A cut-resistant glove with protective function

By designing fingerless cut-resistant gloves and using replaceable and heat-dissipating components, the problems of poor heat dissipation and fingertip wear have been solved, achieving flexible adaptation and efficient heat dissipation, thus improving the ease of use and safety of protective gloves.

CN224420183UActive Publication Date: 2026-06-30HANGZHOU SEVEN BUBBLE TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HANGZHOU SEVEN BUBBLE TECH CO LTD
Filing Date
2025-06-19
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Existing cut-resistant gloves have their heat dissipation section located at the wrist, resulting in low heat dissipation efficiency. The fingertips wear out quickly, and damaged fingertips require replacement gloves, leading to waste. Furthermore, fingertips are highly sensitive to pain during special operations, which affects work performance.

Method used

Design fingerless cut-resistant gloves with replaceable components at the fingertips and a heat dissipation component in the palm area, including a threaded ring, protective steel sleeve, cut-resistant finger sleeves, and heat dissipation holes. The threaded design allows for quick installation and removal, and the heat dissipation holes are covered with a protective cloth to accelerate heat dissipation and prevent punctures.

Benefits of technology

It improves the applicability and economy of gloves, extends their service life, reduces costs, and enhances wearing comfort and safety, making them suitable for complex working environments.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses a cut-resistant glove with protective function, comprising a replacement component and a heat dissipation component. The cut-resistant glove features a fingerless design with a replacement component at the fingertips and a heat dissipation component in the palm area. In the replacement component, a threaded ring is fixed to the fingertip section of the glove. Both the protective steel sleeve and the cut-resistant finger sleeve have connecting rings at one end, which are threaded together for quick installation. The protective steel sleeve is impact-resistant, and the cut-resistant finger sleeve is made of the same material as the glove and is replaceable. In the heat dissipation component, ventilation holes are provided on the back and center of the palm, covered by a protective fabric. The Velcro hooks on both sides are bonded to the Velcro cotton sides of the ventilation holes, and the protective fabric is made of Kevlar fiber. This glove allows for flexible selection of fingertip protection according to work needs, reducing usage costs, accelerating heat dissipation from the palm for increased comfort, and effectively preventing needle punctures and cuts during heat dissipation, ensuring hand safety.
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Description

Technical Field

[0001] This utility model relates to the field of cut-resistant gloves, specifically a cut-resistant glove with protective function. Background Technology

[0002] With the booming development of my country's industrial production, people's awareness of working environment and personal safety and health has significantly increased. Hand protection is a crucial aspect of this. Therefore, choosing the right high-performance gloves is essential in different working environments. In relatively developed cities in China, there are numerous industries such as heavy metal processing, high-rise construction, various processing, and automobile manufacturing. For personnel engaged in extreme mechanical operations, high-risk cutting jobs, steel plate handling, and metal product processing, wearing cut-resistant gloves is essential. This not only significantly improves production efficiency but also reduces the risks during operation.

[0003] Publication number CN219537546U discloses a cut-resistant glove with a wrist tightening function, belonging to the field of cut-resistant gloves. It includes a glove structure where the outer surface of the outer sleeve is sewn with Velcro straps A, B, and B. This device solves the problem of cut-resistant gloves easily slipping off during use due to difficulty in tightening at the wrist, resulting in low safety. Through the arrangement of Velcro straps A and B, a connecting fabric, and Velcro straps A and B, the hand is slipped inside the palm via a heat dissipation section. The fit is adjusted according to the wrist size. The connection position of Velcro straps A and B is designed so that the connecting fabric facilitates bending, allowing the inner and outer sleeves to bend together. Pulling the connecting strap causes Velcro strap A to adhere to the outside of Velcro strap B, tightening the wrist. However, this patent still has the following problems in actual use:

[0004] The heat dissipation part of the aforementioned device is located at the wrist, while the heat generated by the hand is mainly in the palm. Therefore, the heat dissipation effect is relatively low. Furthermore, during the use of cut-resistant gloves, the wear rate of the fingertips is much greater than that of other parts such as the palm. If the gloves are replaced as soon as the fingertips are damaged, the gloves will not be fully utilized. Moreover, in some special work scenarios, such as when carrying heavy rollers with sharp blades, although existing cut-resistant gloves can prevent cuts from the blades, when the heavy objects directly press on the fingers, especially since the fingertips are more sensitive to pain than the back of the hand or the palm, workers will experience severe pain due to the heavy pressure on their fingertips, which will affect their work.

[0005] A cut-resistant glove with protective function is proposed to address the problems mentioned above. Utility Model Content

[0006] The purpose of this invention is to provide a cut-resistant glove with protective function to solve the problems mentioned in the background art. The heat dissipation part of the aforementioned device is located at the wrist, while the heat of the hand is mainly generated by the palm, resulting in low heat dissipation effect. Furthermore, during the use of cut-resistant gloves, the wear rate of the fingertips is much greater than that of other parts such as the palm. If the glove is replaced when the fingertips are damaged, the glove will not be fully utilized. Moreover, in some special work scenarios, such as when carrying heavy rollers with sharp blades, although existing cut-resistant gloves can prevent blade cuts, when heavy objects directly press on the fingers, especially since the pain sensitivity of the fingertips is greater than that of the back of the hand or the palm, workers will experience severe pain due to the heavy pressure on their fingertips, which will affect their work.

[0007] To achieve the above objectives, this utility model provides the following technical solution: a cut-resistant glove with protective function, comprising a cut-resistant glove;

[0008] The cut-resistant gloves feature a fingerless design at the fingers;

[0009] The cut-resistant glove has a replacement component at the fingertips and a heat dissipation component at the palm.

[0010] The replacement component includes a threaded ring fixedly connected to the fingertip section of the cut-resistant glove, and a protective steel sleeve and a cut-resistant finger sleeve installed on the fingertip of the cut-resistant glove. One end of the protective steel sleeve and the cut-resistant finger sleeve is fixedly connected to a connecting ring.

[0011] The heat dissipation component includes heat dissipation holes on the back of the palm and the center of the palm of the cut-resistant glove. The back of the palm and the center of the palm of the cut-resistant glove can be covered with a protective cloth, which covers the heat dissipation holes.

[0012] Preferably, the inner side of the threaded ring is provided with an internal thread, the outer side of the connecting ring is provided with an external thread, and the threaded ring and the connecting ring are threadedly connected.

[0013] Preferably, the protective steel sleeve is a steel product, and the protective steel sleeve is welded to the connecting ring.

[0014] Preferably, the cut-resistant finger cots and cut-resistant gloves are made of the same material, Kevlar fiber.

[0015] Preferably, the cut-resistant finger sleeve is bonded to the connecting ring.

[0016] Preferably, the two sides of the shielding cloth are symmetrically fixedly connected with hook and loop fasteners, and the two sides of the heat dissipation holes are symmetrically provided with hook and loop cotton fasteners, and the hook and loop fasteners are bonded to each other.

[0017] Preferably, the Velcro cotton side is fixedly connected to the cut-resistant glove.

[0018] Compared with the prior art, the beneficial effects of this utility model are as follows: This cut-resistant glove with protective function has a replaceable cover cloth component. The cover cloth uses a threaded design to allow for quick installation and removal of fingertip protection components, flexibly adapting to different scenarios and facilitating the replacement of worn parts to reduce costs. The heat dissipation component cover cloth uses heat dissipation holes to accelerate heat dissipation from the palm, improving comfort. At the same time, the cover cloth effectively prevents needle punctures and cuts while ensuring heat dissipation, comprehensively improving the glove's applicability, economy, and safety. The specific details are as follows:

[0019] 1. The threaded connection design between the threaded ring shielding cloth and the connecting ring shielding cloth enables quick installation and removal of the fingertip protection components, greatly improving ease of use. In practical work, workers can flexibly choose between protective steel sleeve shielding cloth or cut-resistant fingertip shielding cloth for fingertip protection according to different work scenarios and needs. This increases the glove's applicability, enabling it to meet the protection needs of more complex working environments. When the cut-resistant fingertip shielding cloth wears down after long-term use, it can be easily replaced by rotating the connecting ring shielding cloth, without replacing the entire glove, reducing usage costs. This replaceable design not only extends the overall service life of the glove but also improves resource utilization efficiency, providing users with a more economical and practical protection solution.

[0020] 2. The ventilation holes and vents in the glove allow heat generated by the user's hands to dissipate more quickly, effectively preventing the glove from trapping heat inside. This significantly reduces discomfort caused by prolonged wear and improves comfort. In practical work, especially in environments with high temperatures and long operating times, the ventilation holes and vents effectively dissipate heat, keeping hands dry and improving work efficiency and quality. Furthermore, the vents cleverly resolve the conflict between heat dissipation and protection. The hook-and-loop fasteners on the vent side and the cotton side side are securely attached, preventing needle-like objects from piercing the hands and ensuring the glove's puncture and cut resistance. Attached Figure Description

[0021] Figure 1 This is a three-dimensional structural schematic diagram of the present invention;

[0022] Figure 2 A three-dimensional structural diagram of a cut-resistant glove;

[0023] Figure 3 This is a schematic diagram of the separation structure of the threaded ring and the protective steel sleeve;

[0024] Figure 4 A schematic diagram of the installation structure for protecting the steel sleeve and the cut-resistant finger sleeve.

[0025] In the picture: 1. Cut-resistant gloves; 2. Replacement components; 201. Threaded ring; 202. Protective steel sleeve; 203. Connecting ring; 204. Cut-resistant finger sleeve; 3. Heat dissipation components; 301. Heat dissipation holes; 302. Covering cloth; 303. Velcro hook side; 304. Velcro cotton side. Detailed Implementation

[0026] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0027] Please see Figures 1-4 The present invention provides a technical solution: a cut-resistant glove 1 with protective function, comprising a cut-resistant glove 1;

[0028] The fingertips of cut-resistant gloves 1 are designed without fingertips;

[0029] Among them, the cut-resistant glove 1 has a replacement component 2 at the fingertips and a heat dissipation component 3 at the palm of the cut-resistant glove 1.

[0030] The replacement component 2 includes a threaded ring 201 fixedly connected to the fingertip section of the cut-resistant glove 1, and a protective steel sleeve 202 and a cut-resistant finger sleeve 204 installed on the fingertip of the cut-resistant glove 1. One end of the protective steel sleeve 202 and the cut-resistant finger sleeve 204 are fixedly connected to a connecting ring 203. Since the cut-resistant glove 1 is generally thick and the threaded ring 201 is installed at the finger joint, the threaded ring 201 has a very low impact on finger comfort.

[0031] The heat dissipation component 3 includes heat dissipation holes 301 on the back of the palm and the center of the palm of the cut-resistant glove 1. The back of the palm and the center of the palm of the cut-resistant glove 1 can be covered with a cover cloth 302, which covers the heat dissipation holes 301. The cover cloth 302 is also made of Kevlar fiber, which can prevent needle punctures while ensuring the cut-resistant effect.

[0032] The threaded ring 201 has an internal thread on its inner side, and the connecting ring 203 has an external thread on its outer side. The threaded ring 201 and the connecting ring 203 are threadedly mated. Rotation of the threaded ring 201 and the connecting ring 203 allows for quick installation.

[0033] The protective steel sleeve 202 is made of steel and is welded to the connecting ring 203. By changing the fingertips of the cut-resistant glove 1 to the protective steel sleeve 202, the worker's fingers will not be injured. For example, when carrying heavy objects with blades, although the cut-resistant glove 1 can avoid being cut by the blades, when the roller presses directly between the fingers, the worker will feel severe pain in the fingertips because of the connection between the ten fingers and the heart. This increases the applicability of the cut-resistant glove 1. The protective steel sleeve 202 or the cut-resistant finger sleeve 204 can be selected as the fingertips as needed.

[0034] The cut-resistant finger cot 204 is made of the same material as the cut-resistant glove 1, namely Kevlar fiber; the cut-resistant finger cot 204 is bonded to the connecting ring 203; after long-term use, the cut-resistant finger cot 204 will inevitably wear down, and the wear rate is greater than that of the cut-resistant glove 1. Therefore, the cut-resistant finger cot 204 can be replaced by rotating the connecting ring 203;

[0035] The protective cloth 302 is symmetrically fixedly connected to the two sides with hook and loop fasteners 303, and the heat dissipation holes 301 are symmetrically provided with hook and loop cotton surfaces 304 on both sides. The hook and loop fasteners 303 and the hook and loop cotton surfaces 304 are bonded together. The hook and loop cotton surfaces 304 are fixedly connected to the cut-resistant glove 1. The heat dissipation holes 301 allow the heat of the user's palm to dissipate faster, preventing the cut-resistant glove 1 from completely sealing the heat inside, which would cause discomfort to the user. The hook and loop fasteners 303 and the hook and loop cotton surfaces 304 allow the protective cloth 302 to be connected to the cut-resistant glove 1, preventing the person wearing the cut-resistant glove 1 from being pricked by needle-like objects through the heat dissipation holes 301 while working.

[0036] Working principle: Before using this type of cut-resistant glove with protective function, it is necessary to check the overall condition of the device to ensure that it can work normally. Figure 1 - Figure 4 As shown, when a user wears the cut-resistant glove 1 with protective function, the fingers can be placed on the fingertips without fingertips. For fingertip protection, the appropriate option is selected based on actual work requirements. If the work environment carries the risk of heavy objects crushing the fingertips, such as when handling heavy objects with blades, the protective steel sleeve 202 can be quickly installed by threading it to the threaded ring 201, which is fixedly connected to the fingertip section of the cut-resistant glove 1, via its connecting ring 203. Utilizing the steel properties of the protective steel sleeve 202, it effectively prevents finger injuries from impacts.

[0037] If the primary risk is cuts, choose the cut-resistant finger sleeve 204, which is installed by connecting the connecting ring 203 to the threaded ring 201. During long-term use, if the cut-resistant finger sleeve 204 becomes worn, it can be removed and replaced by rotating the connecting ring 203.

[0038] During operation, heat generated by the palm can be dissipated more quickly through the heat dissipation holes 301 on the back and center of the palm, preventing heat buildup inside the glove from causing discomfort to the user. Simultaneously, to prevent needle-like objects from piercing the hand through the heat dissipation holes 301, the cover fabric 302 is attached to the Velcro hook sides 303 of the cover fabric on both sides of the cover fabric 302 to the Velcro cotton sides 304 of the heat dissipation holes 301, thus covering the heat dissipation holes 301.

[0039] Although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present invention should be included within the protection scope of the present invention.

Claims

1. A cut-resistant glove (1) with protective function, comprising a cut-resistant glove (1); Its features are, Also includes: The cut-resistant gloves (1) have a fingerless design at the fingertips; The cut-resistant glove (1) is provided with a replacement component (2) at the fingertips and a heat dissipation component (3) at the palm of the cut-resistant glove (1). The replacement component (2) includes a threaded ring (201) fixedly connected to the fingertip section of the cut-resistant glove (1), and a protective steel sleeve (202) and a cut-resistant finger sleeve (204) installed on the fingertip of the cut-resistant glove (1). One end of the protective steel sleeve (202) and the cut-resistant finger sleeve (204) is fixedly connected to a connecting ring (203). The heat dissipation component (3) includes heat dissipation holes (301) on the back of the palm and the center of the palm of the cut-resistant glove (1). The back of the palm and the center of the palm of the cut-resistant glove (1) can be covered with a covering cloth (302), and the covering cloth (302) covers the heat dissipation holes (301).

2. The cut-resistant glove with protective function according to claim 1, characterized in that: The inner side of the threaded ring (201) is provided with an internal thread, and the outer side of the connecting ring (203) is provided with an external thread. The threaded ring (201) and the connecting ring (203) are threadedly connected.

3. The cut-resistant glove with protective function according to claim 1, characterized in that: The protective steel sleeve (202) is a steel product, and the protective steel sleeve (202) is welded to the connecting ring (203).

4. A cut-resistant glove with protective function according to claim 1, characterized in that: The cut-resistant finger sleeve (204) and the cut-resistant glove (1) are made of the same material, Kevlar fiber.

5. A cut-resistant glove with protective function according to claim 4, characterized in that: The cut-resistant finger sleeve (204) is bonded to the connecting ring (203).

6. A cut-resistant glove with protective function according to claim 1, characterized in that: The shielding cloth (302) is symmetrically fixedly connected with hook and loop fasteners (303) on both sides, and the heat dissipation hole (301) is symmetrically provided with hook and loop cotton fasteners (304) on both sides, and the hook and loop fasteners (303) are bonded to the hook and loop cotton fasteners (304).

7. A cut-resistant glove with protective function according to claim 6, characterized in that: The Velcro cotton surface (304) is fixedly connected to the cut-resistant glove (1).