and through bracing strut 5, the below of boiling-off water washing device 21, go back to the top of the first road staining trough 9, with after to enter the overlapping back of the sheet yarn of dyeing apparatus 22 another with entering the first road staining trough 22, submergence roller 7 and padding machine 8 by the first road staining trough 22, pass the padding machine 8 of the second road staining trough 22 and a collection of subsequently sheet yarn and together repeat last time cyclic oxidation route 4～6 times, the continuous film yarn fully contacts through pad dyeing repeatedly and with air and redox reaction to take place forms COLOR FASTNESS indigo preferably in the multiple cycles process.Repeatedly circulation is dyed the sheet yarn that rolls and is entered second zoneofoxidation of being made up of many groups cord roller 18 at circulation split rods 10 places with still separating at the sheet yarn of circular flow, repeatedly circulation is dyed the sheet yarn that rolls and is obtained redox more fully in second zoneofoxidation 18, the sheet yarn is walked around the submergence roller 7 of three groups of washing soapers 11 subsequently successively and is passed the padding machine 8 of three groups of washing soapers 11, carries out the washing fixation of staining section yarn.Sheet yarn after the washing fixation enters first drying room, 17 oven dry of being made up of a plurality of drying cylinders.

When pigment dyeing, import earlier to form through the sheet yarn of dyeing pre-treatment and enter dyeing apparatus 22 circulations after second drying room 19 is dried again and dye and roll by a plurality of drying cylinders.Sheet yarn after circulation is dyed and rolled enters first drying room, 17 oven dry of being made up of a plurality of drying cylinders.

The sheet yarn of partly sending by warp dyeing or roll clamping through Yarn-feeding mechanism press roller 29 and 28 pairs of yarn-feeding rollers by the sheet yarn that the warp thread that is wound on axle builds up, deliver to the cord roller 31 on the yarn guide 14, cord roller 31 steadily is sent to sheet yarn guiding the dividing sinker mechanism 41 of first winder unit 15, the sheet yarn that split rods 411 will be sent into by cord roller 31 is according to the head of setting part separating sheet yarn, a number of setting is the number of total number of sheet yarn divided by winder unit 15, reversing roller 412 is sent in sheet yarn commutation under separating, reversing roller 412 is sent to yarn-feeding device 42 to the sheet yarn commutation under separating, during through the last cured roller 4211 of the cured device 421 that oils of yarn-feeding device 42 surperficial, the sheet yarn is stained with oil or cured, be stained with oil or cured sheet yarn, press the size tentering of reeling through flexible spacing reed 422 through the axle fabric width, arrange and pass through spider watcher 423 equably, whether the detection lug yarn has broken end, so that in time find to handle, deliver to yarn feeding roller 424 then, yarn-feeding device press roller 428 and 424 pairs on yarn feeding roller roll the sheet yarn clamped to feed and give through axle winding mechanism 43, through reeling by the sheet yarn of yarn-feeding device 42 feedings through axle 433 of axle winding mechanism 43; Split rods 411 also will separate the split rods 411 that the remaining yarn in back is sent to the dividing sinker mechanism 41 of second winder unit 15 simultaneously, the split rods of the dividing sinker mechanism 41 of second winder unit 15 is the separating sheet yarn once more, reversing roller 412 is sent in sheet yarn commutation under separating, reversing roller 412 is sent to yarn-feeding device 42 to the sheet yarn commutation under separating, the split rods 411 of second winder unit will separate the split rods 411 that the remaining yarn in back is sent to the dividing sinker mechanism 41 of next winder unit 15 once more, all will be wound up into successively on axle 433 up to the sheet yarn; The measuring roller 91 of measuring motion 95 is adjacent to the sheet yarn surface through axle 433 coilings at first winder unit 15 under the pressure effect of measuring motion cylinder 93, measuring roller 91 with roll through 433 pairs on axle, detection is through the linear resonance surface velocity of axle 433 coiling sheet yarns, and by the Programmable Logic Controller 101 of sensor 94 with testing result feedback to the computer control centre 103; Programmable Logic Controller 101 is according to the running state information of the sheet yarn after 34 dyeing of warp dyeing part that receives, the rotating speed of yarn motor 24, yarn feeding motor 30 is sent in control, make the speed of service synchronous coordination of the speed of service and the warp dyeing part 34 of Yarn-feeding mechanism 13 and yarn-feeding device 42, the sheet yarn keeps permanent tension force and the operation of permanent linear speed; The linear resonance surface velocity that Programmable Logic Controller 101 records according to the feed quantity of sheet yarn, measuring motion 95 that sensor 94 feeds back to Programmable Logic Controller 101 through axle 433 coiling sheet yarns, the rotating speed of control coiling motor 71, make through axle 433 and reel, realize permanent linear speed constant tension winding by the program of setting.

Claims (13)

1. warp dyeing multi-shaft winding process is characterized in that having following technological process:

(1) parallelization is drawn at the unwinding the warp more than 2 warp beams (4) on the bracing strut (5) at least, after the commutation of multiple tracks cord roller, build up the sheet yarn;

(2) the sheet yarn is imported kiering water washing device (21) pre-treatment of dyeing;

(3) when indigo dyeing:

A. directly entering dyeing apparatus (22) through the sheet yarn of dyeing pre-treatment dyes and rolls;

B. will in dyeing apparatus (22), dye sheet yarn after rolling through cyclic oxidation frame (3) cyclic oxidation;

C. the sheet yarn behind the cyclic oxidation enters dyeing apparatus (22) once more and dyes bundle;

D. dye after rolling the sheet yarn once more through cyclic oxidation frame (3) cyclic oxidation, dye and roll, the circulation repeat at least 4 times;

E. the sheet yarn after will circulating for the last time imports washing color-fixing device (23) and washes fixation treatment, and the sheet yarn after the washing fixation treatment enters first drying room (17) dries;

When pigment dyeing:

A. import earlier through the sheet yarn of dyeing pre-treatment and enter dyeing apparatus (22) after second drying room (19) is dried again and circulate to dye and roll;

B. the sheet yarn that dyes after rolling that circulates enters the oven dry of first drying room;

(4) the sheet yarn after the oven dry enters storage yarn mechanism (12), enters Yarn-feeding mechanism (13) again after storage yarn mechanism (12) is coordinated;

(5) the sheet yarn is sent by Yarn-feeding mechanism (13), and the cord roller (31) on yarn guide (14) steadily leads the sheet yarn and is sent to first winder unit (15);

(6) the dividing sinker mechanism (41) of first winder unit (15) separates the sheet yarn of setting head part down, and the yarn-feeding device (42) that commutation is given, yarn-feeding device (42) are fed the sheet yarn and reeled through axle winding mechanism (43);

(7) remaining yarn was sent to second winder unit (15) reposefully after the dividing sinker mechanism (41) of first winder unit (15) will separate, the dividing sinker mechanism (41) of second winder unit (15) separates the sheet yarn of setting head part down once more, yarn-feeding device (42) is given in commutation, and yarn-feeding device (42) is fed the sheet yarn and reeled through axle winding mechanism (43);

The dividing sinker mechanism (41) of (8) second winder units (15) will separate once more the back remaining yarn be sent to next winder unit (15) reposefully, up to the sheet yarn all by winder unit (15) be wound up into successively through axle winding mechanism (43) on axle (433);

(9) measuring motion (95) is measured linear resonance surface velocity and the feedback to the computer control centre (103) once axle winding mechanism (43) coiling sheet yarn, computer control centre (103) adjusts winding rotary speed according to measuring motion (95) feedback information, simultaneously, the dyeing kinetics of computer control centre (103) control dyeing transmission mechanism (33), the yarn feed speed that send yarn speed, yarn-feeding device (42) of Yarn-feeding mechanism (13), make the permanent harmoniously linear speed perseverance of sheet yarn tension force ground be wound up into respectively each winder unit (15) on axle (433).

2, a kind of warp dyeing multi-shaft winding combination machine, it is characterized in that: have warp dyeing part (34), sheet yarn separating and multi-shaft winding part (35), computer control centre (103), the warps parallel unwinding on the warp beam (4) of the last parallelization of bracing strut (5) of warp dyeing part (34) is drawn and is built up the sheet yarn successively, the sheet yarn dyes in warp dyeing part (34), the sheet yarn after the dyeing enter sheet yarn separating and multi-shaft winding part (35) the sheet yarn be divided into dye before the sheet yarn of warping number of axle equal parts and head part independently be wound up into each successively on axle (433); Computer control centre (103) is according to the Yarn-feeding mechanism (13) of the dyeing transmission mechanism (33) of the feedback information control warp dyeing part (34) of the measuring motion (95) of program of setting and sheet yarn separating and multi-shaft winding part (35) and sheet yarn separating and multi-shaft winding part (35), yarn-feeding device (42) with through axle winding mechanism (43), makes dyeing kinetics, send the winding speed maintenance synchronous coordination of yarn speed, each winder unit.

3, warp dyeing multi-shaft winding combination machine according to claim 2 argumentation, it is characterized in that: described warp dyeing part (34) comprises through bracing strut (5), cyclic oxidation frame (3), boiling-off water washing device (21), dyeing apparatus (22), washing color-fixing device (23), first drying room (17), second drying room (19), storage yarn mechanism (12), dyeing transmission mechanism (33), parallelization has the warp beam (4) more than 8 on bracing strut (5), to be wound on warps parallel unwinding on the warp beam (4) and draw and build up the sheet yarn successively, the sheet yarn imports boiling-off water washing device (21) through the multiple tracks cord roller and carries out the warp dyeing pre-treatment; When carrying out indigo dyeing, sheet yarn through the dyeing pre-treatment directly enters dyeing apparatus (22) dyeing, sheet yarn guiding circulation split rods (10) after the dyeing, the sheet yarn is guided into the top of cyclic oxidation frame (3), and through being arranged on the last reversing roller (2) on the cyclic oxidation frame (3), following reversing roller (1) passes through through bracing strut (3), the below of kiering water washing device (21), go back to dyeing apparatus (22) top, converge the another dyeing apparatus (22) that enters together in overlapping back with first sheet yarn, and together repeat last time circulation route with preceding batch sheet yarn, circulate 4～6 times, the continuous film yarn contacts the generation redox reaction with air and forms indigo in the multiple cycles process, through cyclic oxidation repeatedly, dying the sheet yarn that rolls locates to carry out further redox around second zoneofoxidation (18) of yarn length with still separating to enter by having necessarily of forming of a plurality of cord rollers at the sheet yarn of circular flow at circulation split rods (10), go into to wash color-fixing device (23) and wash fixation treatment in that second zoneofoxidation (18) redox is laggard, the sheet yarn after the washing fixation treatment enters first drying room (17) dries; When pigment dyeing, the sheet yarn of process dyeing pre-treatment imports earlier and enters dyeing apparatus (22) dyeing again after second drying room (19) is dried, and the sheet yarn after the dyeing directly enters first drying room (17) and dries; Sheet yarn after the oven dry enters storage yarn mechanism (12), tension force and the dyeing kinetics of dyeing transmission mechanism (33) control strip yarn in warp dyeing part (34).

4, the warp dyeing multi-shaft winding combination machine of discussing according to claim 3, it is characterized in that: described boiling-off water washing device (21), dyeing apparatus (22), washing color-fixing device (23) have at least one cell body, be provided with submergence roller (7) in each cell body inside, be provided with padding machine (8) on the top of cell body.

5, warp dyeing multi-shaft winding combination machine according to claim 4 argumentation, it is characterized in that: described padding machine (8) has roll (86), pressure roller (82), cylinder (83), connecting rod (84), padding machine frame (85), one end of cylinder (83), one end of roll (86) and connecting rod (84) is installed on the padding machine frame (85), the other end of cylinder (83) other end and connecting rod (84) flexibly connects, pressure roller (82) is installed on the connecting rod (84), pressure roller (82) is pressed on the roll (86) by cylinder (83) and connecting rod (84), roll (86) is by the transmission of dyeing transmission mechanism (33), roll compacting driver blade yarn.

6, the warp dyeing multi-shaft winding combination machine of discussing according to claim 3, it is characterized in that: described storage yarn mechanism (12) has two groups of cord rollers by horizontal positioned and forms, one group is fixed on the top, one group can parallelly up and down be moved, and the sheet yarn is from the first fixing cord roller, around to first cord roller movably, again around to second fixing cord roller, again around to second mobile cord roller, walk around all cord rollers in the storage yarn mechanism successively after, the sheet yarn is guided into warp-feeding mechanism (13).

7, warp dyeing multi-shaft winding combination machine according to claim 2 argumentation, it is characterized in that: described yarn separating and multi-shaft winding part (35) has Yarn-feeding mechanism (13), yarn guide (14), be arranged on the cord roller (31) on the yarn guide (14), the winder unit of a plurality of parallel connections (15), yarn feeding motor (30), yarn feeding power transmission shaft (32), coiling motor (71), coiling power transmission shaft (81), measuring motion (95), winder unit (15) has dividing sinker mechanism (41), yarn-feeding device (42), through axle winding mechanism (43), yarn feeding motor (30) drives the yarn-feeding device (42) of each winder unit (15) by yarn feeding power transmission shaft (32), coiling motor (71) by coiling power transmission shaft (81) drive each winder unit (15) through axle winding mechanism (43), computer control centre (103) respectively with Yarn-feeding mechanism (13), yarn feeding motor (30), coiling motor (71) links to each other with measuring motion (95); The sheet yarn is sent by Yarn-feeding mechanism (13), through cord roller (31) the steady guiding of sheet yarn is sent to first winder unit (1 5), the dividing sinker mechanism (41) of first winder unit (15) separates the sheet yarn of setting head part down, the yarn-feeding device (42) that commutation is given, yarn-feeding device (42) are fed the sheet yarn and are reeled through axle winding mechanism (43); The dividing sinker mechanism (41) of first winder unit (15) will separate the remaining yarn in back and be sent to second winder unit (15) reposefully, the dividing sinker mechanism (41) of second winder unit (15) separates the sheet yarn of setting head part down once more, yarn-feeding device (42) is given in commutation, and yarn-feeding device (42) is fed the sheet yarn and reeled through axle winding mechanism (43); The dividing sinker mechanism (41) of second winder unit (15) will separate the remaining yarn in back once more and be sent to next winder unit (15) reposefully, all will be wound up into successively on axle winding mechanism (43) by winder unit (15) up to the sheet yarn; Measuring motion (95) is measured the linear resonance surface velocity and the feedback to the computer control centre (103) through axle winding mechanism (43) coiling sheet yarn of a winder unit (15).

8, warp dyeing multi-shaft winding combination machine according to claim 7 argumentation, it is characterized in that: described Yarn-feeding mechanism (13) has the yarn of sending motor (24), the synchronous band chain wheel of Yarn-feeding mechanism (25), Yarn-feeding mechanism connecting rod (26), Yarn-feeding mechanism cylinder (27), yarn-feeding roller (28) and Yarn-feeding mechanism press roller (29), yarn-feeding roller (28) is connected with sending yarn motor (24) by the synchronous band chain wheel of Yarn-feeding mechanism (25), Yarn-feeding mechanism press roller (29) is connected with Yarn-feeding mechanism cylinder (27) by Yarn-feeding mechanism connecting rod (26), during Yarn-feeding mechanism cylinder (27) compression, Yarn-feeding mechanism cylinder (27) is pressed on Yarn-feeding mechanism press roller (29) on the yarn-feeding roller (28) by Yarn-feeding mechanism connecting rod (26), send yarn motor (24) to drive yarn-feeding roller (28) by the synchronous band chain wheel of Yarn-feeding mechanism (25) and rotate, Yarn-feeding mechanism press roller (29) is sent the clamping of sheet yarn to rolling with yarn-feeding roller (28).

9, warp dyeing multi-shaft winding combination machine according to claim 7 argumentation, it is characterized in that: described dividing sinker mechanism (41) has split rods (411) and reversing roller (412), the sheet yarn that split rods (411) will be sent into by the split rods (411) of the dividing sinker mechanism (41) of a cord roller (31) or a last winder unit (15) is according to the head of setting part separating sheet yarn, reversing roller (412) is sent in sheet yarn commutation under separating, reversing roller (412) is sent to yarn-feeding device (42) to the commutation of sheet yarn, and split rods (411) also will separate the split rods (411) that the remaining yarn in back is sent to the dividing sinker mechanism (41) of next winder unit (15) simultaneously.

10, warp dyeing multi-shaft winding combination machine according to claim 7 argumentation, it is characterized in that: described yarn-feeding device (42) is by last cured oiling device (421), flexible spacing reed (422), spider watcher (423), yarn feeding roller (424), the synchronous band chain wheel of yarn-feeding device (425), yarn-feeding device connecting rod (426), yarn-feeding device cylinder (427), yarn-feeding device press roller (428), yarn-feeding device reversing machine (429) is formed, go up cured oiling device (421) and have the cured roller (4211) of going up, yarn-feeding device press roller (428) is connected with yarn-feeding device cylinder (427) by yarn-feeding device connecting rod (426), during yarn-feeding device cylinder (427) compression, yarn-feeding device press roller (428) is pressed on the yarn feeding roller (424), yarn-feeding device reversing machine (429) is fixedlyed connected with yarn feeding power transmission shaft (6), yarn feeding roller (424) links to each other with yarn-feeding device reversing machine (429) by the synchronous band chain wheel of yarn-feeding device (425), the sheet yarn of being sent into by dividing sinker mechanism (41) is during through the last cured roller (4211) of the cured device (421) that oils surperficial, the sheet yarn is stained with oil or cured, be stained with oil or cured sheet yarn, press the size tentering of reeling through flexible spacing reed (422) through the axle fabric width, arrange and to deliver to yarn feeding roller (424) through spider watcher (423) equably, yarn-feeding device press roller (428) and yarn feeding roller (424) are given through axle winding mechanism (43) rolling the sheet yarn clamped to feed.

11, the warp dyeing multi-shaft winding combination machine of discussing according to claim 7, it is characterized in that: described through axle winding mechanism (43) have the synchronous band chain wheel of winding mechanism reversing machine (431), winding mechanism (432), through axle (433), winding mechanism reversing machine (431) is fixedlyed connected with coiling power transmission shaft (81), links to each other with winding mechanism reversing machine (431) by the synchronous band chain wheel of winding mechanism (432) through axle (433); Reel by the sheet yarn of yarn-feeding device (42) feeding through axle (433).

12, warp dyeing multi-shaft winding combination machine according to claim 7 argumentation, it is characterized in that: described measuring motion (95) has measuring roller (91), support (92), measuring motion cylinder (93) and sensor (94), measuring motion cylinder (93) is fixed on the support (92), measuring roller (91) is fixed on the piston rod or the plunger rod front end of measuring motion cylinder (93), sensor (94) is contained on the measuring roller (91), measuring roller (91) is adjacent to the sheet yarn surface through axle winding mechanism (43) coiling at a winder unit (15) under the pressure effect of measuring motion cylinder (93), measuring roller (91) with through axle winding mechanism (43) to rolling, detection is through the linear resonance surface velocity of axle winding mechanism (43) coiling sheet yarn, and by sensor (94) with testing result feedback to the computer control centre (103).

13, warp dyeing multi-shaft winding combination machine according to claim 2 argumentation, it is characterized in that: described computer control centre (103) has control able to programme (101) and man-machine interface (102), Programmable Logic Controller (101) respectively with dyeing transmission mechanism (33), Yarn-feeding mechanism (13), yarn-feeding device (42), connect through axle winding mechanism (43) and man-machine interface (102), Programmable Logic Controller (101) is adjusted winding rotary speed according to the linear resonance surface velocity information once axle winding mechanism (43) coiling sheet yarn of measuring motion (95) feedback, simultaneously, the dyeing kinetics of computer control centre (103) control dyeing transmission mechanism (33), Yarn-feeding mechanism (13) send yarn speed, the yarn feed speed of yarn-feeding device (42), make the permanent tension force of the permanent harmoniously linear speed of sheet yarn ground be wound up into respectively each winder unit (15) on axle (433).

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