CN201585487U

CN201585487U - Shock buffering mechanism for high-stability shoes

Info

Publication number: CN201585487U
Application number: CN2009202549959U
Authority: CN
Inventors: 李光; 张红霞
Original assignee: Individual
Current assignee: Individual
Priority date: 2009-12-15
Filing date: 2009-12-15
Publication date: 2010-09-22
Anticipated expiration: 2019-12-15

Abstract

The utility model relates to a shock buffering mechanism for high-stability shoes, which has the structure that an intermediate interlayer filled with high polymer material is arranged between an upper bearing disc and a lower bearing disc, the intermediate interlayer is internally provided with a plurality of spherical cavities, and each spherical cavity is internally provided with a double-layer hollow shock absorption ball; the top surface and the bottom surface of each double-layer hollow shock absorption ball are respectively provided with a locating boss; the bottom surface of the upper bearing disc and the top surface of the lower bearing disc are respectively provided with locating slot pits which are opposite to each other up and down; and the locating bosses on the double-layer hollow shock absorption balls are respectively plugged inside the locating slot pits. The shock buffering mechanism can be added into gym shoes, thus prolonging the service life of the shock buffering mechanism, improving the stability thereof, reducing the sliding feel of the gym shoes, and eliminating the adverse effect on athletic training and match score.

Description

High stable footwear bradyseism mechanism

Technical field

The utility model relates to the annex on a kind of sport footwear, specifically a kind of high stable footwear bradyseism mechanism.

Background technology

Be elasticity and the damping performance that improves various sport footwears, at the hind paw position of sport footwear be provided with bradyseism mechanism at present more.Existing footwear are to be filled with EVA foaming bead or PV foaming bead in the elastic shell of an egg type with bradyseism mechanism.For improving elasticity and damping property, this foaming bead is all made hollow.But hollow sphere structure will leave making in conjunction with the slit, form a weak link.After this sport footwear was through on the pin, under foot-operated brute force was impacted, the foaming bead in the bradyseism mechanism was just being located to burst apart to come in conjunction with the slit easily, caused the performance of bradyseism mechanism to reduce or structural failure.

In addition, the sportsman puts on this sport footwear in the process of training and match, also often has the slip sensation of underfooting shakiness.This be because in the bradyseism mechanism foaming bead of filling each other and and housing between all do not have annexation, just be deposited in together, thereby in being subjected to powerful process of impacting, will be offset, thereby make the sportsman produce the slip sensation of underfooting shakiness.The slip sensation of this underfooting shakiness influences athletic training and competition achievement through regular meeting.

The utility model content

The purpose of this utility model just provides a kind of high stable footwear bradyseism mechanism, to improve service life, reduces the adverse effect to sports achievement.

The utility model is achieved in that a kind of high stable footwear bradyseism mechanism, between last Support tray and following Support tray, be provided with intermediate course with the macromolecular material filling, in described intermediate course, be provided with some spherical hollow spaces, a double-layer hollow damping ball is housed in each spherical hollow space; End face and bottom surface at described double-layer hollow damping ball are respectively equipped with positioning boss, the bottom surface of Support tray and the described end face of Support tray down have relative up and down locating slot hole on described, and the positioning boss on the described double-layer hollow damping ball is plugged on respectively in the described locating slot hole.

Shock-absorbing main bodies in the utility model is a double-layer hollow damping ball.Locating slot on positioning boss on the double-layer hollow damping ball and upper and lower Support tray hole pegged graft cooperate, just can improve shock-absorbing main bodies---the stability of double-layer hollow damping ball, weaken thus even can eliminate the shift phenomenon that bradyseism mechanism is produced in being subjected to powerful process of impacting, avoid the slip sensation that makes the sportsman produce the underfooting shakiness.

Described double-layer hollow damping ball is to prop up to be lined with hollow core ball in the seamless spheroid of skin; The density of material of described hollow core ball is less than the density of material of the seamless spheroid of described skin.Owing to adopted the double-layer hollow spherical structure, just can hollow core ball as the supporter of making outer ball, so just can produce seamless outer ball, thereby eliminate the weak link on the damping ball, improve the impact strength of damping ball, improved the service life of this bradyseism mechanism.

Leave the space between the outer wall of described double-layer hollow damping ball and the cavity inner wall of described intermediate course.So just for double-layer hollow damping ball provides a deformation space, the distortion allowance of double-layer hollow damping ball is increased, elasticity and damping performance strengthen.

On the cavity inner wall of described intermediate course, has the rubber template.The rubber template of this curved arc shape is set, both can make the spatial form standard of reserving between double-layer hollow damping ball and intermediate course neat, also can be owing to the existence of support shuttering affix a kind of effect of mechanical shock absorption, cooperate the two material cushioning effect of double-layer hollow damping ball and intermediate course again, damping effect of the present utility model is obviously improved.

The utility model is installed in the sport footwear, can improves the service life and the stability of this bradyseism mechanism, reduce the slip sense of sport footwear, eliminate adverse effect training athlete and games results.

Description of drawings

Fig. 1 is a structural representation of the present utility model.

The specific embodiment

As shown in Figure 1, last Support tray 1 and following Support tray 5 are the disk shape, are made by thermoplastic elastomer (s).Be shaped on several locating slot holes respectively in the bottom surface of last Support tray 1 and the end face of following Support tray 5, the position in upper and lower locating slot hole is relative.

Making hollow core ball 3 with the macromolecular material with ballistic properties, is lining with hollow core ball 3 again, encases hollow core ball 3 with thermoplastic elastic material, forms outer seamless spheroid 4, makes double-layer hollow damping ball thus.The density of material of the hollow core ball 3 in the double-layer hollow damping ball should be less than the density of material of the seamless spheroid 4 of skin, to improve elasticity.Be shaped on the positioning boss 7 with outer seamless spheroid 4 one respectively in the end face of double-layer hollow damping ball and bottom surface, this positioning boss 7 is plugged on respectively in the locating slot hole on Support tray 1 and the following Support tray 5, and syndeton is stablized in formation.

In the outer setting rubber template 2 of each double-layer hollow damping ball, leave certain clearance between the outer wall of rubber template 2 and double-layer hollow damping ball.With the macromolecular material hot melt filling with ballistic properties, form the intermediate course 6 between the upper and lower Support tray thus between last Support tray 1 and following Support tray 5, rubber template 2 is also just simultaneously attached on the intermediate course 6.

Claims

1. high stable footwear bradyseism mechanism, it is characterized in that between last Support tray (1) and following Support tray (5), being provided with intermediate course (6) with the macromolecular material filling, in described intermediate course (6), be provided with some spherical hollow spaces, a double-layer hollow damping ball is housed in each spherical hollow space; End face and bottom surface at described double-layer hollow damping ball are respectively equipped with positioning boss (7), the bottom surface of Support tray (1) and the described end face of Support tray (5) down have relative up and down locating slot hole on described, and the positioning boss (7) on the described double-layer hollow damping ball is plugged on respectively in the described locating slot hole.

2. high stable footwear according to claim 1 bradyseism mechanism is characterized in that described double-layer hollow damping ball is to be lined with hollow core ball (3) in the seamless spheroid of skin (4); The density of material of described hollow core ball (3) is less than the density of material of the seamless spheroid of described skin (4).

3. high stable footwear according to claim 1 and 2 bradyseism mechanism is characterized in that leaving the space between the cavity inner wall of the outer wall of described double-layer hollow damping ball and described intermediate course (6).

4. high stable footwear according to claim 3 bradyseism mechanism is characterized in that on the cavity inner wall of described intermediate course (6) with rubber template (2).