CN212520926U - Functional gloves - Google Patents

Abstract

The utility model discloses a functional glove, including the cover body, wherein the cover body has the back of the hand, and the back of the hand is the flaky membrane of hand shape for being used for covering the back of the hand, and the lamellar structure of back of the hand includes skin contact layer and adheres to the sweat-absorbing layer of skin contact layer, and skin contact layer adopts the non-woven fabrics, and the sweat-absorbing layer adopts high water absorption hygroscopic fiber, natural plant fiber, perhaps high water absorption hygroscopic fiber and natural plant fiber blending material. The utility model discloses can use with current medical gloves are supporting, the hand easily perspires and the uncomfortable that causes when can solve directly wearing current medical gloves effectively feels, avoids skin to expose in the environment of high humidity for a long time, reduces skin injuries such as hypersensitivity, rhagadia, increases the comfort level of gloves.

Description

Functional gloves

Technical Field

The utility model relates to the field of personal protective articles, which relates to a glove with sweat absorption and grease absorption functions.

Background

The disposable medical gloves commonly used in the market at present are generally made of non-natural materials such as latex or butyronitrile, the usage amount of the gloves is quite large, about hundreds of billions, and the usage amount of the gloves is increased by 10 percent every year. More than about half of these gloves are made of unnatural materials, and the wearer sweats for a little longer while wearing the glove. When the sweat on the back or the palm of the hand is accumulated for a long time, the sweat on the back or the palm of the hand is easy to cause a series of discomfort, such as reducing and limiting the flexibility and the touch sensitivity of the fingers of people, and bacteria and fungi are easy to generate to cause skin pruritus, inflammation and bad smell. There are also some people who use such gloves and develop allergies, skin allergies often being on the back of the hand. In order to alleviate the discomfort, the user needs to frequently replace the gloves, and frequent replacement of the gloves can reduce the working efficiency, cause a large amount of unnecessary waste and increase the environmental pollution. Even if some people wear gloves because of the above problems, the people do not want to wear gloves during the time when the gloves should be worn, thereby causing a safety hazard. There are also special situations such as surgery or testing where the gloves need to be worn continuously for a long time, and during the process, it is not practical to change the gloves. Even if the user can tolerate discomfort, prolonged exposure of the skin to high humidity conditions can reduce the natural protective barrier of the skin, such as the greasy layer, and can further exacerbate occupational-related problems such as dry skin, chapping, etc.

To overcome some of the above problems caused by sweating after wearing gloves, there is also a method of wearing a thin cotton glove in the glove first. But this will reduce the sensitivity and flexibility of the fingers, and bring great inconvenience to the operation or experiment operation with higher precision requirement; moreover, experiments show that the sweat absorbing capacity of the thin cotton yarn gloves is very limited, and the thin cotton yarn gloves which are wet after sweat absorbing are tightly attached to the skin to cause the problems, so that the problem of sweat generation is not solved fundamentally. The prior patent technologies CN1827342A, CN104544639A, CN205005987U, CN206791747U, CN106535687A and the like also disclose some sweat-absorbing gloves or preparation methods of the sweat-absorbing gloves, but the prior patent technologies have the defects of poor sweat-absorbing performance, inconvenience in matching with the prior medical gloves and the like, and have poor operability.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved of the utility model is to provide a functional glove, can use with current medical gloves are supporting, and the hand easily perspires and the uncomfortable that causes is felt when can solving directly to wear current medical gloves effectively, avoids skin to expose in the environment of high humidity for a long time, reduces skin injury such as hypersensitivity, rhagadia, increases the comfort level of gloves.

In order to solve the technical problem, the utility model provides a technical scheme does: a functional glove comprises a glove body, wherein the glove body is provided with a hand back part; the hand back part is a hand-shaped sheet film for covering the hand back;

the layered structure of the back of the hand comprises a skin contact layer and a sweat absorbing layer attached to the skin contact layer; the skin contact layer is made of non-woven fabrics, and the sweat absorption layer is made of high water absorption and moisture absorption fibers, natural plant fibers or a blended material of the high water absorption and moisture absorption fibers and the natural plant fibers.

In one embodiment, the glove body is devoid of a palm portion; the front end of the back of the hand is a finger area, and the tail end of the back of the hand is a wrist area; the finger area is provided with a finger fixing piece, and the finger fixing piece is responsible for fixing the corresponding finger area on the finger. The number of finger mounts per finger area is one or more.

Specifically, the finger fixing piece is a belt which is arranged on one side or two sides of the finger area and can surround the finger abdomen. Preferably, the strip is made of self-adhesive material, such as velcro, adhesive tape, etc.

Specifically, the finger fixing piece is a belt-shaped object which is connected with two sides of the finger area and forms a ring for inserting the finger and sleeving the finger. Preferably, the belt is made of elastic material, such as elastic rope, rubber band, etc.

Specifically, a wrist fixing piece is arranged in a wrist area of the sleeve body and is responsible for fixing the wrist area to the wrist. Specifically, the wrist fixing member is a band which is arranged on one side or two sides of the wrist area and can surround the wrist, or a band which is connected with the two sides of the wrist area and forms a ring for inserting the palm and sleeving the wrist.

In another specific embodiment, the glove body has a palm portion, and the palm portion is a sheet-shaped film for covering the palm; the palm part and the back part form a complete sleeve body.

Specifically, the palm part is made of fiber materials, the thickness of the palm part is 0.02-0.05 mm, and the palm part is made of nylon fibers. Preferably, at least the finger area of the palm part is made of fiber materials and the thickness of the fiber materials is 0.02-0.05 mm.

Specifically, the layered structure of the palm center area of the palm part comprises a skin contact layer and a sweat absorption layer attached to the skin contact layer; the skin contact layer is made of non-woven fabrics, and the sweat absorption layer is made of high water absorption and moisture absorption fibers or a blended material of the high water absorption and moisture absorption fibers and natural plant fibers.

Specifically, the high water absorption and moisture absorption fiber is preferably porous polyacrylonitrile fiber or polyamide polymer fiber.

Specifically, the natural plant fiber is preferably at least one of cotton fiber, wood pulp fiber and paper fiber.

In one embodiment, the back of the hand is provided with support strips extending from the finger area to the wrist area. The support bars play a role in assisting the fixation of the layered structure of the back of the hand and provide certain support force and flexibility for the back of the hand.

In one embodiment, the layered structure of the back of the hand further comprises a sterilization layer attached to the sweat absorbing layer. The sterilizing layer is made of a material adsorbed with a sterilizing agent, such as sterilized vaseline gauze.

The existing research proves that a large number of sweat glands are distributed on the back of the hand and the palm of a person, and sweat generated by covering the hand when the existing medical glove is worn for a long time mainly comes from the back of the hand. The large amount of sweating on the back of the hand leads to a high humidity environment in the internal space of the glove, and the palm and fingers are direct sensing parts for operations such as pinching and holding, so that discomfort caused by the sweating is easily detected, and the palm is mistakenly regarded as having much sweat. Additional test results show that in summer, under high temperature and high humidity conditions, such as-35 ℃ and 90% humidity, the perspiration volume of a human hand can be between 0.2 grams and 2 grams or more after wearing the existing disposable medical gloves for about half an hour or more. According to the sweating site test, the sweating amount is approximately distributed to the back of the hand: back of finger: palm: the finger inner side is 45%, 25%, 20% and 10%. The utility model discloses based on the problem that the back of the hand sweat is many, provided a functional gloves design mainly to the back of the hand sweat-absorbing.

The utility model discloses a functional gloves is when wearing, and the back of the hand covers in the back of the hand, is laminated in skin by skin contact layer, absorbs sweat and grease by sweat-absorbing layer to keep the hand dry and comfortable.

The functional gloves designed by the invention can be matched with the existing medical gloves for use, can effectively solve a series of problems caused by sweating of hands when users directly wear the existing medical gloves, can increase the comfort level of the gloves and ensure due contact sensitivity, and can also reduce or even avoid allergy problems caused by wearing the conventional disposable gloves. In addition, the unnecessary glove replacement is reduced, so that the consumption of the gloves is reduced, and the environmental pollution is reduced.

Nonwoven fabrics are fabrics formed by orienting or randomly arranging textile staple fibers or filaments to form a web structure, which is then consolidated by mechanical, thermal, or chemical means. The non-woven fabric has no warp and weft, and has the characteristics of moisture resistance, ventilation, flexibility and light weight. The utility model adopts the non-woven fabric as the skin contact layer, on one hand, the fiber net structure and the air permeability of the non-woven fabric are utilized, so that sweat and water vapor can rapidly permeate the non-woven fabric fiber net structure and be absorbed by the sweat absorbing layer; the second aspect also has the function of separating the skin from the sweat absorbing layer, and the moisture resistance of the second aspect is utilized to prevent the skin from being exposed to the high humidity environment of the sweat absorbing layer which absorbs sweat for a long time, so that the skin is kept dry and comfortable, and skin injuries such as allergy, rhagadia and the like are reduced; a third aspect is to further improve the comfort of wearing by taking advantage of its flexibility and lightness. The use of a nonwoven fabric alone without a sweat-absorbing layer indicates that the sweat-absorbing function of the nonwoven fabric is very little or essentially absent.

The fiber is characterized in that after the hydrophobic synthetic fiber is subjected to physical deformation and chemical modification, the fiber can still keep more than 15% of water after being soaked in water and centrifugally dehydrated under certain conditions, and is called as super absorbent fiber; the fiber which can absorb gas phase moisture and has the moisture regain of more than 6 percent under the standard temperature and humidity condition is called as high moisture absorption fiber; meanwhile, the high water absorption and moisture absorption fiber has the two performances. The utility model discloses lateral surface at skin contact layer (non-woven fabrics) directly adheres to the sweat-absorbing layer that the one deck comprises high absorbent fibers or high absorbent fibers and natural plant fiber blending material, has the effect of good absorbent moisture absorption oil absorption fat, and the contact of not directly laminating of sweat-absorbing layer and skin is favorable to keeping the dry and comfortable of skin.

Furthermore, the utility model discloses an among the functional gloves, can expose the palm (the cover body does not have the situation of palm portion), indicate that abdomen and palm center are regional not to have and shelter from, can not lead to the problem that the sense of touch sensitivity of finger reduces when dressing current medical gloves again, be favorable to keeping the flexibility ratio of finger. The utility model discloses a functional gloves can also adopt fibrous material (like nylon fiber etc.) to make ultrathin film (thickness 0.02 ~ 0.05 millimeter) with palm portion and merge the back of the hand and make complete gloves, and the use of ultrathin fibrous material is favorable to keeping the sensitivity and the flexibility of finger.

The utility model discloses a still be provided with the finger mounting in the finger district, can effectively fix the back of the hand, be favorable to dressing current medical gloves again very conveniently. The wrist fixing piece is arranged, so that the fixing effect can be further improved, and the existing medical gloves can be worn more conveniently.

Drawings

Fig. 1 is a schematic front structural view of the functional glove of the present invention.

Fig. 2 is a schematic view of the layered structure of the back of the hand of the present invention.

Fig. 3A is a schematic reverse structure diagram (one) of a specific embodiment of the functional glove of the present invention.

Fig. 3B is a schematic reverse structure diagram (ii) of a specific embodiment of the functional glove of the present invention.

Fig. 4A is a schematic structural view of a further modification of the functional glove based on fig. 3A.

Fig. 4B is a schematic structural view of a further modification of the functional glove based on fig. 3B.

Fig. 5 is a schematic structural diagram (i) of the functional glove of the present invention worn on a hand.

Fig. 6 is a schematic structural view (ii) of the functional glove of the present invention worn on a hand.

Description of the symbols in the drawings:

1 is a sleeve body;

2 is the back of the hand;

21 is a skin contact layer;

22 is a sweat absorbing layer;

2a is a finger area;

2b is the wrist area;

3 is a finger fixing piece;

4 is a wrist fixing piece

5 is a supporting strip;

6 is a palm part;

7 is a hand.

Detailed Description

The technical solution of the present invention will be described clearly and completely below, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Example one

As shown in fig. 1 and 2, a functional glove comprises a glove body 1. Wherein, the glove body 1 is provided with a hand back part 2 for covering the hand back, and the hand back part 2 is a sheet film in a hand shape. The layered structure of the back of the hand 2 comprises a skin contact layer 21 and a sweat absorbing layer 22, the inner side of the skin contact layer 21 being intended to be directly attached to the skin and the inner side of the sweat absorbing layer 22 being directly attached to the outer side of the skin contact layer 21. The skin contact layer 21 is made of non-woven fabrics, and the sweat absorption layer 22 is made of high water absorption and moisture absorption fibers, natural plant fibers or a blended material of the high water absorption and moisture absorption fibers and the natural plant fibers.

The functional glove of the present embodiment is designed with an emphasis on the back of the hand 2 of the glove body 1. When the functional glove is worn, the hand back 2 is covered on the hand back, the skin contact layer 21 is attached to the skin of the hand back, and the sweat absorbing layer 22 is responsible for absorbing sweat and grease so as to keep the hand dry and comfortable. Because the sweat gland quantity of the back of the hand is more than palm sweat gland quantity far away, the sweat that the hand was covered in the gloves and goes out mainly comes from the back of the hand and sweat, and the functional gloves of this embodiment directly absorb the back of the hand sweat, can reach the effect that the hand keeps dry and comfortable for a long time in making gloves. In the description of the inner side and the outer side of each layer in the layered structure, the side of the layer close to the skin is the inner side, and the side of the layer close to the skin is the inner side. The layers in the layered structure can be joined by sewing, bonding, or the like.

The functional glove adopts the non-woven fabric as the skin contact layer 21, on one hand, the fiber web structure and the air permeability of the non-woven fabric are utilized, so that sweat and water vapor can rapidly permeate the fiber web structure of the non-woven fabric and are absorbed by the sweat absorbing layer 22; the second aspect also has the function of separating the skin from the sweat absorbing layer 22, and utilizes the moisture resistance to avoid the long-term exposure of the skin to the high humidity environment of the sweat absorbing layer 22 which absorbs sweat, so as to keep the skin dry and comfortable; a third aspect is to further improve the comfort of wearing by taking advantage of its flexibility and lightness.

The functional gloves are characterized in that the high-water-absorption and moisture-absorption fibers, the natural plant fibers or the blended materials of the high-water-absorption and moisture-absorption fibers and the natural plant fibers form a sweat absorption layer, and the sweat absorption layer is directly attached to the outer side surface of the skin contact layer (non-woven fabric), so that the sweat absorption layer does not directly contact with the skin while exerting a good sweat absorption, moisture absorption and grease absorption effect, the skin is prevented from being directly exposed in a high-humidity environment, and the dry and comfortable feeling of the skin is kept. In a preferred embodiment, the superabsorbent fibers are preferably porous polyacrylonitrile fibers. In a preferred embodiment, the natural plant fiber is at least one of cotton fiber, paper fiber and wood pulp fiber.

In this embodiment, the back of the hand 2 of the glove body 1 can be provided with a plurality of support bars 5. As shown in fig. 1, five support strips 5 extend from the finger area 2a to the wrist area 2b, respectively. The support strip mainly plays a role in assisting the fixing of the layered structure of the hand back part 2, and provides certain supporting force and flexibility for the hand back part 2 as a whole so as to be convenient to wear. The support strip 5 is made of natural bamboo fiber or synthetic material with good flexibility and deformation capability.

In this embodiment, the layered structure of the dorsum manus portion 2 may further include a sterilization layer attached to the outer side of the sweat-absorbent layer 22. The sterilization layer is made of materials which absorb sterilizing agents, such as sterile Vaseline gauze, so that a better sterilization protection effect is achieved, and peculiar smell is reduced.

In this embodiment, the skin contact layer 21 has a thickness of 0.5 ± 0.2 mm, and the sweat-absorbing layer 22 has a thickness of at least 2 mm.

Example two

Based on the functional glove of the first embodiment, the present embodiment is further improved in that, in the functional glove, the glove body 1 has no palm portion 6, and the palm portion 6 is vacant; the front end of the hand back part 2 is a finger area 2a, and the tail end is a wrist area 2 b; the finger area 2a is provided with a finger mount 3. The finger fixing member 3 is responsible for fixing the corresponding finger area 2a to the finger.

As shown in fig. 1, there are five finger regions 2a, corresponding to five fingers, respectively. The wrist area 2b is one, corresponding to the wrist. The finger fixing member 3 is disposed on the finger area 2a for fixing the finger area 2a to a finger. The number of the finger hold pieces 3 per finger area 2a is one or two or more.

The functional glove middle sleeve body 1 of the embodiment has no palm part 6, when the functional glove is worn, the palm can be exposed, and the finger abdomen and palm center areas are not shielded. When the existing medical gloves are worn again, the problem that the touch sensitivity of the fingers is reduced is solved, and the flexibility of the fingers is kept. The functional glove of the embodiment can effectively fix the back part 2 of the hand with the hand by arranging the finger fixing piece 3 in the finger area 2a, and is favorable for conveniently dressing the existing medical glove again.

In one embodiment, the finger fixing member 3 may be a band disposed on one or both sides of the finger area 2a and surrounding the finger pulp. As shown in fig. 3A, the finger fixing member 3 is a belt-like object disposed on both sides of the finger area 2 a. The finger area 2a is secured to the finger by means of a finger anchor 3 around the finger pulp. Each finger area 2a is provided with a finger mount 3. The strip-shaped object is made of self-adhesive material, such as nylon hasp and rubberized cloth strip.

In particular, the finger holder 3 may also be a band connecting both sides of the finger area 2a and forming a loop into which a finger is inserted and fitted. As shown in fig. 3B, the finger holder 3 and the finger area 2a form a ring for insertion of a finger. Preferably, the band is made of elastic material, such as elastic rope, rubber band, etc.

In this embodiment, the finger fixing member 3 is fixedly connected to the finger area 2 a. The fixing can be carried out by sewing, electric welding, bonding and the like.

As shown in fig. 5, a schematic view of the structure of the functional glove worn on the hand by the finger holder 3 is shown. The palm of the hand 7, and particularly the finger pulp, is shown exposed.

EXAMPLE III

Based on the functional glove of the second embodiment, the present embodiment is further improved in that, in the functional glove, the wrist region 2b of the glove body 1 is provided with the wrist fixing member 4. The wrist fixing member 4 is responsible for fixing the wrist region 2b to the wrist. As shown in fig. 4A, the wrist fixing member 4 is a band which is disposed on one side or both sides of the wrist region 2b and can encircle the wrist; the strip can be made of self-adhesive material, such as nylon hasp and rubberized cloth strip. As shown in fig. 4B, the wrist fixing member 4 is a band which connects both sides of the wrist region 2B and forms a loop into which the palm is inserted and which is fitted around the wrist; preferably, the band is made of elastic material, such as elastic rope, rubber band, etc. In this embodiment, the wrist fixing member 4 is fixedly connected to the wrist area 2 b. The fixing can be carried out by sewing, electric welding, bonding and the like.

The utility model discloses a fixed effect when this functional gloves are worn can further be improved in the design of wrist mounting 4 to it is more convenient to make wearing of current medical gloves.

Example four

Based on the functional glove of the first embodiment, the present embodiment is further improved in that, in the functional glove, the glove body 1 has a palm portion 6 for covering the palm, and the palm portion 6 is a sheet-like film in a hand shape; the palm part 6 and the back part 2 form a complete sleeve body 1. As shown in fig. 6, a schematic view of the functional glove of the present embodiment is shown. The palm portion 6 is shown in close contact with the palm of the hand 7.

In order to keep the sensitivity and flexibility of the fingers, the palm part 6 is made of fiber materials (such as nylon fibers) into an ultrathin film with the thickness of 0.02-0.05 mm. In a preferred embodiment, at least the finger area (finger pulp) of the palm portion 6 is made of an ultrathin film. In other embodiments, the palm region of the palm portion 6 may be provided with a sweat absorbing layer to further absorb perspiration from the palm region. For example, the layer structure of the palm region of the palm portion 6 and the layer structure of the back portion 2 adopt the same arrangement: the layered structure comprises a skin contact layer and a sweat absorption layer attached to the skin contact layer, wherein the skin contact layer is made of non-woven fabrics, and the sweat absorption layer is made of high water absorption and moisture absorption fibers or a blended material of the high water absorption and moisture absorption fibers and natural plant fibers.

Example sweat absorption Performance testing and comparative testing of five functional gloves

The test method comprises the following steps: after the functional gloves are worn, the disposable medical gloves (such as latex gloves or butyronitrile gloves) are worn again, the environmental conditions during the test are that the temperature is 25-35 ℃, the relative humidity is 60-90%, and the following results are acquired after the wearing time is 0.5-1 hour: 1. a wearing experience; 2. the sweat output (the weight difference of the whole gloves (including disposable gloves and functional gloves) before and after wearing) and the sweat output testing method is a gauze weight increasing method (Zhang Wenhuan and the like, and a textile guide 2018 second stage) reported in reference documents, and is slightly improved to better match the requirements of the test. The skin surface humidity is directly detected by a skin moisture tester. Here is a detailed data of a part of representative experimental cases, and the test subjects and test results are shown in the following table:

the above test results demonstrate that:

1. compared with the tests with the group numbers of 1-6 and 17, the technical proposal of adopting the simple skin contact layer (2) and the simple sweat absorbing layer (3-6) shows that the sweat amount is slightly increased but the skin surface humidity is reduced when the medical glove is directly worn, which is related to the fact that the skin contact layer can isolate/disperse sweat to a certain extent and the sweat absorbing layer can directly absorb sweat; the skin surface humidity reduction effect of the test 2 is limited, which shows that the skin contact layer has no sweat absorption function, the subjective feeling is not obvious, and the comfort level is not improved; tests 3-6 show that the skin surface humidity reduction effect is more obvious, and the comfort level is improved; in experiment 17, when the ordinary veil glove is worn on the hand, the sweating amount is increased remarkably, and the skin surface humidity and the comfort level are poor.

2. Compared with the tests of the group No. 7-15, the test proves that under the condition that the skin contact layer and the sweat absorbing material are simultaneously present, the sweat generated by the skin of the hand is completely absorbed, the moisture feeling of the skin is obviously reduced within the same wearing time, the skin keeps dry, and the comfort level is obviously improved compared with the tests of the group No. 1-6.

3. Tests in groups 7, 10 and 11 show that the wearing time of the disposable gloves is within 1h, the more sweat is generated, the humidity of the skin of the human hand is kept below 50%, and the comfort level is good; the wearing time reaches 1.5 hours, and the humidity of the skin of the human hand is higher. Test surfaces in groups 12, 14 but with the disposable gloves worn for extended periods of time, the sweat absorbing layer thickness needs to be increased accordingly to achieve the desired efficacy; the test surface sweat absorption layer of the test groups 15, 16 and 17 has the thickness of 2-3 mm, so that the bred sweat can be effectively absorbed, the requirements under most conditions can be met, and when the sweat absorption layer is 1 mm thick, the sweat absorption performance of the test surface is difficult to maintain dry and comfortable on the skin surface due to too thin thickness; therefore, the thickness of the sweat absorbing layer is preferably 2-6 mm, and the general requirement can be met by about 3 mm.

In summary, the above embodiments are only preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. A functional glove comprises a glove body, and is characterized in that the glove body is provided with a hand back part; the hand back part is a hand-shaped sheet film for covering the hand back;

the layered structure of the back of the hand comprises a skin contact layer and a sweat absorbing layer attached to the skin contact layer; the skin contact layer is made of non-woven fabrics, and the sweat absorption layer is made of high water absorption and moisture absorption fibers, natural plant fibers or a blended material of the high water absorption and moisture absorption fibers and the natural plant fibers.

2. The functional glove of claim 1, wherein the glove body is devoid of a palm portion; the front end of the back of the hand is a finger area, and the tail end of the back of the hand is a wrist area; the finger area is provided with a finger fixing piece, and the finger fixing piece is responsible for fixing the corresponding finger area on the finger.

3. The functional glove of claim 2 wherein the finger hold is a band that can wrap around the finger abdomen on one or both sides of the finger area.

4. The functional glove of claim 2 wherein the finger hold is a strap connecting two sides of the finger area and forming a loop for a finger to be inserted and fit over the finger.

5. The functional glove of claim 3 or 4, wherein the wrist area of the glove body is provided with a wrist fixing member for fixing the wrist area to the wrist.

6. The functional glove of claim 5, wherein the wrist-securing member is a band that is disposed on one or both sides of the wrist region and that can wrap around the wrist, or a band that connects both sides of the wrist region and forms a loop into which the palm of the hand is inserted and fits over the wrist.

7. The functional glove of claim 1, wherein the glove body has a palm portion, the palm portion being a sheet-like film in a hand shape for covering a palm; the palm part and the back part form a complete sleeve body.

8. The functional glove of claim 7, wherein the thickness of the palm portion is 0.02 to 0.05 mm.

9. The functional glove of claim 1 wherein the superabsorbent fiber is a porous polyacrylonitrile fiber.

10. The functional glove of claim 1, wherein the natural plant fiber is at least one of cotton fiber, paper fiber, wood pulp fiber.

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