CN115029854A - Bottom plate of computerized flat knitting machine and knitting method - Google Patents

Abstract

The invention relates to a bottom plate of a computerized flat knitting machine and a knitting method, wherein the bottom plate of the computerized flat knitting machine comprises a triangular bottom plate and at least one knitting unit arranged on the triangular bottom plate, and the knitting unit comprises a needle turning and protecting triangle, a needle turning triangle, a left stitch triangle, a right stitch triangle, a left plain stitch triangle, a right plain stitch triangle, a knitting triangle, a left needle receiving triangle, a right needle receiving triangle, a hanging transition triangle, a left needle pushing triangle, a right needle pushing triangle, a left hanging mesh preselection triangle and a right hanging mesh preselection triangle. The knitting triangles in the bottom plate of the computerized flat knitting machine are fixedly arranged, so that the driving structure of the bottom plate is simplified; the stitch-moving track of the suspended mesh is optimized, so that the phenomenon of needle collision is not easy to occur when the mesh is suspended at a high speed, the mesh-suspending speed is improved, and meanwhile, the stitch-turning-over effect is good.

Description

Bottom plate of computerized flat knitting machine and knitting method

Technical Field

The invention relates to the field of computerized flat knitting machines, in particular to a bottom plate of a computerized flat knitting machine and a knitting method.

Background

The patent publication No. CN216237549U discloses a bottom plate device of a computerized flat knitting machine capable of reducing resistance of knitting needles, wherein a left knitting cam and a right knitting cam are movably mounted on a cam bottom plate, when a right knitting stitch is hung, the left needle receiving cam, the right knitting cam and a needle transferring cam are all retracted into the cam bottom plate, the left knitting cam and the right needle receiving cam are all protruded out of the cam bottom plate, when a machine head moves from right to left, a needle selection a drives a middle needle b to move to a stitch position under the action of a needle selection cam d and a needle selector, a butt on the middle needle b moves along a hanging transition cam, a right needle receiving cam, a right stitch cam and a left flat cam, the middle needle b pushes a needle shed c to carry out stitch knitting, and after the butt on the needle shed c touches the right stitch cam, the butt returns along the right stitch cam. In practical application, the above method for moving the knitting needle of the stitch-lifting machine is suitable for the condition that the stitch-lifting speed is low, and when the stitch-lifting machine is used for lifting the stitch at high speed, the right knitting cam cannot retract into the cam base plate in time, so that the needle is easy to collide with the right knitting cam, and therefore, the method needs to be improved and optimized.

Disclosure of Invention

The invention aims to overcome the defects in the prior art, provides a base plate of a computerized flat knitting machine which has reasonable structural design and can support high-speed hanging, and provides a knitting method thereof.

The technical scheme adopted by the invention for solving the problems is as follows: the utility model provides a computerized flat knitting machine bottom plate, includes the triangle bottom plate and installs at least one on the triangle bottom plate is woven the unit, its characterized in that: the knitting unit comprises a needle turning and protecting triangle, a needle turning triangle, a left stitch triangle, a right stitch triangle, a left plain stitch triangle, a right plain stitch triangle, a knitting triangle, a left needle receiving triangle, a right needle receiving triangle, a connecting and hanging transition triangle, a left needle pushing triangle, a right needle pushing triangle, a left hanging mesh preselecting triangle and a right hanging mesh preselecting triangle; the left plain stitch cam and the right plain stitch cam are fixedly arranged in the middle of the cam base plate in a left-to-right manner; the needle turning and protecting triangle is fixedly arranged at the upper part of the triangle bottom plate; the needle turning triangle is movably arranged on the triangle bottom plate and is positioned below the needle turning protection triangle; the left stitch cam and the right stitch cam are symmetrically arranged on the left side and the right side of the needle turning and protecting cam in a splayed shape, and are both slidably arranged on the cam bottom plate; the knitting cam is fixedly arranged below the left plain stitch cam and the right plain stitch cam, and a knitting needle passing path is formed between the knitting cam and the left plain stitch cam and between the knitting cam and the right plain stitch cam; the left needle receiving triangle and the right needle receiving triangle are arranged on two sides of the connecting and hanging transition triangle in a bilateral symmetry manner and are positioned below the knitting triangle, wherein the left needle receiving triangle and the right needle receiving triangle are movably arranged; the left hanging mesh preselection triangle, the left push pin triangle, the right push pin triangle and the right hanging mesh preselection triangle are arranged at the bottom of the triangle bottom plate from left to right.

The invention also provides a knitting method of the bottom plate of the computerized flat knitting machine, which comprises a knitting method, a stitch hanging method, a same-row knitting stitch hanging method and a stitch receiving and turning method.

The weaving method comprises the following steps: the needle-turning triangle retracts into the triangle bottom plate, the machine head moves from right to left, the right stitch pre-selection triangle is used for pre-selecting a needle for the left needle-pushing triangle, the needle selection foot pushes the push needle to enter a knitting needle path formed between the knitting triangle and the left flat needle triangle and the right flat needle triangle, and then the push needle pushes the needle to cut off the needle for knitting.

The mesh hanging method comprises the following steps: the machine head moves from right to left, the left needle receiving triangle and the needle transferring triangle are both retracted into the triangle bottom plate, the right needle receiving triangle protrudes out of the triangle bottom plate, the right stitch preselection triangle is used for preselecting a left stitch preselection triangle, a butt of a push needle is pushed by a needle selection foot to move to the highest point of the right needle receiving triangle along a needle path formed between the right side wall surface of the right needle receiving triangle and a knitting triangle, then the needle is moved along the left side wall surface of the right needle receiving triangle and a connecting and hanging transition triangle, and the push needle pushes a needle cutting needle to carry out stitch; when the machine head moves from left to right, the right needle receiving triangle and the needle turning triangle are both retracted into the triangle base plate, the left needle receiving triangle protrudes out of the triangle base plate, and at the moment, the eye-hanging needle moving track is symmetrical to the eye-hanging needle moving track.

The parallel weaving mesh hanging method comprises the following steps: the machine head moves from right to left, the left needle receiving triangle and the needle transferring triangle are both retracted into the triangle bottom plate, the right needle receiving triangle protrudes out of the triangle bottom plate, the right stitch preselection triangle is used for preselecting a needle for the left stitch preselection triangle, a butt of a push needle is pushed by a selection needle firstly along the needle track formed between the right side wall surface of the right needle receiving triangle and the knitting triangle until the highest point of the right needle receiving triangle is reached, then the needle is moved along the left side wall surface of the right needle receiving triangle and the connecting and hanging transition triangle, the push needle pushes a cut needle to carry out stitch, meanwhile, the right stitch preselection triangle is used for preselection of the left needle pushing triangle, the push needle is pushed by the selection needle to enter the knitting needle track formed between the knitting triangle and the left and right flat needle triangles, and then the cut needle is pushed by the push needle and the right stitch triangle to knit, and the same-line knitting stitch is finished.

The needle receiving and turning method comprises the following steps: the machine head moves from right to left, the stitch-changing triangle protrudes from the triangle bottom plate, the right needle receiving triangle protrudes from the triangle bottom plate, the left needle receiving triangle retracts into the triangle bottom plate, the right stitch preselection selecting triangle pushes the push needle to move along the right needle receiving triangle and the stitch-changing transition triangle, the push needle pushes the house needle to move along the stitch-changing triangle to form a needle receiving, meanwhile, the right stitch preselection triangle is the left push needle preselection needle, the select needle pushes the push needle to move along the knitting triangle, and then the house needle is pushed to enter the stitch-changing needle track between the stitch-changing triangle and the right stitch triangle to form a stitch.

Compared with the prior art, the invention has the following advantages and effects: the weaving triangle is fixedly arranged, so that the driving structure of the bottom plate is simplified; the stitch track of the hung mesh is optimized, so that the phenomenon of needle collision is not easy to occur when the mesh is hung at a high speed, the speed of hanging the mesh is improved, and meanwhile, the effect of turning over and connecting the needles is good.

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 structural diagram of a triangular bottom plate according to an embodiment of the present invention.

Fig. 2 shows a needle passing path during knitting.

Fig. 3 is a trace diagram of the respective needles of fig. 2.

Fig. 4 shows the trajectory of the needle during eye drop.

Fig. 5 is a trace diagram of the respective needles of fig. 4.

Fig. 6 shows the needle passing trajectory in the case of knitting a hook in the same row.

Fig. 7 is a trace diagram of the respective needles of fig. 6.

FIG. 8 shows the needle passing trajectory in the case of flipping over the needle.

Fig. 9 is a trace diagram of the needle travel of each needle corresponding to fig. 8.

FIG. 10 is a schematic diagram showing the course of each needle when unwoven.

Description of reference numerals: a needle turning and protecting triangle 1; a needle turning triangle 2; a left plain stitch triangle 3; a right flat needle triangle 4; a left knitting cam 5; a right knitting cam 6; a left eye hanging triangle 7; a right eye hanging triangle 8; a left needle connecting triangle 9; a right connecting needle triangle 10; connecting and hanging a transition triangle 11; a left stitch cam 12; a right stitch triangle 13; a triangular base plate 14.

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. 1-10.

The embodiment discloses a bottom plate of a computerized flat knitting machine, which comprises a triangular bottom plate 14 and at least one knitting unit arranged on the triangular bottom plate 14, wherein the knitting unit comprises a needle turning and protecting triangle 1, a needle turning triangle 2, a left stitch triangle 12, a right stitch triangle 13, a left plain stitch triangle 3, a right plain stitch triangle 4, a knitting triangle 5, a left needle receiving triangle 9, a right needle receiving triangle 10, a connecting and hanging transition triangle 11, a left needle pushing triangle 6, a right needle pushing triangle 7, a left hanging mesh preselecting triangle 8 and a right hanging mesh preselecting triangle 15.

In the embodiment, the left flat stitch cam 3 and the right flat stitch cam 4 are fixedly arranged in the middle of the cam base plate 14 in a left-to-right manner; the needle turning and protecting cam 1 is fixedly arranged at the upper part of the cam bottom plate 14; the needle turning triangle 2 is movably arranged on the triangle bottom plate 14 and is positioned below the needle turning protection triangle 1. A needle turning and connecting channel is formed between the needle turning cam 2 and the needle turning and protecting cam 1.

In this embodiment, the left stitch cam 12 and the right stitch cam 13 are symmetrically installed on the left and right sides of the needle turning and protecting cam 1 in a splayed manner, and both the left stitch cam 12 and the right stitch cam 13 are slidably installed on the cam base plate 14.

In the embodiment, the knitting cam 5 is fixedly arranged below the left plain stitch cam 3 and the right plain stitch cam 4, and a knitting needle path is formed between the knitting cam 5 and the left plain stitch cam 3 and the right plain stitch cam 4; the left needle receiving triangle 9 and the right needle receiving triangle 10 are symmetrically arranged at two sides of the connecting and hanging transition triangle 11 and are positioned below the knitting triangle 5, wherein the left needle receiving triangle 9 and the right needle receiving triangle 10 are movably arranged. The left needle receiving triangle 9, the right needle receiving triangle 10 and the needle transferring triangle 2 are driven by a set of driving mechanism, which refers to the prior art.

In this embodiment, the left eye-hanging preselecting triangle 8, the left push pin triangle 6, the right push pin triangle 7 and the right eye-hanging preselecting triangle 15 are arranged at the bottom of the triangle bottom plate 14 from left to right.

The embodiment also discloses a knitting method of the bottom plate of the computerized flat knitting machine, which comprises a knitting method, a stitch hanging method, a same-row knitting stitch hanging method and a stitch receiving and turning method.

The weaving method comprises the following steps: the needle-turning cam 2 retracts into the cam bottom plate 14, the machine head moves from right to left, the right stitch preselection cam 15 preselects the needle for the left needle-pushing cam 6, the needle is pushed by the needle selection foot to enter a knitting needle-moving path formed between the knitting cam 5 and the left flat needle cam 3 and the right flat needle cam 4, and then the needle is pushed by the needle pushing to cut the needle for knitting.

The mesh hanging method comprises the following steps: the machine head moves from right to left, the left needle receiving triangle 9 and the needle transferring triangle 2 both retract into the triangle bottom plate 14, the right needle receiving triangle 10 protrudes out of the triangle bottom plate 14, the right stitch preselection triangle 15 preselects needles for the left stitch preselection triangle 8, the butt of the push needle is pushed by the needle selection foot firstly along the needle path formed between the right side wall surface of the right needle receiving triangle 10 and the knitting triangle 5 until the needle is moved to the highest point of the right needle receiving triangle 10, then the needle is moved along the left side wall surface of the right needle receiving triangle 10 and the transition triangle 11 of the needle receiving and the push needle pushes the cut needle to carry out stitch; when the machine head moves from left to right, the right needle receiving triangle 10 and the needle reversing triangle 2 both retract into the triangle bottom plate 14, the left needle receiving triangle 9 protrudes out of the triangle bottom plate 14, and at the moment, the stitch trajectory of the hung mesh is symmetrical to the stitch trajectory of the hung mesh.

The mesh hanging method for the same-row weaving comprises the following steps: the machine head moves from right to left, the left needle receiving triangle 9 and the needle transferring triangle 2 both retract into the triangle bottom plate 14, the right needle receiving triangle 10 protrudes out of the triangle bottom plate 14, the right stitch preselecting triangle 15 preselecting the needle for the left stitch preselecting triangle 8, the butt of the push needle is pushed by the selection stitch firstly along the needle track formed between the right side wall surface of the right needle receiving cam 10 and the knitting cam 5 until the needle is moved to the highest point of the right needle receiving cam 10, then, the needle is moved along the left side wall surface of the right needle receiving triangle 10 and the hanging transition triangle 11, the push needle pushes the needle to hang the eyes, meanwhile, the right eye-hanging preselection triangle 15 is used for preselecting needle for the left push needle triangle 6, the push needle is pushed by the needle selection foot to enter a knitting needle path formed between the knitting triangle 5 and the left flat needle triangle 3 and the right flat needle triangle 4, and then the needle is pushed to cut the needle to weave through the push needle and the right stitch triangle 13, so that the same row of weaving and stitch lifting are completed.

The needle receiving and turning method comprises the following steps: the machine head moves from right to left, the needle turning triangle 2 protrudes from the triangle bottom plate 14, the right needle receiving triangle 10 protrudes from the triangle bottom plate 14, the left needle receiving triangle 9 retracts into the triangle bottom plate 14, the right eye pre-selection triangle 15 pre-selects a needle selection foot to push a push needle to move along the right needle receiving triangle 10 and the hanging transition triangle 11, the push needle pushes a needle selection needle to move along the needle turning triangle 2 to form a needle connection, meanwhile, the right eye pre-selection triangle 15 pre-selects a needle for the left needle pushing triangle 6, the needle selection foot pushes the push needle to move along the knitting triangle 5, and then the needle selection needle is pushed to enter a needle turning needle track between the needle turning triangle 2 and the right eye triangle 13 to form a needle turning.

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 (2)

1. The utility model provides a computerized flat knitting machine bottom plate, includes triangle bottom plate (14) and installs at least one weaving unit on triangle bottom plate (14), its characterized in that: the knitting unit comprises a needle turning and protecting triangle (1), a needle turning triangle (2), a left stitch triangle (12), a right stitch triangle (13), a left plain stitch triangle (3), a right plain stitch triangle (4), a knitting triangle (5), a left needle receiving triangle (9), a right needle receiving triangle (10), a connecting and hanging transition triangle (11), a left push needle triangle (6), a right push needle triangle (7), a left hanging mesh preselection triangle (8) and a right hanging mesh preselection triangle (15); the left plain stitch cam (3) and the right plain stitch cam (4) are fixedly arranged in the middle of the cam bottom plate (14) in a left-to-right manner; the needle turning and protecting triangle (1) is fixedly arranged at the upper part of a triangle bottom plate (14); the needle turning triangle (2) is movably arranged on the triangle bottom plate (14) and is positioned below the needle turning and protecting triangle (1); the left stitch cam (12) and the right stitch cam (13) are symmetrically arranged on the left side and the right side of the needle turning and protecting cam (1) in a splayed shape, and the left stitch cam (12) and the right stitch cam (13) are both arranged on a cam bottom plate (14) in a sliding manner; the knitting cam (5) is fixedly arranged below the left plain stitch cam (3) and the right plain stitch cam (4), and a knitting needle path is formed between the knitting cam (5) and the left plain stitch cam (3) and the right plain stitch cam (4); the left needle connecting triangle (9) and the right needle connecting triangle (10) are arranged on two sides of the connecting and hanging transition triangle (11) in a bilateral symmetry mode and are positioned below the knitting triangle (5), and the left needle connecting triangle (9) and the right needle connecting triangle (10) are movably arranged; the left eye hanging preselection triangle (8), the left push pin triangle (6), the right push pin triangle (7) and the right eye hanging preselection triangle (15) are arranged at the bottom of the triangle bottom plate (14) from left to right.

2. A knitting method of a base plate of a computerized flat knitting machine according to claim 1, characterized in that: comprises a weaving method, a mesh hanging method for weaving in the same row and a needle receiving and turning method;

the weaving method comprises the following steps: the needle turning cam (2) retracts into the cam bottom plate (14), the machine head moves from right to left, the right stitch preselection cam (15) preselects a needle for the left needle pushing cam (6), the needle is pushed by the needle selection foot to enter a knitting needle path formed between the knitting cam (5) and the left flat needle cam (3) and the right flat needle cam (4), and then the needle is pushed by the needle pushing to cut a needle for knitting;

the mesh hanging method comprises the following steps: the machine head moves from right to left, the left needle receiving triangle (9) and the needle transferring triangle (2) both retract into the triangle bottom plate (14), the right needle receiving triangle (10) protrudes out of the triangle bottom plate (14), the right eye hanging preselection triangle (15) preselects needles for the left eye hanging preselection triangle (8), a butt of a push needle is pushed by a needle selection foot, the butt firstly moves to the highest point of the right needle receiving triangle (10) along a needle path formed between the right side wall surface of the right needle receiving triangle (10) and the knitting triangle (5) until the needle moves, then the needle moves along the left side wall surface of the right needle receiving triangle (10) and the hanging transition triangle (11), and the push needle pushes the needle cutting to carry out eye hanging; when the machine head moves from left to right, the right needle receiving triangle (10) and the needle turning triangle (2) both retract into the triangle bottom plate (14), the left needle receiving triangle (9) protrudes out of the triangle bottom plate (14), and at the moment, the eye-lifting needle-moving track is symmetrical to the eye-lifting needle-moving track;

the mesh hanging method for the same-row weaving comprises the following steps: the machine head moves from right to left, the left needle receiving triangle (9) and the needle transferring triangle (2) both retract into the triangle bottom plate (14), the right needle receiving triangle (10) protrudes out of the triangle bottom plate (14), the right stitch preselection triangle (15) preselects needles for the left stitch preselection triangle (8), a butt of a push needle is pushed by the selection needle firstly along the needle path formed between the right side wall surface of the right needle receiving triangle (10) and the knitting triangle (5) until the highest point of the right needle receiving triangle (10) is reached by needle walking, then needle walking is carried out along the left side wall surface of the right needle receiving triangle (10) and the hanging transition triangle (11), the push needle pushes a needle for eye hanging, meanwhile, the right stitch preselection triangle (15) is a left push needle triangle (6) for pre-selecting needles, the push needle is pushed by the selection needle to enter the knitting triangle (5) and the knitting needle walking path formed between the left flat needle triangle (3) and the right flat needle triangle (4), then, the needle is pushed to cut the needle for knitting through the push needle and a right stitch cam (13), so that the knitting and the stitch lifting in the same row are finished;

the needle receiving and turning method comprises the following steps: the machine head moves from right to left, the needle turning cam (2) protrudes out of the cam base plate (14), the right needle receiving cam (10) protrudes out of the cam base plate (14), the left needle receiving cam (9) retracts into the cam base plate (14), the right hanging mesh preselection cam (15) preselection needle selection pins push the push needles to move along the right needle receiving cam (10) and the connecting and hanging transition cam (11), the push needles push the house needles to move along the needle turning cam (2) to form needle connection, meanwhile, the right hanging mesh preselection cam (15) preselection needles for the left needle pushing cam (6), the needle selection pins push the push needles to move along the knitting cam (5), and then the house needles are pushed to enter a needle turning channel between the needle turning cam (2) and the right mesh cam (13) to form needle turning.

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