CN213215513U - Antiskid sweat-absorbing gloves - Google Patents

Abstract

The utility model discloses an antiskid sweat-absorbing gloves, include: the glove comprises a glove body, wherein the glove body comprises a finger area, a palm area and a wrist area which are integrally structured; the inner surface of the glove is provided with anti-falling ribs on the thumb and the forefinger, and the anti-falling ribs are arranged at the joints of the thumb and the forefinger close to the finger abdomens; the inner surface of the glove is provided with convex particles at the back of the hand, the palm area and the side edge of the hand; the inner surface of the glove is provided with sweat absorbing layers in thumb, middle finger, ring finger, little finger and palm areas; the outer surface of the glove is provided with anti-slip structures in the finger area and the palm area. The glove can prevent the fingers of the glove from falling off from the fingers of a wearer due to overlarge fingers, and the fingers can conveniently perform corresponding operation; the air-tight gloves can be prevented from being directly tightened on the skin, so that the skin is uncomfortable, the air permeability and the comfort degree of the skin are increased, and meanwhile, the air permeability can be increased so as to reduce sweating; the sweat absorbing layer can also reduce sweating, and the antiskid structure can increase the friction degree, is convenient for grasp the grasped article, and makes it difficult for the landing.

Description

Antiskid sweat-absorbing gloves

Technical Field

The utility model relates to a gloves field, concretely relates to antiskid sweat-absorbing gloves.

Background

Disposable aseptic rubber gloves use very much, but wear easy sweat, lead to the person of wearing very uncomfortable, and the finger drops easily in operation process moreover, leads to using the finger to be very inconvenient when meticulous operation is if inject, tear the adhesive tape, press electronic display screen, and rubber gloves slips easily when grabbing the object moreover and drops.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems in the prior art, the display rack capable of being stacked in multiple layers and multiple columns is provided, the display rack is provided with a plurality of connecting structures, and the display racks capable of being stacked in multiple layers and multiple columns in different quantities can be freely combined according to the actual scene requirements.

The specific technical scheme is as follows:

a slip-resistant sweat-absorbent glove comprising:

the glove comprises a glove body, a handle body and a handle, wherein the glove body comprises a finger area, a palm area and a wrist area which are integrally structured;

the inner surface of the glove is provided with anti-falling ribs on the thumb and the forefinger, and the anti-falling ribs are arranged at the joints of the thumb and the forefinger close to the finger abdomens;

the inner surface of the glove is provided with convex particles at the back of the hand, the palm area and the side edge of the hand;

the inner surface of the glove is provided with sweat absorbing layers in thumb, middle finger, ring finger, little finger and palm areas;

the outer surface of the glove is provided with anti-skid structures in a finger area and a palm area.

The antiskid sweat-absorbing glove is characterized in that the anti-falling ribs are of a ring-shaped convex structure.

The antiskid sweat-absorbing glove is characterized in that the shape of the convex surface of the anti-falling rib contacting the skin of the finger is wavy.

The antiskid sweat-absorbing glove is characterized in that the sweat-absorbing layer comprises a cotton net surface layer and a high-molecular water absorption factor layer, and the high-molecular water absorption factor layer is clamped on the cotton net surface layer and the inner surface of the glove.

The antiskid sweat-absorbing glove is characterized in that the antiskid structure can be a corrugated structure or antiskid convex particles.

An anti-slip sweat-absorbent glove of the kind described above is also characterised in that the outer surface of the glove is provided with fasteners in the region of the wrist.

The antiskid sweat-absorbing glove is characterized in that the fastening piece is a buckle.

The positive effects of the technical scheme are as follows:

the utility model provides an antiskid sweat-absorbing glove, the inner surface of the glove is provided with anti-drop ribs at the thumb and the forefinger, the anti-drop ribs are arranged at the joints of the thumb and the forefinger close to the finger abdomen, so that the glove fingers can be prevented from dropping from the fingers of a wearer due to overlarge, and the corresponding operation of the fingers can be facilitated; the convex particles are arranged on the inner surface of the glove at the back of the hand, the palm area and the side edge of the hand, so that more gaps are reserved between the inner surface of the glove and the back of the hand, the palm area and the side edge of the hand, and therefore the situation that the skin is uncomfortable due to the fact that the airtight glove is directly tightened on the skin is avoided, the ventilation and comfort of the skin are increased, and meanwhile the ventilation property can be increased so as to reduce sweating; the sweat absorbing layer is arranged on the inner surface of the glove in the middle finger, ring finger, little finger and palm areas, and sweat can be absorbed by the sweat absorbing layer; the outer surface of the glove is provided with anti-slip structures in the finger area and the palm area, and the anti-slip structures arranged on the outer surface of the glove can increase the friction degree, so that the glove can grasp articles conveniently and is not easy to slip.

Drawings

Fig. 1 is a schematic structural view of a pair of anti-slip sweat-absorbing gloves according to an embodiment of the present invention.

In the drawings: 1. anti-falling ribs; 2. convex particles; 3. a sweat absorbing layer; 4. a fastener.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail by the following embodiments in combination with the accompanying drawings. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

The numbering of the components themselves, such as "first", "second", etc., is used herein only to distinguish between the objects depicted and not to have any sequential or technical meaning. The term "connected" and "coupled" when used in this application, unless otherwise indicated, includes both direct and indirect connections (couplings). In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

In the present application, unless expressly stated or limited otherwise, the first feature may be directly on or directly under the second feature or indirectly via intermediate members. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

Referring to fig. 1, fig. 1 is a schematic structural view of an anti-slip sweat-absorbing glove according to an embodiment of the present invention. The inside surface of the glove that contacts the wearer's body skin is seen in fig. 1.

The utility model discloses an antiskid sweat-absorbing gloves, including the gloves body, the gloves body includes finger district, palm district and the wrist district of a body structure.

The gloves in this embodiment are made of a rubber material.

The finger area includes five fingers, which are thumb, index finger, middle finger, ring finger and little finger.

The inner surface of the glove is provided with anti-falling ribs 1 on the thumb and the forefinger, and the anti-falling ribs 1 are arranged at the joints of the thumb and the forefinger close to the finger abdomens. Optionally, the anti-dropping rib 1 may also be disposed on other fingers, such as a middle finger, a ring finger and a little finger, and is specifically designed according to the requirements of the use scene.

Optionally, the anti-falling rib 1 is a ring-shaped protruding structure. The anti-falling ribs 1 protrude out of the inner surface of the glove to form an annular protruding structure.

Optionally, the anti-dropping rib 1 may also be a section of convex structure.

Optionally, the shape of the convex surface of the anti-falling rib 1 contacting the skin of the finger is wave-shaped.

When the size of the whole hand of the wearer is smaller than that of the glove, the fingers of the glove are easy to fall off from the fingers of the wearer, and the fingers of the glove are attached to the fingers of the wearer from time to complete corresponding operation; through setting up anti-drop muscle 1 in this embodiment, anti-drop muscle 1's bulge card is in the joint indent department that thumb and forefinger are close to the finger belly, blocks that the finger of gloves drops from wearer's finger, therefore when needs use the finger operation, makes corresponding convenient operation high-efficient.

The glove is worn on a hand and is easy to cling to the back of the hand, the palm area and the side edge of the hand, so that the hand is easy to sweat, and the convex particles 2 are arranged on the back of the hand, the palm area and the side edge of the hand on the inner surface of the glove.

The setting of protruding grain 2 makes back of the hand, palm district and hand side position not direct contact wearer's skin, but protruding face contact wearer's skin of protruding grain 2, has reduced the area of contact of skin with the gloves internal surface on the one hand, avoids the gloves internal surface to hug closely the discomfort that skin leads to by a large scale, leaves the space between on the other hand skin surface and the gloves internal surface, can increase the gas permeability and then reduce sweat. Rubber gloves are because the surface is more level and smooth, be stained with easily and attach on other objects, glue easily on the hand wearing the in-process, lead to not wearing well, and the setting of protruding grain 2 has reduced the roughness of gloves internal surface, consequently makes to wear more easily owing to reduced the area of contact of gloves internal surface and skin in the wearing process.

The inner surface of the glove is provided with a sweat absorbing layer 3.

Optionally, in some scenarios, the index finger needs to be used for touching the electronic display screen, and the arrangement of the sweat absorbing layer 3 in the index finger area affects the sensitivity of the index finger for touching the electronic display screen, so that the sweat absorbing layer can be arranged only in the thumb, middle finger, ring finger and little finger areas.

Optionally, sweat-absorbing layer includes cotton net top layer and the macromolecule factor layer that absorbs water, and the macromolecule factor layer that absorbs water presss from both sides and establishes on cotton net top layer and gloves internal surface, can strengthen the inside hygroscopicity of gloves, adsorbs the sweat that the during operation hand produced, guarantees the inside drying of gloves to guarantee that the hand is dry and comfortable, increase the comfort, prevent that the hand from being soaked by the sweat.

Alternatively, in other scenarios, the sweat-absorbent layer is disposed in all of the finger areas.

At the in-process of wearing gloves, the opening part of gloves is kept away from to finger department sweat most easily, and the operation that needs to use the finger is more moreover, and the finger is inconvenient because the sweat leads to operating, through set up sweat-absorbing layer 3 in finger position, can reduce the sweat of finger department, and then the operation of being convenient for also increases the comfort level of finger.

The palm area is in tight contact with the glove, so that the sweat absorbing layer 3 can be arranged on the palm area.

Alternatively, the sweat-absorbing layer 3 may be provided on the pulp of the thumb, middle finger, ring finger, or little finger.

Alternatively, the sweat-absorbent layer 3 may extend from the pulp of the thumb, middle finger, ring finger, or little finger to the palm area.

This embodiment is merely illustrative and is not intended to limit the specific arrangement position of the sweat-absorbent layer 3.

The outer surface of the glove is provided with anti-slip structures in the finger area and the palm area. Alternatively, the anti-slip structure may be a corrugated structure or anti-slip raised grains. The anti-slip structure can increase the friction force between the glove and the object to be grabbed, so that the object can be grabbed to avoid the object to be grabbed from slipping off.

Further, the outer surface of the glove is provided with a fastener 4 in the wrist area. Alternatively, the fastener 4 may be a snap; the fastening member 4 may also be an elastic rope-shaped object, and fastening is achieved by binding; the elastic belt-shaped object can also be an elastic belt-shaped object, and the fastening can be completed by connecting the belt-shaped object together through a button and a button hole at the tail end of the belt-shaped object or a magic tape.

Gloves are wearing the in-process, and the easy landing in wrist area leads to gloves to wear not tightly, makes gloves difficult landing through setting up fastener 4, and gloves are worn and are fastened more.

The above is only a preferred embodiment of the present invention, and not intended to limit the scope of the invention, and it should be appreciated by those skilled in the art that various equivalent substitutions and obvious changes made in the specification and drawings should be included within the scope of the present invention.

Claims (7)

1. An anti-slip sweat-absorbent glove, comprising:

the glove comprises a glove body, a handle body and a handle, wherein the glove body comprises a finger area, a palm area and a wrist area which are integrally structured;

anti-falling ribs are arranged on the thumb and the forefinger in the glove, and the anti-falling ribs are arranged at joints of the thumb and the forefinger close to the finger abdomens;

convex particles are arranged at the back of the hand, the palm area and the side edge of the hand in the glove;

a sweat absorbing layer is arranged in the thumb, middle finger, ring finger, little finger and palm area inside the glove;

the outer surface of the glove is provided with anti-skid structures in a finger area and a palm area.

2. The slip and sweat resistant glove of claim 1 wherein the slip and sweat resistant rib is a ring of raised annular structure.

3. The slip-resistant sweat-absorbent glove of claim 1 wherein the surface of the bead contacting the skin of the finger is corrugated.

4. The slip-resistant and sweat-absorbent glove of claim 1 wherein the sweat-absorbent layer comprises a cotton mesh surface layer and a polymeric water absorption factor layer, the polymeric water absorption factor layer being sandwiched between the cotton mesh surface layer and the inner surface of the glove.

5. The slip-resistant sweat-absorbent glove of claim 1 wherein the slip-resistant structure is a corrugated structure or raised slip-resistant beads.

6. A slip-resistant sweat-absorbent glove according to any one of claims 1 to 5 wherein the exterior of the glove is provided with a fastener in the wrist region.

7. The slip and sweat glove of claim 6 wherein the fastener is a snap.

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