CN115821478A - Knit socks margin to seam integral type hosiery machine - Google Patents

Abstract

The invention provides a sock-knitting and head-sewing integrated hosiery machine which comprises a knitting assembly, a swing arm and a head-sewing assembly, wherein the knitting assembly is connected with the head-sewing assembly through the swing arm and comprises a middle disc, the middle disc is arranged in the knitting assembly, a knitting needle control device is arranged on the upper side of the middle disc and used for controlling the position of a knitting needle, and the functions of automatically finishing the sock knitting and the head sewing of the hosiery machine are realized; by the aid of the integrated hosiery machine for hosiery and toe sewing, the hosiery machine can effectively sew the automatically knitted semi-finished hosiery, sock production efficiency is improved, labor consumption is reduced, protection of knitting needles is enhanced, service life of the hosiery machine is prolonged, safety of the hosiery machine is improved, structure of the hosiery machine is simplified, and cost consumption of the hosiery machine is reduced.

Description

Knit socks margin to seam integral type hosiery machine

Technical Field

The invention relates to the field of hosiery machines, in particular to a hosiery machine integrating hosiery and toe sewing.

Background

Among the prior art, the hosiery machine weaves after accomplishing socks, the socks both ends are link up, need artifical arrangement and shift semi-manufactured goods socks to socks margin to seam machine department, sew up the undertoe, and the knitting needle dispersion on the well disc subassembly after the hosiery machine weaves socks is comparatively uneven, and then make can't directly take away by the machine and weave the semi-manufactured goods socks of completion, therefore make the manpower of producing socks, the material resources consume great, and simultaneously, the production efficiency of socks is lower, therefore how to improve the work efficiency of hosiery machine, the structure of improving the hosiery machine has important meaning.

In patent CN111996654A, a hosiery machine middle disc assembly is mentioned, in which a needle raising knife in a rubber band knife assembly is slidably arranged in a needle raising knife groove, the needle raising knife is pushed to advance and retract by a needle raising knife cylinder, a middle diamond corner needle raising knife in a middle diamond corner assembly is slidably arranged in a middle diamond corner needle raising knife chute, and a piston rod of a middle diamond corner needle raising knife driving motor is connected with the middle diamond corner needle raising knife to drive the middle diamond corner needle raising knife to advance and retract, and the invention also relates to a right needle pressing knife arranged on a right needle raising assembly, wherein the right needle pressing knives are all arranged on a right needle raising base, and needle pressing knives are slidably arranged on a left loose head headstock along the direction of the left loose head chute, but the needle raising knife and the needle pressing knives are arranged near the right needle raising knife chute, and the structure is complicated and the cost is high.

Disclosure of Invention

In view of the above, the invention aims to provide a sock-knitting and toe-sewing integrated hosiery machine, which solves the problems that after a hosiery machine in the prior art knits socks, the socks cannot be directly sewn, and the distribution positions of knitting needles in a central disc component of the hosiery machine are uneven, so that automatic taking of the socks by the machine is influenced, the production efficiency of the socks is low, and the labor consumption is high; reach with this and make the hosiery machine can be effectual to the semi-manufactured goods socks margin to seam after automatic knitting, improve the efficiency of socks production, reduce artificial consumeing, make the hosiery machine knit the automation more of socks margin to seam, strengthen the protection to the knitting needle.

In order to achieve the purpose, the technical scheme of the invention is realized as follows:

the invention relates to a sock-knitting and head-sewing integrated hosiery machine which comprises a knitting assembly, a swing arm and a head-sewing assembly, wherein the knitting assembly is connected with the head-sewing assembly through the swing arm, the knitting assembly comprises a middle circular disc, the middle circular disc is arranged in the knitting assembly, a knitting needle control device is arranged on the upper side of the middle circular disc, and the knitting needle control device is used for controlling the position of a knitting needle so as to realize the function of automatically finishing the sock knitting and the head sewing of the hosiery machine.

Furthermore, the middle disc comprises a middle table top and a middle steel ring, the upper end of the middle steel ring is connected with the bottom surface of the middle table top, and the top of the middle table top is provided with a knitting needle control device.

Furthermore, the middle table top comprises a table top through hole, and the knitting needle control device is arranged at the top of the middle table top in a manner of uniformly distributing along the circumference by taking the center of the table top through hole as the center of a circle.

Furthermore, the knitting needle control device comprises an upper cam control assembly, a needle raising assembly and a needle pressing assembly, the upper cam control assembly comprises a slide rail cavity, the slide rail cavity is arranged on the left side of the upper end of the upper cam control assembly, the needle raising assembly is arranged inside the slide rail cavity of the upper cam control assembly, and the needle pressing assembly is arranged inside the slide rail cavity of the upper cam control assembly.

Furthermore, go up triangle control assembly and include three hornblocks, activity three hornblocks, go up triangle cylinder and activity triangle cylinder, go up three hornblocks and be connected with last triangle cylinder through last A-frame and/or reset spring, activity three hornblocks pass through movable triangle slider and are connected with activity triangle cylinder, and activity three hornblocks set up in last three hornblocks below, and activity triangle cylinder sets up in the below of last triangle cylinder.

Furthermore, go up the triangle piece and include a triangle piece and go up two triangle pieces, go up the triangle-shaped support and include first support and second support, reset spring includes a spring and a spring two spring, goes up a triangle piece and is connected with last triangle cylinder through first support and/or a spring, goes up two triangle pieces and is connected with last triangle cylinder through second support and/or a spring two spring.

Further, the needle raising assembly comprises a needle raising support and a needle raising knife, the needle raising knife is arranged inside a sliding rail cavity of the upper triangular control assembly through the needle raising support, and the needle raising knife is arranged between the upper triangular block and the upper two triangular blocks.

Furthermore, the needle raising knife comprises a first needle raising surface and a second needle raising surface, the first needle raising surface and the second needle raising surface are arranged in a staggered mode, and the first needle raising surface and the second needle raising surface can control the state of the knitting needle when the needle cylinder rotates forwards or backwards.

Further, the tucking subassembly includes tucking support and tucking sword, and the tucking sword passes through tucking support and sets up inside last triangle control assembly's slide rail cavity, and the tucking sword sets up between last three hornblocks and last two three hornblocks.

Further, the needle pressing knife comprises a first needle pressing surface, the shape of the first needle pressing surface is any one of a rhombus shape and a trapezoid shape, and the first needle pressing surface is used for increasing the contact area between the needle pressing knife and the needle pressing support.

Compared with the prior art, the integrated hosiery machine for knitting socks and sewing toes provided by the invention has the following beneficial effects:

through hosiery machine setting, make hosiery machine can effectually improve the efficiency of socks production to the semi-manufactured goods socks margin to seam after automatic knitting, reduce artificial consumeing, make hosiery machine knit socks margin to seam automation more, strengthen the protection to the knitting needle, prolong hosiery machine's life, improve hosiery machine's security, simplify hosiery machine's structure, reduce hosiery machine's cost consumption, improve hosiery machine's economic benefits.

Drawings

The accompanying drawings, which form a part hereof, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description, serve to explain the invention and not to limit the invention. On the attachment

In the figure:

FIG. 1 is a schematic view of the overall structure of the hosiery machine;

FIG. 2 is a schematic view of a first perspective of a center disk assembly;

FIG. 3 is a schematic view of a first perspective of the tucker blade assembly;

FIG. 4 is a left side view of the tucker blade assembly;

FIG. 5 is a second perspective view of the tucker blade assembly;

FIG. 6 is a schematic view of a first perspective of the needle raising blade assembly;

FIG. 7 is a left side view of the needle raising knife assembly;

FIG. 8 is a schematic view of the needle raising knife assembly from a second perspective;

FIG. 9 is a second perspective view of the center disk assembly;

FIG. 10 is a schematic view of a slide cover;

FIG. 11 is a schematic top view of an upper triangular cylinder;

FIG. 12 is a schematic cross-sectional view of an upper triangular control assembly;

FIG. 13 is a schematic view of a three-cylinder;

fig. 14 is a schematic view of the connection of the upper cam assembly and the upper cam cylinder.

Description of reference numerals: 1. weaving the assembly; 11. a middle disc; 111. a middle table-board; 1111. a mesa through hole; 112. a middle steel ring; 2. swinging arms; 3. a stitch assembly; 4. a knitting needle control device; 41. an upper triangular control assembly; 411. a slide rail cavity; 412. an upper triangular block; 4123. a triangular block is arranged; 4124. the upper two triangular blocks; 413. a movable triangular block; 414. an upper triangular cylinder; 415. a movable triangular cylinder; 416. a movable triangular slide block; 417. an upper triangular component; 418. a traction block; 419. a traction through hole; 420. a bump; 42. a needle raising assembly; 421. a needle raising bracket; 422. a needle raising knife; 4221. a first needling surface; 4222. a second needling surface; 43. a needle pressing assembly; 431. a needle pressing bracket; 432. a needle pressing knife; 4321. a first needle pressing surface; 44. an upper triangular bracket; 441. a bracket one part; 442. a second bracket part; 443. a bracket III; 444. a bracket groove; 445. a first bracket; 446. a second bracket; 45. a return spring; 451. a spring is sprung; 452. a second spring; 461. moving a triangular block; 462. two movable triangular blocks; 463. a triangular sliding block is movable; 464. a movable two-triangular slide block; 465. a movable air cylinder; 466. a movable second cylinder; 21. a cylinder assembly; 221. a cylinder part; 2211. a second side surface; 23. a base; 24. connecting blocks; 222. a second cylinder part; 2221. a first side surface; 25. a three-door cylinder; 251. a third side; 253. a first groove; 254. a cylinder bore; 252. a fourth side; 261. a first groove part; 262. a second groove part; 263. a groove III part; 27. a circular hole; 28. connecting the squares; 29. connecting the arc blocks; 30. a slide rail cover plate; 31. a cover plate groove; 32. a cover plate through hole; 321. a through hole is formed in the cover plate; 322. a second through hole of the cover plate; 33. and (7) a pin shaft.

Detailed Description

The inventive concepts of the present disclosure will be described hereinafter using terms commonly employed by those skilled in the art to convey the substance of their work to others skilled in the art. These inventive concepts may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

The present embodiment is directed to hosiery machines, which, like conventional hosiery machines, are composed of a motor, a main plate and knitting needles.

In the prior art, after the hosiery machine weaves the socks, the two ends of the socks are through, the semi-finished socks need to be manually arranged and transferred to the sock sewing machine, the socks are sewn, partial patents mention that the needle raising knife in the rubber band knife assembly in the middle disk composition of the hosiery machine is arranged in the needle raising knife groove in a sliding manner, the needle raising knife cylinder pushes the needle raising knife to advance and retreat, or the needle raising knife and the needle pressing knife are movably arranged below the middle edge angle.

The automatic hosiery taking machine aims to solve the problems that after hosiery is knitted by the hosiery machine in the prior art, direct head sewing of the hosiery cannot be carried out, and the distribution positions of knitting needles in the intermediate disc component of the hosiery machine are uneven, so that automatic hosiery taking of the machine is influenced, the production efficiency of the hosiery is low, and the labor consumption is high; this embodiment provides a knit socks margin to seam integral type hosiery machine, including weaving subassembly 1, swing arm 2 and margin to seam subassembly 3, weave subassembly 1 and be connected with margin to seam subassembly 3 through swing arm 2, weave subassembly 1 and include well disc 11, well disc 11 sets up in the inside of weaving subassembly 1, and 11 upsides of well disc set up knitting needle controlling means 4, and knitting needle controlling means 4 is used for controlling the position of knitting needle, realizes the function that the hosiery of hosiery machine and margin to seam are automatic to be accomplished.

Through weaving subassembly 1, swing arm 2 and the first integral type production of sewing up of subassembly 3, can effectual realization knit socks and sew up the first integral type production, improved production efficiency greatly, strengthened the security of socks production, simultaneously, improved the quality of hosiery machine, simplified the structure of hosiery machine, increased the reliability of hosiery machine.

The middle disc 11 comprises a middle table top 111 and a middle steel ring 112, the upper end of the middle steel ring 112 is connected with the bottom surface of the middle table top 111, the top of the middle table top 111 is provided with a knitting needle control device 4, the middle table top 111 comprises a table top through hole 1111, the knitting needle control device 4 is arranged at the top of the middle table top 111 in a manner of uniformly distributing along the circumference by taking the center of the table top through hole 1111 as the center of a circle, and at least four knitting needle control devices 4 are arranged; the knitting needle control device 4 comprises an upper cam control assembly 41, a needle raising assembly 42 and a needle pressing assembly 43, wherein the upper cam control assembly 41 comprises a sliding rail cavity 411, the sliding rail cavity 411 is arranged on the left side of the upper end of the upper cam control assembly 41, the needle raising assembly 42 is arranged inside the sliding rail cavity 411 of the upper cam control assembly 41, and the needle pressing assembly 43 is arranged inside the sliding rail cavity 411 of the upper cam control assembly 41.

Through the setting of knitting needle controlling means 4, can effectual realization simplify the structure of hosiery machine to the control of hosiery machine knitting needle, strengthen the protection to the knitting needle, prevent that swing arm 2 from transferring to come or when the manual work gets the socks, hit bad knitting needle, improve the stability of device, reduce artificial use.

The upper triangular control component 41 comprises an upper triangular block 412, a movable triangular block 413, an upper triangular cylinder 414 and a movable triangular cylinder 415, wherein the upper triangular block 412 is connected with the upper triangular cylinder 414 through an upper triangular support 44 and/or a return spring 45, the movable triangular block 413 is connected with the movable triangular cylinder 415 through a movable triangular sliding block 416, the movable triangular block 413 is arranged below the upper triangular block 412, the movable triangular cylinder 415 is arranged below the upper triangular cylinder 414, and the upper triangular block 412 and the movable triangular block 413 are used for controlling the motion path of the sock knitting needle; the upper triangular block 412 comprises an upper triangular block 4123 and an upper two triangular blocks 4124, the upper triangular bracket 44 comprises a first bracket 445 and a second bracket 446, the return spring 45 comprises a first spring 451 and a second spring 452, the upper triangular block 4123 is connected with the upper triangular cylinder 414 through the first bracket 445 and/or the first spring 451, and the upper two triangular blocks 4124 is connected with the upper triangular cylinder 414 through the second bracket 446 and/or the second spring 452; the movable triangle block 413 comprises a movable triangle block 461 and a movable triangle block 462, the movable triangle slider 416 comprises a movable triangle slider 463 and a movable triangle slider 464, the movable triangle cylinder 415 comprises a movable cylinder 465 and a movable cylinder 466, the movable triangle block 461 is connected with the movable cylinder 465 through the movable triangle slider 463, the movable triangle block 462 is connected with the movable cylinder 466 through the movable triangle slider 464, the movable triangle block 461 is arranged below the upper triangle block 4123, the movable triangle block 462 is arranged below the upper triangle block 4124, the movable triangle block 461 is arranged in parallel with the movable triangle block 462, and the movable triangle block 461 is arranged at the rear side of the movable triangle block 462.

Through mutually supporting of last triangle piece 412 and movable triangle piece 413, can effectual improvement socks needle motion path's change, improve the efficiency of weaving of socks flower type simultaneously, strengthen the work efficiency of hosiery machine, simultaneously, movable triangle slider 416, reset spring 45 and go up the stability that the setting of A-frame 44 further improved the hosiery machine structure, have strengthened the reliability of hosiery machine operation, have simplified the structure of well dish 11 simultaneously, have reduced the cost of hosiery machine.

The needle raising assembly 42 comprises a needle raising support 421 and a needle raising knife 422, the needle raising knife 422 is arranged inside the sliding rail cavity 411 of the upper triangular control assembly 41 through the needle raising support 421, and the needle raising knife 422 is arranged between the upper triangular block 4123 and the upper triangular block 4124; the needle raising knife 422 comprises a first needle raising surface 4221 and a second needle raising surface 4222, the first needle raising surface 4221 and the second needle raising surface 4222 are arranged in a staggered mode, the first needle raising surface 4221 and the second needle raising surface 4222 are used for controlling the state of a knitting needle when a needle cylinder rotates forwards or reversely, the needle raising knife 422 is in a triangular prism shape, the left view of the needle raising knife 422 is in a triangular shape, and the knitting needle can be acted by the first needle raising surface 4221 and the second needle raising surface 4222 of the needle raising knife 422 when the needle cylinder rotates forwards or reversely, so that the knitting needle can be controlled in multiple directions; the needle pressing assembly 43 comprises a needle pressing bracket 431 and a needle pressing knife 432, the needle pressing knife 432 is arranged inside the slideway cavity 411 of the upper triangular control assembly 41 through the needle pressing bracket 431, and the needle pressing knife 432 is arranged between an upper triangular block 4123 and an upper triangular block 4124; the needle pressing knife 432 comprises a first needle pressing surface 4321, the first needle pressing surface 4321 is in a shape of any one of a diamond and a trapezoid, and the first needle pressing surface 4321 is used for increasing the contact area between the needle pressing knife 432 and the needle pressing support 431.

The setting of the needle raising knife 422 or the needle pressing knife 432 is beneficial to improving the stability of the knitting needle controlled by the needle raising knife 422 or the needle pressing knife 432, enhancing the knitting needle can be effectively controlled by the needle raising knife 422 or the needle pressing knife 432 under different conditions of the needle cylinder, further enhancing the working efficiency of the hosiery machine, protecting the safety of the knitting needle and reducing the possibility that the machine is in fault and needs to be overhauled.

The knitting needle control device 4 further comprises a cylinder assembly 21, a sliding rail cover plate 30 and an upper triangular assembly 417, the cylinder assembly 21 comprises an upper triangular cylinder 414 and a three-door cylinder 25, the upper side of the upper triangular cylinder 414 is respectively provided with the three-door cylinder 25 and the sliding rail cover plate 30, a sliding rail cavity 411 is formed between the sliding rail cover plate 30 and the upper triangular cylinder 414, one end of the upper triangular assembly 417 is arranged in the sliding rail cavity 411, the other end of the upper triangular assembly 417 is connected with the upper triangular cylinder 414, and the upper triangular assembly 417 can realize double control of forward and backward movement through the upper triangular cylinder 414.

The cylinder assembly 21 and the sliding rail cover plate 30 are combined, the advance and retreat of the upper triangular component 417 in the hosiery machine work can be effectively improved, meanwhile, the stability of the upper triangular component 417 can be favorably enhanced through dual control, the accuracy of the upper triangular component 417 is improved, the structure of the control device is simplified, the reliability of the control device is improved, the damage to the upper triangular control device in the external collision centering disc 11 is reduced, and the service life of the control device is prolonged.

The upper triangular cylinder 414 comprises a first cylinder part 221 and a second cylinder part 222, the second cylinder part 222 is arranged on the upper side of the first cylinder part 221, the second cylinder part 222 comprises a first side surface 2221, the first cylinder part 221 comprises a second side surface 2211, the three-door cylinder 25 comprises a third side surface 251 and a fourth side surface 252, the first side surface 2221 is attached to the third side surface 251, the upper side of the second cylinder part 222 is attached to the bottom surface of the slide rail cover plate 30, and the fourth side surface 252 is attached to the second side surface 2211; a bracket groove 444 is formed in one side, facing the slide rail cover plate 30, of the second cylinder part 222, a round hole 27 is formed in one side, away from the three-door cylinder 25, of the second cylinder part 222, and a slide rail cavity 411 is formed between the bracket groove 444 and the slide rail cover plate 30; the bracket grooves 444 are used for providing a sliding rail for the upper triangular component 417 and limiting the upper triangular component 417, at least two bracket grooves 444 are arranged, and at least two circular holes 27 are arranged; the bracket groove 444 comprises a first groove part 261, a second groove part 262 and a third groove part 263, the first groove part 261 is connected with the third groove part 263 through the second groove part 262, the first groove part 261, the second groove part 262 and the third groove part 263 are integrally formed, the first groove part 261 and the third groove part 263 are both square grooves, the groove wall of the second groove part 262 at least comprises an arc surface, the groove width a of the third groove part 263 is larger than the groove width b of the first groove part 261, the groove width a of the third groove part 263 is smaller than or equal to the groove width c of the second groove part 262, the first cylinder part 221 comprises a base 23 and a connecting block 24, the left side of the base 23 is connected with the second cylinder part 222 through the connecting block 24, and the upper side of the base 23 is connected with the three-door cylinder 25; the connecting block 24 comprises a connecting block 28 and a connecting arc block 29, the connecting block 28 is connected with the base 23 through the connecting arc block 29, the inner side surface of the connecting arc block 29 is an arc surface, wherein the three-door cylinder 25 comprises a first groove 253 and a cylinder hole 254, at least two first grooves 253 are arranged, the first groove 253 is connected with one end close to the support groove 444, the other end of the first groove 253 is connected with the cylinder hole 254 and used for providing power for the movement of the upper triangular component 417, a cylinder is arranged in the first groove 253 and used for providing power for the movement of the upper triangular component 417, and in the embodiment, a, b and c refer to corresponding marked position width values.

Through the setting of each part in last triangle cylinder 414, can effectually go up triangle subassembly 417 and provide the slip space, the effectual stability that improves controlling means of setting up of each part of support recess 444 simultaneously, has improved controlling means's security, simultaneously, has simplified the structure, has strengthened the firm power of structure, extension fixture's life.

The slide rail cover plate 30 comprises cover plate grooves 31 and cover plate through holes 32, the cover plate grooves 31 are formed in the bottom end, close to the three-door cylinder 25, of the slide rail cover plate 30, the cover plate through holes 32 are formed in the left side and the right side of the slide rail cover plate 30, at least two cover plate grooves 31 are formed, and at least two cover plate through holes 32 are formed; the cover plate through hole 32 comprises a cover plate first through hole 321 and a cover plate second through hole 322, the cover plate first through hole 321 is arranged at the left end of the upper side of the slide rail cover plate 30, the cover plate second through hole 322 is arranged at the right end of the upper side of the slide rail cover plate 30, the slide rail cover plate 30 is connected with the upper triangular cylinder 414 through a bolt arranged in the cover plate first through hole 321 of the cover plate through hole 32, the slide rail cover plate 30 is connected with the cylinder second part 222 of the upper triangular cylinder 414 through a pin shaft 33 arranged in the cover plate second through hole 322, the cover plate second through hole 322 is communicated with one end, far away from the upper triangular component 417, of the round hole 27, the cover plate groove 31 is used for facilitating the advance and retreat of the cylinder, the cover plate through hole 32 is used for installing the bolt or the pin shaft 33, and facilitating the connection of the slide rail cover plate 30 and the upper triangular cylinder 414.

The upper triangular component 417 and the cylinder component 21 can be effectively protected by arranging the cover plate groove 31 and the cover plate through hole 32, the safety of the control device is improved, the protection of the control device is enhanced, meanwhile, the influence of dust on the upper triangular component and the cylinder component is prevented, the influence of steam on a zero device can also be prevented, a relatively closed space can be provided for the device, and the working efficiency of the cylinder component 21 is improved.

The upper triangular assembly 417 comprises an upper triangular block 412, an upper triangular support 44 and a return spring 45, one end of the upper triangular support 44 is arranged in the sliding rail cavity 411, the other end of the upper triangular support 44 is connected with the return spring 45 through the upper triangular block 412, and one end of the return spring 45 far away from the upper triangular block 412 is arranged in the round hole 27; the number of the upper triangular blocks 412 is at least two, the upper triangular blocks 412 are used for controlling the motion path of knitting needles of socks, the number of the upper triangular supports 44 is at least two, the number of the return springs 45 is at least two, one end, close to the air cylinder assembly 21, of each upper triangular block 412 is provided with a traction block 418, one end, far away from the upper triangular blocks 412, of each traction block 418 is provided with a traction through hole 419, one end of each return spring 45 is clamped with the traction through hole 419 of the traction block 418, the other end of each return spring 45 is connected with a pin shaft 33, the pin shaft 33 is vertically arranged in the round hole 27 in a penetrating mode with the central line of the round hole 27, and the return springs 45 in the round holes 27 are used for providing an acting force, opposite to the acting direction provided by the air cylinder assembly 21 to the upper triangular supports 44, so that the upper triangular supports 44 are reset; upper triangular bracket 44 includes bracket one part 441, bracket two part 442 and bracket three part 443, bracket one part 441, bracket two part 442 and bracket three part 443 are integrally formed, one end of bracket one part 441 is connected with upper triangular block 412, the other end of bracket one part 441 is connected with bracket three part 443 through bracket two part 442, one end of bracket three part 443 far away from bracket two part 442 is connected with bracket groove 444, width d of bracket three part 443 is larger than width e of bracket two part 442, width e of bracket two part 442 is smaller than width f of bracket one part 441, width f of bracket one part 441 is larger than or equal to width e of bracket two part 442, bracket groove 444 is arranged on one side of bracket one part 441 close to upper triangular block 412, lug 420 is arranged on one end of upper triangular block 412 close to cylinder assembly 21, upper triangular block 412 is clamped with bracket groove 444 through lug 420, upper triangular bracket 44 is arranged in slide rail cavity 411, upper triangular bracket 44 slides back and forth in bracket groove 444 under the action of cylinder assembly 21, in this embodiment, e, f, g all refer to the width values of corresponding positions.

Through traction block 418, the setting of lug 420 can be effectual will go up triangular block 412 respectively with reset spring 45, go up triangular support 44 fixed connection, and then the reinforcing is to the control of going up triangular block 412, be convenient for under the effect of cylinder assembly 21, the removal left of going up triangular block 412 can be realized, under reset spring 45's effect, the right removal of realizing going up triangular block 412 returns the normal position, and simultaneously, be favorable to realizing the flexibility of device, the stability of reinforcing means, the structure of simplifying means, the cost of reducing means, the work efficiency of high-voltage installation.

The working principle is as follows:

under the action of the cylinder assembly 21, the upper triangular assembly 417 is pushed to slide leftwards, when the upper triangular assembly 417 needs to slide rightwards, only the cylinder assembly 21 needs to stop working, the reset spring 45 plays a reset role to drive the upper triangular assembly 417 to slide rightwards, under the action of different cylinder assemblies 21, the needle raising assembly 42 or the needle pressing assembly 43 alternately work, the needle raising assembly 42 is used for withdrawing a knitting needle state after the sock leg is knitted by the knitting assembly 1, the needle pressing assembly 43 is used for pressing down the knitting needle when the sock leg is taken away by the swing arm 2, the knitting needle is prevented from damaging the sock surface or a machine, the safety of the device is ensured, after the sock leg is taken away by the swing arm 2, the sock leg is transferred to a fixing device of the stitch head assembly 3, and the stitch head assembly 3 performs stitch head treatment on unsealed socks, so as to realize the integrated production of knitting sock and stitch head.

Preferably, the upper triangular member 417 is provided on the cylinder member 21 at front and rear sides of the left end of the cylinder member 21 in front-rear symmetry about the cylinder member 21 as a central axis.

In the present invention, for any hosiery machine, the structure of the hosiery machine with integrated toe sewing in this embodiment may be included, and on the basis of the related structures and the assembly relationship of the middle circular disc 11, the knitting needle control device 4, and the needle raising knife 422 provided in this embodiment, the hosiery machine further includes conventional components including the structures of a motor, a main board, and knitting needles, which are not described herein again in detail in view of the fact that they are all the prior art.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. The utility model provides a knit socks margin to seam integral type hosiery machine, a serial communication port, including weaving subassembly (1), swing arm (2) and margin to seam subassembly (3), it is connected with margin to seam subassembly (3) through swing arm (2) to weave subassembly (1), it includes well disc (11) to weave subassembly (1), well disc (11) set up in the inside of weaving subassembly (1), well disc (11) upside sets up knitting needle controlling means (4), knitting needle controlling means (4) are used for controlling the position of knitting needle, realize the function that the hosiery machine knit socks and margin to seam are automatic to be accomplished.

2. A hosiery knitter and margin sewing integrated hosiery machine according to claim 1, characterized in that the central disk (11) comprises a central table surface (111) and a central steel ring (112), the upper end of the central steel ring (112) is connected with the bottom surface of the central table surface (111), and the top of the central table surface (111) is provided with a knitting needle control device (4).

3. The hosiery knitter and margin-sewing integrated hosiery machine according to claim 2, characterized in that the middle table-board (111) comprises a table-board through hole (1111), and the knitting needle control device (4) is arranged on the top of the middle table-board (111) in a manner of being evenly distributed along the circumference with the center of the table-board through hole (1111) as the center.

4. A hosiery toe-stitching all-in-one hosiery machine according to claim 3, characterized in that the knitting needle control device (4) comprises an upper cam control component (41), a needle raising component (42) and a needle pressing component (43), the upper cam control component (41) comprises a slideway cavity (411), the slideway cavity (411) is arranged at the left side of the upper end of the upper cam control component (41), the needle raising component (42) is arranged inside the slideway cavity (411) of the upper cam control component (41), and the needle pressing component (43) is arranged inside the slideway cavity (411) of the upper cam control component (41).

5. A hosiery knitting and toe sewing integrated hosiery machine according to claim 4, characterized in that the upper triangle control component (41) comprises an upper triangle block (412), a movable triangle block (413), an upper triangle cylinder (414) and a movable triangle cylinder (415), the upper triangle block (412) is connected with the upper triangle cylinder (414) through an upper triangle bracket (44) and/or a return spring (45), the movable triangle block (413) is connected with the movable triangle cylinder (415) through a movable triangle sliding block (416), the movable triangle block (413) is arranged below the upper triangle block (412), and the movable triangle cylinder (415) is arranged below the upper triangle cylinder (414).

6. A hosiery toe-stitching all-in-one hosiery machine according to claim 5, characterized in that the upper triangle (412) comprises an upper triangle (4123) and an upper triangle (4124), the upper triangle support (44) comprises a first support (445) and a second support (446), the return spring (45) comprises a first spring (451) and a second spring (452), the upper triangle (4123) is connected to the upper triangle cylinder (414) by the first support (445) and/or the first spring (451), and the upper triangle (4124) is connected to the upper triangle cylinder (414) by the second support (446) and/or the second spring (452).

7. A hosiery knitter and margin sewing integrated hosiery machine according to claim 6, characterized in that the needle raising component (42) comprises a needle raising support (421) and a needle raising knife (422), the needle raising knife (422) is arranged inside the slideway cavity (411) of the upper triangle control component (41) through the needle raising support (421), and the needle raising knife (422) is arranged between the upper triangle block (4123) and the upper two triangle blocks (4124).

8. A sock and toe sewing integrated hosiery machine according to claim 7, characterized in that the starting knife (422) comprises a first starting surface (4221) and a second starting surface (4222), the first starting surface (4221) and the second starting surface (4222) are arranged in a staggered mode, and the first starting surface (4221) and the second starting surface (4222) are used for controlling the state of knitting needles when a needle cylinder rotates forwards or backwards.

9. A hosiery toe-stitching all-in-one hosiery machine according to claim 6, characterized in that the presser assembly (43) comprises a presser foot support (431) and a presser foot knife (432), the presser foot knife (432) being arranged inside the runner cavity (411) of the upper cam control assembly (41) by means of the presser foot support (431), the presser foot knife (432) being arranged between the upper cam block (4123) and the upper cam block (4124).

10. A hosiery knitter and margin sewing integrated hosiery machine according to claim 9, wherein the needle pressing knife (432) comprises a first needle pressing surface (4321), the first needle pressing surface (4321) is in the shape of any one of a diamond and a trapezoid, and the first needle pressing surface (4321) is used for increasing the contact area between the needle pressing knife (432) and the needle pressing bracket (431).

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