KR20200108126A - Flat knitting machine structure with adjustable gap between two knock-over bits - Google Patents

Abstract

The present invention relates to a flat knitting machine structure with an adjustable gap between two knock-over bits to weave three-dimensional (3D) fabrics with different thicknesses. According to the present invention, the flat knitting machine structure comprises two needle beds and two cam systems. Each needle bed includes a plurality of needles and a plurality of knock-over bits, each needle includes a butt, and each knock-over bit includes a control butt. The two needle beds are disposed with an interval and the knock-over bits are faced with a predetermined gap. The distance of the gap is equal to a space between two faced knock-over bits. Each cam system includes a needle cam placing a plurality of butts thereon and guiding each needle to perform a knitting stroke toward the gap, and the knock-over bit allows the control butt to be placed thereon. The knock-over bit is controlled to regulate a displacement stroke for operating the plurality of knock-over bits to change the size of the gap.

Description

Flat knitting machine structure with adjustable gap between bits formed by two knock-overs {FLAT KNITTING MACHINE STRUCTURE WITH ADJUSTABLE GAP BETWEEN TWO KNOCK-OVER BITS}

The present invention relates to a flat knitting machine structure, and more particularly, to a flat knitting machine structure capable of adjusting the gap size of bits formed by knock-over.

A technique for knitting a three-dimensional fabric with adjustable thickness is generally realized by a warp knitting machine, and is disclosed in the patents of CN 102704180A, CN 102978823A and CN 105220347A.

However, a problem in which the conventional knitting machine cannot knit the above-described fabric is that a flat knitting machine comprising bits formed by a fixed knock-over has a fixed gap therebetween, so that the flat knitting machine can knit a single thickness fabric. I have no choice but to.

CN 102704180A CN 102978823A CN 105220347A

The main object of the present invention is to solve the application problem resulting from the constant gap of the flat knitting machine.

In order to achieve the above object, the present invention is a flat knitting machine structure having an adjustable gap between bits formed by two knock-overs, and two needle beds and two needle beds each disposed to face one of the needle beds. Includes a cam system. Each needle bed includes a plurality of needles, respectively, and a plurality of knock-over bits disposed corresponding to each of the plurality of needles. Each of the plurality of needles includes a butt. Each of the bits formed by a plurality of knock-overs includes a control butt disposed on the same side as each of the butt. The two needle beds are arranged at intervals so that the bits formed by a plurality of knock-overs face each other to form a gap, and the distance of the gap is the same as the space between the bits formed by two knock-overs facing each other. Each of the plurality of needles forms a needle extension line. Each butt is each positioned on one of the needle extension lines. Each control butt is respectively positioned on one of the needle extension lines on which one of the plurality of needles is correspondingly arranged. Each of the plurality of knock-over bits includes an extension portion provided with the control butt, a bent portion connected to the extension portion, and a loop hook portion connected to the bent portion and parallel to a front edge of one of the needles. Each cam system includes a needle cam that guides each of the plurality of needles so that a knitting stroke is performed toward the gap by arranging a butt, and a bit cam formed by a knock-over disposed by the control butt. The bit cam formed by knock-over is controlled to form a displacement stroke that drives the bits formed by knock-over to change the size of the gap.

In one embodiment, each of the bits formed by a plurality of knock-overs includes a wire mounting hole for releasing a loop positioned on the loop hook, and at least one of the wire mounting holes for limiting a position is the extension It is located on the float.

In one embodiment, each of the needle beds includes a plurality of chutes each disposed on the needle bed base, and each of the bits formed by the plurality of knock-overs slides within the chute under the displacement stroke. It includes a bottom portion positioned on the loop hook portion for the bit cam formed over.

In one embodiment, each of the knock-over bit cams includes a first guide portion, a straight portion connected to the first guide portion, and a second guide portion connected to the straight portion, and the first guide portion and The second guide portions are each tapered toward the straight portion, and the size of the straight portion is constant.

In one embodiment, each of the bit cams formed by knock-over is disposed on one side of one of the cam systems facing the gap.

As described above, compared with the prior art, the cam system of the flat knitting machine structure of the present invention includes a bit cam formed by knock-over to move the bit cam formed by knock-over according to the necessity of knitting, and has different thicknesses. The gap of the flat knitting machine structure can be adjusted so that the three-dimensional fabric can be knitted.

1 is a schematic structural diagram of a horizontal knitting machine according to an embodiment of the present invention.
2 is a schematic structural diagram of a needle bed portion having a small gap in an embodiment of the present invention.
3 is a schematic structural diagram of a needle bed portion having a large gap in an embodiment of the present invention.
4 is a schematic diagram of a structure of bits formed by knock-over in an embodiment of the present invention.
5 is a schematic diagram of a structural relationship between a needle and bits formed by knock-over in an embodiment of the present invention.
6 is a partially enlarged view of a structural relationship between a needle and bits formed by knock-over in an embodiment of the present invention.
7 is a schematic structural diagram of a cam system in an embodiment of the present invention.
8 is a schematic diagram of an implementation of a cam system in an embodiment of the present invention.
9 is a schematic structural diagram of a three-dimensional fabric having an adjustable thickness.

Hereinafter, detailed contents and technical contents of the present invention will be described with reference to the drawings.

1 to 9, the present invention provides a flat knitting machine structure 100 capable of changing the size of the gap 10 according to the knitting conditions during the knitting process, through which the three-dimensional fabric 90 in the knitting process You can change the thickness of (also called spacer fabric). The transverse knitting machine structure 100 includes two needle beds 11 and 12 and two cam systems 13 (14) disposed opposite each needle bed 11 (12). The two needle beds 11 and 12 mean a needle bed before and after in the art, and the two needle beds 11 and 12 are arranged inclined to correspond to each other. The two needle beds 11 and 12 are arranged with a gap therebetween. Each of the needle beds 11 (12) includes a plurality of needles 15 and a plurality of knock-over bits 16 arranged corresponding to each of the plurality of needles 15. The bits 16 formed by a plurality of knock-overs in the present invention are not sinkers. The bits 16 formed by a plurality of knock-overs are designed to be adjustable, but when one of the plurality of corresponding needles 15 moves, the bits 16 formed by the plurality of knock-overs do not move. . Further, the gap 10 of the present invention is formed by bits 16 formed by a plurality of knock-overs of two needle beds 11 and 12 facing each other. The distance of the gap 10 is equal to the space 101 (shown in the figure) between the bits 16 formed by two knock-overs facing each other. As shown in FIGS. 3 to 6, each of the plurality of needles 15 includes a butt 151. Each of the bits 16 formed by a plurality of knock-overs includes a control butt 161 disposed on the same side as each of the butt 151. In addition, each of the bits 16 formed by a plurality of knock-overs overlap one of the corresponding plurality of needles 15, and a butt 151 on one side of the needle 15 facing the needle bed base 17 Has been placed. A control butt 161 is disposed on one side of the bits 16 formed by knock-over facing the needle bed base 17. Referring to FIG. 6, each of the plurality of needles 15 may define a needle extension line 152. The butt 151 on the needle 15 is located on the needle extension line 152. A control butt 161 corresponding to the needle 15 on one of the plurality of knock-over bits 16 is positioned on the needle extension line 152. In addition, the length of each of the bits 16 formed by a plurality of knock-overs is shorter than the total length of the plurality of needles 15 so that the control butt 161 and the butt 151 are located on the same needle extension line 152 .

Referring to FIGS. 4 and 6, in one embodiment, each of the plurality of knock-over bits 16 is provided with an extension part 162 provided with a control butt 161, and a bent part 163 connected to the extension part 162. ), and a loop hook portion 164 connected to the bent portion 163 and parallel to the front edge of one needle 15. In addition, the extension part 162 overlaps the upper part of the needle part 15. The bent part 163 positions the loop hook part 164 and the extension part 162 on different extension lines, and the loop hook part 164 is parallel to the needle 15, so that the loop hooks when the needle 15 moves. Let's do it. In addition, each of the bits 16 formed by a plurality of knock-overs has a loosening loop 165 wire mounting hole located on the loop hook 164 and a wire mounting hole for position limitation located on the extension part 162 (166) is included. As shown in FIGS. 5 and 6, in one embodiment, the bits 16 formed by a plurality of knock-overs are implemented in two different thicknesses on the loop hook portion 164. In addition, the thickness of the loop hook portion 164 of the bits 16 formed by knock-over is smaller than the thickness of the other portions of the bits 16 formed by knock-over, as shown in FIG. 6. Is implemented. 2 and 4, each of the needle beds 11 includes a plurality of chutes 171 respectively formed on the needle bed base 17. Each of the bits 16 formed by a plurality of knock-overs is positioned on a loop hook and includes a bottom portion 167 disposed in the chute 171.

2, 7 and 8, in another aspect, each cam system 13(14) is arranged to face one of the needle beds 11(12), respectively. Each cam system 13(14) includes a needle cam 131 providing a butt 151 to be disposed, and a bit cam 132 formed by knock-over places a control butt 161. The needle cam 131 and the bit cam 132 formed by knock-over may be formed by one or more cam units. The needle cam 131 is a continuous convex portion and valley so that the butt 151 disposed therein performs a knitting stroke toward the gap 10 when each cam system 13 (14) is operated. Includes wealth. In addition, in one embodiment, the bit cam 132 formed by knock-over includes a first guide part 134, a straight part 135 connected to the first guide part 134, and a first guide part 135 connected to the straight part 135. It includes 2 guide part 136. The first guide portion 134 and the second guide portion 136 taper toward the straight portion 135, respectively, and the size of the straight portion 135 is constant. In addition, the first guide portion 134 and the second guide portion 136 are designed to be tapered to substantially guide the control butt 161 after the bit cam 132 formed by knock-over moves. In addition, the bit cams 132 formed by each knock-over are respectively disposed on one side facing the gap 10 of the cam system 13 (14).

Based on the foregoing, the bit cam 132 formed by knock-over according to the present invention determines the positions of each of the bits 16 formed by a plurality of knock-overs to change the size of the gap 10. Unlike the needle cam 131, the bit cam 132 formed by knock-over does not clearly have a convex portion and a valley portion. The guide portion of the knock-over bit cam 132 that guides each of the knock-over bits 16 is mostly straight. However, in the present invention, the bit cam 132 formed by knock-over is controlled to form the displacement stroke 133. In the displacement stroke 133, the bit cam 132 formed by knock-over makes a one-dimensional motion with respect to the cam base 137 and simultaneously displaces each of the bits 16 formed by a plurality of knock-overs, The positions of each of the bits 16 formed by knock-over are changed. Accordingly, the size of the gap 10 is changed, and the displacement of the bit cam 132 formed by the knock-over described above is shown in FIGS. 2 and 3.

Based on this, each of the bit cams 132 formed by knock-over of the present invention is connected to an exercise device. The exercise device drives each knocking bit cam 132 to make the displacement stroke 133 according to the received control signal. The generation of the control signal is set on the basis of programming. Accordingly, in the knitting process of the three-dimensional fabric 90, the thickness of the three-dimensional fabric 90 is changed, and it is also allowed for the three-dimensional fabric 90 to create a structure having irregularities on the outside of the plane.

Claims (5)

As a flat knitting machine structure having an adjustable gap between bits formed by two knock-overs,
Including 2 needle beds and 2 cam systems,
The two needle beds each include a plurality of needles and a plurality of knock-over bits disposed corresponding to each of the plurality of needles, each of the plurality of needles including a butt, the plurality of knock- Each of the bits formed as over includes a control butt disposed on the same side as each of the butts, and the two needle beds are disposed at an interval so that the bits formed by a plurality of knock-overs face each other to form a gap, and the The distance of the gap is the same as the space between the bits formed by two knock-overs facing each other, and each of the plurality of needles forms a needle extension line, and each butt is located on one of the needle extension lines, and each control The butt is each positioned on one of the needle extension lines in which one of the plurality of needles is correspondingly arranged, and each of the bits formed by the plurality of knock-overs has an extension portion provided with the control butt, and a bent portion connected to the extension portion And a loop hook part connected to the bent part and parallel to the front edge of one of the needles,
The two cam systems are each disposed to face one of the needle beds, and each cam system arranges the butt to guide each of the plurality of needles so that a knitting stroke is performed toward the gap, And a bit cam formed by knock-over disposed by the control butt, wherein the bit cam formed by knock-over forms a displacement stroke for driving the plurality of knock-over bits to change the size of the gap Flat knitting machine structure, characterized in that it is controlled to.
The method of claim 1,
Each of the bits formed by the plurality of knock-overs includes a wire mounting hole for releasing a loop located on the loop hook, and at least one of the wire mounting holes for limiting a position is located on the extension part. Flat knitting machine structure, characterized in that.
The method of claim 2,
Each of the needle beds includes a plurality of chutes respectively disposed on the needle bed base, and each of the bits formed by the plurality of knock-overs is a bit cam formed by the knock-over sliding within the chute under the displacement stroke. Flat knitting machine structure, characterized in that it comprises a bottom portion located on the loop hook portion for.
The method of claim 1,
Each of the knock-over bit cams includes a first guide part, a straight part connected to the first guide part, and a second guide part connected to the straight part, and the first guide part and the second guide part Each thinner toward the straight portion, the flat knitting machine structure, characterized in that the size of the straight portion is constant.
The method of claim 1,
Each of the knock-over bit cams is disposed on one side of one of the cam systems facing the gap.

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