阅读说明：本技术 立体筒状袜鞋结构及用于鞋身织布对接的制作方法 (Three-dimensional cylindrical stocking shoe structure and manufacturing method for shoe body woven fabric butt joint ) 是由 萧瑞芬 于 2018-08-03 设计创作，主要内容包括：本发明提供一种立体筒状袜鞋结构及用于鞋身织布对接的制作方法,由一筒状外织布层、一筒状内织布层及一鞋垫所组成,该筒状外织布层具有一鞋面套口及一鞋底开口,该筒状外织布层邻近鞋底开口的下段形成有一鞋底延伸段,该筒状内织布层具有一足面套口及一足底开口,该筒状内织布层的足面套口固设于前述筒状外织布层内面邻近鞋面套口处,该筒状内织布层邻近足底开口的下段并以粘着带对接粘合,该垫体设于筒状内织布层足底面与筒状外织布层鞋底面之间。如此,使该柔软的筒状内织布层可以包覆于足部,具有袜体的保暖性及吸汗性,同时由于该筒状内织布层的足底开口系以粘着带平整粘合封闭,不会发生以缝线方式的突出感,进而提升其穿着、行走的舒适性。(The invention provides a three-dimensional tubular stocking shoe structure and a manufacturing method for shoe body weaving butt joint, which consists of a tubular outer weaving layer, a tubular inner weaving layer and an insole, wherein the tubular outer weaving layer is provided with an upper surface looping and a sole opening, a sole extension section is formed at the lower section of the tubular outer weaving layer adjacent to the sole opening, the tubular inner weaving layer is provided with a instep looping and a sole opening, the instep looping of the tubular inner weaving layer is fixedly arranged at the inner surface of the tubular outer weaving layer adjacent to the upper surface looping, the lower section of the tubular inner weaving layer adjacent to the sole opening is butt-jointed and bonded by an adhesive tape, and the insole body is arranged between the plantar surface of the tubular inner weaving layer and the plantar surface of the tubular outer weaving layer. Therefore, the soft tubular inner fabric layer can cover the foot, has the heat retention and sweat absorption of the sock body, and meanwhile, because the sole opening of the tubular inner fabric layer is flatly bonded and sealed by the adhesive tape, the protruding feeling in a thread mode can not occur, and the wearing and walking comfort of the sock is further improved.)

1. A three-dimensional tube-shape stocking shoe structure is characterized by comprising:

a tubular outer fabric layer, which is provided with an upper looping and a sole opening, wherein the upper section of the tubular outer fabric layer adjacent to the upper looping is provided with an upper extending section and a heel extending section which are connected in a ring shape for forming a shoe body corresponding to the instep and the heel of a human body, and the lower section of the tubular outer fabric layer adjacent to the sole opening is provided with a sole extending section for forming a sole corresponding to the sole;

a tubular inner woven fabric layer, which is provided with a foot surface looping and a foot bottom opening, wherein the upper section of the tubular inner woven fabric layer adjacent to the foot surface looping is provided with a foot surface extension section and a heel extension section which are connected in an annular manner to form a foot body capable of covering the foot surface and the heel of the human foot, the foot surface looping of the tubular inner woven fabric layer is fixedly arranged on the inner surface of the tubular outer woven fabric layer adjacent to the shoe surface looping, the lower section of the tubular inner woven fabric layer adjacent to the foot bottom opening is provided with a foot bottom extension section for forming a corresponding foot bottom surface, and the opposite side edges of the foot bottom opening of the foot bottom extension section can be cemented and sealed by an adhesive tape;

a pad body which is arranged between the cylindrical inner woven fabric layer sole surface and the cylindrical outer woven fabric layer sole surface.

2. The stereoscopic tubular stocking shoe structure according to claim 1, wherein: the tubular outer cloth layer is a shoe body structure formed by weaving harder cloth in a loop shape, and the tubular inner cloth layer is a sock body structure formed by weaving softer cloth in a loop shape.

3. The stereoscopic tubular stocking shoe structure according to claim 1, wherein: the opposite edges of the sole opening of the sole extension section of the cylindrical outer woven fabric layer are in butt joint and sealing to form a sole surface.

4. The stereoscopic tubular stocking shoe structure according to claim 1 or 3, wherein: the extension section of the sole of the tubular outer fabric layer is fixedly provided with a sole.

5. The stereoscopic tubular stocking shoe structure according to claim 1, wherein: the adhesive tape of the cylindrical inner woven fabric layer is adhered to the outer parts of two opposite side edges of the opening of the sole.

6. A manufacturing method for shoe body weaving butt joint is characterized by comprising the following steps:

leveling and overlapping the shoe body woven fabrics at two sides to be butted;

removing redundant shoe body weaving extension sections along the butt joint extension lines;

when removing, temporarily bonding the shoe body woven fabrics on the two sides along the butt joint extension line by synchronously utilizing an ultrasonic bonding technology;

and (3) a strong adhesive tape is hot-pressed and adhered on the woven fabric surfaces of the shoe bodies on the two sides of the butt joint extension line.

Technical Field

The invention relates to a manufacturing technology of shoes, in particular to a three-dimensional cylindrical sock shoe structure and a manufacturing method for shoe body weaving butt joint, which can place an insole in an inner layer to improve the quality of the sock shoe and the wearing comfort.

Background

In order to avoid injury due to direct friction between the sole of the foot and the ground, people invent shoes which are worn on the foot to protect the foot. Although the sole of the foot is separated from the ground by the shoe, the sole of the foot is uncomfortable with the harder sole of the shoe due to friction, and therefore, it is often necessary to wear socks made of soft cloth to increase comfort. However, compared with the conventional shoes, the knitted shoes can provide better wearing comfort without causing discomfort due to the large-area compression and friction of the user's feet, but the technical threshold and the cost of the knitted shoes are higher, so that the manufacturers develop integrated socks and shoes made of socks as the main elements.

The sock and the sole are manufactured separately, wherein the sole part is cast and formed in a mould by PVC material, and then the sock and the sole are bonded and fixed by viscose glue to finish the finished product. However, the soft socks are used for replacing the plastic leather which is traditionally used as the shoe uppers, and besides poor standing performance and insufficient protection effect, the socks are difficult to bear pulling force and have a loosening phenomenon in the wearing process of walking or running; if a hard woven fabric is used as the vamp, the comfort and the heat retention of foot contact are poor, and the situation of wearing difficulty exists, so that the shoe is not ideal in structural design;

in addition to the above problems, the conventional footwear has no insole, which causes the sole of the wearer to directly contact the inner surface of the sole made of a relatively hard material, and is liable to damage the sole or cause discomfort due to friction during walking. If the insole is directly plugged into the bottom in the sock shoe, the positioning performance is poor, the insole is easy to move, and the sole directly contacts the insole, so that the heat retention and the comfort are affected, and meanwhile, because the insole does not have a sweat absorption effect, the sole is easy to generate sultriness and moist, the overall wearing comfort is damaged, and the insole is difficult to favor by consumers;

in other words, the prior art sock shoes have different problems, such that the sock shoes have insufficient standing property and protection property, and the overall warmth retention property and comfort are reduced, which causes the problem of insufficient practicability of the prior art sock shoes.

In view of the above, the present inventors have made extensive studies on the problems faced by the prior art, and have made extensive and diligent efforts to improve and try the recent technological development, so as to successfully develop a three-dimensional tubular stocking shoe structure and a method for making a shoe body fabric butt joint, so as to overcome the troubles and inconveniences caused by the prior art.

Disclosure of Invention

Therefore, the main objective of the present invention is to provide a three-dimensional tubular stocking shoe structure, which can provide a stocking shoe with an insole, and can reduce friction, improve warmth retention and comfort, and increase practicability.

In addition, another objective of the present invention is to provide a method for manufacturing a shoe body fabric butt joint, which can maintain the smoothness of the seam and avoid affecting the wearing comfort.

Based on this, the present invention mainly achieves the aforementioned objects and effects by the following technical means:

a three-dimensional tube-shape stocking shoe structure is characterized by comprising:

a tubular outer fabric layer, which is provided with an upper looping and a sole opening, wherein the upper section of the tubular outer fabric layer adjacent to the upper looping is provided with an upper extending section and a heel extending section which are connected in a ring shape for forming a shoe body corresponding to the instep and the heel of a human body, and the lower section of the tubular outer fabric layer adjacent to the sole opening is provided with a sole extending section for forming a sole corresponding to the sole;

a tubular inner woven fabric layer, which is provided with a foot surface looping and a foot bottom opening, wherein the upper section of the tubular inner woven fabric layer adjacent to the foot surface looping is provided with a foot surface extension section and a heel extension section which are connected in an annular manner to form a foot body capable of covering the foot surface and the heel of the human foot, the foot surface looping of the tubular inner woven fabric layer is fixedly arranged on the inner surface of the tubular outer woven fabric layer adjacent to the shoe surface looping, the lower section of the tubular inner woven fabric layer adjacent to the foot bottom opening is provided with a foot bottom extension section for forming a corresponding foot bottom surface, and the opposite side edges of the foot bottom opening of the foot bottom extension section can be cemented and sealed by an adhesive tape;

a pad body which is arranged between the cylindrical inner woven fabric layer sole surface and the cylindrical outer woven fabric layer sole surface.

The three-dimensional tubular stocking shoe structure, wherein: the tubular outer cloth layer is a shoe body structure formed by weaving harder cloth in a loop shape, and the tubular inner cloth layer is a sock body structure formed by weaving softer cloth in a loop shape.

The three-dimensional tubular stocking shoe structure, wherein: the opposite edges of the sole opening of the sole extension section of the cylindrical outer woven fabric layer are in butt joint and sealing to form a sole surface.

The three-dimensional tubular stocking shoe structure, wherein: the extension section of the sole of the tubular outer fabric layer is fixedly provided with a sole.

The three-dimensional tubular stocking shoe structure, wherein: the adhesive tape of the cylindrical inner woven fabric layer is adhered to the outer parts of two opposite side edges of the opening of the sole.

A manufacturing method for shoe body weaving butt joint is characterized by comprising the following steps:

leveling and overlapping the shoe body woven fabrics at two sides to be butted;

removing redundant shoe body weaving extension sections along the butt joint extension lines;

when removing, temporarily bonding the shoe body woven fabrics on the two sides along the butt joint extension line by synchronously utilizing an ultrasonic bonding technology;

and (3) a strong adhesive tape is hot-pressed and adhered on the woven fabric surfaces of the shoe bodies on the two sides of the butt joint extension line.

Therefore, the soft tubular inner fabric layer can cover the foot, has the heat retention and sweat absorption of the sock body, and meanwhile, because the sole opening of the tubular inner fabric layer is flatly bonded and sealed by the adhesive tape, the protruding feeling in a thread mode can not occur, and the wearing and walking comfort of the sock is further improved.

To further clarify the structure, features and other objects of the present invention, preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings, which are provided to enable those skilled in the art to practice the invention.

Drawings

Fig. 1 is a perspective external view of the structure of the tubular stocking shoe of the present invention.

Fig. 2 is a schematic sectional end view of the three-dimensional tubular footwear structure of the present invention.

Fig. 3 is a schematic configuration view of the three-dimensional tubular stocking shoe structure of the present invention before being manufactured.

FIG. 4 is a schematic flow chart illustrating the steps of the method for manufacturing a shoe body fabric butt joint according to the present invention.

Fig. 5A, 5B and 5C are schematic views showing the operation of the tubular inner fabric layer of the three-dimensional tubular stocking shoe structure of the present invention when it is bonded.

Fig. 6 is a schematic external view of the three-dimensional tubular stocking shoe structure of the present invention, wherein the tubular inner fabric layer is bonded.

Fig. 7 is an external view of the three-dimensional tubular stocking shoe structure of the present invention before assembly.

Description of reference numerals: 10-a cylindrical outer woven fabric layer; 11-vamp looping; 12-sole opening; 15-shoe body; 151-upper extension; 152-heel extension section; 16-a sole extension; 20-a tubular inner woven fabric layer; 21-instep cover opening; 22-plantar opening; 221-lateral edge; 222-a lateral edge; 25-foot body; 251-a plantar extension segment; 252-heel extension section; 26-plantar surface; 28-an adhesive tape; 30-a cushion body; 50-shoe sole.

Detailed Description

The present invention is a three-dimensional tubular stocking shoe structure and a manufacturing method for shoe body fabric butt joint, and the technical content of the present invention is described below by means of specific embodiments, so that those skilled in the art can easily understand the advantages and effects of the present invention from the content disclosed in the specification. The invention is capable of other and different embodiments and of being practiced or being carried out in various ways. Accordingly, the particular embodiments of the present invention illustrated in the accompanying drawings are presented for convenience in description and not by way of limitation.

The invention is a three-dimensional tubular stocking shoe structure which can be used for wearing shoes and socks simultaneously, and is mainly composed of a tubular outer fabric layer 10, a tubular inner fabric layer 20 and an insole 30, as shown in fig. 1, fig. 2 and fig. 3, and in some embodiments, the bottom surface of the three-dimensional tubular stocking shoe structure can be provided with a sole 50;

the tubular outer fabric layer 10 is formed by weaving a relatively hard fabric in a loop shape and is used as an outer shoe body structure, the tubular outer fabric layer 10 is provided with an upper opening 11 with an upper opening and a sole opening 12 with a lower opening, the upper section of the tubular outer fabric layer 10 adjacent to the upper opening 11 is provided with an upper extending section 151 and a heel extending section 152 which are connected in a ring shape, the upper extending section is used for forming a shoe body 15 corresponding to the instep and the heel of a human body, the lower section of the tubular outer fabric layer 10 adjacent to the sole opening 12 is provided with a sole extending section 16 corresponding to the sole, the sole 50 is fixedly arranged (as shown in fig. 2) or the opposite edges of the sole opening 12 are sewn to form a sole surface (not shown);

the tubular inner cloth layer 20 is formed by weaving softer cloth in a loop shape and is used as a sock body structure of an inner layer, the tubular inner cloth layer 20 is provided with a instep looping 21 with an upper opening and a sole opening 22 with a lower opening, the tubular inner cloth layer 20 is arranged on the inner edge surface of the tubular outer cloth layer 10, the tubular inner cloth layer 20 is sewed on the inner surface of the tubular outer cloth layer 10 near the vamp looping 11 by the instep looping 21 on the upper side, the tubular inner cloth layer 20 and the tubular outer cloth layer 10 can be sewed in an inner and outer overlapping manner, a instep extension 251 and a heel extension 252 are formed on the upper section of the tubular inner cloth layer 20 near the instep looping 21 and are connected in an annular manner, a foot body 25 capable of covering the instep and the heel of the human foot is formed, and a corresponding sole surface 26 is formed on the lower section of the tubular inner cloth layer 20 near the sole opening 22, furthermore, the opposite side edges 221, 222 of the sole opening 22 of the tubular inner woven fabric layer 20 can be butted, adhered and sealed by an adhesive tape 28, and the manufacturing method of the butt joint of the two opposite side edges 221, 222 of the sole opening 22 of the tubular outer woven fabric layer 10 is as shown in fig. 4, fig. 5A, fig. 5B and fig. 5C, and the steps of the manufacturing method include;

a step of flattening and folding the two side body fabrics to be butted, as shown in fig. 5A, the cylindrical inner fabric layer 20 is flattened and folded adjacent to the sole surface 26 extension of the sole opening;

removing the redundant shoe body fabric extension along the butt extension line, as shown in fig. 5A and 5B, cutting and removing the extension fabric of the tubular inner fabric layer 20 adjacent to the sole opening 22 by using a cutting tool, so that the opposite side edges 221, 222 of the sole opening 22 to be butted can be flush and opposite;

once removing, temporarily bonding the two side shoe body fabrics along the extension lines by using ultrasonic bonding technology, and as shown in fig. 5B, bonding the opposite side edges 221, 222 of the sole opening 22 of the tubular inner fabric layer 20 by using ultrasonic bonding technology, so that the sole opening 22 can be temporarily bonded and sealed;

a strong adhesive tape is hot-pressed and adhered on the two sides of the shoe body fabric surface of the butt extension line, as shown in fig. 5C, a strong adhesive tape is hot-pressed along the outside of the side edges 221, 222 adhered in the sole opening 22 of the tubular inner fabric layer 20, so that the strong adhesive tape can be completely adhered on the sole opening 22 of the tubular inner fabric layer 20 and keep the smoothness thereof, the tubular inner fabric layer 20 has no protruding feeling when contacting the sole of the human body, and the comfort thereof is ensured, as shown in fig. 6, the appearance of the tubular inner fabric layer 20 after the sole opening 22 is butt-sealed is the appearance.

Furthermore, as shown in fig. 1, 2 and 7, the cushion body 30 is made of a soft sheet material, the cushion body 30 corresponds to the shape of the sole of a human foot, the cushion body 30 is disposed between the sole surface 26 of the tubular inner fabric layer 20 and the sole extension 16 of the tubular outer fabric layer 10, and according to some embodiments, a sole 50 can be fixedly disposed on the sole extension 16 of the tubular outer fabric layer 10;

thus, the three-dimensional tubular sock shoe structure with thermal insulation property without damaging comfort is formed.

As can be seen from the foregoing description, when the three-dimensional tubular stocking shoe structure of the present invention is actually used, please refer to fig. 1 and 2, when a user wears the three-dimensional tubular stocking shoe of the present invention, the user can put the foot into the upper cuff 11 of the tubular outer fabric layer 10 and penetrate into the tubular inner fabric layer 20 through the upper cuff 21 of the tubular inner fabric layer 20, so that the soft tubular inner fabric layer 20 can cover the foot, and has the heat retention and sweat absorption of the stocking body, and at the same time, since the sole openings 22 of the tubular inner fabric layer 20 are flatly adhered and sealed by the adhesive tapes 28, the bottom surface of the foot does not directly contact the pad body 30, the sweat absorption effect can be ensured, and since the sole openings 22 of the tubular inner fabric layer 20 are flat, the outstanding feeling in the manner of sewing thread does not occur, and the wearing and walking comfort of the three-dimensional tubular stocking shoe structure of the present invention is further improved;

moreover, when actually walking and running, the sole of the foot of the human body can be protected by the cushion body 30, and can not directly contact with the harder sole 50, thereby avoiding unnecessary friction, preventing the sole of the foot of the human body from being injured, and having excellent practicability, thereby increasing the added value of the product and improving the economic benefit of the product.

The foregoing description is intended to be illustrative rather than limiting, and it will be appreciated by those skilled in the art that many modifications, variations or equivalents may be made without departing from the spirit and scope of the invention as defined in the appended claims.