CN210929847U - 3D light indoor stocking shoe with multidirectional elasticity - Google Patents

Abstract

A3D portable indoor stocking shoe with multidirectional elasticity comprises a shoe-shaped inner sleeve comprising at least one cutting piece, an outer stocking body, an adhesive layer and a thin sole. The cut-parts include lining cloth layer, table cloth layer, and weave in lining cloth layer with upright fine hair layer between the table cloth layer, upright fine hair layer has several spaced fine hair yarn each other, the space of dress is injectd out to the cut-parts. The outer sock body comprises a sock body part sleeved on the shoe-shaped inner sleeve in a wearing mode and a reversely-folded top end part extending from the sock body part, the sock body part is provided with a sock body bottom surface and a sock body peripheral surface connected with the sock body bottom surface, the reversely-folded top end part is inwards reversely folded into a wearing space of the shoe-shaped inner sleeve and is fixed on the inner cloth layer, and a wearing inlet communicated with the wearing space is defined by the reversely-folded top end part. The adhesion layer is fixedly connected between the shoe-shaped inner sleeve and the sock body. The thin sheet sole is fixedly arranged on the bottom surface of the sock body, and the thickness of the thin sheet sole is 2-3 mm.

Description

3D light indoor stocking shoe with multidirectional elasticity

Technical Field

The utility model relates to a stocking shoe, in particular to a 3D light indoor stocking shoe with multidirectional elasticity.

Background

As shown in fig. 1, in the conventional indoor slippers 1, after a user takes off the slippers and enters a room, the user can wear the indoor slippers 1 to walk conveniently and prevent the soles of the feet from being stained, but the indoor slippers 1 cannot keep the feet of the user warm when the user is cold.

As shown in fig. 2, an anti-slip sock 2 comprises a knitted sock body 201 and a plurality of anti-slip structures 202 disposed on a bottom surface of the knitted sock body 201. Although the user can wear the anti-slip socks 2 to keep his feet warm when the user takes off the shoes and enters the room, and the anti-slip structure 202 can be used to prevent slip when the user walks, the bottom of the anti-slip socks 2 is not waterproof, so that the user cannot easily wear the anti-slip socks 2 to enter the environment where the floor is easily wet, such as a bathroom or a toilet, and needs to wear the indoor slipper 1 as shown in fig. 1, furthermore, since the material of the knitted socks 201 is generally a simple knitted fabric with soft touch, and does not have stiffness, the knitted socks 201 cannot support the three-dimensional shape corresponding to the user's feet, when the knitted socks 201 are not worn, the knitted socks 201 usually collapse inwards to take on a flat and creased shape, so that the user wears the knitted socks 201, generally, fingers of both hands are required to be inserted into the flat knitted sock body 201, and after the knitted sock body 201 is spread, the user can smoothly insert the foot into the knitted sock body 201, and the user cannot insert the foot into the knitted sock body 201 quickly.

Disclosure of Invention

Therefore, an object of the present invention is to provide a multidirectional elastic 3D light indoor footwear for socks, which can overcome at least one of the disadvantages of the prior art.

Therefore, the utility model discloses have multidirectional elastic 3D light indoor socks shoes contains a shoes form endotheca, an outer socks body, a landing layer, and a thin slice sole.

The shoes form endotheca includes an at least cut-out piece, the cut-out piece includes lining cloth layer, table cloth layer, and weave in lining cloth layer with upright fine hair layer between the table cloth layer, upright fine hair layer has several spaced fine hair yarn each other, the cut-out piece is defined out the top and is open form and the bottom is the wearing space of closed form.

The outer sock body comprises a sock body part which corresponds to the shoe-shaped inner sleeve and is sleeved on the shoe-shaped inner sleeve in a wearing mode, and a reversely-folded top end part which extends from the sock body part, the sock body part is provided with a sock body bottom surface and a sock body peripheral surface connected with the sock body bottom surface, the reversely-folded top end part is inwards reversely folded into a wearing space of the shoe-shaped inner sleeve and is fixed on the inner cloth layer, and a wearing inlet communicated with the wearing space is defined by the reversely-folded top end part.

The adhesion layer is fixedly connected between the shoe-shaped inner sleeve and the sock body.

The slice sole sets firmly in the socks body bottom surface of socks body portion, the slice sole has the thickness between 2 ~ 3mm, the material of slice sole is waterproof.

The utility model discloses utensil multidirectional elastic light indoor socks shoes of 3D, the thin slice sole does not shield the socks body of socks body portion is global.

The utility model discloses utensil multidirectional elastic light indoor ankle socks shoes of 3D, the turn over of the outer socks body is folded the top portion and is sewed in the lining cloth layer of the cut-parts of shoes form endotheca.

The utility model discloses utensil multidirectional elastic light indoor ankle socks shoes of 3D, the cut-parts have main face portion, and two symmetry set up in main face portion's both sides and with main face portion body coupling's flank portion, main face portion has preceding arc flange, and back opening concave edge, each flank portion have the side butt joint reason, connect in the side butt joint reason with preceding arc between wherein one end of preceding arc flange links up the reason, and connect in the side butt joint reason with back butt joint reason between wherein one end of back opening concave edge, the preceding arc of flank portion link up the reason with preceding arc flange butt joint and link together, the side butt joint reason of flank portion docks and link together mutually, the back butt joint reason of flank portion docks and links together mutually.

The utility model discloses utensil multidirectional elastic light indoor socks shoes of 3D still contains the bonding layer, bonding layer rigid coupling in the socks body bottom surface of socks body portion with between the top surface of thin slice sole.

The utility model has the advantages that: in the time of the cold, the utility model discloses it is usable outer socks body produces cold-proof effect to user's foot, moreover, the utility model discloses it is usable the isolated moisture content of thin slice sole is followed the socks body bottom surface of socks body portion gets into in the outer socks body, the utility model discloses can be convenient for let the user directly wear and get into in the easy moist environment of this type of ground in bathroom or lavatory. The utility model discloses it is usable the straightness of the upright fine hair layer itself of cut-parts removes to prop up the three-dimensional shape of shoes form endotheca lets the outer socks body can not flatten and collapse, and convenient to use person penetrates the foot fast in the space of wearing of shoes form endotheca, promote the convenience and the travelling comfort of dress. The utility model discloses utilize the reverse top portion of rolling over of the outer socks body is turned over extremely inwards in the wearing space of shoes form endotheca and be fixed in the design of lining layer, reverse top portion of rolling over can directly shield the open end in the top of shoes form endotheca to have the effect of restrainting the mouth, so, the required member number of reducible whole sewing, and reduce manufacturing cost, and can demonstrate the outward appearance of integration.

Drawings

FIG. 1 is a perspective view of an indoor slipper;

FIG. 2 is a perspective view of a conventional anti-slip sock;

FIG. 3 is a perspective view of an embodiment of the multi-directional elastic 3D portable indoor footwear of the present invention;

FIG. 4 is an exploded perspective view of the embodiment;

FIG. 5 is a combined sectional view of the embodiment;

FIG. 6 is a fragmentary, partially enlarged view of FIG. 5;

FIG. 7 is a perspective view of a cut segment of a shoe-like inner sleeve of this embodiment;

FIG. 8 is a perspective view of the cut segment folded into an embryonic form of the shoe-like inner sleeve;

FIG. 9 is a perspective view of the shoe insert illustrating the cut pieces being sewn to form the shoe insert.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and examples.

Referring to fig. 3, 4 and 5, in order to illustrate an embodiment of the multi-directional elastic 3D light indoor footwear 100 of the present invention, the indoor footwear 100 includes a shoe-shaped inner sleeve 10, an outer sock body 20, an adhesive layer 30, a thin sole 40, and an adhesive layer 50.

As shown in fig. 4, 5 and 6, the shoe-shaped inner sleeve 10 includes a cut segment 11, the cut segment 11 includes an inner cloth layer 111, an outer cloth layer 112, and an upright pile layer 113 woven between the inner cloth layer 111 and the outer cloth layer 112 and having multi-directional elasticity, the upright pile layer 113 has a plurality of pile yarns 114 spaced from each other, and the upright pile layer 113 has a thickness of 2-5 mm. In this embodiment, the stiffness of the upright pile layer 113 of the cut segment 11 can be used to support the three-dimensional shape of the inner shoe-shaped sleeve 10, and the inner shoe-shaped sleeve 10 can generate multi-directional elasticity in the front, back, left, right, up and down directions by using the upright pile layer 113.

As shown in fig. 7, 8 and 9, the cut segment 11 has a main surface portion 12, and two side wing portions 13 symmetrically disposed on both sides of the main surface portion 12 and integrally connected to the main surface portion 12, the main surface portion 12 has a front arc-shaped flange 121, and a rear opening concave edge 122, each side wing portion 13 has a side abutting edge 131, a front arc-shaped connecting edge 132 connected between the side abutting edge 131 and one end of the front arc-shaped flange 121, and a rear abutting edge 133 connected between the side abutting edge 131 and one end of the rear opening concave edge 122.

In this embodiment, the front arc connecting edges 132 of the side wing portions 13 are butted and sewn together with the front arc flanges 121, the side butt connecting edges 131 of the side wing portions 13 are butted and sewn together, the rear butt connecting edges 133 of the side wing portions 13 are butted and sewn together with each other, and the length of the front arc connecting edge 132 of each side wing portion 13 is substantially equal to one half of the length of the front arc flange 121 of the main surface portion 12, so that the cut piece 11 defines a wearing space 14 with an open top end and a closed bottom end.

It is understood that in other variations of the present embodiment, the front arc-shaped connecting edges 132 of the side wing parts 13 can be butted and ultrasonically welded to the front arc-shaped flanges 121 of the main surface part 12, the side butt-shaped edges 131 of the side wing parts 13 can be butted and ultrasonically welded to each other, and the rear butt-shaped edges 133 of the side wing parts 13 can be butted and ultrasonically welded to each other.

As shown in fig. 4, 5 and 6, the sock body 20 has multi-directional elasticity and includes a sock body portion 21 corresponding to the shoe-shaped inner cover 10 and put on the shoe-shaped inner cover 10, and a reverse-folded toe portion 22 extending from the sock body portion 21. The sock body 21 has a sock body bottom surface 211 and a sock body peripheral surface 212 connected to the sock body bottom surface 211, the reverse-folded top portion 22 is reversely folded inward into the wearing space 14 of the shoe-shaped inner cover 10 and fixed to the lining 111 of the cut segment 11 of the shoe-shaped inner cover 10, the reverse-folded top portion 22 defines a wearing inlet 221 communicating with the wearing space 14, and the reverse-folded top portion 22 has a binding function.

In the present embodiment, the reverse-folded top end portion 22 is sewn and fixed to the inner cloth layer 111, and the outer sock body 20 is a knitted sock, and the outer sock body 20 can generate multi-directional elasticity in front, rear, left, right, up and down directions, but not limited thereto.

The adhesive layer 30 is fixedly connected between the shoe-shaped inner cover 10 and the sock body 21, so that the shoe-shaped inner cover 10 is tightly attached to the sock body 21. In the present embodiment, the material of the adhesive layer 30 is an adhesive, such as hot melt adhesive, which is known in the art.

The thin sole 40 is fixedly arranged on the bottom 211 of the sock body 21, the thin sole 40 has a thickness of 2-3 mm, and the thin sole 40 is waterproof and anti-slip. In the present embodiment, the thin sole 40 does not cover the sock body peripheral surface 212 of the sock body portion 21, and the material of the thin sole 40 is rubber, which is a known material in the prior art.

The adhesive layer 50 is fixed between the bottom surface 211 of the sock body 21 and the top surface of the thin sole 40. In the present embodiment, the material of the adhesive layer 50 is an adhesive, which is a material known in the art.

As shown in fig. 3, 4 and 5, the method for manufacturing the indoor footwear 100 is briefly described as follows, but not limited thereto:

first, a three-layer fabric is cut to obtain the cut piece 11 (see fig. 7).

Secondly, sewing the cut pieces 11 (see fig. 7) into a three-dimensional shape by using a sewing machine to complete the shoe-shaped inner sleeve 10.

Thirdly, the shoe-shaped inner sleeve 10 is put on a shoe last (not shown).

Fourthly, adhesive is sprayed on the outer surface of the shoe-shaped inner sleeve 10.

Fifthly, spraying an adhesive on the inner surface of the outer sock body 20.

Sixthly, the sock body 20 is put on the shoe-shaped inner sleeve 10.

Seventhly, heating the outer sock body 20 and the shoe-shaped inner sleeve 10 to 80 ℃ for 2-10 minutes to combine the outer sock body 20 and the shoe-shaped inner sleeve 10 together.

Eighthly, the thin sole 40 is adhered and fixed on the bottom surface 211 of the sock body 21 of the outer sock body 20.

And ninthly, pulling out the shoe tree.

Ten, the reversely folded tip end portion 22 of the outer sock body 20 is reversely folded inward into the wearing space 14 of the shoe-shaped inner cover 10, and is sewn and fixed to the inner cloth layer 111 of the cut segment 11 of the shoe-shaped inner cover 10.

Thus, the indoor footwear 100 is manufactured.

Thereby, the user can freely walk indoors with wearing the indoor footgear 100.

Through the above description, the advantages of the present invention can be summarized as follows:

one, in the time of the cold, the utility model discloses usable this outer socks body 20 produces cold-proof effect to user's foot, moreover, the utility model discloses in usable this thin slice sole 40 isolated moisture content gets into this outer socks body 20 from the socks body bottom surface 211 of this socks body 21, compare in current limited slip socks 2, the utility model discloses can let in the user directly wears the easy moist environment in getting into bathroom or this kind of ground of lavatory, and need not wear current indoor slippers 1 in addition again, it is more convenient in the use, in addition, this thin slice sole 40's thickness is very thin, multiplicable user is indoor dress the utility model discloses temporal comfort level.

Second, the utility model discloses a this shoes form endotheca 10 upright matte layer 113 has the thickness between 2 ~ 5mm, can prop up this shoes form endotheca 10 three-dimensional stiffness, and make this indoor ankle sock 100 have the stiffness and form 3D's shape after the completion, can convenient to use person penetrate the foot in this shoes form endotheca 10 wearing space 14 fast, and, this upright matte layer 113 all has multidirectional elasticity with this outer socks body 20, can make this indoor ankle sock 100 have elasticity after the completion, the cladding nature of its dress is good and comfortable.

Thirdly, the utility model discloses a top portion 22 is turned over to the space of wearing 14 of this shoes form endotheca 10 in turning over the turn over of outer socks body 20 in, and the sewing is fixed in the lining cloth 111 of cut-parts 11 of this shoes form endotheca 10, and this top portion 22 is turned over can shield the top opening end of this shoes form endotheca 10 to have the effect of restrainting the mouth, utilize this top portion 22 of turning over, the utility model discloses the required component number of reducible whole sewing, and reduce manufacturing cost, in addition, the utility model discloses can demonstrate the outward appearance of integration, improve the wholeness impression of outward appearance.

Fourth, the utility model discloses the elasticity of upright fine hair layer 113 of cut-parts 11 of shoes form endotheca 10 is good, can be convenient for the user smoothly penetrate this shoes form endotheca 10 with the foot in, moreover, the gas permeability of this upright fine hair layer 113 is good, travelling comfort when can effectively promoting the user and wear, moreover, this upright fine hair layer 113 is woven between this lining cloth layer 111 and this table cloth layer 112, and form integrative structure, this upright fine hair layer 113 can firmly be in the same place with this lining cloth layer 111 and this table cloth layer 112, can not take place the situation of peeling off easily.

To sum up, the utility model discloses a light indoor ankle socks shoes of utensil multidirectional elastic 3D not only can be convenient for let the user directly wear get into in the easy moist environment in ground to can convenient to use person wears fast, and the required component number of reducible whole sewing, and reduction in manufacturing cost, so can reach cost utility model's purpose really.

Claims (5)

1. The utility model provides a have multidirectional elastic 3D light indoor socks shoes, includes shoes form endotheca, the socks body, the adhesion layer, and thin slice sole, its characterized in that:

the shoe-shaped inner sleeve comprises at least one cut piece, wherein the cut piece comprises an inner cloth layer, a surface cloth layer and an upright woolen layer woven between the inner cloth layer and the surface cloth layer, the upright woolen layer is provided with a plurality of mutually spaced woolen yarns, and the cut piece defines a wearing space with an open top end and a closed bottom end;

the outer sock body comprises a sock body part which corresponds to the shoe-shaped inner sleeve and is sleeved on the shoe-shaped inner sleeve in a wearing manner, and a reversely-folded top end part which extends from the sock body part, wherein the sock body part is provided with a sock body bottom surface and a sock body peripheral surface connected with the sock body bottom surface, the reversely-folded top end part is inwards reversely folded into a wearing space of the shoe-shaped inner sleeve and is fixed on the inner cloth layer, and the reversely-folded top end part defines a wearing inlet communicated with the wearing space;

the adhesion layer is fixedly connected between the shoe-shaped inner sleeve and the sock body; and

the thin sheet sole is fixedly arranged on the bottom surface of the sock body part, the thickness of the thin sheet sole ranges from 2 mm to 3mm, and the thin sheet sole is made of waterproof materials.

2. The multidirectional elastic 3D light indoor footwear according to claim 1, wherein: the thin sole does not cover the circumference of the sock body.

3. The multidirectional elastic 3D light indoor footwear according to claim 2, wherein: the reverse-folding top end part of the outer sock body is an inner cloth layer which is sewn and fixed on the cutting piece of the shoe-shaped inner sleeve.

4. The multidirectional elastic 3D light indoor footwear according to claim 3, wherein: the cutting piece is provided with a main face part and two side wing parts which are symmetrically arranged on two sides of the main face part and are integrally connected with the main face part, wherein the main face part is provided with a front arc-shaped flange and a rear opening concave edge, each side wing part is provided with a side butt joint edge, a front arc-shaped joint edge connected between the side butt joint edge and one end of the front arc-shaped flange and a rear butt joint edge connected between the side butt joint edge and one end of the rear opening concave edge, the front arc-shaped joint edges of the side wing parts are in butt joint with the front arc-shaped flanges and are connected together, the side butt joint edges of the side wing parts are in butt joint with each other and are connected together, and the rear butt joint edges of the side wing parts are in butt joint with each other and are connected together.

5. The multidirectional-elastic 3D portable indoor slipper sock shoe of claim 4, wherein: utensil multidirectional elastic 3D light indoor socks shoes still contain the bonding layer, bonding layer rigid coupling in the socks body bottom surface of socks body portion with between the top surface of thin slice sole.

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