CN113786032B

CN113786032B - A combat boots air compressor arrangement that is used for high altitude individual soldier to resist high-reflection

Info

Publication number: CN113786032B
Application number: CN202110929662.7A
Authority: CN
Inventors: 高宏生; 葛强; 李倩; 孟斌; 常留栓
Original assignee: LOGISTICS UNIVERSITY OF CAPF
Current assignee: LOGISTICS UNIVERSITY OF CAPF
Priority date: 2021-08-13
Filing date: 2021-08-13
Publication date: 2023-07-04
Anticipated expiration: 2041-08-13
Also published as: CN113786032A

Abstract

An air compression device for a high-altitude individual combat boot, which is characterized by comprising: the air cushion is arranged at the bottom of the boot, and is connected with the breathing tube through the compressed air guide tube, and the top end of the breathing tube is connected with an air flow pressure sensor; the boot sole is composed of an upper layer, a middle layer and a lower layer. The invention aims to provide a high-altitude individual anti-high-reflection air compression device for combat boots, which is used for pressurizing lean air to a boot air bag and outputting heated compressed air for human breathing by using the principle of a high-pressure inflator through periodical alternate compression and decompression of an air cushion of the combat boots, so as to solve the problem of adverse effects of power shortage, long time, easy loss and the like of the conventional anti-high-reflection equipment.

Description

A combat boots air compressor arrangement that is used for high altitude individual soldier to resist high-reflection

Technical Field

The invention relates to the field of anti-high-reflection devices, in particular to an air compression device for a high-altitude individual combat boot.

Background

Altitude fighter hiking prevention patrol, high-intensity tasks are carried out by officers and soldiers in high-altitude areas, altitude reactions with different degrees can be met, various discomforts of bodies are caused, and even generation of fighter force can be influenced. The sea level height is about 100kpa at 1 standard atmospheric pressure, the atmospheric pressure is reduced by about 10kpa every 1000 meters of altitude, when the sea level height is increased to 3000 meters, the atmospheric pressure is about 70kpa, and the oxygen partial pressure is about 70% of the sea level; when the pressure rises to 4000 m, the atmospheric pressure is about 60kpa, and the oxygen partial pressure is about 60% of the sea level. It is known that when the partial pressure of oxygen in the inhaled air is as low as 60 to 70%, the oxygen deficiency symptoms occur, and a plateau reaction occurs.

For coping with altitude stress, most of the treatment conditions at present are oxygen inhalation as soon as possible after altitude stress, and the treatment conditions have the advantages of quick effect, and the defects of easy decompensation and increased physical burden due to excessive hypoxia of organisms, inconvenient oxygen production and oxygen irrigation, and difficult control of altitude stress even serious mountain diseases after oxygen exhaustion under extreme conditions. In fact, the main reason of the altitude reaction is that the lower partial pressure of oxygen at the lower atmospheric pressure causes relative hypoxia and physical activity is more and oxygen is consumed, so that the best method for solving the altitude reaction is to prevent the altitude reaction in the early stage of disease, and continuously generate needed compressed air along with the hiking of the altitude, so that the greater the intensity of military operation or physical training is, the more the warm compressed air is provided. The device has the greatest advantages that the device utilizes the self weight of a human body and the kinetic energy impulse of operation to apply work so as to compress air, is not influenced by adverse conditions such as severe cold, lack of electricity, long time, long distance and the like, and can be repeatedly used for many times.

The plateau zone is free from altitude reaction, and if the human body can suck the air with the same density as the plateau everywhere at any time, the problem of altitude hypoxia is solved. The existing portable high-reflection-resistant devices such as bottled oxygen are always exhausted, and the air compression devices are always subjected to electric shock. Therefore, a high-altitude individual anti-high-reflection device is needed, and the problem that the existing anti-high-reflection equipment is affected by adverse conditions such as power shortage, time length, easy loss and the like can be solved.

Disclosure of Invention

According to the technical problems, the invention provides an air compression device for a high-altitude combat boot for a plateau hiking individual soldier, which is characterized by comprising the following components: the air cushion is arranged at the bottom of the boot, and is connected with the air cushion through a conveying pipe and the air bag, and the air bag is connected with the breathing pipe through the compressed air guide pipe; the boot sole is composed of an upper layer, a middle layer and a lower layer, wherein air cushions are respectively arranged at the sole and the heel of the middle layer and are connected with a thin air inlet pipe through a rear sleeve connecting pipe. The top end of the respiratory tube is connected with an airflow pressure sensor.

The top and the bottom of the air cushion are respectively provided with an inserting card, and the inserting cards are respectively inserted into grooves of the upper layer and the lower layer and fixed through glue.

The conveying pipe and the rear sleeve are connected and arranged on the side face of the boot leg.

The air bag is wrapped outside the boot leg.

An air bag is fixed at the rear side of the boot leg.

An air bag is arranged in the middle of the boot leg.

And the conveying pipe and the rear sleeve connecting pipe are respectively provided with a one-way regulating valve.

The upper end opening of the lean air inlet pipe is positioned outside the collar of the rear neck, and downwards passes through the rear sleeve connecting pipe of the heel from the neck through the inner face of the coat along the outer side of the crown surface, and the lower end opening is connected with the rear sleeve connecting pipe, so that the purpose is to ensure that air comes from the horizontal plane of the respiratory tract, and the air on the ground surface of the boot sole is more fresh and sanitary, and meanwhile, the temperature of cold air can be raised.

The compressed gas flow guide pipe adopts an inelastic medical plastic pipe, and ascends to the neck from the upper edge of the boot leg air bag through the inner side of the coat, and is mainly used for guiding and heating cold air;

the breathing tube is a headset-type breathing tube, the lower end of the back of the headset-type breathing tube is connected with the air flow guide tube, and an air flow sensor is arranged at the nostril end of the cheek part of the breathing tube and used for controlling fresh standard atmospheric pressure air conforming to the breathing rhythm of the user.

The lower end of the back of the headset-type breathing tube is connected with the gas flow guide tube in a plug-in mode, the ears of the breathing tube are hung on the outer upper sides of two auricles, two sides of the cheek of the breathing tube are vertically downwards wound to two nostrils in an inclined mode through the temporomandibular part, and the ports of the breathing tube are provided with an airflow sensor for controlling the delivery of compressed air conforming to the breathing rhythm of the user. The two sides of the cheek part of the breathing tube are fixedly connected with the lower end of the back part through the elastic rope, so that the breathing tube is prevented from loosening and falling off during military operation or task running.

The air cushion has extensible elasticity, the air cushion area is equivalent to the front and back stressed area of the actual hiking boot sole, the inserting cards at the top and the bottom of the air cushion can be directly inserted into the slots at the upper layer and the lower layer of the boot sole, and are fixed at the upper layer and the lower layer of the boot sole by using strong adhesive glue, the two air cushions are respectively connected with a connecting pipe, and the connecting pipes pass through the middle layer of the boot sole to the heel and are upwards connected with the air bags along the rear sleeve.

The rear sleeve connecting pipe is provided with a one-way air outlet valve at the opening of the air bag, the connecting pipe at the upper part of the rear sleeve is in cross connection with the downward passing lean air inlet pipe, and an air inlet pipe orifice at the cross part of the rear sleeve and the air inlet pipe orifice is provided with a one-way air inlet valve.

The outer layer of the air bag at the boot leg is soft, the inner layer is inelastic and does not deform, and when the boot bottom is pressed, air in the air cushion is compressed to the air bag; when the boot sole is separated from the compression, the air cushion elastically expands to be original state, and at the moment, the air pressure in the air cushion is lower than the external atmospheric pressure, and the external air is flushed into the air cushion again. The boot sole is pressed and is subjected to decompression so as to circulate, and the air in the air bag is ensured to be compressed to normal atmospheric pressure.

The lean air inlet pipe and the compressed air flow guide pipe are reversely parallel to the outer sides of trouser legs, the upward direction is crossed and fused below the waist trouser belt, and the outer part of the rear worn trouser belt is upward moved to the collar of the rear neck along the inner side of the back coat.

The beneficial effects of the invention are as follows: the main object of the present invention is to compress lean air to a level close to normal atmospheric pressure. The invention aims to provide a high-altitude individual anti-high-reflection air compression device for combat boots, which is used for pressurizing lean air to a boot air bag and outputting heated air with standard air pressure for human body to breathe by utilizing the principle of a high-pressure inflator through periodical alternate compression and decompression of an air cushion of the combat boot, so as to solve the problem that the existing anti-high-reflection equipment is influenced by adverse conditions such as power shortage, time length, easy loss and the like.

The invention provides a high-reaction resistant combat boot, wherein a boot bottom air cushion is periodically compressed and is out of pressure under the action of a one-way regulating valve, lean air is changed into compressed air to enter a boot leg air bag, the compressed air in the air bag is gradually heated along with a guide pipe and is conveyed to a nose hole end through a headset breathing pipe, and the compressed air meeting the breathing rhythm of the boot bottom air cushion is breathed under the action of a breathing pipe nose end air flow pressure sensor, so that the generation of altitude reaction is avoided. Meanwhile, the lean air inlet pipe and the compressed air flow guide pipe are integrally combined and fixed by lacing on the inner side of the coat, so that the temperature of the external cold air is gradually increased. The device is durable, has longer service time, can not influence activities, is not influenced by conditions such as high and cold or no electricity, and is particularly suitable for officers and soldiers engaged in physical activities in the plateau area.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic diagram of the structure of the present invention;

FIG. 3 is a schematic illustration of the inventive air flow;

fig. 4 is a schematic structural view of the one-way regulating valve of the present invention.

FIG. 5 is a schematic view of the air cushion of the present invention.

FIG. 6 is a schematic diagram of the present invention in use.

FIG. 7 is a top view of the bootleg of the present invention.

FIG. 8 is a schematic view of a sole structure according to the present invention.

The following figures are shown: boot leg 1, air cushion 2, gasbag 3, compressed gas honeycomb duct 4, breathing tube 5, rarefied air intake pipe 6, air flow pressure sensor 7, rear cover connecting pipe 8, check valve 9, sole 10.

Detailed Description

Example 1

The invention provides an air compression device for a high-resistance combat boot for a single hiking on a plateau, which is characterized by comprising the following components: the air cushion is arranged at the bottom of the boot, and is connected with the breathing tube through the compressed air guide tube; the boot sole is composed of an upper layer, a middle layer and a lower layer, wherein air cushions are respectively arranged at the sole and the heel of the middle layer and are connected with a thin air inlet pipe through a rear sleeve connecting pipe.

The air bag is arranged at the middle layer on the upper side of the boot leg. And the conveying pipe and the rear sleeve connecting pipe are respectively provided with a one-way regulating valve.

The sole is used for the sole air cushion and the heel air cushion which are subjected to pressure and pressure loss, compressed air regularly passes through the sole connecting pipe, the heel connecting pipe and the rear sleeve connecting pipe and enters the air bag under the action of the one-way regulating valve, wherein the lower part of the rear sleeve connecting pipe is filled with the air with variable density, the opening of the air inlet pipe of the middle connecting pipe is provided with a one-way air inlet valve, and the opening of the air bag of the upper connecting pipe is provided with a one-way air outlet valve; the top of the air bag is connected with a headset breathing tube through a compressed air flow guide tube, and is vertically downwards wound to two nostrils through the upper side outside auricles and two sides of cheeks and obliquely downwards through temporomandibular parts, and compressed air conforming to the breathing rhythm of the user is conveyed and controlled through an air flow sensor.

Example 2

The size of the air cushion of the foot sole of the combat boots 42 is approximately elliptic cylinder, the inner long diameter, the wide diameter and the column height are respectively 8cm, 5cm and 1cm, the heel air cushion 2 is respectively 6cm, 5cm and 1cm, and the sizes of other shoe codes can be properly adjusted. The top and bottom inserting cards of the air cushion can be directly inserted into the slots of the upper and lower layers of the boot bottom and fixed on the upper and lower layers of the boot bottom by using strong adhesive glue. Each air cushion can quickly return to the original maximum state under the condition of not being pressed to form relative vacuum, so that the lean air can be quickly filled again. The inner diameters of the connecting pipe, the air inlet pipe, the flow guide pipe and the breathing pipe are unified to be 1cm, the length of a rear sleeve connecting pipe connected with the sole air cushion is 15cm, and the length of a rear sleeve connecting pipe connected with the heel air cushion is 10cm. The air cushion and the connecting pipe are absolutely isolated from the boot bottom, so that the inside is ensured to be clean and sanitary.

The sole air cushion and the heel air cushion can achieve the aim by bearing the pressure higher than 1 standard atmospheric pressure. Assuming a standard body weight f=60 kg for a 20 year old male, the sole and heel should each bear at least 70% according to the self weight and motor impulse analysis of walking (6 km/h); for running (10 km/h), the sole and heel should bear at least 100% of their own weight, i.e. the sole and heel should bear at least 60kg, respectively. A standard atmospheric pressure is 1kg of force per square centimeter, according to the calculation, the maximum pressure in the walking sole air cushion is 40 kg/(8 cm 5cm pi/4) =1.27 standard atmospheric pressures, and the heel air cushion is 40 kg/(6 cm 5cm pi/4) =1.69 standard atmospheric pressures; the maximum pressure in the running sole air cushion is 60 kg/(8 cm 5cm pi/4) =1.91 standard atmospheric pressures, and the heel air cushion is 60 kg/(6 cm 5cm pi/4) =2.54 standard atmospheric pressures. The 5000m altitude is only 0.5 standard atmospheres, calculated as 10% reduction in barometric pressure per 1000m increase in altitude. From the ideal gas state equation pv=nrt, it is known that each time nRT is actually an equivalent amount in the gas cushion, if the compressed gas volume is reduced by 50%, the pressure increases by a factor of 1. It can be seen that the human body walks at 5000m altitude, the air volume of the air cushion is easily compressed to half, the pressure can reach 1 standard atmosphere, and even if the air can be sucked to 0.8 atmosphere, the risk of hypoxia can be reduced to a great extent.

The volume of the sole air cushion 1 is 8cm 5cm 1cm pi/4 at maximum, the internal volume of a rear sleeve connecting pipe 5 connected with the sole air cushion is 0.5cm pi 15cm, the total volume is 8cm 5cm pi/4 cm+0.5cm 0.5cm pi 15 cm=43.17cm3, and the total volume of the heel air cushion and the connecting pipe is 6cm pi/4 cm 1cm+0.5cm pi 10 cm=31.4cm3. At least 120 steps per minute of walking travel, 1 standard atmospheric air (43.17+31.4) 120/2=4474 cm3 can be generated, and when 12 liters of 1 standard atmospheric air per minute are required for consideration, the combat boot air compression device can provide one third of the standard air quantity at 5000 meters altitude, and can greatly prevent the symptoms of altitude hypoxia.

The boot leg air bags are distributed around the upper side of the boot leg, and the total volume and the pressure of stored gas should meet the breathing rule of a human body. The diameter of the outer periphery of the boot tube air bag is 12cm, the diameter of the inner periphery of the boot tube air bag is 10cm, and the height of the boot tube air bag is 10cm, and the volume of the boot tube air bag is (pi is 6cm, pi is 5 cm) is 10 cm=341.8cm3. Assuming normal travel produces 4474cm3 of normal atmosphere and 24 total breaths per minute, the bootleg cuff air storage must be greater than the tidal volume 4474cm3/24 = 186.4cm3, so the bootleg cuff volume 341.8cm3 of the design meets the requirements set forth above. The total volume of the air bag and the flow guide pipe is 341.8cm3+117.8cm3=459.6cm3, calculated according to the diameters of the breathing pipe and the flow guide pipe and the lengths of the breathing pipe and the flow guide pipe being 150cm, wherein 0.5cm is pi is 150 cm=117.8cm3, and the air bag and the flow guide pipe are contained in the pipe.

Example 3

The pressure sensor of the air flow at the nose end of the headset type breathing tube controls the delivery of compressed air conforming to the breathing rhythm of the headset type breathing tube, and when the sensor senses expiration, the air outlet valve is closed, and otherwise, the air outlet valve is opened.

In order to make the headset formula breathing tube wear more stable, the breathing tube ear hangs in two auricles outside upside, and breathing tube cheek both sides are perpendicular downwards to wind downwards to two nostrils through temporal jaw slant, and breathing tube cheek both sides are fixed through elastic rope connection with the back lower extreme, avoid breathing tube not hard up and lose when military operation or task of taking a task.

According to the highland hiking individual combat boot air compression device provided by the invention, when the sole is pressed, the air inlet pipe is closed due to unbalance of internal pressure and external pressure; when the air pressure in the connecting pipe is larger than that of the air bag, the one-way air outlet valve is opened, and compressed air enters the boot leg air bag. When the sole of the boot loses pressure, the connecting pipe and the sole air cushion are suddenly close to vacuum in the heel air cushion, the one-way air outlet valve of the boot air bag is closed, the one-way air inlet valve is opened, and a large amount of external lean air enters the air cushion again, so that preparation is made for the next circulating compressed air. Compressed air in the boot leg air sac is gradually heated along with the honeycomb duct, is conveyed to the nose hole end through the headset type breathing tube, and breathes to the compressed air conforming to the breathing rhythm of the boot leg air sac under the action of the breathing tube nose end air flow pressure sensor, so that the generation of altitude stress is avoided.

The invention provides a highland hiking individual combat boot air compression device, which is used for paying attention to the fact that all parts of the whole set of device are connected according to the connection relation, a user stands up for 1 minute after standing up, and the air tightness of a rear sleeve connecting pipe and a boot air bag is checked by a barometer. Secondly, the impulse sensitivity and wearing stability of the headset breathing tube air flow pressure sensor should be checked. Finally, the air inlet pipe and the guide pipe are detached after each wearing, the chlorine-containing disinfectant is soaked for disinfection, and the sole air cushion, the heel air cushion and the bootleg air bags should be inflated for disinfection after wearing for a week, so that bacteria are prevented from breeding.

The foregoing has shown and described the basic principles and main features of the present invention and the advantages of the present invention. Various components mentioned in the present invention are common in the art, and it should be understood by those skilled in the art that the present invention is not limited by the above embodiments, and the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications can be made in the present invention without departing from the spirit and scope of the invention, which is defined in the claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. An air compression device for a high-altitude individual combat boot, which is characterized by comprising: the novel pneumatic boot comprises a boot leg, a boot bottom, an air cushion, an air bag, a compressed gas guide pipe, a breathing pipe and a lean air inlet pipe, wherein the air bag is arranged on the upper side of the boot leg, the air cushion is arranged on the middle layer of the boot bottom and connected with the air bag through a conveying pipe, the air bag is connected with the breathing pipe through the compressed gas guide pipe, and the top end of the breathing pipe is connected with an air flow pressure sensor; the boot sole is composed of an upper layer, a middle layer and a lower layer, wherein air cushions are respectively arranged at the sole and the heel of the middle layer and are connected with a thin air inlet pipe through a rear sleeve connecting pipe;

the top and the bottom of the air cushion are respectively provided with an inserting card, the inserting cards are respectively inserted into grooves of the upper layer and the lower layer and fixed through glue, the outer layer of the air bag at the bootleg is soft, the inner layer is not elastic and does not deform, the area of the air cushion is equivalent to the front and rear stressed areas of the actual hiking boot sole, and the air cushion passes through the middle layer of the boot sole to the heel through a connecting pipe and is upwards connected with the air bag along the rear sleeve;

the volume of the air cushion at the sole is 8cm 5cm 1cm pi/4 at the maximum, the inner volume of a rear sleeve connecting pipe connected with the air cushion at the sole is 0.5cm pi 15cm, the total volume is 8cm 5cm pi/4 cm+0.5cm 0.5cm pi 15 cm=43.17cm3, and the total volume of the air cushion and the connecting pipe at the heel is 6cm 5cm pi/4 cm 1cm+0.5cm pi 10 cm=31.4cm3;

the air bags at the bootleg are distributed around the upper side of the bootleg, the outer diameter of the air bags at the bootleg is 12cm, the inner diameter of the air bags at the bootleg is 10cm, and the height of the air bags at the bootleg is 10cm, so that the air bag volume of the bootleg is (pi 6 cm-pi 5 cm) 10 cm=341.8cm3.

2. An air compressor assembly for a high-altitude individual combat tank according to claim 1, wherein said bladder is wrapped around the upper side of the leg of a boot.

3. An air compressor assembly for a high-altitude individual combat boot as claimed in claim 1, wherein an air bag is secured to the rear side of said boot shaft.

4. The air compressor for the high-altitude individual combat boots according to claim 1, wherein the conveying pipe and the rear sleeve connecting pipe are respectively provided with a one-way regulating valve.

5. An air compressing apparatus for high-resistance combat boots for individual hikers on highland according to claim 1, characterized in that the upper opening of the lean air intake pipe is located outside the collar of the rear neck, and passes from the neck to the rear heel sleeve connecting pipe through the inner face of the coat and down the outer side of the crown surface, and the lower opening is connected with the rear heel sleeve connecting pipe, so as to ensure that the air comes from the horizontal surface of the respiratory tract, the air relative to the ground of the sole is more fresh and sanitary, and at the same time, the cold air can be warmed up.

6. The air compression device for the highland individual combat boots is characterized in that the compressed air guide pipe is an inelastic medical plastic pipe and ascends to the neck from the upper edge of a boot air bag through an inner garment and is mainly used for guiding and heating cold air, the breathing pipe is a headset breathing pipe, the lower back end of the headset breathing pipe is connected with the air guide pipe, and an air flow sensor is arranged at the nostril end of the cheek part of the breathing pipe and is used for controlling fresh standard atmospheric pressure air meeting the breathing rhythm of the wearer.

7. The air compression device for the highland individual combat boots, which is disclosed in claim 6, is characterized in that the lower end of the back part of the headset type breathing tube is connected with an air flow guiding tube in a plug-in mode, the ears of the breathing tube are hung on the outer upper sides of two auricles, the two sides of the cheek part of the breathing tube are vertically downwards wound to the two nostrils through the temporomandibular part in an inclined mode, the ports of the breathing tube are provided with an air flow sensor for controlling the delivery of compressed air conforming to the breathing rhythm of the user, and the two sides of the cheek part of the breathing tube are fixedly connected with the lower end of the back part through an elastic rope so as to avoid loosening and falling of the breathing tube during military operation or task.

8. The air compressor for the high-resistance combat boots for the individual hikers on the highland according to claim 7, wherein the air cushion has extensible elasticity, the air cushion area is equivalent to the front and rear stressed areas of the actual hikers, the inserting cards at the top and the bottom of the air cushion can be directly inserted into the slots at the upper layer and the lower layer of the hikers, the inserting cards are fixed at the upper layer and the lower layer of the hikers by using strong adhesive glue, the two air cushions are respectively connected with a connecting pipe, and the connecting pipe passes through the middle layer of the hikers to the heel and is upwards connected with the air bags along the rear sleeve.

9. The air compressor for the high-resistance combat boots of the individual hikers on the highland according to claim 7, wherein the rear sleeve connecting pipe is provided with a one-way air outlet valve at the opening of the air bag, the rear sleeve upper connecting pipe is in cross connection with a lean air inlet pipe which runs downwards, the air inlet pipe orifice at the cross part of the rear sleeve upper connecting pipe and the lean air inlet pipe is provided with a one-way air inlet valve, the lean air inlet pipe and the compressed air guide pipe are reversely parallel to the outer sides of trouser legs, the upper part of the lean air inlet pipe and the compressed air guide pipe are in cross fusion below a waist trouser belt, and the outer part of the rear worn trouser belt is arranged along the inner side of a back coat and goes up to the collar of the rear neck.