CN208086735U - Upper knot structure and upper yarn system - Google Patents

Abstract

The utility model discloses a kind of upper knot structure and upper yarn system, and upper knot structure includes：Support element；Creel is hung, creel is hung and is rotatablely arranged on support element, hangs creel equipped with the extension yarn part for placing tube；Yarn part is pushed away, pushes away yarn part for tube to be pushed to predeterminated position.Upper yarn system includes upper knot structure, guide assembly and central control unit, guide assembly includes the first guide rail and the second guide rail, upper knot structure is set between the first guide rail and the second guide rail, the movement of upper knot structure and upper dress tube are controlled by central control unit, since upper knot structure on guide assembly by moving, the accuracy of the upper knot structure movement of central control unit control is increased.

Description

Upper knot structure and upper yarn system

Technical field

The utility model is related to textile manufacturing fields, more particularly to a kind of upper knot structure and upper yarn system.

Background technology

With the development of modern science and technology, in textile manufacturing industry, the promotion of reduction and production efficiency to cost, in order to make Quotient's urgent problem to be solved is made, in actual production layout, realizes that hall space using maximizing, helps to reduce cost, carry High efficiency, however, in order to realize hall space using maximizing, the tunnel between creel and creel can become narrow, and And tunnel structure can also become various, traditional upper yarn trolley is difficult to make the adjustment of adaptability according to the variation in tunnel.

Invention content

Based on this, the utility model proposes a kind of upper knot structure and upper yarn systems, solve traditionally yarn trolley and are difficult to root The problem of according to the adjustment of adaptability is made according to the variation in tunnel.

Specific technical solution is as follows：

A kind of upper knot structure, including：

Support element；

Creel is hung, the extension creel is rotatablely arranged on the support element, and the extension creel is equipped with for placing yarn The extension yarn part of cylinder；

Yarn part is pushed away, the yarn part that pushes away by the tube for pushing to predeterminated position.

When in use, the extension creel is rotatably connected above-mentioned upper knot structure with the support element, therefore, in upper yarn or Be fortune yarn during, when face tunnel structure it is changeable when, can adjust as needed it is described hang creel position, the extension creel Equipped with multiple extension yarn parts for placing tube, the yarn part that pushes away by the tube for pushing to predeterminated position.

Further include the first driving mechanism for driving support element rotation in one of the embodiments, described the One driving mechanism is fixedly arranged on the support element.

Yarn part is pushed away described in one of the embodiments, to be movably set on the extension yarn part.

Further include for driving the relatively described length direction for hanging yarn part of yarn part that pushes away to move in one of the embodiments, The the second dynamic driving mechanism and yarn part that pushes away moves within the scope of the first pre-determined distance.

Further include for adjusting the third driving mechanism for hanging creel height described the in one of the embodiments, The telescopic end of three driving mechanisms is connect with the support element.In this way, when the creel height that wait for dress tube not for the moment, can be with The height for adjusting creel ontology, to complete upper yarn process.

Further include for adjusting the 4th driving mechanism for hanging creel height described the in one of the embodiments, The telescopic end of four driving mechanisms is connect with the support element.

A kind of upper yarn system, upper knot structure, guide assembly and central control unit, the guide assembly include the first guide rail With the second guide rail, first guide rail and second guide rail are arranged along the distribution path of creel, first guide rail with it is described The longitudinally spaced setting of second guide rail, the upper knot structure be movably set to first guide rail and second guide rail it Between, the central control unit is communicated to connect with the upper knot structure.

Above-mentioned upper yarn system when in use, the upper yarn system guideways component, the guide assembly include the first guide rail and Second guide rail, first guide rail and second guide rail are arranged along the distribution path of creel, first guide rail and described the The longitudinally spaced setting of two guide rails, the upper knot structure is removable be arranged at intervals at first guide rail and second guide rail it Between, the upper knot structure is controlled by the central control unit and is transported to designated position, since the upper knot structure is set to On the guide assembly, the accuracy that the upper knot structure moves to designated position is increased, is changed when facing tunnel structure, institute Upper knot structure rotation described in central controller controls is stated, so that the upper knot structure is turned to default upper yarn position, on completing Yarn process.

Further include driving device in one of the embodiments, the driving device is for driving the upper knot structure to exist It is moved between first guide rail and second guide rail, the driving device is communicated to connect with the central control unit, is made The driving device can drive the upper knot structure to be moved to third predeterminated position.

Further include slave unit and locating part in one of the embodiments, driving device includes the 5th driving mechanism, drives Driving wheel, the first mounting base and the first connecting plate, the driving wheel are fixedly arranged in first mounting base, the 5th driving mechanism It is fixedly arranged in first mounting base and is connect with the driving wheel, for driving the driving wheel to rotate, first installation Seat is rotatably coupled with first connecting plate, and the slave unit includes driven wheel, the second mounting base and the second connecting plate, The driven wheel is fixedly arranged in second mounting base, and second mounting base is rotatably connected with second connecting plate, institute Stating the first connecting plate and second connecting plate, along the extending direction of first guide rail to be arranged at intervals at the support element close The both sides of the end of first guide rail, the driven wheel are respectively arranged at the driving wheel on first guide rail, make institute Stating support element can move along the extending direction of first guide rail, and the locating part includes that the first position-limited wheel and third are installed Seat, the third mounting base are fixedly arranged on the support element close to the end of second guide rail, and first position-limited wheel is rotatable Ground is set in the third mounting base, and first position-limited wheel is set on second guide rail, enables the upper knot structure Enough extending directions along second guide rail move, and the upper knot structure is enable to be moved along the extending direction of second guide rail It is dynamic.When tunnel structure is complex, the setting of first guide rail and second guide rail also changes therewith, first peace Dress seat is rotatably coupled with first connecting plate, and second mounting base is rotatably connected with second connecting plate, from And the driving wheel and the driven wheel is allow to be moved along the extending direction of first guide rail, the third mounting base can turn It is set to the support element dynamicly close to the end of second guide rail, to allow the position-limited wheel along second guide rail Extending direction movement.

Further include more first guide rails, more second guide rails and the structure that switches tracks in one of the embodiments, First guide rail and second guide rail are arranged in a one-to-one correspondence, and more first guide rails are staggered and more described The end of one guide rail surrounds first and switches tracks area, and more second guide rails are staggered and the end of more second guide rails It surrounds second to switch tracks area, the structure setting that switches tracks switches tracks in described first area and/or described second to switch tracks area, for switching State the moving direction of knot structure.

Description of the drawings

Fig. 1 is the upper yarn structural schematic diagram in an embodiment；

Fig. 2 is the upper yarn structural schematic diagram in another embodiment；

Fig. 3 is the structural schematic diagram of upper yarn system；

Fig. 4 is the structural schematic diagram of driving device；

Fig. 5 is the structural schematic diagram of slave unit；

Fig. 6 is the structural schematic diagram of structure of switching tracks；

Fig. 7 is the close-up schematic view of A in Fig. 3.

Reference sign:

100, upper knot structure, 200, support element, 201, shaft, the 202, second driving mechanism, the 203, the 4th driving mechanism, 300, creel is hung, 301, hang yarn part, 302, push away yarn part, the 303, first driving mechanism, 400, third driving mechanism, 500, guide rail Component, the 501, first guide rail, the 502, second guide rail, 600, driving device, the 601, the 5th driving mechanism, 602, driving wheel, 603, First mounting base, the 604, first connecting plate, the 605, second position-limited wheel, 700, slave unit, 701, driven wheel, the 702, second installation Seat, the 703, second connecting plate, 704, third position-limited wheel, the 800, first position-limited wheel, the 900, first connection rail, 1000, switch tracks knot Structure, the 1100, the 4th mounting base, the 1200, the 6th driving mechanism.

Specific implementation mode

To keep the above objects, features, and advantages of the utility model more obvious and easy to understand, below in conjunction with the accompanying drawings to this The specific implementation mode of utility model is described in detail.Elaborate many details in order to abundant in the following description Understand the utility model.But the utility model can be much to implement different from other manner described here, this field Technical staff can do similar improvement without prejudice to the utility model connotation, therefore the utility model is not by following public affairs The limitation for the specific implementation opened.

It should be noted that when element is referred to as " being fixed on " another element, it can be directly on another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it can be directly connected to To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " horizontal ", " left side ", " right side " and similar statement for illustrative purposes only, are not offered as being unique embodiment.

As shown in Figure 1, an embodiment discloses a kind of upper knot structure 100, including：Support element 200；Creel 300 is hung, it is described It hangs creel 300 to be rotatablely arranged on the support element 200, the creel 300 of hanging is equipped with the extension yarn part for placing tube 301；And yarn part 302 is pushed away, the yarn part 302 that pushes away by the tube for pushing to predeterminated position.

Above-mentioned upper knot structure 100 when in use, hangs creel 300 and is rotatably connected with support element 200, therefore, in upper yarn or Person be fortune yarn during, when face tunnel structure it is changeable when, can adjust as needed hang creel 300 position, hang creel 300 are equipped with multiple extension yarn parts 301 for placing tube, push away yarn part 302 for tube to be pushed away yarn to predeterminated position.

As shown in Figures 1 and 2, on the basis of the above embodiments, further include rotated for driving support member 200 One driving mechanism 303, the first driving mechanism 303 are fixedly arranged on support element 200.

As shown in Figures 1 and 2, based on any of the above embodiments, it pushes away yarn part 302 and is movably set in the extension On yarn part 301.

Specifically, the driving mechanism that driving support member 200 rotates has very much, does not repeat one by one herein.In this embodiment In the first driving mechanism 303 include servomotor, gear reducer and shaft, by servo motor connect speed reducer after directly drive turn Shaft rotation is dynamic, and support element 200 is fixedly arranged on the outer wall of shaft.

As shown in Figure 1, further including pushing away the opposite extension yarn part of yarn part 302 for driving based on any of the above embodiments It second driving mechanism 202 of 301 length direction movement and pushes away yarn part 302 and is moved within the scope of the first pre-determined distance.

Specifically, the second driving mechanism 202 can be slider cylinder structure, servo motor structure, straight line modular structure and Electric cylinders structure etc. can drive completion have required precision linear motion driving mechanism, in this embodiment, second driving Mechanism 202 includes servo motor and rack-and-pinion, drives gear & rack structure to complete linear motion by servo motor.

As shown in Figure 1, further including for adjusting the third for hanging 300 height of creel based on any of the above embodiments The telescopic end of driving mechanism 400, third driving mechanism 400 is connect with support element 200.In this way, when waiting for that the creel of dress tube is high Degree for the moment, can not adjust the height of creel ontology, to complete upper yarn process.The third driving mechanism in this embodiment 400 include servo motor and ball screw, drives ball screw to realize the lifting of support element by servo motor.

Further include above hanging the of 300 height of creel for adjusting as shown in Fig. 2, based on any of the above embodiments Four driving mechanisms 203, the telescopic end of the 4th driving mechanism 203 are connect with support element 200.

Specifically, the 4th driving mechanism 203 can be slider cylinder structure, servo motor structure, straight line modular structure and Electric cylinders structure etc. can drive completion have required precision linear motion driving mechanism, in this embodiment, the 4th driving Mechanism 203 includes servo motor and rack-and-pinion, drives gear & rack structure to complete linear motion by servo motor.

As shown in figure 3, an embodiment discloses a kind of upper yarn system, upper knot structure 100, guide assembly 500 and center control Device processed, guide assembly 500 include the first guide rail 501 and the second guide rail 502, and the first guide rail 501 and the second guide rail 502 are along yarn The distribution path of frame is arranged, and 502 longitudinally spaced setting of the first guide rail 501 and the second guide rail, upper knot structure 100 is movably set It is placed between the first guide rail 501 and the second guide rail 502, central control unit is communicated to connect with upper knot structure 100.

When in use, upper yarn system guideways component 500, guide assembly 500 includes 501 He of the first guide rail to above-mentioned upper yarn system Second guide rail 502, the first guide rail 501 and the second guide rail 502 are arranged along the distribution path of creel, and the first guide rail 501 is led with second 502 longitudinally spaced setting of rail, upper knot structure 100 is removable to be arranged at intervals between the first guide rail 501 and the second guide rail 502, Upper knot structure 100 is controlled by central control unit and is transported to designated position, since upper knot structure 100 is set to guide assembly On 500, the accuracy that knot structure 100 moves to designated position is increased, is changed when facing tunnel structure, central controller Knot structure 100 rotates in control, and knot structure 100 is made to turn to default upper yarn position, to complete upper yarn process.

As shown in Figures 4 and 5, based on any of the above embodiments, upper yarn system further includes driving device 600, is driven Dynamic device 600 for driving knot structure 100 to be moved between the first guide rail 501 and the second guide rail 502, driving device 600 with Central control unit communicates to connect, and enables driving device 600 that knot structure 100 to be driven to be moved to third predeterminated position.At this On the basis of embodiment, upper yarn system further includes slave unit 700 and locating part, and driving device 600 includes the 5th driving mechanism 601, driving wheel 602, the first mounting base 603 and the first connecting plate 604, driving wheel 602 are fixedly arranged in the first mounting base 603, the Five driving mechanisms 601 are fixedly arranged in the first mounting base 603 and are connect with driving wheel 602, are rotated for driving wheel 602, the first peace Dress seat 603 is rotatably coupled with the first connecting plate 604, and slave unit 700 includes driven wheel 701, the second mounting base 702 and the Two connecting plates 703, driven wheel 701 are fixedly arranged in the second mounting base 702, and the second mounting base 702 and the second connecting plate 703 are rotatable Connection, the first connecting plate 604 and the second connecting plate 703 are arranged at intervals at support element 200 along the extending direction of the first guide rail 501 Both sides close to the end of the first guide rail 501, driven wheel 701 are respectively arranged at driving wheel 602 on the first guide rail 501, make branch Support member 200 can be moved along the extending direction of the first guide rail 501, and locating part includes the first position-limited wheel 800 and third mounting base, the Three mounting bases are fixedly arranged on support element 200 close to the end of the second guide rail 502, and the first position-limited wheel 800 is rotatablely arranged at third In mounting base, the first position-limited wheel 800 is set on the second guide rail 502, enables the prolonging along the second guide rail 502 of knot structure 100 Direction movement is stretched, knot structure 100 is enable to be moved along the extending direction of the second guide rail 502.When tunnel structure is complex When, the setting of the first guide rail 501 and the second guide rail 502 also changes therewith, and the first mounting base 603 can turn with the first connecting plate 604 It connects dynamicly, the second mounting base 702 is rotatably connected with the second connecting plate 703, to make driving wheel 602 and driven wheel 701 can It is moved with the extending direction along the first guide rail 501, third mounting base is rotatablely arranged at support element 200 close to the second guide rail 502 end, to allow the first position-limited wheel 800 to be moved along the extending direction of the second guide rail 502.Drive 602 row of driving wheel The mode walked is the prior art, is not repeated one by one herein.The 5th driving mechanism 601 includes servo motor in this embodiment And drive mechanism.

Based on any of the above embodiments, the second guide rail 502, which is equipped with, coordinates with the first position-limited wheel 800 and with second Identical first guide groove of 502 extension path of guide rail.

As shown in figure 3, further including more first guide rails 501, more second guide rails based on any of the above embodiments 502 and the structure 1000 that switches tracks, the first guide rail 501 and the second guide rail 502 be arranged in a one-to-one correspondence, more first guide rails 501 are staggeredly set It sets and the end of more first guide rails 501 surrounds first and switches tracks area, more second guide rails 502 are staggered and more second are led The end of rail 502 surrounds second and switches tracks area, and the structure that switches tracks 1000, which is set to first and switches tracks, area and/or second to switch tracks area, for cutting Change the moving direction of knot structure 100.

As shown in Fig. 3, Fig. 6 and Fig. 7, on the basis of the implementation, upper yarn system include more first guide rails 501, more Second guide rail 502 connects rail assembly and the structure 1000 that switches tracks, and more first guide rails 501 are staggered and more first guide rails 501 end surrounds first and switches tracks area, and the structure that switches tracks 1000 is set to first and switches tracks area, and the structure that switches tracks 1000 includes the 4th installation Seat 1100 and the 6th driving mechanism 1200, connection rail assembly include at least two first connection rails 900 and at least two second companies It integrates with, all first connection rails 900 are set on the pressure-bearing surface of the 4th mounting base 1100, the 6th driving mechanism 1200 and the 4th Mounting base 1100 connects, and for driving the movement of the 4th mounting base 1100, the both ends of wherein one first connection rail 900 is enable to divide It is not correspondingly connected with the end that wherein two first guide rails 501 are connect, more second guide rails 502 are staggered and more second The end of guide rail 502 surrounds second and switches tracks area, and the second connection rail, which is equipped with, to be coordinated with the first position-limited wheel 800 and connect rail with second Identical second guide groove of extension path, all second connections rails are set to second and switch tracks area, all second connection rails and all the One connection rail 900 correspond and one second connection rail one end to the other end extending direction with corresponding one first Connect rail 900 one end to the other end extending direction it is identical, wherein one second connection rail both ends respectively with wherein two The end of first guide rail 501 connection is correspondingly connected with, and the first guide groove and the second guide groove is made to be connected to.When adjacent creel is oppositely arranged shape When at tunnel, more first guide rails 501 needs are staggered and the second guide rail 502 needs staggeredly so that the first guide rail 501 and the Two guide rails 502 can extend along the distribution path of creel, and the structure that switches tracks 1000 is set to first and switches tracks area, the 6th driving mechanism 1200 driving state the 4th mounting base 1100 movement, enable wherein one first connection rail 900 both ends respectively with wherein two The end of first guide rail 501 connection is correspondingly connected with, to enable upper knot structure 100 to pass through along wherein first guide rail 501 First connection rail 900 enters another first connection rail 900 to realize that change rail, all second connection rails are connect with all first Rail 900 corresponds and one end of one second connection rail to the extending direction of the other end and corresponding one first connects rail The extending direction of 900 one end to the other end is identical, wherein the both ends of one second connection rail are led with wherein two first respectively The end that rail 501 connects is correspondingly connected with, so that it is guaranteed that when upper knot structure 100 becomes rail, the first guide rail 501 and the second guide rail 502 Change rail is realized simultaneously, so that 100 energy structure of upper knot structure enters tunnel and completes upper yarn process.

Specifically, the movement of the 4th mounting base 1100 of driving can be achieved by the prior art, and not repeated one by one herein.? In this embodiment, the 6th driving mechanism 1200 is electric machine structure.

As shown in figure 3, in this embodiment, wherein three first guide rails 501 are staggered and three first guide rails 501 end is enclosed to switch tracks area in first, and the structure that switches tracks 1000, which is set to, to switch tracks in area, and the 4th mounting base 1100 is equipped with two pieces the One connection rail 900, wherein one is straight rail with the first connection rail 900, another is bending track, the 6th driving mechanism 1200 driving the 4th Mounting base 1100 moves, and so that bending track or straight rail is connect with wherein two first guide rails 501, wherein three second guide rails 502 interlock The end of setting, two second connection rails settings and three second guide rails 502 is enclosed to switch tracks area in second, and second switches tracks area's setting There are two second connection rails, wherein the second guide rail 502 is equipped with the first guide groove, the second connection rail has the second guide groove, wherein one Second connection rail is straight rail, and another second connection rail is bending track, and the both ends of straight rail connect rail with wherein two second respectively Both ends connect, and the first guide groove and the second guide groove is made to be connected to, and wherein one end of bending track and the end of the second guide rail of third root 502 connects It connecing, the other end is connect with the end in second guide rail 502 in two, and the first guide groove and the second guide groove is made to be connected to, to The change rail of knot structure 100 in realization.

As shown in Figures 4 and 5, based on any of the above embodiments, upper yarn system further includes at least two second limits Position wheel 605 and at least two third position-limited wheels 704, two the second position-limited wheels 605 are arranged at intervals on the both sides of the first mounting base 603 The first clamping part for the first guide rail 501 to be clamped is formed, two third position-limited wheels 704 are arranged at intervals on the second mounting base 702 Both sides formed for the second clamping part of the first guide rail 501 to be clamped.Pass through the first clamping part and the second clamping part clamping first Guide rail 501, it is ensured that upper knot structure 100 can be stablized is fixedly arranged on the first guide rail 501.In this embodiment, the second limit The quantity of wheel 605 is 4, and 4 the second position-limited wheels 605 are divided into 2 groups, and every group 2, every group of second position-limited wheel 605 is arranged at intervals on The both sides of first mounting base 603 form the first clamping part for the first guide rail 501 to be clamped, and two group of second position-limited wheel 605 is along the The setting of one guide rail 501 interval, the quantity of third position-limited wheel 704 are 4, and 4 third position-limited wheels 704 are divided into 2 groups, every group 2, often The both sides that group third position-limited wheel 704 is arranged at intervals on the second mounting base 702 form the second clamping for being used to be clamped the first guide rail 501 Portion, two groups of third position-limited wheels 704 are arranged along interval.

Based on any of the above embodiments, further include positioning device for monitoring upper 100 position of knot structure, positioning Device is communicated to connect with central control unit, enables positioning device that the location information of upper knot structure 100 is sent to central control Device processed.Determine whether upper knot structure 100 reaches designated position by positioning device, yarn accuracy in raising.

Specifically, central control unit can be PLC programmable controller, but be not limited to PLC programmable controller, It can be motion pick card or mobile PC end, be communicated to connect with upper knot structure 100 but as long as meeting central control unit, make center Above knot structure 100 is moved to designated position for control device control, and controls upper knot structure 100 and act, yarn process in completion.

It is important to point out that driving device 600 can also be arranged close on the support element 200 of the second guide rail 502, First position-limited wheel 800 is arranged close on the support element 200 of the first guide rail 501, can also be designed and only be put in process according to demand Yarn takes yarn region that the first guide rail 501 is arranged, and for limiting, other region fork trucks can be facilitated to pass through in this way.

Unless otherwise defined, all of technologies and scientific terms used here by the article is led with the technology for belonging to the utility model The normally understood meaning of technical staff in domain is identical.Terminology used in the description of the utility model herein only be The purpose of description specific embodiment, it is not intended that in limitation the utility model.Each technical characteristic of embodiment described above It can arbitrarily be combined, to keep description succinct, not to all possible combination of each technical characteristic in above-described embodiment All be described, as long as however, the combination of these technical characteristics be not present contradiction, be all considered to be this specification record model It encloses.

Above-described embodiments merely represent several embodiments of the utility model, the description thereof is more specific and detailed, But therefore it can not be interpreted as the limitation to utility model patent range.It should be pointed out that for the common skill of this field For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to The scope of protection of the utility model.Therefore, the protection domain of the utility model patent should be determined by the appended claims.

Claims (10)

1. a kind of upper knot structure, which is characterized in that including：

Support element；

Creel is hung, the extension creel is rotatablely arranged on the support element, and the extension creel is equipped with for placing tube Hang yarn part；

Yarn part is pushed away, the yarn part that pushes away by the tube for pushing to predeterminated position.

2. upper knot structure according to claim 1, which is characterized in that further include for driving support element rotation One driving mechanism, first driving mechanism are fixedly arranged on the support element.

3. upper knot structure according to claim 2, which is characterized in that the yarn part that pushes away movably is set in the extension yarn On part.

4. upper knot structure according to claim 2, which is characterized in that further include that described to push away yarn part relatively described for driving The second driving mechanism and the yarn part that pushes away for hanging the length direction movement of yarn part move within the scope of the first pre-determined distance.

5. upper knot structure according to claim 2, which is characterized in that further include described hanging the of creel height for adjusting The telescopic end of three driving mechanisms, the third driving mechanism is connect with the support element.

6. according to knot structure in claim 2 to 5 any one of them, which is characterized in that further include for driving the extension yarn The 4th driving mechanism and the support element that frame is moved relative to the support element move within the scope of the second pre-determined distance, described 4th driving mechanism is arranged on the support element.

7. a kind of upper yarn system, which is characterized in that including knot structure in claim 2 to 6 any one of them, guide assembly and Central control unit, the guide assembly include the first guide rail and the second guide rail, first guide rail and second guide rail edge The distribution path of creel is arranged, and first guide rail and the longitudinally spaced setting of the second guide rail, the upper knot structure are removable Dynamic is set between first guide rail and second guide rail, and the central control unit is logical with first driving mechanism Letter connection.

8. upper yarn system according to claim 7, which is characterized in that further include driving device, the driving device is used for The upper knot structure is driven to be moved between first guide rail and second guide rail, the driving device is controlled with the center Device communication connection processed, enables the driving device that the upper knot structure to be driven to be moved to third predeterminated position.

9. upper yarn system according to claim 8, which is characterized in that further include slave unit and locating part, driving device Including the 5th driving mechanism, driving wheel, the first mounting base and the first connecting plate, the driving wheel is fixedly arranged on first mounting base On, the 5th driving mechanism is fixedly arranged in first mounting base and is connect with the driving wheel, for driving the driving Wheel rotation, first mounting base is rotatably coupled with first connecting plate, and the slave unit includes driven wheel, and second Mounting base and the second connecting plate, the driven wheel are fixedly arranged in second mounting base, second mounting base and described second Connecting plate is rotatably connected, and first connecting plate and second connecting plate are set along the extending direction interval of first guide rail The support element is placed in close to the both sides of the end of first guide rail, the driven wheel is respectively arranged at institute with the driving wheel It states on the first guide rail, the support element is enable to be moved along the extending direction of first guide rail, the locating part includes first Position-limited wheel and third mounting base, the third mounting base are fixedly arranged on the support element close to the end of second guide rail, described First position-limited wheel is rotatablely arranged in the third mounting base, and first position-limited wheel is set on second guide rail, The upper knot structure is set to be moved along the extending direction of second guide rail.

10. upper yarn system according to claim 7, which is characterized in that further include more first guide rails, described in more Second guide rail and the structure that switches tracks, first guide rail and second guide rail are arranged in a one-to-one correspondence, and more first guide rails are handed over The end of mistake setting and more first guide rails surrounds first and switches tracks area, and more second guide rails are staggered and more The end of second guide rail surrounds second and switches tracks area, and the structure setting that switches tracks switches tracks area and/or described in described first Two switch tracks area, the moving direction for switching the upper knot structure.