CN207084275U - A kind of sole with high-elastic damping structure - Google Patents

Abstract

The utility model discloses a kind of sole with high-elastic damping structure, including upper bottom and bottom, the upper surface at the upper bottom has the first groove, first groove extends to arch portion by heel portion, high resiliency cushion is provided with first groove, the upper surface of the high resiliency cushion is concordant with the upper surface at upper bottom；The upper bottom upper surface also has the second groove, and the high resiliency cushion upper surface has the 3rd groove, and second groove and the 3rd groove are communicated and be collectively forming the 4th groove, and rigid support block is provided with the 4th groove；The lower bottom side has some support blocks upwardly extended, and the support block is fixed on the sidepiece at the upper bottom.Compared with prior art, elasticity of the present utility model is high, and damping performance is good, stabilized structure, makes people very comfortable and laborsaving when walking.

Description

A kind of sole with high-elastic damping structure

Technical field

The utility model belongs to sole field, and in particular to a kind of sole with high-elastic damping structure.

Background technology

Footwear are the daily living articles that we are required for using daily, and a pair of shoes is got well with bad, and most intuitively judgement is exactly Whether comfortable it is, and the comfortableness of footwear is heavily dependent on the design of its sole.

In the design of sole, elasticity is a highly important performance requirement, and moderate elasticity, which is set, to allow people to exist It is more laborsaving and comfortable during walking, when by impact more energetically, damping can be realized, protects the foot of people, institute well Corresponding elasticity design is all realized by corresponding structure design and material selection so that sole now on the market is general.But It is that it also has further abundant space.

In view of this, the present inventor furthers investigate, and obtains a kind of sole with high-elastic damping structure of this case then.

Utility model content

Main purpose of the present utility model is to provide a kind of sole with high-elastic damping structure, and its is flexible and subtracts The advantages of shock stability is good, comfortable and easy to wear.

In order to reach above-mentioned purpose, solution of the present utility model is：

A kind of sole with high-elastic damping structure, including upper bottom and bottom, the upper surface at the upper bottom are recessed with first Groove, first groove extend to arch portion by heel portion, are provided with high resiliency cushion in first groove, the high resiliency is soft The upper surface of pad is concordant with the upper surface at upper bottom；

The upper bottom upper surface also has the second groove, and the high resiliency cushion upper surface has the 3rd groove, and described Two grooves and the 3rd groove are communicated and are collectively forming the 4th groove, and rigid support block is provided with the 4th groove；

The lower bottom side has some support blocks upwardly extended, and the support block is fixed on the sidepiece at the upper bottom On.

It is further to improve：The high resiliency cushion uses silica gel material, and the upper bottom uses EVA expanded materials, described Bottom uses abrasive rubber material.

It is further to improve：The sidepiece of the high resiliency cushion has the screens block of some protrusions, the sidepiece at the upper bottom Position corresponding with the screens block has some first through hole, and the screens block is connected in the first through hole, the card Position block is full of the first through hole.

It is further to improve：The width at the 4th groove both ends is compared to its middle part wider width, the rigid support Block is full of the 4th groove, and the upper surface of the rigid support block is concordant with the upper surface at upper bottom.

It is further to improve：The upper surface of the sole is concave surface.

It is further to improve：The bottom of first groove has the second through hole through the upper bottom, the high resiliency The lower surface of cushion has a projection, and the projection is full of second through hole, had on the bottom logical around described second Hole and the third through-hole for running through the bottom.

It is further to improve：The raised height is less than the thickness that the second through hole adds third through-hole.

The utility model allows sole to have elasticity well and subtract by setting the high resiliency cushion made of silica gel Shock stability is very big by setting the isostructural design of first through hole, the second through hole, third through-hole to allow the gas permeability of sole to have obtained Lifting, while the firm structure also having.

Compared with prior art, elasticity of the present utility model is high, and damping performance is good, stabilized structure, allows people when walking ten Divide comfortable and laborsaving.

Brief description of the drawings

Fig. 1 is that the utility model is related to a kind of top view of the sole with high-elastic damping structure.

Fig. 2 be the utility model is related to a kind of sole with high-elastic damping structure without high resiliency cushion and hard The top view of support block.

Fig. 3 is that the utility model is related to a kind of upward view of the high resiliency cushion of the sole with high-elastic damping structure.

Fig. 4 is that the utility model is related to a kind of side view of the high resiliency cushion of the sole with high-elastic damping structure.

Fig. 5 is that the utility model is related to a kind of side view of the sole with high-elastic damping structure.

Fig. 6 is that the utility model is related to a kind of side view of the bottom of the sole with high-elastic damping structure.

Fig. 7 is that the utility model is related to a kind of upward view of the sole with high-elastic damping structure.

In figure：

Upper bottom 1；First groove 11；Second groove 12；

First through hole 13；Second through hole 14；Bottom 2；

Support block 21；Third through-hole 22；Heel portion 3；

Arch portion 4；High resiliency cushion 5；3rd groove 51；

Screens block 52；Projection 53；4th groove 6；

Rigid support block 7.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out Clearly and completely describing, it is clear that described embodiment is only the utility model part of the embodiment, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the premise of creative work Lower obtained every other embodiment, belong to the scope of protection of the present utility model.

As shown in figure 1, the upper surface at the upper bottom 1 has the first groove 11, first groove 11 is extended by heel portion 3 To arch portion 4, be provided with high resiliency cushion 5 in first groove 11, the upper surface of the high resiliency cushion 5 and upper bottom 1 it is upper Flush；The high resiliency cushion 5 uses silica gel material, and the upper bottom 1 uses EVA expanded materials, and the bottom 2 is using resistance to Rubber milling material, the upper surface of the sole is concave surface.The high resiliency cushion 5, upper bottom 1 and bottom 2 can all realize one into Type, processing are simple.Wherein, the upper bottom 1 is the most important support component of sole, and relying solely on it and being difficult to sole both had Enough support forces, while also there is enough elasticity, so being provided with the high resiliency cushion 5, allow sole to be provided with enough Elasticity.

After the high resiliency cushion 5, the support force of shoes does not reach rational requirement, and footwear can be felt when wearing Son is soft, and comfortableness is inadequate, so as shown in Figure 1 and Figure 2, the upper upper surface of bottom 1 also has the second groove 12, the height The upper surface of elastic cushion 5 has the 3rd groove 51, and the groove 51 of the second groove 12 and the 3rd communicates and to be collectively forming the 4th recessed Groove 6, rigid support block 7 is provided with the 4th groove 6.The rigid support block 7 has given sole one strong support, solution Determine above mentioned problem.

As shown in Figure 5, Figure 6,2 sidepieces of the bottom have some support blocks 21 upwardly extended, and the support block 21 is consolidated Due on the sidepiece at the upper bottom 1.The support block 21 is a part for bottom 2, the wear-resisting rubber material used due to bottom 2 Material, so by setting the support block 21, on the one hand strengthens the enabling capabilities of the sole, on the other hand also improves it The wearability of sidepiece.

As shown in Figures 4 to 6, the sidepiece of the high resiliency cushion 5 has the screens block 52 of some protrusions, the upper bottom 1 Sidepiece and the 52 corresponding position of screens block there are some first through hole 13, it is logical that the screens block 52 is connected in described first In hole 13, the screens block 52 is full of the first through hole 13.

As shown in Fig. 2, Fig. 3, Fig. 7, the bottom of first groove 11 has the second through hole 14 through the upper bottom 1, The lower surface of the high resiliency cushion 5 has a projection 53, and described raised 53 are full of second through hole 14, on the bottom 2 With around second through hole 14 and through the third through-hole 22 of the bottom 2, raised 53 height is less than second The thickness of through hole 14 plus third through-hole 22.By the setting of above-mentioned projection and screens block 52, the high resiliency cushion 5 is on the one hand allowed And the combination at upper bottom 1 is even closer；Importantly, by with the first through hole 13, the second through hole 14 and third through-hole 22 Cooperation, the high resiliency cushion 5 by connecting the upper and lower surface of sole, this allow sole gas permeability obtained it is very big Raising, the gas in footwear can be discharged by the first through hole 13, the second through hole 14 and third through-hole 22.

As shown in figure 1, the width at the both ends of the 4th groove 6 is compared to its middle part wider width, the rigid support block 7 Full of the 4th groove 6, the upper surface of the rigid support block 7 is concordant with the upper surface at upper bottom 1.Such setting allows hard Support block 7 is not easy to slide, and lifts the structural stability of whole sole.

Compared with prior art, elasticity of the present utility model is high, and damping performance is good, stabilized structure, allows people when walking ten Divide comfortable and laborsaving.

Above-described embodiment and schema and non-limiting product form of the present utility model and style, any art The appropriate change or modification that those of ordinary skill is done to it, all should be regarded as not departing from patent category of the present utility model.

Claims (7)

1. a kind of sole with high-elastic damping structure, including upper bottom and bottom, it is characterised in that：The upper table mask at the upper bottom There is the first groove, first groove extends to arch portion by heel portion, and high resiliency cushion is provided with first groove, described The upper surface of high resiliency cushion is concordant with the upper surface at upper bottom；

The upper bottom upper surface also has the second groove, and the high resiliency cushion upper surface has the 3rd groove, and described second is recessed Groove and the 3rd groove are communicated and are collectively forming the 4th groove, and rigid support block is provided with the 4th groove；

The lower bottom side has some support blocks upwardly extended, and the support block is fixed on the sidepiece at the upper bottom.

A kind of 2. sole with high-elastic damping structure according to claim 1, it is characterised in that：The high resiliency cushion is adopted With silica gel material, the upper bottom uses EVA expanded materials, and the bottom uses abrasive rubber material.

A kind of 3. sole with high-elastic damping structure according to claim 1, it is characterised in that：The high resiliency cushion Sidepiece has the screens block of some protrusions, and the sidepiece at upper bottom position corresponding with the screens block has some first to lead to Hole, the screens block are connected in the first through hole, and the screens block is full of the first through hole.

A kind of 4. sole with high-elastic damping structure according to claim 1, it is characterised in that：The 4th groove both ends Width be full of the 4th groove compared to its middle part wider width, the rigid support block, the rigid support block it is upper Surface is concordant with the upper surface at upper bottom.

A kind of 5. sole with high-elastic damping structure according to claim 1, it is characterised in that：The upper surface of the sole For concave surface.

A kind of 6. sole with high-elastic damping structure according to claim 1, it is characterised in that：The bottom of first groove Portion has the second through hole through the upper bottom, and the lower surface of the high resiliency cushion has a projection, and the projection is full of institute The second through hole is stated, is had on the bottom around second through hole and through the third through-hole of the bottom.

A kind of 7. sole with high-elastic damping structure according to claim 6, it is characterised in that：The raised height is small Add the thickness of third through-hole in the second through hole.