CN203653913U

CN203653913U - Guide bar lapping movement mechanism of warp knitting machine

Info

Publication number: CN203653913U
Application number: CN201320762485.9U
Authority: CN
Inventors: 王占洪; 韦海龙; 赵加洋; 肖叶; 黄军浩; 周进
Original assignee: Changzhou Runyuan Warp Knitting Machinery Co Ltd
Current assignee: Changzhou Runyuan Warp Knitting Machinery Co Ltd
Priority date: 2013-11-28
Filing date: 2013-11-28
Publication date: 2014-06-18
Anticipated expiration: 2023-11-28

Abstract

The utility model discloses a guide bar lapping movement mechanism of a warp knitting machine. The guide bar lapping movement mechanism of the warp knitting machine comprises a main transmission shaft and a first guide bar lapping movement mechanism body. The first guide bar lapping movement mechanism body comprises a first transmission shaft, a first guide bar lapping connection rod mechanism and a first guide bar, and further comprises at least two driven guide bar lapping movement mechanisms which are driven by the first transmission shaft and move at the same time. The first guide bar lapping connection rod mechanism comprises a first guide rod and a first guide cover. Each driven guide bar lapping movement mechanism comprises a second guide bar lapping movement mechanism body and a third guide bar lapping movement mechanism body. The second guide bar lapping movement mechanism body and the third guide bar lapping movement mechanism body comprise a second guide bar lapping connection rod mechanism and a third guide bar lapping connection rod mechanism respectively. The second guide bar lapping connection rod mechanism comprises a second guide rod and a second guide cover. The third guide bar lapping connection rod mechanism comprises a third guide rod and a third guide cover. The guide bar lapping movement mechanism of the warp knitting machine can reduce the space occupied by a looping area of guide bars, reduce energy consumption, improve stability and meet the requirement that the multiple guide bars have different looping actions, and the guide bars can move independently through single drive.

Description

The sley bar pad yarn motion of warp knitting machine

Technical field

The utility model relates to a kind of sley bar motion of warp knitting machine, particularly relates to a kind of sley bar pad yarn motion of warp knitting machine.

Background technology

Sley bar motion has two large classifications, and a kind of is to be parallel to a motion for width direction, is referred to as guide bar shogging motion, and another kind is perpendicular to a motion for width direction, is referred to as sley bar pad yarn motion.

Referring to Fig. 6, the sley bar pad yarn motion of existing warp knitting machine, comprise the transmission main shaft that is arranged on rotationally in warp knitting machine fuel tank, by described transmission main shaft drive the eccentric shaft 109 that rotates, by sley bar pad yarn linkage and some sley bars 108 of described eccentric shaft 109 actuation movement, described sley bar pad yarn linkage comprises first connecting rod 101, second connecting rod 102, third connecting rod 103, output shaft 104, connecting rod 105 and swing arm 106; One end of described first connecting rod 101 is sleeved on eccentric shaft 109, and described some sley bars 108 are fixedly mounted on oscillating spindle 107, and described oscillating spindle 107 is arranged in warp knitting machine frame rotationally.When work, eccentric shaft 109 is driven by transmission main shaft, drive first connecting rod 101 to move, first connecting rod 101 drives second connecting rod 102 and third connecting rod 103 to swing, wherein second connecting rod 102 swings to limit the swing position of first connecting rod 101 around dead axle, third connecting rod 103 passes motion to output shaft 104, make output shaft 104 make upper and lower rectilinear motion, output shaft 104 drives connecting rod 105, drive oscillating spindle 107 to swing by swing arm 106, thereby drive the some sley bars 108 that are arranged on oscillating spindle 107 to swing, complete the motion of pad yarn.

The sley bar pad yarn motion of this structure, the defect below existing in the time of work aspect two:

On the one hand, some sley bars 108 need while padding yarn to swing, the required space of knitting point is just very large like this, and swing sley bar, need to additionally overcome gravity acting, increase energy consumption, the swing of sley bar also can cause the vibrations that machine is unnecessary simultaneously, the stationarity that reduces machine, these are all unfavorable for the high-speed cruising of machine; Meanwhile, if technological requirement increases sley bar quantity, the traverse of swing needs to strengthen, and will more be unfavorable for the raising of machine operating speed.

On the other hand, some sley bars 108 can only be realized same motion, cannot meet many requirements that sley bar had to different lopping actions; If adopt many cover transmission systems, in fuel tank, running part take up space will increase greatly, and machine loading also will increase, and can not realize single self-movement that reaches multi-bar that drives.

Summary of the invention

The technical problems to be solved in the utility model is to provide one and can reduces sley bar knitting point and take up space, reduce energy consumption, improve stable working, many requirements that sley bar had to different lopping actions can be met, single sley bar pad yarn motion that drives the warp knitting machine that reaches multi-bar self-movement can be realized simultaneously.

For solving the problems of the technologies described above, the utility model adopts a kind of like this sley bar pad yarn motion of warp knitting machine, comprise the transmission main shaft and the first sley bar pad yarn motion that are arranged on rotationally in warp knitting machine fuel tank, described the first sley bar pad yarn motion comprises that this sley bar pad yarn motion also comprises by described the first power transmission shaft driving at least two driven sley bar pad yarn motions of motion simultaneously by the first power transmission shaft of described transmission main shaft driving rotation, by the first sley bar pad yarn linkage and the first sley bar of described the first power transmission shaft actuation movement, described the first sley bar pad yarn linkage comprises the first guide post and the first fairlead, the lower end of described the first guide post is fixedly connected with described the first sley bar, the shaft of the first guide post and the first fairlead are slidably connected, and described the first fairlead is fixedly mounted in warp knitting machine frame, at least two described driven sley bar pad yarn motions comprise the second sley bar pad yarn motion and the 3rd sley bar pad yarn motion, described the second sley bar pad yarn motion comprises the second driving shaft that is driven rotation by described the first power transmission shaft, by the second sley bar pad yarn linkage and the second sley bar of described second driving shaft actuation movement, described the second sley bar pad yarn linkage comprises the second guide post and the second fairlead, the lower end of described the second guide post is fixedly connected with described the second sley bar, the shaft of the second guide post and the second fairlead are slidably connected, described the second fairlead is fixedly mounted in warp knitting machine frame, described the 3rd sley bar pad yarn motion comprise by described the first power transmission shaft drive the 3rd power transmission shaft that rotates, by the 3rd sley bar pad yarn linkage and the 3rd sley bar of described the 3rd power transmission shaft actuation movement, described the 3rd sley bar pad yarn linkage comprises the 3rd guide post and the 3rd fairlead, the lower end of described the 3rd guide post is fixedly connected with described the 3rd sley bar, the shaft of the 3rd guide post and the 3rd fairlead are slidably connected, and described the 3rd fairlead is fixedly mounted in warp knitting machine frame.

In the utility model, the first bevel gear is installed on described transmission main shaft, described the first power transmission shaft is arranged on rotationally axle head in warp knitting machine fuel tank and in it and is provided with and the second bevel gear of described the first bevel gear engagement fit, and described transmission main shaft drives the first power transmission shaft to rotate by first, second bevel gear engaged transmission.

In the utility model, on described the first power transmission shaft, the first gear is installed, the second gear is installed on described second driving shaft, on described the 3rd power transmission shaft, the 3rd gear is installed, described the second gear, the 3rd gear respectively with the first gear engagement fit, described the first power transmission shaft drives second driving shaft to rotate by first, second meshed transmission gear, described the first power transmission shaft by first, the 3rd meshed transmission gear drives the 3rd power transmission shaft to rotate.

In the utility model, described the first sley bar pad yarn linkage also comprises the first eccentric wheel, the first eccentric bushing, the first take-off lever, the first swing arm, the first balance staff, the second swing arm and first connecting rod, described the first eccentric wheel is fixedly mounted on the axially outer end of the first power transmission shaft, described the first eccentric bushing is sleeved on described the first eccentric wheel, the lower end of described the first take-off lever is fixedly connected with the first eccentric bushing, the upper end of the first take-off lever is connected with one end universal rotational of described the first swing arm, the other end of the first swing arm is fixedly mounted on described the first balance staff, described the first balance staff is arranged in warp knitting machine frame rotationally, one end of described the second swing arm is fixedly mounted on described the first balance staff, the other end of the second swing arm and the upper end of described first connecting rod are rotationally connected, the upper end of the lower end of first connecting rod and described the first guide post is rotationally connected.

In the utility model, described the second sley bar pad yarn linkage also comprises the second eccentric wheel, the second eccentric bushing, the second take-off lever, delta link, second connecting rod, the 3rd swing arm, the second balance staff, the 4th swing arm and third connecting rod, described the second eccentric wheel is fixedly mounted on the axle head of second driving shaft, described the second eccentric bushing is sleeved on described the second eccentric wheel, the lower end of described the second take-off lever is fixedly connected with the second eccentric bushing, the upper end of the second take-off lever is connected with one end universal rotational of described delta link, the other end of delta link and one end of described second connecting rod are rotationally connected, the shaft of delta link and described the first balance staff are rotationally connected, the upper end of the other end of second connecting rod and described the 3rd swing arm is rotationally connected, the lower end of the 3rd swing arm is fixedly mounted on described the second balance staff, described the second balance staff is arranged in warp knitting machine frame rotationally, one end of described the 4th swing arm is fixedly mounted on described the second balance staff, the 4th other end of swing arm and the upper end of described third connecting rod are rotationally connected, the upper end of the lower end of third connecting rod and described the second guide post is rotationally connected.

In the utility model, described the 3rd sley bar pad yarn linkage also comprises the 3rd eccentric wheel, the 3rd eccentric bushing, the 3rd take-off lever, the 5th swing arm, the 3rd balance staff, the 6th swing arm and the 4th connecting rod, described the 3rd eccentric wheel is fixedly mounted on the axle head of the 3rd power transmission shaft, described the 3rd eccentric bushing is sleeved on described the 3rd eccentric wheel, the lower end of described the 3rd take-off lever is fixedly connected with the 3rd eccentric bushing, the upper end of the 3rd take-off lever is connected with one end universal rotational of described the 5th swing arm, the other end of the 5th swing arm is fixedly mounted on described the 3rd balance staff, described the 3rd balance staff is arranged in warp knitting machine frame rotationally, one end of described the 6th swing arm is fixedly mounted on described the 3rd balance staff, the upper end of the other end of the 6th swing arm and described the 4th connecting rod is rotationally connected, the upper end of the lower end of the 4th connecting rod and described the 3rd guide post is rotationally connected.

Adopt after said structure, the utlity model has following beneficial effect:

Sley bar in the utility model sley bar pad yarn motion, comprise first, second and the 3rd sley bar respectively by first, second and the 3rd guide post drive, under the guide effect of corresponding fairlead, do rectilinear motion, coordinate groove pin to realize the motion of pad yarn, do not need to swing, therefore the structure that sley bar is arranged just can be quite compact, greatly having reduced sley bar knitting point takes up space, sley bar moving linearly, there is no redundancy motion, thereby reduce energy consumption, simultaneously, rectilinear motion has reduced to a great extent because of the sley bar machine vibration of bringing of moving, thereby improve the stationarity of machine work, be conducive to the high-speed cruising of machine.And, if technological requirement increases sley bar quantity, only need to increase guide post, the fairlead of respective numbers, without increasing again extra driving traverse, thereby be more conducive to the speed-raising of machine.

The utility model is only by this single driving of transmission main shaft, just realize the motion of the three cover sley bar pad yarn motions that comprise first, second, and third sley bar, and the motion of these sley bar pad yarn motions is separate, in the time of work, can be according to lopping technological requirement, by adjusting first, second, and third eccentric phase relation, can realize the multiple cooperation requirement between these sley bar pad yarn motions, thereby meet many requirements that sley bar had to different lopping actions, realize single object that reaches multi-bar self-movement that drives.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the specific embodiment of the present utility model is described in further detail.

Fig. 1 is a kind of structural representation of the sley bar pad yarn motion of the utility model warp knitting machine.

Fig. 2 is the schematic side view of Fig. 1.

Fig. 3 is a kind of structural representation of the first sley bar pad yarn motion in the utility model.

Fig. 4 is a kind of structural representation of the second sley bar pad yarn motion in the utility model.

Fig. 5 is a kind of structural representation of the 3rd sley bar pad yarn motion in the utility model.

Fig. 6 is a kind of structural representation of prior art sley bar pad yarn motion.

The specific embodiment

Referring to the sley bar pad yarn motion of a kind of warp knitting machine shown in Fig. 1 to Fig. 5, comprise the transmission main shaft I and the first sley bar pad yarn motion that are arranged on rotationally in warp knitting machine fuel tank, described the first sley bar pad yarn motion comprises by described transmission main shaft I and drives the first power transmission shaft 1 of rotating, the first sley bar pad yarn linkage 2 and the first sley bar A by described the first power transmission shaft 1 actuation movement, and this sley bar pad yarn motion also comprises by described the first power transmission shaft 1 and drives at least two driven sley bar pad yarn motions of motion simultaneously, described the first sley bar pad yarn linkage 2 comprises the first guide post 28 and the first fairlead 29, the lower end of described the first guide post 28 is fixedly connected with described the first sley bar A, the shaft of the first guide post 28 is slidably connected by linear bearing and the first fairlead 29, and described the first fairlead 29 is fixedly mounted in warp knitting machine frame, at least two described driven sley bar pad yarn motions comprise the second sley bar pad yarn motion and the 3rd sley bar pad yarn motion, described the second sley bar pad yarn motion comprises the second driving shaft 3 that is driven rotation by described the first power transmission shaft 1, by the second sley bar pad yarn linkage 4 and the second sley bar B of described second driving shaft 3 actuation movement, described the second sley bar pad yarn linkage 4 comprises the second guide post 50 and the second fairlead 51, the lower end of described the second guide post 50 is fixedly connected with described the second sley bar B, the shaft of the second guide post 50 is slidably connected by linear bearing and the second fairlead 51, described the second fairlead 51 is fixedly mounted in warp knitting machine frame, described the 3rd sley bar pad yarn motion comprises by described the first power transmission shaft 1 and drives the 3rd power transmission shaft 5 of rotation, the 3rd sley bar pad yarn linkage 6 and the 3rd sley bar C by described the 3rd power transmission shaft 5 actuation movement, described the 3rd sley bar pad yarn linkage 6 comprises the 3rd guide post 68 and the 3rd fairlead 69, the lower end of described the 3rd guide post 68 is fixedly connected with described the 3rd sley bar C, the shaft of the 3rd guide post 68 is slidably connected by linear bearing and the 3rd fairlead 69, and described the 3rd fairlead 69 is fixedly mounted in warp knitting machine frame.

As shown in Figure 1, 2, in described transmission main shaft I, be installed with the first bevel gear 7, described the first power transmission shaft 1 is arranged on rotationally axle head in warp knitting machine fuel tank and in it and is installed with and the second bevel gear 8 of described the first bevel gear 7 engagement fit, described transmission main shaft I drives the first power transmission shaft 1 to rotate by first, second bevel gear 7,8 engaged transmission.

As a kind of preferred embodiment of the present utility model, as shown in Figure 1, on described the first power transmission shaft 1, be installed with the first gear 1-1, on described second driving shaft 3, be installed with the second gear 3-1, on described the 3rd power transmission shaft 5, be installed with the 3rd gear 5-1, described the second gear 3-1, the 3rd gear 5-1 respectively with the first gear 1-1 engagement fit, described the first power transmission shaft 1 is by first, the second gear 1-1, 3-1 engaged transmission drives second driving shaft 3 to rotate, described the first power transmission shaft 1 is by first, the 3rd gear 1-1, 5-1 engaged transmission drives the 3rd power transmission shaft 5 to rotate.In the utility model, the first power transmission shaft 1 also can drive the power transmission shaft such as second driving shaft 3, the 3rd power transmission shaft 5 to rotate by synchronizing wheel tape handler simultaneously simultaneously.

Referring to Fig. 3, as a kind of preferred embodiment of the present utility model, described the first sley bar pad yarn linkage 2 also comprises the first eccentric wheel 21, the first eccentric bushing 22, the first take-off lever 23, the first swing arm 24, the first balance staff 25, the second swing arm 26 and first connecting rod 27, described the first eccentric wheel 21 is fixedly mounted on the axially outer end of the first power transmission shaft 1, described the first eccentric bushing 22 is sleeved on described the first eccentric wheel 21 through self-aligning bearing, the lower end of described the first take-off lever 23 is fixedly connected with the first eccentric bushing 22, the upper end of the first take-off lever 23 is connected with one end universal rotational of described the first swing arm 24 by bearing pin, the other end of the first swing arm 24 is fixedly mounted on described the first balance staff 25, described the first balance staff 25 is arranged in warp knitting machine frame 9 rotationally by bearing, one end of described the second swing arm 26 is fixedly mounted on described the first balance staff 25, the other end of the second swing arm 26 is rotationally connected by the upper end of bearing pin and described first connecting rod 27, the lower end of first connecting rod 27 is rotationally connected by the upper end of bearing pin and described the first guide post 28.

Referring to Fig. 4, as a kind of preferred embodiment of the present utility model, described the second sley bar pad yarn linkage 4 also comprises the second eccentric wheel 41, the second eccentric bushing 42, the second take-off lever 43, delta link 44, second connecting rod 45, the 3rd swing arm 46, the second balance staff 47, the 4th swing arm 48 and third connecting rod 49, described the second eccentric wheel 41 is fixedly mounted on the axle head of second driving shaft 3, described the second eccentric bushing 42 is sleeved on described the second eccentric wheel 41 through self-aligning bearing, the lower end of described the second take-off lever 43 is fixedly connected with the second eccentric bushing 42, the upper end of the second take-off lever 43 is connected with one end 44-1 universal rotational of described delta link 44 by bearing pin, the other end 44-2 of delta link 44 is rotationally connected by one end of bearing pin and described second connecting rod 45, the shaft of delta link 44 is rotationally connected by bearing and described the first balance staff 25, the other end of second connecting rod 45 is rotationally connected by the upper end of bearing pin and described the 3rd swing arm 46, the lower end of the 3rd swing arm 46 is fixedly mounted on described the second balance staff 47, described the second balance staff 47 is arranged in warp knitting machine frame 9 rotationally by bearing, one end of described the 4th swing arm 48 is fixedly mounted on described the second balance staff 47, the other end of the 4th swing arm 48 is rotationally connected by the upper end of bearing pin and described third connecting rod 49, the lower end of third connecting rod 49 is rotationally connected by the upper end of bearing pin and described the second guide post 50.

Referring to Fig. 5, as a kind of preferred embodiment of the present utility model, described the 3rd sley bar pad yarn linkage 6 also comprises the 3rd eccentric wheel 61, the 3rd eccentric bushing 62, the 3rd take-off lever 63, the 5th swing arm 64, the 3rd balance staff 65, the 6th swing arm 66 and the 4th connecting rod 67, described the 3rd eccentric wheel 61 is fixedly mounted on the axle head of the 3rd power transmission shaft 5, described the 3rd eccentric bushing 62 is sleeved on described the 3rd eccentric wheel 61 through self-aligning bearing, the lower end of described the 3rd take-off lever 63 is fixedly connected with the 3rd eccentric bushing 62, the upper end of the 3rd take-off lever 63 is connected with one end universal rotational of described the 5th swing arm 64 by bearing pin, the other end of the 5th swing arm 64 is fixedly mounted on described the 3rd balance staff 65, described the 3rd balance staff 65 is arranged in warp knitting machine frame 9 rotationally by bearing, one end of described the 6th swing arm 66 is fixedly mounted on described the 3rd balance staff 65, the other end of the 6th swing arm 66 is rotationally connected by the upper end of bearing pin and described the 4th connecting rod 67, the lower end of the 4th connecting rod 67 is rotationally connected by the upper end of bearing pin and described the 3rd guide post 68.

In the utility model, described the first power transmission shaft 1, second driving shaft 3 and the 3rd power transmission shaft 5 also can not adopt the first eccentric wheel 21, the second eccentric wheel 41 and the 3rd eccentric wheel 61 to be separately fixed at this split-type structural on its axle head, and can directly adopt all-in-one-piece eccentric shaft 1,3,5 structures, then the first eccentric bushing 22, the second eccentric bushing 42 and the 3rd eccentric bushing 62 are set on corresponding eccentric shaft 1,3,5.

In the utility model, each bar linkage structure in described the first sley bar pad yarn linkage 2, the second sley bar pad yarn linkage 4 and the 3rd sley bar pad yarn linkage 6 also can change, for example increase or reduce connecting rod quantity, change the annexation of each connecting rod etc., and adopt the linkage of other form.

Referring to Fig. 1 to Fig. 5, the utility model is in the time of work, motor drives transmission main shaft I to rotate, transmission main shaft I is by first, the second bevel gear 7, 8 engaged transmission drive the first power transmission shaft 1 to rotate, the first power transmission shaft 1 drives each drive disk assembly motion of the first sley bar pad yarn linkage 2, when the first sley bar pad yarn linkage 2 moves, under the guide effect of the first fairlead 29, drive the first sley bar A to do rectilinear motion by its first guide post 28, the first sley bar A coordinates groove pin to realize the motion of pad yarn, when the first sley bar pad yarn linkage 2 moves, the first power transmission shaft 1 is by first, the second gear 1-1, 3-1 engaged transmission drives second driving shaft 3 to rotate simultaneously, by first, the 3rd gear 1-1, 5-1 engaged transmission drives the 3rd power transmission shaft 5 to rotate simultaneously, second driving shaft 3 drives each drive disk assembly motion of the second sley bar pad yarn linkage 4 while rotation, when the second sley bar pad yarn linkage 4 moves, under the guide effect of the second fairlead 51, drive the second sley bar B to do rectilinear motion by its second guide post 50, the second sley bar B coordinates groove pin to realize the motion of pad yarn, the 3rd power transmission shaft 5 drives each drive disk assembly motion of the 3rd sley bar pad yarn linkage 6 while rotation, when the 3rd sley bar pad yarn linkage 6 moves, under the guide effect of the 3rd fairlead 69, drive the 3rd sley bar C to do rectilinear motion by its 3rd guide post 68, the 3rd sley bar C coordinates groove pin to realize the motion of pad yarn.

Claims

1. the sley bar pad yarn motion of a warp knitting machine, comprise the transmission main shaft (I) and the first sley bar pad yarn motion that are arranged on rotationally in warp knitting machine fuel tank, described the first sley bar pad yarn motion comprises the first power transmission shaft (1) that is driven rotation by described transmission main shaft (I), by the first sley bar pad yarn linkage (2) and first sley bar (A) of described the first power transmission shaft (1) actuation movement, it is characterized in that: this sley bar pad yarn motion also comprises by described the first power transmission shaft (1) driving at least two driven sley bar pad yarn motions of motion simultaneously, described the first sley bar pad yarn linkage (2) comprises the first guide post (28) and the first fairlead (29), the lower end of described the first guide post (28) is fixedly connected with described the first sley bar (A), the shaft of the first guide post (28) and the first fairlead (29) are slidably connected, and described the first fairlead (29) is fixedly mounted in warp knitting machine frame, at least two described driven sley bar pad yarn motions comprise the second sley bar pad yarn motion and the 3rd sley bar pad yarn motion, described the second sley bar pad yarn motion comprises the second driving shaft (3) that is driven rotation by described the first power transmission shaft (1), by the second sley bar pad yarn linkage (4) and second sley bar (B) of described second driving shaft (3) actuation movement, described the second sley bar pad yarn linkage (4) comprises the second guide post (50) and the second fairlead (51), the lower end of described the second guide post (50) is fixedly connected with described the second sley bar (B), the shaft of the second guide post (50) and the second fairlead (51) are slidably connected, described the second fairlead (51) is fixedly mounted in warp knitting machine frame, described the 3rd sley bar pad yarn motion comprises the 3rd power transmission shaft (5) that is driven rotation by described the first power transmission shaft (1), by the 3rd sley bar pad yarn linkage (6) and the 3rd sley bar (C) of described the 3rd power transmission shaft (5) actuation movement, described the 3rd sley bar pad yarn linkage (6) comprises the 3rd guide post (68) and the 3rd fairlead (69), the lower end of described the 3rd guide post (68) is fixedly connected with described the 3rd sley bar (C), the shaft of the 3rd guide post (68) and the 3rd fairlead (69) are slidably connected, described the 3rd fairlead (69) is fixedly mounted in warp knitting machine frame.

2. the sley bar pad yarn motion of warp knitting machine according to claim 1, it is characterized in that: the first bevel gear (7) is installed on described transmission main shaft (I), described the first power transmission shaft (1) is arranged on rotationally axle head in warp knitting machine fuel tank and in it and is provided with and second bevel gear (8) of described the first bevel gear (7) engagement fit, described transmission main shaft (I) drives the first power transmission shaft (1) to rotate by first, second bevel gear (7,8) engaged transmission.

3. the sley bar pad yarn motion of warp knitting machine according to claim 1, it is characterized in that: the first gear (1-1) is installed on described the first power transmission shaft (1), the second gear (3-1) is installed on described second driving shaft (3), on described the 3rd power transmission shaft (5), the 3rd gear (5-1) is installed, described the second gear (3-1), the 3rd gear (5-1) respectively with the first gear (1-1) engagement fit, described the first power transmission shaft (1) is by first, the second gear (1-1, 3-1) engaged transmission drives second driving shaft (3) to rotate, described the first power transmission shaft (1) is by first, the 3rd gear (1-1, 5-1) engaged transmission drives the 3rd power transmission shaft (5) to rotate.

4. the sley bar pad yarn motion of warp knitting machine according to claim 1, is characterized in that: described the first sley bar pad yarn linkage (2) also comprises the first eccentric wheel (21), the first eccentric bushing (22), the first take-off lever (23), the first swing arm (24), the first balance staff (25), the second swing arm (26) and first connecting rod (27), described the first eccentric wheel (21) is fixedly mounted on the axially outer end of the first power transmission shaft (1), described the first eccentric bushing (22) is sleeved on described the first eccentric wheel (21), the lower end of described the first take-off lever (23) is fixedly connected with the first eccentric bushing (22), the upper end of the first take-off lever (23) is connected with one end universal rotational of described the first swing arm (24), the other end of the first swing arm (24) is fixedly mounted on described the first balance staff (25), described the first balance staff (25) is arranged in warp knitting machine frame rotationally, one end of described the second swing arm (26) is fixedly mounted on described the first balance staff (25), the upper end of the other end of the second swing arm (26) and described first connecting rod (27) is rotationally connected, the upper end of the lower end of first connecting rod (27) and described the first guide post (28) is rotationally connected.

5. the sley bar pad yarn motion of warp knitting machine according to claim 4, is characterized in that: described the second sley bar pad yarn linkage (4) also comprises the second eccentric wheel (41), the second eccentric bushing (42), the second take-off lever (43), delta link (44), second connecting rod (45), the 3rd swing arm (46), the second balance staff (47), the 4th swing arm (48) and third connecting rod (49), described the second eccentric wheel (41) is fixedly mounted on the axle head of second driving shaft (3), described the second eccentric bushing (42) is sleeved on described the second eccentric wheel (41), the lower end of described the second take-off lever (43) is fixedly connected with the second eccentric bushing (42), the upper end of the second take-off lever (43) is connected with one end universal rotational of described delta link (44), one end of the other end of delta link (44) and described second connecting rod (45) is rotationally connected, the shaft of delta link (44) and described the first balance staff (25) are rotationally connected, the upper end of the other end of second connecting rod (45) and described the 3rd swing arm (46) is rotationally connected, the lower end of the 3rd swing arm (46) is fixedly mounted on described the second balance staff (47), described the second balance staff (47) is arranged in warp knitting machine frame rotationally, one end of described the 4th swing arm (48) is fixedly mounted on described the second balance staff (47), the upper end of the other end of the 4th swing arm (48) and described third connecting rod (49) is rotationally connected, the upper end of the lower end of third connecting rod (49) and described the second guide post (50) is rotationally connected.

6. the sley bar pad yarn motion of warp knitting machine according to claim 1, is characterized in that: described the 3rd sley bar pad yarn linkage (6) also comprises the 3rd eccentric wheel (61), the 3rd eccentric bushing (62), the 3rd take-off lever (63), the 5th swing arm (64), the 3rd balance staff (65), the 6th swing arm (66) and the 4th connecting rod (67), described the 3rd eccentric wheel (61) is fixedly mounted on the axle head of the 3rd power transmission shaft (5), described the 3rd eccentric bushing (62) is sleeved on described the 3rd eccentric wheel (61), the lower end of described the 3rd take-off lever (63) is fixedly connected with the 3rd eccentric bushing (62), the upper end of the 3rd take-off lever (63) is connected with one end universal rotational of described the 5th swing arm (64), the other end of the 5th swing arm (64) is fixedly mounted on described the 3rd balance staff (65), described the 3rd balance staff (65) is arranged in warp knitting machine frame rotationally, one end of described the 6th swing arm (66) is fixedly mounted on described the 3rd balance staff (65), the upper end of the other end of the 6th swing arm (66) and described the 4th connecting rod (67) is rotationally connected, the upper end of the lower end of the 4th connecting rod (67) and described the 3rd guide post (68) is rotationally connected.