CN115474740A - Jelly shoes based on inhale membrane structure - Google Patents

Abstract

The invention discloses a jelly shoe based on a film absorbing structure, which comprises a sole, wherein a shoe body is arranged at the top end of the sole, a shoe edge is arranged on one side of the top of the shoe body, a shoe opening is formed in the top of the shoe body on one side of the shoe edge, a shoe cap is arranged on the inner wall of the shoe body on the inner side of the shoe edge, a positioning cap is arranged on one side of the top end of the shoe cap, and shoelaces are arranged on the inner wall of the shoe body above the shoe cap in a staggered manner. The invention not only enables the feet of a user to feel cool when the jelly shoe is worn, thereby enabling the feet of the user to be worn more comfortably, breaking through the traditional design concept, breaking through the complex process of traditional shoe body manufacturing, but also can be used for products in the standard industry, enabling the jelly shoe to achieve the initiation of the industry, reducing the phenomenon that the sole is worn, further prolonging the service life of the jelly shoe, enabling the jelly shoe to have good anti-slip performance, and further reducing the phenomenon that the user falls down due to wet and slippery road surface when the jelly shoe is worn.

Description

Jelly shoes based on inhale membrane structure

Technical Field

The invention relates to the technical field of jelly shoes, in particular to a jelly shoe based on a film absorption structure.

Background

The shoes have long-standing development seriously, and the shoes mainly dress in people's foot, play the effect of protection foot, along with the improvement of people's standard of living, people's requirement to shoes is more and more high, and then derive various types of shoes, and jelly shoes belongs to one kind of shoes, and it mainly is the shoes of utilizing PVC and plastic material preparation, can generally divide into slippers and sandals because of its low price, and comparatively comfortable when dressing, and is liked by people deeply.

Along with the progress of times science and technology, people continuously improve the living standard, and then the practicality requirement to the product is higher and higher, also to appearance and functional requirement higher and higher, and make people focus on functionality and outward appearance more, the vamp of this kind of jelly shoes on the market is that the material is overlapped and is made at present, and its process is loaded down with trivial details, and has increased the weight of vamp, and its aesthetic property and waterproof nature are all general moreover, are difficult to satisfy people's demand, therefore still need improve it.

Disclosure of Invention

The invention aims to provide a jelly shoe based on a membrane absorbing structure, and aims to solve the problems that the vamp of the jelly shoe proposed in the background art is made of stacked materials, the working procedure is complicated, the weight of the vamp is increased, and the beauty and the waterproofness are common.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a jelly shoes based on inhale membrane structure, includes the sole, the top of sole is provided with the shoes body, one side at shoes body top is provided with the shoes edge, shoes are provided with the welt along the shoes body top of one side, shoes are provided with the shoes cap on the shoes body inner wall of inboard edge, one side on shoes cap top is provided with the location cap, the shoelace is installed in the mistake on the shoes body inner wall of shoes cap top, the both ends of shoelace all run through to the outside of location cap, vamp and outer vamp have set gradually in the inside of the shoes body, one side of the internal portion of shoes is provided with interior vamp, the internal portion of shoes of interior vamp one side is provided with outer vamp.

Preferably, one side of sole bottom is provided with equidistant second antiskid groove, second antiskid groove all is rectangular structure, through setting up second antiskid groove in the bottom of sole to promote the non-skid property of this jelly shoes.

Preferably, the inside of sole has set gradually PVC layer, plastic layer, paste the layer and PVC layer down, the inside one end of sole is provided with the PVC layer, has good toughness strength through last PVC layer for the compressive property of sole obtains promoting, produces the phenomenon of fracture and wearing and tearing in order to reduce the sole.

Preferably, the bottom on last PVC layer is provided with the plastic layer, the one end packing that the PVC layer was kept away from on the plastic layer has the layer of pasting, has good toughness strength through the plastic layer for the compressive property of sole obtains promoting, produces the phenomenon of fracture and wearing and tearing with the reduction sole.

Preferably, the one end of pasting the layer and keeping away from the plastic layer is pasted and is had down the PVC layer, the thickness on PVC layer equals with the thickness on plastic layer down, has good toughness strength through PVC layer down for the compressive property of sole obtains promoting, produces the phenomenon of fracture and wearing and tearing with the reduction sole.

Preferably, the sole bottom of welt position department is provided with equidistant first antiskid groove, first antiskid groove all is rectangular structure, through setting up first antiskid groove in the bottom of sole to promote the non-skid property of this jelly shoes.

The second technical scheme of the invention is to provide a manufacturing method of the outer vamp of the jelly shoe based on the membrane absorption structure, which sequentially comprises the following steps:

1) The high-density sponge is made into different thicknesses according to different part slopes and then cut into required shapes;

2) The special computer sewing machine is used for combination, the tightness of the suture line is required to reach the standard, and the sponge depression is 2mm as the standard;

3, placing the sewing component in a steel mould;

4) Vacuum forming and shaping;

5) And transferring the molded part to a special molding press for surface film sealing and positioning.

Preferably, the vacuum forming process parameters are as follows: the temperature is 100 ℃, and the pressure is-8 MPa.

Preferably, the density of the high-density sponge is more than or equal to 45 kg/m ³ (ii) a The material has super-strong resilience and air permeability, very low encounter loss, high compression load ratio and good toughness, and is good in thermal aging, wet aging and dynamic fatigue; the weight of the sponge per cubic meter reaches more than 45 kilograms, and the density is high; the coarse pores are uniformly arranged and are honeycomb-shaped.

Compared with the prior art, the invention has the beneficial effects that: the jelly shoe based on the membrane-absorbing structure not only enables the feet of a user to feel cool when the jelly shoe is worn, and further enables the feet of the user to be more comfortable when the user wears the jelly shoe forever, breaks through the traditional design concept, breaks through the complex process of traditional shoe body manufacturing, and can be used for products in the standard industry, so that the jelly shoe reaches the initiative in the industry, the phenomenon that the sole is abraded can be reduced, the service life of the jelly shoe is prolonged, the jelly shoe has good anti-skid performance, and the phenomenon that the user falls down due to wet and slippery road surfaces when wearing the jelly shoe is reduced;

(1) The outer vamp and the inner vamp are arranged, the outer vamp is made of a sponge absorbing film structure, a waterproof function and jelly sensory properties can be realized on a product, and in processing, a quite accurate flow standard is required to be mastered in the processes of material physical properties, mold manufacturing and accurate data pressing, so that the soft, light and waterproof effects of the shoe body can be perfectly reflected, the shoe body is lighter and more Q-shaped, and the aim of conforming to the human body movement comfort engineering principle is fulfilled;

(2) The upper PVC layer, the plastic layer, the sticking layer and the lower PVC layer are sequentially arranged from top to bottom to form the sole, so that the compressive strength of the sole is improved, the phenomenon that the sole is broken or deformed can be reduced, the phenomenon that the sole is abraded can be reduced, and the service life of the jelly shoe is prolonged;

(3) Be provided with first anti-skidding groove of multiunit and second anti-skidding groove respectively through the both sides that are located sole bottom for frictional force between sole and the ground obtains promoting, can make this jelly shoes possess good non-slip properties, thereby has reduced the phenomenon that the user produced and fell down when jelly shoes are dressed.

Drawings

FIG. 1 is a schematic three-dimensional structure of the present invention;

FIG. 2 is a schematic top view of a portion of the footwear body of the present invention;

FIG. 3 is a partial cross-sectional structural view of the shoe body of the present invention;

fig. 4 is a partial sectional view schematically illustrating the structure of the sole according to the present invention.

In the figure: 1. a sole; 101. coating a PVC layer; 102. a plastic layer; 103. a bonding layer; 104. a lower PVC layer; 2. a shoe body; 201. an inner vamp; 202. an outer vamp; 3. shoelaces; 4. a shoe edge; 5. shoes and hats; 6. a shoe opening; 7. a first anti-slip groove; 8. a positioning cap; 9. and a second anti-slip groove.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1-4, an embodiment of the present invention is shown: the sole comprises a sole 1, wherein second anti-skidding grooves 9 with equal intervals are arranged on one side of the bottom of the sole 1, and the second anti-skidding grooves 9 are all in a strip structure;

when in use, the second anti-skid groove 9 is arranged at the bottom of the sole 1, so that the anti-skid performance of the jelly shoe is improved;

an upper PVC layer 101, a plastic layer 102, an adhesive layer 103 and a lower PVC layer 104 are sequentially arranged in the sole 1, and the upper PVC layer 101 is arranged at one end in the sole 1;

when the sole is used, the upper PVC layer 101 has good toughness strength, so that the compression resistance of the sole 1 is improved, and the phenomena of fracture and abrasion of the sole 1 are reduced;

a plastic layer 102 is arranged at the bottom end of the upper PVC layer 101, and an adhesive layer 103 is filled at one end of the plastic layer 102, which is far away from the upper PVC layer 101;

when in use, the plastic layer 102 has good toughness strength, so that the compression resistance of the sole 1 is improved, and the phenomena of fracture and abrasion of the sole 1 are reduced;

a lower PVC layer 104 is adhered to one end of the adhering layer 103 far away from the plastic layer 102, and the thickness of the lower PVC layer 104 is equal to that of the plastic layer 102;

when the sole is used, the lower PVC layer 104 has good toughness strength, so that the compression resistance of the sole 1 is improved, and the phenomena of fracture and abrasion of the sole 1 are reduced;

the top end of the sole 1 is provided with a shoe body 2, one side of the top of the shoe body 2 is provided with a shoe edge 4, the top of the shoe body 2 at one side of the shoe edge 4 is provided with a shoe opening 6, the bottom of the sole 1 at the position of the shoe opening 6 is provided with first anti-skid grooves 7 at equal intervals, and the first anti-skid grooves 7 are all in a strip structure;

when in use, the first anti-skid groove 7 is arranged at the bottom of the sole 1, so that the anti-skid performance of the jelly shoe is improved;

the inner wall of the shoe body 2 at the inner side of the shoe edge 4 is provided with a shoe cap 5, one side of the top end of the shoe cap 5 is provided with a positioning cap 8, the inner wall of the shoe body 2 above the shoe cap 5 is provided with shoelaces 3 in a staggered manner, and two ends of the shoelaces 3 penetrate through the positioning cap 8;

the inside of the shoe body 2 is sequentially provided with an inner vamp 201 and an outer vamp 202, one side of the inside of the shoe body 2 is provided with the inner vamp 201, and the inside of the shoe body 2 at one side of the inner vamp 201 is provided with the outer vamp 202.

When the jelly shoe is used, firstly, a plurality of groups of first anti-slip grooves 7 and second anti-slip grooves 9 are respectively arranged on two sides of the bottom of the sole 1, so that the friction force between the sole 1 and the ground is improved, the jelly shoe has good anti-slip performance, the phenomenon that a user falls down due to road surface wetting when wearing the jelly shoe is reduced, then, the upper PVC layer 101, the plastic layer 102, the pasting layer 103 and the lower PVC layer 104 are sequentially arranged from top to bottom to form the sole 1, so that the compression strength of the sole 1 is improved, the phenomenon that the sole 1 is broken or deformed is reduced, the phenomenon that the sole 1 is worn can be reduced, the service life of the jelly shoe is prolonged, finally, the outer vamp 202 is arranged on the outer wall of the inner vamp 201 to form the shoe body 2, the outer vamp 202 is made of high-density sponge (the density is not less than 45 kg/m 3), the waterproof function and the sensory property can be realized on the product, and when the jelly shoe is processed, the principle that the user feels comfortable and feels like when wearing the jelly shoe meets the principle of light and comfortable foot engineering is achieved, and the jelly shoe is more comfortable.

Example 2

Embodiment 1 a method for manufacturing an outer upper of a jelly shoe based on a membrane-absorbing structure, which sequentially comprises the following steps:

1) The high-density sponge is made into different thicknesses according to different part slopes and then cut into required shapes;

the density of the high-density sponge is more than or equal to 45 kg/m ³ (ii) a The elastic fiber has the advantages of super-strong rebound resilience and air permeability, very low encounter loss, higher compression load ratio, better toughness, and better thermal aging, wet aging and dynamic fatigue properties; the weight of the sponge per cubic meter reaches more than 45 kilograms, and the density is high; the coarse pores are uniformly arranged and are honeycomb-shaped.

2) The special computer sewing machine is used for combination, the tightness of the suture line is required to reach the standard, and the sponge depression is 2mm as the standard;

3) Placing the sewing component in a steel mould, and heating to 100 ℃;

4) Vacuum forming at 100 deg.C under-8 MPa;

5) And transferring the molded part to a special molding press for surface film sealing and positioning.

And then the finished shoes are manufactured according to the conventional shoe manufacturing method.

The test parameters are shown in table 1.

TABLE 1

It should be noted that: the procedures and parameters not specified in the present application are carried out according to the conventional techniques in the art.

Claims (9)

1. The utility model provides a jelly shoes based on inhale membrane structure, its characterized in that, includes sole (1), the top of sole (1) is provided with shoes body (2), one side at shoes body (2) top is provided with shoes along (4), shoes are provided with welt (6) along shoes body (2) top of (4) one side, shoes are provided with on shoes body (2) inner wall of (4) inboard shoes cap (5), one side on shoes cap (5) top is provided with location cap (8), crisscross installation has shoelace (3) on shoes body (2) inner wall of shoes cap (5) top, the both ends of shoelace (3) all run through to the outside of location cap (8), the inside of shoes body (2) has set gradually interior vamp (201) and outer vamp (202), one side of shoes body (2) inside is provided with interior vamp (201), the vamp body (2) inside of interior vamp (201) one side is provided with outer vamp (202).

2. The jelly shoe based on the suction membrane structure as claimed in claim 1, wherein: one side of sole (1) bottom is provided with equidistant second antiskid groove (9), second antiskid groove (9) all are rectangular structure.

3. The jelly shoe based on the suction membrane structure as claimed in claim 1, wherein: the shoe sole is characterized in that an upper PVC layer (101), a plastic layer (102), an adhesive layer (103) and a lower PVC layer (104) are sequentially arranged in the shoe sole (1), and the upper PVC layer (101) is arranged at one end in the shoe sole (1).

4. The jelly shoe based on the suction film structure as claimed in claim 3, wherein: go up the bottom on PVC layer (101) and be provided with plastic layer (102), the one end that last PVC layer (101) was kept away from in plastic layer (102) is filled and is pasted layer (103).

5. The jelly shoe based on the suction membrane structure as claimed in claim 4, wherein: one end of the pasting layer (103) far away from the plastic layer (102) is pasted with a lower PVC layer (104), and the thickness of the lower PVC layer (104) is equal to that of the plastic layer (102).

6. The jelly shoe based on the suction membrane structure as claimed in claim 1, wherein: the sole (1) bottom of welt (6) position department is provided with equidistant first antiskid groove (7), first antiskid groove (7) all are rectangular structure.

7. The method for manufacturing the outer upper surface of the jelly shoe based on the membrane absorbing structure is characterized by sequentially comprising the following steps of:

1) The high-density sponge is made into different thicknesses according to different part slopes and then cut into required shapes;

2) The special computer sewing machine is used for combination, the tightness of the suture line is required to reach the standard, and the sponge depression is 2mm as the standard;

3, placing the sewing component in a steel mould;

4) Vacuum forming;

5) And transferring the molded part to a special molding press for surface film sealing and positioning.

8. The method for manufacturing the outer upper surface of the jelly shoe based on the membrane sucking structure as claimed in claim 7, wherein the vacuum forming and shaping process parameters are as follows: the temperature is 100 ℃, and the pressure is-8 MPa.

9. The method for manufacturing the outer vamp of the jelly shoe based on the membrane absorption structure as claimed in claim 7, wherein the density of the high-density sponge is more than or equal to 45 kg/m ³ 。

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