CN210657354U - Dual-system collar weaving machine mountain board suitable for multi-density weaving - Google Patents

Abstract

The utility model provides a collar machine mountain board is knitted to dual system suitable for polytensity is woven belongs to computerized flat knitting machine accessory technical field, and it has solved the poor problem of current mountain board result of use. This be applicable to dual system collar tie mountain board that multi-density was woven includes: the mother board is provided with two groups of triangular units in parallel; the mesh-measuring cams are arranged into two groups, one group is formed in a pairwise manner, two adjacent meshes of the two groups of mesh-measuring cams are inner mesh-measuring cams, the two opposite meshes of the two groups of mesh-measuring cams are outer mesh-measuring cams, a dragging plate is mounted at the back of each mesh-measuring cam, an adjusting assembly is arranged at one end of each dragging plate, and a mesh-measuring bearing is mounted at the other end of each dragging plate; the back stitch component comprises two side back stitch triangles and a main back stitch triangle, wherein the two side back stitch triangles correspond to the two outer stitch triangles, a connecting plate is fixedly connected to each side back stitch triangle, two adjusting plates corresponding to the two connecting plates are installed at the back of the mother board, and each adjusting plate is connected with a corresponding stitch bearing through a torsion spring. The utility model has the characteristics of excellent in use effect.

Description

Dual-system collar weaving machine mountain board suitable for multi-density weaving

Technical Field

The utility model belongs to the technical field of computerized flat knitting machine accessory, a two system collar weaving machine mountain boards suitable for multiple density is woven is related to.

Background

The machine head is a heart operated by a computerized flat knitting machine, the needle selector, the cam plate, the electromagnet, the motor and other machine head parts drive the knitting needles to work, wherein the cam plate is the core part in the machine head, the sweater is knitted by some actions of needle selection, needle lifting, needle pressing, needle turning, needle connecting and needle hanging of the cam plate, and the structure of each triangle on the cam plate is reasonably arranged, so that the damage rate of the knitting needles can be reduced, the adjustable range of the fabric density can be widened, and the knitting quality of the fabric is improved.

The collar weaving machine belongs to one category of computerized flat knitting machines, is mainly used for processing sweaters and clothing accessories, is particularly suitable for fabrics such as jacquard sweaters, jacquard collars, cuffs, hems, lappets and the like, generally needs to weave various patterns, and has higher requirements on the structure of a gable.

However, in the existing mountain board, when different knitting patterns or densities are performed, phenomena such as needle firing, fabric deformation and the like are easy to occur, sometimes knotting of conveyed yarns occurs, a needle hook of a knitting needle is easily broken by the knotted yarns during operation, and manual needle replacement is needed, so that the working efficiency of equipment is affected.

In addition, the eye hanging function on the common single-system mountain board can only be integrally carried out, the whole row of crochet hooks can carry out eye hanging simultaneously, partial crochet hooks cannot be independently carried out, the flexibility is low, and the using effect is not ideal; the structure of the common dual-system mountain board is relatively more complex, and the manufacturing cost is high.

To sum up, for solving the not enough in the current mountain plate structure, the utility model designs a rational in infrastructure, excellent in use effect's two system collar weaving machine mountain plate that is applicable to that many densities weave.

Disclosure of Invention

The utility model discloses a solve the problem that prior art exists, provide a rational in infrastructure, excellent in use effect's double system who is applicable to that multiple density weaves collar machine mountain plate.

The purpose of the utility model can be realized by the following technical proposal: a dual system collar weaving machine gable suitable for multi-density weaving, comprising:

the needle-turning type three-dimensional template comprises a mother board, wherein two groups of triangular units are arranged on the mother board in parallel, each triangular unit comprises a herringbone triangle arranged on the face of the mother board, a weaving triangle is movably arranged below the herringbone triangle, and a needle-turning triangle is arranged between the herringbone triangle and the weaving triangle in a penetrating manner;

the mesh triangles are arranged into two groups and are arranged corresponding to the two groups of triangle units, the mesh triangles are pairwise arranged into one group, the two mesh triangles in the same group are symmetrically arranged on two sides of the corresponding herringbone triangle, two adjacent mesh triangles in the two groups of mesh triangles are inner mesh triangles, the two opposite mesh triangles are outer mesh triangles, the back of each mesh triangle is provided with a dragging plate, one end of the dragging plate is provided with an adjusting component, and the other end of the dragging plate is provided with a mesh bearing;

the back stitch component comprises two back stitch triangles which are respectively arranged at two sides of a mother board and a main back stitch triangle positioned at the middle part of the mother board, the two back stitch triangles are in one-to-one correspondence with the two outer stitch triangles, the bottoms of the two inner stitch triangles are respectively close to two side edges of the main back stitch triangle, a connecting plate is fixedly connected on each side back stitch triangle, two adjusting plates in one-to-one correspondence with the two connecting plates are installed at the back of the mother board, and each adjusting plate is connected with a corresponding stitch bearing through a torsion spring.

As the further improvement of the present case, the adjusting component comprises a pressing plate and an adjusting block which are installed on the carriage, the adjusting block is fixedly connected with the pressing plate through a pressure spring, the end part of the carriage is bent to form a baffle, an adjusting screw connected with the adjusting block is arranged on the baffle in a penetrating mode, a sliding block is further arranged between the carriage and the corresponding stitch cam, and a fastening screw penetrates through the carriage, the sliding block and the stitch cam in sequence.

As a further improvement of the scheme, the back of the mother board is provided with a plurality of stitch motors which are correspondingly arranged with the stitch triangles, a motor shaft of each stitch motor is connected with a stitch cam which is contacted with the stitch bearing, and the stitch cam is always positioned on one side of the stitch bearing, which faces the adjusting block.

As a further improvement of the scheme, two mounting columns are fixedly arranged on the adjusting plate, one of the mounting columns is sleeved with the torsion spring, one end of the torsion spring is connected with the other mounting column, and the other end of the torsion spring is connected with the corresponding stitch bearing.

As a further improvement of the scheme, the adjusting plate extends out of the edge of the mother plate and is provided with an arc-shaped groove, a locking screw penetrates through the arc-shaped groove, and one end, close to the adjusting plate, of the connecting plate is provided with a locking hole corresponding to the locking screw.

As a further improvement of the scheme, the back of the mother board is further provided with two driving motors which are arranged corresponding to the two groups of triangular units, two ends of each driving motor respectively extend outwards to form an output shaft and are fixedly connected with a first cam and a second cam, the first cam is provided with an upper cam piece and a lower cam piece which are arranged in parallel, and the second cam is provided with a front cam piece and a rear cam piece which are arranged in parallel.

As a further improvement of the scheme, an upper fixing plate is arranged above the driving motor, a stitch cam corresponding to the stitch cam and a plurality of knitting guide rods corresponding to the knitting cams are arranged in the upper fixing plate in a penetrating manner towards the mother plate, the stitch cam is connected with the upper cam plate, and each knitting guide rod is connected with the lower cam plate.

As a further improvement of the scheme, a lower fixing plate is arranged below the driving motor, two needle lifting guide rods and two eye lifting guide rods are arranged on the lower fixing plate in a penetrating mode towards the mother plate, each needle lifting guide rod penetrates through the mother plate and is connected with a needle lifting triangle, each eye lifting guide rod penetrates through the mother plate and is connected with an eye lifting triangle, and the two eye lifting triangles are located between the two corresponding needle lifting triangles.

As a further improvement of the scheme, one of the lifting eye guide rods is connected with the front cam plate, the other lifting eye guide rod is connected with the rear cam plate, each lifting eye guide rod is connected with a needle lifting guide rod close to the other lifting eye guide rod through a sound-absorbing plate, and the two sound-absorbing plates are positioned on one side, away from the mother plate, of the lower fixing plate.

As a further improvement of the scheme, the top and the bottom of the stitch triangle are respectively provided with an upper needle pressing surface and a lower needle pressing surface, and the length of the upper needle pressing surface is greater than that of the lower needle pressing surface.

Compared with the prior art, the utility model has reasonable structure, and the corresponding stitch cam can be conveniently adjusted through the matching arrangement of the pressure spring, the adjusting block and the adjusting screw, thereby improving the buffer force and reducing the damage of the knitting needle; the adjusting plate and the connecting plate are arranged to adjust the height of the side backstitch triangle and meet different fabric requirements; the arrangement of the silencing plate reduces the motor transmission on one hand, reduces the noise generation in the working process on the other hand, and has good use effect; in addition, the two groups of triangular units can realize the function of the same-row hoisting purpose while improving the weaving efficiency, and have obvious operation effect and good production effect.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a partial cross-sectional view of another perspective of the present invention.

Fig. 3 is a top view of fig. 1.

Fig. 4 is a bottom view of fig. 1.

Fig. 5 is a cross-sectional view of fig. 1.

Fig. 6 is a schematic structural view of the medium-mesh triangle of the present invention.

Fig. 7 is a schematic structural diagram of another embodiment of the present invention.

In the figure, 10, the motherboard; 11. a herringbone triangle; 12. a needle turning triangle; 13. weaving a triangle; 14. a needle raising triangle; 15. hanging a mesh triangle; 21. a carriage; 211. a baffle plate; 212. an adjusting block; 213. a pressure spring; 214. an adjusting screw; 215. a mesh bearing; 22. a slider; 23. a chute; 24. fastening screws; 25. pressing a plate; 26. a stitch cam; 27. a mesh motor; 281. pressing the needle surface; 282. pressing down the needle surface; 291. an outer stitch triangle; 292. an inner stitch triangle; 31. a connecting plate; 311. a locking hole; 32. an adjusting plate; 321. mounting a column; 322. an arc-shaped slot; 323. locking the screw; 33. a torsion spring; 34. a main back stitch triangle; 35. a side back stitch triangle; 36. an adjustment hole; 40. a drive motor; 41. a first cam; 411. an upper cam plate; 412. a lower cam plate; 42. a second cam; 421. a front cam plate; 422. a rear cam plate; 50. an upper fixing plate; 51. a needle flipping guide rod; 52. weaving a guide rod; 53. a support; 60. a lower fixing plate; 61. a needle raising guide rod; 62. hanging a mesh guide rod; 63. a support plate; 70. a sound-absorbing panel; 80. an induction disc; 90 springs.

Detailed Description

The technical solution of the present invention will be further explained with reference to the following embodiments and accompanying drawings.

As shown in fig. 1 to 6, the present double system collar weaving machine panel for multi-density weaving includes:

the structure comprises a mother board 10, two groups of triangular units are arranged on the mother board in parallel, each triangular unit comprises a herringbone triangle 11 arranged on the face of the mother board 10, a weaving triangle 13 is movably arranged below the herringbone triangle 11, and a stitch cam 12 penetrates between the herringbone triangle 11 and the weaving triangle 13;

the mesh triangles are arranged into two groups and are arranged corresponding to the two groups of triangle units, the mesh triangles are pairwise arranged into one group, the two mesh triangles in the same group are symmetrically arranged at two sides of the corresponding herringbone triangle 11, two adjacent mesh triangles in the two groups of mesh triangles are inner mesh triangles 292, the two opposite mesh triangles are outer mesh triangles 291, the back of each mesh triangle is provided with a dragging plate 21, one end of the dragging plate 21 is provided with an adjusting component, and the other end of the dragging plate 21 is provided with a mesh bearing 215;

the back stitch component comprises two side back stitch triangles 35 which are respectively arranged at two sides of the mother board 10 and a main back stitch triangle 34 which is positioned at the middle part of the mother board 10, the two side back stitch triangles 35 are in one-to-one correspondence with the two outer stitch triangles 291, the bottoms of the two inner stitch triangles 292 are respectively close to two side edges of the main back stitch triangle 34, a connecting plate 31 is fixedly connected onto each side back stitch triangle 35, two adjusting plates 32 which are in one-to-one correspondence with the two connecting plates 31 are installed at the back part of the mother board 10, and each adjusting plate 32 is connected with a corresponding stitch bearing 215 through a torsion spring 33.

When different knitting patterns or densities are woven on the existing mountain board, phenomena such as firing pins, fabric deformation and the like are easy to occur, sometimes knotting of conveyed yarns can occur, needle hooks of knitting needles are easily broken by the knotted yarns during operation, manual needle replacement is needed, and the working efficiency of equipment is affected.

Therefore, the utility model provides a two system collar knitting machine mountain plate suitable for multiple density is woven sets up two sets of triangle units to improve the knitting efficiency of collar knitting machine, wherein through the cooperation setting of pressure spring 213, adjusting block 212, adjusting screw 214, is convenient for adjust corresponding degree mesh triangle, improves the cushion effect, reduces the damage of knitting needle; further set up regulating plate 32 and connecting plate 31, realize carrying out the altitude mixture control to both sides backstitch triangle 35, satisfy different fabric requirements, excellent in use effect.

Specifically, the utility model discloses in preferably set up two sets of triangle units on mother board 10 side by side, every triangle unit all from top to bottom sets gradually herringbone triangle 11, stitch triangle 12, weaves triangle 13, wherein degree triangle quantity is four, and two liang of branch are listed as in 11 both sides of corresponding herringbone triangle, and in four degree triangles, two adjacent degree triangles are interior degree triangle 292, and remaining two degree triangles are outer degree triangle 291.

therefore, an outer stitch triangle 291 and an inner stitch triangle 292 are respectively arranged on two sides of each herringbone triangle 11, and the two stitch triangles move up and down along two inclined sides of the herringbone triangle 11, the angle between the two inclined sides of the herringbone triangle 11 is α, in the embodiment, α is preferably 77 degrees, at the moment, the knitting needle passing is the best state, the machine head can run at high speed, the fabric is flat, and the knitting efficiency is improved by 30 percent.

The carriage 21 and the adjusting component are arranged on the back of the optimal stitch cam in the embodiment, so that the requirement of fabrics with different densities can be met, and on the other hand, when resistance is applied to work, external force can be transmitted to the adjusting component, so that the stitch cam can be given a buffering effect, and a knitting needle is prevented from being damaged.

Preferably, the number of the needle return cams is three, which are respectively a main needle return cam 34 and two side needle return cams 35, the three needle return cams are horizontally arranged below each stitch cam, wherein the main needle return cam 34 is located in the middle of the mother board 10, two side edges of the main needle return cam 34 respectively correspond to the two inner stitch cams 292, and the two side needle return cams 35 are respectively arranged on two sides of the mother board 10 and respectively correspond to the two outer stitch cams 291.

When the knitting machine works, the needle return cam pushes the tail of the knitting needle to move, namely the knitting needle moves along the upper end face of the needle return cam, and after the knitting needle completes a series of work, the needle return cam pushes the knitting needle out of the mother board 10. The connecting plate 31 and the adjusting plate 32 are preferably arranged in the embodiment, the height requirements of the backstitch heights of different fabric densities are met by adjusting the heights of the two side backstitch triangles 35 at different positions on the mother board 10, the adjustment is convenient, and the using effect is good.

Preferably, the adjusting assembly includes a pressing plate 25 and an adjusting block 212 mounted on the carriage 21, the adjusting block 212 is fixedly connected with the pressing plate 25 through a pressure spring 213, the end of the carriage 21 is bent to form a baffle 211, an adjusting screw 214 connected with the adjusting block 212 is arranged on the baffle 211 in a penetrating manner, a slider 22 is further arranged between the carriage 21 and a corresponding stitch cam, a fastening screw 24 is arranged on the pressing plate 25 in a penetrating manner, and the fastening screw 24 sequentially penetrates through the carriage 21, the slider 22 and the stitch cam.

The mother board 10 is actually provided with a sliding groove 23 corresponding to the sliding block 22, each stitch cam is actually driven by the sliding block 22 to move on the mother board 10, the adjusting component is composed of an adjusting block 212, a pressure spring 213, a pressing plate 25, an adjusting screw 214 and the like which are arranged on the carriage 21, preferably, the pressing plate 25, the carriage 21, the sliding block 22 and the stitch cam are connected together through a fastening screw 24, and when the sliding block 22 acts, the stitch cam, the carriage 21 and the adjusting component can be driven to act together.

Specifically, the carriage 21 is bent to form a baffle 211, so that the adjusting screw 214 can be conveniently arranged in a penetrating manner to be connected with the adjusting block 212, the pressing plate 25 is preferably connected with the adjusting block 212 through a pressure spring 213, when the adjusting screw 214 is rotated, the adjusting block 212 compresses or releases the pressure spring 213, and when the stitch cam receives external force, the external force is sequentially transmitted to the pressure spring 213 through the sliding block 22, the carriage 21, the pressing plate 25 and the like to be released, so that the buffering effect is realized. In addition, according to the different elasticity degrees of pressure spring 213, can satisfy the requirement of different fabric density to mesh triangle, the adaptability is good.

Further, the back of the mother board 10 is provided with a plurality of stitch motors 27 corresponding to the stitch cams, a motor shaft of each stitch motor 27 is connected with a stitch cam 26 contacting with the stitch bearing 215, and the stitch cam 26 is always located on one side of the stitch bearing 215 facing the adjusting block 212.

Each stitch cam corresponds to a stitch motor 27, and during actual operation, the stitch cams are driven by the stitch motors 27 mounted on the back of the mother board 10, and the stitch motors 27 drive the corresponding stitch cams 26 to rotate and apply acting force to the stitch bearings 215, so as to further drive the carriage 21, the slide block 22, the press plate 25 and the like to move. The stitch cam 26 is preferably located on the side of the bearing facing the adjusting block 212, so that the stitch cam is moved back and forth in the slide groove 23.

Preferably, two mounting posts 321 are fixedly arranged on the adjusting plate 32, one of the mounting posts 321 is sleeved with the torsion spring 33, one end of the torsion spring 33 is connected with the other mounting post 321, and the other end of the torsion spring 33 is connected with the corresponding stitch bearing 215.

Preferably, the adjusting plate 32 is provided with the mounting post 321 for facilitating the installation of the torsion spring 33, wherein the torsion spring 33 is arranged corresponding to the two outside stitch cams 291, and the torsion spring 33 provides a certain thrust to the corresponding stitch bearing 215, so that when the carriage 21 drives the corresponding outside stitch cams 291 to move, the stitch bearing 215 is always in a contact state with the stitch cam 26, no gap is formed, the transmission state is further maintained, and the phenomena of fabric density change and fabric scrapping caused by transmission error are avoided.

Preferably, the stitch cam is provided with an upper needle pressing surface 281 and a lower needle pressing surface 282 at the top and the bottom, respectively, and the length of the upper needle pressing surface 281 is greater than that of the lower needle pressing surface 282.

In this embodiment, the top and the bottom of each stitch cam are preferably provided with an upper needle pressing surface 281 and a lower needle pressing surface 282 with different lengths, when the knitting needle moves, the stitch cam part presses the tail part of the knitting needle, and the needle pressing surfaces with different lengths can press different numbers of knitting needles according to requirements, so as to further meet the requirements of different fabric densities, and have good use effect.

Furthermore, the adjusting plate 32 partially extends out of the edge of the motherboard 10 and is provided with an arc-shaped groove 322, a locking screw 323 penetrates through the arc-shaped groove 322, and one end of the connecting plate 31 close to the adjusting plate 32 is provided with a locking hole 311 corresponding to the locking screw 323.

Preferably change the relative position between locking hole 311 and the arc wall 322 in this embodiment, realize the different height control of the side back stitch triangle 35 that corresponds, specifically carry out fixed connection, simple operation to connecting plate 31 and regulating plate 32 through locking screw 323.

The main looper cam 34 is provided with an adjusting hole 36, and is connected with the motherboard 10 through a locking screw 323, the relative position between the locking screw 323 and the adjusting hole 36 is changed, the up-and-down movement of the main looper cam 34 is realized, and the purpose of adjustment is achieved.

In addition, as shown in fig. 7, during actual production and manufacture, the side loop stitch cam 35 may be identical to the main loop stitch cam 34, the adjusting hole 36 is directly formed on the structure thereof, the locking screw 323 is also provided to be connected to the mother board 10, and when in use, the up-and-down movement of the side loop stitch cam 35 is realized by changing the relative position between the locking screw 323 and the adjusting hole 36, thereby achieving the purpose of adjusting the side loop stitch cam 35.

Preferably, the back of the motherboard 10 is further provided with two driving motors 40 corresponding to the two sets of triangle units, two ends of each driving motor 40 respectively extend outwards to form an output shaft and are fixedly connected with a first cam 41 and a second cam 42, the first cam 41 is provided with an upper cam sheet 411 and a lower cam sheet 412 which are arranged in parallel, and the second cam 42 is provided with a front cam sheet 421 and a rear cam sheet 422 which are arranged in parallel.

Further, an upper fixing plate 50 is disposed above the driving motor 40, and a stitch guide 51 corresponding to the stitch cam 12 and a plurality of knitting guides 52 corresponding to the knitting cams 13 are formed in the upper fixing plate 50 to penetrate toward the mother board 10, the stitch guide 51 is connected to the upper cam plate 411, and the knitting guides 52 are connected to the lower cam plate 412, respectively.

Each driving motor 40 in this embodiment is preferably a two-shaft motor, and is disposed corresponding to two sets of triangular units, two motors 27 in each set of triangular units are respectively arranged on two sides of the corresponding driving motor 40, and the driving motor 40 drives each corresponding triangular component on the motherboard 10 through the first cam 41 and the second cam 42.

The needle-turning cam 12 and the knitting cam 13 are respectively connected with the first cam 41 through the corresponding needle-turning guide rod 51 and the corresponding knitting guide rod 52, and the driving motor 40 drives the first cam 41 to drive the needle-turning cam 12 and the knitting cam 13 to move. The upper fixing plate 50 is provided to facilitate installation of the stitch guide rod 51 and the knitting guide rod 52, and in this embodiment, the number of knitting guide rods 52 in each group of triangular units is preferably two, and is not limited in actual operation.

The stitch cam guide rod 51 is connected with the upper cam piece 411, the knitting guide rod 52 is connected with the lower cam piece 412, the upper cam piece 411 and the lower cam piece 412 are not overlapped, when the driving motor 40 drives the first cam 41 to rotate, tracks of the upper cam piece 411 and the lower cam piece 412 are not consistent, and therefore the respective actions of the stitch cam 12 and the knitting cam 13 are achieved.

Preferably, a lower fixing plate 60 is arranged below the driving motor 40, two needle lifting guide rods 61 and two eye lifting guide rods 62 are arranged in the lower fixing plate 60 in a penetrating manner towards the mother board 10, each needle lifting guide rod 61 penetrates through the mother board 10 and is connected with a needle lifting triangle 14, each eye lifting guide rod 62 penetrates through the mother board 10 and is connected with an eye lifting triangle 15, and the two eye lifting triangles 15 are positioned between the two corresponding needle lifting triangles 14.

Furthermore, one of the eye hanging guide rods 62 is connected with the front cam plate 421, the other eye hanging guide rod 62 is connected with the rear cam plate 422, each eye hanging guide rod 62 is connected with the needle raising guide rod 61 close to the other eye hanging guide rod 62 through the sound-absorbing plate 70, and the two sound-absorbing plates 70 are positioned on the side of the lower fixing plate 60, which faces away from the mother plate 10.

The lower fixing plate 60 is provided to facilitate installation of the needle lifting guide rods 61 and the stitch guide rods 62, preferably, two needle lifting guide rods 61 penetrate through the mother plate 10 to connect the two needle lifting cams 14, and two stitch guide rods 62 penetrate through the mother plate 10 to connect the two stitch cams 15, preferably, the two stitch cams 15 are located between the two corresponding needle lifting cams 14.

Preferably, the two eye hanging guide rods 62 are respectively connected with the front cam piece 421 and the rear cam piece 422, the driving motor 40 drives the two eye hanging guide rods 62 to move when working, and similarly, the movement tracks of the front cam piece 421 and the rear cam piece 422 are not consistent, so that the eye hanging guide rods 62 can move alternately to perform corresponding work.

It is worth mentioning that the knitting needle moves along the edge of the needle raising cam 14 during operation, so that the striking is easy to occur and the noise is generated. In the embodiment, two sound-absorbing plates 70 are preferably arranged on one side of the lower fixing plate 60, which is far away from the mother plate 10, each sound-absorbing plate 70 connects the interlaced stitch guide rod 62 with the needle-lifting guide rod 61, and when one stitch guide rod 62 acts, the needle-lifting guide rod 61 on the other side can be driven to act together, so that transmission is reduced, meanwhile, a knitting needle can be prevented from impacting the needle-lifting cam 14, noise is prevented, a sound-absorbing effect is realized, and the use is convenient.

It is worth one, set up two sets of triangle units in this embodiment, also set up two sets of meshes of hanging triangle 15, the knitting needle of being convenient for in the stroke both can weave, can hang the mesh again, realizes the function of hanging the mesh in the same line, and the flexibility is good, and the operation effect is ideal, further improves the efficiency of production.

In actual work, the needle turning guide rod 51 and the weaving guide rod 52 are respectively provided with a support 53 with a bearing, the needle turning guide rod and the weaving guide rod are in contact with corresponding cam sheets through the bearings for transmission, and the two eye hanging guide rods 62 are respectively provided with a support plate 63 with a bearing, so that the needle turning guide rod and the weaving guide rod are convenient to be in contact with the corresponding cam sheets for transmission, and the transmission is ensured to be reliable and stable. In addition, each guide rod is sleeved with a spring 90, so that stable transmission between each guide rod and the corresponding cam piece is further ensured.

An induction disc 80 is sleeved on an output shaft between each second cam 42 and the corresponding driving motor 40, and six induction grooves are designed on the induction disc 80, so that the knitting work of the stitch cam 12, the knitting cam 13, the needle raising cam 14 and the stitch cam 15 can be conveniently realized by computer program control, and further the knitting function of various fabrics can be realized.

The double-system collar knitting machine cam plate suitable for multi-density knitting is reasonable in structure arrangement, corresponding stitch cams can be conveniently adjusted through the matched arrangement of the pressure spring 213, the adjusting block 212 and the adjusting screw 214, the buffering force is improved, and the damage to knitting needles is reduced; the adjusting plate 32 and the connecting plate 31 are arranged to adjust the height of the side backstitch triangle 35, so that different fabric requirements are met; the arrangement of the sound-absorbing plate 70 reduces the motor transmission on one hand, reduces the noise generation in the working process on the other hand, and has good use effect; in addition, the two groups of triangular units can realize the function of the same-row hoisting purpose while improving the weaving efficiency, and have obvious operation effect and good production effect.

The preferred embodiments of the present invention are described herein, but the scope of the present invention is not limited thereto. Modifications or additions to or replacement by similar means to those skilled in the art to which the invention pertains to the specific embodiments described herein are intended to be covered by the scope of the invention.

Claims (10)

1. A dual system collar weaving gable, adapted for multi-density weaving, comprising:

the needle-turning type three-dimensional template comprises a mother board, wherein two groups of triangular units are arranged on the mother board in parallel, each triangular unit comprises a herringbone triangle arranged on the face of the mother board, a weaving triangle is movably arranged below the herringbone triangle, and a needle-turning triangle is arranged between the herringbone triangle and the weaving triangle in a penetrating manner;

the mesh triangles are arranged into two groups and are arranged corresponding to the two groups of triangle units, the mesh triangles are pairwise arranged into one group, the two mesh triangles in the same group are symmetrically arranged on two sides of the corresponding herringbone triangle, two adjacent mesh triangles in the two groups of mesh triangles are inner mesh triangles, the two opposite mesh triangles are outer mesh triangles, the back of each mesh triangle is provided with a dragging plate, one end of the dragging plate is provided with an adjusting component, and the other end of the dragging plate is provided with a mesh bearing;

the back stitch component comprises two back stitch triangles which are respectively arranged at two sides of a mother board and a main back stitch triangle positioned at the middle part of the mother board, the two back stitch triangles are in one-to-one correspondence with the two outer stitch triangles, the bottoms of the two inner stitch triangles are respectively close to two side edges of the main back stitch triangle, a connecting plate is fixedly connected on each side back stitch triangle, two adjusting plates in one-to-one correspondence with the two connecting plates are installed at the back of the mother board, and each adjusting plate is connected with a corresponding stitch bearing through a torsion spring.

2. The dual-system collar weaving machine mountain plate suitable for multi-density weaving of claim 1, wherein the adjusting assembly comprises a pressing plate and an adjusting block mounted on the carriage, the adjusting block is fixedly connected with the pressing plate through a pressure spring, the end of the carriage is bent to form a baffle, an adjusting screw connected with the adjusting block penetrates through the baffle, a sliding block is further arranged between the carriage and the corresponding stitch cam, a fastening screw penetrates through the pressing plate, and the fastening screw penetrates through the carriage, the sliding block and the stitch cam in sequence.

3. The dual-system collar weaving machine mountain board suitable for multi-density weaving according to claim 2, characterized in that the back of the mother board is provided with a plurality of stitch motors corresponding to the stitch cams, the motor shaft of each stitch motor is connected with a stitch cam contacting with the stitch bearing, and the stitch cam is always positioned on the side of the stitch bearing facing the adjusting block.

4. The dual-system collar weaving machine mountain board suitable for multi-density weaving of claim 1, 2 or 3, wherein two mounting columns are fixedly arranged on the adjusting plate, one of the mounting columns is sleeved with the torsion spring, one end of the torsion spring is connected with the other mounting column, and the other end of the torsion spring is connected with a corresponding stitch bearing.

5. The dual-system collar weaving machine mountain plate suitable for multi-density weaving according to claim 1, 2 or 3, wherein the adjusting plate extends out of the edge of the mother plate and is provided with an arc-shaped groove, a locking screw penetrates through the arc-shaped groove, and one end of the connecting plate, which is close to the adjusting plate, is provided with a locking hole corresponding to the locking screw.

6. The dual system collar weaving machine cam plate suitable for multi-density weaving according to claim 1, wherein the back of the mother plate is further provided with two driving motors corresponding to the two sets of cam units, each driving motor has two ends respectively extending outward the output shaft and being fixedly connected with a first cam and a second cam, the first cam has two parallel upper cam pieces and two parallel lower cam pieces, and the second cam has two parallel front cam pieces and two parallel rear cam pieces.

7. The dual system collar weaving machine mountain board suitable for multi-density weaving of claim 6, wherein an upper fixing board is provided above the driving motor, and a needle turning guide bar corresponding to the needle turning cam and a plurality of weaving guide bars corresponding to the weaving cams are penetrated toward the mother board by the upper fixing board, the needle turning guide bar is connected to the upper cam plate, and each weaving guide bar is connected to the lower cam plate.

8. The dual-system collar weaving machine mountain board suitable for multi-density weaving according to claim 6, wherein a lower fixing board is arranged below the driving motor, two needle lifting guide rods and two eye lifting guide rods are arranged on the lower fixing board towards the mother board, each needle lifting guide rod penetrates through the mother board and is connected with a needle lifting triangle, each eye lifting guide rod penetrates through the mother board and is connected with an eye lifting triangle, and the two eye lifting triangles are positioned between the two corresponding needle lifting triangles.

9. A dual system collar knitting machine cam plate adapted for multiple density knitting according to claim 8 wherein one of the eye guide rods is connected to the front cam plate and the other eye guide rod is connected to the rear cam plate, each eye guide rod being connected to a needle raising guide rod adjacent the other eye guide rod by a sound absorbing plate, the two sound absorbing plates being located on a side of the lower mounting plate facing away from the mother plate.

10. The dual system collar knitting machine as claimed in claim 1, wherein the top and bottom of the stitch cam are respectively provided with an upper needle pressing surface and a lower needle pressing surface, and the length of the upper needle pressing surface is greater than that of the lower needle pressing surface.

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