CN204017326U - Shock absorption material structure - Google Patents

Abstract

A shock absorption material structure, comprises a shock absorption material bed of material and a nonwoven fabric layer.The material of this shock absorption material bed of material contains styrene-ethylene-butadiene-styrene down section copolymer, and comprise a basalis, and a plurality of this basalis end face and shock-absorption units spaced apart of being formed at, this nonwoven fabric layer is attached at the bottom surface of this basalis. one-body moldedlyDescribed shock-absorption unit can produce deformation to absorb the impact of releasing the pressure when pressurized, gap between described shock-absorption unit provides after material deformation potential energy converting and energy dispersion space fully, and can increase bendable folding endurance and the docile degree of material, whereby, the utility model can provide the function of shock-absorbing buffering and soft docile material sense of touch, comfort level in the time of can only not taking into account protection function and dress, and can break through existing shock absorption material application restric-tion at low temperatures.

Description

Shock absorption material structure

Technical field

The utility model relates to a kind of shock absorption material structure, particularly relates to a kind of shock absorption material structure of the comfort level can take into account the protection such as shock-absorbing buffering function and dress time.

Background technology

General shock absorption material structure, the shock-absorbing cushion in protecting ware for sports for example, be generally one and there is thickness and continuous type elastic cushion that can deformation behavior, for taking material into account for the tolerance of pressure, this cushion need have certain material thickness and hardness with reflection strength rigid, but the docile degree when just having sacrificed thus the bendable folding endurance of material and having dressed, while having caused wearing, easily there is uncomfortable impression, and the soft cushion structure of this type has material sclerosis when low temperature, the secret worry that shock-absorbing effect significantly weakens, therefore, the space that the application of existing shock absorption material structure under wearing comfort and low temperature all can improve in addition.

Summary of the invention

The purpose of this utility model is to provide a kind of shock absorption material structure of the comfort level can take into account the protection functions such as shock-absorbing buffering and dress time.

The utility model shock absorption material structure, comprises a shock absorption material bed of material and a nonwoven fabric layer.The material of this shock absorption material bed of material contains styrene-ethylene-butadiene-styrene down section copolymer, and comprise a basalis, and a plurality of this basalis end face and shock-absorption units spaced apart of being formed at one-body moldedly, each shock-absorption unit have one with this basalis top end face separately, and one connect this basalis and this top end face around face, the coordinating with this basalis and define an interval trough unit around face of described shock-absorption unit.This nonwoven fabric layer is attached at the bottom surface of this basalis.

The utility model shock absorption material structure, each shock-absorption unit extends to this top end face by this basalis bundle contracting.

The utility model shock absorption material structure, the top end face of each shock-absorption unit is regular hexagon.

The utility model shock absorption material structure, each shock-absorption unit is a hexagon prism shape, any cross section of this top end face and this shock-absorption unit is regular hexagon.

The utility model shock absorption material structure, each shock-absorption unit has a plurality of shock-absorbing projections spaced apart, and this top end face is that the end face by described shock-absorbing projection is coordinated and defines.

The beneficial effects of the utility model are: by special architectural characteristic, the utility model can be applied to motion clothing or protector, the protection function of shock-absorbing buffering is provided, simultaneously with material bendable folding endurance and docile degree, and soft cloth cover material sense of touch, and break through existing shock absorption material application restric-tion at low temperatures.

Accompanying drawing explanation

Fig. 1 is the three-dimensional exploded view of first embodiment of the utility model shock absorption material structure;

Fig. 2 is the plan view from above of this first embodiment;

Fig. 3 is the generalized section along cutting line III-III in Fig. 2;

Fig. 4 is the use view that this first embodiment is applied to a motion clothing, and now a shock absorption material bed of material of this first embodiment arranges outwardly;

Fig. 5 is the use view that this first embodiment is applied to a protector, and now a nonwoven fabric layer of this first embodiment arranges outwardly;

Fig. 6 is the plan view from above of second embodiment of the utility model;

Fig. 7 is the generalized section along cutting line VII-VII in Fig. 6;

Fig. 8 is the plan view from above of the 3rd embodiment of the utility model;

Fig. 9 is the generalized section along cutting line IX-IX in Fig. 8.

The specific embodiment

Below in conjunction with drawings and Examples, the utility model is elaborated.

About aforementioned and other technology contents, feature and effect of the present utility model, in the following detailed description coordinating with reference to three graphic embodiment, can clearly understand.

Before proposing detailed description, be noted that in the following description, similarly element is to represent with identical numbering.

Consult Fig. 1 to Fig. 3, the first embodiment of the utility model shock absorption material structure comprises a shock absorption material bed of material 1, and a nonwoven fabric layer 2 with this shock absorption material bed of material 1 combination.

The material of this shock absorption material bed of material 1 is known materials, be styrene-ethylene-butadiene-styrene down section copolymer (Styrene-Ethylene/Butylene-Styrene Block Copolymer of expansion type, SEBS), and comprise the basalis 11 that sheet is extended, and be a plurality ofly formed at this basalis 11 end faces, and shock-absorption unit 12 spaced apart one-body moldedly.

A butt hexagonal pyramidal shape of each shock-absorption unit 12 general one-tenth, by the upwards bundle contracting extension of these basalis 11 end faces, and comprise one with this basalis 11 orthohexagonal top end face 121 separately, and one connect this top end face 121 and this basalis 11 around face 122.The coordinating and define an interval trough unit 13 with this basalis 11 around face 122 of described shock-absorption unit 12.

This nonwoven fabric layer 2 is attached at the bottom surface of this basalis 11, and in the present embodiment, this nonwoven fabric layer 2 weaves for synthetic material fiber the cloth forming, and has the surface of soft-touch and good ventilative and drainage.

Consult Fig. 1, Fig. 4 and Fig. 5, so, the utility model shock absorption material structure can be applied to motion clothing or protector etc., for example football shirt football pants, car sewing machine trousers, knee-pad wrister etc., the external impacts that may run into while moving to absorb, and avoid user to move injury accident, and set-up mode is not limited, and can be optionally local or be all covered in applied product surface, or be embedded in substrate.The setting party of this shock absorption material bed of material 1 is not to limited equally, and can optionally arrange outwardly or inwardly, for example arrange outwardly as shown in Figure 4, and these nonwoven fabric layer 2 correspondences are arranged inwardly, or as illustrated in fig. 5 this shock absorption material bed of material 1 is arranged inwardly, now 2 correspondences of this nonwoven fabric layer are outward.

Whereby, the advantage of the utility model shock absorption material structure can be summarized as follows:

One, the resiliency characteristics of the foam material of this shock absorption material bed of material 1 provide while meeting pressure can deformation behavior, and described shock-absorption unit 12 has certain structural thickness, can alleviate and absorb the impact of external force, the butt hexagonal pyramidal shape that integrated design and floor space are larger also has good structural rigidity, no matter to pulling force or thrust all has good tolerance.

Two, when providing material shock-absorbing deformation, this interval trough unit 13 of 12 of described shock-absorption units transforms the space of potential energy, can effectively disperse impulsive force the weight of lightening material significantly, and bendable folding endurance and docile degree in the time of can also promoting the utility model shock absorption material structure and be installed on product, therefore can be applied to well all kinds of clothings or protector, comfortableness when effectively lifting user wears, and expand application range of the present utility model.

Three, this interval trough unit 13 can also promote the tolerance level of material under low temperature, even use under the low temperature between 0 ℃ to-30 ℃, this interval trough unit 13 also can make the utlity model has good structurally flexible degree and high deformation flexibility ratio, and can avoid traditional shock absorption material material when low temperature is used that the problem of sclerosis easily occurs.

Four, this nonwoven fabric layer 2 has good material sense of touch, ventilative and drainage, can only not increase wearing comfort, can also promote further the function of the heat extraction effect of material and absorbing sweat, perspire.

It is worth mentioning that, want to reach above-mentioned effect, the spatial configuration of the shock-absorption unit 12 of the utility model shock absorption material structure is not as limit, frusto-conical, butt side's cone-shaped, butt pyrometric cone shape or arbitrarily frusto-conical shape all can reach the effect identical with aforementioned enforcement aspect, in addition, in the second embodiment of the utility model shock absorption material structure as shown in Figures 6 and 7, the spatial configuration of each shock-absorption unit 12 is a positive hexagon prism shape, this top end face 121 is identical regular hexagon with the shape of any cross section of this shock-absorption unit 12, so, this second embodiment the buffering of providing is provided equally and inhales the structural thickness of pressing effect, and can increase structure bendable folding endurance and this interval trough unit 13 of applying docile degree, can reach the identical effect with this first embodiment, well imagine ground, described shock-absorption unit 12 also can be respectively a square column shape, a cylindrical shape, a triangular prism shape or any post shapes.

Consult Fig. 8 and Fig. 9, the structure of the 3rd embodiment of the utility model shock absorption material structure is roughly identical with this second embodiment, main difference part is, each shock-absorption unit 12 of the 3rd embodiment has a plurality of spaced apart, and is respectively the shock-absorbing projection 123 of a triangle-section cylinder shape.

The top end face 121 of each shock-absorption unit 12 is that the end face by described shock-absorbing projection 123 jointly coordinates and defines, and should be end face and this basalises 11 that connect described shock-absorbing projection 123 around face 122.

So, the 3rd embodiment decapacitation reaches with outside the identical effect of this first, second embodiment, described shock-absorption unit 12 is cut into respectively to the more shock-absorbing projection 123 of subsection in the present embodiment, can promote this ratio of interval trough unit 13 in material, further to promote material bendable folding endurance, flexibility and the docile degree of the present embodiment.

Conceivable, the spatial configuration of described shock-absorbing projection 123 is equally as limit, and can optionally described shock-absorption unit 12 be done to different cuttings, to adjust material pliability or to change design pattern.

In sum, by special architectural characteristic, described shock-absorption unit 12 can produce deformation to absorb the impact of releasing the pressure when pressurized, 13 of this interval trough unit provide after material deformation potential energy converting and energy dispersion space fully, and can increase bendable folding endurance and the docile degree of material, whereby, the utility model can be applied to motion clothing or protector, so that the function of shock-absorbing buffering and soft docile material sense of touch to be provided, comfort level in the time of can only not taking into account protection function and dress, and can break through existing shock absorption material application restric-tion at low temperatures, therefore really can reach the purpose of this utility model.

Claims (5)

1. a shock absorption material structure, is characterized in that:

This shock absorption material structure, comprises:

A shock absorption material bed of material, material contains styrene-ethylene-butadiene-styrene down section copolymer, and comprise a basalis, and a plurality of this basalis end face and shock-absorption units spaced apart of being formed at one-body moldedly, each shock-absorption unit have one with this basalis top end face separately, and one connect this basalis and this top end face around face, the coordinating with this basalis and define an interval trough unit around face of described shock-absorption unit; And

A nonwoven fabric layer, is attached at the bottom surface of this basalis.

2. shock absorption material structure according to claim 1, is characterized in that, each shock-absorption unit extends to this top end face by this basalis bundle contracting.

3. shock absorption material structure according to claim 2, is characterized in that, the top end face of each shock-absorption unit is regular hexagon.

4. shock absorption material structure according to claim 1, is characterized in that, each shock-absorption unit is a hexagon prism shape, and any cross section of this top end face and this shock-absorption unit is regular hexagon.

5. shock absorption material structure according to claim 1, is characterized in that, each shock-absorption unit has a plurality of shock-absorbing projections spaced apart, and this top end face is that the end face by described shock-absorbing projection is coordinated and defines.