CN202496513U - Annular arch type damping module and damping shoes comprising same - Google Patents

Abstract

The utility model discloses an annular arch type damping module. The annular arch type damping module comprises a first supporting seat, a second supporting seat, at least one first arch type member, at least one second arch type member, and at least one tensile string, wherein the second supporting seat is correspondingly arranged above the first supporting seat, the first arch type member is connected in parallel between the first supporting seat and the second supporting seat, a concave surface of the first arch type member faces towards the first supporting seat, the second arch type member is vertically connected between the first supporting seat and the second supporting seat, and the tensile string is detachably connected at two ends of the first arch type member. The utility model further discloses a pair of damping shoes comprising the annular arch type damping modules. According to the utility model, the annular arch type damping module can be arranged on a sole of each damping shoe in the form of an independent unit, can provide local and/or overall buffering and damping effects for different populations, and is simple and easy in connection.

Description

Ring bow formula damping module and damping footwear with this damping module

Technical field

The utility model relates to a kind of damping module, particularly relates to a kind of damping footwear that encircle bow formula damping module and have this ring bow formula damping module.

Background technology

Along with the growing and people of sports attention gradually to body building; Released the sport footwear that possesses shock-absorbing function in the prior art; Make it can satisfy the individual, to strengthen the comfort of the foot of people in motion process to the demand of damping or the special machine requirement of SA or strenuous exercise.

According to the inventor in first to file: the patent No. is that the innovation and creation of ZL 200720073774.2 disclose a kind of damping footwear, is provided with a plurality of damping devices in the sole of these damping footwear.Each said damping device includes at least one arcual component, is being provided with at least one tensile member between any 2 of the concave side of said arcual component or between the two ends of said arcual component.Wherein the top of each said damping device is the convex side of wherein said arcual component, and the bottom of each damping device is the concave side of wherein said arcual component.Particularly, referring to Fig. 1 a and 1b, those damping devices can be separately positioned on the half sole and/or the heel place of sole according to actual needs, and a plurality of damping devices can all vertically be arranged in sole towards sole; Perhaps the part top is towards sole, and the part top is towards ground.Adjacent damping device directly overlaps, and perhaps links together through a plurality of rebounds and is positioned over shoe lining.

In order to increase the whole damping performance of damping footwear, those damping devices also can be superimposed as multilayer and place in the damping footwear.Meanwhile, a plurality of damping devices also can superpose and/or oppositely stack in the same way, can be arranged to two-layer or two-layer above a plurality of layer structures according to actual needs, and wherein said layer structure can be formed in one or superpose moulding separately after the processing again.

Yet; So just make that the annexation between a plurality of damping devices is comparatively complicated; And in order to guarantee stressed relation, damping performance and the flexible stability after a plurality of damping devices superpose; Need guarantee link position precisely reliable between a plurality of damping devices, also need the extra parts such as rebound that are provided for connecting those damping devices.In sum, the formed layer structure of damping device in the existing damping footwear is comparatively complicated, and annexation is very loaded down with trivial details, and manufacturing cost is higher.

The utility model content

The technical problem that the utility model will solve is to provide a kind of ring bow formula damping module, and this ring bow formula damping module can be arranged on the sole of damping footwear with unit form independently, and annexation is simple and be easy to realization.

For realizing above-mentioned purpose, the utility model provides a kind of ring bow formula damping module, it includes: one first supporting base; One second supporting base is arranged at the top of said first supporting base accordingly; At least one first camber member is connected between said first and second supporting bases abreast, and the concave surface of said first camber member is towards said first supporting base; At least one second camber member vertically is connected between said first and second supporting bases; And at least one stretching string, removably be connected in the two ends of said first camber member.

Further, two of said first camber member ends link to each other with the upper surface of said first supporting base respectively; The mid portion of said first camber member links to each other with the lower surface of said second supporting base.

Further, each said first camber member, said first supporting base and said second supporting base are that the center is coaxial.

Further, first end of said second camber member and second end are connected respectively to the upper surface of said first supporting base and the lower surface of second supporting base, and said first end and second end are in same perpendicular; The mid portion of said second camber member is towards the direction biasing near the vertical axis of said first supporting base.

Further, the wherein upper surface of an end of first end of said second camber member and said first camber member connects.

Further, the number of said first camber member is two, and the bending direction of both mutual arranged crosswise and its radian is identical.The two ends of said first camber member offer first breach respectively, and the two ends of said stretching string are respectively arranged with and the corresponding projection of said first breach, wherein said projection and the mutual snap fit of said first breach.

Further, the number of said first camber member is two, and the bending direction of both mutual arranged crosswise and its radian is identical.

Further, offer second breach on said second camber member.

Further, said first supporting base and/or second supporting base are distinguished structure in the form of a ring.

Further, also be evenly equipped with at least one reinforcement on said second supporting base.

Further, said reinforcement and the said first camber member in the vertical direction misalignment.

Further, said first and/or second supporting base, said first and/or second camber member are processed by the EVA material.

The another technical problem that the utility model will solve is to provide a kind of damping footwear with ring bow formula damping module, through this ring bow formula damping module various combination forms, can be easy to realize the local and/or whole damping effect of damping footwear.

For realizing above-mentioned purpose, the utility model has also proposed a kind of damping footwear, and the sole of said damping footwear also is provided with at least one ring bow formula damping module with said structure and characteristics or its combination.

Further, said ring bow formula damping module is arranged on a wherein side place of the sole and/or the heel of said sole with a predetermined space.

Further, the number that is laid in the said ring bow formula damping module at said sole and heel place is respectively four and three, and the laying track of said ring bow formula damping module is S-shaped.

According to the utility model; Because ring bow formula damping module adopts independently unit form; Need not to interconnect between a plurality of ring bow formula damping modules; Can one or more rings be bent the sole that formula damping modules are arranged on the damping footwear independently according to the actual motion demand, simple in structure and easy realization can provide local and/or whole buffering and damping effect for different crowd.

Description of drawings

Fig. 1 a is the distribution schematic diagram of the interior damping device of the damping footwear of an embodiment in the prior art;

Fig. 1 b is the distribution schematic diagram of the interior damping device of the damping footwear of another embodiment in the prior art;

Fig. 2 is according to the stereogram of the ring bow formula damping module of the utility model one embodiment, for helping to understand its polycrystalline substance, the bottom surface of damping module is placed up;

Fig. 3 is the upward view of the bow of ring shown in Fig. 2 formula damping module;

Fig. 4 is the vertical view of the bow of ring shown in Fig. 2 formula damping module; And

Fig. 5 is the side view of the bow of ring shown in Fig. 2 formula damping module.

The specific embodiment

Below, through exemplary embodiment the utility model is specifically described.Yet should be appreciated that under the situation that is not having further narration element, structure and characteristic among embodiment also can be attached in other embodiment valuably.

Referring to Fig. 2 and shown in Figure 3; According to the ring of the utility model one embodiment bow formula damping module 10, this ring bow formula damping module 10 includes first supporting base 21, second supporting base 22, at least one first camber member 31, at least one second camber member 32 and at least one stretching string 41.

Particularly, said first supporting base 21 is used to be bearing in the bottom of damping footwear, and this second supporting base 22 is arranged on the top of said first supporting base 21 accordingly, and first supporting base, second supporting base are ring-type; Said first camber member 31 is recessed arc, and its two ends are connected on ring-type first supporting base 21 symmetrically, and wherein the concave surface of this first camber member 31 is towards said first supporting base 21; Though first camber member 21 is shown as two in the drawings, in fact can be set to a plurality of.

Said second camber member 32 vertically is connected between said first supporting base 21 and second supporting base 21.

Said stretching string 41 removably is connected in the two ends of said first camber member 31; When this first camber member 31 receives the pressure on the vertical direction and transverse deformation takes place; This stretching string 41 can apply certain elastic potential energy; So that this first camber member 31 quick-recovery reset condition soon, to guarantee its stable shock absorption buffering effect.

According to a specific embodiment of the utility model, two ends of said first camber member 31 link to each other with the upper surface of said first supporting base 21 respectively, and the mid portion of said first camber member 31 links to each other with the lower surface of said second supporting base 22.It is worthy of note that in order to guarantee the whole stressed stability of damping device, said first camber member 31, first supporting base 21 and second supporting base 22 are that the center is coaxial.

Further; First end 321 of said second camber member 32 is connected to the upper surface of said first supporting base 21; Second end 322 of said second camber member 32 is connected to the lower surface of said second supporting base 22, and said first end 321 and second end 322 are in same perpendicular.Compactedness on the overall structure that satisfies ring bow formula damping module is preferably, and the mid portion of said second camber member 32 is towards the direction biasing near the vertical axis of said first supporting base 21, thereby reaches the effect of simplifying volume, concentrated stress.In addition, in order to strengthen supporting role, the wherein upper surface of an end of first end of said second camber member 32 and said first camber member 31 connects.

According to the utility model one preferred embodiment; The two ends of said first camber member 31 offer first breach 311 respectively; The two ends of said stretching string 41 are respectively arranged with and said first breach, 311 corresponding first projections 411, wherein said first projection 411 and said first breach, 311 mutual snap fit.It is worthy of note that the shape and the profile of said first breach 311 and first projection 411 are not unique, all can as long as satisfy good snap fit relation between the two.

Further, referring to shown in Figure 4, according to the utility model one optional embodiment, the number of said first camber member 31 is two, and the bending direction of both mutual arranged crosswise and its radian is identical.The number that should be pointed out that said first camber member 31 is not unique, for example first camber member more than three or three can be set according to the actual strength demand of damping effect; One first camber member also or only is set.Should be pointed out that when the number of first camber member is two or more, mutual arranged crosswise between each said first camber member, and bending direction is identical.

Consider lightweight on the structure, as shown in Figure 5, can the middle part of second camber member 32 be arranged to the form of hollow out.Particularly, on said second camber member 32, also offer second breach 323, be preferably, the outline of the shape of said second breach 323 and said second camber member 32 adapts.

It is worthy of note,, also can said first supporting base 21 and/or second supporting base 22 be set to circulus in order further to alleviate the weight of this ring bow formula damping module.In order to guarantee that this ring bow formula damping module has enough intensity,, also be laid with at least one reinforcement 23 on said second supporting base 22 so that it avoids causing owing to pressure is excessive the fracture of supporting base.

According to the utility model one specific embodiment, also evenly lay two reinforcements 23 on said second supporting base 22, wherein these two reinforcements 23 are interlaced in the shaft core position place of said second supporting base.Be preferably, said reinforcement 23 and the 31 in the vertical direction misalignment of said first camber member realizing that pressure can be distributed on the whole damping module, thereby have been avoided stress to concentrate on certain and have been caused defectives such as its stability is not good.

Consider of the specific (special) requirements of this ring bow formula damping module, be alternatively that said first and/or second supporting base, said first and/or second camber member are processed by the EVA material to resilience and tension stress, toughness and shock-absorbing capacity.

The utility model also provides the damping footwear with at least one aforesaid ring bow formula damping module.Because said ring bow formula damping module is unit form independently, need not to interconnect between a plurality of rings bow formula damping modules, can one or more said rings be bent the sole that formula damping modules be arranged on the damping footwear independently according to the actual motion demand.Further, can said ring bow formula damping module be arranged on a wherein side place of the sole and/or the heel of said sole with a predetermined space, thereby present multi-form damping combination.

According to the utility model one specific embodiment, can lay four said ring bow formula damping modules respectively at said sole place; Lay three said ring bow formula damping modules at said heel place, be preferably, the laying track of those ring bow formula damping modules is S-shaped.Should be pointed out that laying form and the number of said ring bow formula damping module on the damping footwear is not unique, all is feasible as long as can satisfy the design of damping intensity and local buffering needs.

In sum, according to the ring of the utility model bow formula damping module, can make up according to the damping that different dampings and buffering demand are provided with various ways; Because ring bow formula damping module is unit independently; Need not mutual connection between a plurality of ring bow formula damping modules,, can local and/or whole buffering and damping effect be provided for different crowd through this ring bow formula damping module various combination forms; More simple on its structure, operability is stronger.

Though should be pointed out that through above-mentioned embodiment the utility model is described, yet the utility model also can have other numerous embodiments.Under the prerequisite that does not break away from the utility model spirit and scope; Those of ordinary skill in the art obviously can make various corresponding changes and distortion to the utility model, but these changes and distortion all should belong in the scope that the utility model accompanying claims and equivalent thereof protect.

Claims (10)

1. ring bow formula damping module is characterized in that it includes:

Ring-type first supporting base;

Ring-type second supporting base is arranged at the top of said first supporting base accordingly;

At least one first camber member, the two ends of camber member are connected between said first supporting base and second supporting base, and the concave surface of said first camber member is towards said first supporting base;

At least one second camber member vertically is connected between said first and second supporting bases; And

At least one stretching string removably is connected in the two ends of said first camber member.

2. ring bow formula damping module according to claim 1 is characterized in that two ends of said first camber member link to each other with the upper surface of said first supporting base respectively; The mid portion of said first camber member links to each other with the lower surface of said second supporting base.

3. ring bow formula damping module according to claim 2 is characterized in that each said first camber member, said first supporting base and said second supporting base are that the center is coaxial.

4. ring bow formula damping module according to claim 3; It is characterized in that; First end of said second camber member and second end are connected respectively to the upper surface of said first supporting base and the lower surface of second supporting base, and said first end and second end are in same perpendicular; The mid portion of said second camber member is towards the direction biasing near the vertical axis of said first supporting base.

5. ring bow formula damping module according to claim 4 is characterized in that the wherein upper surface of an end of first end of said second camber member and said first camber member connects.

6. ring bow formula damping module according to claim 5 is characterized in that the two ends of said first camber member offer first breach respectively; The two ends of said stretching string are respectively arranged with and the corresponding projection of said first breach, wherein said projection and the mutual snap fit of said first breach.

7. ring bow formula damping module according to claim 6 is characterized in that, two said first camber members are set, two the first mutual arranged crosswise of camber member, and the bending direction of its radian is identical.

8. ring bow formula damping module according to claim 7 is characterized in that, offers second breach on said second camber member, also is evenly equipped with at least one reinforcement on said second supporting base.

9. ring bow formula damping module according to claim 8 is characterized in that said reinforcement and the said first camber member in the vertical direction misalignment.

10. damping footwear; It is characterized in that; The sole of said damping footwear also is provided with at least one like each described ring bow formula damping module in the claim 1～9, and said ring bow formula damping module is arranged on a wherein side place of the sole and/or the heel of said sole with a predetermined space.

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