CN112877886B

CN112877886B - Yarn pressing device of flat knitting machine and working method thereof

Info

Publication number: CN112877886B
Application number: CN202110033885.5A
Authority: CN
Inventors: 陈崇; 安勇强; 王靖敏; 钟佳明; 张锋
Original assignee: Tongxiang Qianglong Machinery Co Ltd
Current assignee: Tongxiang Qianglong Machinery Co Ltd
Priority date: 2021-01-11
Filing date: 2021-01-11
Publication date: 2022-05-17
Anticipated expiration: 2041-01-11
Also published as: CN112877886A

Abstract

The invention relates to a yarn pressing device of a flat knitting machine and a working method thereof.A sinker is arranged in a sinker holding tank; the sinker comprises a sinker body, an elastic presser foot part, a power blade heel part and a yarn pressing part; the sinker body is provided with three rotary positioning holes, and the yarn pressing part is provided with a through hole for limiting; the sinker needle plate is provided with three through grooves, a first positioning steel wire is arranged in each through groove, and three first positioning steel wires respectively penetrate through three rotary positioning holes; the axial leads of the three first positioning steel wires and three intersection points generated by the same cross section are not on the same straight line, the three intersection points determine a virtual circle, and the centers of all the virtual circles form a virtual axial lead; the power sheet heel part enables the sinker to rotate back and forth around the virtual axis under the action of power. The yarn pressing device reduces the use requirements on other flat knitting machine mechanisms such as a roller and a presser foot during weaving, facilitates the structural design optimization of the integrated garment machine, and is favorable for controlling the whole production cost.

Description

Yarn pressing device of flat knitting machine and working method thereof

Technical Field

The invention relates to the technical field of computerized flat knitting machines, in particular to a yarn pressing device of a flat knitting machine and a working method thereof.

Background

When the computerized flat knitting machine is used for knitting, a large amount of yarn needs to be filled, in order to prevent floating, a yarn pressing device is usually arranged on a front needle bed and a rear needle bed to press the yarn so that the yarn does not float, a sinker in the conventional yarn pressing device is usually arranged on a positioning steel wire in a penetrating mode, for example, as shown in the patent application with the publication number of CN111005143A, the sinker in the structure still has the defect of high looping floating piece probability under the driving of power and takes the positioning steel wire as a rotating shaft, and therefore the sinker needs to be improved and optimized.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides a yarn pressing device of a flat knitting machine and a working method thereof, wherein the yarn pressing device is reasonable in structural design and more optimized in structure.

The technical scheme adopted by the invention for solving the problems is as follows: a yarn pressing device of a flat knitting machine comprises a sinker and a sinker needle plate; the two sinker needle plates are symmetrically arranged above a needle bed of the flat knitting machine in a front-back manner; the sinker needle plate is provided with sinker holding grooves which are arranged in rows and used for holding sinkers, and the sinkers are arranged in the sinker holding grooves; the sinker comprises a flaky sinker body, and an elastic presser foot part, a power blade heel part and a yarn pressing part which are connected with the sinker body; the elastic presser foot part is connected below the sinker body, the power blade heel part is connected at the tail part of the sinker body, the yarn pressing part is connected at the head part of the sinker body, and a yarn pressing opening is formed in the yarn pressing part; when the sinker is arranged in the sinker accommodating groove, the heel part of the power blade and the yarn pressing part are exposed out of the sinker accommodating groove, and the elastic leg pressing part abuts against the bottom surface of the sinker accommodating groove; the method is characterized in that: the sinker body is provided with three rotary positioning holes, and the yarn pressing part is provided with a through hole for limiting; the three rotary positioning holes and one through hole for limiting are all long round holes; the sinker needle plate is provided with three parallel through grooves, and the opening direction of the through grooves is along the length direction of the sinker needle plate and is vertical to the opening direction of the sinker accommodating groove; a first positioning steel wire is arranged in each through groove, and three first positioning steel wires respectively penetrate through three rotary positioning holes in the sinker body; the limiting through hole is used for installing a second positioning steel wire, three first positioning steel wires and one second positioning steel wire are arranged in parallel, the axial leads of the three first positioning steel wires and three intersection points generated by the same cross section are not on the same straight line, the three intersection points determine a virtual circle, and the centers of all the virtual circles form a virtual axial lead; the power heel part enables the sinker to rotate back and forth around the virtual axis line under the action of power.

Preferably, the second positioning steel wire is arranged at the front end of the needle bed.

Preferably, a row of tooth mouth pieces with uniform intervals are installed at the front end of the needle bed, the yarn pressing part of the sinker extends into the space between two adjacent tooth mouth pieces, a round hole is formed in each tooth mouth piece, and the second positioning steel wire penetrates through the round hole.

Preferably, the front end part of the tooth mouth piece is provided with a yarn stop position point; when the heel part of the power blade is not under the action of power, under the action of elasticity generated by the elastic presser foot part and the limitation of three first positioning steel wires, after the sinker rotates forwards to a proper position, the yarn pressing opening is lower than the yarn stopping position point; when the heel part of the power piece is under the action of power, the yarn pressing opening is higher than the yarn stopping position point after the sinker rotates backwards to the right position.

Preferably, the sinker body, the elastic presser foot part, the power blade heel part and the yarn pressing part are integrally formed to manufacture the simple sinker.

Preferably, the sinker body, the elastic presser foot part and the power blade heel part are consistent in thickness, and the thickness of the yarn pressing part is smaller than that of the sinker body.

Preferably, the through hole for limiting is positioned at the rear lower position of the yarn pressing opening.

Preferably, the sinker needle plate is horizontally arranged, and of the three through grooves, two through grooves are formed in the upper surface of the sinker needle plate, and the other through groove is formed in the front side surface of the sinker needle plate.

Preferably, according to the direction from the head to the tail of the sinker body, the three rotation positioning holes are respectively a first rotation positioning hole, a second rotation positioning hole and a third rotation positioning hole, wherein the second rotation positioning hole and the third rotation positioning hole are arranged in a splayed manner, and the first rotation positioning hole and the third rotation positioning hole are also arranged in a splayed manner.

Preferably, the elastic presser foot part is arc-shaped, the front end of the elastic presser foot part is connected with the head part of the sinker body, and the rear end of the elastic presser foot part is tilted upwards.

The working method of the yarn pressing device comprises the following steps: the elastic presser foot part is acted by the acting force from the bottom surface of the sinker holding tank and under the action of limiting of three first positioning steel wires, after the sinker rotates forwards around a virtual axis line to a proper position, the presser foot is lower than a yarn stopping position point, the yarn is pressed downwards to feed the yarn, a new arc is formed between the tooth mouth piece and a needle hook of the knitting needle, then the sinker rotates backwards around the virtual axis line to a proper position under the action of power (driven by a sinker cam), the presser foot is higher than the yarn stopping position point, the knitting needle naturally drives the new arc to downwards pass around the yarn stopping position point, the power borne by the sinker is released (namely the sinker cam is released), the sinker rotates forwards around the virtual axis line again, the yarn is pressed downwards to drive a new coil to move downwards, and a new forming coil is pressed between the tooth mouth piece and the presser foot.

Compared with the prior art, the invention has the following advantages and effects:

1. the structure of the sinker is more optimized and simpler, and the installation is convenient;

2. the sinker is provided with three rotary positioning holes, a first positioning steel wire is arranged in each rotary positioning hole, the axial lead of each of the three first positioning steel wires can determine a virtual axial lead, and the sinker rotates back and forth around the virtual axial lead under the action of power, so that the operation is more stable, the working mechanism of the sinker is changed, and the design and the transformation are more convenient; in addition, the positioning steel wire penetrates through the limiting through hole, so that the running stability and the wire pressing reliability are ensured, and the probability of the looped floating sheet is reduced;

3. the yarn pressing device reduces the use requirements on other flat knitting machine mechanisms such as a roller, a presser foot and the like during weaving, facilitates the structural design optimization of the integrated clothing-forming machine, and is beneficial to controlling the overall production cost;

4. the original machine type is only slightly changed, the integral structure of the machine type is not influenced, and the transformation cost and the design and manufacture difficulty are greatly reduced.

Drawings

In order to illustrate the embodiments of the present invention or the solutions in the prior art more clearly, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without inventive effort.

FIG. 1 is a schematic cross-sectional structure of an embodiment of the present invention (yarn-pressing opening is higher than yarn stop point a).

FIG. 2 is a schematic cross-sectional structure of an embodiment of the present invention (yarn-pressing opening is lower than yarn stop point a).

Fig. 3 is a schematic perspective view of a sinker according to an embodiment of the present invention.

Fig. 4 is a schematic front view of a sinker according to an embodiment of the present invention.

Fig. 5 is a schematic top view of a sinker according to an embodiment of the present invention.

Fig. 6 is a schematic view of one end structure of a sinker needle plate in the example of the invention.

Fig. 7 is a schematic front view of the sinker needle plate in the embodiment of the invention.

Fig. 8 is a front view schematically illustrating the tooth mouth piece according to the embodiment of the present invention.

Description of reference numerals:

a sinker 1;

a sinker body 11; rotating the positioning hole 111;

an elastic presser foot portion 12;

a power blade heel 13;

a yarn pressing section 14; a yarn pressing port 141; a through hole 142 for limiting;

a first positioning steel wire 2;

a second positioning steel wire 3;

a sinker needle plate 4; a through groove 41;

a needle bed 5;

a tooth mouth piece 6; a circular hole 61;

yarn stop position a.

Detailed Description

The present invention will be described in further detail below by way of examples with reference to the accompanying drawings, which are illustrative of the present invention and are not to be construed as limiting the present invention.

Examples are given.

See fig. 1-8.

The embodiment discloses a yarn pressing device of a flat knitting machine, which comprises a sinker 1 and a sinker needle plate 4. The sinker needle plates 4 are arranged in two and are symmetrically arranged above a needle bed 5 of the flat knitting machine in a front-back manner, the needle bed 5 is divided into a front needle bed and a back needle bed, the front needle bed and the back needle bed are also symmetrically arranged in a front-back manner, one sinker needle plate 4 is arranged above the front needle bed, and the other sinker needle plate 4 is arranged above the back needle bed. Rows of knitting needles are arranged on the front needle bed and the back needle bed.

In this embodiment, the sinker needle plate 4 is provided with sinker holding grooves in rows for holding the sinkers 1, and the sinkers 1 are installed in the sinker holding grooves; three parallel through grooves 41 are formed in the sinker needle plate 4, two of the through grooves 41 are formed in the upper surface of the sinker needle plate 4, and the other through groove 41 is formed in the front side surface of the sinker needle plate 4. The opening direction of the through groove 41 is along the length direction of the sinker needle plate 4 and is vertical to the opening direction of the sinker holding groove; a first positioning steel wire 2 is arranged in each through groove 41.

In the present embodiment, the sinker 1 includes a sinker body 11 in a sheet shape, and an elastic presser foot portion 12, a power blade heel portion 13, and a yarn pressing portion 14 connected to the sinker body 11. The sinker body 11, the elastic presser foot part 12, the power blade heel part 13 and the yarn pressing part 14 are integrally formed to make a sinker. The sinker body 11, the elastic presser foot part 12 and the power blade heel part 13 are uniform in thickness, and the presser foot part 14 is smaller in thickness than the sinker body 11.

In the present embodiment, the elastic presser portion 12 is connected below the sinker body 11, and specifically, the elastic presser portion 12 has an arc shape, a front end thereof is connected to the head portion of the sinker body 11, and a rear end thereof is tilted upward. The power blade heel part 13 is connected with the tail part of the sinker body 11, the yarn pressing part 14 is connected with the head part of the sinker body 11, the yarn pressing part 14 is provided with a yarn pressing opening 141 and a through hole 142 for limiting, and the through hole 142 for limiting is positioned at the rear lower position of the yarn pressing opening 141. When the sinker 1 is installed in the sinker accommodating groove, the power blade heel part 13 and the yarn pressing part 14 are both exposed out of the sinker accommodating groove, and the elastic leg pressing part 12 abuts against the groove bottom surface of the sinker accommodating groove; the power shoe 13 is intended to receive a power drive, which usually employs a sinker cam (not shown in the schematic view) arranged above the sinker needle plate 4. The yarn pressing port 141 is used for pressing down the yarn. The elastic presser foot part 12 serves to generate elastic force.

In this embodiment, the sinker body 11 is provided with three rotation positioning holes 111, and the three rotation positioning holes 111 and one through hole 142 for limiting are all oblong holes; according to the direction from the head to the tail of the sinker body 11, the three rotation positioning holes 111 are respectively a first rotation positioning hole, a second rotation positioning hole and a third rotation positioning hole, wherein the second rotation positioning hole and the third rotation positioning hole are arranged in a splayed manner, and the first rotation positioning hole and the third rotation positioning hole are also arranged in a splayed manner.

In this embodiment, three first positioning steel wires 2 respectively penetrate through three rotary positioning holes 111 on the sinker body 11; the limiting through hole 142 is used for installing a second positioning steel wire 3, three first positioning steel wires 2 and one second positioning steel wire 3 are arranged in parallel, the axial leads of the three first positioning steel wires 2 and three intersection points generated by the same cross section are not on the same straight line, the three intersection points determine a virtual circle, and the centers of all the virtual circles form a virtual axial lead; the power heel part 13 makes the sinker 1 rotate back and forth around the virtual axis line under the action of power.

In this embodiment, the second positioning wire 3 is attached to the front end of the needle bed 5. A row of evenly spaced tooth mouth pieces 6 are arranged at the front end of the needle bed 5, the yarn pressing part 14 of the sinker 1 extends into the space between two adjacent tooth mouth pieces 6, a round hole 61 is arranged on each tooth mouth piece 6, and the second positioning steel wire 3 penetrates through the round hole 61.

In this embodiment, the front end of the tooth mouth piece 6 has a yarn stop position a; when the power piece heel part 13 is not under the action of power, under the action of the elasticity generated by the elastic presser foot part 12 and the limitation of the three first positioning steel wires 2, after the sinker 1 rotates forwards to a proper position, the yarn pressing opening 141 is lower than the yarn stopping position point a; when the power blade heel part 13 is under the action of power, the yarn pressing opening 141 is higher than the yarn stopping position point a after the sinker 1 rotates backwards to the right position.

The working method of the yarn pressing device comprises the following steps: the elastic presser foot part 12 is acted by the acting force from the bottom surface of the sinker holding tank and under the limiting action of three first positioning steel wires 2, after the sinker 1 rotates forwards around a virtual axis line to a position, the presser mouth 141 is lower than the yarn stopping position point a, the yarn is pressed downwards to feed the yarn, a new arc is formed between the tooth mouth piece and the needle hook of the knitting needle, then the sinker 1 rotates backwards around the virtual axis line to the position under the action of power (driven by a sinker cam), the presser mouth 141 is higher than the yarn stopping position point a, at the moment, the knitting needle naturally drives the new arc to downwards pass around the yarn stopping position point a, then the power borne by the sinker 1 is released (namely the sinker cam is released), the sinker 1 rotates forwards around the virtual axis line again, the yarn is pressed downwards, a new coil is driven to move downwards, and a new forming ring is pressed between the tooth mouth piece and the presser mouth piece.

In addition, it should be noted that the specific embodiments described in the present specification may be different in the components, the shapes of the components, the names of the components, and the like, and the above description is only an illustration of the structure of the present invention. All equivalent or simple changes in the structure, characteristics and principles of the invention are included in the protection scope of the patent. Various modifications, additions and substitutions for the specific embodiments described may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

Claims

1. A yarn pressing device of a flat knitting machine comprises a sinker (1) and a sinker needle plate (4); the two sinker needle plates (4) are arranged and are symmetrically arranged above a needle bed (5) of the flat knitting machine in a front-back manner; the sinker needle plate (4) is provided with sinker accommodating grooves which are arranged in rows and used for accommodating the sinkers (1), and the sinkers (1) are arranged in the sinker accommodating grooves; the sinker (1) comprises a sheet-shaped sinker body (11), an elastic presser foot part (12), a power blade heel part (13) and a yarn pressing part (14) which are connected with the sinker body (11); the elastic presser foot part (12) is connected below the sinker body (11), the power blade heel part (13) is connected to the tail part of the sinker body (11), the yarn pressing part (14) is connected to the head part of the sinker body (11), and the yarn pressing part (14) is provided with a yarn pressing opening (141); when the sinker (1) is installed in the sinker accommodating groove, the heel part (13) of the power blade and the yarn pressing part (14) are exposed out of the sinker accommodating groove, and the elastic leg pressing part (12) abuts against the bottom surface of the sinker accommodating groove;

the method is characterized in that: the sinker body (11) is provided with three rotary positioning holes (111), the yarn pressing part (14) is provided with a through hole (142) for limiting, and the through hole (142) for limiting is positioned at the rear lower position of the yarn pressing opening (141); the three rotary positioning holes (111) and one through hole (142) for limiting are all long round holes; the sinker needle plate (4) is provided with three parallel through grooves (41), and the opening direction of the through grooves (41) is vertical to the opening direction of the sinker accommodating groove along the length direction of the sinker needle plate (4); a first positioning steel wire (2) is arranged in each through groove (41), and three first positioning steel wires (2) respectively penetrate through three rotary positioning holes (111) in the sinker body (11); the through hole (142) for limiting is used for installing a second positioning steel wire (3), and the second positioning steel wire (3) is installed at the front end of the needle bed (5);

a row of uniformly spaced tooth mouth pieces (6) are arranged at the front end of the needle bed (5), a yarn pressing part (14) of the sinker (1) extends between two adjacent tooth mouth pieces (6), a round hole (61) is formed in each tooth mouth piece (6), and the second positioning steel wire (3) penetrates through the round hole (61); the three first positioning steel wires (2) and the second positioning steel wire (3) are arranged in parallel, the axial leads of the three first positioning steel wires (2) and three intersection points generated by the same cross section are not on the same straight line, the three intersection points determine a virtual circle, and the centers of all the virtual circles form a virtual axial lead; the power piece heel part (13) enables the sinker (1) to rotate back and forth around the virtual axis under the action of power; the front end part of the tooth mouth piece (6) is provided with a yarn stop position point (a); when the heel part (13) of the power blade is not under the action of power, under the action of elasticity generated by the elastic presser foot part (12) and the limit of the three first positioning steel wires (2), after the sinker (1) rotates forwards to a proper position, the yarn pressing opening (141) is lower than a yarn stopping position point (a); when the power blade heel (13) is acted by power, the yarn pressing opening (141) is higher than the yarn stopping position point (a) after the sinker (1) rotates backwards to a proper position.

2. The yarn pressing device of a flat knitting machine according to claim 1, characterized in that: the sinker body (11), the elastic presser foot part (12), the power blade heel part (13) and the yarn pressing part (14) are integrally formed to manufacture the sinker (1).

3. The yarn pressing device of a flat knitting machine according to claim 1, characterized in that: the sinker body (11), the elastic presser foot part (12) and the power blade heel part (13) are consistent in thickness, and the thickness of the yarn pressing part (14) is smaller than that of the sinker body (11).

4. The yarn pressing device of a flat knitting machine according to claim 1, characterized in that: the sinker needle plate (4) is horizontally arranged, two through grooves (41) are formed in the upper surface of the sinker needle plate (4) among the three through grooves (41), and the other through groove (41) is formed in the front side face of the sinker needle plate (4).

5. The yarn pressing device of a flat knitting machine according to claim 1, characterized in that: according to the direction from the head to the tail of the sinker body (11), the three rotation positioning holes (111) are respectively a first rotation positioning hole, a second rotation positioning hole and a third rotation positioning hole, wherein the second rotation positioning hole and the third rotation positioning hole are arranged in a splayed shape, and the first rotation positioning hole and the third rotation positioning hole are also arranged in a splayed shape.

6. The yarn pressing device of a flat knitting machine according to claim 1, characterized in that: the elastic presser foot part (12) is arc-shaped, the front end of the elastic presser foot part is connected with the head part of the sinker body (11), and the rear end of the elastic presser foot part is tilted upwards.

7. A working method of a yarn pressing device of a flat knitting machine according to any one of claims 1 to 6, characterized in that: the elastic presser foot part (12) is acted by the acting force from the bottom surface of the sinker holding tank and under the limiting action of the three first positioning steel wires (2), after the sinker (1) rotates forwards around the virtual axis line to a proper position, the yarn pressing port (141) is lower than the yarn stopping position (a) to press the yarn and feed the yarn, a new line arc is formed between the tooth mouth piece and the needle hook of the knitting needle, then the sinker (1) rotates backwards to a position around the virtual axial lead under the action of power, the yarn pressing mouth (141) is higher than a yarn stopping position point (a), at the moment, the knitting needle naturally drives a new yarn arc to downwards wind around a yarn stopping position point (a), then the power borne by the sinker (1) is relieved, the sinker (1) rotates forwards around a virtual axis line, the yarn is pressed downwards, a new coil is driven to downwards move, and the new coil is pressed between the tooth mouth piece and the yarn pressing mouth.