CN202489305U - Upper sheet compound structure of boot - Google Patents

Abstract

The utility model discloses an upper sheet compound structure of a boot, comprising a base material layer and a TPU (Thermoplastic Polyurethane) resin formed thermoplastic layer, wherein the base material layer is a surface-shaped material with thickness and defines an outer surface and an inner surface, which are matched with each other; the thermoplastic layer is directly combined on the inner surface of the base material layer; the thickness of the thermoplastic layer is less than the thickness of the base material layer; the base material layer is used for forming a vamp of the boot; and the thermoplastic layer is used for forming an inner support structure of the vamp. According to the utility model, the base material layer can be formed in shorter time at relatively low temperature and the thermoplastic layer is capable of forming the inner support structure of the vamp, so that the unfair phenomenon of the vamp can be minimized.

Description

A kind of upper of a shoe sheet compound structure of footwear boots

Technical field

The utility model provides a kind of more convenient manufacturing, and the upper of a shoe sheet that can effectively reduce the thermocompression forming temperature, and it can apply on riding boots, snow boots, sweet footwear and sandals or the like footwear boots widely.

Background technology

Please with reference to Fig. 1, it discloses a kind of common sweet footwear, a vamp 20, a sewing mainly is installed in 30 of vamp 20 inner surfaces on sole 10 inside, makes it to constitute one and can supply the space of foot's dress, and said vamp 20 mainly is made up of upper of a shoe sheet thermocompression forming.

Please cooperate Fig. 2, Fig. 3 and shown in Figure 4, this upper of a shoe sheet is compound and constitute by plastic 203 of substrate layer 201, interfacial agents 202, heat; This substrate layer 201 has the shoe head part 2011 that can thermocompression forming goes out the footwear boots, and the structural system of substrate layer 201 behind thermocompression forming vamp 20 appearance and modelings that concern, yet; Substrate layer 201 mostly is to adopt structural not good leatheret; For improving this substrate layer 201 easily in shoe head part 2011 collapse-deformations, it must be coated with last layer interface agent 202 at shoe head part 2011 inner surfaces, so that plastic 203 of deadlocked heat; Behind thermocompression forming, plastic 203 inner support framework that can form shoe head part 2011 of this heat.

Generally speaking; Plastic 203 of this heat must cut out reservation shape earlier; With chipping edger plastic 203 periphery of this heat formed fillet surface 2031 then, make plastic 203 of this heat behind applying substrate layer 201, this fillet surface 2031 can not be formed with lofty bad sense of touch at the handing-over periphery.

Learn that by above-mentioned explanation it is to be overcome that this upper of a shoe sheet truly has following problem to have in the reality use:

The first, heat plastic 203 mostly adopt PA class material, its thermocompression forming temperature up to 120 ℃ about; So under the high temperature; The out-of-flatness flaw phenomenon that causes substrate layer 201 outer surfaces very easily to produce can't expecting, so that obviously problem on the high side of fraction defective can occur processing, not only reduce production efficiency; And it is for the very big loss of dealer that material cost, time cost detract meaninglessly, makes the dealer extremely perplex.

Second; Plastic 203 thickness T 1 ≧ substrate layer thickness t 1 of its heat, otherwise the operator can't carry out the chamfered edge operation with what palm gripped, thus; Plastic 203 thickness T 1 of heat can't significantly be reduced; Cause the thermocompression forming time to reduce, and under high-temperature molding reciprocal effect, will make substrate layer 201 outer surface out-of-flatness flaw phenomenons even more serious.

The 3rd; Its substrate layer 201 must be coated interfacial agents 202 in advance; Plastic 203 of heat then need through cut, the chamfered edge operation could see through interface agent 202 and fit on the substrate layer 201, its processing procedure is quite complicated, the operating efficiency of integral body completion also can't promote; The more difficult growth of putting forward economic benefit, this is that present process technology can't break through part.

The inventor still has the disappearance of subsiding in the use in view of the structural design of conventional upper sheet, and endeavours improvement, and in the hope of alleviating or eliminate the shortcoming of above-mentioned existing upper of a shoe sheet, this case produces thus.

The utility model content

The purpose of the utility model is to provide a kind of out-of-flatness flaw phenomenon that makes vamp to reduce to the upper of a shoe sheet compound structure of minimum footwear boots.

For reaching above-mentioned purpose, the solution of the utility model is:

A kind of upper of a shoe sheet compound structure of footwear boots includes: a substrate layer, and it is the planar material with a thickness, and defines outer surface and the inner surface that is complementary; And the hot plastic layer that constitutes with the TPU resinoid, it directly is incorporated into the substrate layer inner surface, this hot plastic layer thickness＜substrate layer thickness, and substrate layer molds the vamp of footwear boots, and hot plastic layer then forms the inner support framework of vamp.

Further, hot plastic layer thickness ≦ 1/2 substrate layer thickness.

Further, substrate layer further has the shoe head part that the ability thermocompression forming goes out the footwear boots, the supporting framework of the moldable formation shoe head part of said heat.

Further, hot plastic layer periphery form can with the smooth-going fillet surface that joins of substrate layer inner surface.

Further, hot plastic layer select for use can softening flow at 70 ℃-90 ℃, the hot melt viscosity is between 4000-8000PS/150 ℃ TPU resinoid.

Further, to have hardness be that 97A, melt index are that 15-20g/10 ㎝ (2.16 ㎏/150 ℃), hardening time are the 30-90 rerum natura of second to hot plastic layer.

After adopting such scheme; The utility model makes it after being incorporated into the substrate layer inner surface by hot plastic layer material of control and thickness, and the hot-forming temperature of this substrate layer and hot plastic layer can be filled part and is reduced to 70 ℃; The hot-forming time then can be shorter; It is minimum that the out-of-flatness flaw phenomenon of substrate layer outer surface is reduced to, so have the yields height, structural good essence effect is promoted, and this hot plastic layer after hot-forming still has good hardness and elasticity.

On the other hand; The utility model is further to simplify the setting of commonly using the interface agent; And make the resinoid hot plastic layer of TPU directly hot melt coat the substrate layer inner surface, this kind improvement can simplify commonly use cut, chamfered edge and bonding process, and mode is for it automatically; Naturally it is more convenient fast to commonly use multiple operation, and production efficiency is improved.

Description of drawings

Fig. 1 is a schematic perspective view of commonly using the footwear boots;

Fig. 2 is a decomposing schematic representation of commonly using the upper of a shoe sheet;

Fig. 3 is the A-A position profile sketch map of Fig. 2;

Fig. 4 is a combination sketch map of commonly using the upper of a shoe sheet;

Fig. 5 is the partial enlarged drawing of Fig. 4;

Fig. 6 is the partial cutaway schematic after the utility model is installed on the footwear boots;

Fig. 7 is the partial enlarged drawing of Fig. 6;

Fig. 8 is the schematic appearance of the utility model upper of a shoe sheet;

Fig. 9 is the B-B position profile sketch map of Fig. 8.

Label declaration

Sole 10

Vamp 20 substrate layers 201

Shoe head part 2011 thickness t 1

Plastic 203 of interfacial agents 202 heat

Fillet surface 2031 thickness T 1

Inside 30

The utility model

Sole 1 inside 3

Vamp 4 substrate layers 41

Shoe head part 411 thickness t 2

Hot plastic layer 42 fillet surfaces 421

Thickness T 2.

The specific embodiment

For further understanding the structure of the utility model, the utility model is done detailed explanation below in conjunction with accompanying drawing and specific embodiment.

See also Fig. 5, Fig. 6 and Fig. 7, the upper of a shoe sheet compound structure of a kind of footwear boots that the utility model discloses ,Have: a sole 1, is installed on vamp 4 on the sole 1, a sewing in 3 of vamp 4 inner surfaces inside; Making inside, 3 inner formations one can supply the space of foot's dress; Said vamp 4 is to constitute with a upper of a shoe sheet thermocompression forming at least, and this upper of a shoe sheet further includes:

One substrate layer 41, it is the planar leatheret material with a thickness, and defines outer surface, the inner surface that is complementary, and has the shoe head part 411 that the ability thermocompression forming goes out the footwear boots; And

One hot plastic layer 42 with TPU resinoid formation, it has following characteristic:

[1] proportion is 1.19g/cm3 (20 ℃);

[2] hardness is 97A;

[3] to melt viscosity be 4000-8000PS/150 ℃ to heat;

[4] melt index is 15-20g/10 ㎝ (2.16 ㎏/150 ℃);

[5] softening flowing temperature is 70 ℃-90 ℃;

[6] be 30-90 seconds hardening time;

[7] binding temperature is 80-90 ℃;

[8] extruding temperature is 80-120 ℃;

This kind TPU resinoid can be coated substrate layer 41 inner surface desired locations under heat is melted state; Promptly be integrally formed the substrate layer 41 and the hot plastic layer 42 of combination after cooling; These hot plastic layer 42 thickness＜substrate layer 41 thickness; And make hot plastic layer 42 peripheries can form can with the smooth-going fillet surface that joins 421 of substrate layer 41 inner surfaces; Make this substrate layer 41 and hot plastic layer 42 when thermocompression forming goes out the footwear boots, this substrate layer 41 appearance shapes system can form vamp 4 shapes, can form the inner support framework of shoe head part 411 as for 42 of hot plastic layers.

The hot plastic layer 42 that the utility model TPU resinoid is constituted; It has good hardness and elasticity; And can the thermocompression forming temperature significantly be reduced to 70 ℃; The thermocompression forming temperature of substrate layer 41 is reduced in the lump, and then it is minimum that the out-of-flatness flaw phenomenon of substrate layer 41 outer surfaces is reduced to, so the utility model really has quality and the better progressive of yield.

Moreover; The hot plastic layer 42 that the utility model TPU resinoid is constituted, its flowability is better far beyond commonly using the PA material, so can control the coating thickness of this hot plastic layer 42 easily; It is thinner to make it commonly use the PA material; Make hot plastic layer 42 optimized thickness T 2 ≦ 1/2 substrate layers 41 thickness t 2, so can effectively shorten the thermocompression forming time of this substrate layer 41 and hot plastic layer 42, and then make substrate layer 41 outer surfaces have good surface appearance.

In sum, the utility model is broken through reform fully and is commonly used the problem that upper of a shoe sheet thermocompression forming temperature can't reduce, the time is oversize, and machine capable of using and directly always change coating in the substrate layer inner surface and form this hot plastic layer.

The above is merely a preferred embodiment of the utility model, when can not with the scope implemented of qualification the utility model, the equalization of promptly being done according to the utility model application generally changes and modifies, and all should still belong in the scope that the utility model contains.

Claims (6)

1. the upper of a shoe sheet compound structure of footwear boots is characterized in that, includes:

One substrate layer, it is the planar material with a thickness, and defines outer surface and the inner surface that is complementary;

One hot plastic layer with TPU resinoid formation, it directly is incorporated into the substrate layer inner surface, this hot plastic layer thickness＜substrate layer thickness, substrate layer molds the vamp of footwear boots, and hot plastic layer then forms the inner support framework of vamp.

2. the upper of a shoe sheet compound structure of a kind of footwear boots according to claim 1 is characterized in that, hot plastic layer thickness ≦ 1/2 substrate layer thickness.

3. the upper of a shoe sheet compound structure of a kind of footwear boots according to claim 1 and 2 is characterized in that, substrate layer further has the shoe head part that the ability thermocompression forming goes out the footwear boots, the supporting framework of the moldable formation shoe head part of said heat.

4. the upper of a shoe sheet compound structure of a kind of footwear boots according to claim 1 and 2 is characterized in that, hot plastic layer periphery form can with the smooth-going fillet surface that joins of substrate layer inner surface.

5. the upper of a shoe sheet compound structure of a kind of footwear boots according to claim 1 and 2 is characterized in that, hot plastic layer select for use can softening flow at 70 ℃-90 ℃, the hot melt viscosity is between 4000-8000PS/150 ℃ TPU resinoid.

6. the upper of a shoe sheet compound structure of a kind of footwear boots according to claim 5 is characterized in that, it is that 97A, melt index are 15-20g/10 ㎝, hardening time to be the 30-90 rerum natura of second that hot plastic layer has hardness.

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