WEAR-RESISTANT AND SHOCK-RESISTANT GLOVE

Abstract

A wear-resistant and shock-resistant glove includes a glove body and a wear-resistant and stab-resistant layer. The wear-resistant and stab-resistant layer is disposed at a palm part and a finger part of the glove body, the wear-resistant and stab-resistant layer is made of an elastic material, and the wear-resistant and stab-resistant layer is subjected to compression molding and is integrally formed on the glove body. The wear-resistant and stab-resistant layer is integrally formed at the palm part, the finger part and a purlicue part between a thumb and a forefinger of the glove body, such that the glove has shock-resistant, wear-resistant and stab-resistant effects. The wear-resistant and stab-resistant layer is subjected to compression molding and is integrally formed on the glove body. The wear-resistant and stab-resistant layer is made of a high-elasticity plastic material, which meets the requirements on wear resistant and shock resistance.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims priority to Chinese Patent Application No. 202310811590.5 with a filing date of Jul. 4, 2023. The content of the aforementioned application, including any intervening amendments thereto, is incorporated herein by reference.

TECHNICAL FIELD

The present disclosure relates to the field of safety protection tools, and in particular, to a wear-resistant and shock-resistant glove.

BACKGROUND

In industrial production, wear-resistant and shock-resistant protective gloves are commonly used to protect our hands from potential injury. Especially in complex working conditions such as mining, welding, chemical industry, oil field, repair, and handling, the protective gloves can help protect our hands from injury or damage caused by hard and harsh objects.

It is common in existing protective gloves that the wear resistance of palms of the gloves is strengthened by single color dipping or coating of nitrile rubber, polyurethane (PU) and latex. The production of the gloves requires a dipping process. That is, fabric fibers are dipped in glue in a glue tank to increase a bonding force between a fabric and the glue, thereby enhancing the stiffness and wear resistance of the gloves. The process specifically includes: glove molding, coagulant dipping, glue dipping, glue spreading, rinsing, drying, multiple soaking, drying, demolding, etc. In view of the above, the existing glove production process requires operations such as glue dipping and water washing. The protective gloves produced by this method not only have a strong smell, but also need to be washed with water after dipping, and waste water produced by washing seriously pollutes the environment. Moreover, the existing method cannot accurately control the thickness, shape and position of a glue surface since the glue dipping is submerged open dipping, resulting in limited flexibility, undesirable aesthetics, and difficulty in providing personalized and brand-distinguishing design.

SUMMARY OF PRESENT INVENTION

An objective of the present disclosure is to provide a wear-resistant and shock-resistant glove.

To achieve this objective, the present disclosure adopts the following technical solutions:

A wear-resistant and shock-resistant glove includes a glove body and a wear-resistant and stab-resistant layer; the wear-resistant and stab-resistant layer is disposed at a palm part, a finger part and a purlicue part between a thumb and a forefinger of the glove body; the wear-resistant and stab-resistant layer is made of an elastic material; and the wear-resistant and stab-resistant layer is subjected to compression molding and is integrally formed on the glove body.

Preferably, the wear-resistant and stab-resistant layer is formed by a thermoplastic elastomer material through compression molding.

Preferably, the glove body is prepared by weaving knitting threads.

Preferably, the wear-resistant and stab-resistant layer includes a first protective sheet and a plurality of second protective sheets, where the first protective sheet covers the palm part and a finger root part of the glove body, the plurality of second protective sheets are disposed at a finger head part of the glove body, the first protective sheet has a buffer texture, and the second protective sheets have anti-skid strips.

Preferably, a moving gap portion is arranged on the first protective sheet, and the moving gap portion is thinner than the first protective sheet.

Preferably, the first protective sheet has a thickness of 0.05-2 mm, and the second protective sheets each have a thickness of 0.05-2 mm.

Preferably, the wear-resistant and stab-resistant layer includes a plurality of shock-resistant members, and the plurality of shock-resistant members is arranged on the palm part and the finger part of the glove body.

Preferably, the shock-resistant members have a plurality of impact-resistant protrusion portions, and the impact-resistant protrusion portions have annular cross sections.

Preferably, the impact-resistant protrusion portions each have a thickness of 2-20 mm.

Compared with the prior art, the present disclosure has the following beneficial effects. The wear-resistant and stab-resistant layer is integrally formed at the palm part, the finger part and a purlicue part between a thumb and a forefinger of the glove body, such that the glove has shock-resistant, wear-resistant and stab-resistant effects. The wear-resistant and stab-resistant layer is subjected to compression molding and is integrally formed on the glove body. This solves the problem that the manufacturing of existing protective gloves causes relatively large pollution since the formation of the wear-resistant and stab-resistant layer involves processes such as dipping and washing. Therefore, the flexibility of wearing gloves and product standardization are ensured, and more shapes and colors are possible for the gloves. The wear-resistant and stab-resistant layer is made of a high-elasticity plastic material, which meets the requirements on wear resistance and shock resistance.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings further describe the present disclosure. However, the contents in the accompanying drawings do not form any limit to the present disclosure.

FIG. 1 is a schematic structural diagram showing a glove according to Embodiment 1 of the present disclosure; and

FIG. 2 is a schematic structural diagram showing a glove according to Embodiment 2 of the present disclosure.

Reference numerals: 1-Glove body, 11-Palm part, 12-Finger part, 21-First protective sheet, 22-Second protective sheet, 121-Finger root part, 122-Finger head part, 211-Buffer texture, 221-Anti-skid strip, 212-Moving gap portion, 23-Shock-resistant member, and 231-Impact-resistant protrusion portion.

DETAILED DESCRIPTION OF THE EMBODIMENTS

The technical solutions of the present disclosure will be described in more detail below with reference to the accompanying drawings and specific implementations.

Embodiment 1

Referring to FIG. 1, a wear-resistant and shock-resistant glove includes a glove body 1 and a wear-resistant and stab-resistant layer. The wear-resistant and stab-resistant layer is disposed at a palm part 11 and a finger part 12 of the glove body 1. The wear-resistant and stab-resistant layer is made of an elastic material. The wear-resistant and stab-resistant layer is subjected to compression molding and is integrally formed on the glove body 1.

The wear-resistant and stab-resistant layer is integrally formed at the palm part 11 and the finger part 12 of the glove body 1, such that the glove has shock-resistant, wear-resistant and stab-resistant effects. The wear-resistant and stab-resistant layer is subjected to compression molding and is integrally formed on the glove body 1. This solves the problem that the manufacturing of existing protective gloves causes relatively large pollution since the formation of the wear-resistant and stab-resistant layer involves processes such as dipping and washing.

Preferably, the wear-resistant and stab-resistant layer is formed by a thermoplastic elastomer material through compression molding. The wear-resistant and stab-resistant layer is made of a TPR thermoplastic elastomer material, which has high elasticity and meets the requirements of wear-resistant strength and shock resistance. The relatively thin wear-resistant and stab-resistant layer on the glove body 1 can achieve the highest level 4 wear-resistant strength requirement of EU EN388, and the entire glove is generally thin, such that it is easier and more flexible to work while wearing the glove. The thermoplastic elastomer is available in single or multi-color combinations.

Preferably, the glove body 1 is prepared by weaving knitting threads. That is to say, the glove body 1 is a knitted glove. The wear-resistant and stab-resistant layer is subjected to compression molding and is integrally formed on the knitted glove, such that the glove body 1 fits better with two hands of a laborer, thereby improving the comfort of glove wearing and the flexibility of work.

Preferably, the wear-resistant and stab-resistant layer includes a first protective sheet 21 and a plurality of second protective sheets 22. The first protective sheet 21 covers the palm part 11 and a finger root part 121 of the glove body 1. The plurality of second protective sheets 22 is disposed at a finger head part 122 of the glove body 1. The first protective sheet 21 has a plurality of buffer textures 211 arranged in a shape, and the second protective sheets 22 have labyrinth-shaped and special-shaped anti-skid strips 221. By providing the first protective sheet 21 to cover the palm part 11 and the finger root part 121 of the glove body 1, the whole palm of the laborer is protected. The first protective sheet 21 has buffer textures 211, and the buffer textures 211 may be formed by a combination of a plurality of rhombuses, bumps or other shapes, such that the first protective sheet 21 has better shock-resistant, wear-resistant and stab-resistant effects. By protecting the second protective sheets 22 on the finger head part 122 of the glove body 1, the finger head of the laborer is protected. By providing the anti-skid strips 221 of arbitrary patterns, shapes and textures such as labyrinth and special shapes on the second protective sheets 22, it is convenient for the laborer to grab articles, and the wear resistance of this part is improved, and the comfort of glove wearing and the flexibility of work are improved.

Furthermore, a moving gap portion 212 is arranged on the first protective sheet 21, and the moving gap portion 212 is thinner than the first protective sheet 21. The first protective sheet 21 can be bent along the moving gap portion 212, improving the flexibility of work with the glove.

Furthermore, the first protective sheet 21 has a thickness of 0.05-2 mm, and the second protective sheets 22 each have a thickness of 0.05-2 mm. The area of the first protective sheet 21 covering the glove body 1 is relatively large, and the first protective sheet 21 has the buffer textures 211. Therefore, the first protective sheet 21 and the second protective sheets 22 are set to be thinner of 0.05-0.2 mm, thereby meeting the shock resistance.

Embodiment 2

Referring to FIG. 2, a wear-resistant and shock-resistant glove includes a glove body 1 and a wear-resistant and stab-resistant layer. The wear-resistant and stab-resistant layer is disposed at a palm part 11 and a finger part 12 of the glove body 1, the wear-resistant and stab-resistant layer is made of a thermoplastic material, the wear-resistant and stab-resistant layer is subjected to compression molding and is integrally formed on the glove body 1, and the glove body 1 is a knitted glove. Preferably, the wear-resistant and stab-resistant layer includes a plurality of shock-resistant members 23, and the plurality of shock-resistant members 23 are arranged on the palm part 11 and the finger part 12 of the glove body 1. According to Embodiment 2, the plurality of shock-resistant members 23 are arranged on the palm part 11 and the finger part 12 of the glove body 1, such that a protection position can be adjusted according to the requirements of various glove products. The shock-resistant members 23 can be arranged at any position on the glove body 1, and can be provided with any pattern, shape, texture, etc. In this way, the shock-resistant protection effect and the flexibility of work with the glove are adjusted, and accurate local protection is achieved. The shock-resistant members 23 are integrally formed by compression, and therefore may have different shapes and colors, thereby improving the beauty of the glove product.

Furthermore, the shock-resistant members 23 have a plurality of impact-resistant protrusion portions 231, and the impact-resistant protrusion portions 231 have annular cross sections. Impact-resistant protrusions have annular cross sections, and the plurality of impact-resistant protrusions are arranged at intervals, such that the impact-resistant protrusions have a space enough for elastic deformation, thereby improving the flexibility of work with the glove.

Furthermore, the impact-resistant protrusion portions 231 each have a thickness of 0.8-20 mm. The impact-resistant protrusion portions 231 have a certain thickness to meet the local shock-resistant, wear-resistant and stab-resistant effects, and accurate control of the glove requires a shock-resistant position, a shock-resistant thickness, a shape, and a color. Therefore, the flexibility of work with the glove is improved while the glove is ensured to have the shock-resistant, wear-resistant and stab-resistant effects.

The technical principles of the present disclosure are described above with reference to the specific embodiments. These descriptions are merely intended to explain the principles of the present disclosure, and may not be construed as limiting the protection scope of the present disclosure in any way. Based on the explanation herein, those skilled in the art may derive other specific implementations of the present disclosure without creative effort, but these implementations should fall within the protection scope of the present disclosure.

Claims

1. A wear-resistant and shock-resistant glove, comprising a glove body and a wear-resistant and stab-resistant layer, wherein the wear-resistant and stab-resistant layer is disposed at a palm part, a finger part and a purlicue part between a thumb and a forefinger of the glove body; the wear-resistant and stab-resistant layer is made of an elastic material; and the wear-resistant and stab-resistant layer is subjected to compression molding and is integrally formed on the glove body.

2. The wear-resistant and shock-resistant glove according to claim 1, wherein the wear-resistant and stab-resistant layer is formed by a thermoplastic elastomer material through compression molding.

3. The wear-resistant and shock-resistant glove according to claim 1, wherein the glove body is prepared by weaving knitting threads.

4. The wear-resistant and shock-resistant glove according to claim 1, wherein the wear-resistant and stab-resistant layer comprises a first protective sheet and a plurality of second protective sheets, wherein the first protective sheet covers the palm part and a finger root part of the glove body, the plurality of second protective sheets are disposed at a finger head part of the glove body, the first protective sheet has a buffer texture, and the second protective sheets have anti-skid strips.

5. The wear-resistant and shock-resistant glove according to claim 4, wherein a moving gap portion is arranged on the first protective sheet, and the moving gap portion is thinner than the first protective sheet.

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

7. The wear-resistant and shock-resistant glove according to claim 1, wherein the wear-resistant and stab-resistant layer comprises a plurality of shock-resistant members, and the plurality of shock-resistant members are arranged on the palm part and the finger part of the glove body.

8. The wear-resistant and shock-resistant glove according to claim 7, wherein the shock-resistant members have a plurality of impact-resistant protrusion portions, and the impact-resistant protrusion portions have annular cross sections.

9. The wear-resistant and shock-resistant glove according to claim 8, wherein the impact-resistant protrusion portions each have a thickness of 2-20 mm.