Breathable shock-absorbing foot protection shoe for children

Abstract

The invention discloses a pair of breathable shock-absorbing foot protection shoes for children. Each shoe comprises a vamp, a sole, an air inlet system and an exhaust system; the heelpiece and the half sole part of the sole are made of elastic materials; cavities are formed in the heelpiece and the half sole of the sole. The air inlet system is provided with an air inlet groove; the exhaust system is provided with an exhaust groove; the air inlet groove and the exhaust groove are connected with the upper end surface of the sole, the outer part of the shoe and the cavity; the air inlet grooveand the exhaust groove are connected with one-way valves; the heelpiece part, the air inlet groove and the cavity can form an air inlet system; the forefoot portion, the exhaust groove and the cavityform an exhaust system, or the forefoot portion, the air inlet groove and the cavity form the air inlet system, the heelpiece portion, the exhaust groove and the cavity form the exhaust system, and the exhaust system and the air inlet system change the air pressure of the shoe cavity through air incoming and air outgoing to form matched linkage. The air inlet system and the exhaust system which are in linkage fit with each other are arranged, local pressure difference is formed by changing the air pressure in the shoe cavity, air in the shoe cavity is promoted to flow in the specific directionand is exhausted out of the shoe, and the ventilation efficiency is improved.

Description

technical field [0001] The invention relates to breathable and shock-absorbing children's foot-protecting shoes. Background technique [0002] Compared with clothing on other parts of the body, the airtightness of the shoe cavity is high. In the relatively airtight environment of the shoe cavity, ventilation is difficult. About 70%-80% of adults suffer from different degrees of fungal infection of the foot. Strong, can lead to foot skin infection, swelling, odor, erosion, itching or redness, ulceration and peeling and other symptoms. Existing ventilating technologies mainly include vamp venting and sole venting, among which vamp venting accounts for the majority, and generally there are a large number of openings on the vamp, or mesh venting materials, which are generally suitable for use in warm regions or warm seasons, and in a large number of In the case of sports, the ventilation of the dorsum of the foot is obviously better than that of the sole of the foot, and the ve...

AI Technical Summary

Problems solved by technology

Existing ventilating technologies mainly include vamp venting and sole venting, among which vamp venting accounts for the majority, and generally there are a large number of openings on the vamp, or mesh venting materials, which are generally suitable for use in warm regions or warm seasons, and in a large number of In the case of sports, the ventilation of the dorsum of the foot is obviously better than that of the sole of the foot, and the ventilation effect of the sole of the foot is still insufficient; the conventional technology of shoe sole ventilation includes airbag ventilation, and generally one or more airbags are used together with a one-way valve for air intake or exhaust. The disadvantage is that the soles of the feet are partially ventilated, and it is difficult to realize the directional flow of the gas in the shoe cavity, so that the gas in the soles is continuously updated and good ventilation is achieved.

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