CN210747438U - Anti-collision and anti-chemical gloves - Google Patents
Anti-collision and anti-chemical gloves Download PDFInfo
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- CN210747438U CN210747438U CN201921261303.3U CN201921261303U CN210747438U CN 210747438 U CN210747438 U CN 210747438U CN 201921261303 U CN201921261303 U CN 201921261303U CN 210747438 U CN210747438 U CN 210747438U
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Abstract
The utility model provides an anticollision antichemical gloves, include: a glove liner corresponding to a hand of a user and having finger portions corresponding to respective fingers of the user; the joint anti-collision block assembly is provided with a finger anti-collision block adhered to the surface of the finger position of the glove liner through hot pressing, a back-of-hand anti-collision block adhered to the surface of the back-of-hand position and a palm anti-collision block adhered to the surface of the palm position; the adhesive surface is coated on the joint anti-collision block assembly and the surface of the glove liner; and the safety cuff is connected with the opening of the glove liner and corresponds to the wrist and the arm of the user.
Description
Technical Field
The utility model relates to a glove, concretely relates to crashproof antichemical gloves.
Background
The hand is one of the most frequently used organs of human beings, and almost everything needs to be done by hand, however, among various industrial accidents, the hand injury accident accounts for 20%. Therefore, protective gloves are often worn to protect hands during dangerous work. And among the prior art, the function of the protective gloves in each field is comparatively single, and when working in the face of complexity, the gloves of single safeguard function can't provide good guard action, for example the anticollision gloves that have the anticollision piece bond carry out the during operation under the chemical industry environment, because the corrosivity of chemical industry environment, the adhesive can suffer the corruption to make the anticollision piece take place to drop, thereby influence the protective properties of whole gloves. In addition, another type of anti-collision gloves exists in the prior art, the anti-collision blocks in the anti-collision gloves are sewn on the gloves, but chemical organic solvents are easy to permeate into the sewn parts, so that the overall protective performance of the gloves is also influenced.
SUMMERY OF THE UTILITY MODEL
The utility model is carried out to solve the problems, and aims to provide an anti-collision and anti-chemical glove.
The utility model provides an anticollision antichemical gloves has such characteristic, include: a glove liner corresponding to a hand of a user and having finger portions corresponding to respective fingers of the user; the joint anti-collision block assembly is provided with a finger anti-collision block adhered to the surface of the finger position of the glove liner through hot pressing, a back-of-hand anti-collision block adhered to the surface of the back-of-hand position and a palm anti-collision block adhered to the surface of the palm position; the adhesive surface is coated on the joint anti-collision block assembly and the surface of the glove liner; and a safety cuff which is connected with an opening of the glove liner and corresponds to a wrist and an arm of a user, wherein the glove liner bonded with the joint anti-collision block assembly is subjected to hydrophobic treatment and then coated with an adhesive surface, the back of the hand anti-collision block comprises a first transverse anti-collision block covering a metacarpophalangeal joint of a middle finger to a ring finger, a second transverse anti-collision block arranged in parallel below the first transverse anti-collision block, a third transverse anti-collision block arranged in parallel below the second transverse anti-collision block and extending transversely to a tiger mouth, a first vertical anti-collision block covering a metacarpophalangeal joint of a forefinger, a second vertical anti-collision block arranged below the first vertical anti-collision block, a third vertical anti-collision block covering a metacarpophalangeal joint of a little finger, a fourth vertical anti-collision block arranged below the third vertical anti-collision block and a fifth vertical anti-collision block arranged below the fourth vertical anti-collision block, and the number of the finger anti-collision blocks is multiple, the finger anti-collision blocks are distributed on the surfaces of the finger parts and are arranged along the length direction of each finger part, and the thickness of the finger anti-collision blocks on the same finger part is increased in sequence along the direction from the finger root to the finger tip part.
In the utility model provides an among the crashproof antichemical gloves, can also have such characteristic: wherein, the material of the glove liner is anti-cutting yarn, nylon or cotton.
In the utility model provides an among the crashproof antichemical gloves, can also have such characteristic: wherein the glove liner is obtained by knitting with U2, and the knitting time is not less than 13.
In the utility model provides an among the crashproof antichemical gloves, can also have such characteristic: the rubber surface consists of three coatings from inside to outside, and comprises a first PVC and NBR coating, a second PVC and NBR coating and a third PVC anti-slip particle coating.
In the utility model provides an among the crashproof antichemical gloves, can also have such characteristic: the safety cuffs are composed of a plurality of cuff layers, and the cuff layers comprise canvas, PVC plastic-coated cloth and gauze which are sequentially arranged from inside to outside.
In the utility model provides an among the crashproof antichemical gloves, can also have such characteristic: the number of the finger anti-collision blocks of the finger part corresponds to the finger joints of the user corresponding to the finger part, the finger part corresponding to the thumb of the user is provided with two finger anti-collision blocks, and the finger parts corresponding to the other fingers are respectively provided with three finger anti-collision blocks.
In the utility model provides an among the crashproof antichemical gloves, can also have such characteristic: the thickness of two finger anti-collision blocks arranged on the finger part corresponding to the thumb of a user is 4mm and 5mm respectively, the thickness of three finger anti-collision blocks arranged on the finger part corresponding to the rest fingers is 4mm, 4mm and 5mm respectively, and the interval between the finger anti-collision blocks is 8 mm.
Action and effect of the utility model
According to the anti-collision chemical-proof glove related to the utility model, the rubber surface is coated outside the glove liner to prevent chemistry, and the anti-collision block component is positioned in the rubber surface, so that the anti-collision block is not affected in a chemical environment, and the glove has a good anti-chemical anti-collision function; because the finger anti-collision block is arranged at the position corresponding to the finger joint, the finger joint can be effectively protected; because the palm back collision-proof block is arranged at the palm back of the glove, the palm center collision-proof block is arranged at the palm center of the glove, and the palm back collision-proof block and the palm center collision-proof block both cover the metacarpophalangeal joints, the metacarpophalangeal joints can be comprehensively protected; because the palm back collision prevention block comprises the transverse collision prevention block and the vertical collision prevention block, and the transverse collision prevention block and the vertical collision prevention block are dispersedly distributed on the palm back of the glove, the impact force can be dispersed to protect the whole palm back. Therefore, the utility model discloses a chemical gloves are prevented in crashproof can play the effect of preventing chemical crashproof effectively, carry out good protection to user's hand.
Drawings
Fig. 1 is a schematic view of the left palm back of an anti-collision chemical-proof glove in an embodiment of the present invention;
fig. 2 is a schematic view of the left palm of the anti-collision chemical-proof glove in the embodiment of the present invention.
Detailed Description
In order to make the technical means and functions of the present invention easy to understand, the present invention will be described in detail with reference to the following embodiments and accompanying drawings.
Fig. 1 is a schematic view of the back of the left palm of an anti-collision chemical-proof glove in an embodiment of the present invention, and fig. 2 is a schematic view of the center of the left palm of an anti-collision chemical-proof glove in an embodiment of the present invention.
As shown in fig. 1 and 2, an impact and chemical resistant glove 100 of the present embodiment includes a glove liner 10, a joint impact resistant block assembly, a rubber surface 30, and a safety cuff 40.
The glove liner 10 corresponds to a hand of a user, and has finger portions corresponding to respective fingers of the user.
The material of the glove liner 10 is cut-resistant yarn, nylon or cotton.
The glove liner 10 is obtained by knitting through a U2 knitting method, and the number of knitting needles is not less than 13.
The joint bump block assembly has a finger bump block 21 bonded to the finger position surface of the glove liner 10 by hot pressing, a back bump block 22 bonded to the back position surface, and a palm bump block 23 bonded to the palm position surface.
The number of the finger anti-collision blocks 21 is multiple, the finger anti-collision blocks are respectively distributed on the surfaces of the finger parts and are arranged along the length direction of each finger part, and the thickness of the finger anti-collision blocks 21 on the same finger part is sequentially increased along the direction from the finger root to the finger tip part.
The number of the finger anti-collision blocks 21 of the finger part corresponds to the finger joint of the user corresponding to the finger part, the finger part corresponding to the thumb of the user is provided with two finger anti-collision blocks 21, and the finger parts corresponding to the other fingers are respectively provided with three finger anti-collision blocks 21.
The thicknesses of two finger anti-collision blocks 21 arranged on the finger part corresponding to the thumb of a user are respectively 4mm and 5mm, the thicknesses of three finger anti-collision blocks 21 arranged on the finger part corresponding to the rest fingers are respectively 4mm, 4mm and 5mm, and the interval between the finger anti-collision blocks 21 is 8 mm.
The hand back collision prevention block 22 comprises a first transverse collision prevention block 221 covering the metacarpophalangeal joints of the middle finger to the ring finger, a second transverse collision prevention block 222 arranged in parallel below the first transverse collision prevention block 221, a third transverse collision prevention block 223 arranged in parallel below the second transverse collision prevention block 222 and extending transversely to the tiger mouth, a first vertical collision prevention block 224 covering the metacarpophalangeal joints of the index finger, a second vertical collision prevention block 225 arranged below the first vertical collision prevention block 224, a third vertical collision prevention block 226 covering the metacarpophalangeal joints of the little finger, a fourth vertical collision prevention block 227 arranged below the third vertical collision prevention block 226 and a fifth vertical collision prevention block 228 arranged below the fourth vertical collision prevention block 227,
the palm back of the glove at the palm-finger joint of each finger covered by the hand back anti-collision block 22 is at the position of the palm-finger joint corresponding to the palm back part of the user.
In this embodiment, the first lateral anti-collision block 221 is quadrilateral and laterally covers from the middle finger to the ring finger.
The second transverse anti-collision block 222 is quadrilateral, and is arranged below the first transverse anti-collision block 221 in parallel, and the coverage range is from the middle finger to the ring finger.
The third transverse anti-collision block 223 is arranged below the second transverse anti-collision block 222 in parallel, the coverage range is from the ring finger to the tiger's mouth, and the vertical distance of the third transverse anti-collision block 223 gradually increases from the ring finger to the tiger's mouth.
The first vertical anti-collision block 224 is located at the index finger and located at the right side of the first horizontal anti-collision block 221, and the vertical coverage range is the vertical distance of the first horizontal anti-collision block 221.
The second vertical anti-collision block 225 is located between the first vertical anti-collision block 224 and the third horizontal anti-collision block 223, and is located on the right side of the second horizontal anti-collision block 222, and the vertical coverage is the vertical distance of the second horizontal anti-collision block 222.
The third vertical anti-collision block 226 is disposed at the position of the small finger, is located at the left side of the first horizontal anti-collision block 221, keeps the same inclination with the left side edge of the first horizontal anti-collision block 221, and has a vertical coverage area equal to the vertical distance of the first horizontal anti-collision block 221.
The fourth vertical anti-collision block 227 is arranged below the third vertical anti-collision block 226, is located on the left side of the second transverse anti-collision block 222, keeps the same inclination with the left side of the second transverse anti-collision block 222, and has a vertical coverage of the vertical distance of the second transverse anti-collision block 222.
The fifth vertical collision prevention block 228 is disposed below the fourth vertical collision prevention block 227 and to the left of the third lateral collision prevention block 223.
The palmar center collision prevention block 23 includes a fourth lateral collision prevention block 231 covering the metacarpophalangeal joint of the index finger to the little finger and a fifth lateral collision prevention block 232 disposed below the fourth lateral collision prevention block 231.
The palm center collision-proof block 23 covers the palm joints of the fingers of the finger glove at the palm center position corresponding to the palm center part of the user.
In this embodiment, the fourth lateral anti-collision block 231 laterally covers the metacarpophalangeal joints, and the coverage range is from the index finger to the little finger.
The adhesive surface 30 is coated on the joint anti-collision block assembly and the surface of the glove liner 10.
The rubber surface 30 is composed of three coatings from inside to outside, including a first layer of PVC and NBR coating, a second layer of PVC and NBR coating, and a third layer of PVC anti-skid particle coating.
The safety cuff 40 is connected to the opening of the glove liner 10, corresponding to the wrist and arm of the user.
The safety cuff 40 is composed of a plurality of cuff layers, and the cuff layers comprise canvas, PVC plastic-coated cloth and gauze which are sequentially arranged from inside to outside.
The glove liner 10 bonded with the joint anti-collision block assembly is subjected to hydrophobic treatment and then is uniformly coated with the adhesive surface 30 in a slurry spraying mode.
Effects and effects of the embodiments
According to the anti-collision and anti-chemical glove related to the embodiment, the rubber surface is coated outside the inner container of the glove to prevent chemicals, and the anti-collision block assembly is positioned in the rubber surface, so that the anti-collision block is not affected in a chemical environment, and the glove has a good anti-chemical and anti-collision function; because the finger anti-collision block is arranged at the position corresponding to the finger joint, the finger joint can be effectively protected; because the palm back collision-proof block is arranged at the palm back of the glove, the palm center collision-proof block is arranged at the palm center of the glove, and the palm back collision-proof block and the palm center collision-proof block both cover the metacarpophalangeal joints, the metacarpophalangeal joints can be comprehensively protected; because the palm back collision prevention block comprises the transverse collision prevention block and the vertical collision prevention block, and the transverse collision prevention block and the vertical collision prevention block are dispersedly distributed on the palm back of the glove, the impact force can be dispersed to protect the whole palm back. Therefore, the chemical gloves for preventing collision in the embodiment can effectively prevent chemical collision and protect the hands of the user well.
In addition, because the safety cuffs are arranged, the wrists and the arms above the wrists can be protected, the gloves can be conveniently detached by pulling the safety cuffs, the gloves are prevented from being directly contacted with the skin when detached, and the safety is further enhanced.
In addition, because the glove liner is woven through the U2 knitting method, and the number of knitting hands is not less than 13, so that the small holes of the glove liner can be ensured, the leakage phenomenon in the glove can not be generated, and the safety in the glove can be ensured.
The above embodiments are preferred examples of the present invention, and are not intended to limit the scope of the present invention.
Claims (7)
1. An impact and chemical resistant glove, comprising:
a glove liner corresponding to a hand of a user and having finger portions corresponding to respective fingers of the user;
the joint anti-collision block assembly is provided with a finger anti-collision block adhered to the surface of the finger position of the glove liner through hot pressing, a back anti-collision block adhered to the surface of the back position of the hand and a palm anti-collision block adhered to the surface of the palm position;
the adhesive surface is coated on the joint anti-collision block assembly and the surface of the glove liner; and
a safety cuff connected with the opening of the glove liner and corresponding to the wrist and arm of the user,
wherein the glove liner bonded with the joint anti-collision block component is coated with the adhesive surface after hydrophobic treatment,
the hand back anti-collision block comprises a first transverse anti-collision block covering the metacarpophalangeal joints from the middle finger to the ring finger, a second transverse anti-collision block arranged in parallel below the first transverse anti-collision block, a third transverse anti-collision block arranged in parallel below the second transverse anti-collision block and extending transversely to the tiger mouth, a first vertical anti-collision block covering the metacarpophalangeal joints of the index finger, a second vertical anti-collision block arranged below the first vertical anti-collision block, a third vertical anti-collision block covering the metacarpophalangeal joints of the little finger, a fourth vertical anti-collision block arranged below the third vertical anti-collision block and a fifth vertical anti-collision block arranged below the fourth vertical anti-collision block,
the palm center anti-collision block comprises a fourth transverse anti-collision block covering the metacarpophalangeal joints from the index finger to the little finger and a fifth transverse anti-collision block arranged below the fourth transverse anti-collision block,
the number of finger anticollision piece is a plurality of, distributes respectively on the surface of finger portion and arrange along the length direction of each finger portion, and is same on the finger portion the thickness of finger anticollision piece increases along the direction from finger root to fingertip position in proper order.
2. The impact and chemical resistant glove of claim 1 wherein:
wherein, the material of the glove liner is anti-cutting yarn, nylon or cotton.
3. The impact and chemical resistant glove of claim 1 wherein:
the glove liner is obtained by knitting through a U2 knitting method, and the number of knitting needles is not less than 13.
4. The impact and chemical resistant glove of claim 1 wherein:
the rubber surface is composed of three coatings from inside to outside and comprises a first PVC and NBR coating, a second PVC and NBR coating and a third PVC anti-slip particle coating.
5. The impact and chemical resistant glove of claim 1 wherein:
the safety cuffs are composed of a plurality of cuff layers, and the cuff layers comprise canvas, PVC plastic-coated cloth and gauze which are sequentially arranged from inside to outside.
6. The impact and chemical resistant glove of claim 1 wherein:
wherein the number of the finger anti-collision blocks of the finger part corresponds to the corresponding knuckle of the user,
the finger part corresponding to the thumb of the user is provided with two finger anti-collision blocks, and the finger part corresponding to the rest fingers is provided with three finger anti-collision blocks.
7. The impact and chemical resistant glove of claim 6 wherein:
wherein the two finger anti-collision blocks arranged on the finger part corresponding to the thumb of the user have the thickness of 4mm and 5mm respectively,
the thicknesses of the three finger anti-collision blocks which are respectively arranged on the finger parts corresponding to the rest fingers are respectively 4mm, 4mm and 5mm,
the interval between the finger anticollision pieces is 8 mm.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201921261303.3U CN210747438U (en) | 2019-08-06 | 2019-08-06 | Anti-collision and anti-chemical gloves |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201921261303.3U CN210747438U (en) | 2019-08-06 | 2019-08-06 | Anti-collision and anti-chemical gloves |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN210747438U true CN210747438U (en) | 2020-06-16 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201921261303.3U Active CN210747438U (en) | 2019-08-06 | 2019-08-06 | Anti-collision and anti-chemical gloves |
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| Country | Link |
|---|---|
| CN (1) | CN210747438U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN110313664A (en) * | 2019-08-06 | 2019-10-11 | 江苏瑞斯达安全防护用品有限公司 | A kind of collision prevention chemistry gloves |
-
2019
- 2019-08-06 CN CN201921261303.3U patent/CN210747438U/en active Active
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN110313664A (en) * | 2019-08-06 | 2019-10-11 | 江苏瑞斯达安全防护用品有限公司 | A kind of collision prevention chemistry gloves |
| CN110313664B (en) * | 2019-08-06 | 2023-12-29 | 江苏瑞斯达安全防护用品有限公司 | Anti-collision chemical-proof glove |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| GR01 | Patent grant | ||
| GR01 | Patent grant | ||
| TR01 | Transfer of patent right |
Effective date of registration: 20211215 Address after: 200063 room 500, No. 206 Cao Yang Road, Shanghai, Putuo District Patentee after: SHANGHAI RISTALABOUR PROTECTION PRODUCTS CO.,LTD. Address before: No. 128, Mingzhu Road, Binhai Industrial Park, Qidong City, Nantong City, Jiangsu Province 226200 Patentee before: JIANGSU RUISIDA SECURITY PROTECTION PRODUCTS CO.,LTD. |
|
| TR01 | Transfer of patent right |