CN111938255A - Waterproof boot capable of automatically ventilating and manufacturing method thereof - Google Patents

Abstract

The application relates to a waterproof boot capable of automatically ventilating and a manufacturing method thereof, belonging to the technical field of waterproof boots, and comprising a boot body and a ventilating device, wherein the boot body comprises a boot bottom, a boot surface and a boot leg, the boot surface and the boot bottom form a waterproof inner cavity for placing a foot, and a tube part of the boot leg is communicated with the waterproof inner cavity; the air interchanger comprises an air pipe communicated with the waterproof inner cavity and an exhaust assembly arranged at one end, far away from the waterproof inner cavity, of the air pipe, and the exhaust assembly is arranged on the side wall of the bootleg and used for accelerating air exchange between the waterproof inner cavity and the outside. This application has the gas permeability of reinforcing waterproof boots, improves the effect of the comfort level that the user used.

Description

Waterproof boot capable of automatically ventilating and manufacturing method thereof

Technical Field

The application relates to the technical field of waterproof boots, in particular to a waterproof boot capable of automatically ventilating and a manufacturing method thereof.

Background

The waterproof boots (shoes) are also called rain boots (shoes), are one kind of labor boots (shoes), and are used in the workplaces with water accumulated on the ground or splashed with water. The waterproof boots (shoes) usually adopt natural rubber raw materials, have waterproof and antiskid functions, simultaneously have an insulating effect, and are necessary for workers in special working places such as printing and dyeing factories, water farms, breeding farms and the like.

In view of the above-mentioned related technologies, the inventor believes that waterproof boots (shoes) in the market have poor air permeability due to the material and structure thereof, and when a user wears the boots for a long time, heat generated from the feet of the user cannot be dissipated in time to cause the feet of the user to sweat, thereby giving a feeling of discomfort of stuffiness and beriberi, and at the same time, may induce beriberi.

Disclosure of Invention

In order to enhance the ventilation property of the waterproof boot and improve the use comfort of a user, the application provides the waterproof boot capable of automatically ventilating and the manufacturing method thereof.

In a first aspect, the present application provides a waterproof boot capable of automatically ventilating, which adopts the following technical solution:

a waterproof boot capable of automatically ventilating comprises a boot body and a ventilating device, wherein the boot body comprises a boot sole, a boot vamp and a boot leg, the boot vamp and the boot sole form a waterproof inner cavity for placing a foot, and a tube part of the boot leg is communicated with the waterproof inner cavity;

the air interchanger comprises an air pipe communicated with the waterproof inner cavity and an exhaust assembly arranged at one end, far away from the waterproof inner cavity, of the air pipe, and the exhaust assembly is arranged on the side wall of the bootleg and used for accelerating air exchange between the waterproof inner cavity and the outside.

Through adopting above-mentioned technical scheme, through set up breather on the boots body for the internal and external gas exchange of boots, thereby be convenient for with the heat effluvium of waterproof intracavity, with the vexed hot sense that reduces human foot, through setting up exhaust subassembly and trachea, under trachea guide effect, reduce breather's installation to the waterproof high influence of waterproof boots, when guaranteeing waterproof boots waterproof performance, strengthen the ventilation effect of waterproof boots, thereby the comfort level of reinforcing user when using.

Preferably, the air pipe is communicated with one end, far away from the bootleg, of the boot surface, and the opening of the air pipe faces to the front end of the waterproof inner cavity.

Through adopting above-mentioned technical scheme, sole and toe heat production are more and the sweaty foot appears easily before the human body to communicate trachea and waterproof inner chamber front end to when making the trachea extract waterproof inner chamber air, the heat that can more extraction be located waterproof inner chamber front end toe and sole produced improves the radiating effect, the dry and comfortable nature of better assurance user foot.

Preferably, the exhaust subassembly includes the exhaust fan and sets up the air guide between exhaust fan and trachea, the one end and the trachea of air guide are pegged graft, the exhaust fan sets up and keeps away from trachea one end port in the air guide.

Through adopting above-mentioned technical scheme, set up the air guide piece and be convenient for the exhaust fan to bleed or exhaust to the trachea.

Preferably, the exhaust subassembly still includes the waterproof inserted block of fixed mounting air guide and exhaust fan, air guide and exhaust fan set up inside waterproof inserted block, still be equipped with the battery that is used for the exhaust fan power supply in the waterproof inserted block, air guide keeps away from the one end of exhaust fan and stretches out waterproof inserted block, waterproof inserted block keeps away from the one end of air guide and corresponds the drainage fan and has seted up the ventilation hole.

Through adopting above-mentioned technical scheme, carry out assembled joint to air guide and exhaust fan through waterproof inserted block, set up the battery and supply power to the exhaust fan, set up waterproof inserted block simultaneously and carry out water proof to exhaust fan and battery.

Preferably, the exhaust subassembly still includes the operating panel who connects in the exhaust fan and battery, operating panel is equipped with the speed governing button that the start-stop button that the control exhaust fan opened and close and control exhaust fan rotational speed.

Through adopting above-mentioned technical scheme, through setting up control panel to opening and close and the rotational speed of exhaust fan control, the person of facilitating the use controls according to the user demand.

Preferably, the exhaust subassembly is still including fixed the shell of inserting that sets up in leg of a boot lateral wall, the one end that the vamp was kept away from to the trachea with insert shell fixed connection, it is the opening form setting to insert the shell upper end, waterproof plug block is pegged graft with inserting the shell.

Through adopting above-mentioned technical scheme, insert the shell through the setting and conveniently with waterproof plug block installation and taking out on the leg of a boot lateral wall.

Preferably, the waterproof insert block is provided with a lifting piece, and the lifting piece is used for separating the waterproof insert block from the insert shell.

Through adopting above-mentioned technical scheme, set up and carry and draw the piece convenience and take out waterproof inserted block from the slot.

Preferably, the boot body is divided into a left boot body and a right boot body, and the exhaust assemblies are respectively installed on the left side of the leg of the left boot body and the right side of the leg of the right boot body.

Through adopting above-mentioned technical scheme, the setting of left boots body and right boots body is worn in order to guarantee user's both feet, installs the exhaust subassembly respectively in the leg of a boot left side of left boots body and the leg of a boot right side of right boots body, prevents that the user from in the normal walking in-process because mutual friction collision between the leg of left boots body and right boots body influences the installation intensity of exhaust subassembly.

In a second aspect, the present application provides a method for manufacturing a waterproof boot capable of automatic ventilation, which adopts the following technical solution:

a method for manufacturing waterproof boots capable of automatically ventilating comprises the following steps:

installing an air pipe, and installing the air pipe on the waterproof boot manufacturing mold;

glue is filled to form a boot body, the boot body seals an air pipe, and two ends of the air pipe are exposed out of the boot body;

installing an inserting shell, fixedly installing the inserting shell on the side wall of the bootleg, and enabling an opening of the inserting shell to be vertically and upwards arranged;

trimming an air pipe, trimming the end part of the air pipe exposed in the waterproof inner cavity to be flush with the inner wall of the boot body, and trimming the end part of the air pipe exposed on the side wall of the boot leg to ensure that the air pipe is spliced with the insertion shell;

and installing a waterproof plug block, and inserting the waterproof plug block into the plug shell.

Through adopting above-mentioned technical scheme, through before the shaping of the boot body encapsulating, install the trachea on waterproof boots manufacture mould for the in-process of boot body encapsulating is with the trachea in the boot body, when in order to guarantee to realize the ventilation effect, reduces the possibility of trachea damage.

Preferably, before installing the air tube, the manufacturing method further includes: the two ends of the air pipe are sealed for the perfusion process for forming the boot body.

Through adopting above-mentioned technical scheme, when carrying out the shutoff in order to prevent that rubber from flowing in waterproof boots manufacturing die to the trachea both ends, rubber causes the trachea to block up in getting into the trachea from trachea tip opening.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the waterproof performance of the waterproof boot is ensured, meanwhile, the air permeability of the waterproof boot is enhanced, and the use comfort of a user is improved;

2. set up operating panel for the user can control the exhaust fan according to the user demand, sets up the battery simultaneously, realizes that the off-line of exhaust fan is got the electricity, in order to satisfy bigger application range.

Drawings

FIG. 1 is a left side view of the overall structure of a waterproof boot according to an embodiment of the present application, mainly showing the structure of a left boot body;

FIG. 2 is a top view of the overall structure of the waterproof boot of the embodiment of the present application, mainly showing the installation positions of the waterproof members on the left boot body and the right boot body, respectively;

FIG. 3 is a partial structural cross-sectional view of the flashing boot of an embodiment of the present application, primarily illustrating the structure of the vent assembly;

FIG. 4 is a partial schematic structural view of the waterproof boot according to the embodiment of the present application, mainly showing a structural schematic of the operation panel;

FIG. 5 is a schematic view of the overall construction of a waterproof boot according to an embodiment of the present application;

FIG. 6 is an exploded view of a portion of the waterproof boot of the embodiment of the present application, mainly illustrating the connection between the waterproof insert and the insert shell;

FIG. 7 is a flow chart of method steps for manufacturing an embodiment of the present application.

Description of reference numerals: 1. a boot body; 11. a boot sole; 12. a vamp; 13. a bootleg; 14. a waterproof inner cavity; 2. a ventilation device; 21. an air tube; 22. an exhaust assembly; 221. an exhaust fan; 222. a gas guide; 223. a waterproof insert block; 2231. a vent hole; 224. a storage battery; 225. an operation panel; 2251. a start-stop button; 2252. a speed regulating button; 2253. a charging jack; 2254. an indicator light set; 226. inserting a shell; 2261. an interface; 2262. supporting the projection; 2263. a water outlet hole; 227. and (4) lifting the pulling piece.

Detailed Description

This embodiment is described in further detail below with reference to fig. 1-7.

At present, waterproof boots are one of the daily necessities of existing, and are the work necessities of practitioners in some industries, for example, in textile printing and dyeing factories, the practitioners often contact with printing and dyeing water, and in the working process, due to the transfer of printing and dyeing materials and other situations, the printing and dyeing water or other liquid often leaks to cause field wet water or even accumulated water, and the waterproof boots worn by the practitioners are specified not only to avoid the shoes and the bottoms of trousers from being wetted by water, but also to prevent the electrical shock of the practitioners when the printing and dyeing equipment leaks electricity. The waterproof boots have poor air permeability due to the requirements of waterproof boot material and waterproof performance, and users are easy to cover feet after wearing the boots for a long time, so some people may wear the boots out of order.

The embodiment of the application discloses waterproof boots that can take a breath automatically. Referring to fig. 1 and 2, the waterproof boot includes a boot body 1 and a ventilation device 2, wherein the boot body 1 is divided into a left boot body and a right boot body to meet the requirement of a user to wear both feet, and the boot body 1 includes a boot sole 11, a boot upper 12 and a boot leg 13. The boot sole 11 is provided with a plurality of anti-skid threads, a waterproof inner cavity 14 for placing feet is formed between the boot surface 12 and the boot sole 11, the tube part of the boot tube 13 is communicated with the waterproof inner cavity 14, and the waterproof height of the boot body 1 is increased through the boot tube 13. Breather 2 includes the trachea 21 with waterproof inner chamber 14 intercommunication and sets up in trachea 21 and keeps away from the exhaust subassembly 22 of waterproof inner chamber 14 one end, and exhaust subassembly 22 sets up and is used for accelerating the air exchange of waterproof inner chamber 14 and external in leg of a boot 13 lateral wall for human heat production can in time discharge in waterproof inner chamber 14.

Referring to fig. 1 and 2, in order to ensure that the waterproof height of the waterproof boot is not affected by the ventilation device 2, the exhaust assembly 22 is installed at the open end of the boot shaft 13, and in order to ensure the installation stability of the exhaust assembly 22, the exhaust assemblies 22 are respectively installed at the left side of the boot shaft 13 of the left boot body and the right side of the boot shaft 13 of the right boot body, so as to prevent the user from affecting the installation strength of the exhaust assembly 22 due to the mutual frictional collision between the boot shafts 13 of the left and right boot bodies during the normal walking process.

Referring to fig. 1 and 3, the exhaust assembly 22 includes an exhaust fan 221 and an air guide 222 disposed between the exhaust fan 221 and the air pipe 21, one end of the air guide 222 is inserted into the air pipe 21, the exhaust fan 221 is disposed at a port of the air guide 222 far from the end of the air pipe 21, and an opening size of the port of the air guide 222 facing one end of the exhaust fan 221 is larger than an opening size of the port of the air guide 222 facing one end of the air pipe 21. The exhaust fan 221 may be provided to exhaust the air in the air pipe 21 or to exhaust the air into the air pipe 21, and in this application, the exhaust fan 221 is set to exhaust the air in the air pipe 21 according to the use effect and the comfort level.

Referring to fig. 2 and 3, the exhaust assembly 22 further includes a waterproof insert 223 fixedly installed with the air guide 222 and the exhaust fan 221, the air guide 222 and the exhaust fan 221 are disposed inside the waterproof insert 223, the air guide 222 and the exhaust fan 221 are assembled and connected through the waterproof insert 223, and the possibility that water flows into the air pipe 21 through the exhaust fan 221 and the air guide 222 is reduced. Waterproof inserted block 223 adopts the plastics material to support with air guide 222 in this application for when waterproof inserted block 223 has water-proof effects with air guide 222, reduce exhaust subassembly 22's weight, air guide 222 and waterproof inserted block 223 integrative injection moulding simultaneously.

Referring to fig. 3 and 4, what is still used for supplying power to the exhaust fan 221 is in the waterproof plug 223, and the exhaust fan 221 is supplied with power by adopting the rechargeable battery 224, so that the environment-friendly use is realized. The exhaust assembly 22 further includes an operation panel 225 electrically connected to the exhaust fan 221 and the battery 224, the operation panel 225 is provided with an on-off button 2251 for controlling the on-off of the exhaust fan 221 and a speed-regulating button 2252 for controlling the rotation speed of the exhaust fan 221, so that a user can turn on the exhaust fan 221 or turn off the exhaust fan 221 by pressing the on-off button 2251 according to the use requirement, or can turn on the speed-regulating button 2252 according to the use requirement to regulate the wind speed of the exhaust fan 221. The operation panel 225 is also provided with an indicator lamp group 2254 for indicating the remaining capacity of the storage battery 224 and a charging inlet 2253 for charging the storage battery 224. When the exhaust assembly 22 is turned on, the indicator lamp group 2254 displays the remaining capacity of the battery 224; the indication lamp group 2254 includes five indication lamps, divides the remaining power of the storage battery 224 into five levels, and indicates the remaining power of the storage battery 224 according to the number of the indication lamps sequentially turned on; when all five indicator lights are turned on, it indicates that the remaining capacity of the battery 224 is full, and when only one indicator light is turned on, it indicates that the remaining capacity of the battery 224 is insufficient. The operating panel 225 is packaged inside the waterproof insert block 223, and the on-off button 2251, the speed regulating button 2252, the charging socket 2253 and the indicating lamp set 2254 are exposed outside the waterproof insert block 223, thereby facilitating operation and indication. Meanwhile, corresponding waterproof measures are taken among the waterproof insert block 223, the start-stop button 2251, the speed regulation button 2252, the charging socket 2253 and the indicator light group 2254, so that water splashed on the waterproof insert block 223 is prevented from permeating into the operation panel 225 and affecting the electrical contact of the operation panel 225.

Referring to fig. 4 and 5, in order to facilitate the installation of the waterproof insert block 223 on the boot body 1, the exhaust assembly 22 further includes an insert shell 226 fixedly disposed on the sidewall of the boot leg 13, one end of the air pipe 21 far away from the boot upper 12 is fixedly connected with the insert shell 226, the upper end of the insert shell 226 is open, and the waterproof insert block 223 is inserted into the insert shell 226 through the opening at the upper end of the insert shell 226. In order to ensure that the waterproof insert block 223 does not affect the exhaust function of the exhaust assembly 22 after being installed in the insert casing 226, one end of the air guide piece 222 far away from the exhaust fan 221 extends out of the waterproof insert block 223, one end of the waterproof insert block 223 far away from the air guide piece 222 corresponds to the exhaust fan and is provided with a vent hole 2231, and the vent hole 2231 is arranged side by side with the on-off button 2251, the speed regulating button 2252, the charging socket 2253 and the indicating lamp group 2254.

Referring to fig. 5 and 6, the insertion housing 226 is provided with a connector 2261 inserted into the air pipe 21, one end of the air guide 222 away from the exhaust fan 221 is coaxially inserted into the connector 2261, and the outer wall of the air guide 222 is abutted against the inner wall of the connector 2261. The end of the interface 2261 facing the air guide 222 protrudes from the bottom of the insertion housing 226, so as to prevent water penetrating into the insertion housing 226 from entering the air tube 21 along the gap between the interface 2261 and the air guide 222. One end of the bottom wall of the inserting shell 226, which is far away from the interface 2261, is provided with a supporting convex block 2262 with the same height as the upper end face of the interface 2261, the waterproof inserting block 223 is supported in a butting manner through the supporting convex block 2262, the bottom wall of the inserting shell 226 is provided with a water outlet hole 2263, the water outlet hole 2263 penetrates through the bottom wall of the inserting shell 226, and water entering the inserting shell 226 can be discharged through the water outlet hole 2263.

Referring to fig. 5 and 6, in order to ensure the stability of the installation of the waterproof insert block 223 on the insert shell 226, the waterproof insert block 223 is clamped with the insert shell 226, and the outer wall of the waterproof insert block 223 is in interference fit with the inner wall of the insert shell 226, so that the waterproof insert block 223 is kept stable after being inserted in the insert shell 226 by using the friction force between the waterproof insert block 223 and the insert shell 226. In order to take out the waterproof insert block 223 from the slot conveniently, the waterproof insert block 223 is provided with a lifting piece 227, the lifting piece 227 is used for separating the waterproof insert block 223 from the insert shell 226, the lifting piece 227 is fixedly arranged on the outer side of the waterproof insert block 223 in the application, the flexible belts are arranged on two sides of the waterproof insert block 223 along the width direction of the waterproof insert block, and after the waterproof insert block 223 is inserted into the insert shell 226, the flexible belts are exposed out of the insert shell 226.

Referring to fig. 1 and 5, according to human foot heat production law, sole and toe heat production are more and the sweat appears easily consequently for improving the radiating effect before the human body, the one end that exhaust subassembly 22 was kept away from to trachea 21 and vamp 12 keep away from the one end intercommunication of leg of a boot 13, and trachea 21 opening is towards waterproof inner chamber 14 front end, so that when trachea 21 extracts waterproof inner chamber 14 air, the extraction that can be more is located the heat that waterproof inner chamber 14 front end toe and sole produced, improve the radiating effect, better assurance user's foot is dry and comfortable nature. In order to ensure the stability of the air pipe 21 mounted on the boot body 1, the air pipe 21 is packaged inside the boot body 1, so that the air pipe 21 is prevented from being exposed outside the boot body 1 to influence the normal use of the waterproof boot, and meanwhile, the air pipe 21 is hidden in the boot body 1 to protect the air pipe 21 and prevent the air pipe 21 from being cut.

The specific use process of waterproof boots that this application embodiment can take a breath automatically does: after a user wears the waterproof boot, when the user feels that the foot is hot, the exhaust fan 221 is started by pressing the start-stop button 2251 on the exhaust assembly 22, the exhaust fan 221 rotates, so that air in the waterproof inner cavity 14 is exhausted through the air pipe 21, after the air in the waterproof inner cavity 14 is extracted, the pressure of the waterproof inner cavity 14 is reduced, and outside air enters the waterproof inner cavity 14 through the top of the boot leg 13. During use, a user can adjust the rotation speed of the exhaust fan 221 by pressing the speed adjusting button 2252; when the user does not need to accelerate the ventilation of the air in the waterproof inner cavity 14, the user can turn off the exhaust fan 221 by pressing the on-off button 2251 again.

The embodiment of the application also discloses a manufacturing method of the waterproof boot capable of automatically ventilating. Referring to fig. 7, the method of manufacturing the waterproof boot includes the steps of:

step S1, installing the air pipe 21, and installing the air pipe 21 on a waterproof boot manufacturing mold;

step S2, glue is poured to form the boot body 1, the boot body 1 seals the air pipe 21, and two ends of the air pipe 21 are exposed out of the boot body 1;

step S3, installing the inserting shell 226, fixedly installing the inserting shell 226 on the side wall of the bootleg 13, and enabling the opening of the inserting shell 226 to be vertically arranged upwards;

step S4, trimming the air pipe 21, trimming the end of the air pipe 21 exposed in the waterproof inner cavity 14 to be flush with the inner wall of the boot body 1, trimming the end of the air pipe 21 exposed on the side wall of the boot leg 13 to enable the air pipe 21 to be inserted into the insertion shell 226;

step S5, the waterproof plug 223 is mounted, and the waterproof plug 223 is plugged into the plug housing 226.

Step S1 of installing the air tube 21 specifically includes that the waterproof boot manufacturing mold includes a foot mold arranged on the inner side and a mold shell arranged on the outer side in a covering manner, and the mold shell is formed by detachably assembling a plurality of modules. Since the air tube 21 needs to be sealed in the boot body 1, an insertion hole needs to be formed in the front end of the boot upper 12 corresponding to the existing foot mold, and another insertion hole needs to be correspondingly formed in the mold shell, so that the air tube 21 can be inserted into the waterproof boot manufacturing mold. Firstly, according to the manufacturing process of a common waterproof boot, a net film in the waterproof boot is sleeved on a foot mould, then a section of air pipe 21 is cut out, the air pipe 21 is adhered to the net film in the waterproof boot, one end of the air pipe 21 is connected with an insertion hole in the foot mould in an inserting mode, and when the formwork is assembled and sleeved on the outer side of the foot mould, the other end of the air pipe 21 is connected with the insertion hole in the formwork in an inserting mode.

In the step S2 of filling the boot body 1, the manner of filling the boot body 1 is the same as that of the conventional general boot body 1.

Before installing the insert shell 226 in step S3, the boot body 1 formed by pouring glue in step S2 needs to be demolded and cooled, and then the insert shell 226 is fixedly installed on the sidewall of the boot shaft 13 by glue, and the insert shell 226 is installed above the portion of the air pipe 21 penetrating out of the boot body 1.

The step S4 of trimming the air tube 21 specifically includes manually trimming the end of the air tube 21 located in the waterproof inner cavity 14 to make the end surface of the air tube 21 flush with the inner wall of the boot body 1, trimming the excess part exposed at the end of the air tube 21 on the side wall of the boot leg 13, and inserting the trimmed end of the air tube 21 into the interface 2261 of the insertion shell 226.

In a preferred example, before the step S1 of installing the air tube 21, the manufacturing method further includes sealing both ends of the air tube 21 for performing a pouring process for forming the boot body 1. During the pouring process of the boot body 1, the rubber flows into the cavity of the waterproof boot manufacturing mold in a liquid manner, and the two ends of the air pipe 21 are blocked to prevent the rubber from entering the air pipe 21 from the end opening of the air pipe 21 to block the air pipe 21 when the rubber flows in the waterproof boot manufacturing mold.

The above are the preferred embodiments of the present invention, and the protection scope of the present embodiment is not limited thereby, so: all equivalent changes made in the structure, shape and principle of the present embodiment are intended to be covered by the protection scope of the present embodiment.

Claims (10)

1. A waterproof boot capable of automatically ventilating is characterized in that: the air-permeable boots comprise boot bodies (1) and air exchange devices (2), wherein the boot bodies (1) comprise boot soles (11), boot uppers (12) and boot legs (13), the boot uppers (12) and the boot soles (11) form waterproof inner cavities (14) for placing feet, and tube parts of the boot legs (13) are communicated with the waterproof inner cavities (14);

breather (2) include trachea (21) with waterproof inner chamber (14) intercommunication and set up in trachea (21) and keep away from exhaust subassembly (22) of waterproof inner chamber (14) one end, exhaust subassembly (22) set up in leg of a boot (13) lateral wall and are used for accelerating the air exchange of waterproof inner chamber (14) and external world.

2. The waterproof boot capable of automatically ventilating as claimed in claim 1, wherein: the air pipe (21) is communicated with one end, far away from the boot leg (13), of the boot surface (12), and the opening of the air pipe (21) faces to the front end of the waterproof inner cavity (14).

3. The waterproof boot capable of automatically ventilating as claimed in claim 1, wherein: exhaust subassembly (22) include exhaust fan (221) and set up air guide (222) between exhaust fan (221) and trachea (21), the one end and trachea (21) of air guide (222) are pegged graft, exhaust fan (221) set up in air guide (222) and keep away from trachea (21) one end port.

4. The waterproof boot capable of automatically ventilating as claimed in claim 3, wherein: exhaust subassembly (22) still include waterproof inserted block (223) of fixed mounting air guide (222) and exhaust fan (221), air guide (222) and exhaust fan (221) set up inside waterproof inserted block (223), still be equipped with battery (224) that are used for exhaust fan (221) power supply in waterproof inserted block (223), air guide (222) are kept away from the one end of exhaust fan (221) and are stretched out waterproof inserted block (223), the one end that air guide (222) were kept away from in waterproof inserted block (223) corresponds the drainage fan and has seted up ventilation hole (2231).

5. The waterproof boot capable of automatically ventilating as claimed in claim 4, wherein: the exhaust assembly (22) further comprises an operation panel (225) electrically connected to the exhaust fan (221) and the storage battery (224), and the operation panel (225) is provided with an on-off button (2251) for controlling the opening and closing of the exhaust fan (221) and a speed regulating button (2252) for controlling the rotating speed of the exhaust fan (221).

6. The waterproof boot capable of automatically ventilating as claimed in claim 4, wherein: exhaust subassembly (22) still including fixed shell (226) of inserting that sets up in leg of a boot (13) lateral wall, the one end that vamp (12) were kept away from in trachea (21) with insert shell (226) fixed connection, it is the opening form setting to insert shell (226) upper end, waterproof plug block (223) with insert shell (226) and peg graft.

7. The waterproof boot capable of automatically ventilating as claimed in claim 6, wherein: waterproof inserted block (223) are equipped with and carry and draw piece (227), carry and draw piece (227) and be used for waterproof inserted block (223) to break away from and insert shell (226).

8. An automatically ventable waterproof boot according to any one of claims 1 to 7, wherein: the boot body (1) is divided into a left boot body and a right boot body, and the exhaust assemblies (22) are respectively installed on the left side of the boot leg (13) of the left boot body and the right side of the boot leg (13) of the right boot body.

9. A method for manufacturing waterproof boots capable of automatically ventilating is characterized in that: the method comprises the following steps:

installing an air pipe (21), and installing the air pipe (21) on the waterproof boot manufacturing mold;

glue is poured to form a boot body (1), the boot body (1) seals an air pipe (21), and two ends of the air pipe (21) are exposed out of the boot body (1);

installing an inserting shell (226), fixedly installing the inserting shell (226) on the side wall of the bootleg (13), and enabling an opening of the inserting shell (226) to be vertically and upwards arranged;

trimming the air pipe (21), trimming the end part of the air pipe (21) exposed in the waterproof inner cavity (14) to be flush with the inner wall of the boot body (1), and trimming the end part of the air pipe (21) exposed on the side wall of the boot leg (13) to ensure that the air pipe (21) is inserted into the insertion shell (226);

and installing a waterproof plug block (223), and plugging the waterproof plug block (223) in the plug shell (226).

10. The method for manufacturing waterproof boots capable of automatic ventilation according to claim 9, wherein: before installing the air tube (21), the manufacturing method further comprises: both ends of the air tube (21) are sealed for performing a filling process for forming the boot body (1).

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