CN212611184U - Sinker and sinker mechanism for flat knitting machine - Google Patents

Abstract

The utility model relates to a sinker and a sinker mechanism for a flat knitting machine, wherein an elastic presser foot part of the sinker for the flat knitting machine is formed by extending a part of the rear wall surface at the joint of an inclined cantilever and a vertical butt downwards and forwards and then upwards to form a C-shaped elastic arm; the elastic presser foot part can generate elastic deformation and is used for providing elastic pressure for the body, so that continuous pressure is always kept when the yarn pressing part presses yarns. The sinker mechanism comprises a needle plate, a sinker seat, a sinker component and the sinker; the sinker component is arranged above the sinker seat, and the machine head moves left and right to drive the knitting triangular bottom plate and the sinker component to move left and right synchronously; the letter-gram assembly comprises a connecting seat, a letter-gram mother board, a letter-gram guide block, a left letter-gram triangle, a right letter-gram triangle and a middle letter-gram triangle; wherein the left sinker triangle and the right sinker triangle are fixedly arranged, and the middle sinker triangle is movably arranged. The sinker mechanism enables the fabric to be smoother and can weave more patterns, such as yarn filling and the like.

Description

Sinker and sinker mechanism for flat knitting machine

Technical Field

The utility model relates to a computerized flat knitting machine field, specifically say, relate to a sinker and sinker mechanism for flat knitting machine.

Background

The sinker mechanism in the computerized flat knitting machine is used for pressing down the knitted fabric in knitting to assist the knitting needle to withdraw a loop, sinkers of two needle beds can rotate and open relative to needle bed openings to give way for looping, and closing, sinking, looping and drawing in the knitting process are facilitated. The sinker mechanism mainly comprises two parts, namely a sinker and a sinker assembly, wherein the sinker is used for pressing down the yarn or lifting and releasing the yarn by utilizing the sinker assembly to drive the sinker.

In actual production, the existing sedimentation sheet mechanism has the following defects: (1) the sinker has the defect of poor elasticity due to unreasonable structural design, and the elastic presser foot part is easy to break and short in service life; (2) the movement of the cam in the existing signal-gram assembly is driven by a motor, for example, the patent with publication number CN 209456658U: a sinker adjustable mechanism is characterized in that a sinker cam is driven by a motor, and a sinker component driven by the motor is not timely in motion fit with a bottom plate of a knitting cam, so that yarns are pressed down to delay or loosen prematurely, and the knitting quality of a fabric is affected.

There is therefore a need for improvements and optimisation of existing sinker mechanisms.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the above-mentioned not enough that exists among the prior art, and provide a horizontal machine sinker that structural design is reasonable, elasticity is good, and have the sinker mechanism of this sinker.

The utility model provides a technical scheme that above-mentioned problem adopted is: a sinker for a flat knitting machine comprises a flaky body, a power blade heel part and a yarn pressing part, wherein the power blade heel part and the yarn pressing part are connected to the body; the body is provided with a rotary positioning hole, and a first positioning steel wire is arranged in the rotary positioning hole; the yarn pressing part is connected to the front side of the body, a yarn pressing opening and a limiting notch are formed in the yarn pressing part, the yarn pressing opening is used for pressing a coil downwards, and the limiting notch is used for limiting the sinker to excessively rotate towards the front side; the method is characterized in that: the electric shoe further comprises an elastic foot pressing part, the power sheet heel part is connected to the top side of the body, the power sheet heel part is formed by extending a part of the top surface of the body upwards to the rear part to form an inclined cantilever and then extending the inclined cantilever upwards to form a section of vertical sheet heel; the elastic foot pressing part is formed by a C-shaped elastic arm formed by extending a part of the rear wall surface at the joint of the inclined cantilever and the vertical heel downwards and forwards and then backwards and upwards; the heel part of the power sheet enables the body to rotate back and forth by taking the first positioning steel wire as a rotating shaft under the action of power; the elastic presser foot part can generate elastic deformation and is used for providing elastic pressure for the body, so that continuous pressure is always kept when the yarn pressing part presses yarns.

Preferably, the body, the elastic presser foot part, the power blade heel part and the yarn pressing part are integrally formed by metal materials.

Preferably, the yarn pressing opening is positioned in front of the limiting notch, and both openings of the yarn pressing opening and the limiting notch face downwards.

In order to solve the technical problem, the utility model also provides a sinker mechanism, which comprises a needle plate and a sinker seat, wherein the front end of the needle plate is a tooth mouth end, a row of insert grooves with even intervals are arranged on the needle plate, and the sinker seat is arranged above the needle plate; the method is characterized in that: the sinker assembly is arranged on the bottom plate;

the sinker component is arranged above the sinker seat, the sinker component is connected with a knitting triangle bottom plate of the computerized flat knitting machine, the knitting triangle bottom plate is connected with a machine head, and the machine head moves left and right to drive the knitting triangle bottom plate and the sinker component to move left and right synchronously;

a row of sinker guide grooves are formed in the sinker seat, and the sinker guide grooves and the inserting grooves are arranged in a one-to-one up-down correspondence manner; the first positioning steel wire is connected with the needle plate, the sinker body is arranged at the front end of the inserting sheet groove through the first positioning steel wire, the yarn pressing part is exposed out of the front end of the inserting sheet groove, the upper parts of the elastic pressing foot part and the power blade heel part extend into a sinker guide groove on a sinker seat corresponding to the inserting sheet groove, the end part of the elastic pressing foot part abuts against the rear side wall surface of the sinker guide groove, and the top end part of the power blade heel part is exposed out of the top part of the sinker guide groove and then is acted by the sinker guide block;

the power blade heel part enables the sinker body to rotate back and forth by taking the first positioning steel wire as a rotating shaft under the action of the sinker assembly; the elastic presser foot part can generate elastic deformation and is used for providing elastic pressure for the sinker body so as to keep continuous pressure when the yarn pressing part presses yarn;

the letter gram assembly comprises a connecting seat, a letter gram mother board, a letter gram guide block, a left letter gram triangle, a right letter gram triangle and a middle letter gram triangle; the top surface of the letter gram mother board is connected with the connecting seat, the bottom surface of the letter gram mother board is connected with the letter gram guide block, and the connecting seat is connected with the weaving triangular bottom board; the left sinker cam, the middle sinker cam and the right sinker cam are sequentially arranged on the sinker guide block from left to right, wherein the left sinker cam and the right sinker cam are fixedly arranged, a chute is formed in the section of the sinker guide block between the left sinker cam and the right sinker cam, the middle sinker cam is connected with a sliding block, the sliding block can be arranged in the chute in a left-right sliding mode, a sinker needle channel is arranged on the sinker guide block, the left sinker cam, the middle sinker cam and the right sinker cam are arranged on one side of the sinker needle channel, the heel part of a power sheet of the sinker extends into the sinker needle channel, and the sinker is pushed by the left sinker cam, the middle sinker cam and the right sinker cam to enable the sinker to rotate forwards to perform yarn pressing or rotate backwards to remove yarn pressing;

in the process that the sinker assembly moves left and right, the middle sinker cam moves along the sliding groove under the resistance of the sinker, and the middle sinker cam pushes against the power blade heel of the sinker until the middle sinker cam abuts against the left sinker cam or the right sinker cam.

Compared with the prior art, the utility model, have following advantage and effect:

1. the elastic pressure foot part is C-shaped, the C-shaped design can ensure that the elastic pressure foot part has good elasticity, the elastic pressure foot part is easier to deform under the action of external force, the pressure on the coil has stronger flexibility, and the coil is not easy to break;

2. the elastic presser foot part enables the yarn pressing part of the sinker to always keep a flexible pressure to enable the old coil to be in a pressed state, and the phenomenon that the sinker is widely used for pressing the coil by utilizing rigid pressure to cause the coil to be pressed and broken to form defective products in the flat knitting machine in the market at present can not occur;

3. the yarn pressing part is provided with a yarn pressing opening and a limiting notch, when the sinker rotates around a first positioning steel wire to the front side under the action of power to press down yarns, the limiting notch is clamped into the corresponding sinker limiting steel wire, so that the rotation angle of the sinker is controllable, the looping height can be effectively controlled, uniform and consistent coils can be formed under a certain looping density, and the quality of the braided fabric is improved;

4. the sinker in the sinker mechanism is always in a yarn pressing state, and the left sinker cam or the right sinker cam acts on the heel part of the power blade of the sinker firstly during weaving, so that the sinker rotates backwards to lift and relieve yarn pressing, and needle punching is prevented;

5. the sinker component in the sinker mechanism is not required to be driven by a special motor, the middle sinker triangle changes along with the movement direction of the machine head and stays in a knitting area, the left and right sinker triangles at the two sides are fixed sinker triangles, and the yarns of the fixed sinker triangles are loosened before the system is knitted, so that the knitting is not easy to stitch;

6. the sinker mechanism enables the fabric to be smoother and can weave more patterns, such as yarn filling and the like.

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 creative efforts.

Fig. 1 is a schematic perspective view of a sinker according to an embodiment of the present invention.

Fig. 2 is a schematic perspective view of a part of the sinker mechanism in the embodiment of the present invention.

Fig. 3 is a schematic perspective view of a part of the sinker mechanism according to an embodiment of the present invention (with the sinker assembly removed).

Fig. 4 is a schematic view of the sinker in a state of being pressed and in a state of not being pressed.

Fig. 5 is a left side view of a sinker mechanism according to an embodiment of the present invention.

Fig. 6 is a schematic perspective view of a sinker assembly according to an embodiment of the present invention.

Fig. 7 is a schematic bottom structure diagram of the sinker module according to the embodiment of the present invention.

Fig. 8 is a schematic perspective view of a middle sinker triangle in the embodiment of the present invention.

Fig. 9 is a schematic view of the middle letter-gram triangle in the embodiment of the present invention.

Fig. 10 is a schematic top view of the middle sinker triangle in the embodiment of the present invention.

Fig. 11 is a schematic diagram of the needle track of the sinker when the machine head moves to the right.

Fig. 12 is a schematic diagram of the needle track of the sinker when the machine head moves to the left.

Description of reference numerals: the sinker 1, the body 11, the elastic presser foot part 12, the power blade heel part 13, the inclined cantilever 131, the vertical blade heel 132, the yarn pressing part 14, the rotary positioning hole 111, the yarn pressing port 141, the limiting notch 142, the needle plate 2, the sinker seat 3, the sinker guide groove 31, the sinker assembly 4, the connecting seat 41, the sinker mother plate 42, the sinker guide block 43, the left sinker cam 44, the right sinker cam 45, the middle sinker cam 46, the slide block 461, the sinker needle channel 431, the slide groove 432 and the first positioning steel wire 5.

Detailed Description

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

Examples are given.

See fig. 1-12.

The embodiment discloses a sinker 1 for a flat knitting machine, which comprises an elastic presser foot part 12, a flaky body 11, a power blade heel part 13 connected to the body 11 and a yarn pressing part 14. The body 11, the elastic presser foot part 12, the power blade heel part 13 and the yarn pressing part 14 are integrally formed by metal materials. The body 11 is provided with a rotary positioning hole 111, and the rotary positioning hole 111 is used for installing the first positioning steel wire 5.

In this embodiment, the yarn pressing portion 14 is connected to the front side of the main body 11, the yarn pressing portion 14 has a yarn pressing opening 141 and a position-limiting notch 142, and the yarn pressing opening 141 is located in front of the position-limiting notch 142, and both openings face downward. The yarn pressing opening 141 is used for pressing a coil downwards, and the limiting notch 142 is used for limiting the sinker from excessively rotating towards the front side; when the sinker rotates around a positioning steel wire 5 to the front side to remove the push-down yarn under the action of power, through making spacing notch 142 block to corresponding sinker limiting steel wire to make the rotation angle of sinker controllable, the height of lopping can obtain effectual control, can form the uniform coil of size unanimity under certain lopping density, improves the quality of knitting.

In this embodiment, the heel 13 is connected to the top side of the body 11, and the heel 13 is formed by extending a part of the top surface of the body 11 first upward and rearward to form an inclined cantilever 131, and then extending upward from the inclined cantilever 131 to form a section of vertical heel 132.

In this embodiment, the elastic presser portion 12 is C-shaped and connected to the power blade heel portion 13, and the elastic presser portion 12 is formed by extending a part of the rear wall surface at the connection of the inclined cantilever 131 and the vertical blade heel portion 132 first downward and forward and then rearward and upward to form a C-shaped elastic arm. The power blade heel part 13 enables the body 11 to rotate back and forth by taking the first positioning steel wire 5 as a rotating shaft under the action of power; the elastic presser 12 is elastically deformable to provide an elastic pressure to the main body 11, so that the yarn presser 14 keeps a constant pressure during pressing.

In this embodiment, the elastic presser foot part 12 is a C-shaped one, and the design of the C-shaped one enables the elastic presser foot part 12 to have good elasticity, so that the elastic presser foot part is more easily deformed after being subjected to the action of external force, and the flexibility of the pressure pressed on the coil is stronger, so that the coil is not easily broken.

The embodiment also discloses a sinker mechanism which comprises a needle plate 2, a sinker seat 3, a sinker component 4 and the sinker 1. The front end of the needle plate 2 is a tooth mouth end, a row of insert slots with uniform intervals are arranged on the needle plate 2, and the sinker seat 3 is arranged above the needle plate 2; the sinker component 4 is arranged above the sinker seat 3, the sinker component 4 is connected with a knitting triangle bottom plate of the computerized flat knitting machine, the knitting triangle bottom plate is connected with a machine head, and the machine head moves left and right to drive the knitting triangle bottom plate and the sinker component 4 to move left and right synchronously.

In this embodiment, a row of sinker guide grooves 31 are formed in the sinker seat 3, and the sinker guide grooves 31 and the insert grooves are arranged in a one-to-one up-down correspondence manner; the first positioning steel wire 5 is connected with the needle plate 2, the sinker body 11 is arranged at the front end of the insert groove through the first positioning steel wire 5, the yarn pressing part 14 is exposed from the front end of the insert groove, the upper parts of the elastic leg pressing part 12 and the power blade heel part 13 extend into the sinker guide groove 31 on the sinker seat 3 corresponding to the insert groove, the end part of the elastic leg pressing part 12 abuts against the rear side wall surface of the sinker guide groove 31, and the top part of the power blade heel part 13 is exposed from the top of the sinker guide groove 31 and then acts as the sinker assembly 4.

In the embodiment, the power blade heel part 13 enables the sinker body 11 to rotate back and forth by taking the first positioning steel wire 5 as a rotating shaft under the action of the sinker assembly 4; the elastic presser 12 is elastically deformable to provide an elastic pressure to the sinker body 11, so that the yarn presser 14 keeps a constant pressure during pressing.

In this embodiment, the sinker assembly 4 includes a connection base 41, a sinker mother board 42, a sinker guide block 43, a left sinker cam 44, a right sinker cam 45, and a middle sinker cam 46.

In this embodiment, the top surface of the letter k mother board 42 is connected with the connecting seat 41, the bottom surface of the letter k mother board 42 is connected with the letter k guide block 43, and the connecting seat 41 is connected with the woven triangular bottom plate; in this embodiment, three signal guide blocks 43 are mounted on the signal motherboard 42, and each signal guide block 43 is configured with a left signal triangle 44, a middle signal triangle 46 and a right signal triangle 45.

In this embodiment, the left sinker cam 44, the middle sinker cam 46, and the right sinker cam 45 are sequentially mounted on the sinker guide block 43 from left to right, wherein the left sinker cam 44 and the right sinker cam 45 are fixedly mounted, a sliding groove 432 is formed in a section of the sinker guide block 43 located between the left sinker cam 44 and the right sinker cam 45, the middle sinker cam 46 is connected with a sliding block 461, the sliding block 461 is slidably mounted in the sliding groove 432 from left to right, the sinker needle track 431 is formed on the sinker guide block 43, and the left sinker cam 44, the middle sinker cam 46, and the right sinker cam 45 are located on one side of the sinker needle track 431.

In this embodiment, the power shoe heel 13 of the sinker 1 extends into the sinker needle track 431 and is pushed by the left sinker cam 44, the middle sinker cam 46 and the right sinker cam 45 to rotate the sinker 1 forward to perform yarn pressing or rotate backward to release yarn pressing. During the left and right movement of the sinker unit 4, the middle sinker cam 46 is moved along the sliding groove 432 by the resistance of the sinker 1 until the middle sinker cam 46 abuts against the left sinker cam 44 or the right sinker cam 45, and the middle sinker cam 46 pushes against the heel 13 of the sinker 1.

Referring to fig. 11, when the machine head moves to the right, the right sinker cam 45 firstly pushes against the power piece heel 13 of the sinker 1, so that the sinker 1 rotates backwards first to lift and release the yarn pressing, the yarn is loosened, the knitting is not easy to stitch, along with the right movement of the machine head, the right sinker cam 45 does not push against the sinker 1, then the sinker 1 rotates forwards to press the yarn, at this time, the middle sinker cam 46 starts to slide leftwards under the resistance of the sinker 1 until abutting against the left sinker cam 44, the middle sinker cam 46 only pushes against the power piece heel 13 of the sinker 1, and then the sinker 1 rotates backwards to lift and release the yarn pressing.

Referring to fig. 12, when the machine head moves left, the left sinker cam 44 pushes against the power blade heel 13 of the sinker 1 first, so that the sinker 1 rotates backward first to lift up to release the yarn pressing, the yarn is loosened, the needle is not easy to be punched during knitting, as the machine head moves left, the left sinker cam 44 does not push against the sinker 1 any more, then the sinker 1 rotates forward to press the yarn, at this time, the middle sinker cam 46 starts to slide right under the resistance of the sinker 1 until abutting against the right sinker cam 45, the middle sinker cam 46 pushes against the power blade heel 13 of the sinker 1, and then the sinker 1 rotates backward to lift up to release the yarn pressing.

The sinker component in the sinker mechanism is not required to be driven by a special motor, the middle sinker cam 46 changes along the movement direction of the head and stays in a knitting area, the left and right sinker cams at two sides are fixed sinker cams, and the yarns of the fixed sinker cams are loosened before the system is knitted, so that the knitting is not easy to stitch; the sinker mechanism enables the fabric to be smoother and can weave more patterns, such as yarn filling and the like.

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 example of the structure of the present invention. All the equivalent changes or simple changes made according to the structure, characteristics and principle of the patent idea of the utility model are included in the protection scope of the patent of the utility model. Various modifications, additions and substitutions may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

Claims (4)

1. A sinker for a flat knitting machine comprises a flaky body (11), and a power blade heel part (13) and a yarn pressing part (14) which are connected with the body (11); a rotary positioning hole (111) is formed in the body (11), and a first positioning steel wire (5) is mounted in the rotary positioning hole (111); the yarn pressing part (14) is connected to the front side of the body (11), the yarn pressing part (14) is provided with a yarn pressing opening (141) and a limiting notch (142), the yarn pressing opening (141) is used for pressing a coil downwards, and the limiting notch (142) is used for limiting the sinker from excessively rotating towards the front side; the method is characterized in that: the electric shoe sole is characterized by further comprising an elastic foot pressing part (12), the power blade heel part (13) is connected to the top side of the body (11), the power blade heel part (13) is formed by extending a part of the top surface of the body (11) upwards to the rear to form an inclined cantilever (131), and then the inclined cantilever (131) extends upwards to form a section of vertical blade heel (132); the elastic foot pressing part (12) is C-shaped and is connected with the power blade heel part (13), and the elastic foot pressing part (12) is formed by extending a part of the rear wall surface of the joint of the inclined cantilever (131) and the vertical blade heel (132) downwards and forwards and then backwards and upwards to form a C-shaped elastic arm; the power blade heel part (13) enables the body (11) to rotate back and forth by taking the first positioning steel wire (5) as a rotating shaft under the action of power; the elastic presser foot part (12) can generate elastic deformation and is used for providing elastic pressure for the body (11) so that continuous pressure is always kept when the yarn pressing part (14) presses yarns.

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

3. The sinker for a flat knitting machine according to claim 1, characterized in that: the yarn pressing opening (141) is positioned in front of the limiting notch (142), and the openings of the yarn pressing opening and the limiting notch are downward.

4. A sinker mechanism comprises a needle plate (2) and a sinker seat (3), wherein the front end of the needle plate (2) is a tooth mouth end, a row of insert slots with uniform intervals are arranged on the needle plate (2), and the sinker seat (3) is arranged above the needle plate (2); the method is characterized in that: further comprising a sinker assembly (4) and a sinker (1) according to any one of claims 1 to 3,

the sinker component (4) is arranged above the sinker seat (3), the sinker component (4) is connected with a knitting triangle bottom plate of the computerized flat knitting machine, the knitting triangle bottom plate is connected with a machine head, and the machine head moves left and right to drive the knitting triangle bottom plate and the sinker component (4) to move left and right synchronously;

a row of sinker guide grooves (31) are formed in the sinker seat (3), and the sinker guide grooves (31) and the inserting grooves are arranged in a one-to-one up-down correspondence manner; the first positioning steel wire (5) is connected with the needle plate (2), the sinker body (11) is installed at the front end of the insert groove through the first positioning steel wire (5), the yarn pressing part (14) is exposed out of the front end of the insert groove, the upper parts of the elastic foot pressing part (12) and the power blade heel part (13) extend into a sinker guide groove (31) on the sinker seat (3) corresponding to the insert groove, the end part of the elastic foot pressing part (12) abuts against the rear side wall surface of the sinker guide groove (31), and the top end part of the power blade heel part (13) is exposed out of the top part of the sinker guide groove (31) and then is acted by the sinker assembly (4);

the power blade heel part (13) enables the sinker body (11) to rotate back and forth by taking the first positioning steel wire (5) as a rotating shaft under the action of the sinker assembly (4); the elastic presser foot part (12) can generate elastic deformation and is used for providing elastic pressure for the sinker body (11) so that continuous pressure is always kept when the yarn pressing part (14) presses yarn;

the sinker assembly (4) comprises a connecting seat (41), a sinker mother board (42), a sinker guide block (43), a left sinker triangle (44), a right sinker triangle (45) and a middle sinker triangle (46); the top surface of the letter gram mother board (42) is connected with the connecting seat (41), the bottom surface of the letter gram mother board (42) is connected with the letter gram guide block (43), and the connecting seat (41) is connected with the weaving triangular bottom plate; the left sinker cam (44), the middle sinker cam (46) and the right sinker cam (45) are sequentially arranged on the sinker guide block (43) from left to right, wherein the left sinker cam (44) and the right sinker cam (45) are fixedly arranged, a sliding groove (432) is formed in the section of the sinker guide block (43) between the left sinker cam (44) and the right sinker cam (45), the middle sinker cam (46) is connected with a sliding block (461), the sliding block (461) can be arranged in the sliding groove (432) in a left-right sliding mode, a sinker needle channel (431) is arranged on the sinker guide block (43), the left sinker cam (44), the middle sinker cam (46) and the right sinker cam (45) are arranged on one side of the sinker needle channel (431), and a power piece heel (13) of the sinker (1) extends into the sinker needle channel (431) and is received by the left sinker cam (44), The middle sinker cam (46) and the right sinker cam (45) push against each other to enable the sinker (1) to rotate forwards to press yarns or rotate backwards to release the pressing yarns;

in the process that the sinker assembly (4) moves left and right, the middle sinker cam (46) moves along the sliding groove (432) under the resistance of the sinker (1) until the middle sinker cam (46) abuts against the left sinker cam (44) or the right sinker cam (45), and the middle sinker cam (46) pushes against the power pad heel part (13) of the sinker (1).

Images