CN220423251U - Self-adaptive inflatable shoe - Google Patents

Abstract

The utility model discloses a self-adaptive inflatable shoe, which comprises a sole, a vamp, an insole, an inflatable component and a control component; the inflatable component comprises a miniature air pump and an air pipe, wherein the miniature air pump is arranged in the sole, and the air pipe is connected with the air bag; the control assembly can control the inflation assembly to inflate the air bag, and comprises a pressure trigger patch and a microprocessor; the user foot can be wrapped by arranging the air bags with different shapes in the vamp and on the insole, so that the traditional shoe-wear putting-on and putting-off mode is replaced; the control component controls the inflation component to realize instruction inflation, when the pressure trigger patch is triggered, the control component can send out an instruction for inflating the inflation component, and the pressure trigger is arranged in the insole, so that the pressure trigger patch can be triggered when a user stands; therefore, the technical effect that the patient does not need to bend over, bow down, bend down and other operations to wear the shoes after wearing the shoes is achieved.

Description

Self-adaptive inflatable shoe

Technical Field

The utility model relates to the technical field of inflatable shoes, in particular to a self-adaptive inflatable shoe.

Background

Shoes are used as a necessity for human life, play roles in protecting feet and assisting walking, and most of the shoes are grass shoes and cloth shoes in the early stage of human civilization, and are widely seen in leather shoes, sport shoes, casual shoes and high-heeled shoes nowadays.

The bladder is a flexible rubber capsule into which compressed air or an aqueous medium can be filled, and the elasticity is achieved by using the compressibility of air and the fluidity of water.

Most shoe soles are used for wearing shoes by tying shoelaces, and other common opening and closing modes include adhesive buckles, elastic bands, rotary buttons and the like. The opening and closing modes all need to be operated by bending over and bending over, are not friendly to the old, weak, sick, disabled and other groups, and all the people can realize the action of wearing shoes with the assistance of a second person.

Disclosure of Invention

The utility model aims to provide a self-adaptive inflatable shoe which is convenient for the people of the old, the weak, the sick, the disabled and the like to wear.

The technical aim of the utility model is realized by the following technical scheme: an adaptive inflatable shoe comprises a sole, an vamp, an insole, an inflatable component and a control component;

the inside of the sole is provided with a containing cavity, and the top surface of the sole is provided with an inflatable insole;

the bottom of the vamp is fixedly connected with the sole, and a plurality of air bags with different shapes are arranged in the vamp;

the insole is arranged on the top surface of the sole, and a plurality of air bags with different shapes are arranged on the insole;

the inflatable component is arranged in the accommodating cavity and comprises a miniature air pump and an air pipe, wherein the miniature air pump is arranged in the sole, and the air pipe is connected with the air bag;

the control assembly is capable of controlling the inflation assembly to inflate the airbag, and includes a pressure trigger patch and a microprocessor, the microprocessor being disposed within the receiving cavity, the pressure trigger patch being disposed within the insole.

The user foot can be wrapped by arranging the air bags with different shapes in the vamp and on the insole, so that shoelaces are not required to be tied as in the traditional requirement;

the control component controls the inflation component to realize instruction inflation, when the pressure trigger patch is triggered, the control component can send out an instruction for inflating the inflation component, and the pressure trigger is arranged in the insole, so that the pressure trigger patch can be triggered when a user stands;

therefore, the technical effect that the patient does not need to bend over, bow down, bend down and other operations to wear the shoes after wearing the shoes is achieved.

The utility model is further provided with: the pressure trigger patch is embedded in the heel part of the insole and is electrically connected with the microprocessor.

Through adopting pressure trigger paster setting at the heel, can realize that the user stands the back and most direct with force transfer to heel department, through its and microprocessor lug connection can be swift make the microprocessor make the response instruction.

The utility model is further provided with: the air inlet of the miniature air pump is communicated with the outside, a pressure maintaining valve capable of being actively closed/opened is arranged at the air inlet, and the miniature air pump is connected with the miniature processor.

The pressure maintaining valve is arranged to ensure that the shoes can be effectively maintained in the long-time use process, and the shoes are taken off and used for the second time more quickly by actively closing/opening the shoes.

The utility model is further provided with: the air bags are equally divided into strip-shaped air bags, spherical air bags and irregular air bags.

The bar-shaped air bags, the spherical air bags and the irregular air bags are adopted to set, so that foot acupoints can be effectively pressed, and the foot can be effectively stimulated after being worn.

The utility model is further provided with: each of the air bags is interconnected with its adjacent air bag.

Through adopting every gasbag all with its surrounding adjacent gasbag intercommunication can realize steady voltage, can not appear partial region high pressure, partial region low pressure to regard as whole gasbag to improve its wearing comfort level.

The utility model is further provided with: the inflation assembly also includes a pressure sensor disposed within the trachea/balloon and connected to the microprocessor.

The pressure sensor is connected with the micro-processor to ensure that even if feedback information is given, the pressure sensor is arranged in the air pipe, and the inflation pressure can be ensured.

The utility model is further provided with: the vamp is of a net structure, and a plurality of air bags with different shapes are clamped between the two layers of the vamp.

The ventilation in the shoe can be ensured by the clamping of the net surface structure.

The utility model is further provided with: the vamp is a leather surface layer, and a plurality of air bags with different shapes are adhered to the vamp inner layer.

The leather surface layer can ensure the exterior shape of the shoe.

In summary, the utility model has the following beneficial effects: the user foot can be wrapped by arranging the air bags with different shapes in the vamp and on the insole, so that the user foot is not required to be worn in the same way as the traditional mode;

the control component controls the inflation component to realize instruction inflation, when the pressure trigger patch is triggered, the control component can send out an instruction for inflating the inflation component, and the pressure trigger is arranged in the insole, so that the pressure trigger patch can be triggered when a user stands;

therefore, the technical effect that the patient does not need to bend over, bow down, bend down and other operations to wear the shoes after wearing the shoes is achieved.

Drawings

FIG. 1 is a left side view of the present shoe in an embodiment of the present utility model;

FIG. 2 is a right side view of the present shoe in an embodiment of the present utility model;

FIG. 3 is a top view of the present shoe in an embodiment of the present utility model;

FIG. 4 is a view of a sole in an embodiment of the utility model;

FIG. 5 is a front view of the present shoe in an embodiment of the present utility model;

figure 6 is a rear view of the present shoe in an embodiment of the present utility model.

In the figure:

1. a sole;

2. a vamp;

3. an inflation assembly;

4. a control assembly; 41. a pressure trigger patch;

5. an air bag.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-6.

Examples

At present, shoes are quite various in types and styles, but most of shoes on the market are fixed on feet through traditional shoelaces, and some novel shoes are fixed through knobs, zippers, velcro and other fixing modes, so that the shoes are required to be fixed in the postures of bending over, bending over or squatting up during fixing.

At present, the old, pregnant women, injured people and the like can wear the shoes smoothly only with the assistance of additional people when wearing the shoes, so that the shoes can be conveniently worn without the assistance of the auxiliary people.

As shown in fig. 1-6, an adaptive inflatable shoe includes a sole 1, an upper 2, an insole, an inflation assembly 3, and a control assembly 4.

The inside chamber that holds that has offered of sole 1, sole 1 top surface are provided with the shoe-pad that can inflation.

The sole 1 is divided into two layers, and the bottom is the wearing layer of stereoplasm can be the cowhells end, the stereoplasm silica gel end, just so can wear-resisting, is provided with in the bottom and holds the chamber, holds to the part of inflation component 3 and the part of control assembly 4, wherein is provided with the soft layer at the bottom top surface, and the comfort level after wearing can be guaranteed as buffer structure to the soft layer.

The bottom of the vamp 2 is fixedly connected with the top surface of the sole 1, the fixed connection is in the conditions of gluing, stitching, binding and the like, and a plurality of air bags 5 with different shapes are arranged in the vamp 2.

In order to increase the ventilation property of the shoe, the vamp 2 can be a net structure, and the air bags 5 with different shapes are clamped between the two layers of net structures, so that the ventilation property of the shoe can be increased by the net structure.

As preferable: the net surface structure can also be an elastic fabric, so that the foot fit is improved.

In order to increase the typing degree of the shoe, the vamp 2 can be a leather surface layer, and a plurality of airbags 5 with different shapes are adhered or sewed on the inner side of the leather surface layer, namely the inner side of the vamp 2, and the leather surface layer can ensure that the appearance is shaped.

The insole is detachably arranged on the top surface of the sole 1, and a plurality of air bags 5 with different shapes are arranged on the insole.

The inflation assembly 3 comprises a micro air pump and an air pipe.

The miniature air pump is arranged in the accommodating cavity of the sole 1, and the air inlet of the miniature air pump is arranged on the side surface of the sole 1;

in order to ensure that the pressure can be maintained after the inflation, the miniature air pump is communicated with the outside through an air pipe, wherein an air one-way valve is arranged in the air pipe.

The air outlet of the miniature air pump is connected with the air bag 5 through an air pipe.

The control assembly 4 can control the inflation assembly 3 to inflate the airbag 5;

the control assembly 4 comprises a pressure trigger patch 41 and a microprocessor, the pressure trigger patch 41 is electrically connected with the microprocessor, and when the pressure trigger patch 41 is triggered, the data can be ensured to be directly transmitted to the microprocessor.

In order to enable the pressure trigger patch 41 to be well triggered, the pressure trigger patch 41 is embedded in the insole and is located at the heel portion of the insole.

In order to ensure that the microprocessor can be better protected, the microprocessor is arranged in the accommodating cavity and can be better protected, and the microprocessor can perform logic operation based on a PLC or a singlechip.

As preferable: in order to be able to use the product well, the lateral side of the sole 1 is also provided with a total deflation switch which can be opened and closed and is connected with the air bag 5 through a pipeline.

As preferable: the air bags 5 are divided into spherical air bags, strip-shaped air bags and irregular air bags, and each air bag 5 is correspondingly arranged in a foot acupoint reflection area,

in order to ensure that the air pressure of each air bag 5 is balanced, each air bag 5 is in series communication with the adjacent air bags 5 to form the whole air bag 5 structure.

As preferable: the spherical airbags in the preferred embodiment have 16 total airbags, 17 total airbags in the form of strip, and 6 total airbags in the form of irregularity.

As preferable: the battery is arranged at the edge of the sole and is directly connected with the microprocessor, and the microprocessor distributes power for other components.

Most preferably: in order to maximize the use of the air bag in the scheme, a vibrating motor or a linear motor is also arranged in the sole, and the sole firstly wraps the feet when in work and then can controllably vibrate to play roles of relaxing and relieving;

secondly, linear motor or vibrating motor still can fixed setting in the gasbag, all corresponds the setting in every gasbag 5, then establishes ties to the last unified control of microprocessor through the wire, and wherein, when vibrating unit (linear motor, vibrating motor) vibration, can carry out the stimulation of certain degree to foot reflection area promptly to reach the effect that the massage was relaxed.

When in wear, the utility model is worn: the vamp of the user has a certain support because of the mesh material and the elastic fabric, the foot directly stretches into the vamp, the user stands after wearing the shoe, the pressure trigger patch 41 is triggered, the micro processor starts to instruct the micro air pump to start to inflate after receiving the signal, and the inflation is stopped when the inflation pressure reaches a preset value.

When taking off: the user only needs to close the main switch to realize the operation of the pressure release slipper.

The present embodiment is only for explanation of the present utility model and is not to be construed as limiting the present utility model, and modifications to the present embodiment, which may not creatively contribute to the present utility model as required by those skilled in the art after reading the present specification, are all protected by patent laws within the scope of claims of the present utility model.

Claims (8)

1. The utility model provides a self-adaptation inflatable shoes, includes sole (1) and fixed vamp (2) that set up in sole (1) top surface, characterized by:

a containing cavity is arranged in the sole (1), and an inflatable insole is arranged on the top surface of the sole;

the bottom of the vamp (2) is fixedly connected with the sole (1), and a plurality of air bags (5) with different shapes are arranged in the vamp (2);

an insole which is arranged on the top surface of the sole (1), and a plurality of air bags (5) with different shapes are arranged on the insole;

the inflation assembly (3) is arranged in the accommodating cavity and comprises a micro air pump and an air pipe, wherein the micro air pump is arranged in the sole (1) and the air pipe is connected with the air bag (5);

the control assembly (4) can control the inflation assembly (3) to inflate the air bag (5), and the control assembly comprises a pressure trigger patch (41) and a micro processor, wherein the micro processor is arranged in the accommodating cavity, and the pressure trigger patch (41) is arranged in the insole.

2. An adaptive inflatable shoe according to claim 1, wherein: the pressure trigger patch (41) is embedded in the heel part of the insole and is electrically connected with the microprocessor.

3. An adaptive inflatable shoe according to claim 2, wherein: the air inlet of the miniature air pump is communicated with the outside, a pressure maintaining valve capable of being actively closed/opened is arranged at the air inlet, and the miniature air pump is connected with the miniature processor.

4. An adaptive inflatable shoe according to claim 1, wherein: the air bags (5) are uniformly divided into strip-shaped air bags (5), spherical air bags (5) and irregular air bags (5).

5. An adaptive inflatable shoe according to claim 4, wherein: each of the air bags (5) is connected with the adjacent air bag (5).

6. An adaptive inflatable shoe according to claim 1, wherein: the inflation assembly (3) further comprises a pressure sensor which is arranged in the air pipe/air bag (5) and is connected with the micro-processor.

7. An adaptive inflatable shoe according to any one of claims 1-6, wherein: the vamp (2) is of a net structure, and a plurality of air bags (5) with different shapes are clamped between the two layers of the vamp (2).

8. An adaptive inflatable shoe according to any one of claims 1-6, wherein: the vamp (2) is a leather surface layer, and a plurality of air bags (5) with different shapes are adhered to the inner layer of the vamp (2).