CN212771256U

CN212771256U - Yarn path distribution system of warp knitting machine

Info

Publication number: CN212771256U
Application number: CN202021598540.1U
Authority: CN
Inventors: 王俊雄; 王启超; 陈浩; 覃明闪; 王志强
Original assignee: Jinjiang Peng Tai Machinery Technology Co ltd
Current assignee: Quanzhou Pengtai Machinery Co ltd
Priority date: 2020-08-04
Filing date: 2020-08-04
Publication date: 2021-03-23
Anticipated expiration: 2030-08-04

Abstract

The utility model relates to the field of textile machinery, in particular to a yarn path distribution system of a warp knitting machine, which mainly solves the problem that the warp knitting quality of warp knitting fabric is poor due to unreasonable yarn path distribution in the prior art, and comprises a frame, seven or eight rotating shafts which are rotatably arranged on the frame, a driving motor for driving the rotating shafts to rotate and a warp knitting device, wherein a plurality of pan heads are arranged on each rotating shaft, a yarn guide compensation mechanism is arranged at the upper part of the warp knitting device, the frame is coated on the outer side of the warp knitting device, each rotating shaft is respectively arranged on the frame in parallel along the front and back direction, eight yarn releasing areas for installing each rotating shaft are arranged on the frame, namely a first yarn releasing area, a second yarn releasing area and a third yarn releasing area, the yarn tension adjusting device is arranged between the rack and the yarn guide compensation mechanism and used for adjusting the tension of yarns on the yarn releasing areas.

Description

Yarn path distribution system of warp knitting machine

Technical Field

The utility model relates to the field of textile machinery, especially, relate to a tricot machine yarn way distribution system.

Background

The warp knitting machine is characterized in that one or more groups of yarns which are arranged in parallel are fed to all working needles of the machine in a warp direction, and the machine forms a knitted fabric by looping; the guide bar device comprises a guide bar bed component and a guide bar seat connected with the middle part of the guide bar bed component, wherein a guide bar is arranged on the guide bar bed component, and a guide needle is connected on the guide bar; the transmission device comprises a front needle bed transmission mechanism and a rear needle bed transmission mechanism which correspond to the front needle bed part and the rear needle bed part, a front sedimentation transmission mechanism and a rear sedimentation transmission mechanism which correspond to the front sedimentation part and the rear sedimentation part, and a guide bar bed component transmission mechanism.

In actual production, the rotation of the driving motor driving rotating shaft, the driving device on the warp knitting device and the operation of the transmission device can generate vibration, so that high-frequency vibration is generated in the high-speed yarn releasing process of yarns, the yarns are easy to be pulled and broken in the transverse moving of the guide bar assembly, and the warp knitting quality of warp knitted fabrics in the warp knitting process is influenced.

SUMMERY OF THE UTILITY MODEL

Therefore, to foretell problem, the utility model provides a yarn way system of tricot machine, it has mainly solved among the prior art yarn way and has distributed unreasonablely, causes the poor problem of warp knitting quality of warp knitting fabric.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a yarn path distribution system of a warp knitting machine comprises a rack, seven or eight rotating shafts, a driving motor and warp knitting devices, wherein the seven or eight rotating shafts are rotatably arranged on the rack, the driving motor drives the rotating shafts to rotate, a plurality of pan heads are arranged on each rotating shaft, a yarn guide compensation mechanism is arranged at the upper part of each warp knitting device, the warp knitting devices extend in the front-back direction along the length direction of the warp knitting devices, extend in the up-down direction along the height direction of the warp knitting devices, extend in the left-right direction along the width direction of the warp knitting devices, the rack is coated on the outer side of the warp knitting devices, each rotating shaft is respectively arranged on the rack in parallel in the front-back direction, eight yarn releasing areas for mounting each rotating shaft are arranged on the rack and are respectively a first yarn releasing area, a second yarn releasing area, a third yarn releasing area, a fourth yarn releasing area, a fifth yarn releasing area, a sixth yarn releasing area, a seventh yarn releasing area and an eighth yarn releasing area, the first yarn releasing area, The second yarn releasing area, the third yarn releasing area and the fourth yarn releasing area are arranged on the upper side of the warp knitting device and are sequentially distributed from left to right, the fifth yarn releasing area and the sixth yarn releasing area are arranged on the left side of the warp knitting device and are sequentially distributed from top to bottom, the seventh yarn releasing area and the eighth yarn releasing area are arranged on the right side of the warp knitting device and are sequentially distributed from top to bottom, the sixth yarn releasing area, the fifth yarn releasing area, the first yarn releasing area and the second yarn releasing area are respectively and symmetrically arranged with the eighth yarn releasing area, the seventh yarn releasing area, the fourth yarn releasing area and the third yarn releasing area along the central axis of the warp knitting device, a first yarn guiding assembly is arranged between the fifth yarn releasing area and the sixth yarn releasing area on the machine frame, a second yarn guiding assembly is arranged between the seventh yarn releasing area and the eighth yarn releasing area on the machine frame, third yarn guiding assemblies are arranged on the lower sides of the first yarn releasing area and the second yarn releasing area on the machine frame, and fourth yarn guiding assemblies are arranged on the lower sides of the third yarn releasing area and the fourth yarn releasing area on the machine frame, the yarn on the sixth yarn releasing area enters the warp knitting device through the first yarn guiding assembly, the third yarn guiding assembly and the yarn guiding compensation mechanism, the yarn on the first yarn releasing area, the second yarn releasing area and the fifth yarn releasing area enters the warp knitting device through the third yarn guiding assembly and the yarn guiding compensation mechanism, the yarn on the eighth yarn releasing area enters the warp knitting device through the second yarn guiding assembly, the fourth yarn guiding assembly and the yarn guiding compensation mechanism, the yarn on the third yarn releasing area, the fourth yarn releasing area and the seventh yarn releasing area enters the warp knitting device through the fourth yarn guiding assembly and the yarn guiding compensation mechanism, and a yarn tension adjusting device used for adjusting the tension of the yarn on each yarn releasing area is arranged between the rack and the yarn guiding compensation mechanism.

Further, the yarn tension adjusting device comprises a support arranged on the frame and a support rod with one end hinged with the support, a connecting rod is hinged at the middle of the support rod, a sliding block is hinged at the other end of the connecting rod, a sliding groove for the sliding of the sliding block is arranged on the support, a first spring is arranged in the sliding groove, an installation seat is arranged at the other end of the support rod, a rotating rod and a driving motor for driving the rotating rod to rotate are rotatably arranged on the installation seat, a swinging rod is arranged at the free end of the rotating rod and is perpendicular to the free end of the rotating rod, a ceramic roller body is rotatably sleeved on the swinging rod through a bearing, a spiral groove for winding yarns is arranged on the outer surface of the ceramic roller body, first wear-resisting blocks are arranged on two axial end faces of the ceramic roller body, external threads are arranged on two axial sides of the ceramic roller body on the swinging rod and are connected with nuts through threads, and a second spring, the second wear-resisting block always abuts against the first wear-resisting block through the second spring.

Furthermore, the included angle between the horizontal plane and the vertical line of the central axis of the rotating shaft in the sixth yarn releasing area and the central axis of the yarn guide wheel of the first yarn guide assembly is 45 degrees, and the included angle between the horizontal plane and the vertical line of the central axis of the rotating shaft in the eighth yarn releasing area and the central axis of the yarn guide wheel of the second yarn guide assembly is 45 degrees.

Further, the first yarn district, the second of putting is put the yarn district, the fifth is put the yarn district and the seventh is put the pivot in the yarn district and is clockwise turning, the third is put the yarn district, the fourth is put the yarn district, the sixth is put the yarn district and the eighth is put the pivot in the yarn district and is anticlockwise turning.

Furthermore, the third yarn guiding assembly is provided with four yarn guiding routes which are a first route, a second route, a third route and a fourth route respectively, wherein the first route, the second route and the third route are distributed along the left-right direction and are sequentially arranged from bottom to top, the fourth route is distributed along the up-down direction and is positioned on the right side of the first route, the yarn in the sixth yarn releasing area passes through the first route, the yarn in the fifth yarn releasing area passes through the second route, the yarn in the first yarn releasing area passes through the third route, and the yarn in the second yarn releasing area passes through the fourth route.

Further, the contained angle that the axis of the pivot on the yarn district is put to the fifth and the perpendicular line of the axis of the yarn wheel of second way is 45 with the horizontal plane, the first axis of the pivot on putting the yarn district and the perpendicular line of the axis of the yarn wheel of third way are 45 with the contained angle of horizontal plane, the second is put the axis of the pivot on the yarn district and the perpendicular line of the axis of the yarn wheel of fourth way and is 45 with the contained angle of horizontal plane.

Furthermore, the fourth yarn guiding assembly has four yarn guiding routes, namely a fifth route, a sixth route, a seventh route and an eighth route, wherein the fifth route, the sixth route and the seventh route are all distributed along the left-right direction and are sequentially arranged from bottom to top, the eighth route is distributed along the up-down direction and is positioned on the left side of the fifth route, the yarn in the eighth yarn releasing area passes through the fifth route, the yarn in the seventh yarn releasing area passes through the sixth route, the yarn in the fourth yarn releasing area passes through the seventh route, and the yarn in the third yarn releasing area passes through the eighth route.

Further, the contained angle that the axis of the pivot in the yarn district and the axis of the yarn guide wheel on the sixth way were put to the seventh is 45 with the horizontal plane, the axis of the pivot in the yarn district was put to the fourth and the perpendicular line of the axis of the yarn guide wheel on the seventh way are 45 with the contained angle of horizontal plane, the axis of the pivot in the yarn district was put to the third and the perpendicular line of the axis of the yarn guide wheel on the eighth way are 45 with the contained angle of horizontal plane.

Furthermore, a cloth rolling trolley is arranged on the periphery of the rack.

By adopting the technical scheme, the beneficial effects of the utility model are that: the warp knitting machine yarn path distribution system has the advantages that eight yarn releasing areas are arranged on the rack and used for installing the rotating shaft, the yarn releasing areas are symmetrically arranged on the upper side, the left side and the right side of the warp knitting device, the rotating shaft on each yarn releasing area is driven to rotate through the driving device, so that the yarn distribution on the rotating shaft in each yarn releasing area and the yarn distribution on the rotating shaft in each yarn releasing area enter the guide bar bed assembly in the warp knitting machine through the first yarn guide assembly, the second yarn guide assembly, the third yarn guide assembly, the fourth yarn guide assembly, the yarn tension adjusting device and the yarn guide compensation mechanism to be warp knitted, the warp knitting machine enables the transmission of each yarn to be in a better tensioning state through the new design of a yarn path, the resonance generated in the rotation of the driving motor driving rotating shaft is avoided, the high-frequency vibration of the yarn is reduced, the yarn conveying quality is ensured, the conveying stability is good, and the warp knitting quality of the warp knitting, the method comprises the following specific steps:

yarns pulled out by the pan heads on the yarn releasing areas are released through yarn guide wheels of the first yarn guide assembly, the second yarn guide assembly, the third yarn guide assembly and the fourth yarn guide assembly, and the included angles between the yarns and the horizontal plane are set and the releasing direction of the pan heads, so that the sixth yarn releasing area, the fifth yarn releasing area, the first yarn releasing area, the second yarn releasing area, the eighth yarn releasing area, the seventh yarn releasing area, the fourth yarn releasing area and the third yarn releasing area form a symmetrical structure, resonance is avoided in the releasing process, vibration of equipment is reduced, stability of operation is improved, friction is generated by the guide bar assemblies due to vibration of the equipment in the weaving process, and service life is prolonged;

and while avoiding the resonance of the apparatus, the yarn is put and transported relatively steadily, combine yarn tension adjusting device and thread guide compensation structure, make the tension of the yarn keep fixed, the transport stationarity of the yarn increases, avoid the fracture of the yarn, has improved the textile quality, it is to transport in the helicla flute on the roll body through the yarn winding specifically, at this moment, the driving motor drives the axostylus axostyle to rotate and drive the pendulum rod to swing, make the ceramic roll body located on pendulum rod swing back and forth, the yarn realizes the swing transport under the effort that produces in this swing course, the slide block on the tie rod cooperates with concrete chute on the support to realize the swing of the support bar at the same time, and then realize the automatic micro-adjustment through setting up the first spring, and the second spring that sets up makes the first wear-resisting piece, produce the frictional force between the second wear-resisting piece, make the yarn and ceramic roll body can produce, the yarn is finely adjusted and moved back and forth by combining the up-and-down swing of the yarn guide compensation mechanism, so that the tension of the yarn entering the guide bar assembly is kept balanced.

Drawings

Fig. 1 is a schematic front view of an embodiment of the present invention;

FIG. 2 is a schematic perspective view of the assembled state of each yarn releasing area and the rotating shaft in the frame of the embodiment of the present invention;

fig. 3 is a schematic structural view of a yarn tension adjusting device according to an embodiment of the present invention.

Detailed Description

The present invention will now be further described with reference to the accompanying drawings and detailed description.

The embodiment of the utility model provides a do:

referring to fig. 1 and 2, a yarn path distribution system of a warp knitting machine includes a frame 1, eight rotating shafts 2 rotatably disposed on the frame 1, a driving motor (not shown in the drawings) for driving the rotating shafts 2 to rotate, and a warp knitting device 3, wherein the warp knitting machine has a guide bar assembly 30, six pan heads 4 are disposed on each rotating shaft 2, a yarn guiding compensation mechanism 5 is disposed on an upper portion of the warp knitting device 3, the yarn guiding compensation mechanism defines a front-back direction extending along a length direction of the warp knitting device 3, a vertical direction extending along a height direction of the warp knitting device 3, and a left-right direction extending along a width direction of the warp knitting device 3, the frame 1 is covered on an outer side of the warp knitting device 3, each rotating shaft 2 is disposed on the frame 1 in parallel along the front-back direction, eight yarn releasing regions for mounting each rotating shaft are disposed on the frame 1, and are a first yarn releasing region 11, a second yarn releasing region 12, A third yarn releasing area 13, a fourth yarn releasing area 14, a fifth yarn releasing area 15, a sixth yarn releasing area 16, a seventh yarn releasing area 17 and an eighth yarn releasing area 18, wherein the first yarn releasing area 11, the second yarn releasing area 12, the third yarn releasing area 13 and the fourth yarn releasing area 14 are arranged on the upper side of the warp knitting device 3 and are sequentially distributed from left to right, the fifth yarn releasing area 15 and the sixth yarn releasing area 16 are arranged on the left side of the warp knitting device 3 and are sequentially distributed from top to bottom, the seventh yarn releasing area 17 and the eighth yarn releasing area 18 are arranged on the right side of the warp knitting device 3 and are sequentially distributed from top to bottom, the sixth yarn releasing area 16, the fifth yarn releasing area 15, the first yarn releasing area 11 and the second yarn releasing area 12 are respectively arranged along the central axis of the warp knitting device 3 with the eighth yarn releasing area 18, the seventh yarn releasing area 17, the fourth yarn releasing area 14 and the third yarn releasing area 13 symmetrically arranged along the central axis of the warp knitting device 3, and a first yarn guiding assembly 6 is arranged between the fifth yarn releasing area 15 and the sixth yarn releasing area 15, a second yarn guiding assembly 7 is arranged on the frame 1 between the seventh yarn releasing area 17 and the eighth yarn releasing area 18, a third yarn guiding assembly 8 is arranged on the frame 1 under the first yarn releasing area 11 and the second yarn releasing area 12, a fourth yarn guiding assembly 9 is arranged on the frame 1 under the third yarn releasing area 13 and the fourth yarn releasing area 14, the third yarn guiding assembly 8 has four yarn guiding routes which are respectively a first route 81, a second route 82, a third route 83 and a fourth route 84, the first route 81, the second route 82 and the third route 83 are distributed along the left-right direction and are sequentially arranged from bottom to top, the fourth route 84 is distributed along the up-down direction and is positioned at the right side of the first route 81, the fourth yarn guiding assembly 9 has four yarn guiding routes which are respectively a fifth route 91, a sixth route 92, a seventh route 93 and an eighth route 94, the fifth route 91, the sixth route 92, the seventh route 92, the eighth route 94 and the fourth route 91, The seventh paths 93 are distributed along the left-right direction and are sequentially arranged from bottom to top, the eighth paths 94 are distributed along the up-down direction and are located at the left side of the fifth paths 91, the yarns on the sixth yarn releasing area 16 enter the warp knitting device 3 through the first yarn guiding component 6, the first path 81 of the third yarn guiding component 8 and the yarn guiding compensation mechanism 5, the yarns on the first yarn releasing area 11, the second yarn releasing area 12 and the fifth yarn releasing area 15 enter the warp knitting device 3 through the third path 83, the fourth path 84, the second path 82 and the yarn guiding compensation mechanism 5 of the third yarn guiding component 8, the yarns on the eighth yarn releasing area 18 enter the warp knitting device 3 through the second yarn guiding component 7, the fifth path 91 of the fourth yarn guiding component 9 and the yarn guiding compensation mechanism 5, and the yarns on the third yarn releasing area 13, the fourth yarn releasing area 14 and the seventh yarn releasing area 17 enter the warp knitting device 3 through the eighth paths 94 of the fourth yarn guiding component 9 and the yarn guiding compensation mechanism 5, The seventh path 93, the sixth path 92 and the yarn guiding compensation mechanism 5 enter the warp knitting device 3, the rotating shafts 2 on the first yarn releasing area 11, the second yarn releasing area 12, the fifth yarn releasing area 13 and the seventh yarn releasing area 17 rotate clockwise, the rotating shafts on the third yarn releasing area 13, the fourth yarn releasing area 14, the sixth yarn releasing area 16 and the eighth yarn releasing area 18 rotate anticlockwise, a cloth rolling cart 10 is arranged on the peripheral side of the rack 1, and a yarn tension adjusting device 40 for adjusting the tension of yarns on each yarn releasing area is arranged between the rack 1 and the yarn guiding compensation mechanism 5.

In this embodiment, referring to fig. 3, the yarn tension adjusting device 40 includes a support 41 disposed on the frame 1 and a support rod 42 having one end hinged to the support 41, a connecting rod 43 is hinged to the middle of the support rod 42, a slider 44 is hinged to the other end of the connecting rod 43, a sliding slot 45 for the slider 44 to slide is disposed on the support 41, a first spring 46 is disposed in the sliding slot 45, a mounting seat 47 is disposed at the other end of the support rod 42, a rotating rod 48 and a driving motor 49 for driving the rotating rod 48 to rotate are rotatably disposed on the mounting seat 47, a swing rod 50 is disposed at a free end of the rotating rod 48 and perpendicular to the free end of the rotating rod 48, a ceramic roller body 51 is rotatably sleeved on the swing rod 50 through a bearing, a spiral groove 52 for winding yarn is disposed on an outer surface of the ceramic roller body 51, and first wear-resistant blocks 53, the swing rod 50 is provided with external threads on two axial sides of the ceramic roller body 51, the external threads are connected with nuts 54, a second spring 55 and a second wear-resistant block 56 are respectively sleeved between the first wear-resistant block 53 and the nuts 54 on the swing rod 50, and the second wear-resistant block 56 is always abutted against the first wear-resistant block 53 through the second spring 55.

The included angle between the horizontal plane and the vertical line of the central axis of the spindle 2 on the sixth yarn releasing area 16 and the central axis of the yarn guiding wheel of the first yarn guiding assembly 6 is 45 degrees, the included angle between the horizontal plane and the central axis of the spindle 2 on the eighth yarn releasing area 18 and the vertical line of the central axis of the yarn guiding wheel of the second yarn guiding assembly 7 is 45 degrees, the included angle between the horizontal plane and the vertical line of the central axis of the spindle 2 on the fifth yarn releasing area 15 and the central axis of the yarn guiding wheel of the second path 82 is 45 degrees, the included angle between the horizontal plane and the vertical line of the central axis of the spindle 2 on the first yarn releasing area 11 and the central axis of the yarn guiding wheel of the third path 83 is 45 degrees, the included angle between the horizontal plane and the central axis of the spindle 2 on the second yarn releasing area 12 and the central axis of the yarn guiding wheel of the fourth path 84 is 45 degrees, the included angle between the horizontal plane and the central axis of the spindle 2 on the seventh yarn releasing area 17 and the, the fourth is put the perpendicular line of the axis of 2 of pivot on the yarn district 14 and the axis of the yarn guide wheel of seventh way 93 and the contained angle of horizontal plane and is 45, the third is put the perpendicular line of the axis of 2 of pivot on the yarn district 13 and the axis of the yarn guide wheel of eighth way 94 and the contained angle of horizontal plane and is 45.

In this embodiment, eight rotating shafts 2 are arranged on the frame 1, and of course seven rotating shafts 2 can be arranged, but the omitted rotating shafts 2 are arranged at the sixth yarn releasing area 16, so that the vibration generated in the operation of the frame 1 due to the driving motor and the warp knitting device 3 is minimized, the yarn conveying quality is ensured, the conveying stability is good, and the warp knitting quality of the warp knitting fabric of the warp knitting device 3 is improved.

The first yarn guiding assembly 6 and the second yarn guiding assembly 7 are prior art, and not described herein, and the yarn guiding compensation mechanism 5 adopts a technical solution of the applicant's prior application with an authorization publication number CN 208009006U.

While the invention has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. A warp knitting machine yarn path distribution system is characterized in that: the warp knitting machine comprises a frame, seven or eight rotating shafts, a driving motor and a warp knitting device, wherein the seven or eight rotating shafts are rotatably arranged on the frame, a plurality of pan heads are arranged on each rotating shaft, a yarn guide compensation mechanism is arranged at the upper part of the warp knitting device, the warp knitting device extends along the length direction of the warp knitting device into the front-back direction, the warp knitting device extends along the height direction of the warp knitting device into the up-down direction, the warp knitting device extends along the width direction of the warp knitting device into the left-right direction, the frame covers the outer side of the warp knitting device, each rotating shaft is respectively arranged on the frame in parallel along the front-back direction, eight yarn releasing zones for mounting each rotating shaft are arranged on the frame, namely a first yarn releasing zone, a second yarn releasing zone, a third yarn releasing zone, a fourth yarn releasing zone, a fifth yarn releasing zone, a sixth yarn releasing zone, a seventh yarn releasing zone and an eighth yarn releasing zone, the first yarn releasing zone, the second yarn releasing zone, the third yarn releasing zone and the fourth yarn releasing zone are arranged at the upper side of the warp knitting device, the warp knitting device comprises a frame, a warp knitting device, a first yarn releasing area, a second yarn releasing area, a third yarn releasing area, a fifth yarn releasing area, a seventh yarn releasing area, an eighth yarn releasing area, a seventh yarn releasing area, a fourth yarn releasing area, a third yarn releasing area, a first yarn guiding assembly, a second yarn guiding assembly, a third yarn releasing assembly, a fourth yarn guiding assembly, a fourth yarn releasing assembly, a fifth yarn releasing assembly, a sixth yarn releasing assembly, a fourth yarn guiding assembly, a fourth yarn releasing assembly, a sixth yarn releasing assembly, a fourth yarn guiding assembly, a fourth yarn releasing assembly and a fourth yarn guiding assembly, wherein the yarns on the sixth yarn releasing area are arranged on the left side of the warp, The third yarn guide assembly and the yarn guide compensation mechanism enter the warp knitting device, yarns in the first yarn releasing area, the second yarn releasing area and the fifth yarn releasing area enter the warp knitting device through the third yarn guide assembly and the yarn guide compensation mechanism, yarns in the eighth yarn releasing area enter the warp knitting device through the second yarn guide assembly, the fourth yarn guide assembly and the yarn guide compensation mechanism, yarns in the third yarn releasing area, the fourth yarn releasing area and the seventh yarn releasing area enter the warp knitting device through the fourth yarn guide assembly and the yarn guide compensation mechanism, and a yarn tension adjusting device used for adjusting the tension of the yarns in the yarn releasing areas is arranged between the rack and the yarn guide compensation mechanism.

2. The warp knitting machine yarn path distribution system of claim 1, wherein: the yarn tension adjusting device comprises a support arranged on a rack and a support rod, one end of the support rod is hinged with the support, the middle of the support rod is hinged with a connecting rod, the other end of the connecting rod is hinged with a sliding block, a sliding groove for the sliding of the sliding block is arranged on the support, a first spring is arranged in the sliding groove, the other end of the support rod is provided with a mounting seat, a rotating rod and a driving motor for driving the rotating rod to rotate are rotatably arranged on the mounting seat, a swinging rod is vertically arranged at the free end of the rotating rod, a ceramic roller body is rotatably sleeved on the swinging rod through a bearing, a spiral groove for winding yarns is arranged on the outer surface of the ceramic roller body, first wear-resisting blocks are arranged on the two axial end faces of the ceramic roller body, external threads are arranged on the two axial sides of the ceramic roller body on the swinging rod, nuts are connected with the threads, and a second spring and, the second wear-resisting block always abuts against the first wear-resisting block through the second spring.

3. The warp knitting machine yarn path distribution system of claim 1 or 2, characterized in that: the contained angle of the perpendicular line of the axis of pivot on the sixth yarn area of putting and the axis of the yarn wheel of first yarn guide assembly and horizontal plane is 45, the contained angle of the axis of pivot on the eighth yarn area of putting and the perpendicular line of the axis of the yarn wheel of second yarn guide assembly and horizontal plane is 45.

4. The warp knitting machine yarn path distribution system of claim 3, wherein: first put yarn district, second put yarn district, fifth put the pivot on the yarn district and the seventh put the yarn district and be clockwise rotation, the third is put yarn district, fourth and is put yarn district, sixth and put the pivot on the yarn district and the eighth is anticlockwise rotation.

5. The warp knitting machine yarn path distribution system of claim 4, wherein: the third yarn guide assembly is provided with four yarn guide routes which are a first route, a second route, a third route and a fourth route respectively, wherein the first route, the second route and the third route are distributed along the left-right direction and are sequentially arranged from bottom to top, the fourth route is distributed along the up-down direction and is positioned on the right side of the first route, the yarn in the sixth yarn releasing area is through the first route, the yarn in the fifth yarn releasing area is through the second route, the yarn in the first yarn releasing area is through the third route, and the yarn in the second yarn releasing area is through the fourth route.

6. The warp knitting machine yarn path distribution system of claim 5, wherein: the fifth is put the axis of pivot on the yarn district and the perpendicular line of the axis of the yarn wheel of second way and the contained angle of horizontal plane and is 45, the first axis of putting the axis of pivot on the yarn district and the perpendicular line of the axis of the yarn wheel of third way and the contained angle of horizontal plane are 45, the second is put the axis of pivot on the yarn district and the perpendicular line of the axis of the yarn wheel of fourth way and the contained angle of horizontal plane and is 45.

7. The warp knitting machine yarn path distribution system of claim 6, wherein: the fourth yarn guide assembly is provided with four yarn guide routes which are respectively a fifth route, a sixth route, a seventh route and an eighth route, the fifth route, the sixth route and the seventh route are distributed along the left-right direction and are sequentially arranged from bottom to top, the eighth route is distributed along the up-down direction and is positioned on the left side of the fifth route, the yarn in the eighth yarn releasing area passes through the fifth route, the yarn in the seventh yarn releasing area passes through the sixth route, the yarn in the fourth yarn releasing area passes through the seventh route, and the yarn in the third yarn releasing area passes through the eighth route.

8. The warp knitting machine yarn path distribution system of claim 7, wherein: the seventh vertical line of the axis of the pivot in the yarn area and the axis of the yarn guide wheel on the sixth way of putting is 45 with the contained angle of horizontal plane, the fourth vertical line of the axis of the pivot in the yarn area and the axis of the yarn guide wheel on the seventh way of putting is 45 with the contained angle of horizontal plane, the third vertical line of the axis of the pivot in the yarn area and the axis of the yarn guide wheel on the eighth way of putting is 45 with the contained angle of horizontal plane.

9. The warp knitting machine yarn path distribution system of claim 8, wherein: the cloth rolling cart is arranged on the periphery of the frame.