CN220109234U - Integrally woven magnetic composite fiber sock shoes - Google Patents

Abstract

The utility model relates to the field of shoe material textile, in particular to an integrally-woven magnetic composite fiber sock shoe. Sock shoe, comprising: the sole and the sock body are connected with the sole at the bottom, the sock body comprises a sock surface, the sock surface is integrally formed by weaving magnetic composite fibers through a weaving device, and the weaving device is a sock machine. The vamp is made by adopting an integrally-woven process, so that the vamp is light, thin and breathable, and the vamp has good effect of attaching to feet. The elastic yarn is woven at the shoe opening part, so that the shoe opening part has elasticity, is comfortable to wear and has good wrapping property.

Description

Integrally woven magnetic composite fiber sock shoes

Technical Field

The utility model relates to the technical field of shoe material spinning, in particular to an integrally-woven magnetic composite fiber sock shoe.

Background

The sock shoe is a novel shoe which is manufactured by combining socks and shoes and is used for comfort, and the basic structure of the sock shoe comprises a sock body and a sole, wherein the sock body is made of textile materials. But with the development of the age, health is also a topic of great concern. In recent years, magnetic textiles have been newly developed. Traditional magnetic textiles limit the clothing and washability of the products to a certain extent.

Disclosure of Invention

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

The utility model aims to overcome the defects and provide an integrally woven magnetic composite fiber sock shoe.

In order to achieve the above object, the technical solution of the present utility model is: an integrally woven magnetic composite fiber sock shoe, comprising: the sole and the sock body are connected with the sole at the bottom, the sock body comprises a sock surface, the sock surface is integrally formed by weaving magnetic composite fibers through a weaving device, and the weaving device is a sock machine. The sock shoe vamp made of integrally woven magnetic composite fibers 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 integral braiding process, so that the vamp is light, thin and breathable, and has the characteristics of good effect of attaching the vamp to the foot and excellent comfort level; the sock shoe opening is additionally woven with elastic yarns, so that the sock shoe has the advantages of elasticity, comfort in wearing, good wrapping property, stiff and smooth finished vamp and good shaping texture. The sock shoe manufactured by the weaving process has good effect.

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

In some embodiments, a thermal fuse layer is disposed between the inner upper and the outer upper. Can adopt steam ironing's mode to bond into an organic wholely with thermal fuse layer and inlayer vamp, outer vamp, the wholeness is strong, promotes the travelling comfort when the user dresses.

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

In some embodiments, the sock body further comprises a sock opening, wherein the sock opening is formed by overlapping the outer layer of the sock opening and the inner layer of the sock opening, and an opening for wearing feet is formed in the sock opening.

In some embodiments, the edges of the opening are provided with an annular cinch strap that wraps around the ankle. The sock shoe opening has elasticity, is comfortable to wear and has good wrapping property.

In some embodiments, the sole is made of any one of EVA material, rubber material, PU material, TPU material, TPR material, PC material. 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 nontoxic and non-absorbent; the rubber material is a high-elasticity polymer material with reversible deformation, is elastic at room temperature, can generate larger deformation under the action of small external force, and can recover after the external force is removed; PU material generally refers to polyurethane. Polyurethane (PU), which is a high molecular compound, is named polyurethane; TPU material, thermoplastic polyurethane elastomer is also called thermoplastic polyurethane rubber, is called TPU for short, is (AB) n-type block linear polymer, A is polyester or polyether with high molecular weight (1000-6000), B is diol with 2-12 straight chain carbon atoms, and the chemical structure between AB chain segments is diisocyanate; TPR material, TPR means thermoplastic rubber; PC material, polycarbonate (PC for short), also called PC plastic; the polymer is a polymer having a carbonate group in a molecular chain, and can be classified into various types such as aliphatic, aromatic, aliphatic-aromatic, and the like, depending on the structure of the ester group.

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

A knitting process of integrally-knitted magnetic composite fiber sock shoes comprises the following steps:

(1) Preparing yarn materials required by knitting sock shoes and writing a weaving process information sheet:

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 specification: magnetic composite fiber material 75D/36F/2*5 blank 0.5 cm 1 mesh point, magnetic composite fiber material 75D/36F/2*3 blank 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-elastic spandex single-covered yarn, 40D/150D/36F terylene low-elastic spandex hollow-covered yarn, and a thermal fuse layer adopts a 100D/48F nylon thermal fuse. Braiding by using braiding equipment through a pre-input weaving process data sheet;

(2) Checking the knitting equipment, and installing corresponding yarns on the shuttle corresponding to the knitting equipment, wherein the method is as follows;

shuttle front-1: 100D/48F nylon thermal fuse, number 1;

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

shuttle front 2:40D/150D/36F polyester low-elasticity spandex blank-covered yarn with 1 count;

shuttle front 3: 75D/36F/2*5 of magnetic composite fiber material is empty to pack 0.5 cm 1 lattice point, and the number of the lattice points is 1;

shuttle rear 3:1 piece of 40D/150D/36F terylene low stretch spandex blank yarn and 1 piece of 100D/48F nylon thermal fuse are added, and the number of the yarns is 2;

shuttle rear 4:1 piece of 40D/150D/36F terylene low stretch spandex blank yarn and 2 pieces of 100D/48F nylon 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 1 strip number;

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

shuttle front 6: 75D/36F/2*3 of magnetic composite fiber material is empty to pack 0.5 cm 1 lattice point, and the number of the lattice points is 1;

front shuttle 7: 75D/36F/2*3 of magnetic composite fiber material is empty to pack 0.5 cm 1 lattice point, and the number of the lattice points is 1;

front 8 of shuttle: 75D/36F/2*5 of magnetic composite fiber material is empty to pack 0.5 cm 1 lattice point, and the number of the lattice points is 1;

(3) Braiding equipment weaves to form an inner vamp: firstly, knitting the inner layer shoe opening part by needle lifting, then knitting the inner layer vamp shoe body, and finally knitting the inner layer toe cap vamp;

(4) Braiding by a braiding device to form a toe opening: after the step (3) is finished, knitting a section of rib cage which is a toe cap opening;

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

(6) After the braiding of the braiding equipment in the step (5) is completed, putting a shoe tree along a shoe opening, spreading and forming an vamp, placing a thermal fuse layer outside an inner vamp, and everting an outer vamp to enable the inner vamp to be placed in the outer vamp, wherein the inner shoe opening, the inner vamp body and the inner toe vamp are correspondingly overlapped with the outer shoe opening, the outer vamp body and the outer toe vamp one by one to form a double-layer structure braided fabric;

(7) Sleeving the double-layer structure braided fabric on a shoe last for heat setting, so that the double-layer structure braided fabric forms an vamp with a foot-like shape, heating a fuse layer, fixing an inner vamp and an outer vamp by the re-formed thermal fuse layer after cooling, further forming a sock body of the sock shoe, and performing edge-wrapping and stitch-bonding on the opening of the double-layer structure braided fabric by an edge-wrapping machine, a herringbone machine or a fancy machine to form a sock body welt;

(8) Placing the sock body in the step (7) on the sole, and adhering the sock body vamp on the sole through glue to form the shoe.

The production process has the advantages of no generation of leftover materials, simple production process, high production efficiency and unified vamp size and shape standard.

In some embodiments, the knitting apparatus is a sock knitting machine, the glue is a super PU glue, and the sock knitting machine is a san Dongni knitting machine GK616D3.

By adopting the technical scheme, the utility model has the beneficial effects that: the vamp is manufactured by adopting an integral braiding process, so that the vamp has the characteristics of light weight, ventilation, good effect of attaching the vamp to the foot and excellent comfort level; the elastic yarn is woven at the shoe opening part, the shoe opening part has elasticity, the wearing is comfortable, the wrapping property is good, the finished vamp is stiff and smooth, the shaping texture is good, no leftover materials are produced in the production process, the production process is simple, the production efficiency is high, and the vamp size and shape standard is 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.

It is apparent that these and other objects of the present utility model will become more apparent from the following detailed description of the preferred embodiments, which is to be read in connection with the accompanying drawings and figures.

The foregoing and other objects, features and advantages of the utility model will be apparent from the following more particular description of the preferred embodiments, as illustrated in the accompanying drawings.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model, and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model, without limitation to the utility model.

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

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are only one or several embodiments of the utility model, and that other drawings can be obtained according to such drawings without inventive effort to a person skilled in the art.

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

FIG. 2 is a schematic illustration of the structure of a sock body in an integrally woven magnetic composite fiber sock shoe according to some embodiments of the present utility model;

fig. 3 is a schematic structural view of an inner toe face in an integrally woven magnetic composite fiber sock shoe according to some embodiments of the present utility model.

The main reference numerals illustrate:

1. a sock body; 2. an outer layer vamp; 3. an inner vamp; 4. a sock opening; 5. an annular restraining belt; 6. a sole;

21. an outer toe cap surface; 22. an outer shell surface; 23. an outer layer welt;

31. an inner shoe top surface; 32. an inner shoe body surface; 33. an inner shoe opening.

Detailed Description

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the present utility model will be further described in detail with reference to the following detailed description. It should be understood that the detailed description is presented merely to illustrate the utility model, and is not intended to limit the utility model.

In addition, in the description of the present utility model, 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 the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. However, it is noted that direct connection indicates that the two bodies connected together do not form a connection relationship through a transition structure, but are connected together to form a whole through a connection structure. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In the present utility model, unless expressly stated or limited otherwise, a first feature "up" or "down" a second feature may be the first and second features in direct contact, or the first and second features in indirect contact via an intervening medium. In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means 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 present utility model. In this specification, schematic representations of the above terms are not necessarily directed 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. 1-3, fig. 1 is a schematic structural view of an integrally woven magnetic composite fiber sock shoe according to some embodiments of the present utility model; FIG. 2 is a schematic illustration of the structure of a sock body in an integrally woven magnetic composite fiber sock shoe according to some embodiments of the present utility model; fig. 3 is a schematic structural view of an inner toe face in an integrally woven magnetic composite fiber sock shoe according to some embodiments of the present utility model.

According to some embodiments of the present utility model, there is provided an integrally woven magnetic composite fiber sock shoe, comprising: the sole 6, the socks body 1, socks body 1 bottom surface is connected with sole 6, and socks body 1 includes the socks face, and the socks face is woven integrated into one piece by magnetic composite fiber through weaving equipment, and weaving equipment is the socks machine. The sock shoe vamp made of integrally woven magnetic composite fibers 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 utility model, the sock surface and the sole 6 are optionally connected to form a sock shoe, the sock surface comprises an inner vamp 3 and an outer vamp 2 sleeved on the outer side of the inner vamp 3, and the inner vamp 3 and the outer vamp 2 are integrally woven. The structural design of inside and outside two-layer can promote moulding effect on the one hand, 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 utility model, a thermal fuse layer is optionally provided between the inner vamp 3 and the outer vamp 2. The thermal fuse layer, the inner vamp 3 and the outer vamp 2 can be bonded into a whole by adopting a steam ironing mode, so that the integrity is strong, and the comfort of a user during wearing is improved.

According to some embodiments of the present utility model, optionally, outer upper 2 includes an outer toe surface 21, an outer shank surface 22, and an outer welt 23, outer toe surface 21, outer shank surface 22, and outer welt 23 are integrally knitted, and inner upper 3 has an inner toe surface 31, an inner shank surface 32, and an inner welt 33, inner toe surface 31, inner shank surface 32, and inner welt 33 are integrally knitted.

According to some embodiments of the present utility model, the sock body 1 further includes a sock opening 4, where the sock opening 4 is formed by overlapping the outer layer welt 23 and the inner layer welt 33, and an opening for wearing a foot is provided on the sock opening 4.

According to some embodiments of the utility model, optionally, the edge of the opening is provided with a loop-shaped restraining strap 5, the loop-shaped restraining strap 5 wrapping around the ankle. The sock shoe opening has elasticity, is comfortable to wear and has good wrapping property.

According to some embodiments of the present utility model, the sole 6 is optionally made of any one of EVA material, rubber material, PU material, TPU material, TPR material, PC material. 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 nontoxic and non-absorbent; the rubber material is a high-elasticity polymer material with reversible deformation, is elastic at room temperature, can generate larger deformation under the action of small external force, and can recover after the external force is removed; PU material generally refers to polyurethane. Polyurethane (PU), which is a high molecular compound, is named polyurethane; TPU material, thermoplastic polyurethane elastomer is also called thermoplastic polyurethane rubber, is called TPU for short, is (AB) n-type block linear polymer, A is polyester or polyether with high molecular weight (1000-6000), B is diol with 2-12 straight chain carbon atoms, and the chemical structure between AB chain segments is diisocyanate; TPR material, TPR means thermoplastic rubber; PC material, polycarbonate (PC for short), also called PC plastic; the polymer is a polymer having a carbonate group in a molecular chain, and can be classified into various types such as aliphatic, aromatic, aliphatic-aromatic, and the like, depending on the structure of the ester group.

According to some embodiments of the utility model, the magnetic composite fiber is optionally a polyester composite fiber to which permanent magnetic particulate material is added.

According to some embodiments of the present utility model, the present utility model also provides a knitting process of an integrally knitted magnetic composite fiber sock shoe, comprising the steps of:

(1) Preparing yarn materials required by knitting sock shoes and writing a weaving process information sheet:

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 specification: magnetic composite fiber material 75D/36F/2*5 blank 0.5 cm 1 mesh point, magnetic composite fiber material 75D/36F/2*3 blank 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-elastic spandex single covered yarn, 40D/150D/36F terylene low-elastic spandex hollow covered yarn and 100D/48F nylon thermal fuse. Weaving by using a sock machine through a weaving process data sheet input in advance;

(2) Checking the sock machine, and installing corresponding yarns on the corresponding shuttle of the sock machine, wherein the method is as follows;

shuttle front-1: 100D/48F nylon thermal fuse, number 1;

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

shuttle front 2:40D/150D/36F polyester low-elasticity spandex blank-covered yarn with 1 count;

shuttle front 3: 75D/36F/2*5 of magnetic composite fiber material is empty to pack 0.5 cm 1 lattice point, and the number of the lattice points is 1;

shuttle rear 3:1 piece of 40D/150D/36F terylene low stretch spandex blank yarn and 1 piece of 100D/48F nylon thermal fuse are added, and the number of the yarns is 2;

shuttle rear 4:1 piece of 40D/150D/36F terylene low stretch spandex blank yarn and 2 pieces of 100D/48F nylon 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 1 strip number;

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

shuttle front 6: 75D/36F/2*3 of magnetic composite fiber material is empty to pack 0.5 cm 1 lattice point, and the number of the lattice points is 1;

front shuttle 7: 75D/36F/2*3 of magnetic composite fiber material is empty to pack 0.5 cm 1 lattice point, and the number of the lattice points is 1;

front 8 of shuttle: 75D/36F/2*5 of magnetic composite fiber material is empty to pack 0.5 cm 1 lattice point, and the number of the lattice points is 1;

(3) The sock knitting machine forms an inner vamp 3: firstly, knitting the inner layer shoe opening part by needle lifting, then knitting the inner layer vamp shoe body, and finally knitting the inner layer toe cap vamp;

(4) Knitting by a sock knitting machine to form a toe opening: after the step (3) is finished, knitting a section of rib cage which is a toe cap opening;

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

(6) After the knitting of the sock machine in the step (5) is completed, putting a shoe tree along a shoe opening, spreading and forming a vamp, placing a thermal fuse layer outside the inner vamp 3, and everting the outer vamp 2 to enable the inner vamp 3 to be placed in the outer vamp 2, wherein the inner vamp part, the inner vamp shoe body and the inner toe vamp are overlapped with the outer vamp part, the outer vamp shoe body and the outer toe 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 last for heat setting, so that the double-layer structure braided fabric forms an vamp with a foot-like shape, heating a fuse layer, fixing an inner vamp 3 and an outer vamp 2 by the re-formed thermal fuse layer after cooling, further forming a sock body 1 of the sock shoe, and performing edge-wrapping and stitch-bonding on the opening of the double-layer structure braided fabric by an edge-wrapping machine, a herringbone or a fancy machine to form a sock body welt;

(8) And (3) placing the sock body 1 in the step (7) on the sole 6, and adhering the sock body vamp on the sole 6 through glue to form the shoe.

The production process has the advantages of no generation of leftover materials, simple production process, high production efficiency and unified vamp size and shape standard.

According to some embodiments of the utility model, the glue may be selected from a super PU glue, and the sock knitting machine may be a san Dongni knitting machine GK616D3.

Example 1

The embodiment provides an integrally woven magnetic composite fiber sock shoe, comprising: the sole 6, the socks body 1, socks body 1 bottom surface is connected with sole 6, and socks body 1 includes the socks face, and the socks face is woven integrative shaping through the socks machine by magnetic composite fiber. The sock surface is connected with the sole 6 to form a sock shoe, and the sock surface comprises an inner vamp 3 and an outer vamp 2 sleeved on the outer side of the inner vamp 3, and the inner vamp 3 and the outer vamp 2 are integrally woven. A thermal fuse layer is arranged between the inner vamp 3 and the outer vamp 2. The outer vamp 2 comprises an outer vamp 21, an outer vamp 22 and an outer welt 23, the outer vamp 21, the outer vamp 22 and the outer welt 23 are integrally woven, and the inner vamp 3 comprises an inner vamp 31, an inner vamp 32 and an inner welt 33, and the inner vamp 31, the inner vamp 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 feet is formed in the sock opening 4. The edge of the opening is provided with an annular binding band 5, and the annular binding band 5 wraps the ankle. 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 materials.

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 sock shoes and writing a weaving process information sheet:

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 following specification: 75D/36F/2*5 of magnetic polyester composite fiber material is empty to pack 0.5 cm 1 mesh point, 75D/36F/2*3 of magnetic polyester composite fiber material is empty to pack 0.5 cm 1 mesh point, and 140D/75D/36F/2 of magnetic polyester composite fiber spandex double-coated yarn; 75D/36F/2 magnetic polyester composite fiber, 20D/40D/24F nylon high-elastic spandex single-covered yarn, 40D/150D/36F polyester low-elastic spandex hollow-covered yarn and 100D/48F nylon thermal fuse. Knitting through a pre-input knitting process data sheet by utilizing a sock knitting machine, wherein the sock knitting machine is a san-toney knitting machine GK616D3;

(2) Checking the sock machine, and installing corresponding yarns on the corresponding shuttle of the sock machine, wherein the method is as follows;

shuttle front-1: 100D/48F nylon thermal fuse, number 1;

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

shuttle front 2:40D/150D/36F polyester low-elasticity spandex blank-covered yarn with 1 count;

shuttle front 3: 75D/36F/2*5 of magnetic polyester composite fiber material is empty to pack 0.5 cm 1 net point, and the number of the net points is 1;

shuttle rear 3:1 piece of 40D/150D/36F terylene low stretch spandex blank yarn and 1 piece of 100D/48F nylon thermal fuse are added, and the number of the yarns is 2;

shuttle rear 4:1 piece of 40D/150D/36F terylene low stretch spandex blank yarn and 2 pieces of 100D/48F nylon thermal fuses, wherein the number of the yarns is 3;

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

shuttle rear 5:140D/75D/36F/2 magnetic polyester composite fiber spandex double-covered yarn with 1 strip number;

shuttle front 6: 75D/36F/2*3 of magnetic polyester composite fiber material is empty to pack 0.5 cm 1 net point, and the number of the net points is 1;

front shuttle 7: 75D/36F/2*3 of magnetic polyester composite fiber material is empty to pack 0.5 cm 1 net point, and the number of the net points is 1;

front 8 of shuttle: 75D/36F/2*5 of magnetic polyester composite fiber material is empty to pack 0.5 cm 1 net point, and the number of the net points is 1;

(3) The sock knitting machine forms an inner vamp 3: firstly, knitting the inner layer shoe opening part by needle lifting, then knitting the inner layer vamp shoe body, and finally knitting the inner layer toe cap vamp;

(4) Knitting by a sock knitting machine to form a toe opening: after the step (3) is finished, knitting a section of rib cage which is a toe cap opening;

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

(6) After the knitting of the sock machine in the step (5) is completed, putting a shoe tree along a shoe opening, spreading and forming a vamp, placing a thermal fuse layer outside the inner vamp 3, and everting the outer vamp 2 to enable the inner vamp 3 to be placed in the outer vamp 2, wherein the inner vamp part, the inner vamp shoe body and the inner toe vamp are overlapped with the outer vamp part, the outer vamp shoe body and the outer toe 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 last for heat setting, so that the double-layer structure braided fabric forms an vamp with a foot-like shape, heating a fuse layer, fixing an inner vamp 3 and an outer vamp 2 by the re-formed thermal fuse layer after cooling, further forming a sock body 1 of the sock shoe, and performing edge-wrapping and stitch-bonding on the opening of the double-layer structure braided fabric by an edge-wrapping machine, a herringbone or a fancy machine to form a sock body welt;

(8) Placing the sock body 1 in the step (7) on the sole 6, and adhering the sock body vamp on the sole 6 through glue to form the shoe, wherein the glue adopts the super PU glue.

Example 3

The present embodiment provides a knitting process of integrally knitted magnetic composite fiber sock shoes, which is different from embodiment 2 in that: the material of the magnetic fiber can be mixed with acrylic fiber and wool, and the whole sock knitting machine is used for knitting, sleeve turning and stitch sewing, and the knitting process steps are the same as those of the example 1.

It is to be understood that the disclosed embodiments are not limited to the specific process steps or materials disclosed herein, but are intended to extend to equivalents of such features as would be understood by one of ordinary skill 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 utility model. Thus, 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, numbers, etc., to provide a thorough understanding of embodiments of the utility model. One skilled in the relevant art will recognize, however, that the utility model can be practiced without one or more of the specific details, or with other methods, components, materials, etc.

Claims (10)

1. An integrally woven 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 woven magnetic composite fiber sock shoe of claim 1, wherein the sock surface is connected with the sole to form a sock shoe, the sock surface comprises an inner vamp and an outer vamp sleeved outside the inner vamp, and the inner vamp and the outer vamp are integrally woven.

3. The integrally woven magnetic composite fiber sock shoe of claim 2, wherein a thermal fuse layer is disposed between the inner upper and the outer upper.

4. The integrally woven magnetic composite fiber sock shoe of claim 2, wherein the outer upper comprises an outer toe face, an outer body face, and an outer layer welt, the outer toe face, the outer body face, and the outer layer welt being integrally woven, the inner upper having an inner toe face, an inner body face, and an inner layer welt, the inner toe face, the inner body face, and the inner layer welt being integrally woven.

5. The integrally woven magnetic composite fiber sock shoe of claim 4, wherein the sock body further comprises a sock opening, the sock opening is formed by overlapping an outer layer of the sock opening and an inner layer of the sock opening, and an opening for wearing by a foot is arranged on the sock opening.

6. The integrally knit magnetic composite fiber sock shoe of claim 5, wherein the edge of the opening is provided with an annular strap wrapping around the ankle.

7. The integrally woven magnetic composite fiber sock shoe of claim 1, wherein the sole is made of any one of EVA material, rubber material, PU material, TPU material, TPR material, PC material.

8. The integrally woven magnetic composite fiber sock shoe of any one of claims 1 to 7, wherein the magnetic composite fiber is a polyester composite fiber with permanent magnetic particulate material added.

9. The integrally knitted magnetic composite fiber sock shoe according to claim 8, wherein the magnetized magnetic composite fiber material and textile material are subjected to material processing by yarn processing equipment, and are knitted by knitting equipment through a pre-input knitting process data sheet to obtain magnetic composite fiber material 75D/36F/2*5 blank 0.5 cm 1 mesh point, magnetic composite fiber material 75D/36F/2*3 blank 0.5 cm 1 mesh point and 140D/75D/36F/2 magnetic composite fiber spandex double-covered yarn; 75D/36F/2 magnetic composite fiber, 20D/40D/24F nylon high-elastic spandex single-covered yarn and 40D/150D/36F terylene low-elastic spandex hollow-covered yarn.

10. The integrally knit magnetic composite fiber sock shoe of claim 9, wherein the knitting apparatus is a sock machine.