CN115715612A - Integrally-knitted magnetic composite fiber sock shoe and knitting process - Google Patents

Abstract

The invention relates to the field of shoe material textile, in particular to integrally knitted magnetic composite fiber sock shoes and a knitting process. A sock shoe, comprising: the bottom surface of the sock body is connected with the sole, the sock body comprises a sock surface, the sock surface is integrally formed by weaving magnetic composite fibers through weaving equipment, and the weaving equipment is a sock machine. The vamp is manufactured by adopting an integrally-woven process, so that the vamp is light, thin and breathable, and the vamp has a good fitting effect on the foot; meanwhile, the sock body of the sock is made of magnetic composite fiber materials, the magnetic composite fibers are uniformly implanted into the fibers through permanent magnetic particle materials and organically combined into yarns, and a plurality of N and S magnetic loops and emitted magnetic force lines generated by countless magnetic particles close to the edges of the fabric fibers are interwoven into a layer of invisible three-dimensional magnetic force line net. Can carry out omnibearing three-dimensional stimulation and massage on the attached skin. The elastic yarn is additionally woven at the shoe opening part, and the shoe opening part has elasticity, so that the shoe is comfortable to wear and has good wrapping property.

Description

Integrally-knitted magnetic composite fiber sock shoe and knitting process

Technical Field

The invention relates to the technical field of shoe material weaving, in particular to integrally woven magnetic composite fiber sock shoes and a weaving process.

Background

The sock shoe is a novel shoe which is manufactured by combining a sock and a shoe, mainly aims at comfort, and has a basic structure comprising a sock body and a sole, wherein the sock body is made of textile materials. However, with the development of the times, health is also a topic of attention, in recent years, new development of magnetic textiles is provided, novel magnetic textiles are continuously developed, the requirements of medical care of people are met, for people in sub-health state and with increasing working pressure, a vamp which has a health care effect and is comfortable to wear is extremely attractive, and the existing magnetic medical supplies are provided with fixed magnets or rubber and plastic magnetic strips, so that the clothes and washability of users are limited. The size of the magnetic material is determined according to the size of the article, the magnetic action range is limited and fixed, the requirement on acupuncture points is accurate, and the operation is complex.

Disclosure of Invention

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and drawings.

The invention aims to overcome the defects and provide an integrally knitted magnetic composite fiber sock shoe and a knitting process.

In order to achieve the purpose, the technical solution of the invention is as follows: an integrally knitted magnetic composite fiber sock shoe, comprising: the bottom surface of the sock body is connected with the sole, the sock body comprises a sock surface, the sock surface is integrally formed by weaving magnetic composite fibers through weaving equipment, and the weaving equipment is a sock machine. The sock, shoe and vamp made of the magnetic composite fiber through integral weaving can generate an uncharged constant magnetic field and can generate a lasting beneficial weak magnetic field effect on a human body.

The vamp is manufactured by adopting an integrally-woven process, so that the vamp has the characteristics of light weight, thinness, ventilation, good fitting effect of the vamp on the foot and excellent comfort; meanwhile, the vamp and sock body is made of magnetic composite fiber materials, the magnetic composite fibers contain permanent magnetic particle materials, and the magnetic particles can generate a plurality of N and S magnetic loops and emitted magnetic lines of force to be interwoven into a layer of invisible three-dimensional magnetic line net. The magnetic wire net can carry out omnibearing three-dimensional stimulation and massage on the close skin, so that the skin surface is in a micro-motion state, the cell metabolism capability is activated, and the body microcirculation is promoted. The elastic yarn is additionally woven at the welt part of the sock shoe, so that the sock shoe has elasticity, is comfortable to wear, has good wrapping property, and has stiff and smooth finished vamp and good shaping texture. The sock shoes made by the weaving process have good effect.

In some embodiments, the sock is connected with the sole to form a sock shoe, the sock comprises an inner vamp and an outer vamp sleeved outside the inner vamp, and the inner vamp and the outer vamp are integrally woven. The shaping effect can be promoted on the one hand to inside and outside two-layer structural design, and on the other hand, bilayer structure can guarantee to serve as the structural strength of the vamp socks body, promotes life.

In some embodiments, a layer of thermal fuse is disposed between the inner upper and the outer upper. Mode that can adopt steam to iron bonds hot-melt silk layer and inlayer vamp, outer vamp as an organic whole, and the wholeness is strong, the travelling comfort when promoting the user and dress.

In some embodiments, the outer layer upper includes an outer toe surface, an outer body surface, and an outer welt, the outer toe surface, the outer body surface, and the outer welt being integrally woven, the inner layer upper having an inner toe surface, an inner body surface, and an inner welt, the inner toe surface, the inner body surface, and the inner welt being integrally woven.

In some embodiments, the sock body further comprises a sock opening, the sock opening is formed by overlapping an outer layer shoe opening and an inner layer shoe opening, and an opening for the foot to wear is formed in the sock opening.

In some embodiments, the edge of the opening is provided with an annular tightening strap which wraps around the ankle. The welt part of the sock shoe has elasticity, and the sock shoe is comfortable to wear and good in wrapping property.

In some embodiments, the sole is made of any one of an EVA material, a rubber material, a PU material, a TPU material, a TPR material, and a PC material. The EVA material is a novel environment-friendly plastic foaming material, has the advantages of good buffering, shock resistance, heat insulation, moisture resistance, chemical corrosion resistance and the like, and is non-toxic and non-absorbent; the rubber material is a high-elasticity polymer material with reversible deformation, has elasticity at room temperature, can generate large deformation under the action of small external force, and can recover the original shape after the external force is removed; PU materials, generally referred to as polyurethanes. Polyurethane (PU), a full name of polyurethane, is a high molecular compound; the TPU material, the thermoplastic polyurethane elastomer is also called thermoplastic polyurethane rubber, called TPU for short, is An (AB) n type block linear polymer, A is polyester or polyether with high molecular weight (1000-6000), B is diol containing 2-12 straight chain carbon atoms, and the chemical structure between AB chain segments is diisocyanate; TPR material, TPR stands for thermoplastic rubber; PC material, polycarbonate (abbreviated as PC in english), also known as PC plastic; the polymer is a high molecular polymer containing carbonate groups in the molecular chain, and can be classified into various types such as aliphatic, aromatic, aliphatic-aromatic and the like according to the structure of the ester groups.

In some embodiments, the magnetic composite fiber is a polyester composite fiber with a permanent magnetic particulate material added thereto.

A weaving process of integrally woven magnetic composite fiber sock shoes comprises the following steps:

(1) Preparing yarn materials required by knitting socks and shoes and compiling a weaving process material list:

and (3) carrying out material processing on the magnetized magnetic composite fiber material and other textile materials through yarn processing equipment to obtain the magnetic composite fiber material with the specification: the magnetic composite fiber material 75D/36F/2 x 5 is empty to wrap 0.5 cm 1 mesh point, the magnetic composite fiber material 75D/36F/2 x 3 is empty to wrap 0.5 cm 1 mesh point, 140D/75D/36F/2 magnetic composite fiber spandex double-covered yarn; 75D/36F/2 magnetic composite fiber, 20D/40D/24F nylon high-elasticity spandex single-covered yarn, 40D/150D/36F polyester low-elasticity spandex empty-covered yarn, and a thermal fuse layer adopts 100D/48F nylon thermal fuse. Knitting by using knitting equipment through a pre-input knitting process data sheet;

(2) Inspecting the weaving equipment, and installing corresponding yarns on the corresponding shuttles of the weaving equipment, wherein the method comprises the following steps of;

shuttle front-1: the number of the 100D/48F nylon thermal fuses is 1;

shuttle front 1:20D/40D/24F chinlon high-elastic spandex single-covered yarn with the number of 2;

shuttle front 2:40D/150D/36F terylene low-elasticity spandex empty-covered yarn with the number of 1;

shuttle front 3: the magnetic composite fiber material 75D/36F/2 x 5 is empty and wrapped with 0.5 cm of 1 mesh point, and the number of the mesh points is 1;

shuttle back 3:1 40D/150D/36F terylene low-elasticity spandex air-covered yarn is added with 1 100D/48F chinlon hot melt yarn, and the number of the yarns is 2;

shuttle back 4:1 40D/150D/36F terylene low-elasticity spandex empty-covered yarn is added with 2 100D/48F chinlon thermal fuses, and the number of the yarns is 3;

shuttle front 5:140D/75D/36F/2 magnetic composite fiber spandex double-covered yarn with the number of 1;

shuttle back 5:140D/75D/36F/2 magnetic composite fiber spandex double-covered yarn with the number of 1;

shuttle front 6: the magnetic composite fiber material 75D/36F/2 x 3 is empty and wrapped with 0.5 cm of 1 mesh point, and the number of the mesh points is 1;

shuttle front 7: the magnetic composite fiber material 75D/36F/2 x 3 is empty and wrapped for 0.5 cm and 1 mesh point, and the number of the mesh points is 1;

shuttle front 8: the magnetic composite fiber material 75D/36F/2 x 5 is empty and wrapped with 0.5 cm of 1 mesh point, and the number of the mesh points is 1;

(3) The knitting equipment is knitted to form an inner vamp: knitting to form an inner layer shoe opening part, knitting an inner layer vamp shoe body, and finally knitting to form an inner layer toe cap vamp;

(4) The knitting equipment is knitted to form a toe cap opening: after the inner layer toe cap vamp is woven in the step (3), weaving a section of rib top to form a toe cap opening;

(5) The knitting equipment is knitted to form an outer layer vamp: after the toe cap opening is knitted in the step (4), firstly knitting to form an outer layer toe cap vamp, then knitting an outer layer vamp body, and finally narrowing knitting to form an outer layer vamp opening part, so that the inner layer vamp, the toe cap opening and the outer layer vamp are formed by one-time knitting through knitting equipment;

(6) After the knitting equipment in the step (5) is used for knitting, putting a shoe tree along the welt, opening the vamp for molding, putting a hot-melt wire layer on the outer side of the inner vamp, turning the outer vamp outwards, and putting the inner vamp in the outer vamp, wherein the inner vamp welt, the inner vamp body and the inner toe cap vamp are overlapped with the outer vamp welt, the outer vamp body and the outer toe cap vamp in a one-to-one correspondence manner to form a double-layer structure knitted fabric;

(7) Sleeving the double-layer structure braided fabric on a shoe tree for heat setting, so that the double-layer structure braided fabric forms a vamp with a shape similar to that of a foot, heating a fuse layer, fixedly arranging an inner vamp and an outer vamp by the aid of the re-formed fuse layer after cooling, further forming a sock body of the sock shoe, and then performing edge covering and sewing on an opening of the double-layer structure braided fabric by means of a taping machine, a herringbone machine or a fancy machine to form a sock body welt;

(8) And (4) placing the sock body obtained in the step (7) on the sole, and then bonding the vamp of the sock body on the sole through glue to form the shoe.

No leftover bits and pieces are produced in the production process, the production process is simple, the production efficiency is high, and the vamp size and the model are unified.

In some embodiments, the knitting equipment in the knitting process is a sock machine, the glue is ba li PU glue, and the sock machine is a santong ni knitting machine GK616D3.

By adopting the technical scheme, the invention has the beneficial effects that: the vamp is manufactured by adopting an integrally-woven process, so that the vamp has the characteristics of light weight, thinness, air permeability, good attaching effect of the vamp to the foot and excellent comfort level; meanwhile, the sock body of the sock is made of magnetic composite fiber materials, the magnetic composite fibers are uniformly implanted into the fibers through the permanent magnetic particle materials and organically combined into yarns, so that the magnetic particles cannot fall off by friction and kneading, and a magnetic field with N poles and S poles exists on the surface of a fabric made of the magnetic composite fibers. The magnetic lines of force generated by these magnetic particles form a magnetic circuit from the N pole to the S pole. The N and S magnetic loops generated by countless magnetic particles close to the edge of the fabric fiber and the emitted magnetic lines are interwoven into a layer of invisible three-dimensional magnetic line net. The net film can carry out omnibearing three-dimensional stimulation and massage on the close skin. The skin surface is in a micro-motion state, the cell metabolism capability is activated, and the body microcirculation is promoted. The elastic yarn is additionally woven at the shoe opening part, the shoe opening part has elasticity, the wearing is comfortable, the wrapping performance is good, the finished vamp is stiff and smooth, the shaping texture is good, no leftover materials are generated in the production process, the production process is simple, the production efficiency is high, and the vamp size and the model are standard and uniform.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Clearly, such and other objects of the present invention will become more apparent in the light of the following detailed description of the preferred embodiments as illustrated in the various figures and drawings.

These and other objects, features and advantages of the present invention will become more apparent from the following detailed description of one or more preferred embodiments of the invention, as illustrated in the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

In the drawings, like parts are designated with like reference numerals, and the drawings are schematic and not necessarily drawn to scale.

In order to more clearly illustrate the embodiments or technical solutions in the prior art of the present invention, the drawings used in the description of the embodiments or prior art will be briefly described below, it is obvious that the drawings in the following description are only one or several embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to such drawings without creative efforts.

FIG. 1 is a schematic structural view of an integrally knitted magnetic composite fiber sock shoe according to some embodiments of the present invention;

FIG. 2 is a schematic view of the construction of the sock body in an integrally knitted magnetic composite fiber sock shoe according to some embodiments of the present invention;

fig. 3 is a schematic structural view of the inner toe cap of an integrally knitted magnetic composite fiber sock shoe according to some embodiments of the present invention.

Description of the main reference numbers:

1. a sock body; 2. an exterior upper; 3. an inner layer vamp; 4. a welt; 5. an annular restraining band; 6. a sole;

21. an outer toe cap surface; 22. an outer body surface; 23. an outer welt;

31. an inner toe cap surface; 32. an inner shoe body surface; 33. an inner welt; .

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail with reference to the following embodiments. It should be understood that the detailed description and specific examples, while indicating the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.

In addition, in the description of the present invention, it should be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on those shown in the drawings, merely for convenience of description and simplification of the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the invention.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; either directly or indirectly through intervening media, either internally or in any other relationship. However, the direct connection means that the two bodies are not connected through the transition structure but connected through the connection structure to form a whole. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the present invention, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may be directly contacting the second feature or the first and second features may be indirectly contacting each other through intervening media. In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Referring to fig. 1 to 3, fig. 1 is a schematic structural view of an integrally knitted magnetic composite fiber sock shoe according to some embodiments of the present invention; FIG. 2 is a schematic view of the construction of the sock body in an integrally knitted magnetic composite fiber sock shoe according to some embodiments of the present invention; fig. 3 is a schematic structural view of the inner toe cap of an integrally knitted magnetic composite fiber sock shoe according to some embodiments of the present invention.

According to some embodiments of the present invention, there is provided an integrally knitted magnetic composite fiber sock shoe, including: sole 6, socks body 1, the socks body 1 bottom surface is connected with sole 6, and the socks body 1 includes the socks face, and the socks face is woven integrative the forming by magnetic composite fiber through weaving equipment, and weaving equipment is the socks machine. The sock, shoe and vamp made of the magnetic composite fiber by integrated weaving can generate an uncharged constant magnetic field and can generate a lasting beneficial weak magnetic field effect on a human body.

According to some embodiments of the present invention, optionally, the sock upper is connected with the sole 6 to form a sock shoe, the sock upper includes an inner vamp 3 and an outer vamp 2 sleeved outside the inner vamp 3, and the inner vamp 3 and the outer vamp 2 are integrally knitted. The shaping effect can be promoted on the one hand to inside and outside two-layer structural design, and on the other hand, bilayer structure can guarantee to act as the structural strength of vamp socks body 1, promotes life.

According to some embodiments of the invention, a layer of hot-melt filaments is optionally provided between the inner vamp 3 and the outer vamp 2. Mode that can adopt steam to iron bonds hot-melt silk layer and inlayer vamp 3, outer vamp 2 as an organic whole, and the wholeness is strong, the travelling comfort when promoting the user and dressing.

According to some embodiments of the present invention, the outer shell upper 2 optionally includes an outer toe surface 21, an outer body surface 22, and an outer collar 23, the outer toe surface 21, the outer body surface 22, and the outer collar 23 being integrally woven, the inner shell upper 3 having an inner toe surface 31, an inner body surface 32, and an inner collar 33, the inner toe surface 31, the inner body surface 32, and the inner collar 33 being integrally woven.

According to some embodiments of the present invention, optionally, the sock body 1 further includes a sock opening 4, the sock opening 4 is formed by overlapping the outer layer shoe opening 23 and the inner layer shoe opening 33, and the sock opening 4 is provided with an opening for wearing by a foot.

According to some embodiments of the present invention, optionally, the edge of the opening is provided with an annular restraining strip 5, and the annular restraining strip 5 wraps around the ankle. The sock and shoe mouth has elasticity, and is comfortable to wear and good in wrapping property.

According to some embodiments of the present invention, the sole 6 is made of any one of EVA material, rubber material, PU material, TPU material, TPR material, and PC material. The EVA material is a novel environment-friendly plastic foaming material, has the advantages of good buffering, shock resistance, heat insulation, moisture resistance, chemical corrosion resistance and the like, and is non-toxic and non-absorbent; the rubber material is a high-elasticity polymer material with reversible deformation, has elasticity at room temperature, can generate large deformation under the action of small external force, and can recover the original shape after the external force is removed; PU materials, generally referred to as polyurethanes. Polyurethane (PU), a full name of polyurethane, is a high molecular compound; the TPU material, the thermoplastic polyurethane elastomer is also called thermoplastic polyurethane rubber, short TPU, is An (AB) n type block linear polymer, A is polyester or polyether with high molecular weight (1000-6000), B is diol containing 2-12 straight chain carbon atoms, and the chemical structure between AB chain segments is diisocyanate; TPR material, TPR stands for thermoplastic rubber; PC material, polycarbonate (abbreviated as PC in english), also known as PC plastic; the polymer is a high molecular polymer containing carbonate groups in the molecular chain, and can be classified into various types such as aliphatic, aromatic, aliphatic-aromatic and the like according to the structure of the ester groups.

According to some embodiments of the present invention, the magnetic composite fiber is optionally a polyester composite fiber added with a permanent magnetic particle material.

According to some embodiments of the present invention, the present invention further provides a knitting process of the integrally knitted magnetic composite fiber sock shoe, comprising the steps of:

(1) Preparing yarn materials required by sock and shoe knitting and compiling a knitting process data sheet:

and (3) carrying out material processing on the magnetized magnetic composite fiber material and other textile materials through yarn processing equipment to obtain the magnetic composite fiber material with the following specifications: the magnetic composite fiber material 75D/36F/2 x 5 is empty to wrap 0.5 cm 1 mesh point, the magnetic composite fiber material 75D/36F/2 x 3 is empty to wrap 0.5 cm 1 mesh point, 140D/75D/36F/2 magnetic composite fiber spandex double-covered yarn; 75D/36F/2 magnetic composite fiber, 20D/40D/24F nylon high-elasticity spandex single-covered yarn, 40D/150D/36F polyester low-elasticity spandex empty-covered yarn and 100D/48F nylon hot melt yarn. Knitting by utilizing a sock machine through a pre-input knitting process material sheet;

(2) Inspecting the sock machine, and installing corresponding yarns on the corresponding shuttles of the sock machine, wherein the method comprises the following steps of;

shuttle front-1: the number of the 100D/48F nylon thermal fuses is 1;

shuttle front 1:20D/40D/24F chinlon high-elastic spandex single-covered yarn with the number of 2;

shuttle front 2: the 40D/150D/36F terylene low-elasticity spandex empty-covered yarn has the number of 1;

shuttle front 3: the magnetic composite fiber material 75D/36F/2 x 5 is empty and wrapped with 0.5 cm of 1 mesh point, and the number of the mesh points is 1;

shuttle back 3:1 40D/150D/36F terylene low-elasticity spandex empty-covered yarn is added with 1 100D/48F chinlon hot melt yarn, and the number of the yarns is 2;

shuttle back 4:1 40D/150D/36F terylene low-elasticity spandex empty-covered yarn and 2 100D/48F chinlon thermal fuses, wherein the number of the yarns is 3;

shuttle front 5:140D/75D/36F/2 magnetic composite fiber spandex double-covered yarn with the number of 1;

shuttle back 5:140D/75D/36F/2 magnetic composite fiber spandex double-covered yarn with the number of 1;

shuttle front 6: the magnetic composite fiber material 75D/36F/2 x 3 is empty and wrapped for 0.5 cm and 1 mesh point, and the number of the mesh points is 1;

shuttle front 7: the magnetic composite fiber material 75D/36F/2 x 3 is empty and wrapped with 0.5 cm of 1 mesh point, and the number of the mesh points is 1;

shuttle front 8: the magnetic composite fiber material 75D/36F/2 x 5 is empty and wrapped with 0.5 cm of 1 mesh point, and the number of the mesh points is 1;

(3) Knitting the sock machine to form the inner layer vamp 3: knitting to form an inner layer shoe mouth part, knitting an inner layer vamp shoe body, and finally knitting to form an inner layer toe cap vamp;

(4) Knitting the sock machine to form a toe cap opening: after the inner layer toe cap vamp is woven in the step (3), weaving a section of rib top to form a toe cap opening;

(5) Knitting the sock machine to form an outer vamp 2: after the toe cap opening is knitted in the step (4), firstly knitting to form an outer layer toe cap vamp, then knitting an outer layer vamp body, and finally narrowing knitting to form an outer layer vamp opening part, so that the inner layer vamp 3, the toe cap opening and the outer layer vamp 2 are formed by one-time knitting through a stocking machine;

(6) After the knitting of the stocking machine in the step (5) is finished, putting a shoe tree along the welt, opening the vamp for molding, putting a hot-melt wire layer outside the inner vamp 3, turning the outer vamp 2 outwards to enable the inner vamp 3 to be placed in the outer vamp 2, wherein the inner vamp welt part, the inner vamp shoe body and the inner vamp toe cap are overlapped with the outer vamp welt part, the outer vamp shoe body and the outer vamp toe cap one by one to form a double-layer structure knitted fabric;

(7) Sleeving the double-layer structure braided fabric on a shoe tree for heat setting, so that the double-layer structure braided fabric forms a vamp with a shape similar to that of a foot, heating a fuse layer, fixedly arranging an inner vamp 3 and an outer vamp 2 by the re-formed hot fuse layer after cooling, further forming a sock body 1 of the sock shoe, and then performing edge covering and sewing on an opening of the double-layer structure braided fabric through an edge covering machine, a herringbone lathe or a fancy machine to form a sock body welt;

(8) And (6) placing the sock body 1 in the step (7) on the sole 6, and then bonding the vamp of the sock body on the sole 6 through glue to form the shoe.

No leftover materials are produced in the production process, the production process is simple, the production efficiency is high, and the size and the model of the vamp are standard and uniform.

According to some embodiments of the present invention, optionally, the glue is bali PU glue, and the sock machine is santoni knitting machine GK616D3.

Example 1

The embodiment provides an integrative magnetic composite fiber socks shoes of weaving, includes: sole 6, socks body 1, the 1 bottom surface of socks body is connected with sole 6, and the socks body 1 includes the socks face, and the socks face is knitted integrative the forming by magnetism composite fiber through the socks machine. The sock upper is connected with the sole 6 to form the sock shoe, the sock upper comprises an inner vamp 3 and an outer vamp 2 which is sleeved on the outer side of the inner vamp 3, and the inner vamp 3 and the outer vamp 2 are integrally woven. A hot-melt wire layer is arranged between the inner vamp 3 and the outer vamp 2. The outer vamp 2 comprises an outer toe cap surface 21, an outer body surface 22 and an outer welt 23, the outer toe cap surface 21, the outer body surface 22 and the outer welt 23 are integrally woven, the inner vamp 3 comprises an inner toe cap surface 31, an inner body surface 32 and an inner welt 33, and the inner toe cap surface 31, the inner body surface 32 and the inner welt 33 are integrally woven. The sock body 1 further comprises a sock opening 4, the sock opening 4 is formed by overlapping an outer layer shoe opening 23 and an inner layer shoe opening 33, and an opening for wearing a foot is formed in the sock opening 4. The edge of the opening is provided with an annular binding belt 5, and the ankle is wrapped by the annular binding belt 5. The sole 6 is made of any one of EVA material, rubber material, PU material, TPU material, TPR material and PC material. The magnetic composite fiber is polyester composite fiber added with permanent magnetic particle material.

Example 2

The embodiment provides a knitting process of integrally knitted magnetic composite fiber sock shoes, which comprises the following steps:

(1) Preparing yarn materials required by knitting socks and shoes and compiling a weaving process material list:

and (3) carrying out material processing on the magnetized magnetic polyester composite fiber material and other textile materials through yarn processing equipment to obtain the magnetic polyester composite fiber material with the specification: the magnetic terylene composite fiber material 75D/36F/2 x 5 is wrapped 0.5 cm by 1 lattice point, the magnetic terylene composite fiber material 75D/36F/2 x 3 is wrapped 0.5 cm by 1 lattice point, and the magnetic terylene composite fiber spandex double-covered yarn 140D/75D/36F/2; the yarn comprises 75D/36F/2 magnetic polyester composite fibers, 20D/40D/24F nylon high-elasticity spandex single-covered yarns, 40D/150D/36F polyester low-elasticity spandex empty-covered yarns and 100D/48F nylon hot melt yarns. Knitting the sock sub-machine through a pre-input knitting process material sheet, wherein the sock sub-machine is a Shengdony knitting machine GK616D3;

(2) Inspecting the sock machine, and installing corresponding yarns on the corresponding shuttles of the sock machine, wherein the method comprises the following steps of;

shuttle front-1: the number of the 100D/48F nylon thermal fuses is 1;

shuttle front 1:20D/40D/24F chinlon high-elastic spandex single-covered yarn with the number of 2;

shuttle front 2: the 40D/150D/36F terylene low-elasticity spandex empty-covered yarn has the number of 1;

shuttle front 3: the magnetic terylene composite fiber material 75D/36F/2 x 5 is empty and wrapped with 0.5 cm of 1 mesh point, and the number of the mesh points is 1;

shuttle back 3:1 40D/150D/36F terylene low-elasticity spandex empty-covered yarn is added with 1 100D/48F chinlon hot melt yarn, and the number of the yarns is 2;

shuttle back 4:1 40D/150D/36F terylene low-elasticity spandex empty-covered yarn is added with 2 100D/48F chinlon thermal fuses, and the number of the yarns is 3;

shuttle front 5:140D/75D/36F/2 magnetic terylene composite fiber spandex double-covered yarn with the number of 1;

shuttle back 5:140D/75D/36F/2 magnetic terylene composite fiber spandex double-covered yarn with the number of 1;

shuttle front 6: the magnetic terylene composite fiber material 75D/36F/2 x 3 is empty wrapped with 0.5 cm of 1 mesh point, and the number of the mesh points is 1;

shuttle front 7: the magnetic terylene composite fiber material 75D/36F/2 x 3 is empty and wrapped with 0.5 cm of 1 mesh point, and the number of the mesh points is 1;

shuttle front 8: the magnetic terylene composite fiber material 75D/36F/2 x 5 is empty and wrapped with 0.5 cm of 1 mesh point, and the number of the mesh points is 1;

(3) The sock machine is woven to form an inner layer vamp 3: knitting to form an inner layer shoe opening part, knitting an inner layer vamp shoe body, and finally knitting to form an inner layer toe cap vamp;

(4) Knitting the sock machine to form a toe cap opening: after the inner layer toe cap and the vamp are woven in the step (3), weaving a section of rib collar as a toe cap opening;

(5) Knitting the sock machine to form an outer vamp 2: after the toe cap opening is knitted in the step (4), firstly knitting to form an outer layer toe cap vamp, then knitting an outer layer vamp body, and finally narrowing knitting to form an outer layer vamp opening part, so that the inner layer vamp 3, the toe cap opening and the outer layer vamp 2 are formed by one-time knitting through a stocking machine;

(6) After the knitting of the stocking machine in the step (5) is finished, putting a shoe tree along the welt, opening the vamp for molding, putting a hot-melt wire layer outside the inner vamp 3, turning the outer vamp 2 outwards to enable the inner vamp 3 to be placed in the outer vamp 2, wherein the inner vamp welt part, the inner vamp shoe body and the inner vamp toe cap are overlapped with the outer vamp welt part, the outer vamp shoe body and the outer vamp toe cap one by one to form a double-layer structure knitted fabric;

(7) Sleeving the double-layer structure braided fabric on a shoe tree for heat setting, so that the double-layer structure braided fabric forms a vamp with a shape similar to that of a foot, heating a fuse layer, fixedly arranging an inner vamp 3 and an outer vamp 2 by the re-formed hot fuse layer after cooling, further forming a sock body 1 of the sock shoe, and then performing edge covering and sewing on an opening of the double-layer structure braided fabric through an edge covering machine, a herringbone lathe or a fancy machine to form a sock body welt;

(8) And (4) placing the sock body 1 in the step (7) on the sole 6, and then bonding the vamp of the sock body on the sole 6 through glue to form a shoe, wherein the glue is Baoli PU glue.

Example 3

The embodiment provides a knitting process of integrally knitted magnetic composite fiber sock shoes, and the embodiment is different from the embodiment 2 in that: the material of the magnetic fiber can also be mixed by acrylic fiber and wool, and the whole body of the sock machine is utilized to weave, turn over the sleeve and sew the head, and the weaving process steps are the same as the example 1.

It is to be understood that the disclosed embodiments of this invention are not limited to the particular process steps or materials disclosed herein, but rather, are extended to equivalents thereof as would be understood by those ordinarily skilled in the relevant arts. It is also to be understood that the terminology used herein is for the purpose of describing particular embodiments only, and is not intended to be limiting.

Reference in the specification to "an embodiment" means that a particular feature, or characteristic described in connection with the embodiment is included in at least one embodiment of the invention. Thus, the appearances of the phrase or "an embodiment" in various places throughout this specification are not necessarily all referring to the same embodiment.

Furthermore, the described features or characteristics may be combined in any other suitable manner in one or more embodiments. In the above description, certain specific details are provided, such as thicknesses, amounts, etc., to provide a thorough understanding of embodiments of the invention. One skilled in the relevant art will recognize, however, that the invention may be practiced without one or more of the specific details, or with other methods, components, materials, and so forth.

Claims (10)

1. An integrally knitted magnetic composite fiber sock shoe, comprising:

a sole;

a sock body; the bottom surface of the sock body is connected with the sole, the sock body comprises a sock surface, and the sock surface is integrally formed by weaving magnetic composite fibers through weaving equipment.

2. The integrally knitted magnetic composite fiber sock shoe according to claim 1, wherein the sock upper is connected with the sole to form the sock shoe, the sock upper comprises an inner vamp and an outer vamp sleeved on the outer side of the inner vamp, the inner vamp and the outer vamp are integrally knitted, a hot melt wire layer is arranged between the inner vamp and the outer vamp, and the knitting device is a sock knitting machine.

3. The integrally knit magnetic composite fiber sock shoe of claim 2, wherein the outer shell upper comprises an outer toe cap surface, an outer body cap surface, and an outer welt, the outer toe cap surface, the outer body cap surface, and the outer welt being integrally knit, the inner shell upper having an inner toe cap surface, an inner body cap surface, and an inner welt, the inner toe cap surface, the inner body cap surface, and the inner welt being integrally knit.

4. The integrally knitted magnetic composite fiber sock shoe according to claim 3, wherein the sock body further comprises a sock opening, the sock opening is formed by overlapping an outer layer shoe opening and an inner layer shoe opening, an opening for a foot to wear is formed in the sock opening, and an annular fastening belt is arranged on the edge of the opening and wraps the ankle.

5. The integrally knitted magnetic composite fiber sock shoe of claim 1, wherein the sole is made of any one of an EVA material, a rubber material, a PU material, a TPU material, a TPR material, and a PC material.

6. The integrally knitted magnetic composite fiber sock shoe of any one of claims 1 to 5, wherein the magnetic composite fibers are polyester composite fibers with permanent magnetic particle materials added.

7. A weaving process of integrally woven magnetic composite fiber sock shoes is characterized by comprising the following steps:

(1) Preparing yarn materials required by sock and shoe knitting and compiling a knitting process data sheet:

processing the magnetized magnetic composite fiber material and other textile materials by yarn processing equipment, and knitting by a pre-input weaving process material sheet by using knitting equipment;

(2) Inspecting the weaving equipment, and installing corresponding yarns on the corresponding shuttles of the weaving equipment;

(3) The knitting equipment is knitted to form an inner vamp: knitting to form an inner layer shoe opening part, knitting an inner layer vamp shoe body, and finally knitting to form an inner layer toe cap vamp;

(4) The knitting equipment is knitted to form a toe cap opening: after the inner layer toe cap vamp is woven in the step (3), weaving a section of rib top to form a toe cap opening;

(5) The knitting equipment is knitted to form an outer layer vamp: after the toe cap opening is knitted in the step (4), firstly knitting to form an outer layer toe cap vamp, then knitting an outer layer vamp shoe body, and finally narrowing knitting to form an outer layer vamp opening part, so that the inner layer vamp, the toe cap opening and the outer layer vamp are formed by one-time knitting through knitting equipment;

(6) After the knitting equipment in the step (5) is knitted, putting a shoe tree along the welt, opening the vamp for molding, putting a hot-melt wire layer on the outer side of the inner vamp, turning the outer vamp outwards, and putting the inner vamp in the outer vamp, wherein the welt part of the inner vamp, the vamp body of the inner vamp and the vamp of the inner toe cap are overlapped with the welt part of the outer vamp, the vamp body of the outer vamp and the vamp of the outer toe cap one by one to form a double-layer structure knitted fabric;

(7) Sleeving the double-layer structure braided fabric on a shoe tree for heat setting, so that the double-layer structure braided fabric forms a vamp with a shape similar to that of a foot, heating a fuse layer, fixedly arranging an inner vamp and an outer vamp by the aid of the re-formed fuse layer after cooling, further forming a sock body of the sock shoe, and then performing edge covering and sewing on an opening of the double-layer structure braided fabric by means of a taping machine, a herringbone machine or a fancy machine to form a sock body welt;

(8) And (4) placing the sock body obtained in the step (7) on the sole, and then bonding the vamp of the sock body on the sole through glue to form the shoe.

8. The process of claim 7, wherein the knitting equipment is a sock knitting machine, and the yarn produced by the yarn processing equipment in step (1) is: the magnetic composite fiber material 75D/36F/2 x 5 empty bag is provided with 1 mesh point of 0.5 cm, the magnetic composite fiber material 75D/36F/2 x 3 empty bag is provided with 1 mesh point of 0.5 cm, and the magnetic composite fiber spandex double-covered yarn is 140D/75D/36F/2; 75D/36F/2 magnetic composite fiber, 20D/40D/24F nylon high-elasticity spandex single-covered yarn, 40D/150D/36F polyester low-elasticity spandex empty-covered yarn and 100D/48F nylon hot melt yarn.

9. The knitting process of the integrally knitted magnetic composite fiber sock shoe according to claim 8, wherein in the step (2), the sock knitting machine installs corresponding yarns corresponding to the shuttles as follows;

shuttle front-1: the number of the 100D/48F nylon thermal fuses is 1;

shuttle front 1:20D/40D/24F chinlon high-elastic spandex single-covered yarn with the number of 2;

shuttle front 2:40D/150D/36F terylene low-elasticity spandex empty-covered yarn with the number of 1;

shuttle front 3: the magnetic composite fiber material 75D/36F/2 x 5 is empty and wrapped with 0.5 cm of 1 mesh point, and the number of the mesh points is 1;

shuttle back 3:1 40D/150D/36F terylene low-elasticity spandex air-covered yarn is added with 1 100D/48F chinlon hot melt yarn, and the number of the yarns is 2;

shuttle back 4:1 40D/150D/36F terylene low-elasticity spandex empty-covered yarn is added with 2 100D/48F chinlon thermal fuses, and the number of the yarns is 3;

shuttle front 5:140D/75D/36F/2 magnetic composite fiber spandex double-covered yarn with the number of 1;

shuttle back 5:140D/75D/36F/2 magnetic composite fiber spandex double-covered yarn with the number of 1;

shuttle front 6: the magnetic composite fiber material 75D/36F/2 x 3 is empty and wrapped with 0.5 cm of 1 mesh point, and the number of the mesh points is 1;

shuttle front 7: the magnetic composite fiber material 75D/36F/2 x 3 is empty and wrapped with 0.5 cm of 1 mesh point, and the number of the mesh points is 1;

shuttle front 8: the magnetic composite fiber material 75D/36F/2 x 5 is empty and wrapped with 0.5 cm of 1 mesh point, and the number of the mesh points is 1.

10. An integrally knitted magnetic composite fiber sock shoe, wherein the magnetic composite fiber sock shoe is knitted by the knitting process of any one of claims 7 to 9 to form a sock shoe product.

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