CN113519947A - Special anti-electric-arc glove for electric power workers and preparation method thereof - Google Patents

Abstract

The invention relates to the technical field of electric power industry gloves, in particular to an electric arc resistant glove special for an electric power worker. The anti-electric arc gloves are formed with two air heat insulation layers. Compared with the traditional leather gloves, the invention is flexible and practical. The lining is sewn at the palm part of the first knitted liner, so that the softness and comfort degree during wearing are improved, and the flexible effect is achieved; the flame-retardant adhesive surface layer has the effects of flame retardance and electric arc resistance, and provides practicability. The palm portion of the anti-electric-arc glove has an anti-electric-arc grade reaching 2 and above of ASTM F1959 standard.

Description

Special anti-electric-arc glove for electric power workers and preparation method thereof

Technical Field

The invention relates to the technical field of electric power industry gloves, in particular to an electric power worker special-purpose anti-arc glove and a preparation method thereof.

Background

In electric operation, the heat generated by the arc discharge is used to melt the welding rod and the workpiece and form a weld joint after condensation, so that a firm joint connection is obtained. This process is prone to generate significant arc heat that can cause arc heat burns in people. The risk of arcing, unlike other electrical injuries, is often easily inadvertent and difficult to avoid without contact, and direct contact with the ignited clothing can cause serious burns or death to the workers.

The protective gloves on the market at present are gloves with one leather layer on the outer layer, ordinary knitted liner gloves on the inner layer, and the protective gloves formed by sewing the two layers together. The problems that actually exist after the use of such protective glove users are: on one hand, the operation is heavy, and the operation of a user for holding an electric power tool is not flexible; on the other hand, the glove is poor in air permeability because the outer part of the glove is usually made of artificial leather, and the comfort of an operator after the operator wears the glove for a long time is poor.

The traditional Chinese patent anti-electric arc knitted glove with publication number CN2088470U discloses a glove with a double-layer structure, which comprises a flame-retardant fluffy inner layer and a high-temperature-resistant cutting-proof outer layer which are mutually connected, wherein the flame-retardant fluffy inner layer is of a looped pile knitted structure. This knitting gloves of anti electric arc is through increasing one deck terry layer in gloves, and it has air to fill in the terry layer, can form an air bed, blocks thermal conduction, reaches better anti electric arc effect. The gloves can also achieve the effect of electric arc resistance, but an additional loop process is needed, and the process is added.

In view of the above, it is highly desirable to provide an arc-resistant glove with flexibility, practicability and simple process for arc welding industry.

Disclosure of Invention

In view of the shortcomings of the prior art, one of the objectives of the present invention is to provide an anti-electric-arc glove dedicated for electric power workers, which has the advantages of flexibility and practicability.

One of the above objects of the present invention is achieved by the following technical solutions: the utility model provides a dedicated anti electric arc gloves of power worker, includes first knitting inner bag, still including being located the inside lining of first knitting inner bag, first knitting inner bag and inside lining pass through the sewing thread and connect, and the inside lining is the knitting inner bag of second as an organic whole or integrative surface fabric tailoring inner bag, first knitting inner bag palm portion is equipped with the fire-retardant glue surface course that glues that the gumming formed.

Through adopting above-mentioned technical scheme, the fire-retardant gluey surface course of gluing that the outer gumming of knitted inner bag formed can realize fire-retardant effect, but for leather gloves, the compliance of first knitted inner bag is high, uses more in a flexible way after dressing, and whole comfort level is high. The sewed lining in the first knitted liner promotes the softness when being worn again, and the comfort level achieves the flexible effect. And the practicality is provided by the fire-retardant rubber surface course of gloves and the fire-retardant multilayer structure of palm, and palm portion can reach fire-retardant and from the effect that the fire was put out by oneself, can bear the high fever electric arc that electric power produced, avoid arousing workman electric arc heat burn. The electric arc resistant glove has the advantages of flexibility and practicability.

The present invention in a preferred example may be further configured to: the knitting material of the first knitted liner is made of flame-retardant fibers, and the material of the liner and the material of the sewing thread are made of the flame-retardant fibers.

By adopting the technical scheme, all the wires adopt the flame-retardant fibers, so that the knitted gloves can achieve better flame-retardant and arc-isolating effects, and the arc-resistant capability is further improved.

The present invention in a preferred example may be further configured to: the flame-retardant fiber is at least one of modacrylic fiber, flame-retardant acrylic fiber, fiber with a polyamide group, pre-oxidized fiber or flame-retardant post-treatment fiber.

By adopting the technical scheme, various selection schemes of the flame-retardant fiber are provided, and the flame-retardant fiber can be selected and used according to actual conditions.

The present invention in a preferred example may be further configured to: and the palm part of the first knitted liner, which is in contact with the outside, is soaked with a flame-retardant adhesive surface layer.

Through adopting above-mentioned technical scheme, for whole first knitting inner bag gumming, the palm impregnation of effect of playing to grip alone can let other positions gas permeability of gloves better, and the comfort level after wearing like this is also good, and operating personnel uses also more in a flexible way, can also satisfy the practicality requirement simultaneously.

The present invention in a preferred example may be further configured to: a first air heat insulation layer is reserved between the first knitted liner and the lining, when the lining is the integrated knitted liner, a second air heat insulation layer is reserved in the knitted liner, and the anti-electric-arc gloves are formed with two layers of air heat insulation layers.

Through adopting above-mentioned technical scheme, first air heat insulating layer and second air heat insulating layer have played hollow fiber's effect on the one hand, are equivalent to hollow glass, can play the thermal-insulated effect of double-deck, and on the other hand forms an air bed, blocks thermal conduction, reaches better anti electric arc effect. Compared with leather electric arc resistant gloves on the market, the electric arc resistant gloves of the scheme are softer, have good heat insulation effect and have good electric arc resistant effect.

The present invention in a preferred example may be further configured to: the palm of the anti-electric-arc glove has an electric-arc resistance grade reaching grade 2 and above of ASTM F1959 standard.

By adopting the technical scheme, higher anti-arc grade can be provided for the gloves.

The present invention in a preferred example may be further configured to: an aerogel layer is attached to the surfaces of the five fingers of the first knitted liner.

Through adopting above-mentioned technical scheme, aerogel layer is inorganic material, can provide fire behavior for first knitting inner bag, reaches separation heat and from the effect that fire self-extinguished, avoids arousing workman electric arc heat burn. And the touch feeling is soft, so that the comfort of the glove in use can be improved.

The second aim of the invention is realized by the following technical scheme: a method for preparing special anti-electric-arc gloves for electric workers comprises the following steps:

step one, weaving a first knitted liner by adopting flame-retardant fibers;

step two, weaving a second knitted liner by using flame-retardant fibers;

step three, sewing the second knitted liner outside the palm of the first knitted liner through sewing threads;

and step four, turning over the glove, sleeving the glove on the hand mold, immersing the palm part of the hand mold into the flame-retardant adhesive surface, taking out the glove, and drying the glove to form the anti-electric arc glove.

By adopting the technical scheme, the preparation process is simpler, and the prepared gloves have the advantages of flexible wearing and practical performance. In the process, the first knitted liner and the second knitted liner are actually essentially liners which can be knitted simultaneously, and the difference is that one liner is used as an outer sleeve and the other liner is used as an inner sleeve. The integral connection is relatively more efficient and convenient without the need for additional assembly of fragmented gloves.

The present invention in a preferred example may be further configured to:

step one, weaving a first knitted liner by adopting flame-retardant fibers;

step two, weaving a second knitted liner by using flame-retardant fibers;

step three, sewing the second knitted liner outside the palm of the first knitted liner through sewing threads;

and step four, turning over the glove, sleeving the glove on the hand mold, immersing the palm part of the hand mold into the flame-retardant adhesive surface, taking out the glove, and drying the glove to form the anti-electric arc glove.

By adopting the technical scheme, the integral cloth is adopted, the obtaining way of the raw materials is more diversified, and the purchasing and production of manufacturers are facilitated. The process is also very simple and convenient, and the obtained product has high air permeability and comfort level and has the effects of flame retardance and electric arc resistance.

In summary, the invention includes at least one of the following beneficial technical effects:

1. the gloves are softer, more comfortable and flexible to use, and have the effects of flame retardance and arc resistance through the two knitted inner containers and the one flame-retardant adhesive surface layer;

2. the effect of further improving the heat insulation performance is achieved through the air heat insulation layers on the two sides;

3. the effect of further improving the ventilation comfort degree is achieved by only dipping the palm surface with glue.

Drawings

Fig. 1 is a schematic view of the entire structure of embodiment 1.

Fig. 2 is a side sectional view of embodiment 1.

Fig. 3 is a schematic view of a second air insulating layer of example 1.

FIG. 4 is a schematic view of the entire structure of embodiment 2.

Reference numerals: 1. an arc-resistant glove; 2. a first knitted liner; 3. a liner; 4. A flame-retardant adhesive surface layer; 5. a first air insulation layer; 6. a second air insulation layer; 7. an aerogel layer.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example 1:

referring to fig. 1, the special anti-electric arc glove for the power worker comprises a first knitted liner 2, wherein a flame-retardant adhesive surface layer 4 formed by gum dipping is arranged outside the first knitted liner 2, and the flame-retardant adhesive surface layer 4 is fused with the knitted liner 2. In order to improve the air permeability, the palm surface of the glove is preferably subjected to gum dipping, and the glue is flame-retardant glue. The power equipment is held to the palm face, and the face of gluing can provide wear resistance, high temperature resistance, barrier properties, fire behaviour for the whole anti-electric arc of this embodiment is effectual.

The anti-electric arc glove of this implementation still includes the inside lining 3 that is located first knitting inner bag 2, connects through the sewing thread between first knitting inner bag 2 and the inside lining 3 two. The sewing thread adopts flame-retardant fiber to improve the flame retardant property of the whole glove. The knitted inner bag of the second as an organic whole of inside lining 3, adopt and knit the same material of inner bag 2 with first, raw and other materials obtain simply on the one hand, and on the other hand shape is laminated easily. The requirement of softness and comfort degree is satisfied to two-layer knitted inner bag. The weaving materials of the first knitted liner 2 and the second knitted liner are both flame-retardant fibers, so that the flame retardant property of the anti-electric arc glove 1 is improved. Of course, the inner lining 3 can also be made of other common fabrics or knitted fabrics, and it is recommended to be cut into an integral glove and then sewn with the first knitted liner 2.

The flame-retardant fiber can be one of modacrylic fiber, flame-retardant acrylic fiber, fiber with polyamide group, pre-oxidized fiber or flame-retardant post-treatment fiber. The flame-retardant post-treatment fiber is prepared by using high-energy rays or an initiator to graft-polymerize a flame-retardant monomer formed by the fiber and vinyl after a high polymer is formed into fiber, or using a solution containing an additive flame retardant to treat nascent fiber in a wet spinning process, or enabling the flame retardant to permeate into the fiber, so that the fiber obtains lasting flame-retardant performance. These fibers may be used.

Referring to fig. 2 and 3, a first air heat insulation layer 5 is arranged between the first knitted liner 2 and the lining 3, and a second air heat insulation layer 6 is formed inside the second knitted liner, so that the electric arc resistant glove 1 is formed with two air barrier layers to block electric arc energy, thereby achieving a good electric arc resistant effect and having a heat insulation effect.

The palm of the anti-arc glove meets the arc protection requirement of 2-grade stability and above by performing an anti-arc test according to the requirements of electrical safety standards of staff workplaces, which are formulated by NFPA 70E American fire protection Association.

The implementation principle of the embodiment is that when an operator needs to work by electric power, the anti-electric-arc glove 1 of the embodiment is worn, the flame-retardant rubber surface layer 4 of the palm part of the glove can play a role in isolating electric arc energy in a wear-resistant and high-temperature-resistant manner, and meanwhile, the first knitted liner 2 can also play a role in flame retardance. When people wear the clothes, the lining 3 is very soft when penetrating, and can provide better air permeability after being worn for a long time, so that the overall comfort level of users is improved.

The preparation method of the special anti-electric-arc gloves for the electric power workers, which takes the knitted liner as the liner, comprises the following steps:

step one, weaving a first knitted liner 2 by adopting flame-retardant fibers;

step two, weaving a second knitted liner by using flame-retardant fibers;

step three, sewing the second knitted liner outside the palm of the first knitted liner 2 through sewing threads;

and step four, turning over the glove, sleeving the glove on the hand mold, immersing the palm part of the hand mold into the flame-retardant adhesive surface, taking out the glove and drying the glove to form the anti-electric arc glove 1.

The preparation method of the lining with the cloth liner comprises the following steps:

step one, weaving a first knitted liner 2 by adopting flame-retardant fibers;

step two, adopting the fabric to cut and sew the fabric into a cloth type integral liner;

step three, sewing the cloth type integral inner container outside the palm of the first knitted inner container 2 through a sewing thread;

and step four, turning over the glove, sleeving the glove on the hand mold, immersing the palm part of the hand mold into the flame-retardant adhesive surface, taking out the glove, and drying to form the anti-electric arc glove 1.

Example 2:

the difference from the embodiment is that: an aerogel layer 7 is attached to the surfaces of the five fingers of the first knitted liner 2. Aerogel layer 7 can provide inorganic fire behavior for first knitting inner bag 2, can further reach the separation heat and leave the effect that the fire was put out by oneself, avoids arousing workman electric arc heat burn. And the touch feeling is soft, and the comfort of using the glove can be improved.

While the invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not to be limited to the disclosed embodiment, but on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

Claims (9)

1. The utility model provides a dedicated anti electric arc gloves of electric power worker, includes first knitting inner bag (2), its characterized in that: including inside lining (3) that is located first knitting inner bag (2), first knitting inner bag (2) and inside lining (3) pass through the sewing thread and connect, and the lining (3) knitting inner bag of second as an organic whole or the inner bag is cut out to integrative surface fabric, first knitting inner bag (2) outside is equipped with fire-retardant gluey surface course (4) that the gumming formed.

2. The electric power worker specific anti-arcing glove of claim 1, wherein: the knitting material of the first knitted liner (2) is flame-retardant fiber.

3. The electric power worker specific anti-arcing glove of claim 2, wherein: the flame-retardant fiber is at least one of modacrylic fiber, flame-retardant acrylic fiber, fiber with a polyamide group, pre-oxidized fiber or flame-retardant post-treatment fiber.

4. The electrician-specific anti-arc glove of claim 3, wherein: the palm part of the first knitted liner (2) contacting the outside is soaked with a flame-retardant adhesive surface layer (4).

5. The electric power worker specific anti-arcing glove of claim 4, wherein: leave first air insulating layer (5) between first knitting inner bag (2) and inside lining (3), during the knitting inner bag of inside lining (3) as an organic whole, wherein leave second air insulating layer (6), anti electric arc gloves (1) conformal one-tenth has two-layer air insulating layer.

6. The electric power worker specific anti-arcing glove of claim 1, wherein: the anti-arc grade of the palm part of the anti-arc glove (1) reaches 2 grades and above of the ASTM F1959 standard.

7. The electric power worker specific anti-arcing glove of claim 1, wherein: an aerogel layer (7) is attached to the surfaces of the five fingers of the first knitted liner (2).

8. A method for preparing electric power worker-specific anti-arc gloves according to any one of claims 1-6, wherein the method comprises the following steps:

step one, weaving a first knitted liner (2) by adopting flame-retardant fibers;

step two, weaving a second knitted liner;

step three, sewing the second knitted liner outside the palm of the first knitted liner (2) through sewing threads;

and step four, turning over the glove, sleeving the glove on the hand mold, immersing the palm part of the hand mold into the flame-retardant adhesive surface, taking out the glove, and drying to form the anti-electric arc glove (1).

9. A method for preparing electric power worker-specific anti-arc gloves according to any one of claims 1-6, wherein the method comprises the following steps:

step one, weaving a first knitted liner (2) by adopting flame-retardant fibers;

step two, adopting the fabric to cut and sew the fabric into a cloth type integral liner;

step three, sewing the cloth type integral inner container outside the palm of the first knitted inner container (2) through a sewing thread;

and step four, turning over the glove, sleeving the glove on the hand mold, immersing the palm part of the hand mold into the flame-retardant adhesive surface, taking out the glove, and drying to form the anti-electric arc glove (1).

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