CN210492881U

CN210492881U - Novel air bag inflatable shoe

Info

Publication number: CN210492881U
Application number: CN201921041460.3U
Authority: CN
Inventors: 蔡清来; 许金泰; 郭献招
Original assignee: Fujian World Linking Technology Co ltd; Sincetech Fujian Technology Co Ltd
Current assignee: Fujian World Linking Technology Co ltd; Sincetech Fujian Technology Co Ltd
Priority date: 2019-07-05
Filing date: 2019-07-05
Publication date: 2020-05-12
Anticipated expiration: 2029-07-05

Abstract

The utility model discloses a novel gasbag inflatable shoes, including sole, vamp and gasbag mechanism, gasbag mechanism is including filling bleeder, air duct and a plurality of gasbag, and a plurality of gasbags are connected, and only are provided with the air guide mouth on one of them gasbag, are provided with the connection gasbag of connecting two adjacent gasbags between two adjacent gasbags, are provided with the control valve that can open and close two adjacent gasbags on the connection gasbag, and the gasbag is compound on the vamp. The utility model discloses a set up a pump body of a plurality of gasbags sharing, a plurality of gasbags are connected, and a plurality of gasbags only contain a gas guide mouth, through the control valve of the connection gasbag of opening and close on the adjacent two gasbags to can realize dividing a plurality of gasbags of principal and subordinate relation control. The utility model can meet the use requirements of various users on different positions and different foot types to the maximum extent, thereby improving the requirements and the interestingness of the users; through arranging the gasbag on the vamp, strengthened the parcel nature to the foot to make the user have better experience and the science and technology sense.

Description

Novel air bag inflatable shoe

Technical Field

The utility model relates to a shoemaking field specifically is a novel gasbag inflatable shoes.

Background

Modern people have fast pace of life and higher working pressure, and people tend to feel relaxed, soft and comfortable more and more, particularly to walking shoes. At present, shoes with an inflation function in the shoe market are various, and due to different design structures, the produced effects and comfortableness are different. Most of the shoe uppers are provided with inflatable air bags, and the shoe laces can be tightly fixed on the feet of the wearers through the inflatable air bags. Most of the existing inflatable shoes are single air bags or single air bags, the effect of zone control cannot be achieved, most of the air bags are arranged on the vamp, the application condition is single, and the problem of poor concealment is solved.

Accordingly, the present inventors have made extensive studies to solve the above problems and have made the present invention.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a wrapping up nature is stronger, and has the experience of preferred, the shoes of aerifing of a plurality of gasbags of interest.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a novel gasbag inflatable shoes, is in including sole, formation vamp and gasbag mechanism on the sole, gasbag mechanism is including filling bleeder, air duct, solenoid valve and a plurality of gasbag, the solenoid valve has 1 air inlet and 1 gas outlet, and is a plurality of the gasbag is connected, and only one of them be provided with the gas guide mouth on the gasbag, adjacent two be provided with between the gasbag and connect adjacent two the connection gasbag of gasbag, it can open and close double-phase neighbour to be provided with on the connection gasbag the control valve of gasbag, the one end of air duct with it is connected to fill bleeder, and the other end with the gas guide mouth is connected, the gasbag is compound on the vamp.

As a preferred mode of the utility model, fill gassing device includes the pump body and positive reverse motor, the pivot of the pump body with the output shaft of positive reverse motor is connected.

As an optimized mode of the utility model, the inflation and deflation device further comprises a pressing pump and a pressure relief valve, the pressing pump and the pressure relief valve are all arranged on the vamp.

As an optimal mode of the utility model, the vamp is including the upper of a shoe and the insole of setting at the sole lower surface at parcel sole back, the upper of a shoe with insole integrated into one piece weaves the shaping.

As an optimized mode of the utility model, still include the mount pad, set up mounting box on the mount pad and locate treater, wireless transmission module and power module in the mount pad, the output of treater with the control end electricity of positive reverse motor is connected, wireless transmission module with the treater electricity is connected, wireless transmission module is connected with mobile terminal equipment through wireless connection's mode, power module provides working power supply for whole circuit, it sets up to fill gassing device in the mount pad, the mount pad is located the sole with between the insole.

As a preferred mode of the utility model, power module includes battery and wireless charging coil, wireless charging coil's output with the input electricity of battery is connected, still be equipped with the USB mouth that charges on the mount pad, the USB charge mouthful the output with the input electricity of battery is connected.

As a preferred mode of the utility model, the air duct is including locating first air duct in the mounting box with locate the outer second air duct of mounting box, the one end of first air duct with the pump body links to each other, the other end of first air duct with the one end of second air duct links to each other, the other end of second air duct with the gas guide mouth links to each other, electronic connection line in the mounting box with electronic connection line outside the mounting box passes through the electron bolt and links to each other.

As an optimized mode of the utility model, the gasbag is for aligning coincide each other and two-layer TPU membrane that the bonding is in the same place is followed to the week, and is two-layer form the gaseous cavity that holds between the TPU membrane, fill gassing device with the cavity is connected, be equipped with the barrier film in the cavity.

As an optimal mode of the utility model, it is two-layer be equipped with respectively on the week edge of the one side of laminating each other of TPU membrane and encircle the hot melt adhesive membrane that the barrier film arranged.

The utility model provides a novel gasbag inflatable shoes, is in including sole, formation vamp and gasbag mechanism on the sole, gasbag mechanism is including filling bleeder, air duct and a plurality of gasbag, and is a plurality of the gasbag is connected, and is in one of them be provided with the gas guide mouth on the gasbag, adjacent two be provided with between the gasbag and connect adjacent two the connection gasbag of gasbag, it can open and close double-phase adjacent to be provided with on the connection gasbag the control valve of gasbag, air duct one end with fill bleeder and be connected, and the other end with the gas guide mouth is connected, the gasbag is compound on the vamp.

Through adopting aforementioned design, the beneficial effects of the utility model are that: the plurality of air bags share one pump body and are connected, the plurality of air bags only comprise one air guide port, and the control valves of the connecting air bags on the two adjacent air bags are opened and closed, so that the plurality of air bags can be controlled in a master-slave relationship. The utility model meets the use requirements of various users on different positions and different foot types to the maximum extent, thereby improving the requirements and the interestingness of the users; through arranging the gasbag in each position of shoes, strengthened the parcel nature to the foot to make the user have better experience and the science and technology sense.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment and a second embodiment of the present invention;

fig. 2 is a schematic structural diagram of a third embodiment of the present invention;

fig. 3 is a schematic structural view of an inflation/deflation device, an electromagnetic valve and a plurality of air bags in the first embodiment of the present invention;

fig. 4 is a schematic structural view of an inflation/deflation device, a plurality of solenoid valves and a plurality of airbags in the second embodiment of the present invention;

fig. 5 is a schematic structural view of an inflation and deflation device, an electromagnetic valve and a plurality of airbags in the third embodiment of the present invention;

FIG. 6 is a schematic structural view of a middle vamp of the present invention;

fig. 7 is an exploded view of the present invention;

fig. 8 is a schematic structural view of the mounting seat of the present invention;

fig. 9 is a schematic structural view of the mounting box of the present invention;

FIG. 10 is a schematic view of another embodiment of the present invention;

FIG. 11 is a cross-sectional view of the air bag of the present invention;

in the figure: the shoe upper comprises a shoe upper 1, a shoe upper 11, a support bottom 12, a shoe sole 2, a placement groove 21, an inflation and deflation device 41, a pump body 411, a forward and reverse rotation motor 412, an air guide pipe 42, a first air guide pipe 421, a second air guide pipe 422, an air bag 43, a first air bag 431, a second air bag 432, a third air bag 433, an air guide port 434, a connecting air bag 435, a control valve 436, an electromagnetic valve 44, an air inlet 441, an air outlet 442, a first air outlet 4421, a second air outlet 4422, a first electromagnetic valve 443, a second electromagnetic valve 444, a TPU film 45, a chamber 46, an isolation film 47, a hot melt adhesive film 48, a mounting seat 5, a mounting groove 51, a USB charging port 52, a placement groove 53, a mounting box 6, a processor 7, a power supply module 8, a battery 81.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

For convenience of description, the heel corresponding portion of the present invention is defined as the heel portion, the forefoot corresponding portion is defined as the forefoot portion, the middle waist portion is defined as the portion between the heel portion and the forefoot portion, the inner side of the instep is defined as the inner side, and the outer side of the instep is defined as the outer side.

Example one

As shown in figure 1, the multi-airbag inflatable shoe comprises a sole 2, a vamp 1 formed on the sole 2 and an airbag mechanism, wherein the vamp 1 is a textile vamp, the vamp 1 comprises an upper 11 wrapping the back of a sole and a supporting sole 12 arranged on the lower surface of the sole, and the upper 11 and the supporting sole 12 are integrally woven and formed.

As shown in fig. 3, the balloon mechanism includes an inflation/deflation device 41, an airway tube 42, a solenoid valve 44 and a plurality of balloons 43, the solenoid valve 44 has 1 inlet 441 and at least 2 outlet 442, and the present embodiment is described in detail by taking 2 balloons 43 as an example. The solenoid valve 44 of the present embodiment may be a conventional two-position three-way solenoid valve. The air bags 43 are a first air bag 431 and a second air bag 432 respectively, and the two-position three-way electromagnetic valve comprises an air inlet 441, a first air outlet 4421 and a second air outlet 4422. The inflation and deflation device 41 of the present embodiment may be a commercially known inflation and deflation device, and preferably, the inflation and deflation device 41 may include a pump body 411 and a forward and reverse motor 412, a rotating shaft of the pump body 411 is connected to an output shaft of the forward and reverse motor 412, the first air bag 431 and the second air bag 432 are both provided with air guide ports 434, one end of the air guide tube 42 is connected to the pump body 411, the other end of the air guide tube 42 is connected to the air inlet 441, the first air outlet 4421 is connected to the air guide port 434 of the first air bag 431, and the second air outlet 4422 is connected to the air guide port 434 of the second air bag 432.

The first and

second airbags

431 and 432 are arranged to cover the lateral side of the ankle and the middle and upper side of the instep of the foot, and can be combined with the lateral and medial sides of the waist in the upper 11 and the medial side of the support base 12. The arrangement position of the air bag 43 is not limited to the above position, and the air bag can be combined with the foot wrapping effect of the present invention.

Through the above design scheme, the beneficial effects of this embodiment are: by arranging the first air bag 431 and the second air bag 432 to share one pump body 411, wherein the first air bag 431 and the second air bag 432 both comprise air guide ports 434, an air inlet 441 of the two-position three-way electromagnetic valve is connected with the pump body 411, a first air outlet 4421 is connected with the air guide port 434 of the first air bag 431, and a second air outlet 4422 is connected with the air guide port 434 of the second air bag 432, the first air bag 431 and the second air bag 432 can be independently controlled respectively.

The utility model is provided with a plurality of air bags 43, and controls the corresponding air guide ports 434 through the electromagnetic valve 44, thereby realizing that a plurality of air bags 43 in different areas are inflated respectively or simultaneously, and meeting the use requirements of various users on different positions and different foot shapes to the maximum extent, thereby improving the requirements and the interestingness of the users; by arranging the plurality of air bags 43 at each part of the shoe, the wrapping property of the foot is enhanced, so that the user has better experience and science and technology.

Further, as shown in fig. 6-8, the utility model discloses still include mount pad 5, set up mounting box 6 on mount pad 5 and locate treater 7, wireless transmission module and the power module 8 in the mounting box 6, fill the setting of gassing device 41 in mounting box 6, mount pad 5 is located between support base 12 and the sole 2. Be equipped with the mounting groove 51 that can lay mounting box 6 on mount pad 5, USB charges mouthful 52 and lays the recess 53 of laying of air duct 42 and electronic connection line, mounting groove 51 protrusion in the lower surface of mount pad 5, on the sole 2 corresponding to mounting groove 51 the position seted up with mounting groove 51 assorted place the groove 21, during mount pad 5 and the 2 bonding of sole, in mounting groove 51 embedding place the groove 21, mounting groove 51 and place the cooperation of groove 21, so that the utility model discloses mounting box 6 can not receive the extrusion in the use, has ensured the safety of 6 inner parts of mounting box, and place recess 53 is used for protecting air duct 42 and electronic connection line can not trampled, extrusion and wearing and tearing.

The mounting seat 5 of this embodiment is the TPU mounting seat, and the mounting seat 5 is compound between support base 12 and sole 2, installs mounting box 6 in mounting groove 51, and then, compound shoe-pad 2 with mounting seat 5 and support base 12 between.

As shown in fig. 9, the output end of the processor 7 is electrically connected to the control end of the forward/reverse motor 412, and the processor 7 controls the operation of the forward/reverse motor 412, so as to drive the pump body 411 to inflate and deflate the air bag 43.

Wireless transmission module is connected with treater 7 electricity, and the bluetooth module that this embodiment adopted the model to be MS50SF3 is as wireless transmission module, wireless transmission module is connected with mobile terminal through wireless connection's mode, and it is right to utilize the positive reverse motor 412 realization of wireless transmission module control the utility model discloses an aerify shoes and carry out automatic inflation and automatic gassing, it is more convenient to operate.

The power supply module 8 comprises a battery 81 and a wireless charging coil 82, and the battery 81 is used for providing working power supply for the operation of the whole circuit. The output of wireless charging coil 82 is connected with the input electricity of battery 81, and wireless charging coil 82 still is connected with a radio emission device through wireless connection's mode as the receiving terminal to make accessible radio emission device charge battery 81 through wireless charging coil 8, the input of battery 81 is connected with the output electricity of USB charging mouth 52.

Through setting up battery 81, wireless charging coil 82 and USB mouth 52 that charges, accessible wireless contact or USB wiring charge battery 81, set up two kinds of forms of charging, so that the utility model discloses an it is more convenient that inflatable shoes uses.

Further, as shown in fig. 10, the air duct 42 of this embodiment may also have another arrangement, the air duct 42 includes a first air duct 421 disposed in the mounting box 6 and a second air duct 422 disposed outside the mounting box 6, one end of the first air duct 421 is connected to the pump body 411, the other end of the first air duct 421 is connected to one end of the second air duct 422, the other end of the second air duct 422 is connected to the air guide opening 42, an electronic connection line in the mounting box 6 is connected to an electronic connection line outside the mounting box 6 through an electronic plug 9, by arranging the first air duct 421 installed inside the installation box 6 and the second air duct 411 installed outside the installation box 6, and pass through electron bolt 9 with the electron connecting wire in the mounting box 6 and the outer electron connecting wire of mounting box 6 and link to each other, realize mounting box 6 with the utility model discloses an aerify the shoes separation, be convenient for change corresponding part.

Further, as shown in fig. 11, the airbag 43 is formed by two layers of TPU films 45 which are aligned and overlapped with each other and bonded together at the peripheral edge, a cavity 46 for accommodating air is formed between the two layers of TPU films 45, the inflation and deflation device 41 is connected with the cavity 46, an isolation film 47 with the shape and size matched with the cavity 46 is arranged in the cavity 46, and hot melt adhesive films 48 arranged around the isolation film 47 are respectively arranged at the peripheral edges of the surfaces of the two layers of TPU films 45 which are attached to each other.

Through set up barrier film 47 in gasbag 43, and be equipped with respectively on the week edge of the one side of laminating each other of two-layer TPU membrane 45 and encircle hot melt adhesive membrane 48 that barrier film 47 arranged, the region that has arranged hot melt adhesive membrane 48 in gasbag 43 can adopt seamless machine to carry out high temperature pressfitting, so that the region that is equipped with barrier film 47 in two-layer TPU membrane 45 when carrying out high temperature pressfitting can not adhere, the week edge of two-layer TPU membrane 45 utilizes hot melt adhesive membrane 48 to carry out high temperature pressfitting, form cavity 46 that can hold gas with this, and simultaneously, this embodiment adopts the PET film as barrier film 47 of gasbag 43, barrier film 47 compares in traditional mold release and barrier paper, the fold can not appear in barrier film 47, the mar, the problem of bubble, and barrier film 47's size is fixed, do not influence reliable bonding of carrying on gasbag 43 week edge, therefore, gasbag 43's gas tightness is better.

Preferably, the inflation/deflation device 41 in this embodiment may also adopt a pressing pump (not shown in the figure) and a pressure relief valve (not shown in the figure), both of which are disposed on the upper 11, and the structures of the pressing pump and the pressure relief valve may directly adopt the structures in the prior art, such as the pressing pump and the pressure relief valve in chinese patent application No. 201620317756.3.

Example two

As shown in fig. 1 and 4, the present embodiment is different from embodiment 1 in that: the air bag mechanism comprises an inflation and deflation device 41, an air duct 42, a plurality of electromagnetic valves 44 and a plurality of air bags 43, the air duct 42 is a multi-way air duct, the multi-way air duct is provided with 1 air duct inlet and at least 2 air duct outlets, the electromagnetic valve 44 can be a two-way electromagnetic valve with 1

air inlet

441 and 1 air outlet 442, and can also be a multi-way electromagnetic valve with 1 air inlet 441 and at least 2 air outlets 442. The present embodiment will be described in detail by taking 2

airbags

43 and 2 electromagnetic valves 44 as examples. The air bags 43 are the first air bag 431 and the second air bag 432 respectively, the electromagnetic valves 44 are the first electromagnetic valve 443 and the second electromagnetic valve 444 respectively, and the first electromagnetic valve 443 and the second electromagnetic valve 444 of the present embodiment may be conventional two-way electromagnetic valves. The first electromagnetic valve 443 and the second electromagnetic valve 444 both comprise an air inlet 441 and an air outlet 442, the inflation and deflation device 41 comprises a pump body 411 and a forward and reverse rotation motor 412, a rotating shaft of the pump body 411 is connected with an output shaft of the forward and reverse rotation motor 412, the first air bag 431 and the second air bag 432 are both provided with air guide ports 434, one end of the air guide tube 42 is connected with the pump body 411, the other end of the air guide tube 42 is respectively connected with the air inlet 441 of the first electromagnetic valve 443 and the air inlet 441 of the second electromagnetic valve 444, the air outlet 442 of the first electromagnetic valve 443 is connected with the air guide port 434 of the first air bag 431, and the air outlet 442 of the second electromagnetic valve 444 is connected with the air.

Through foretell design, the beneficial effects of the utility model are that: the first air bag 431 and the second air bag 432 share the same pump body 411, the first air bag 431 and the second air bag 432 respectively comprise air guide ports 434, one end of the air guide tube 42 is connected with the pump body 411, the other end of the air guide tube 42 is respectively connected with an air inlet 441 of the first electromagnetic valve 443 and an air inlet 441 of the second electromagnetic valve 444, an air outlet 442 of the first electromagnetic valve 443 is connected with the air guide ports 434 of the first air bag 431, and an air outlet 442 of the second electromagnetic valve 444 is connected with the air guide ports 434 of the second air bag 432, so that the first air bag 431 and the second air bag 432 can be independently controlled respectively.

The utility model is provided with a plurality of air bags 43, and the air guide ports 434 of the corresponding air bags 43 are respectively controlled by a plurality of electromagnetic valves 44, so that the air bags 43 in different areas are inflated respectively or simultaneously, thereby meeting the use requirements of various users on different positions and different foot shapes to the maximum extent, and further improving the requirements and interestingness of the users; by arranging the air bags 43 at various parts of the shoe, the wrapping property of the foot is enhanced, so that the user has better experience and science and technology.

It should be noted that, in addition to the 2 air bags 43 exemplified in the first embodiment and the second embodiment, more than 3 air bags 43 may be provided, if more than 3 air bags 43 are provided, a multi-way electromagnetic valve needs to be provided, or 1 multi-way air duct and a plurality of multi-way electromagnetic valves are provided, the multi-way air duct has 1 air duct inlet and a plurality of air duct outlets, the air duct inlet is connected with the pump body 411, the plurality of air duct outlets are respectively connected with the air inlets 441 of the plurality of multi-way electromagnetic valves, the plurality of air outlets 442 of the plurality of multi-way electromagnetic valves are respectively connected with the air guide ports 434 of the plurality of air bags 43, the multi-way electromagnetic valves may be the two-position three-way electromagnetic valve of the first embodiment, the plurality of two-way electromagnetic valves of the second embodiment, or the two-position three-way electromagnetic valves of the first embodiment and the two-way electromagnetic valves of the second embodiment may be used together, it is sufficient that the air guide ports 434 of the plurality of air bags 43 are individually connected to the air outlet ports of the electromagnetic valves 44.

In summary, the mobile terminal device in the first and second embodiments is connected to the processor 7 disposed on the shoe by means of bluetooth connection, and the processor 7 controls the electromagnetic valve 44 to open and close according to the corresponding data signal line, and then controls the pump 411 to start, so as to inflate the corresponding airbag 43 through the air outlet 442 of the electromagnetic valve 44. The use requirements of various users on different positions and different foot types are met to the maximum extent, so that the requirements and interestingness of the users are improved.

EXAMPLE III

As shown in fig. 2 and 5, the present embodiment is different from the first embodiment in that: the balloon mechanism includes an inflation and deflation device 41, an air duct 42, an electromagnetic valve 44 and a plurality of balloons 43. The present embodiment will be described in detail by taking 3 airbags 43 as an example. The solenoid valve 44 of the present embodiment may employ a conventional two-way solenoid valve. The air bags 43 are a first air bag 431, a second air bag 432 and a third air bag 433 respectively, and the two-way electromagnetic valve comprises an air inlet 441 and an air outlet 442. The first air bag 431 is respectively connected with the second air bag 432 and the third air bag 433, the connecting air bags 435 are respectively arranged between the first air bag 431 and the second air bag 432 and between the first air bag 431 and the third air bag 433, and the control valves 436 capable of opening and closing the two adjacent air bags 43 are arranged on the connecting

air bags

435 and 432. The first balloon 431, the second balloon 432 and the third balloon 433 are connected with each other through a connecting balloon 435, a gas guide port 434 is arranged on the first balloon 431, one end of the air guide tube 42 is connected with the pump body 411, the other end of the air guide tube 42 is connected with a gas inlet 441, and a gas outlet 442 is connected with the gas guide port 434.

It should be noted that the present embodiment can also eliminate the electromagnetic valve 44, and one end of the air duct 42 is connected to the pump body 411, and the other end of the air duct 42 is directly connected to the air guide port 434.

Through foretell design, the beneficial effects of the utility model are that: the first balloon 431, the second balloon 432 and the third balloon 433 share one pump body 411, the air guide port 434 is arranged on the first balloon 431, one end of the air guide tube 42 is connected with the pump body 411, the other end of the air guide tube 42 is connected with the air inlet 441, the air outlet 442 is connected with the air guide port 434, and the first balloon 431, the second balloon 432 and the third balloon 433 can be controlled in a master-slave relationship by opening and closing a control valve 436 on the connecting balloon 435 on the first balloon 431 and the second balloon 432 or opening and closing a control valve 436 on the connecting balloon 435 on the first balloon 431 and the third balloon 433. The utility model is provided with a plurality of air bags 43, the air outlets 442 of the two-way electromagnetic valve control the corresponding air guide ports 434, so that the air bags 43 in different areas are inflated according to the master-slave relationship, thereby meeting the use requirements of various users on different positions and different foot shapes to the maximum extent, and further improving the requirements and the interestingness of the users; by arranging the air bags 43 at various parts of the shoe, the wrapping property of the foot is enhanced, so that the user has better experience and science and technology.

In summary, in the embodiment, the mobile terminal device is connected to the processor 7 disposed on the shoe through the bluetooth connection, the processor 7 controls the electromagnetic valve 44 to open and close according to the corresponding data signal line, and then controls the pump body 411 to start, and inflates the corresponding airbag 43 through the air outlet 442 of the electromagnetic valve 44, because the control valve 436 is disposed on the connection airbag 435 of the connected airbag 43, when the pump body 411 starts, all the airbags 43 will not be inflated at the same time, thereby increasing the interest of the airbag 43.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a novel gasbag inflatable shoes, includes the sole, forms vamp and gasbag mechanism on the sole, its characterized in that: the air bag mechanism comprises an inflation and deflation device, an air guide tube, an electromagnetic valve and a plurality of air bags, wherein the electromagnetic valve is provided with 1 air inlet and 1 air outlet, the air bags are connected and only one of the air bags is provided with an air guide port, the two adjacent air bags are connected between the two air bags, the air bags are connected with each other, the air bags are provided with control valves capable of opening and closing the two adjacent air bags, one end of the air guide tube is connected with the inflation and deflation device, the other end of the air guide tube is connected with the air guide port, and the air bags are compounded on the vamp.

2. The novel air bag inflatable shoe as claimed in claim 1, wherein: the inflation and deflation device comprises a pump body and a positive and negative rotation motor, and a rotating shaft of the pump body is connected with an output shaft of the positive and negative rotation motor.

3. The novel air bag inflatable shoe as claimed in any one of claims 1 to 2, wherein: the inflation and deflation device comprises a pressure pump and a pressure relief valve, and the pressure pump and the pressure relief valve are both arranged on the vamp.

4. The novel air bag inflatable shoe as claimed in claim 2, wherein: the vamp includes the upper of a shoe and the insole of setting at the sole lower surface at parcel sole back, the upper of a shoe with insole integrated into one piece weaves the shaping.

5. The novel air bag inflatable shoe as claimed in claim 4, wherein: still include the mount pad, set up and be in mounting box on the mount pad and locate treater, wireless transmission module and power module in the mounting box, the output of treater with the control end electricity of positive reverse motor is connected, wireless transmission module with the treater electricity is connected, wireless transmission module is connected with mobile terminal equipment through wireless connection's mode, power module provides working power supply for whole circuit, it sets up to fill gassing device in the mounting box, the mount pad is located the sole with between the insole.

6. The novel air bag inflatable shoe as claimed in claim 5, wherein: the power supply module comprises a battery and a wireless charging coil, the output end of the wireless charging coil is electrically connected with the input end of the battery, a USB charging port is further arranged on the mounting seat, and the output end of the USB charging port is electrically connected with the input end of the battery.

7. The novel air bag inflatable shoe as claimed in claim 5, wherein: the air duct is including locating first air duct in the mounting box with locate the outer second air duct of mounting box, the one end of first air duct with the inflation and deflation interface of the pump body links to each other, the other end of first air duct with the one end of second air duct links to each other, the other end of second air duct with the air guide mouth links to each other, electronic connection line in the mounting box with electronic connection line outside the mounting box passes through the electron bolt and links to each other.

8. The novel air bag inflatable shoe as claimed in claim 1, wherein: the gasbag is for aligning coincide each other and two-layer TPU membrane that the bonding is in the same place along week, and is two-layer form the gaseous cavity of holding between the TPU membrane, fill gassing device with the cavity is connected, be equipped with the barrier film in the cavity.

9. The novel air bag inflatable shoe as claimed in claim 8, wherein: and hot melt adhesive films arranged around the isolating film are respectively arranged on the peripheries of the surfaces, which are mutually attached, of the two layers of TPU films.

10. The utility model provides a novel gasbag inflatable shoes, includes the sole, forms vamp and gasbag mechanism on the sole, its characterized in that: the air bag mechanism comprises an inflation and deflation device, an air guide tube and a plurality of air bags, the air bags are connected, one of the air bags is provided with an air guide port, two adjacent air bags are connected with each other, a connecting air bag for connecting the two adjacent air bags is arranged between the two adjacent air bags, a control valve capable of opening and closing the two adjacent air bags is arranged on the connecting air bag, one end of the air guide tube is connected with the inflation and deflation device, the other end of the air guide tube is connected with the air guide port, and the air bags are compounded on the vamp.