CN116530753A - Anti-radiation low-temperature-resistant military glove and production process thereof - Google Patents

Abstract

The invention discloses a radiation-proof low-temperature-resistant military glove, which relates to the technical field of gloves and comprises an outer layer sleeve, an inner layer sleeve, a tightening assembly and a fixing assembly, and also discloses a production process of the radiation-proof low-temperature-resistant military glove, comprising the following steps of: the invention is characterized in that the outer layer processing, the inner layer processing, the heat preservation processing and the accessory processing are integrally stitched, the raw materials of the outer layer sleeve are compounded by metal fiber radiation-proof fabric, wear-resistant nylon fabric and waterproof fabric, the metal fiber radiation-proof fabric, the wear-resistant nylon fabric and the waterproof fabric are matched, the radiation-proof function is realized, the wear resistance and the waterproof performance of the outer layer sleeve are ensured, the raw materials of the inner layer sleeve are flocking fabric, the flocking fabric has good heat preservation effect, the outer layer sleeve and the inner layer sleeve are matched, the low temperature resistant effect of the glove is ensured while the radiation-proof function is realized, and therefore, soldiers of armies can use the glove in various environments conveniently.

Description

Anti-radiation low-temperature-resistant military glove and production process thereof

Technical Field

The invention relates to the technical field of gloves, in particular to a radiation-proof low-temperature-resistant military glove and a production process thereof.

Background

The glove is a hand warming or labor protection article and also has decorative use, the glove is used as common protective equipment and is widely arranged in various industries including the army, and the requirement on the glove is higher, in particular to the radiation resistance and the low temperature resistance of the glove due to the special working environment of soldiers in the army.

The glove according to application No. 2016111495435 includes a stretchable fiber glove body, a coating layer containing a synthetic resin or rubber as a main component covering at least a finger portion and a palm portion of an outer surface of the glove body, and 1 or more impact-resistant pads containing a synthetic resin as a main component and attached to at least a part of an outer surface side of a back side coating layer of the glove body, and the impact-resistant pads are sewn to the glove body.

An anti-slip glove according to application No. 2014800450656, comprising: a fiber glove body (1) for covering the hand of a wearer, and a porous layer (2) impregnated and laminated on at least the palm area of the outer surface side of the glove body (1), wherein the porous layer (2) is composed of a resin composition mainly composed of polyurethane, and the outer surface of the palm area is formed into a concave-convex shape by press working, but the glove is easily detached by elastic locking only at the wrist when in use, and has poor low temperature resistance.

When the common glove is used, the wrist is generally locked by adopting an elastic belt, the locking capability is limited, the glove is easy to fall off in the use process, and when the glove is locked by the locking rope, the wrist is easy to be hurt due to the fact that the locking rope is very thin when the locking rope is wound tightly, the blood supply of the hand is easy to be insufficient, the low temperature resistance capability is limited when the glove is only used for heat preservation by means of cotton velvet materials of the glove, and meanwhile, when the glove is impacted by heavy objects, the hand is difficult to be prevented from being damaged by the impact of the heavy objects by means of protection of the glove.

Therefore, it is necessary to invent a radiation-proof low-temperature resistant military glove and a production process thereof to solve the above problems.

Disclosure of Invention

The invention aims to provide a radiation-proof low-temperature-resistant military glove and a production process thereof, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the anti-radiation low-temperature-resistant military glove comprises an outer layer sleeve, an inner layer sleeve, a tightening assembly and a fixing assembly, wherein the inner layer sleeve is arranged in the outer layer sleeve, the tightening assembly is arranged at one end of the outer layer sleeve and one end of the inner layer sleeve, and the fixing assembly is arranged above the tightening assembly;

the inner layer sleeve comprises a heat preservation layer, a heat preservation air bag is arranged on the outer side of the heat preservation layer, five auxiliary air bags are further arranged on the outer side of the heat preservation layer, and an electric heating wire is arranged on the inner side, far away from the heat preservation layer, of the heat preservation air bag;

the tightening assembly comprises a connecting sleeve and a locking rope, the connecting sleeve is arranged at the wrist positions of the outer layer sleeve and the inner layer sleeve, a pressure sensor is arranged at the inner side of the connecting sleeve, and the heat preservation air bag is inserted into the connecting sleeve;

the fixing assembly comprises a fixing seat, a motor is arranged at the top end of the fixing seat, a winding seat is rotatably arranged on one side, away from the connecting sleeve, of the fixing seat, a limiting gear is arranged on the inner side of the winding seat, and two ends of the locking rope are connected with the outer side of the winding seat.

According to the invention, by arranging the devices such as the motor, the pressure sensor, the heat-insulating air bag, the winding seat, the locking rope and the like, a user can manually or electrically adjust the tightness degree of the locking rope according to the use condition, and when the user is impacted by a heavy object, the impact of the heavy object is buffered by the cooperation of the devices such as the pressure sensor, the motor, the heat-insulating air bag and the like, so that the hand of the user is protected, meanwhile, the heat-insulating effect of the glove is improved by the cooperation of the devices such as the locking rope and the heat-insulating air bag, and the use safety and low temperature resistance of equipment are improved

Preferably, the heat preservation sets up in the inside of gloves main part, the heat preservation is made by flocking surface fabric, and five supplementary gasbag sets up respectively in five finger positions on heat preservation surface, be provided with the connection trachea between supplementary gasbag and the heat preservation gasbag, the inside of heat preservation gasbag and supplementary gasbag all is filled with carbon dioxide gas, the part that the heat preservation gasbag is located wrist department is annular, and the annular heat preservation gasbag of wrist department is favorable to the buffering to locking rope power, avoids locking rope to the wrist to strain.

Preferably, the heating wire comprises a main heating wire and an auxiliary heating wire, wherein the main heating wire is arranged in a serpentine structure, the main heating wire is arranged above the heat-preserving air bag, the auxiliary heating wire is arranged in a linear structure, the auxiliary heating wire is arranged above the auxiliary air bag, and the heating wire is used for heating the heat-preserving air bag and increasing the low temperature resistance of the glove.

Preferably, the outside of adapter sleeve is provided with the elastic sleeve, the inside of elastic sleeve is provided with the empty slot of two square structures, two through-holes have been seted up in the top of empty slot run through, locking rope sets up in the inside of empty slot, locking rope's top and through-hole pass through connection, and the empty slot is used for spacing to locking rope.

Preferably, the fixing base is fixedly arranged on the upper surface of the connecting sleeve, the rolling seat is movably arranged on the upper surface of the fixing base through a bearing, the rolling seat is arranged into an annular structure, one end of the locking rope is fixedly arranged on the outer side of the rolling seat, and the rolling seat rotates to roll the locking rope so as to lock the glove at the wrist.

Preferably, the top of rolling seat is fixed and is provided with the annular plate, the inboard of annular plate is provided with ring gear, limit gear sets up in ring gear's inboard.

Preferably, the middle part of the limiting gear is provided with a limiting sleeve in a penetrating way, the output end of the motor penetrates through the limiting sleeve, the bottom end of the motor is fixedly arranged at the top end of the fixing seat, and the motor is used for electrically adjusting the tightness of the locking rope.

Preferably, the top of motor is provided with the locating plate, be provided with the extension spring between locating plate and the limiting gear, limiting gear's upper surface fixed is provided with annular structure's extension board, the fixed briquetting that is provided with in top of extension board, the extension spring is used for manual regulation and electric control to switch.

Preferably, the outer layer sleeve comprises a glove main body, the glove main body is formed by compounding metal fiber anti-radiation fabric, wear-resistant nylon fabric and waterproof fabric, the metal fiber anti-radiation fabric, the wear-resistant nylon fabric and the waterproof fabric are sequentially arranged from outside to inside, a deformation groove is formed in the surface of the glove main body, the deformation groove is formed in the thumb position on the surface of the glove main body, a plurality of elastic bands are arranged in the deformation groove, five groups of bending grooves are formed in the lower surface of the heat preservation layer, five groups of bending grooves are respectively formed in five fingers on the surface of the heat preservation layer, and the metal fiber anti-radiation fabric, the wear-resistant nylon fabric and the waterproof fabric are used for increasing the physical properties of the glove, and the bending grooves enable the fingers to be more flexible.

A production process of a radiation-proof low-temperature-resistant military glove comprises the following steps:

firstly, carrying out outer layer processing, namely sequentially bonding a metal fiber radiation-proof fabric, a wear-resistant nylon fabric and a waterproof fabric through glue to obtain a fabric raw material of an outer layer sleeve, and carrying out cutting and sewing processing on the fabric raw material according to the processing size of the glove so as to finish the preparation of the outer layer sleeve;

cutting and sewing the flocking fabric raw material for producing the inner layer sleeve to finish the preparation of the main body of the inner layer sleeve, wherein the size of the inner layer sleeve is ensured to be slightly smaller than that of the outer layer sleeve in the cutting and sewing process, and a through groove for installing the heat preservation air bag for adapting is formed in the middle part above the main body of the inner layer sleeve;

step three, processing the heat preservation layer, sewing the heat preservation air bag to the through groove formed in the step two, and sewing the auxiliary air bag at five finger positions on the upper surface of the inner layer sleeve main body;

step four, processing accessories, cutting raw materials of the tightening assembly, loading a locking rope into the tightening assembly, respectively producing and assembling a plurality of structures of the fixing assembly, and adhering and fixing the assembled fixing assembly on the upper surface of the tightening assembly through glue;

step five, integrally sewing, namely firstly putting the inner layer sleeve prepared in the step three into the outer layer sleeve prepared in the step one, then sewing the tightening assembly at one ends of the inner layer sleeve and the outer layer sleeve, and finishing the sealing between the inner layer sleeve and the outer layer sleeve in a sewing mode to finish the production of the glove.

The invention has the technical effects and advantages that:

1. according to the invention, the outer layer sleeve and the inner layer sleeve are arranged, the raw materials of the outer layer sleeve are compounded by the metal fiber radiation-proof fabric, the wear-resistant nylon fabric and the waterproof fabric, the metal fiber radiation-proof fabric, the wear-resistant nylon fabric and the waterproof fabric are matched, the radiation-proof function is realized, the wear resistance and the waterproof performance of the outer layer sleeve are ensured, the raw materials of the inner layer sleeve are flocked fabric, and the flocked fabric has a good heat preservation effect, so that the heat preservation effect of the glove can be ensured, the outer layer sleeve and the inner layer sleeve are matched, the low temperature resistant effect of the glove is ensured while the radiation-proof function is realized, and the glove is convenient for soldiers of armies to use under various environments.

2. According to the glove, the inner layer sleeve comprises the heat preservation layer, the heat preservation air bag and the auxiliary air bag are arranged on the upper surface of the heat preservation layer, the electric heating wires are arranged on the upper surfaces of the heat preservation air bag and the auxiliary air bag, when the glove is used, the electric heating wires can supply power through the mobile power supply externally connected with the glove, so that the heat preservation air bag and the auxiliary air bag can be heated, the heating effect is achieved, when the electric heating wires are not connected with the power supply, a certain space is reserved between the outer layer sleeve and the inner layer sleeve, and therefore heat conduction between the outer layer sleeve and the inner layer sleeve at the back of a user can be blocked, heat exchange between the inner layer sleeve and external low temperature is reduced, and the low temperature resistant effect can be achieved.

3. According to the glove tightening device, the tightening assembly and the fixing assembly are arranged, when a user uses the glove, the tightening assembly can be sleeved on the wrist of the user, and the fixing assembly can tighten the locking rope in the tightening assembly, so that the tightening assembly can be tightly sleeved on the wrist of the user, the wearing firmness of the glove is improved, the tightness of the glove is improved, and therefore low-temperature air is prevented from entering the glove through the tightening assembly, and the effect of improving the low-temperature resistance effect of the glove is achieved.

4. According to the invention, by arranging the devices such as the motor, the pressure sensor, the heat-insulating air bag, the winding seat, the locking rope and the like, a user can manually or electrically adjust the tightness degree of the locking rope according to the use condition, and when the user is impacted by a heavy object, the impact of the heavy object is buffered by the cooperation of the devices such as the pressure sensor, the motor, the heat-insulating air bag and the like, so that the hand of the user is protected, meanwhile, the heat-insulating effect of the glove is improved by the cooperation of the devices such as the locking rope and the heat-insulating air bag, and the use safety and the low temperature resistance of equipment are improved.

Drawings

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

FIG. 2 is an exploded view of the overall structure of the present invention;

FIG. 3 is a schematic view of the outer jacket structure of the present invention;

FIG. 4 is a schematic view of the inner jacket structure of the present invention;

FIG. 5 is a schematic view of the insulation layer structure of the present invention;

FIG. 6 is a schematic cross-sectional view of a thermal insulation layer according to the present invention;

FIG. 7 is a schematic view of the tightening and securing assembly of the present invention;

FIG. 8 is a schematic cross-sectional view of the tightening assembly of the present invention;

FIG. 9 is a schematic diagram of a void cell structure of the present invention;

FIG. 10 is a schematic diagram of a locking rope structure according to the present invention;

FIG. 11 is a schematic cross-sectional view of a securing assembly according to the present invention;

fig. 12 is an exploded view of the structure of the fixing assembly of the present invention.

In the figure: 1. an outer layer sleeve; 2. an inner layer sleeve; 3. a tightening assembly; 4. a fixing assembly; 101. a glove body; 102. a deformation groove; 103. an elastic belt; 201. a heat preservation layer; 202. a thermal insulation air bag; 203. an auxiliary air bag; 204. connecting an air pipe; 205. a main heating wire; 206. an auxiliary heating wire; 207. a bending groove; 301. connecting sleeves; 302. an elastic sleeve; 303. a hollow groove; 304. a through hole; 305. a locking rope; 401. a fixing seat; 402. a rolling seat; 403. an annular plate; 404. a ring gear; 405. a limit gear; 406. a limit sleeve; 407. a motor; 408. a positioning plate; 409. a tension spring; 410. an extension plate; 411. pressing the blocks.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

The invention provides a radiation-proof low-temperature-resistant military glove as shown in fig. 1 to 12, which comprises an outer layer sleeve 1, an inner layer sleeve 2, a tightening assembly 3 and a fixing assembly 4, wherein the inner layer sleeve 2 is arranged in the outer layer sleeve 1, the tightening assembly 3 is arranged at one end of the outer layer sleeve 1 and one end of the inner layer sleeve 2, and the fixing assembly 4 is arranged above the tightening assembly 3.

The outer layer sleeve 1 comprises a glove main body 101, the glove main body 101 is formed by compounding metal fiber radiation-proof fabric, wear-resistant nylon fabric and waterproof fabric, and the metal fiber radiation-proof fabric, the wear-resistant nylon fabric and the waterproof fabric are sequentially arranged from outside to inside.

Specifically, the deformation groove 102 is formed in the upper surface of the glove body 101, the deformation groove 102 is formed in the thumb of the upper surface of the glove body 101, a plurality of elastic belts 103 are arranged in the deformation groove 102, the deformation groove 102 enables the glove body 101 at the thumb position of a user to move flexibly, and the elastic belts 103 improve the structural strength of the thumb position of the glove body 101, so that the service life of the glove body 101 is prolonged.

The inner layer sleeve 2 comprises an insulating layer 201, the insulating layer 201 is arranged inside the glove body 101, the insulating layer 201 is made of flocking fabric, and the flocking fabric has good insulating effect.

Specifically, the middle part of the upper surface of the heat preservation 201 is fixedly provided with a heat preservation air bag 202, the upper surface of the heat preservation 201 is fixedly provided with five auxiliary air bags 203, and the five auxiliary air bags 203 are respectively arranged at five finger positions on the upper surface of the heat preservation 201, a connecting air pipe 204 is arranged between the auxiliary air bags 203 and the heat preservation air bags 202, when a user uses the heat preservation air bag 202 and the auxiliary air bags 203, the temperature of the heat preservation air bags 202 and the auxiliary air bags 203 rises at the temperature of the back of the hand of the user, the air in the heat preservation air bags 202 and the auxiliary air bags 203 is heated and expanded, so that the gap between the inner layer sleeve 2 and the outer layer sleeve 1 is increased, the heat exchange between the outer layer sleeve 1 and the inner layer sleeve 2 at the back of the hand of the user is further reduced, the low temperature resistant effect is also achieved, and meanwhile, the heat preservation air bags 202 and the auxiliary air bags 203 are arranged at the back of the hand of the user, so that the normal hand movement of the user is not influenced.

More specifically, the upper surface of heat preservation 201 is provided with the heating wire, and the heating wire includes main heater 205 and supplementary heater 206, main heater 205 sets up to snakelike structure, and main heater 205 sets up in the top of heat preservation gasbag 202, supplementary heater 206 sets up to linear structure, and supplementary heater 206 sets up in the top of supplementary gasbag 203, the heater can be through the external portable power source of the interface of its one end, the heater circular telegram generates heat this moment, the heater after the heat can heat preservation gasbag 202 and supplementary gasbag 203, make the gas in heat preservation gasbag 202 and the supplementary gasbag 203 heated, the laminating of the back of the hand of the user of heat preservation gasbag 202 after the heating can promote the temperature of user's back of the hand, thereby can promote the low temperature resistant effect of gloves.

And, the inside of the heat preservation airbag 202 and the auxiliary airbag 203 are filled with carbon dioxide gas, which has good heat preservation effect and limited expansion range after being heated.

Meanwhile, five groups of bending grooves 207 are formed in the lower surface of the heat preservation 201, and the five groups of bending grooves 207 are respectively formed in five fingers on the lower surface of the heat preservation 201, and bending of the fingers of a user is facilitated due to the fact that the bending grooves 207 are formed.

The tightening assembly 3 comprises a connecting sleeve 301, wherein the connecting sleeve 301 is fixedly arranged at one end of the glove body 101 and one end of the heat insulation layer 201.

Specifically, the outside of adapter sleeve 301 is provided with elastic sleeve 302, and elastic sleeve 302's inside is provided with two square structure's empty groove 303, and two through-holes 304 have been run through on the top of empty groove 303, and the inside of empty groove 303 is provided with locking rope 305, and locking rope 305's top and through-hole 304 run through, and locking rope 305 can realize tightening up elastic sleeve 302 after the rolling to guarantee to tighten up subassembly 3 closely laminating in user's wrist department.

The fixing assembly 4 includes a fixing base 401, and the fixing base 401 is fixedly disposed on the upper surface of the connecting sleeve 301.

Specifically, the upper surface of the fixing seat 401 is movably provided with a winding seat 402 through a bearing, the winding seat 402 is of an annular structure, one end of the locking rope 305 is fixedly arranged on the outer side of the winding seat 402, and the winding seat 402 can realize winding of the locking rope 305.

More specifically, an annular plate 403 is fixedly disposed at the top end of the winding seat 402, a ring gear 404 is disposed on the inner side of the annular plate 403, and a limit gear 405 is disposed on the inner side of the ring gear 404.

And, the middle part of limit gear 405 runs through and is provided with stop collar 406, and stop collar 406 is passed to the output of motor 407, and stop collar 406 can reciprocate on the output shaft of motor 407, and the output shaft of motor 407 and the hole of stop collar 406 are the quadrangle, and the bottom mounting of motor 407 sets up in the upper surface of fixing base 401, and motor 407 and stop collar 406 cooperate for limit gear 405 rotates, simultaneously because the self-locking function of motor 407, thereby make limit gear 405 can realize spacing and the drive to ring gear 404.

Moreover, the top of motor 407 is fixed and is provided with locating plate 408, is provided with extension spring 409 between locating plate 408 and the limiting gear 405, and extension spring 409 can apply pulling force to limiting gear 405 for limiting gear 405 keeps in ring gear 404's inside, and limiting gear 405 and ring gear 404 meshing can realize spacing to ring plate 403, thereby can realize spacing to rolling seat 402, and then can realize spacing to locking rope 305.

Further, the upper surface of the limiting gear 405 is fixedly provided with an extension plate 410 with an annular structure, the top end of the extension plate 410 is fixedly provided with a pressing block 411, and the position of the limiting gear 405 is convenient for a user to adjust due to the arrangement of the pressing block 411.

When a user uses the glove, the user firstly inserts hands into the inner layer sleeve 2 through the tightening assembly 3, then tightens up the tightening assembly 3 through the fixing assembly 4, so that the glove can be worn, the inner layer sleeve 2 can isolate hands of the user from external cold air in the use process of the glove so as to realize a low temperature resistant function, and the outer layer sleeve 1 can realize radiation isolation so as to achieve a radiation protection effect.

When a user wears the glove, the user can downwards press the pressing block 411, the pressing block 411 drives the limiting gear 405 to downwards move through the extension plate 410, so that the limiting gear 405 is separated from the ring gear 404, the limiting of the ring gear 404 is released, the user can toggle the ring plate 403 by using other fingers, the ring plate 403 drives the rolling seat 402 to rotate, the rolling seat 402 rotates to roll the locking rope 305, and the locking rope 305 can tighten the elastic sleeve 302 after rolling, so that the tightening assembly 3 is tightly attached to the wrist of the user.

Meanwhile, a user can also start the motor 407, the output end of the motor 407 drives the stop collar 406 to rotate, the stop collar 406 rotates to drive the rolling seat 402 to rotate through the stop gear 405 and the ring gear 404, the rolling seat 402 rotates to roll the locking rope 305, the locking rope 305 can tighten the elastic sleeve 302 after rolling, so that the tightening assembly 3 is tightly attached to the wrist of the user, and the self-locking function of the motor 407 can prevent the rolling seat 402 from rotating when the motor 407 is not electrified.

In the use process, a user can externally connect a mobile power supply through an interface at one end of the heating wire, at the moment, the heating wire is electrified to generate heat, the heated heating wire can heat the heat preservation air bag 202 and the auxiliary air bag 203, so that gas in the heat preservation air bag 202 and the auxiliary air bag 203 is heated, the heated heat preservation air bag 202 is attached to the back of the hand of the user, the temperature of the back of the hand of the user can be raised, the low temperature resistant effect of the glove can be improved, when the heating wire is not powered on, the heat preservation air bag 202 and the auxiliary air bag 203 are arranged to enable a certain gap to be formed between the inner layer sleeve 2 and the outer layer sleeve 1, and therefore, the blocking of heat conduction between the outer layer sleeve 1 and the inner layer sleeve 2 at the back of the hand of the user can be achieved, and further, the heat exchange between the inner layer sleeve 2 and the external low temperature is reduced, and the low temperature resistant effect can be achieved.

Example two

According to the anti-radiation low-temperature-resistant military glove based on the first embodiment, although the glove can be locked at the wrist when in use and achieves the heat preservation effect by blocking the hand from being connected with the outside or heating through the heating wire, when the glove is locked on the elastic sleeve 302 through the locking rope 305 in the specific use process, the wrist is easily hurt due to the fact that the locking rope 305 is very thin when the locking rope 305 is wound tightly, and the hand blood supply is easily insufficient, meanwhile, the heat preservation air bag 202 only covers the back of the hand and the five fingers, the heat preservation effect is limited, the stable heat preservation effect is difficult to be achieved at the wrist, and meanwhile, the protection effect of the glove is limited only by virtue of the hand when the hand is impacted by heavy objects, therefore, the following technical scheme is proposed:

as shown in fig. 1 to 12, a radiation-proof low-temperature-resistant military glove is provided, a heat-insulating air bag 202 is inserted into a connecting sleeve 301 at a locking rope 305, a part of the heat-insulating air bag 202 at a wrist is annular, a pressure sensor is arranged at the inner side of the connecting sleeve 301, when the locking rope 305 is locked, the annular heat-insulating air bag 202 at the wrist is buffered, the wrist is prevented from being hurt when the locking rope 305 is wound in a rolling manner, the pressure sensor is used for pressure at the wrist of a user, further, the tightening condition of the locking rope 305 is judged, and a tightening assembly 3 and a fixing assembly 4 can be detached as a whole.

The length of the locking rope 305 on the side close to the finger is longer than that of the locking rope 305 on the side far from the finger.

In the use process of the invention, a hand of a user is inserted from the elastic sleeve 302, then the index finger of the other hand of the user presses the pressing block 411 downwards, so that the ring gear 404 and the limiting gear 405 are separated, the limit of the winding seat 402 is released, then the thumb and the middle finger are pinched on the ring plate 403 to rotate, the rotation of the ring plate 403 drives the winding seat 402 to rotate, or the user can start the motor 407, the output end of the motor 407 drives the limiting sleeve 406 to rotate, the rotation of the limiting sleeve 406 drives the winding seat 402 to rotate through the limiting gear 405 and the ring gear 404, the locking rope 305 is rotationally tightened by the rotation of the winding seat 402, after the locking rope 305 is locked by the rotation of the winding seat 402, the index finger stops pressing the pressing block 411, the ring gear 404 and the limiting gear 405 are clamped again under the action of the tension spring 409, so that the ring plate 403 is limited, at the moment, one glove is worn, and the other hand is worn.

In the process of locking the locking rope 305 by rotating the winding seat 402, because the annular heat-insulating air bag 202 and the elastic sleeve 302 exist between the locking rope 305 and the wrist, the locking rope 305 can squeeze the heat-insulating air bag 202 and the elastic sleeve 302 along with the tightening of the locking rope 305, the heat-insulating air bag 202 can disperse the squeezing force of the locking rope 305, the locking rope 305 can be prevented from directly squeezing the skin of the wrist, the hand is prevented from being hurt by the tightening of the locking rope 305, the pressure sensor can also detect the pressure applied to the wrist to prevent the wrist from being hurt, and when the hand is used for fist, the diameter of the wrist can be enlarged due to the tightening of the muscle at the wrist, the diameter of the wrist can not be directly contacted with the thin locking rope 305 to cause the hand to be hurt, the user's wrist is protected, and the use safety of the glove is improved.

When a user uses the glove in winter, the wrist of the common glove is tightened to avoid cold wind from entering the hand, but the glove has limited heat preservation effect on the hand, and in the process of locking the locking rope 305 by rotating the winding seat 402 of the glove, the length of the locking rope 305 close to one side of the finger is longer than that of the locking rope 305 far away from one side of the finger, so that the air in the heat preservation air bag 202 flows to the back of the hand and the finger by extruding the locking rope 305 in the tightening process, and the heat preservation air bag 202 at the back of the hand and the finger can transversely expand due to the constraint of the glove main body 101 at the outer side of the heat preservation air bag 202, so that the contact area between the heat preservation air bag 202 and the hand is larger, the effect of heating and heat preservation of the heat preservation air bag 202 is better when the wrist is sealed, and the annular heat preservation air bag 202 at the wrist is heated and preserved, so that the low temperature resistance effect of the glove is improved.

In the process of locking the locking rope 305 by rotation of the winding seat 402, the winding locking degree of the locking rope 305 is stronger, the detection value of the pressure sensor is larger, the expansion volume of the thermal insulation air bag 202 at the back of the hand and the finger is larger, at the moment, the distance between the wrist and the outside is shortened due to extrusion of the thermal insulation air bag 202 at the wrist, so that the thermal insulation effect at the wrist is poor, the winding locking degree of the locking rope 305 is weaker, the detection value of the pressure sensor is smaller, when the glove is used, due to the movement of five fingers, the gas of the thermal insulation air bag 202 at the back of the hand and the finger is extruded into the wrist, at the moment, the thermal insulation effect of the thermal insulation air bag 202 at the back of the hand and the finger is poor, and the thermal insulation effect of the thermal insulation air bag 202 at the wrist is enhanced, so that a user can manually adjust the locking degree of the locking rope 305 according to the situation or adjust the locking degree of the locking rope 305 through the assistance of the motor 407, and convenience of equipment is improved.

After the rotation of the winding seat 402 locks the locking rope 305, the heat-insulating air bag 202 at the wrist is extruded by the locking rope 305, so that the elastic sleeve 302 is tightly attached to the wrist, on one hand, the sealing effect of the glove on the hand is ensured, mosquitoes are prevented from entering the hand from the wrist, on the other hand, the comfort level of the wrist is ensured, and the use effect of the glove is improved.

After the locking rope 305 is locked by the rotation of the winding seat 402, the heat preservation air bag 202 is extruded by the locking rope 305, so that the pressure sensor at the inner side of the connecting sleeve 301 is tightly attached to the wrist, and the pressure sensor can detect the pressure at the wrist of a user more accurately.

The user is when the glove is used, when the heavy object is directly pounded at the palm back, the heavy object is firstly acted on outer cover 1, then inner cover 2 and hand, and be provided with heat preservation gasbag 202 on the inner cover 2, when receiving heavy object impact force, heat preservation gasbag 202 in back of the hand department can be extruded, gaseous in the back of the hand department heat preservation gasbag 202 will extrude finger and wrist department this moment, thereby reach preliminary effect of unloading, annular heat preservation gasbag 202 in wrist department converts the force of heavy object striking single direction into a plurality of directions and acts on wrist and locking rope 305 department, its effect of unloading is more obvious, the pressure sensor of wrist department detects the pressure increase that the wrist received this moment, and when pressure exceeds the settlement threshold value, the auto-lock function of motor 407 disappears, under heavy object pressure influence, motor 407 is reversed, and because motor 407 is not circular telegram, the reversal of its motor 407 can receive the magnetic field resistance, the reversal of motor 407 is slowly carried out, locking rope 305 will be released, in order to avoid the department to receive the pressure too big and harm, when the pressure value is less than the threshold value, for the heavy object motor 202 is in order to directly contact with the back of the palm department, thereby the tight and tight for the palm back of the user is used as the palm back of the palm, thereby the effect of the palm cushion is further can be reached in order to protect the palm, the palm cushion is used in the palm cushion, and the effect is directly is further used to protect the palm is more than the palm cushion, and is used to the palm cushion is more than the palm cushion.

In the process of using the glove, when the hand of a user is injured and emergency hemostasis is needed, the tightening assembly 3 and the fixing assembly 4 can be taken as a whole for disassembly, then the tightening assembly 3 and the fixing assembly 4 are used for tightening hemostasis according to the injured condition, and the tightening assembly 3 and the fixing assembly 4 can be used for arms and legs when being taken as a whole for tightening hemostasis, so that the versatility of the glove is improved.

Example III

The invention also provides a production process of the radiation-proof low-temperature-resistant military glove, which comprises the following steps of:

step one, outer layer processing, namely sequentially bonding a metal fiber radiation-proof fabric, a wear-resistant nylon fabric and a waterproof fabric through glue to obtain a fabric raw material of the outer layer sleeve 1, and cutting and sewing the fabric raw material according to the processing size of the glove to finish the preparation of the outer layer sleeve 1.

Step two, inner layer processing, namely cutting and sewing the flocking fabric raw material for producing the inner layer sleeve 2 to finish the preparation of the main body of the inner layer sleeve 2, wherein in the cutting and sewing process, the size of the inner layer sleeve 2 is ensured to be slightly smaller than that of the outer layer sleeve 1, and a through groove for installing the heat preservation air bag 202 in a matched mode is formed in the middle of the upper part of the main body of the inner layer sleeve 2.

And step three, processing the heat preservation layer 201, sewing the heat preservation air bag 202 to the through groove formed in the step two, and sewing the auxiliary air bag 203 at five finger positions on the upper surface of the main body of the inner layer sleeve 2.

And fourthly, processing accessories, cutting raw materials of the tightening assembly 3, loading the locking rope 305 into the tightening assembly 3, respectively producing and assembling a plurality of structures of the fixing assembly 4, and adhering and fixing the assembled fixing assembly 4 on the upper surface of the tightening assembly 3 through glue.

Step five, integrally sewing, namely firstly putting the inner layer sleeve 2 prepared in the step three into the outer layer sleeve 1 prepared in the step one, then sewing the tightening assembly 3 at one ends of the inner layer sleeve 2 and the outer layer sleeve 1, and finishing the sealing between the inner layer sleeve 2 and the outer layer sleeve 1 in a sewing mode to finish the production of the glove.

According to the glove, the motor 407, the pressure sensor, the heat-preserving air bag 202, the winding seat 402, the locking rope 305 and other devices are arranged, so that a user can manually or electrically adjust the tightness degree of the locking rope 305 according to the use condition, when the user is impacted by a heavy object, the impact of the heavy object is buffered through the cooperation of the pressure sensor, the motor 407, the heat-preserving air bag 202 and other devices, the hand of the user is further protected, meanwhile, the heat-preserving effect of the glove is improved through the cooperation of the locking rope 305, the heat-preserving air bag 202 and other devices, and the use safety and the low temperature resistance of the glove are improved.

Finally, it should be noted that: the foregoing description of the preferred embodiments of the present invention is not intended to be limiting, but rather, it will be apparent to those skilled in the art that the foregoing description of the preferred embodiments of the present invention can be modified or equivalents can be substituted for some of the features thereof, and any modification, equivalent substitution, improvement or the like that is within the spirit and principles of the present invention should be included in the scope of the present invention.

Claims (10)

1. The anti-radiation low-temperature-resistant military glove is characterized by comprising an outer layer sleeve (1), an inner layer sleeve (2), a tightening assembly (3) and a fixing assembly (4), wherein the inner layer sleeve (2) is arranged in the outer layer sleeve (1), the tightening assembly (3) is arranged at one end of the outer layer sleeve (1) and one end of the inner layer sleeve (2), and the fixing assembly (4) is arranged above the tightening assembly (3);

the inner layer sleeve (2) comprises an insulation layer (201), an insulation air bag (202) is arranged on the outer side of the insulation layer (201), five auxiliary air bags (203) are further arranged on the outer side of the insulation layer (201), and electric heating wires are arranged on the inner side, far away from the insulation layer (201), of the insulation air bag (202);

the tightening assembly (3) comprises a connecting sleeve (301) and a locking rope (305), the connecting sleeve (301) is arranged at the wrist positions of the outer layer sleeve (1) and the inner layer sleeve (2), a pressure sensor is arranged at the inner side of the connecting sleeve (301), and the heat preservation air bag (202) is inserted into the connecting sleeve (301);

the fixed assembly (4) comprises a fixed seat (401), a motor (407) is arranged at the top end of the fixed seat (401), a winding seat (402) is rotatably arranged on one side, far away from the connecting sleeve (301), of the fixed seat (401), a limit gear (405) is arranged on the inner side of the winding seat (402), and two ends of the locking rope (305) are connected with the outer side of the winding seat (402).

2. The radiation-resistant low temperature resistant military glove of claim 1, wherein: the glove comprises a glove body (101), an insulating layer (201) and auxiliary air bags (203), wherein the insulating layer (201) is arranged in the glove body (101), the insulating layer (201) is made of flocking fabric, the five auxiliary air bags (203) are respectively arranged at five finger positions on the surface of the insulating layer (201), a connecting air pipe (204) is arranged between each auxiliary air bag (203) and each insulating air bag (202), carbon dioxide gas is filled in the insulating air bags (202) and the auxiliary air bags (203), and the part of each insulating air bag (202) located on the wrist is annular.

3. The radiation-resistant low temperature-resistant military glove of claim 2, wherein: the heating wire comprises a main heating wire (205) and an auxiliary heating wire (206), wherein the main heating wire (205) is arranged in a serpentine structure, the main heating wire (205) is arranged above the heat preservation air bag (202), the auxiliary heating wire (206) is arranged in a linear structure, and the auxiliary heating wire (206) is arranged above the auxiliary air bag (203).

4. The radiation-resistant low temperature resistant military glove of claim 1, wherein: the outside of adapter sleeve (301) is provided with elastic sleeve (302), the inside of elastic sleeve (302) is provided with two square structure's empty slot (303), two through-holes (304) have been seted up in the top of empty slot (303) run through, locking rope (305) set up in the inside of empty slot (303), the top and the through-hole (304) through-connection of locking rope (305).

5. The radiation-resistant low temperature-resistant military glove of claim 4, wherein: the fixing seat (401) is fixedly arranged on the upper surface of the connecting sleeve (301), a winding seat (402) is movably arranged on the upper surface of the fixing seat (401) through a bearing, the winding seat (402) is arranged to be of an annular structure, and one end of the locking rope (305) is fixedly arranged on the outer side of the winding seat (402).

6. The radiation-resistant low temperature resistant military glove of claim 5, wherein: the top of rolling seat (402) is fixed and is provided with annular plate (403), the inboard of annular plate (403) is provided with ring gear (404), limiting gear (405) set up in the inboard of ring gear (404).

7. The radiation-resistant low temperature resistant military glove of claim 5, wherein: the middle part of limiting gear (405) runs through and is provided with stop collar (406), the output of motor (407) passes stop collar (406), the bottom mounting of motor (407) sets up in the top of fixing base (401).

8. The radiation-resistant low temperature-resistant military glove of claim 6, wherein: the top of motor (407) is provided with locating plate (408), be provided with extension spring (409) between locating plate (408) and limiting gear (405), the upper surface of limiting gear (405) is fixed and is provided with annular structure's extension board (410), the top of extension board (410) is fixed and is provided with press briquetting (411).

9. The radiation-resistant low temperature resistant military glove of claim 1, wherein: the outer layer sleeve (1) comprises a glove body (101), the glove body (101) is formed by compounding metal fiber anti-radiation fabric, wear-resistant nylon fabric and waterproof fabric, the metal fiber anti-radiation fabric, the wear-resistant nylon fabric and the waterproof fabric are sequentially arranged from outside to inside, a deformation groove (102) is formed in the surface of the glove body (101), the deformation groove (102) is formed in the thumb position on the surface of the glove body (101), a plurality of elastic belts (103) are arranged in the deformation groove (102), five groups of bending grooves (207) are formed in the lower surface of the heat preservation (201), and the five groups of bending grooves (207) are respectively formed in five finger positions on the surface of the heat preservation (201).

10. A process for producing a radiation-resistant, low temperature resistant military glove according to any one of claims 1 to 9, comprising the steps of:

firstly, carrying out outer layer processing, namely sequentially bonding a metal fiber radiation-proof fabric, a wear-resistant nylon fabric and a waterproof fabric through glue to obtain a fabric raw material of an outer layer sleeve (1), and carrying out cutting and sewing processing on the fabric raw material according to the processing size of the glove to finish the preparation of the outer layer sleeve (1);

step two, inner layer processing, namely cutting and sewing the flocking fabric raw material for producing the inner layer sleeve (2) to finish the preparation of the main body of the inner layer sleeve (2), wherein in the cutting and sewing process, the size of the inner layer sleeve (2) is ensured to be slightly smaller than that of the outer layer sleeve (1), and a through groove for installing the heat preservation air bag (202) in a matched mode is formed in the middle part above the main body of the inner layer sleeve (2);

step three, processing the heat preservation layer (201), sewing the heat preservation air bag (202) to the through groove formed in the step two, and sewing the auxiliary air bag (203) at five finger positions on the upper surface of the main body of the inner layer sleeve (2);

step four, accessory processing, namely cutting raw materials of the tightening assembly (3), loading a locking rope (305) into the tightening assembly (3), respectively producing and assembling a plurality of structures of the fixing assembly (4), and adhering and fixing the assembled fixing assembly (4) on the upper surface of the tightening assembly (3) through glue;

step five, integrally sewing, namely firstly loading the inner layer sleeve (2) prepared in the step three into the outer layer sleeve (1) prepared in the step one, then sewing the tightening assembly (3) at one end of the inner layer sleeve (2) and one end of the outer layer sleeve (1), and finishing the sealing between the inner layer sleeve (2) and the outer layer sleeve (1) in a sewing mode, thus finishing the production of the glove.