CN204949616U - Fireproof high temperature resisting gloves - Google Patents

Abstract

The utility model provides a fireproof high temperature resisting gloves, including gloves body, sleeve and fixed cover, through setting up glove body with the sleeve is from interior to exterior and includes the knead dough composite bed structure on cloth layer of base fabric layer, insulating carpet veneer, thermal -insulated cloth layer in proper order, further hugs closely base fabric layer's interior side surface sets up at least one double casing pipe, double casing pipe includes the permeability cell that lies in central inlayer and lies in outer jacketed catheter, thereby dress among the high temperature environment during gloves, through setting up double casing pipe for a large amount of sweat infiltration that the palm of the hand gived off gets into the catheter is derived, utilizes simultaneously palm and external circulation of air are realized to the permeability cell, effectively alleviate the burning heat sensation that the heat radiation brought, the convenience is not only dressed to gloves, uses in a flexible way to can play better guard action to both hands in conflagration or high temperature environment, the security is high.

Description

A kind of fire-proof high-temperature resistant gloves

Technical field

The utility model relates to a kind of fire-proof high-temperature resistant gloves, belongs to the technical field of function gloves.

Background technology

Fire-proof high-temperature resistant gloves are used in the hot environments such as fire-fighting, smelting, electric welding, and protection operator both hands are not subject to one of equipment of flame and heat radiation infringement.

Fire-proof high-temperature resistant gloves many employings asbestos fibre raw material is in the market made; the flexion-extension motion of both hands is not hindered during use; good protective effect can be played to both hands again in fire or hot environment; but because the easy discrete efflorescence of asbestos short fibre goods is floating with diffusion; therefore dust pollution can be produced in use procedure; Long-Time Service has carcinogenic tendency, is unfavorable for healthy.And its intensity is lower, folding resistance is poor, after a number of uses, easily causes fracture, affects fire-proof and thermal-insulation effect.Moreover existing fire-proof high-temperature resistant gloves are many does not have insulation function, once run into that electric wire, electrical equipment are aging, fire that short circuit, overload cause, make rescue work be difficult to carry out, increased the weight of the threat of life and property.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of fire-proof high-temperature resistant gloves.

For solving the problems of the technologies described above, the utility model is achieved through the following technical solutions:

A kind of fire-proof high-temperature resistant gloves, comprise glove bulk, sleeve and fixed cover, the upper end width of described sleeve is less than the width of its lower end, and the upper end of described sleeve is connected with described glove bulk, and the lower end of described sleeve is connected with described fixed cover;

Described glove bulk comprises palm area and is positioned at five finger areas of described palm area upper end, and described glove bodies has lamination layer structure, sets gradually bottom cloth layer, insulation carpet veneer, heat insulation layer of cloth and cloth layer from the inside to the outside;

The inner surface being close to described bottom cloth layer arranges at least one bilayer sleeve, described bilayer sleeve comprises the permeability cell being positioned at center internal layer and the catheter being positioned at jacket layer, one end of described bilayer sleeve is positioned at the centre of the palm place of described palm area, the other end is positioned at the running-on place of described fixed cover, the equal opening in two ends of described permeability cell is arranged, one end being positioned at described centre of the palm place of described catheter is closed and is arranged, the one end open being positioned at described running-on place is arranged, and the tube wall of described catheter arranges some permeability holes;

Described sleeve has lamination layer structure, sets gradually bottom cloth layer, insulation carpet veneer, heat insulation layer of cloth and cloth layer from the inside to the outside;

Described fixed cover comprises an annular elastic cord and is wrapped in the cloth layer outside described elastic cord.

At the upper and lower surface of described cloth layer, heatproof insulating coating is set respectively.

Described cloth layer is polyimide fiber layer.

Described cloth layer is the knitting layer of cloth that polyimide fiber and conductive fiber are formed by weaving.

Described heat insulation layer of cloth is the two layer composite structure that poly tetrafluoroethylene and fire resistance fibre base cloth are formed, and described poly tetrafluoroethylene and described cloth layer are close to setting, and described fire resistance fibre base cloth and described insulation carpet veneer are close to setting.

Described insulation carpet veneer is high molecular polymer insulation film.

Described bottom cloth layer is the knitting layer of cloth of fire retardant man-made fiber and Nature Fibre Textile.

Described bottom cloth layer, insulation carpet veneer, heat insulation layer of cloth and cloth layer are integrated by compressing.

The running-on place of described fixed cover is provided with cingulum.

Technique scheme of the present utility model has the following advantages compared to existing technology:

Fire-proof high-temperature resistant gloves described in the utility model, comprise glove bulk, sleeve and fixed cover, the lamination layer structure comprising bottom cloth layer, insulation carpet veneer, heat insulation layer of cloth and cloth layer from the inside to the outside is successively by arranging described glove bodies and described sleeve, the inner surface being close to described bottom cloth layer further arranges at least one bilayer sleeve, and described bilayer sleeve comprises the permeability cell being positioned at center internal layer and the catheter being positioned at jacket layer, thus when dressing described gloves in hot environment, described cloth layer has high temperature resistant, antistatic, intensity is high, the feature that folding resistance is good, not melting in flame, without molten drop, form reliable protective layer, described heat insulation layer of cloth has heat insulation, fire-retardant, waterproof and breathable performance, avoid both hands by burn, while the further reinforced insulation effect of described insulation carpet veneer, there is water-proof function, moist or under having the environment of water livewire work do not puncture, Leakage Current is very little, security performance is good, described bottom cloth layer soft comfortable, gas permeability and absorption of perspiration good, and by arranging described bilayer sleeve, a large amount of sweat that the palm of the hand is distributed penetrate into described catheter and derive, utilize described permeability cell to realize palm and extraneous air circulation simultaneously, effectively alleviate the burning heat sensation that heat radiation brings, as can be seen here, gloves described in the utility model are not only dressed conveniently, and use flexibly, and in fire or hot environment, can play good protective effect to both hands, security is high.

Accompanying drawing explanation

In order to make content of the present utility model be more likely to be clearly understood, below in conjunction with accompanying drawing, the utility model is described in further detail, wherein,

Fig. 1 is the structural representation of gloves described in embodiment 2;

Fig. 2 is the sectional view along A-A in Fig. 1;

Fig. 3 is the structural representation of bilayer sleeve described in embodiment 2.

In figure, Reference numeral is expressed as: 1-glove bulk, 11-cloth layer, the heat insulation layer of cloth of 12-, and 13-insulate carpet veneer, 14-bottom cloth layer, 15-permeability cell, 151-permeability cell, 152-catheter, 153-permeability hole 2-sleeve, 3-fixed cover, 31-cingulum.

Detailed description of the invention

Embodiment 1

The present embodiment provides a kind of fire-proof high-temperature resistant gloves, comprise glove bulk 1, sleeve 2 and fixed cover 3, take finger as upper end, arm is lower end, the upper end width of described sleeve 2 is less than the width of its lower end, the upper end of described sleeve 2 is connected with described glove bulk 1, and the lower end of described sleeve 2 is connected with described fixed cover 3.

Described glove bulk 1 comprises palm area and is positioned at five finger areas of described palm area upper end, and the gross thickness of described glove bodies is 0.1-5mm.

Described glove bodies is lamination layer structure, set gradually bottom cloth layer 14, insulation carpet veneer 13, heat insulation layer of cloth 12 and cloth layer 11 from the inside to the outside, the thickness of described cloth layer 11 is 0.05-0.35mm, the thickness of described heat insulation layer of cloth 1212 is 0.03-0.15mm, the thickness of described insulation carpet veneer 13 is 0.02-0.5mm, and the thickness of described bottom cloth layer 14 is 0.03-0.15mm.As the embodiment that can select, described cloth layer 11 is the knitting layer of cloth that polyimide fiber and conductive fiber are formed by weaving; Described heat insulation layer of cloth 12 is the two layer composite structure that poly tetrafluoroethylene and fire resistance fibre base cloth are formed, and described poly tetrafluoroethylene and described cloth layer 11 are close to, and described fire resistance fibre base cloth and described insulation carpet veneer 13 are close to; Described insulation carpet veneer 13 is high molecular polymer insulation film, and described bottom cloth layer 14 is the knitting layer of cloth of fire retardant man-made fiber and Nature Fibre Textile, and described bottom cloth layer 14, insulation carpet veneer 13, heat insulation layer of cloth 12 and cloth layer 11 are integrated by compressing.

The inner surface being close to described bottom cloth layer 14 arranges at least one bilayer sleeve 15, one end of described bilayer sleeve 15 is positioned at the centre of the palm place of described palm area, the other end is positioned at the running-on place of described fixed cover 3, described bilayer sleeve 15 comprises the permeability cell 151 being positioned at center internal layer and the catheter 152 being positioned at jacket layer, the equal opening in two ends of described permeability cell 151 is arranged, one end being positioned at described centre of the palm place of described catheter 152 is closed and is arranged, the one end open being positioned at described running-on place is arranged, and the tube wall of described catheter 152 arranges some permeability holes 153.

Described sleeve 2 has lamination layer structure, sets gradually bottom cloth layer 14, insulation carpet veneer 13, heat insulation layer of cloth 12 and cloth layer 11 from the inside to the outside; The thickness of described sleeve 2 is 0.003-0.05mm, and length is 8-10cm.As the embodiment that can select, described cloth layer 11 is the knitting layer of cloth that polyimide fiber and conductive fiber are formed by weaving, described heat insulation layer of cloth 12 is the two layer composite structure that poly tetrafluoroethylene and fire resistance fibre base cloth are formed, described poly tetrafluoroethylene and described cloth layer 11 are close to, and described fire resistance fibre base cloth and described insulation carpet veneer 13 are close to; Described insulation carpet veneer 13 is high molecular polymer insulation film, and described bottom cloth layer 14 is the knitting layer of cloth of fire retardant man-made fiber and Nature Fibre Textile, and described bottom cloth layer 14, insulation carpet veneer 13, heat insulation layer of cloth 12 and cloth layer 11 are integrated by compressing.

Described fixed cover 3 comprises an annular elastic cord and is wrapped in the cloth layer 11 outside described elastic cord, and described cloth layer 11 is polyimide fiber layer, and the degree of tightness of described fixed cover 3 is adjustable, makes wearing comfort.

Embodiment 2

The present embodiment provides a kind of fire-proof high-temperature resistant gloves, its structure is as shown in Figure 1, comprise glove bulk 1, sleeve 2 and fixed cover 3, take finger as upper end, arm is lower end, the upper end width of described sleeve 2 is less than the width of its lower end, and the upper end of described sleeve 2 is connected with described glove bulk 1, and the lower end of described sleeve 2 is connected with described fixed cover 3.

Described glove bulk 1 comprises palm area and is positioned at five finger areas of described palm area upper end, and the gross thickness of described glove bodies is 0.1-5mm.

As shown in Figure 2, described glove bodies is lamination layer structure, set gradually bottom cloth layer 14, insulation carpet veneer 13, heat insulation layer of cloth 12 and cloth layer 11 from the inside to the outside, at the upper and lower surface of described cloth layer 11, also heatproof insulating coating is set respectively, wherein, the thickness of described cloth layer 11 is 0.05-0.35mm, and the thickness of described heat insulation layer of cloth 1212 is 0.03-0.15mm, the thickness of described insulation carpet veneer 13 is 0.02-0.5mm, and the thickness of described bottom cloth layer 14 is 0.03-0.15mm.As the embodiment that can select, described cloth layer 11 is polyimide fiber layer; Described heat insulation layer of cloth 12 is the two layer composite structure that poly tetrafluoroethylene and fire resistance fibre base cloth are formed, and described poly tetrafluoroethylene and described cloth layer 11 are close to, and described fire resistance fibre base cloth and described insulation carpet veneer 13 are close to; Described insulation carpet veneer 13 is high molecular polymer insulation film, and described bottom cloth layer 14 is the knitting layer of cloth of fire retardant man-made fiber and Nature Fibre Textile, and described bottom cloth layer 14, insulation carpet veneer 13, heat insulation layer of cloth 12 and cloth layer 11 are integrated by compressing.

The inner surface being close to described bottom cloth layer 14 arranges several bilayer sleeves 15 (see Fig. 2), one end of described bilayer sleeve 15 is positioned at the centre of the palm place of described palm area, the other end is positioned at the running-on place of described fixed cover 3, as shown in Figure 3, described bilayer sleeve 15 comprises the permeability cell 151 being positioned at center internal layer and the catheter 152 being positioned at jacket layer, the equal opening in two ends of described permeability cell 151 is arranged, one end being positioned at described centre of the palm place of described catheter 152 is closed and is arranged, the one end open being positioned at described running-on place is arranged, the tube wall of described catheter 152 arranges some permeability holes 153.

Described sleeve 2 has lamination layer structure, sets gradually bottom cloth layer 14, insulation carpet veneer 13, heat insulation layer of cloth 12 and cloth layer 11 from the inside to the outside; The thickness of described sleeve 2 is 0.003-0.05mm, and length is 8-10cm.As the embodiment that can select, described cloth layer 11 is polyimide fiber layer, described heat insulation layer of cloth 12 is the two layer composite structure that poly tetrafluoroethylene and fire resistance fibre base cloth are formed, described poly tetrafluoroethylene and described cloth layer 11 are close to, and described fire resistance fibre base cloth and described insulation carpet veneer 13 are close to; Described insulation carpet veneer 13 is high molecular polymer insulation film, and described bottom cloth layer 14 is the knitting layer of cloth of fire retardant man-made fiber and Nature Fibre Textile, and described bottom cloth layer 14, insulation carpet veneer 13, heat insulation layer of cloth 12 and cloth layer 11 are integrated by compressing.

Described fixed cover 3 comprises an annular elastic cord and is wrapped in the cloth layer 11 outside described elastic cord, and described cloth layer 11 is polyimide fiber layer, and the degree of tightness of described fixed cover 3 is adjustable, makes wearing comfort.The present embodiment is provided with cingulum 31 (see Fig. 1) at the running-on place of described fixed cover 3, and be conducive to the fixing of gloves and wrist, aesthetic property is good.

Fire-proof high-temperature resistant gloves described in the utility model, comprise glove bulk 1, sleeve 2 and fixed cover 3, the lamination layer structure comprising bottom cloth layer 14, insulation carpet veneer 13, heat insulation layer of cloth 12 and cloth layer 11 from the inside to the outside is successively by arranging described glove bodies and described sleeve 2, the inner surface being close to described bottom cloth layer 14 further arranges at least one bilayer sleeve 15, and described bilayer sleeve comprises the permeability cell 151 being positioned at center internal layer and the catheter 152 being positioned at jacket layer, thus when dressing described gloves in hot environment, described cloth layer 11 has high temperature resistant, antistatic, intensity is high, the feature that folding resistance is good, not melting in flame, without molten drop, form reliable protective layer, described heat insulation layer of cloth 12 has heat insulation, fire-retardant, waterproof and breathable performance, avoid both hands by burn, while the further reinforced insulation effect of described insulation carpet veneer 13, there is water-proof function, moist or under having the environment of water livewire work do not puncture, Leakage Current is very little, security performance is good, described bottom cloth layer 14 soft comfortable, gas permeability and absorption of perspiration good, and by arranging described bilayer sleeve 15, a large amount of sweat that the palm of the hand is distributed penetrate into described catheter 152 and derive, utilize described permeability cell 151 to realize palm and extraneous air circulation simultaneously, effectively alleviate the burning heat sensation that heat radiation brings, as can be seen here, gloves described in the utility model are not only dressed conveniently, and use flexibly, and in fire or hot environment, can play good protective effect to both hands, security is high.

Obviously, above-described embodiment is only for clearly example being described, and the restriction not to embodiment.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.Here exhaustive without the need to also giving all embodiments.And thus the apparent change of extending out or variation be still among protection domain of the present utility model.

Claims (9)

1. fire-proof high-temperature resistant gloves, is characterized in that, comprise glove bulk, sleeve and fixed cover, and the upper end width of described sleeve is less than the width of its lower end, and the upper end of described sleeve is connected with described glove bulk, and the lower end of described sleeve is connected with described fixed cover;

Described glove bulk comprises palm area and is positioned at five finger areas of described palm area upper end, and described glove bodies has lamination layer structure, sets gradually bottom cloth layer, insulation carpet veneer, heat insulation layer of cloth and cloth layer from the inside to the outside;

The inner surface being close to described bottom cloth layer arranges at least one bilayer sleeve, one end of described bilayer sleeve is positioned at the centre of the palm place of described palm area, the other end is positioned at the running-on place of described fixed cover, described bilayer sleeve comprises the permeability cell being positioned at center internal layer and the catheter being positioned at jacket layer, the equal opening in two ends of described permeability cell is arranged, one end being positioned at described centre of the palm place of described catheter is closed and is arranged, the one end open being positioned at described running-on place is arranged, and the tube wall of described catheter arranges some permeability holes;

Described sleeve has lamination layer structure, sets gradually bottom cloth layer, insulation carpet veneer, heat insulation layer of cloth and cloth layer from the inside to the outside;

Described fixed cover comprises an annular elastic cord and is wrapped in the cloth layer outside described elastic cord.

2. fire-proof high-temperature resistant gloves according to claim 1, is characterized in that, arrange heatproof insulating coating respectively at the upper and lower surface of described cloth layer.

3. fire-proof high-temperature resistant gloves according to claim 1 and 2, is characterized in that, described cloth layer is polyimide fiber layer.

4. fire-proof high-temperature resistant gloves according to claim 1 and 2, is characterized in that, described cloth layer is the knitting layer of cloth that polyimide fiber and conductive fiber are formed by weaving.

5. fire-proof high-temperature resistant gloves according to claim 1 and 2, it is characterized in that, described heat insulation layer of cloth is the two layer composite structure that poly tetrafluoroethylene and fire resistance fibre base cloth are formed, described poly tetrafluoroethylene and described cloth layer are close to setting, and described fire resistance fibre base cloth and described insulation carpet veneer are close to setting.

6. fire-proof high-temperature resistant gloves according to claim 1 and 2, is characterized in that, described insulation carpet veneer is high molecular polymer insulation film.

7. fire-proof high-temperature resistant gloves according to claim 1 and 2, is characterized in that, described bottom cloth layer is the knitting layer of cloth of fire retardant man-made fiber and Nature Fibre Textile.

8. fire-proof high-temperature resistant gloves according to claim 1 and 2, is characterized in that, described bottom cloth layer, insulation carpet veneer, heat insulation layer of cloth and cloth layer are integrated by compressing.

9. fire-proof high-temperature resistant gloves according to claim 1 and 2, is characterized in that, the running-on place of described fixed cover is provided with cingulum.