CN111789332A

CN111789332A - Latex gloves

Info

Publication number: CN111789332A
Application number: CN202010724998.5A
Authority: CN
Inventors: 胡媛媛; 余兆勇
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-07-24
Filing date: 2020-07-24
Publication date: 2020-10-20

Abstract

The invention belongs to the technical field of wearing protective equipment, and particularly relates to a latex glove which comprises a main body, wherein the main body is sequentially divided into three parts, namely a wrist area, a palm area and a finger area; the back of the hand is arranged above the main body; the palm center is arranged below the main body; the inner surface of the main body is covered and bonded with a non-woven fabric layer; the thickness of the non-woven fabric layer is 0.1-0.15 mm; the non-woven fabric used by the non-woven fabric layer is made of ultrathin, porous and hydrophobic non-woven fabric; the invention can effectively solve the problem that the palm and fingers of an operator sweat, also improves the protection strength of the gloves, and meanwhile, the gloves can be repeatedly used after being cleaned and disinfected, thereby saving resources and reducing the use cost.

Description

Latex gloves

Technical Field

The invention belongs to the technical field of wearing protective equipment, and particularly relates to a latex glove.

Background

Latex gloves are hand protection articles, are commonly used in the industries of cleaning, medical treatment, industry, beauty and the like, and can also be used at home, and are widely adopted due to the excellent waterproof performance and flexibility of the latex gloves. However, due to the closed nature of latex gloves, hand perspiration cannot be removed, which makes the glove fit tightly with the hand and not easily removed after the wearer wears the glove. Moreover, the gloves are uncomfortable to wear due to sweat, and the gloves are difficult to wear for a long time.

Some technical solutions also exist in the prior art, such as chinese patent with application number CN201720583482.7, including a glove body, a sweat absorbing band protruding towards the inner side of the glove body and a finger cover, the sweat absorbing band is disposed on the palm surface of the glove body, the sweat absorbing band is disposed from the fingertip to the wrist, the finger cover is composed of a thumb sleeve, a forefinger sleeve and a first web, an elastic tightening band is disposed at the joint of the thumb sleeve and the forefinger sleeve, adhesive sticker adhesive bands are disposed on the edges of the two sides of the first web, a plurality of wrinkle strips are disposed on the first web, the finger cover is made of soft rubber material and has a thickness of 2-3mm, the sweat absorbing band is made of high molecular water-absorbing resin material, anti-slip material is coated on the outer layers of the thumb sleeve and the forefinger sleeve of the finger cover, but in the solution, the sweat absorbing band made of high molecular water-absorbing resin is attached to the glove, washing and absorbing sweat generated in, simultaneously, guarantee gloves protectiveness in the use through additional finger stall, however, gloves only can disposable use in the use, after the use is accomplished, gloves need abandonment promptly, and simultaneously, the gloves processing degree of difficulty behind the abandonment is great, cause the pollution easily, and simultaneously, when using finger stall to protect the dynamics and increase, finger stall only fixes on the finger after the gloves are dressed to the user through the tight strap of elasticity, finger stall landing scheduling problem appears in the use easily, cause the use inconvenient, and simultaneously, if finger stall landing in the use, will cause gloves protection dynamics to descend, influence user's safety.

Disclosure of Invention

In order to make up for the defects of the prior art and solve the problems that in the use process of the latex gloves, the interiors of the gloves are sealed, sweat is accumulated, the normal use of a user is influenced, and the comfort degree of the user is reduced, the invention provides the latex gloves.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a pair of latex gloves, which comprises a main body, wherein the main body is sequentially divided into three parts, namely a wrist area, a palm area and a finger area; the back of the hand is arranged above the main body; the palm center is arranged below the main body; the inner surface of the main body is covered and bonded with a non-woven fabric layer; the thickness of the non-woven fabric layer is 0.1-0.15 mm; the non-woven fabric used by the non-woven fabric layer is made of ultrathin, porous and hydrophobic non-woven fabric;

the during operation, the user wears gloves in hand, keep protecting, in the in-process of wearing, cover on the main part internal surface, the frictional force between the main part internal surface of adhesive non-woven fabrics layer can reduce skin and latex material, be convenient for gloves to dress, avoid because frictional force is too big between skin and the latex gloves, lead to gloves to be difficult to dress or lead to gloves to damage at the too big time of wearing in-process hard, and simultaneously, the non-woven fabrics layer that the main part internal surface set up can keep apart between the latex material of user hand skin and gloves, avoid when dressing for a long time, lead to the user because of the latex material of gloves allergy, and simultaneously, the non-woven fabrics layer of use can effectual hydrophobic sweat-proof, when reducing to dress for a long time, the user is because of the sense that the sweat leads to.

Preferably, the main body is internally provided with an anti-dropping balloon; a first cavity is formed in the anti-falling air ring; the anti-drop balloon is positioned in the wrist area; a ventilation microtube is arranged in the main body; the ventilation microtube passes through the back of the hand part of the main body; the outlet of the ventilation microtube is positioned on the inner surface of the main body; the outlet of the ventilation microtube is positioned at the fingertip part of the finger area; a thickened area is arranged at the fingertip part of the finger area; the outlet of the ventilation microtube is positioned in the thickened area and is extruded by the thickened area to be in a semi-closed state; a plurality of ventilation microtubes are arranged in the main body and respectively correspond to the positions of all fingers in the finger area; the ventilation microtube is communicated with the anti-dropping air ring; the surface of the anti-drop balloon is provided with a ventilation microgroove; the ventilation microgrooves are vertical to the anti-drop air ring;

when the glove works, after a user wears the glove, the anti-falling balloon in the wrist area is inflated, gas enters the first cavity, the anti-falling balloon is expanded and swells, so that the glove is firmly fixed on the hand of the user, the glove is prevented from falling off under the influence of external force in the labor process of wearing the glove by the user, the hand of the user is not protected, danger is caused, meanwhile, the gas in the anti-falling balloon is slowly exhausted by the ventilating micropipe arranged in the main body in the using process, the gas in the glove is driven to flow through the outlet positioned at the finger area, so that sweat existing in the glove is taken away, the using comfort of the user is improved, meanwhile, the gas exhausted from the anti-falling balloon through the ventilating micropipe flows in the main body, the gas in the glove is driven to flow, and finally the gas escapes out of the main body from the anti-falling balloon positioned in the wrist area, discharge the sweat in the gloves, simultaneously, aerify the inflation at the anticreep balloon, hug closely back on the user's wrist, the recess of ventilating that is located the anticreep balloon surface is under the extrusion of anticreep balloon, the recess of ventilating is hugged closely on user's wrist skin, reduce the area that the recess of ventilating passes through the face, reduce gaseous through-speed, prevent the gaseous quick discharge in the anticreep balloon, lead to the anticreep balloon to lose original effect, the inside gas flow of gloves simultaneously stagnates, influence the sweat and discharge, simultaneously, set up the thickening district at finger district fingertip position, can avoid the user when using, the wearing and tearing of gloves finger district fingertip position are broken, lead to gloves to lose protectiveness, thereby improve the security of user when using.

Preferably, the inner surface of the main body is provided with a sweat absorbing layer; the sweat absorbing layer is positioned in the corresponding areas of the palm center and the finger abdomen of the finger area; the sweat absorbing layer is positioned below the non-woven fabric layer; the sweat absorbing layer is made of adsorption silica gel with the thickness of 0.05-0.1 mm; a small amount of allochroic silica gel and a silver ion antibacterial agent are added into the adsorption silica gel; the sweat absorbing layer is bonded with the inner surface of the main body through a dot matrix; a gap is formed between the sweat absorbing layer and the main body to form a ventilation cavity; the ventilation cavity is communicated to the anti-degassing ring through a channel; the joint of the ventilation cavity and the channel is close to the finger area; capillary holes are formed in the sweat absorbing layer; the diameter of one end of the capillary hole close to the palm center is larger, and the diameter of one end far away from the palm center is smaller; the vent cavity is provided with an air outlet hole, the air outlet hole is close to the wrist area, and the diameter of the air outlet hole is equal to the diameter of the outlet of the vent micro-tube; the air outlet is opposite to the ventilation groove on the anti-falling air ring;

when the glove is in operation, the sweat absorbing layer arranged on the inner surface of the main body can absorb sweat generated by the hand of a user when the glove is worn for a long time, so that the hand of the user is prevented from being soaked by the sweat to influence the comfort level of the user, meanwhile, the sweat absorbing layer is positioned below the non-woven fabric layer, when the hand of the user generates the sweat, the sweat is influenced by the hydrophobicity of the non-woven fabric layer and enters the lower part of the non-woven fabric layer to be absorbed by the sweat absorbing layer, meanwhile, as the capillary tubes are arranged on the sweat absorbing layer, under the condition that the sweat exists, the capillary effect is generated to accelerate the absorption of the sweat, the sweat enters the ventilation cavity formed between the sweat absorbing layer and the main body, meanwhile, in the process that the sweat reaches the ventilation cavity through the capillary holes, the contact area of the sweat absorbing layer is increased, the absorption speed of the sweat absorbing layer on the sweat is accelerated, meanwhile, as a small amount of allo, in the using process, when the sweat quantity absorbed by the sweat absorbing layer exceeds a certain quantity, the color of the sweat absorbing layer is changed to remind a user to replace the glove, the used glove is sent to be regenerated, excessive sweat absorbed in the sweat absorbing layer is removed, the sweat preventing effect inside the glove is ensured, the comfort level of the user is improved, meanwhile, the added silver ion antibacterial agent can effectively inhibit bacterial breeding, the sanitation of the glove is ensured, meanwhile, the sweat entering the ventilation cavity is prevented, the sweat in the ventilation cavity is driven under the action of gas exhausted from the anti-dropping air ring due to the fact that the ventilation cavity is communicated with the anti-dropping air ring, the sweat in the ventilation cavity is discharged from the air outlet, the air outlet is close to a wrist area and is just opposite to the ventilation groove on the anti-dropping air ring, therefore, the sweat discharged from the ventilation cavity is discharged to the outside of the glove through the ventilation groove, and the quantity of the sweat in the main body, the comfort of the user in the use process is ensured.

Preferably, the outer surface of the main body is provided with an anti-scratch layer; the scratch-proof layer is positioned in the palm area; the scratch-proof layer is positioned on the back of the hand part of the main body; a gap is formed between the anti-scratch layer and the main body to form a second cavity; the cavity II is communicated with the anti-falling air ring, a one-way valve is arranged between the cavity II and the anti-falling air ring, and air enters the anti-falling air ring in a one-way mode; the scratch-proof layer is provided with a through hole communicated with the outside; a one-way valve is arranged in the through hole, and gas enters the second cavity in a one-way mode;

when the glove is in operation, the scratch-proof layer arranged on the outer surface of the main body can improve the protective performance of the glove, the possibility that a user scratches the glove by a sharp object in the using process to cause protective failure or scratch the hand of the user is reduced, meanwhile, a gap exists between the scratch-proof layer arranged on the back of the hand part and the main body to form a cavity II, after the user wears the glove, the user presses the scratch-proof layer to change the size of the cavity II and fills gas into the anti-drop ring, so that enough gas is ensured to exist in the anti-drop ring in the using process, the gas in the glove flows, sweat is taken away, the interior of the glove is comfortable, meanwhile, the situation that the user needs to use a tool to inflate the anti-drop ring after wearing the glove is avoided, the operation difficulty is reduced, meanwhile, if the working time is longer, the gas amount in the anti-drop ring is not enough, the user, aerify for the anticreep balloon, continue work, avoid leading to gloves result in the result of use not good because of lack of gas in the anticreep balloon, simultaneously, practice thrift the searching tool and for the aerated time of anticreep balloon, convenient and fast, it is with low costs.

Preferably, the inner surface of the glove is provided with a semi-annular bulge; the section of the semi-annular bulge is arc-shaped; the semi-annular bulge is positioned on the inner surface of the main body in the area corresponding to the back of the hand; two ends of the semi-annular bulge are connected with the edge of the sweat absorbing layer in the main body; the preparation material of the semi-annular bulge is consistent with that of the sweat absorbing layer;

when the glove works, the semicircular bulges arranged in the main body can form a gap between the inner surface of the back area of the hand of the glove and the skin, so that the glove is prevented from being attached to the surface of the skin, the comfort level of a user is influenced, meanwhile, the gap between the back area of the hand and the skin on the main body is increased through the semicircular bulges, so that the gas in the glove can flow conveniently, partial sweat generated on the back of the hand of the user can be taken away conveniently, the comfort level of the user is improved, meanwhile, the semicircular bulges are consistent with the sweat absorption layer preparation material, and in the using process, the semicircular bulges play an absorption role in partial sweat, so that the difficulty in sweat discharge is reduced; simultaneously, the setting is protruding can effectual increase gloves anti resistance to tearing of half ring shape in the main part, prevents in wearing process or use, and gloves are torn, leads to the protecting effect of gloves to reduce, influences user safety.

Preferably, the outer surface of the main body is provided with anti-skid floating points; the anti-skid floating point is positioned in a finger belly area of the finger area; a groove is formed in the main body; the groove is positioned on the sweat absorbing layer, and pores are formed in the groove; the groove is positioned on the inner surface of the finger area of the main body and corresponds to the anti-skid floating point;

the during operation, in the finger abdomen region in finger district, be provided with anti-skidding floating point, anti-skidding floating point is located the surface of main part, a frictional force between the object is grabbed with the reinforcing gloves surface, and simultaneously, set up the recess that corresponds at main part internal surface finger and anti-skidding floating point position, can increase the frictional force between user finger abdomen position and the gloves internal surface, the finger of avoiding the user to be in skids inside gloves, influence the user and the sensation, and simultaneously, the recess that sets up at the main part internal surface can increase the gap between user's finger and the main part internal surface, be convenient for drive the gas flow in the finger district from the gas outlet combustion gas, take away the sweat that produces, guarantee user's comfort level, thereby improve the sweat-proof effect of gloves.

The invention has the following beneficial effects:

1. according to the latex glove, the non-woven fabric layer covers and is adhered to the inner surface of the glove, the sweat absorption layer is arranged below the non-woven fabric layer, when the glove is worn, the friction force between the glove and the skin is reduced, the wearing of the latex glove is facilitated, meanwhile, the glove main body made of the latex material is isolated from the skin through the non-woven fabric layer, the possibility that a user has a latex allergy phenomenon is reduced, meanwhile, due to the hydrophobic characteristic of the non-woven fabric layer, the sweat in the glove is guaranteed to permeate down through the non-woven fabric layer quickly after sweating, the sweat enters the sweat absorption layer, the chance that the skin of the user directly contacts the sweat is reduced, and the use comfort level of the user is improved.

2. According to the latex glove, the scratch-proof layer, the anti-falling balloon and the thickening area are arranged, so that the protection strength of the glove can be effectively increased, the protection performance of the glove is improved, the safety of a user is protected, meanwhile, the two pairs of anti-falling balloons are inflated through the cavity formed between the scratch-proof layer and the main body, the problem that the anti-falling balloons are invalid after gas in the anti-falling balloons is completely released is avoided, the wearing reliability of the glove is influenced, the glove is prevented from sliding off, and meanwhile, finger tip positions can be thickened in a targeted mode through the thickening area, so that the finger tip positions of the glove are prevented from being abraded and cracked, and the protection of the glove is invalid.

Drawings

The invention will be further explained with reference to the drawings.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a partial cross-sectional view of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is an enlarged view of a portion of FIG. 2 at B;

FIG. 5 is an enlarged view of a portion of FIG. 2 at C;

in the figure: the anti-slip air-permeable hand comprises a main body 1, a hand back 11, a palm center 12, an air-permeable micro-tube 13, a groove 14, an anti-slip floating point 15, a thickened area 16, a channel 17, an anti-slip air ring 2, a first cavity 21, an air-permeable micro-groove 22, an anti-scratch layer 3, a second cavity 31, a semi-annular bulge 4, a non-woven fabric layer 5, a sweat absorbing layer 6, an air outlet 61, a wrist area D, a palm area E and a finger area F.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 5, the latex glove of the present invention comprises a main body 1, wherein the main body 1 is sequentially divided into three parts, namely a wrist area D, a palm area E and a finger area F; a hand back 11 is arranged above the main body 1; the palm 12 is arranged below the main body 1; a non-woven fabric layer 5 is covered and bonded on the inner surface of the main body 1; the thickness of the non-woven fabric layer 5 is 0.1-0.15 mm; the non-woven fabric used by the non-woven fabric layer 5 is made of ultrathin, porous and hydrophobic non-woven fabric;

the during operation, the user wears gloves in hand, keep the protection, in the in-process of wearing, cover on the 1 internal surface of main part, the frictional force between the 1 internal surface of main part of skin and latex material can be reduced to adhesive non-woven fabrics layer 5, be convenient for gloves are dressed, avoid because frictional force is too big between skin and the latex gloves, lead to gloves to be difficult to dress or wear the in-process and exert oneself too big gloves and damage, and simultaneously, non-woven fabrics layer 5 that main part 1 internal surface set up can keep apart between the latex material of user hand skin and gloves, avoid when dressing for a long time, lead to the user because of the latex material of gloves and allergy, and simultaneously, non-woven fabrics layer 5 that uses can effectual hydrophobic sweat-proof, when dressing for a long time is reduced, the user is because of the sense that sweat leads to.

In one embodiment of the present invention, an anti-drop balloon 2 is installed in the main body 1; a first cavity 21 is formed in the anti-falling air ring 2; the anti-falling balloon 2 is positioned in the wrist area D; an air micro-tube 13 is arranged in the main body 1; the ventilation microtube 13 passes through the back of the hand 11 part of the main body 1; the outlet of the ventilation microtube 13 is positioned on the inner surface of the main body 1; the outlet of the ventilation microtube 13 is positioned at the fingertip part of the finger area F; a thickened area 16 is arranged at the fingertip part of the finger area F; the outlet of the ventilation microtube 13 is positioned in the thickened area 16 and is extruded by the thickened area 16 to be in a semi-closed state; a plurality of ventilation microtubes 13 are arranged in the main body 1 and respectively correspond to the positions of fingers in the finger area F; the ventilation microtube 13 is communicated with the anti-dropping air ring 2; the surface of the anti-drop balloon 2 is provided with a ventilation microgroove 22; the ventilation micro-groove 22 is vertical to the anti-drop air ring 2;

when the glove is in operation, after a user wears the glove, the anti-falling air ring 2 of the wrist area D is inflated, air enters the cavity I21, the anti-falling air ring 2 is expanded and swollen, so that the glove is firmly fixed on the hand of the user, the glove is prevented from falling off under the influence of external force in the work process of wearing the glove by the user, the hand of the user is not protected, danger is caused, meanwhile, the air in the anti-falling air ring 2 is slowly exhausted by the air micro-tube 13 arranged in the main body 1 in the use process, the air in the glove is driven to flow through the outlet positioned at the fingertip part of the finger area F, sweat in the glove is taken away, the use comfort of the user is improved, meanwhile, the air exhausted from the anti-falling air ring 2 in the anti-falling air ring 2 flows in the main body 1 through the air micro-tube 13, the air in the glove is driven to flow, and finally the air escapes out of the main body, discharge the sweat in the gloves, simultaneously, aerify the inflation at anticreep balloon 2, hug closely back on the user's wrist, the recess 14 of ventilating that is located anticreep balloon 2 surface is under the extrusion of anticreep balloon 2, the recess 14 of ventilating is hugged closely on user's wrist skin, reduce the area that the recess 14 of ventilating passes through the face, reduce gaseous through speed, prevent the gaseous quick discharge in the anticreep balloon 2, lead to anticreep balloon 2 to lose original effect, the inside gas flow stagnation of gloves simultaneously, influence the sweat and discharge, and simultaneously, set up thickening district 16 at finger district F fingertip position, can avoid the user when using, the wearing and tearing of gloves finger district F fingertip position break, lead to the gloves to lose protectiveness, thereby improve the security of user when using.

As an embodiment of the present invention, the inner surface of the main body 1 is provided with a sweat absorbing layer 6; the sweat absorbing layer 6 is positioned in the palm center 12 and the area corresponding to the finger abdomen of the finger area F; the sweat absorbing layer 6 is positioned below the non-woven fabric layer 5; the sweat absorbing layer 6 is made of adsorption silica gel with the thickness of 0.05-0.1 mm; a small amount of allochroic silica gel and a silver ion antibacterial agent are added into the adsorption silica gel; the sweat absorbing layer 6 is bonded with the inner surface of the main body 1 through a dot matrix; a gap is formed between the sweat absorbing layer 6 and the main body 1 to form a ventilation cavity; the ventilation cavity is communicated to the anti-drop balloon 2 through a channel 17; the connection of the vent cavity and the channel 17 is close to the finger area F; capillary holes are formed in the sweat absorbing layer 6; the diameter of one end of the capillary hole close to the palm 12 is larger, and the diameter of one end far away from the palm 12 is smaller; an air outlet hole is formed in the ventilation cavity, the air outlet hole is close to the wrist area D, and the diameter of the air outlet hole is equal to the diameter of an outlet of the ventilation micro-tube 13; the air outlet is opposite to the ventilation groove 14 on the anti-falling air ring 2;

when the glove is in operation, the sweat absorbing layer 6 arranged on the inner surface of the main body 1 can absorb sweat generated by the hand of a user when the glove is worn for a long time, so that the hand of the user is prevented from being soaked by the sweat, the comfort level of the user is influenced, meanwhile, the sweat absorbing layer 6 is positioned below the non-woven fabric layer 5, when the hand of the user generates the sweat, the sweat is influenced by the hydrophobicity of the non-woven fabric, enters the lower part of the non-woven fabric layer 5 and is absorbed by the sweat absorbing layer 6, meanwhile, as the capillary tubes are arranged on the sweat absorbing layer 6, under the condition that the sweat exists, the capillary effect is generated, the absorption of the sweat is accelerated, the sweat enters the ventilation cavity formed between the sweat absorbing layer 6 and the main body 1, meanwhile, the contact area of the sweat and the sweat absorbing layer 6 is increased in the process of reaching the ventilation cavity through the capillary holes, the absorption speed of the sweat absorbing layer 6 to the sweat is accelerated, meanwhile, as a small amount of silica, in the use process, after the sweat quantity absorbed by the sweat absorbing layer 6 exceeds a certain quantity, the color of the sweat absorbing layer 6 is changed, the user is reminded to replace the glove, the used glove is sent to be regenerated, the excessive sweat absorbed in the sweat absorbing layer 6 is removed, the sweat preventing effect inside the glove is ensured, the comfort level of the user is improved, meanwhile, the added silver ion antibacterial agent can effectively inhibit bacteria breeding, the sanitation of the glove is ensured, meanwhile, the sweat enters the ventilation cavity, the ventilation cavity is communicated with the anti-falling air ring 2, the sweat in the ventilation cavity is driven under the action of the gas exhausted from the anti-falling air ring 2, the sweat is discharged from the air outlet, the air outlet is close to the wrist area D and is just opposite to the ventilation groove 14 on the anti-falling air ring 2, therefore, the sweat discharged from the ventilation cavity is discharged outside the glove through the ventilation groove 14, and the quantity of the sweat in the main body 1 is effectively reduced, the comfort of the user in the use process is ensured.

As an embodiment of the present invention, the outer surface of the main body 1 is provided with a scratch-proof layer 3; the scratch-proof layer 3 is positioned in the palm area E; the scratch-proof layer 3 is positioned on the hand back 11 part of the main body 1; a gap is formed between the anti-scratch layer 3 and the main body 1 to form a second cavity 31; the second cavity 31 is communicated with the anti-falling gas ring 2, a one-way valve is arranged between the second cavity and the anti-falling gas ring 2, and gas enters the anti-falling gas ring 2 in a one-way mode; the scratch-proof layer 3 is provided with a through hole communicated with the outside; a one-way valve is arranged in the through hole, and gas enters the second cavity 31 in a one-way mode;

when the glove is in operation, the scratch-proof layer 3 arranged on the outer surface of the main body 1 can improve the protective performance of the glove, reduce the possibility that a user scratches the glove by a sharp object in the using process to cause protective failure or scratch the hand of the user, and meanwhile, a gap exists between the scratch-proof layer 3 arranged on the back of the hand 11 part and the main body 1 to form a cavity II 31. after the user wears the glove, the user presses the scratch-proof layer 3 to change the size of the cavity II 31 to charge gas into the anti-drop balloon 2, thereby ensuring that enough gas exists in the anti-drop balloon 2 in the using process, ensuring that the gas in the glove flows, taking away sweat, ensuring the internal comfort of the glove, and simultaneously avoiding the need of using a tool to charge the anti-drop balloon 2 after the user wears the glove, reducing the operation difficulty, and simultaneously, if the working time is longer, the gas amount in the anti-drop balloon 2, the user can be once more manual press and prevent drawing layer 3, aerifys for anticreep balloon 2, and continuation work avoids leading to gloves result in not good use effect because of lacking gas in anticreep balloon 2, simultaneously, practices thrift the seek tool and for the aerated time of anticreep balloon 2, convenient and fast, and is with low costs.

As an embodiment of the invention, the inner surface of the glove is provided with a semi-annular protrusion 4; the section of the semi-annular bulge 4 is arc-shaped; the semi-annular bulge 4 is positioned on the inner surface of the main body 1 in the area corresponding to the hand back 11; two ends of the semi-annular bulge 4 are connected with the edge of the sweat absorbing layer 6 in the main body 1; the preparation material of the semi-annular bulge 4 is consistent with that of the sweat absorbing layer 6;

during operation, the semi-annular bulge 4 arranged in the main body 1 can form a gap between the inner surface of the back of the hand 11 area of the glove and skin, so that the glove is prevented from being attached to the surface of the skin, and the comfort level of a user is influenced, meanwhile, the gap between the back of the hand 11 area and the skin on the main body 1 is increased through the semi-annular bulge 4, so that the gas in the glove can flow conveniently, partial sweat generated on the back of the hand 11 of the user can be taken away conveniently, the comfort level of the user is improved, meanwhile, the semi-annular bulge 4 is made of the same material as the sweat absorbing layer 6, and in the using process, the semi-annular bulge 4 plays an absorbing role on the partial sweat; simultaneously, the setting is protruding can effectual increase gloves anti tear resistance in main part 1 interior semi-ring, prevents in the wearing process or the use, and gloves are torn, leads to the protecting effect of gloves to reduce, influences user safety.

As an embodiment of the invention, the outer surface of the main body 1 is provided with anti-skid floating points 15; the antiskid floating point 15 is positioned in the finger belly area of the finger area F; a groove 14 is formed in the main body 1; the groove 14 is positioned on the sweat absorbing layer 6, and pores exist in the groove 14; the groove 14 is positioned on the inner surface of the finger area F of the main body 1 and corresponds to the anti-skid floating point 15;

the during operation, in the finger abdomen region of finger district F, be provided with anti-skidding floating point 15, anti-skidding floating point 15 is located the surface of main part 1, be used for reinforcing the frictional force between the gloves surface and the object of being grabbed, simultaneously, set up the recess 14 that the internal surface finger of main part 1 corresponds with anti-skidding floating point 15 position, can increase the frictional force between user's finger abdomen position and the gloves internal surface, the finger of avoiding the user at skids in gloves inside, influence user's and feel, simultaneously, the recess 14 that sets up at the internal surface of main part 1 can increase the gap between user's finger and the internal surface of main part 1, the gaseous flow in the finger district F is driven to the sweat that is convenient for follow gas outlet 61 combustion gas, take away the sweat that produces, guarantee user's comfort level, thereby improve the sweat-proof effect of gloves.

The specific working process is as follows:

when the glove is used, the non-woven fabric layer 5 which is covered and bonded on the inner surface of the main body 1 can reduce the friction force between the skin and the inner surface of the main body 1 made of the latex material when a user wears the glove, meanwhile, the non-woven fabric layer 5 arranged on the inner surface of the main body 1 can isolate the skin of the hand of the user from the latex material of the glove, and meanwhile, the used non-woven fabric layer 5 can effectively drain water and prevent sweat; after a user wears the glove, the anti-falling balloon 2 of the wrist area D is inflated, gas enters the first cavity 21 to expand and swell the anti-falling balloon 2, meanwhile, the air microtubule 13 arranged in the main body 1 slowly discharges the gas in the anti-falling balloon 2 in the using process, the gas in the glove is driven to flow through an outlet at the fingertip part of the finger area F, meanwhile, the gas discharged from the anti-falling balloon 2 through the air microtubule 13 flows in the main body 1 to drive the gas in the glove to flow, finally, the gas escapes out of the main body 1 from the anti-falling balloon 2 positioned in the wrist area D to discharge sweat in the glove, meanwhile, after the anti-falling balloon 2 is inflated and expanded to be tightly attached to the wrist of the user, the air grooves 14 positioned on the surface of the anti-falling balloon 2 are extruded by the anti-falling balloon 2, and the air grooves 14 are tightly attached to the skin of the wrist of the user, reducing the area of the vent groove 14 through the face; the sweat absorbing layer 6 arranged on the inner surface of the main body 1 is positioned below the non-woven fabric layer 5, sweat is influenced by the hydrophobicity of the non-woven fabric and enters the lower part of the non-woven fabric layer 5 to be absorbed by the sweat absorbing layer 6, meanwhile, because the capillary tube is arranged on the sweat absorbing layer 6, the sweat enters a ventilation cavity formed between the sweat absorbing layer 6 and the main body 1, meanwhile, because a small amount of allochroic silica gel and silver ion antibacterial agent are added in the preparation raw materials of the sweat absorbing layer 6, when the amount of the sweat absorbed by the sweat absorbing layer 6 exceeds a certain amount, the color of the sweat absorbing layer 6 is changed, meanwhile, the sweat entering the ventilation cavity is driven under the action of gas exhausted from the anti-falling air ring 2, the sweat in the ventilation cavity is driven to be exhausted from the air outlet, because the air outlet is close to the wrist area D and is opposite to the ventilation groove 14 on the anti-falling air ring 2, therefore, the perspiration discharged from the venting cavity is discharged to the outside of the glove through the venting grooves 14; a gap is formed between the anti-scratch layer 3 arranged on the back of the hand 11 part and the main body 1 to form a second cavity 31, after a user wears the glove, the user presses the anti-scratch layer 3 to change the size of the second cavity 31, and gas is filled into the anti-drop gas ring 2, and meanwhile, if the working time is long and the gas amount in the anti-drop gas ring 2 is insufficient, the user can manually press the anti-scratch layer 3 again to fill the anti-drop gas ring 2, and the work is continued; a semi-annular projection 4 arranged inside the main body 1 and capable of forming a gap between the inner surface of the glove in the area of the back of the hand 11 and the skin; the outer surface of the finger belly area of the finger area F is provided with anti-skid floating points 15, and meanwhile, the grooves 14 corresponding to the anti-skid floating points 15 are arranged on the fingers on the inner surface of the main body 1, and meanwhile, the grooves 14 arranged on the inner surface of the main body 1 can increase the gap between the fingers of a user and the inner surface of the main body 1.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A latex glove comprising a main body (1), characterized in that: the main body (1) is sequentially divided into three parts, namely a wrist area (D), a palm area (E) and a finger area (F); a hand back (11) is arranged above the main body (1); the palm center (12) is arranged below the main body (1); a non-woven fabric layer (5) is covered and bonded on the inner surface of the main body (1); the thickness of the non-woven fabric layer (5) is 0.1-0.15 mm; the non-woven fabric used by the non-woven fabric layer (5) is made of ultrathin, porous and hydrophobic non-woven fabric.

2. The latex glove of claim 1, wherein: an anti-drop balloon (2) is arranged in the main body (1); a first cavity (21) is formed in the anti-falling air ring (2); the anti-falling balloon (2) is positioned in the wrist area (D); a ventilation microtube (13) is arranged in the main body (1); the ventilation microtube (13) penetrates through the back of the hand (11) part of the main body (1); the outlet of the ventilation microtube (13) is positioned on the inner surface of the main body (1); the outlet of the ventilation microtube (13) is positioned at the fingertip part of the finger area (F); a thickened area (16) is arranged at the fingertip part of the finger area (F); the outlet of the ventilation microtube (13) is positioned in the thickened area (16) and is extruded by the thickened area (16) to be in a semi-closed state; a plurality of ventilation microtubes (13) are arranged in the main body (1) and respectively correspond to the positions of fingers in the finger area (F); the ventilation microtube (13) is communicated with the anti-drop air ring (2); the surface of the anti-drop air ring (2) is provided with a ventilation microgroove (22); the ventilation microgrooves (22) are vertical to the anti-drop air ring (2).

3. The latex glove of claim 1, wherein: the inner surface of the main body (1) is provided with a sweat absorbing layer (6); the sweat absorbing layer (6) is positioned in the areas corresponding to the palm center (12) and the finger abdomen of the finger area (F); the sweat absorbing layer (6) is positioned below the non-woven fabric layer (5); the sweat absorbing layer (6) is made of adsorption silica gel with the thickness of 0.05-0.1 mm; a small amount of allochroic silica gel and a silver ion antibacterial agent are added into the adsorption silica gel; the sweat absorbing layer (6) is bonded with the inner surface of the main body (1) through a dot matrix; a gap is formed between the sweat absorbing layer (6) and the main body (1) to form a ventilation cavity; the ventilation cavity is communicated to the anti-drop balloon (2) through a channel (17); the joint of the ventilation cavity and the channel (17) is close to the finger area (F); capillary pores are formed on the sweat absorbing layer (6); the diameter of one end of the capillary hole close to the palm center (12) is larger, and the diameter of one end far away from the palm center (12) is smaller; an air outlet hole is formed in the ventilation cavity, the air outlet hole is close to the wrist area (D), and the diameter of the air outlet hole is equal to the diameter of an outlet of the ventilation micro-tube (13); the air outlet is opposite to the ventilation groove (14) on the anti-dropping balloon (2).

4. The latex glove of claim 1, wherein: the outer surface of the main body (1) is provided with an anti-scratch layer (3); the scratch-proof layer (3) is positioned in the palm area (E); the scratch-proof layer (3) is positioned on the back of the hand (11) part of the main body (1); a gap is formed between the anti-scratch layer (3) and the main body (1) to form a second cavity (31); the cavity II (31) is communicated with the anti-falling air ring (2), a one-way valve is arranged between the cavity II and the anti-falling air ring, and air enters the anti-falling air ring (2) in a one-way mode; the scratch-proof layer (3) is provided with a through hole communicated with the outside; and a one-way valve is arranged in the through hole, and gas enters the second cavity (31) in a one-way mode.

5. The latex glove of claim 1, wherein: the inner surface of the glove is provided with a semi-annular bulge (4); the section of the semi-annular bulge (4) is arc-shaped; the semi-annular bulge (4) is positioned on the inner surface of the main body (1) in the area corresponding to the hand back (11); two ends of the semi-annular bulge (4) are connected with the edge of the sweat absorbing layer (6) in the main body (1); the preparation material of the semi-annular bulge (4) is consistent with that of the sweat absorbing layer (6).

6. The latex glove of claim 1, wherein: the outer surface of the main body (1) is provided with anti-skid floating points (15); the anti-skid floating point (15) is positioned in the finger belly area of the finger area (F); a groove (14) is formed in the main body (1); the groove (14) is positioned on the sweat absorbing layer (6), and pores exist in the groove (14); the groove (14) is positioned on the inner surface of the finger area (F) of the main body (1) and corresponds to the anti-skid floating point (15).