CN216932024U

CN216932024U - Earthquake rescue gloves

Info

Publication number: CN216932024U
Application number: CN202122989687.4U
Authority: CN
Inventors: 管钰泽; 严雪峰; 赵卫; 张秀云; 施培培; 马岩
Original assignee: Select Nantong Safety Products Co ltd; Nantong University
Current assignee: Select Nantong Safety Products Co ltd; Nantong University
Priority date: 2021-11-30
Filing date: 2021-11-30
Publication date: 2022-07-12
Anticipated expiration: 2031-11-30

Abstract

The utility model relates to an earthquake rescue glove, which comprises: the palm portion includes two-layerly at least, prevents cutting fabric layer and anti-needle-punching material layer, the back of the hand part, tiger's mouth reinforcement part, the ventilative part of finger fork elasticity, the back of the hand protecting module that prevents shock that sets up at the back of at least one finger of back of the hand part, the back of the hand protecting module that sets up at the back of the hand part of the hand to and gloves cuff part. The gloves provided by the utility model do not influence the flexibility of hands in the earthquake rescue process, improve the rescue efficiency, and simultaneously can provide effective protection for the hands, and are wear-resistant, puncture-resistant, cutting-resistant and impact-resistant.

Description

Earthquake rescue gloves

Technical Field

The utility model relates to earthquake rescue gloves.

Background

In earthquake rescue sites, building ruins need to be cleaned as soon as possible, searching is carried out simultaneously, and digging is carried out by hands in order to rescue survivors in the ruins and avoid secondary damage to the survivors in the ruins caused by mechanical equipment. Due to the harsh working environment of an earthquake field, the rescue workers need to be protected as well as possible, and especially gloves for providing hand protection are very important for effective and timely rescue.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide earthquake rescue gloves which can provide good protection for the hands of earthquake rescuers and improve rescue efficiency.

The earthquake rescue glove of the utility model comprises:

a palm portion comprising at least two layers, a cut resistant fabric layer and a needle-punched resistant material layer,

the back of the hand is partially covered by the hand,

a tiger's mouth reinforcing part with anti-slip and wear-resistant functions arranged along the tiger's mouth part from the thumb-finger joint of the glove (for example, 2.5-3.5cm away from the fingertip) to the first finger joint of the index finger of the glove (for example, 2-3cm away from the fingertip),

the finger fork elastic air-permeable components are arranged between at least one finger fork, preferably all three finger forks, of the index finger and the middle finger, the middle finger and the ring finger and the little finger of the glove,

a finger back anti-impact protection module arranged on at least one finger back of the hand back part, preferably 5 finger backs,

a dorsum manus anti-impact protection module arranged on the back of the palm of the dorsum manus part,

a cuff portion of the glove.

Furthermore, the anti-cutting fabric layer is a fabric layer woven by adopting cut-resistant yarns, preferably a fabric layer woven by adopting coating yarns formed by inorganic powder reinforced ultra-high molecular weight polyethylene filaments and chinlon and/or spandex, wherein 100-400D is selected as the inorganic powder reinforced ultra-high molecular weight polyethylene filaments, 50-150D is selected as the chinlon, and 20-50D is selected as the spandex.

Further, the anti-needling material layer is made of anti-needling high-strength fabric (such as nylon coating fabric), preferably high-strength nylon elastic fabric surface composite hard resin array.

Furthermore, the tiger mouth reinforcing part is made of high-strength fabric, for example, the reinforcing part is formed by covering aramid 1414 staple fiber fabric with a butyronitrile coating, the thickness of the reinforcing part is 0.3-0.5mm, and the reinforcing part is used for improving the gripping force and improving the wear resistance and the cutting resistance of the protective gloves.

Furthermore, the elastic breathable component of the finger fork is made of a fabric with good breathability, for example, a nylon-ammonia elastic fabric, the weight of the square meter is 175-; the heat and moisture permeability between the fingers is enhanced, and the wearing comfort is improved.

Furthermore, the hand back fabric is weft-knitted double-sided fabric woven by blending terylene and spandex, and the square meter of the weft-knitted double-sided fabric is 280-340 g/square meter in gram weight. The fabric is three-dimensional, has certain thickness, can prevent the injury of some slight impact to the hand, and although this fabric has certain thickness, very soft simultaneously can not influence the motion flexibility and the travelling comfort of hand, and the gas permeability of knitted fabric is good in addition.

Furthermore, a hasp is arranged at the cuff part (at the wrist) of the glove, the hasp is preferably made of PVC (polyvinyl chloride) materials, a GPS (global positioning system) transmitter is preferably integrated at the middle position of the PVC hasp, and GPS positioning can be started in an emergency situation so as to facilitate finding. The flexibility of movement is not involved, the PVC material can be set to be thicker (8-12mm), so that the GPS positioning device can be embedded in the PVC material when the PVC is formed, and the impact resistance of the PVC is utilized to protect the GPS device from being damaged.

Further, the five dorsum digitalis anti-impact protection modules are preferably made of impact-resistant materials, the thickness is selected to be 2.5-6.6mm, the anti-impact performance reaches ANSI138-, the width dimension of the head of the index finger back impact protection module is 15-17mm, the length is 101-103mm, the width dimension of the head of the middle finger back impact protection module is 15-17mm, the length is 113-115mm, the width dimension of the head of the index finger back impact protection module is 15-17mm, the length is 105-107mm, the width dimension of the head of the little finger back impact protection module is 15-17mm, the length is 81-83mm, and the length is the total length of the finger back impact protection module.

Furthermore, the hand back anti-impact protection module is used for protecting joints of the forefinger, the middle finger, the forefinger, the little finger and the palm and the carpal bone, and reducing the damage of the joints of the palm and the hand back caused by external impact. The shape of the hand back anti-impact protection module approximately corresponds to that of the palm back, the upper part of the hand back anti-impact protection module is wide and is provided with a protrusion part for protecting a palm joint part (so that the upper part is in a wave shape or an undulate shape), the lower part of the hand back anti-impact protection module is slightly narrow, the width dimension is 101-107mm, the height dimension is 66-68mm, the hand back anti-impact protection module is preferably made of an impact-resistant material, the thickness is 3-6mm, the anti-impact performance reaches three levels of ANSI138-2016, for example, polyvinyl chloride (PVC) and diisononyl terephthalate (DINT) are blended, and the anti-impact protection module is prepared by adopting a die method.

Further, the lower part of the thumb dorsum anti-impact protection module is covered with a protection pad (such as hexagon) for protecting the joint of the thumb palm, the protection pad is made of an impact-resistant material, the thickness is selected to be 3-6mm, the anti-impact performance reaches the third grade of ANSI138-2016, for example, polyvinyl chloride (PVC) and diisononyl terephthalate (DINT) are mixed, and the module is prepared by adopting a mold method.

Further, the palm portion, the back portion, the mouth reinforcement member, the elastic breathable component of the finger fork, and the cuff portion of the glove are sewn together by sewing. Five finger back anti-impact protection modules and hand back anti-impact protection modules are sewn on the hand back part.

The glove made from the glove of the utility model has the following performances:

abrasion resistant, EN388-2016, four grades;

puncture prevention, ANSI105-2016, four grades;

cut resistance, ANSI105-2016, grade a 9;

anti-collision, ANSI138-2019, second grade.

THE ADVANTAGES OF THE PRESENT INVENTION

The glove for earthquake rescue comprises a cutting-proof fabric layer and a needling-proof material layer on the palm part, wherein a tiger mouth reinforcing part with slip-proof and wear-proof functions is arranged from the thumb knuckle to the first knuckle of the index finger of the glove along the tiger mouth part, a finger fork elastic air-permeable part is arranged between at least one finger fork of the index finger and the middle finger, the middle finger and the ring finger, and the ring finger and the little finger of the glove, and an impact-proof protection module is arranged on the finger part and the palm back part of the hand.

Drawings

Fig. 1 is a schematic view of the back of the earthquake rescue glove of the utility model, wherein (a) is a left-hand glove and (b) is a right-hand glove.

Fig. 2 is a schematic view of the palm surface of the earthquake rescue glove of the utility model.

Fig. 3 is a schematic diagram of five dorsum digitalis anti-impact protection modules of the earthquake rescue glove, wherein (a) is a thumb dorsum digitalis anti-impact protection module, (b) is a forefinger dorsum anti-impact protection module, (c) is a middle finger dorsum anti-impact protection module, (d) is a forefinger dorsum anti-impact protection module, and (e) is a little finger dorsum anti-impact protection module.

Fig. 4 is a schematic diagram of a hand back impact protection module of the earthquake rescue glove of the utility model.

Description of reference numerals:

1-a palm portion; 2-dorsal hand portion; 3-a web reinforcement member; 4-an interdigitated elastic breathable component; 5-a finger back anti-impact protection module; 6-a hand back anti-impact protection module; 7-hasp; 8-glove cuff part, 9-protective pad.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

As shown in fig. 1 to 2, the earthquake relief glove of the present invention includes:

a palm portion 1, comprising at least two layers, a cut-resistant fabric layer and a needle-punching resistant material layer,

the back of the hand part 2 is,

a tiger mouth reinforcing part 3 with anti-slip and wear-resistant functions is arranged along the tiger mouth part from the thumb-finger joint of the glove (for example, 2.5-3.5cm away from the fingertip) to the first finger joint of the index finger of the glove (for example, 2-3cm away from the fingertip),

an elastic and breathable finger-fork component 4 arranged between at least one finger fork of the index finger and the middle finger, the middle finger and the ring finger and the little finger of the glove,

at least one dorsum fingerstall protection module 5 disposed on the dorsum fingertips of the dorsum manus portion,

a dorsum manus anti-impact protection module 6 arranged on the dorsum manus part of the palm,

glove cuff portion 8.

The number of the said finger-like elastic ventilation members 4 is not limited to 1, and in the preferred embodiment of the present invention, the elastic ventilation members 4 may be provided between a plurality of or all of the fingers of the index finger and the middle finger, the middle finger and the ring finger, and the ring finger and the little finger of the glove, and further, may be selectively provided between the fingers having a large amount of activity or being prone to sweat.

In a preferred embodiment of the utility model, the dorsal digital impact protection module 5 can be arranged on the back of a plurality of fingers of the dorsal part of the hand, in particular on the back of the fingers which are more vulnerable to injury, but of course on the whole of the back of the fingers, i.e. 5 dorsal digital impact protection modules 5.

The anti-cutting fabric layer of the palm part 1 can be made of fabric woven by adopting cut-resistant yarns, and is preferably a fabric layer woven by adopting coating yarns formed by inorganic powder reinforced ultra-high molecular weight polyethylene filaments and chinlon and/or spandex, wherein 100-400D of inorganic powder reinforced ultra-high molecular weight polyethylene filaments, 50-150D of chinlon and 20-50D of spandex are selected.

The anti-needling material layer of the palm part 1 can be made of anti-needling high-strength fabric (such as nylon coating fabric), and is preferably made of high-strength nylon elastic fabric surface composite hard resin array.

The tiger mouth reinforcing part can be made of high-strength fabric, for example, the reinforcing part is formed by covering aramid 1414 staple fiber fabric with a butyronitrile coating, the thickness of the reinforcing part is 0.3-0.5mm, and the reinforcing part is used for improving the gripping force and simultaneously improving the wear resistance and the cutting resistance of the protective gloves.

The elastic breathable components of the finger fork can adopt a fabric with good breathability, for example, a nylon-ammonia elastic fabric, the weight of the square meter is 175-; the heat and moisture permeability between the fingers is enhanced, and the wearing comfort is improved.

The fabric of the back of the hand can be weft-knitted double-sided fabric woven by blending terylene and spandex, and the square meter of the weft-knitted double-sided fabric has the gram weight of 280-340 g/square meter. The fabric is three-dimensional, has certain thickness, can prevent the injury of some slight impact to the hand, and although this fabric has certain thickness, very soft simultaneously can not influence the motion flexibility and the travelling comfort of hand, and the gas permeability of knitted fabric is good in addition.

The cuff part (wrist part) of the glove can be provided with a hasp 7, the hasp made of PVC material is preferred, a GPS emitter is integrated in the middle position of the PVC hasp, and GPS positioning can be started in emergency so as to facilitate finding. The flexibility of movement is not involved, the PVC material can be set to be thicker (8-12mm), so that the GPS positioning device can be embedded in the PVC material when the PVC is formed, and the impact resistance of the PVC is utilized to protect the GPS device from being damaged.

As shown in FIG. 3, the five dorsum phalangeal protection modules are preferably made of impact-resistant materials, the thickness is selected to be 2.5-6.6mm, the impact-resistant performance reaches ANSI138-2016 grade for reducing the damage of finger tips, finger joints and the like caused by external impact, for example, polyvinyl chloride (PVC) and diisononyl terephthalate (DINT) are blended, the impact-resistant protection modules are prepared by adopting a die method, each impact-resistant protection module comprises a head part (helmet-shaped) and an elongated tail part with the width smaller than the head part (for example, 4-10mm smaller than the head part), the width dimension A1 of the head part of the dorsum phalangeal protection module is 33-35mm, the length B1 is 114-116mm, the tail part of the dorsum phalangeal protection module can be narrow at the top and wide at the bottom (gradually widening from the top to the bottom, like a collar belt shape), the width dimension A2 of the head part of the dorsum phalangeal protection module is 15-17mm, the length B2 is 101-103mm, the width dimension A3 of the head of the middle finger back impact protection module is 15-17mm, the length B3 is 113-115mm, the width dimension A4 of the head of the index finger back impact protection module is 15-17mm, the length B4 is 105-107mm, the width dimension A5 of the head of the little finger back impact protection module is 15-17mm, and the length B5 is 81-83 mm.

As shown in fig. 4, the dorsal protecting module is used to protect the joints of the index finger, the middle finger, the index finger, the little finger, and the metacarpal bone and the carpal bone, and to reduce the damage of the joints of the finger and the palm, the dorsal of the hand, and the like caused by external impact. The shape of the hand back anti-impact protection module approximately corresponds to the shape of the hand back, the upper part is wide and is provided with a protrusion part for protecting a finger joint part (the upper part is in a wave shape or an undulation shape), the lower part is slightly narrow, the width dimension C is 101-2016 mm, the height dimension D is 66-68mm, the anti-impact protection module is preferably made of an impact-resistant material, the thickness is 3-6mm, the anti-impact performance reaches ANSI138-2016 three levels, for example, polyvinyl chloride (PVC) and diisononyl terephthalate (DINT) are blended, and the anti-impact protection module is prepared by adopting a die method.

The lower part of the thumb dorsum anti-impact protection module is covered with a protection pad 9 (such as hexagon) for protecting the joint of the thumb palm, the protection pad is made of an impact-resistant material, the thickness is selected to be 3-6mm, the impact-resistant performance reaches ANSI138 and 2016, for example, polyvinyl chloride (PVC) and diisononyl terephthalate (DINT) are blended, and the protection pad is prepared by a mold method.

The back of the hand of the glove cuff part 8 can be made of the same fabric as the back of the hand, and the palm of the hand of the glove cuff part 8 can be made of elastic fabric with certain elasticity, so that the hand can conveniently enter the glove.

Example 1

An earthquake relief glove, comprising:

the back of the hand portion (2),

a tiger's mouth reinforcing part 3 with the functions of skid resistance and wear resistance is arranged along the tiger's mouth part from the thumb knuckle part (3.0 cm away from the fingertip) of the glove to the first knuckle part (2.5 cm away from the fingertip) of the glove,

the finger fork elastic air-permeable components 4 are arranged between the index finger and the middle finger, between the middle finger and the ring finger, and between the ring finger and the little finger of the glove,

a dorsal digital impact protection module 5 placed on the back of the 5 fingers of the dorsal part of the hand,

glove cuff portion 8.

The anti-cutting fabric layer of the palm part 1 is a fabric layer formed by weaving inorganic powder reinforced ultra-high molecular weight polyethylene filaments and covered threads formed by chinlon and/or spandex, wherein 200D is selected for the inorganic powder reinforced ultra-high molecular weight polyethylene filaments, 100D is selected for the chinlon, and 30D is selected for the spandex.

The anti-needling material layer of the palm part 1 is formed by compounding a hard resin array on the surface of a high-strength nylon elastic fabric.

The tiger's mouth reinforcement part is formed by aramid fiber 1414 staple fiber fabric coating butyronitrile coating outward, and thickness 0.4mm is used for when improving gripping power, improves protective gloves's wear-resisting and cut resistance.

The elastic breathable components of the fingerforks are made of nylon-ammonia elastic fabrics, and the weight of the nylon-ammonia elastic fabrics per square meter is 185 g/square meter, so that the elastic deformation between fingers is increased, the movement flexibility of the finger parts is improved, and meanwhile, the skin of the fingerforks is prevented from being worn; the heat and moisture transmission amount between the fingers is enhanced, and the wearing comfort is improved.

The fabric of the back of the hand part is weft-knitted double-sided fabric which is formed by blending terylene and spandex, and the square meter of the weft-knitted double-sided fabric is 290 g/square meter in gram weight. The fabric is three-dimensional, has certain thickness, can prevent the injury of some slight impact to the hand, and although this fabric has certain thickness, very soft simultaneously can not influence the motion flexibility and the travelling comfort of hand, and the gas permeability of knitted fabric is good in addition.

The cuff part (wrist part) of the glove is provided with a hasp 7 made of PVC material, a GPS emitter is integrated in the middle of the PVC hasp, and GPS positioning can be started under emergency so as to facilitate finding.

The thickness of five finger back anti-impact protection modules is 3.0mm, the anti-impact performance reaches ANSI138-, length B4 is about 106mm, the (head) width dimension a5 of the little finger back impact protection module is about 16mm, and length B5 is about 82 mm.

The back of the hand protecting module is used for protecting the joints of the forefinger, the middle finger, the forefinger and the little finger and the palm bones and the carpal bones, and reducing the damage of the joints of the palm and the back of the hand caused by external impact. The shape of back of the hand protecting against shock protection module roughly corresponds with the shape of palm back, and upper portion is wide and has the jut of protection finger palm joint portion for upper portion is the wave type or the undulation type, and the lower part is narrow slightly, and width dimension C is about 104mm, and height dimension D is about 67mm, and 4mm is selected to thickness, and the protecting against shock performance reaches ANSI138-2016 tertiary, chooses for use polyvinyl chloride (PVC) and diisononyl ester of terephthalic acid (DINT) to blend, adopts the mould legal system to prepare protecting against shock protection module.

The lower part of the thumb dorsum anti-impact protection module is covered with a protection pad 9 for protecting the joint of the thumb palm, the protection pad is hexagonal, the thickness is selected to be 4mm, the anti-impact performance reaches ANSI 138-.

The back of the hand of the glove cuff part 8 is made of the same fabric as the back of the hand, and the palm of the hand of the glove cuff part 8 is made of elastic fabric with certain elasticity, so that the hand can conveniently enter the glove.

abrasion resistant, EN388-2016, four grades;

puncture-proof, ANSI105-2016, four grades;

cut resistance, ANSI105-2016, grade a 9;

anti-collision, ANSI138-2019, second level.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described above, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. An earthquake rescue glove, comprising:

a palm portion including at least a cut resistant fabric layer and a needle-punched resistant material layer,

the back of the hand part is provided with a hand back part,

a tiger's mouth reinforcing part with anti-slip and wear-resistant functions arranged along the tiger's mouth part from the thumb-finger joint of the glove to the first finger joint of the index finger of the glove,

the finger fork elastic air-permeable components are arranged between at least one finger fork of the index finger and the middle finger, the middle finger and the ring finger and the little finger of the glove,

a finger back anti-impact protection module arranged on at least one finger back of the hand back part,

a dorsum manus anti-impact protection module arranged on the dorsum manus part,

a cuff portion of the glove.

2. The earthquake rescue glove as claimed in claim 1, wherein the anti-cutting fabric layer is a fabric layer woven by adopting a coating line composed of inorganic powder reinforced ultra-high molecular weight polyethylene filament and chinlon and/or spandex, wherein the inorganic powder reinforced ultra-high molecular weight polyethylene filament is selected from 100-400D, the chinlon is selected from 50-150D, and the spandex is selected from 20-50D; and/or

The anti-needling material layer is formed by compounding a hard resin array on the surface of a high-strength nylon elastic fabric.

3. An earthquake rescue glove as claimed in claim 1 or 2, wherein the tiger's mouth reinforcing component is formed by covering aramid 1414 chopped fiber fabric with a butyronitrile coating, and the thickness is 0.3-0.5 mm.

4. The earthquake rescue glove as claimed in claim 3, wherein the interdigital elastic breathable component is made of nylon-ammonia elastic fabric, and the weight per square meter is 175-205 g/m.

5. The earthquake rescue glove as claimed in claim 4, wherein the hand back part is weft-knitted double-sided fabric woven by blending terylene and spandex, and the square meter of the weft-knitted double-sided fabric has a weight of 280-340 g/m.

6. Earthquake rescue glove as claimed in claim 1 or 2, characterized in that the cuff portion of the glove is provided with a hasp of PVC material and/or

And a GPS transmitter is integrated in the middle position of the PVC hasp.

7. Earthquake rescue glove as claimed in claim 1 or 2, characterized in that the thickness of the dorsum fingerboard anti-shock protection module is chosen between 2.5 and 6.6 mm.

8. The earthquake rescue glove according to claim 1 or 2, wherein the finger back impact protection module comprises a head part and an elongated tail part with a width smaller than that of the head part; and/or

The anti-impact protection module for the back of the finger is five, wherein the head width of the anti-impact protection module for the back of the thumb is 33-35mm, the total length is 114-116mm, the head width of the anti-impact protection module for the back of the index finger is 15-17mm, the total length is 101-103mm, the head width of the anti-impact protection module for the back of the middle finger is 15-17mm, the total length is 113-115mm, the head width of the anti-impact protection module for the back of the index finger is 15-17mm, the total length is 105-107mm, the head width of the anti-impact protection module for the back of the small finger is 15-17mm, and the total length is 81-83 mm.

9. Earthquake rescue glove according to claim 1 or 2, characterized in that the shape of the dorsal-hand impact protection module substantially corresponds to the shape of the dorsal-hand, the thickness being chosen between 3 and 6 mm.

10. The earthquake rescue glove as claimed in claim 8, wherein the lower part of the thumb dorsum anti-impact protection module is covered with a protection pad for protecting the knuckle of the thumb, the thickness is selected to be 3-6mm, and the anti-impact performance reaches ANSI138-2016 grade.