CN116941840A - Wear-resisting antidetonation gloves - Google Patents

Abstract

The invention discloses a wear-resistant and earthquake-resistant glove, which belongs to the field of safety protection tools and comprises a glove body and a wear-resistant and puncture-resistant layer, wherein the wear-resistant and puncture-resistant layer is arranged on the palm part and the finger part of the glove body, the wear-resistant and puncture-resistant layer is made of an elastic material, and the wear-resistant and puncture-resistant layer is formed by compression molding and is integrally formed on the glove body. Through with wear-resisting thorn layer integrated into one piece in palm portion, finger portion, thumb and the first hand portion between the forefinger of gloves body for the gloves have antidetonation, wear-resisting and prevent thorn effect, wear-resisting thorn layer is compression molding and integrated into one piece on the gloves body, has solved the manufacturing of current protective gloves and need just can form wear-resisting thorn layer through processes such as gum dipping, washing and lead to polluting great problem, guarantees flexibility ratio and the product standardization of wearing gloves work, and shape colour is more various. The wear-resistant and stab-resistant layer is made of high-elasticity plastic materials, and meets the requirements of wear resistance and shock resistance.

Description

Wear-resisting antidetonation gloves

Technical Field

The invention relates to the field of safety protection tools, in particular to a wear-resistant and earthquake-resistant glove.

Background

In industrial production, wear-resisting antidetonation protective gloves are the edge tool of protection labourer's both hands, and it is common under complicated operating modes such as mining, welding, chemical industry, oil field, repair, transport, wear protective gloves and can make labourer's both hands avoid receiving injuries such as hard thing collision or wearing and tearing.

The existing common protective glove usually uses single-color dipping or coating nitrile rubber, polyurethane PU and latex to strengthen the wear resistance of the glove palm, and the production of the glove needs to be treated by a dipping process, namely, the fabric fiber passes through a glue dipping tank and is dipped with glue, so that the curing force of the fabric and the glue is improved, and the stiffness degree and the wear resistance of the glove are enhanced. The process comprises the following steps: glove mold, dipping coagulant, dipping glue, homogenizing glue, washing, drying, soaking and washing for many times, drying, demolding and the like. It can be seen that the existing protective glove production process needs to be subjected to operations such as gum dipping and water washing, the protective glove manufactured by the method has large smell, and the gum dipping process needs water washing, so that the waste water generated by water washing has serious environmental pollution. Meanwhile, as the dipping is immersed in open type dipping, the original method is single in color, the thickness, shape and position of the glue surface cannot be accurately controlled, the flexibility is limited, the attractiveness is insufficient, and individuation and brand distinguishing design are difficult to realize.

Disclosure of Invention

The invention aims to provide a wear-resistant and earthquake-resistant glove.

To achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a wear-resisting antidetonation gloves, includes glove body and wear-resisting anti-thorn layer, wear-resisting anti-thorn layer is established palm portion, finger portion, thumb and the first mouth portion between the forefinger of glove body, wear-resisting anti-thorn layer is made for elastic material, wear-resisting anti-thorn layer is compression molding and integrated into one piece is in on the glove body.

Preferably, the wear-resistant and stab-resistant layer is made of thermoplastic elastomer material through compression molding.

Preferably, the glove body is made by knitting a knitting yarn.

Preferably, the wear-resisting anti-prick layer comprises a first protection sheet and a plurality of second protection sheets, the first protection sheet covers the palm portion and the finger root portion of the glove body, the second protection sheets are arranged on the finger head portion of the glove body, buffer textures are arranged on the first protection sheet, and anti-slip strips are arranged on the second protection sheet.

Preferably, the first protection sheet is provided with a movable gap part, and the thickness of the movable gap part is smaller than that of the first protection sheet.

Preferably, the thickness of the first protective sheet and the second protective sheet is 0.05-2 mm.

Preferably, the wear-resistant and stab-resistant layer comprises a plurality of shock-resistant blocks, and the shock-resistant blocks are distributed on the palm portion and the finger portion of the glove body.

Preferably, the shock-proof block is provided with a plurality of shock-proof protruding parts, and the cross section of each shock-proof protruding part is annular.

Preferably, the thickness of the impact-resistant protruding part is 2-20 mm.

Compared with the prior art, the invention has the beneficial effects that: through with wear-resisting thorn layer integrated into one piece in palm portion, finger portion, thumb and the first hand portion between the forefinger of gloves body for the gloves have antidetonation, wear-resisting and prevent thorn effect, wear-resisting thorn layer is compression molding and integrated into one piece on the gloves body, has solved the manufacturing of current protective gloves and need just can form wear-resisting thorn layer through processes such as gum dipping, washing and lead to polluting great problem, guarantees flexibility ratio and the product standardization of wearing gloves work, and shape colour is more various. The wear-resistant and stab-resistant layer is made of high-elasticity plastic materials, and meets the requirements of wear resistance and shock resistance.

Drawings

The present invention is further illustrated by the accompanying drawings, which are not to be construed as limiting the invention in any way.

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

fig. 2 is a schematic structural view of embodiment 2 of the present invention.

Wherein: glove body 1, palm portion 11, finger portion 12, first protective sheet 21, second protective sheet 22, finger base 121, finger head 122, cushioning texture 211, cleat 221, running clearance portion 212, shock-resistant block 23, and shock-resistant boss 231.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

Embodiment one:

the utility model provides a wear-resisting antidetonation gloves, refers to figure 1, includes glove body 1 and wear-resisting anti-thorn layer, and wear-resisting anti-thorn layer is established at palm portion 11 and finger portion 12 of glove body 1, and wear-resisting anti-thorn layer is made for elastic material, and wear-resisting anti-thorn layer is compression molding and integrated into one piece on glove body 1.

Through with wear-resisting layer integrated into one piece at palm portion 11 and finger portion 12 of gloves body 1 for the gloves have antidetonation, wear-resisting and prevent thorn effect, wear-resisting layer that prevents thorn is compression molding and integrated into one piece on gloves body 1, has solved the manufacturing of current protective gloves and need be through processes such as gum dipping, washing just can form wear-resisting layer that prevents thorn and lead to polluting great problem.

Preferably, the wear-resistant and stab-resistant layer is made of thermoplastic elastomer material through compression molding. The wear-resistant and stab-resistant layer is made of TPR thermoplastic elastomer material, has the characteristic of high elasticity, and meets the requirements of wear resistance and shock resistance. The thinner wear-resistant and stab-resistant layer formed on the glove body 1 can meet the requirements of the highest grade four-level wear resistance of European Union EN388, and the whole glove is thinner, so that the glove can work more conveniently and flexibly when being worn. The thermoplastic elastomer may be single color or a combination of colors.

Preferably, the glove body 1 is made by knitting a knitted thread. Namely, the glove body 1 is made of woven gloves, the wear-resistant anti-thorn layer is formed by compression molding and integrally formed on the woven gloves, so that the glove body 1 is more attached to hands of a worker, and comfort level of wearing the gloves and flexibility of work are improved.

Preferably, the wear-resistant and stab-resistant layer comprises a first protection sheet 21 and a plurality of second protection sheets 22, the first protection sheet 21 covers the palm portion 11 and the finger root portion 121 of the glove body 1, the plurality of second protection sheets 22 are arranged on the finger head portion 122 of the glove body 1, a plurality of buffering textures 211 distributed in a shape are arranged on the first protection sheet 21, and a labyrinth and special-shaped anti-slip strips 221 are arranged on the second protection sheet 22. Through setting up the first protection piece 21 that covers in palm portion 11 and finger root 121 of glove body 1, played the effect of protection to the whole palm of labour, be equipped with buffering texture 211 on the first protection piece 21, buffering texture 211 can be by a plurality of diamond, bump or other shape combination formation for first protection piece 21 has better antidetonation, wear-resisting and thorn effect. Through set up the second protection piece 22 on the finger head 122 of gloves body 1, played the protection to the labourer's finger, through set up the antislip strip 221 of arbitrary pattern, shape, line such as maze, dysmorphism on the second protection piece 22, make things convenient for the labourer to snatch article, and improved the wearability at this position, improved the comfort level of wearing gloves and the flexibility of work.

Further, the first protection sheet 21 is provided with a clearance portion 212, and the thickness of the clearance portion 212 is smaller than that of the first protection sheet 21. So that the first protection sheet 21 can be bent along the movable gap portion 212, improving the flexibility of work of wearing gloves.

Further, the thickness of the first protective sheet 21 and the second protective sheet 22 is 0.05 to 2mm. Since the first protection sheet 21 covers a larger area on the glove body 1 and the first protection sheet 21 has the buffer texture 211 thereon, the thickness of the first protection sheet 21 and the second protection sheet 22 is set to be thinner by 0.05-0.2 mm, so that the anti-seismic performance can be satisfied.

Embodiment two:

the utility model provides a wear-resisting antidetonation gloves, refers to figure 2, includes glove body 1 and wear-resisting anti-thorn layer, and wear-resisting anti-thorn layer is established at palm portion 11 and finger portion 12 of glove body 1, and wear-resisting anti-thorn layer is thermoplastic elasticity and makes, and wear-resisting anti-thorn layer is compression molding and integrated into one piece on glove body 1, and glove body 1 is the gloves of weaving.

Preferably, the wear-resistant and stab-resistant layer comprises a plurality of shock-resistant blocks 23, and the plurality of shock-resistant blocks 23 are distributed on the palm portion 11 and the finger portion 12 of the glove body 1. In this embodiment 2, the plurality of shock-resistant blocks 23 are distributed on the palm portion 11 and the finger portion 12 of the glove body 1, so that the protection position can be adjusted according to the requirements of various glove products, and the shock-resistant blocks can be distributed at any position on the glove body 1, and any pattern, shape, texture and the like can be set. Thereby adjust antidetonation protection effect and wear the flexibility of gloves work, accurate local protection. The anti-vibration blocks 23 are integrally formed by compression molding, so that the shape and the color of each anti-vibration block 23 can be different, and the attractiveness of a glove product is improved.

Further, the shock-proof block 23 is provided with a plurality of impact-proof protrusions 231, and the impact-proof protrusions 231 have a ring-shaped cross section. The cross section of the impact-resistant bulge is annular, and the impact-resistant bulges are arranged at intervals, so that each impact-resistant bulge has enough space for elastic deformation, and the flexibility of glove wearing work is improved.

Further, the thickness of the impact protrusion 231 is 0.8 to 20mm. The impact-resistant protruding portion 231 has a certain thickness, the effects of local vibration resistance, wear resistance and puncture resistance are met, and the glove is accurately controlled to be required to be in vibration-resistant positions, vibration-resistant thicknesses, shapes and colors, so that the glove is ensured to have the effects of vibration resistance, wear resistance and puncture resistance, and meanwhile the flexibility of work for wearing the glove is improved.

The technical principle of the present invention is described above in connection with the specific embodiments. The description is made for the purpose of illustrating the general principles of the invention and should not be taken in any way as limiting the scope of the invention. Other embodiments of the invention will be apparent to those skilled in the art from consideration of this specification without undue burden.

Claims (9)

1. The wear-resistant anti-vibration glove is characterized by comprising a glove body and a wear-resistant anti-puncture layer, wherein the wear-resistant anti-puncture layer is arranged on a hand part, a finger part and a tiger mouth part between a thumb and an index finger of the glove body, the wear-resistant anti-puncture layer is made of an elastic material, and the wear-resistant anti-puncture layer is formed by compression molding and is integrally formed on the glove body.

2. A wear-resistant and anti-seismic glove according to claim 1, wherein the wear-resistant and anti-stab layer is made of thermoplastic elastomer material by compression molding.

3. A wear-resistant and shock-resistant glove according to claim 1, wherein said glove body is knitted with knitting yarns.

4. A wear-resistant and earthquake-resistant glove according to any one of claims 1 to 3, wherein the wear-resistant and puncture-resistant layer comprises a first protective sheet and a plurality of second protective sheets, the first protective sheet covers the palm portion and the finger root portion of the glove body, the plurality of second protective sheets are arranged on the finger head portion of the glove body, buffer textures are arranged on the first protective sheet, and anti-slip strips are arranged on the second protective sheet.

5. The wear-resistant and earthquake-resistant glove according to claim 4, wherein the first protective sheet is provided with a clearance portion, and the clearance portion has a thickness smaller than that of the first protective sheet.

6. A wear resistant and shock resistant glove according to claim 5, wherein the first and second protective sheets have a thickness of 0.05 to 2mm.

7. A wear resistant anti-ballistic glove according to any one of claims 1-3, wherein the wear resistant anti-stick layer comprises a plurality of anti-ballistic blocks, a plurality of said anti-ballistic blocks being distributed on the palm and fingers of the glove body.

8. A wear resistant and shock resistant glove according to claim 7, wherein said shock resistant block is provided with a plurality of shock resistant bosses, said shock resistant bosses being annular in cross section.

9. A wear resistant and shock resistant glove according to claim 8, wherein said shock resistant raised portion has a thickness of 2 to 20mm.