CN100507109C - Warp separating and multi-shaft winding process, warp separating and multi-shaft winding machine - Google Patents
Warp separating and multi-shaft winding process, warp separating and multi-shaft winding machine Download PDFInfo
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- CN100507109C CN100507109C CNB200610038116XA CN200610038116A CN100507109C CN 100507109 C CN100507109 C CN 100507109C CN B200610038116X A CNB200610038116X A CN B200610038116XA CN 200610038116 A CN200610038116 A CN 200610038116A CN 100507109 C CN100507109 C CN 100507109C
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Abstract
The invention discloses a warp arrange cutted piece multiplespindle wind craft and warp arrange cutted piece multiplespindle coiler in the spinning domain, which comprises the following steps: using indigo or plenty of first copy sheet yarn in dyer coloring course and pigment dyeing as material; dividing sheet yarn into multi-thrums and lesser-copy yarn according to radical; coiling round a plurality of cane roller in homogeneous alignment according to a certain breadth, tension, fringe speed. The craft is reasonable and advanced, which reduces the cost.
Description
Technical field
The invention belongs to field of textiles, especially relate to a kind of sheet yarn that the head of the indigo or pigment dyeing in the dyeing machine dyeing course is part more or be wound on warp thread on axle, by certain radical it is divided into the many parts of sheet yarns that head part is less, and is wound up into a plurality of warp separating and multi-shaft winding process and warp separating and multi-shaft winding machines on axle equably respectively by certain fabric width, tension force, linear velocity, arrangement.
Background technology
Weave knitted denim and knitting coating fabric must have the cheese that can satisfy the knitting and weaving technological requirement, this cheese requires aberration little, and joint is few, and package is big, even tension and forming.Indigo and the colouring method pigment dyeing yarn generally adopts the method for ring-type or sheet dyeing at present, these methods directly are wound on one on axle with the sheet yarn in the dyeing course, head part is up to several thousand, only several kms of single thread length, mainly be to use for tatting, be difficult to satisfy the requirement that warp thread is produced cheese and knitting yarn technology, restricted the exploitation and the development of knitted denim and knitting coating fabric.
Summary of the invention
For overcoming the deficiencies in the prior art, the purpose of this invention is to provide a kind of warp separating and multi-shaft winding process and warp separating and multi-shaft winding machine, adopt this warp separating and multi-shaft winding process and warp separating and multi-shaft winding machine, to carry out the sheet yarn after indigo or the pigment dyeing in the dyeing course or be wound on warp thread on axle, by the head of setting part the sheet yarn is given and a plurality ofly to be reeled through axle, make each head on axle part less and single thread length is longer, so that supply with the usefulness that the warp thread tube-making machine is made cheese.
The technical solution adopted for the present invention to solve the technical problems is: a kind of warp separating and multi-shaft winding process, has following processing step: will carry out the sheet yarn after indigo or the pigment dyeing in the dyeing course or send by Yarn-feeding mechanism by the sheet yarn that the warp thread that is wound on axle builds up, cord roller on yarn guide steadily leads the sheet yarn and is sent to first winder unit, the dividing sinker mechanism of first winder unit separates the sheet yarn of setting head part down, 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 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 linear resonance surface velocity and the feedback to the computer control centre once axle winding mechanism coiling sheet yarn, computer control centre is according to measuring motion feedback information adjustment coiling rotating speed of motor, simultaneously, computer control centre control Yarn-feeding mechanism, yarn-feeding device and through the rotating speed of axle winding 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 separating and multi-shaft winding machine, 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 and computer control centre, 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 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 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, computer control centre is according to measuring motion feedback information adjustment coiling rotating speed of motor, simultaneously, computer control centre control Yarn-feeding mechanism and yarn feeding rotating speed of motor, 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.
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 last cured oiling device 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, and Programmable Logic Controller links to each other with sending yarn motor, yarn feeding motor, coiling motor, measuring motion and man-machine interface respectively.
Beneficial effect of the present invention: warp separating and multi-shaft winding process of the present invention and warp separating and multi-shaft winding machine solved because of dyeing warp thread single shaft head part too many, single thread length is shorter, make the too little problem of cheese package, technology of the present invention is rationally advanced, online dyeing split axle, and flow process is short, the warp thread package is big, cost is low, takes up an area of to lack, and the cheese of producing indigo or pigment dyeing for the knitted jean warp thread provides good preceding road technology and equipment.
Description of drawings
Fig. 1 is the structural representation of warp separating and multi-shaft winding machine of the present invention;
Fig. 2 is the front view of warp separating and multi-shaft winding machine of the present invention;
Fig. 3 be among the present invention warp-feeding mechanism, yarn-feeding device and through the structural representation of axle winding mechanism;
Fig. 4 is the permanent linear speed constant tension winding of a warp separating and multi-shaft of the present invention control principle block diagram.
1. yarns among the figure, 2. Yarn-feeding mechanism, 21. send the yarn motor, 22. the synchronous band chain wheel of Yarn-feeding mechanism, 23. Yarn-feeding mechanism connecting rods, 24. Yarn-feeding mechanism cylinders, 25. yarn-feeding roller, 26. Yarn-feeding mechanism press roller, 3. yarn guides, 31. cord roller, 4. winder unit, 41. dividing sinker mechanisms, 411. split rods, 412. reversing rollers, 42. yarn-feeding devices, 421. go up cured oiling device, 422. flexible spacing reeds, 423. spider watchers, 424. the yarn feeding roller, the synchronous band chain wheel of 425. yarn-feeding devices, 426. yarn-feeding device connecting rods, 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, 432. the synchronous band chain wheel of winding mechanism, 433 through axle, 5. the yarn feeding motor, 6. yarn feeding power transmission shaft, 7. coiling motor, 8. coiling power transmission shaft, 9. measuring motion, 91. measuring rollers, 92. supports, 93. the measuring motion cylinder, 94. sensors, 10. computer control centre, 101. Programmable Logic Controller, 102. man-machine interfaces.
The specific embodiment
The present invention is further described below in conjunction with the drawings and specific embodiments.
As Fig. 1,2,3, warp separating and multi-shaft winding machine of the present invention shown in 4, has Yarn-feeding mechanism 2, yarn guide 3, be arranged on the cord roller 31 on the yarn guide 3, the winder unit 4 of a plurality of parallel connections, yarn feeding motor 5, yarn feeding power transmission shaft 6, coiling motor 7, coiling power transmission shaft 8, measuring motion 9 and computer control centre 10, winder unit 4 has dividing sinker mechanism 41, yarn-feeding device 42, through axle winding mechanism 43, Yarn-feeding mechanism 2 has the yarn of sending motor 21, the synchronous band chain wheel 22 of Yarn-feeding mechanism, Yarn-feeding mechanism connecting rod 23, Yarn-feeding mechanism cylinder 24, yarn-feeding roller 25 and Yarn-feeding mechanism press roller 26, yarn-feeding roller 25 is connected with sending yarn motor 21 by the synchronous band chain of Yarn-feeding mechanism wheel 22, Yarn-feeding mechanism press roller 26 is connected with Yarn-feeding mechanism cylinder 24 by Yarn-feeding mechanism connecting rod 23, sending yarn motor 21 to drive yarn-feeding roller 25 by the synchronous band chain wheel 22 of Yarn-feeding mechanism rotates, during 24 compressions of Yarn-feeding mechanism cylinder, Yarn-feeding mechanism connecting rod 23 moves with Yarn-feeding mechanism cylinder 24 backward with Yarn-feeding mechanism cylinder 24 links, Yarn-feeding mechanism connecting rod 23 is close to yarn-feeding roller 25 with Yarn-feeding mechanism press roller 26 links, driving the Yarn-feeding mechanism press roller tightly is pressed on the yarn-feeding roller 25, Yarn-feeding mechanism press roller 26 rolls the sheet yarn 1 that will send after the dyeing machine dyeing with 25 pairs of yarn-feeding rollers and clamps, send, cord roller 31 guiding on yarn guide 3 steadily are sent to the dividing sinker mechanism 41 of first winder unit 4, dividing sinker mechanism 41 has split rods 411 and reversing roller 412, the sheet yarn 1 that split rods 411 will be sent into by cord roller 31 is according to the head of setting part separating sheet yarn 1, a number of setting is the number of total number of sheet yarn 1 divided by winder unit 4, reversing roller 412 is sent in 1 commutation of sheet yarn under separating, reversing roller 412 is sent to yarn-feeding device 42 to 1 commutation of the sheet yarn under separating, split rods 411 also will separate the split rods 411 that the remaining yarn 1 in back is sent to the dividing sinker mechanism 41 of second winder unit 4 simultaneously, the split rods of the dividing sinker mechanism 41 of second winder unit 4 is the separating sheet yarn once more, reversing roller 412 is sent in 1 commutation of sheet yarn under separating, reversing roller 412 is sent to yarn-feeding device 42 to 1 commutation of the sheet yarn under separating, split rods 411 will separate the split rods 411 that the remaining yarn 1 in back is sent to the dividing sinker mechanism 41 of next winder unit 4 once more, until the sheet yarn was finished in 1 minute; 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 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, yarn-feeding device press roller 428 is connected with yarn-feeding device cylinder 427 by yarn-feeding device connecting rod 426, yarn feeding motor 5 is by yarn feeding power transmission shaft 6, the yarn feeding reversing machine 429 of each winder unit 4, the synchronous band chain wheel 425 of yarn-feeding device synchronously drives the yarn feeding roller 424 of each winder unit 4, 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 1 is during through the last cured roller 4211 of last cured oiling device 421 surperficial, sheet yarn 1 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 1, 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 detection lug yarn 1 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 sheet yarn 1 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 8, 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 7 by the synchronous band chain wheel 432 of coiling power transmission shaft 8, the coiling reversing machine 431 of each winder unit 4, winding mechanism synchronously drive each winder unit 4 through axle 433, reel by the sheet yarn 1 of yarn-feeding device 42 feedings through axle 433; Measuring motion 9 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 sheet yarn 1 surface through axle 433 coilings at first winder unit 4 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 1, and by sensor 94 with testing result feedback to the computer control centre 10; Computer control centre 10 has Programmable Logic Controller 101 and man-machine interface 102, Programmable Logic Controller 101 respectively with send yarn motor 21, yarn feeding motor 5, coiling motor 7, sensor 94 and man-machine interface 102 link to each other, the running state information of the sheet yarn 1 after Programmable Logic Controller 101 dyes according to the dyeing machine that receives, the rotating speed of yarn motor 21, yarn feeding motor 5 is sent in control, make the speed of service of Yarn-feeding mechanism 2 and yarn-feeding device 42 and the speed of service synchronous coordination of dyeing machine, sheet yarn 1 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 1, measuring motion 9 that sensor 94 feeds back to Programmable Logic Controller 101 through axle 433 coiling sheet yarns 1, the rotating speed of control coiling motor 7, make through axle 433 and reel, realize permanent linear speed constant tension winding by the program of setting.
Warp separating and multi-shaft winding process of the present invention, has following processing step: roll clamping through Yarn-feeding mechanism press roller 26 and 25 pairs of yarn-feeding rollers by the sheet yarn of sending after the dyeing machine dyeing 1 or by the sheet yarn 1 that the warp thread that is wound on axle builds up, deliver to the cord roller 31 on the yarn guide 3, cord roller 31 steadily is sent to sheet yarn 1 guiding the dividing sinker mechanism 41 of first winder unit 4, the sheet yarn 1 that split rods 411 will be sent into by cord roller 31 is according to the head of setting part separating sheet yarn 1, a number of setting is the number of total number of sheet yarn 1 divided by winder unit 4, reversing roller 412 is sent in 1 commutation of sheet yarn under separating, reversing roller 412 is sent to yarn-feeding device 42 to 1 commutation of the sheet yarn under separating, during through the last cured roller 4211 of the last cured oiling device 421 of yarn-feeding device 42 surperficial, sheet yarn 1 is stained with oil or cured, be stained with oil or cured sheet yarn 1, 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 detection lug yarn 1 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 sheet yarn 1 clamped to feed and give through axle winding mechanism 43, through reeling by the sheet yarn 1 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 1 in back is sent to the dividing sinker mechanism 41 of second winder unit 4 simultaneously, the split rods of the dividing sinker mechanism 41 of second winder unit 4 is the separating sheet yarn once more, reversing roller 412 is sent in 1 commutation of sheet yarn under separating, reversing roller 412 is sent to yarn-feeding device 42 to 1 commutation of the sheet yarn under separating, the split rods 411 of second winder unit will separate the split rods 411 that the remaining yarn 1 in back is sent to the dividing sinker mechanism 41 of next winder unit 4 once more, all will be wound up into successively on axle 433 up to sheet yarn 1; The measuring roller 91 of measuring motion 9 is adjacent to sheet yarn 1 surface through axle 433 coilings at first winder unit 4 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 1, and by the Programmable Logic Controller 101 of sensor 94 with testing result feedback to the computer control centre 10; The running state information of the sheet yarn 1 after Programmable Logic Controller 101 dyes according to the dyeing machine that receives, the rotating speed of yarn motor 21, yarn feeding motor 5 is sent in control, make the speed of service of Yarn-feeding mechanism 2 and yarn-feeding device 42 and the speed of service synchronous coordination of dyeing machine, sheet yarn 1 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 1, measuring motion 9 that sensor 94 feeds back to Programmable Logic Controller 101 through axle 433 coiling sheet yarns 1, the rotating speed of control coiling motor 7, make through axle 433 and reel, realize permanent linear speed constant tension winding by the program of setting.
Claims (8)
1, a kind of warp separating and multi-shaft winding process, it is characterized in that having following processing step: sheet yarn (1) is sent by Yarn-feeding mechanism (2), cord roller (31) on yarn guide (3) steadily leads sheet yarn (1) and is sent to first winder unit (4), the dividing sinker mechanism (41) of first winder unit (4) separates the sheet yarn (1) of setting head part down, yarn-feeding device (42) is given in commutation, and yarn-feeding device (42) is fed sheet yarn (1) and reeled through axle winding mechanism (43); The dividing sinker mechanism (41) of first winder unit (4) will separate the remaining yarn in back (1) and be sent to second winder unit (4) reposefully, the dividing sinker mechanism (41) of second winder unit (4) separates the sheet yarn (1) of setting head part down once more, yarn-feeding device (42) is given in commutation, and yarn-feeding device (42) is fed sheet yarn (1) and reeled through axle winding mechanism (43); The dividing sinker mechanism (41) of second winder unit (4) will separate the remaining yarn in back (1) once more and be sent to next winder unit (4) reposefully, all will be wound up into successively on axle winding mechanism (43) by winder unit (4) up to sheet yarn (1); Measuring motion (9) is measured the linear resonance surface velocity and the feedback to the computer control centre (10) through axle winding mechanism (43) coiling sheet yarn (1) of a winder unit (4), computer control centre (10) is according to the rotating speed of measuring motion (9) feedback information adjustment coiling motor (7), simultaneously, computer control centre (10) control Yarn-feeding mechanism (2), through the rotating speed of axle winding mechanism (43) and yarn-feeding device (42), make the permanent harmoniously linear speed perseverance of sheet yarn (1) tension force ground be wound up into respectively each winder unit (4) on axle winding mechanism (43).
2, a kind of warp separating and multi-shaft winding machine, it is characterized in that: have Yarn-feeding mechanism (2), yarn guide (3), be arranged on the cord roller (31) on the yarn guide (3), the winder unit of a plurality of parallel connections (4), yarn feeding motor (5), yarn feeding power transmission shaft (6), coiling motor (7), coiling power transmission shaft (8), measuring motion (9) and computer control centre (10), winder unit (4) has dividing sinker mechanism (41), yarn-feeding device (42), through axle winding mechanism (43), yarn feeding motor (5) drives the yarn-feeding device (42) of each winder unit (4) by yarn feeding power transmission shaft (6), coiling motor (7) by coiling power transmission shaft (8) drive each winder unit (4) through axle winding mechanism (43), computer control centre (10) respectively with Yarn-feeding mechanism (2), yarn feeding motor (5), coiling motor (7) links to each other with measuring motion (9); Sheet yarn (1) is sent by Yarn-feeding mechanism (2), through cord roller (31) the steady guiding of sheet yarn (1) is sent to first winder unit (4), the dividing sinker mechanism (41) of first winder unit (4) separates the sheet yarn (1) of setting head part down, yarn-feeding device (42) is given in commutation, and yarn-feeding device (42) is fed sheet yarn (1) and reeled through axle winding mechanism (43); The dividing sinker mechanism (41) of first winder unit (4) will separate the remaining yarn in back (1) and be sent to second winder unit (4) reposefully, the dividing sinker mechanism (41) of second winder unit (4) separates the sheet yarn (1) of setting head part down once more, yarn-feeding device (42) is given in commutation, and yarn-feeding device (42) is fed sheet yarn (1) and reeled through axle winding mechanism (43); The dividing sinker mechanism (41) of second winder unit (4) will separate the remaining yarn in back (1) once more and be sent to next winder unit (4) reposefully, all will be wound up into successively on axle winding mechanism (43) by winder unit (4) up to sheet yarn (1); Measuring motion (9) is measured the linear resonance surface velocity and the feedback to the computer control centre (10) through axle winding mechanism (43) coiling sheet yarn (1) of a winder unit (4), computer control centre (10) is according to the rotating speed of measuring motion (9) feedback information adjustment coiling motor (7), simultaneously, the rotating speed of computer control centre (10) control Yarn-feeding mechanism (2) and yarn feeding motor (5), make the permanent harmoniously linear speed perseverance of sheet yarn (1) tension force ground be wound up into respectively each winder unit (4) on axle winding mechanism (43).
3, warp separating and multi-shaft winding machine according to claim 2, it is characterized in that: described Yarn-feeding mechanism (2) has the yarn of sending motor (21), the synchronous band chain wheel of Yarn-feeding mechanism (22), Yarn-feeding mechanism connecting rod (23), Yarn-feeding mechanism cylinder (24), yarn-feeding roller (25) and Yarn-feeding mechanism press roller (26), yarn-feeding roller (25) is connected with sending yarn motor (21) by the synchronous band chain wheel of Yarn-feeding mechanism (22), Yarn-feeding mechanism press roller (26) is connected with Yarn-feeding mechanism cylinder (24) by Yarn-feeding mechanism connecting rod (23), during Yarn-feeding mechanism cylinder (24) compression, Yarn-feeding mechanism cylinder (24) is pressed on Yarn-feeding mechanism press roller (26) on the yarn-feeding roller (25) by Yarn-feeding mechanism connecting rod (23), send yarn motor (21) to drive yarn-feeding roller (25) by the synchronous band chain wheel of Yarn-feeding mechanism (22) and rotate, Yarn-feeding mechanism press roller (26) is sent sheet yarn (1) clamping to rolling with yarn-feeding roller (25).
4, warp separating and multi-shaft winding machine according to claim 2, it is characterized in that: described dividing sinker mechanism (41) has split rods (411) and reversing roller (412), the sheet yarn (1) 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 (4) is according to the head part separating sheet yarn of setting (1), reversing roller (412) is sent in sheet yarn (1) commutation under separating, reversing roller (412) is sent to yarn-feeding device (42) to sheet yarn (1) commutation, and split rods (411) also will separate the split rods (411) that the remaining yarn in back (1) is sent to the dividing sinker mechanism (41) of next winder unit (4) simultaneously.
5, warp separating and multi-shaft winding machine according to claim 2, 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), on sheet yarn (1) process of sending into by dividing sinker mechanism (41) during the last cured roller (4211) of cured oiling device (421) surperficial, sheet yarn (1) is stained with oil or cured, be stained with oil or cured sheet yarn (1), 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 sheet yarn (1) clamped to feed.
6, warp separating and multi-shaft winding machine according to claim 2, 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 (8), 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 (1) of yarn-feeding device (42) feeding through axle (433).
7, warp separating and multi-shaft winding machine according to claim 2, it is characterized in that: described measuring motion (9) 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 sheet yarn (1) surface through axle winding mechanism (43) coiling at a winder unit (4) 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 (1), and by sensor (94) with testing result feedback to the computer control centre (10).
8, warp separating and multi-shaft winding machine according to claim 2, it is characterized in that: described computer control centre (10) has Programmable Logic Controller (101) and man-machine interface (102), and Programmable Logic Controller (101) links to each other with sending yarn motor (21), yarn feeding motor (5), coiling motor (7), measuring motion (9) and man-machine interface (102) respectively.
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CNB200610038116XA CN100507109C (en) | 2006-01-28 | 2006-01-28 | Warp separating and multi-shaft winding process, warp separating and multi-shaft winding machine |
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CNB200610038116XA CN100507109C (en) | 2006-01-28 | 2006-01-28 | Warp separating and multi-shaft winding process, warp separating and multi-shaft winding machine |
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CN1807726A CN1807726A (en) | 2006-07-26 |
CN100507109C true CN100507109C (en) | 2009-07-01 |
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CNB200610038116XA Expired - Fee Related CN100507109C (en) | 2006-01-28 | 2006-01-28 | Warp separating and multi-shaft winding process, warp separating and multi-shaft winding machine |
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