Summary of the invention
Therefore, for above-mentioned problem, it is simple that the present invention proposes a kind of structure, can make gas overall diffusion under sole, improves the contact area of sole and air, improves the shock-absorbing poromeric sole of gas permeability.
For realizing above-mentioned technical problem, the solution that the present invention takes is: a kind of shock-absorbing poromeric sole, comprise the large end and be connected with the large end coordinate along bar, it is characterized in that: the front sole area at the described large end is evenly distributed with multiple horizontal raised line along length direction of the large end, laterally ventilative groove is formed between adjacent horizontal raised line, described large Di Houzhang district is provided with the trellis groove interlocked by horizontal fence and longitudinal fence, the described large end and the lateral margin be connected along bar are provided with the air channel outside multiple straight-through large end, and the air channel being positioned at front sole area is also connected with groove of laterally breathing freely, the air channel being positioned at Hou Zhang district is connected with trellis groove, also be provided with the longitudinal direction being communicated with each laterally ventilative groove and trellis groove the described large end to breathe freely groove.
Further: the height of described horizontal raised line is 3-5mm, and width is 7-3mm, and between adjacent horizontal raised line, spacing is 2-3.5mm.
Further: the breathe freely width of groove of described longitudinal direction is 1.5-3mm, and the degree of depth is 1.5-3mm.
By adopting preceding solution, the invention has the beneficial effects as follows: the shock-absorbing poromeric sole of design as mentioned above, when pin was trampled on the large end, the active force of pin becomes the extruding force to the gas in footwear, gas in footwear just can spread to the both sides at the large end by the guide effect of laterally breathe freely groove and trellis groove, finally can squeeze by the air channel on the edge of large bottom side, and pin is when lifting, due to the discharge of gas before, in order to keep pressure equilibrium in footwear, according to pressure principle, gas outside footwear will be pressed in footwear by air channel, reach the effect of gas exchanges flowing in footwear, simultaneously, to breathe freely groove owing to being also provided with the longitudinal direction being communicated with each laterally ventilative groove and trellis groove the large end, gas then in footwear is when being discharged or be pressed in footwear, gas in footwear can by the connection guide functions of groove of longitudinally breathing freely, circulate in each laterally ventilative groove and trellis groove, gas overall diffusion under sole can be made, improve the contact area of sole and air, further improve air permeable effect, further, the height of described horizontal raised line is 3-5mm, width is 7-3mm, between adjacent horizontal raised line, spacing is 2-3.5mm, the steadiness that horizontal raised line under this size has and elastic deformation ability, can be showed greatly between both performances, stronger steadiness can be had while there is larger elastic deformation power and provide the exchange rate of air in larger damping effect and lifting footwear to sole and can improve the unobstructed and efficiency that between the large end and sole, large air between the end and sole flows, then indirectly further improve the shock-absorbing poromeric effect of described shock-absorbing poromeric sole, improve practicality, comfortableness.
Detailed description of the invention
Now the present invention is further described with specific embodiment by reference to the accompanying drawings.
With reference to figure 1, what the embodiment of the present invention disclosed is, a kind of shock-absorbing poromeric sole, comprise the large end 1 and be connected with the large end 1 coordinate along bar 2, the front sole area at the described large end 1 is evenly distributed with multiple horizontal raised line 11 along length direction of the large end, the height of described horizontal raised line 11 is 3mm, width is 5mm, between adjacent horizontal raised line 11, spacing is 3mm, and between adjacent horizontal raised line 11, form laterally ventilative groove 12, the Hou Zhang district at the described large end 1 is provided with the trellis groove 13 interlocked by horizontal fence and longitudinal fence, the described large end 1 and the lateral margin be connected along bar 2 are provided with the air channel 14 outside multiple straight-through large end, and the air channel 14 being positioned at front sole area is also connected with groove 12 of laterally breathing freely, the air channel 14 being positioned at Hou Zhang district is connected with trellis groove 13, also be provided with the longitudinal direction being communicated with each laterally ventilative groove 12 and trellis groove 13 the described large end 1 to breathe freely groove 15, the breathe freely width of groove 15 of described longitudinal direction is 3mm, the degree of depth is 3mm.
Described shock-absorbing poromeric sole, when pin was trampled on the large end, the active force of pin becomes the extruding force to the gas in footwear, gas in footwear just can spread to the both sides at the large end 1 by the guide effect of laterally breathe freely groove 12 and trellis groove 13, finally can squeeze by the air channel 14 on lateral margin of the large end 1, and pin is when lifting, due to the discharge of gas before, in order to keep pressure equilibrium in footwear, according to pressure principle, gas outside footwear will be pressed in footwear by air channel 14, reach the effect of gas exchanges flowing in footwear, simultaneously, to breathe freely groove 15 owing to being also provided with the longitudinal direction being communicated with each laterally ventilative groove 12 and trellis groove 13 the large end 1, gas then in footwear is when being discharged or be pressed in footwear, gas in footwear can by the connection guide functions of groove 15 of longitudinally breathing freely, circulate in each laterally ventilative groove 12 and trellis groove 13, gas overall diffusion under sole can be made, improve the contact area of sole and air, namely by the structural design of groove 15 of longitudinally breathing freely, in footwear, gas under sole, first comprehensively carries out flow circuit discharge outside footwear by air channel 14 again, the bad air in footwear can be improved, the efficiency that moisture etc. are discharged, live gas is entered after in footwear by air channel 14 simultaneously, fresh gas is also carry out comprehensive diffuses flow at sole, improve the circulation area of fresh air at sole, improve the ventilative comfortableness in footwear, ensure that the good air ambient under whole sole, under circulation repeatedly so, obviously further improve air permeable effect, just simple dependence groove and air channel structure is simply direct is discharged by gas can be solved in prior art, gas in footwear, moisture is discharged insufficient, the problem that the ventilative comfortableness that fresh air does not have overall diffusion to cause is low, further, the elastic deformation power of horizontal raised line 11 can not only be supplied to the great damping effect of sole greatly when sole is trampled, horizontal raised line 11 elastic deformation power is large, spatial variations between the large end 1 and sole is also larger, namely it is more complete that the bad air in footwear etc. are discharged, simultaneously when exerting a force without sole, the elastic deformation restoring force of horizontal raised line 11 is also corresponding very large, then the bulged-in amount of ozone is also larger, namely the exchange rate of air is improved, improve gas permeability, and horizontal raised line 11 also must have good steadiness, suitable support steadiness could be provided to sole, ensure the unobstructed and efficiency that the air between the large end and sole flows, in these two kinds of performances, just large steadiness is just low for size its elastic deformation power little of horizontal raised line 11, size its elastic deformation power large of horizontal raised line 11 is just little and steadiness is just high, therefore, in experiment repeatedly and calculating research process, inventor show that the height when described horizontal raised line 11 is 3-5mm, width is 7-3mm, between adjacent horizontal raised line 11, spacing is 2-3.5mm, the steadiness that horizontal raised line 11 under this size has and elastic deformation ability, can be showed greatly between both performances, then indirectly further improve the shock-absorbing poromeric effect of described shock-absorbing poromeric sole, improve practicality, comfortableness.
The shock-absorbing poromeric sole designed in sum, structure is simple, can make gas overall diffusion under sole, and improve the contact area of sole and air, gas permeability is high, and has good damping effect.
Above, be only the embodiment utilizing this origination techniques content, the modification that any those skilled in the art use this creation to do, change, all belong to the scope of the claims that this creation is advocated, and be not limited to those disclosed embodiments.