CN210657342U - Tubular and sheet integrated into one piece's knitting vamp - Google Patents

Abstract

The utility model discloses a tube-shape and slice integrated into one piece's knitting vamp, including knitting vamp, knitting vamp constitute by integrative knitting tube-shape part and slice part. The utility model discloses a knitting vamp that integrative knitting tube-shape part and slice part formed had not had the extravagant direct cooperation sole of corner clout, and the process is simple, high-efficient, and the product changes variously can carry out traditional printing, embroider, brand, paste and bore, local composite technology.

Description

Tubular and sheet integrated into one piece's knitting vamp

Technical Field

The utility model relates to a knitting vamp specifically indicates a tube-shape and slice integrated into one piece's knitting vamp.

Background

The traditional shoe upper mainly has the following production modes:

the first method comprises the following steps: selecting corresponding vamp grey cloth, and performing a series of complicated subsequent processing such as typesetting, laser cutting and sewing to waste a large amount of leftover bits and pieces, so that the production cycle of the product is greatly prolonged and time and labor are wasted while the efficiency is low;

and the second method comprises the following steps: compared with the first vamp production mode, the production mode stops the generation of a large amount of leftover bits and pieces, omits the cutting procedure of the plane outline of the vamp, still needs a large amount of subsequent processing procedures, has short production cycle, still wastes time and labor, and particularly, the cylindrical part of the vamp is sewn instead of integrally formed;

and the third is that: the independent open tubular vamp is woven and produced by the hosiery machine only by simple and efficient head sewing, the production method has simple and efficient procedures, labor is saved, and the production period is greatly shortened; however, due to the restriction of the functions of the hosiery machine, only single-layer or double-layer open tubular vamps can be produced, and the tubular vamps restrict the development of the subsequent deep processing (including printing, embroidering, branding, sticking and drilling, local compounding and the like) of the vamps, and finally restrict the application of diversified design elements of the vamps, so that the vamps have the current situations of single style, insufficient change and unavailable grade.

In view of this, the present inventors have conducted intensive studies on the above problems, and have developed the present invention.

Disclosure of Invention

The utility model discloses mainly solve traditional vamp and traditional production mode exist not enough, provide one kind and had not had the leftover bits extravagant, and simple process, high efficiency, the product is fit for the vamp back end deep-processing, changes manifold a tube-shape and slice integrated into one piece's knitting vamp.

The knitted vamp comprises a tubular part and a sheet part which are integrally knitted, wherein the sheet part comprises an opening end capable of being unfolded. Because the integrated cylindrical part and the sheet part are produced on the same vamp by knitting, the cylindrical part realizes the forming function of the parts such as the efficient vamp, the heel, the shoe body and the like, and the sheet part achieves the development of the back-end deep processing (the deep processing comprises printing, embroidering, branding, sticking, local compounding and the like) of the vamp, the integrated forming structure of the cylindrical part and the sheet part is more convenient and efficient compared with the traditional structure, the process expansion of the vamp is realized, and the change elements and the diversity are increased. The tubular part and the sheet part are both weft knitting structures integrally knitted and formed by a weft knitting machine.

The opening end of the sheet part is positioned at the initial weaving end of the knitted vamp, and the finishing end of the knitted vamp is a cylindrical part. The specific technology is that the sheet part is a sheet weft knitting structure, the tubular part is a tubular weft knitting structure, the initial knitting end of the knitted vamp is the sheet weft knitting structure, the open end with one open end capable of being unfolded is realized by single-path or multi-path reciprocating operation of a weft knitting machine and no re-eating or tuck stitch connection between knitting needles which participate in knitting from head to tail, so that the sheet weft knitting structure is formed, when the finishing end of the knitted vamp is knitted, the tubular weft knitting structure can be realized by single-path or multi-path reciprocating operation of the weft knitting machine.

The opening end of the sheet part is positioned at the end weaving end of the knitted vamp, and the starting end of the knitted vamp is a cylindrical part. The specific technology is that the sheet part is of a sheet weft knitting structure, the tubular part is of a tubular weft knitting structure, the initial knitting end of the knitted vamp is of the tubular weft knitting structure, the tubular weft knitting structure is realized by unidirectional operation of a weft knitting machine, multi-path unidirectional operation or multi-path reciprocating operation knitting can be adopted, when the final end of the knitted vamp is knitted, the open end with one open end capable of being unfolded is realized by the single-path or multi-path reciprocating operation of the weft knitting machine and no re-eating or tuck stitch connection between the knitting needles with the head and the tail involved in knitting, and thus the sheet weft knitting structure is formed.

The starting end and the ending end of the knitted vamp are both opening ends of the sheet parts, and the tubular part is positioned between the starting end and the ending end of the knitted vamp. The specific process is that the sheet part is of a sheet weft knitting structure, the tubular part is of a tubular weft knitting structure, the initial knitting end of the knitted vamp is of a sheet weft knitting structure, the open end with one open end capable of being unfolded is realized by the single-path or multi-path reciprocating operation of the weft knitting machine and no heavy eating or tuck stitch connection between the knitting needles which participate in the knitting from head to tail, thereby forming a sheet-shaped weft knitting structure, when the knitting machine is used for knitting to the middle part of the knitted vamp, the tubular weft knitting structure can be realized by one-way operation of the weft knitting machine, and also by multi-way one-way operation or multi-way reciprocating operation, when the knitting vamp end of the knitting vamp is knitted, the open end with one open end capable of being unfolded is realized by the single-path or multi-path reciprocating operation of the weft knitting machine and no heavy eating or tuck stitch connection between the knitting needles which participate in the knitting from head to tail, thereby forming a sheet-shaped weft knitting structure.

As a knitting process, the tubular part is a tubular weft knitting structure, the tubular weft knitting structure can be formed by unidirectional operation knitting through a weft knitting machine, and can also be formed by multi-path unidirectional operation or multi-path reciprocating operation knitting, the weft knitting machine can realize 360-degree reciprocating operation of a needle cylinder, and random control of 3 needle positions of single-path or multi-path corresponding yarn openings in the reciprocating operation is realized to realize the tubular weft knitting structure; the sheet-shaped part is a sheet-shaped weft knitting structure, the sheet-shaped weft knitting structure operates in a single-path or multi-path reciprocating mode through a weft knitting machine, knitting needles which participate in knitting from head to tail are not heavily eaten or are connected through tuck stitches, an opening end with an opening at one end capable of being unfolded is achieved, and therefore the sheet-shaped weft knitting structure is formed. Regarding the peripheral outline of the sheet-shaped weft knitting structure, the increase and decrease of the quantity of knitting participation are controlled within the range of the total needle number of a needle cylinder of a weft knitting machine, and the control of the size of the peripheral outline of the sheet-shaped weft knitting structure is realized.

The tubular weft knitting structure in the utility model adopts the multi-path unidirectional operation to weave the produced tubular weft knitting structure, can realize the weaving application of single rib top, double rib top, plain weave, jacquard weave, plaiting, tucking and other structures, and has higher weaving efficiency; the tubular weft knitting structure produced by adopting multi-path reciprocating operation knitting is formed by connecting more than two paths of corresponding independent sheet knitting blocks through heavy eating or tucking stitches, and can realize the knitting application of single rib top, double rib top, plain weave, jacquard weave, plating, tucking, non-dotted line jacquard weave, non-dotted line applique, heel jacquard weave, net holes, picking holes and other stitches.

The sheet weft knitting structure in the utility model adopts the sheet weft knitting structure produced by single-path reciprocating operation knitting, and can realize the knitting application of the tissues such as plain weave, jacquard weave, tuck, no dotted line applique, heel jacquard weave, net holes, picking holes and the like; the sheet weft knitting structure produced by adopting multi-path reciprocating operation knitting is formed by connecting more than two paths of corresponding independent sheet knitting blocks through heavy eating or tucking stitch, and can realize the knitting application of single rib top, double rib top, plain weave, jacquard weave, plating, tucking, no dotted line jacquard weave, no dotted line applique, heel jacquard weave, net holes, picking holes and other stitches.

In order to ensure that the tubular weft knitting structure and the sheet weft knitting structure are combined and integrally formed at will, the conversion action of the two weave structures must be in the forward rotation process of a machine, so that the weaving problems of broken lines, winding and the like are effectively avoided.

According to the above technical scheme, the utility model discloses a knitting vamp that integrative knitted tube-shape part and slice part formed had not had the extravagant direct cooperation sole of corner clout either, and the process is simple, high-efficient, and the product changes variously can carry out traditional printing, embroider, brand, paste brill, local composite technology.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be 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 for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic view of a three-dimensional structure of a knitted vamp formed integrally by a tubular shape and a sheet shape;

FIG. 2 is a schematic perspective view of another knitted vamp formed integrally by tubular and sheet materials according to the present invention;

FIG. 3 is a schematic perspective view of another knitted vamp formed integrally by tubular and sheet materials according to the present invention;

FIG. 4 is a schematic view of the needle position operation structure of the weft knitting machine of the present invention;

FIG. 5 is a structural diagram of a multi-path unidirectional weaving tubular weft knitting structure of the present invention;

FIG. 6 is a structural diagram of a multi-path reciprocating knitting machine of the present invention;

fig. 7 is a structural diagram of the sheet-like weft knitting structure of the present invention.

Detailed Description

The embodiment of the utility model provides a tube-shape and slice integrated into one piece's knitting vamp realizes knitting vamp one shot forming, possesses tube-shape part function and slice part function simultaneously.

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-7, the embodiment of the present invention provides a knitted shoe upper with a tubular shape and a sheet shape integrally formed,

the knitted vamp comprises a tubular part and a sheet part which are integrally knitted, wherein the sheet part comprises an opening end capable of being unfolded. The tubular part and the sheet part are both weft knitting structures integrally knitted and formed by a weft knitting machine.

As a specific example 1, as shown in figure 1, the open end of the sheet part 1 is located at the initial knitting end of the knitted vamp, and the finishing end of the knitted vamp is a cylindrical part 2. The specific process comprises the following steps: the starting knitting end of the knitted vamp is of a sheet-shaped weft knitting structure, one end of the opening can be opened by realizing the opening end of the opening by the single-way or multi-way reciprocating operation of a weft knitting machine and no heavy feed or tuck stitch connection between knitting needles which participate in knitting from head to tail, so that the sheet-shaped weft knitting structure is formed.

As a specific example 2, as shown in figure 1, the open end of the sheet part 4 is positioned at the end knitting end of the knitted vamp, and the start end of the knitted vamp is the cylindrical part 3. The specific process comprises the following steps: the initial knitting end of the knitted vamp is of a tubular weft knitting structure, the tubular weft knitting structure can be realized by one-way operation of a weft knitting machine or multi-way reciprocating operation knitting, when the final end of the knitted vamp is knitted, the open end with one open end capable of being unfolded is realized by one-way or multi-way reciprocating operation of the weft knitting machine and no re-eating or tucking stitch connection between the knitting needles which participate in knitting from head to tail, so that the sheet weft knitting structure is formed.

As a specific example 3, as shown in fig. 3, both the beginning and the end of the knitted upper are sheet-like portions, and the tubular portion is located between the beginning and the end of the knitted upper. The specific process is that the initial knitting end of the knitted vamp is a sheet-shaped weft knitting structure 5, the open end with one open end capable of being unfolded is realized by the single-way or multi-way reciprocating operation of a weft knitting machine and no heavy eating or tucking stitch connection between the knitting needles with the head and the tail participating in knitting, so that the sheet-shaped weft knitting structure is formed, when the middle part of the knitted vamp is knitted, the tubular weft knitting structure 7 is realized by the single-way or multi-way reciprocating operation of the weft knitting machine and no heavy eating or tucking stitch connection between the knitting needles with the head and the tail participating in knitting, when the finishing end of the knitted vamp is knitted, the open end with one open end capable of being unfolded is realized by the single-way or multi-way reciprocating operation of the weft knitting machine, so that the sheet-shaped weft knitting structure 6 is formed.

As shown in figure 4, the needle position operation diagram of the knitting equipment selected by the knitting vamp of the utility model can realize 360 degrees reciprocating operation in the weaving process no matter in single path or multiple paths, and can realize the arbitrary control of 3 needle positions of single path or multiple paths corresponding yarn mouth looping, tucking and needle hiding under the control of computer program and in the reciprocating operation.

As shown in fig. 5, the tubular weft knitting structure of the present invention adopts the multi-path one-way operation to weave the tubular weft knitting structure, which can realize the weaving application of the single rib top, the double rib top, the plain weave, the jacquard weave, the plating, the tuck and other structures, and has higher weaving efficiency.

As shown in fig. 6 the utility model provides a tube-shape weft knitting structure adopts the reciprocal operation of multichannel to weave the tube-shape weft knitting structure of production, weaves the block by the independent slice that corresponds more than the two tunnel, forms through heavily eating or tucking tissue connection, can realize single rib top, two rib tops, plain weave, jacquard weave, plating, tucking, no dotted line jacquard weave, no dotted line applique, heel jacquard weave, net hole, choose the weave application of weave such as hole.

As shown in fig. 7, the sheet weft knitting structure of the utility model adopts a single-path reciprocating operation knitting production sheet weft knitting structure, and can realize the knitting application of the structures of plain weave, jacquard weave, tuck, no dotted line applique, heel jacquard weave, net holes, picking holes, etc.; the sheet weft knitting structure produced by adopting multi-path reciprocating operation knitting is formed by connecting more than two paths of corresponding independent sheet knitting blocks through heavy eating or tucking stitch, and can realize the knitting application of single rib top, double rib top, plain weave, jacquard weave, plating, tucking, no dotted line jacquard weave, no dotted line applique, heel jacquard weave, net holes, picking holes and other stitches.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (5)

1. The utility model provides a knitting vamp of tube-shape and slice integrated into one piece, includes knitting vamp, its characterized in that: the knitted vamp is composed of a tubular part and a sheet part which are integrally knitted, and the sheet part comprises an opening end which can be unfolded.

2. A tubular and sheet integrally formed knitted upper according to claim 1, wherein the tubular portion and the sheet portion are of weft knitted construction integrally knitted with a weft knitting machine.

3. The knitted upper of claim 1, wherein the open end of the flap portion is located at the initial knitted end of the knitted upper and the toe end of the knitted upper is the tubular portion.

4. The knitted upper of claim 1, wherein the open end of the flap portion is located at the end of knitting of the knitted upper, and the starting end of the knitted upper is the tubular portion.

5. The knitted upper of claim 1, wherein the beginning and ending ends of the knitted upper are open ends of the flap portion, and the tubular portion is located between the beginning and ending ends of the knitted upper.

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