CN213785688U - Can change anti-skidding spring shock attenuation module shoes device as required - Google Patents

Abstract

The utility model relates to a can change anti-skidding spring shock attenuation module shoes device as required, including the sole part, a plurality of studs, the hole, the stud includes outer shell, spring part, anti-skidding core, be in the same place with the screw assembly between outer shell and the hole, outer shell still is equipped with the inner chamber hole, spring part suit is in the hole bottom of inner chamber hole, still be equipped with the direction spout on the pore wall of inner chamber hole, be equipped with spacing lug on anti-skidding core's the outer wall, anti-skidding core suit is in the inner chamber hole, spacing lug corresponds to inlay in the direction spout and utilize the lock to go into countersunk screw and to form the spacing lug and prescribe a limit to, under spring part's elastic action, make anti-skidding core make up-and-down concertina movement along the direction spout, anti-skidding core's bottom surface still is equipped with anti-skidding tooth and installs and removes instrument handle hole. The shoe device can facilitate people to select the proper anti-skid nails according to the weight of the people so as to obtain good damping effect and sports performance, and the anti-skid nails are very convenient and simple to assemble, disassemble and replace, and have good damping and anti-skid effects.

Description

Can change anti-skidding spring shock attenuation module shoes device as required

Technical Field

The utility model relates to a shoes technical field, especially a can change shoes of antiskid nail.

Background

At present, shoes with shock absorption functions sold to consumers in the market mainly have three realization forms: one is a spring shock-absorbing sports shoe, represented by the american nike company, in which an air bag structure is integrally formed on a sole of the shoe; the other is that the sole material (such as Atida sports shoes which adopt foaming materials to make soles) is changed, so that the soles have certain deformability and buffering performance, and the damping effect is obtained; the third is that the spring is arranged in the heel of the shoe, so that the insole is pressed on the spring, and when the heel of a human body steps on the insole, the reset elasticity of the spring can be utilized to obtain the damping effect. The shoes adopting the technical means solve the problem of shock absorption of the shoes, but do not solve the problem of skid resistance of the shoes in the walking process.

The Chinese patent application No. 201520971544.2, entitled "antislip shoe capable of replacing antislip nails", discloses an antislip shoe scheme capable of replacing antislip nails, which comprises a shoe body, a first antislip block, a second antislip block and a third antislip block, wherein the shoe body is provided with a sole and an upper, the shoe palm of the sole is provided with a third square hole, the upper end of the third square hole is provided with a third sunk hole, the third antislip block is arranged in the third square hole, the left side of the third square hole is provided with a second sunk hole, the second antislip block is arranged in the second square hole, the heel of the sole is provided with the first square hole, the first sunk hole is arranged at the upper end of the first square hole, the first antislip block is arranged in the first square hole, the third antislip block is provided with a third step block, a plurality of antislip nails are uniformly distributed at the upper end of the third step block, the lower end of the third raised edge is provided with the second step block, a plurality of antislip nails are uniformly distributed at the upper end of the second step block, the raised edge is arranged at the lower end of the third step block is provided with the first step block, a plurality of the first step nails uniformly distributed at the upper end of the first step, the scheme adopts the embedded antiskid block arrangement, can effectively grab the ground when walking on the ice and snow ground, greatly reduces the walking slip probability, and is sleeved under the worn sole, so that the wearing and the unloading are convenient. The anti-skidding shoes of this scheme, though solved people's antiskid problem of walking, do not solve the human body and walk the in-process, play to alleviate the impact injury to human low limbs, protected the shock attenuation problem of human ankle.

In addition, in the practical application, because everyone's weight, height and foot size are not the equal proportion, when shoes size and foot size had been fit for, damper in the shoes can be fit for with human body weight mutually, only damper's shock-absorbing capacity has been fit for with human body weight, just can really play fine guard action to human low limbs. Obviously, the technical solutions of the above-mentioned patent publications do not have a structural design that facilitates people to replace the damping module or the damping mechanism as required. Or, can make things convenient for people according to the sport occasion, select the module of different shock-absorbing efficiency to use to help people to obtain enough good shock attenuation performance, and then obtain good protection and good motion performance to ankle, low limbs, obviously the technical scheme that does not possess such structural design before.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve the above-mentioned problem and not enough, a can change anti-skidding spring shock attenuation module shoes device as required is provided, this shoes device can not only make things convenient for people to select suitable antiskid ribbed tile according to self weight, in order to obtain good shock attenuation effect and motion performance, effectively satisfy people in the demand of different application, moreover install and remove of antiskid ribbed tile and change very conveniently, and is simple, shock attenuation and antiskid are effectual, can effectively protect the safety of people ankle and low limbs, ankle and low limbs take place the damage risk because of the motion has greatly been reduced.

The technical scheme of the utility model is realized like this: a shoe device capable of replacing anti-skid spring shock-absorbing modules as required comprises a sole part, a plurality of anti-skid nails and a plurality of holes for installing the anti-skid nails, wherein the anti-skid nails are arranged on the bottom surface of the sole part; the outer cylinder shell is also provided with an inner cavity hole, the diameter of the cross section of the spring part is smaller than that of the cross section of the inner cavity hole, and the spring part is sleeved in the bottom of the inner cavity hole; the wall of the inner cavity hole is also provided with guide sliding chutes which are symmetrically distributed, the outer surface of the outer cylinder shell is also provided with screw holes which transversely penetrate through the guide sliding chutes, and countersunk screws are arranged in the screw holes; the outer wall of the anti-slip core is correspondingly provided with a limiting lug which has the same layout structure as the guide sliding chute and can be embedded with each other, the anti-slip core is sleeved in the inner cavity hole, the limiting lug is correspondingly embedded in the guide sliding chute, the inner end of the countersunk head screw extends into the guide sliding chute and is arranged at the bottom of the limiting lug, and a limited assembly structure is formed for the limiting lug; one end of the spring component is propped against the top surface of the anti-skid core, and the other end of the spring component is propped against the cavity hole bottom of the inner cavity hole, so that the anti-skid core can do up-and-down telescopic motion along the guide sliding groove under the elastic action of the spring component; the bottom surface of the anti-skid core is also provided with anti-skid teeth; the bottom surface of the antiskid core is also provided with an operation hole for assembling and disassembling tools.

The utility model has the advantages that: this shoes device is through adopting the shell, spring unit, anti-skidding core mutually supporting structural design, the anti-skidding module of the spring shock attenuation extending structure who has constituted, can not only make things convenient for people to select suitable antiskid nail according to self weight, in order to obtain good shock attenuation effect and motion performance, effectively satisfy people in the demand of different application occasions, and through the external screw thread, the internal thread, install and remove the instrument handle hole, the direction spout, spacing lug mutually support, it is very convenient with the change to make installing and removing of antiskid nail, and is simple, shock attenuation and antiskid are effectual, can effectively protect the safety of people ankle and low limbs, ankle and low limbs take place the damage risk because of the motion have greatly reduced.

Drawings

Fig. 1 is a schematic sectional view of the present invention.

Fig. 2 is a schematic structural view in a top view direction of the present invention.

Fig. 3 is the schematic view of the structure of the anti-skid stud.

Fig. 4 is a schematic cross-sectional structural view of the cleat of the present invention.

Fig. 5 is a schematic structural view of the stud replacement kit of the present invention.

Fig. 6 is a schematic structural view of a simplified version of the cleat solution of the present invention.

Detailed Description

As shown in figure 1 and figure 2, can change anti-skidding spring shock attenuation module shoes device as required, including sole part 1, a plurality of antiskid nail 2, set up the hole 3 that a plurality of on the 1 bottom surface of sole part supplied antiskid nail 2 to install, still install upper of a shoe 4 on the sole part 1. In order to realize the purpose of the present invention, as shown in fig. 3 and 4, the stud 2 includes an outer cylinder 21, a spring member 22, and an anti-slip core 23, wherein the outer cylinder 21 is provided with an external thread 211 on the outer surface thereof, the hole wall of the hole 3 is correspondingly provided with an internal thread 31 thereon, and the outer cylinder 21 is installed in the hole 3 by screwing the external thread 211 and the internal thread 31 thereof. In addition, as shown in fig. 3, the outer cylinder shell 21 is further provided with an inner cavity hole 212, and the cross-sectional diameter of the spring member 22 is smaller than that of the inner cavity hole 212, so as to reserve a space for stretching deformation of the spring member 22 and obtain the required elasticity, and the spring member 22 is sleeved in the bottom of the inner cavity hole 212, that is, as shown in fig. 4.

As shown in fig. 3 and 4, the wall of the inner cavity 212 is further provided with guide sliding grooves 213 symmetrically arranged, the outer surface of the outer cylinder shell 21 is further provided with screw holes 214 transversely penetrating the guide sliding grooves 213, and the screw holes 214 are provided with countersunk screws 215. The outer wall of the anti-slip core 23 is correspondingly provided with a limiting bump 231 which has the same layout structure as the guide sliding groove 213 and can be embedded with each other, the anti-slip core 23 is sleeved in the inner cavity hole 212, the limiting bump 231 is correspondingly embedded in the guide sliding groove 213, the inner end of the countersunk screw 215 extends into the guide sliding groove 213 and is placed at the bottom of the limiting bump 231, that is, as shown in the right side position of fig. 4, a limited assembly structure is formed for the limiting bump 231, so that the anti-slip core cannot fall off and is limited in the inner cavity hole 212, and can perform up-and-down sliding motion along the guide sliding groove 213. As shown in fig. 4, one end of the spring member 22 abuts on the top surface of the anti-slip core 23, and the other end of the spring member 22 abuts on the bottom of the inner cavity 212, so that the anti-slip core 23 can move up and down along the guide sliding groove 213 under the elastic action of the spring member 22.

The bottom surface of the anti-skid core 23 is further provided with anti-skid teeth 232, and the bottom surface of the anti-skid core 23 is further provided with an operation hole 233 for assembling and disassembling tools. As shown in fig. 3 and 4, the present embodiment adopts a design in which the mounting/dismounting tool operation hole 233 is a hexagonal socket so that the mounting/dismounting of the stud 2 can be performed by using a hexagonal key 5 as shown in fig. 5.

In practice, as shown in fig. 5, each pair of shoes is also generally provided with one or more boxes 6 for receiving studs 2 containing spring elements 22 of different spring rates for replacement by weight. The matched box 6 is internally provided with a plurality of concave cavities 60 for accommodating the anti-skid nails 2 and a groove 601 for placing the hexagonal key 5, the anti-skid nails 2 are placed in the concave cavities 60 according to the number or the type, and the number or the type beside the concave cavities 60 is not shown in the figure. The matching box 6 is composed of a bottom box 61 and a box cover 62 which are hinged with each other, and the front end edges of the box cover 62 and the bottom box 61 are respectively provided with a magnetic latching piece 63 and a metal magnetic latching piece 64 so that the box cover 62 is latched on the bottom box 61.

Furthermore, the utility model discloses a simplified version scheme that does not have the damping performance can also be made to stud 2, as shown in fig. 6 promptly, and then can release the antiskid shoes scheme of the removable stud 2 of simplified version.

The above description of the structural solution is an embodiment of the preferred embodiment of the present invention, but it does not represent a limitation to the protection scope of the technical solution of the present invention. It should be noted that, for those skilled in the art, a plurality of modifications and improvements can be made without departing from the concept of the present invention, and all of the modifications and improvements belong to the protection scope of the present invention, and all fall into the protection scope of the present invention.

Claims (1)

1. The utility model provides a can change anti-skidding spring shock attenuation module shoes device as required, includes sole part (1), a plurality of antiskid nail (2), sets up hole (3) that a plurality of on sole part (1) bottom surface supplied antiskid nail (2) to install, its characterized in that: the anti-skid stud (2) comprises an outer cylinder shell (21), a spring component (22) and an anti-skid core (23), wherein

The outer surface of the outer cylinder shell (21) is provided with an external thread (211), the wall of the hole (3) is correspondingly provided with an internal thread (31), and the outer cylinder shell (21) is arranged in the hole (3) through the mutual screwing of the external thread (211) and the internal thread (31);

the outer cylinder shell (21) is also provided with an inner cavity hole (212), the diameter of the cross section of the spring part (22) is smaller than that of the cross section of the inner cavity hole (212), and the spring part (22) is sleeved in the bottom of the inner cavity hole (212);

the wall of the inner cavity hole (212) is also provided with guide sliding grooves (213) which are symmetrically distributed, the outer surface of the outer cylinder shell (21) is also provided with screw holes (214) which transversely penetrate through the guide sliding grooves (213), and countersunk screws (215) are arranged in the screw holes (214);

the outer wall of the anti-slip core (23) is correspondingly provided with a limiting convex block (231) which has the same layout structure as the guide sliding groove (213) and can be embedded with each other, the anti-slip core (23) is sleeved in the inner cavity hole (212), the limiting convex block (231) is embedded in the guide sliding groove (213) correspondingly, the inner end of the countersunk head screw (215) extends into the guide sliding groove (213) and is arranged at the bottom of the limiting convex block (231), and the limiting convex block (231) is formed into a limited assembly structure;

one end of the spring component (22) is propped against the top surface of the anti-skid core (23), and the other end of the spring component (22) is propped against the cavity bottom of the inner cavity hole (212), so that the anti-skid core (23) can do up-and-down telescopic motion along the guide sliding groove (213) under the elastic action of the spring component (22);

the bottom surface of the anti-skid core (23) is also provided with anti-skid teeth (232); the bottom surface of the antiskid core (23) is also provided with an operation hole (233) for assembling and disassembling tools.

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