JPH1121706A - Safety tool - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide light safety tool having both heat resistance and cold resistance, and excellent in flexibility and workability. SOLUTION: This safety tool is constituted of a complex cloth consisting of a trilayer structure of a surface cloth, a middle layer and a back cloth, further consisting essentially of aramid fiber and satisfying the following conditions: (a) the surface cloth and the back cloth consist of 50-100 wt.% meta- aramid fiber, 0-10 wt.% para-aramid fiber and 0-40 wt.% other flame resistant fiber (with the proviso that the total percentage of the meta-aramid fiber, the para-aramid fiber and the other flame resistant fiber is 100 wt.%); (b) the surface and/or the interior of the surface cloth has a protective layer having both heat resistance and cold resistance formed so as to be 0.1-1.0 mm thickness; and (c) the middle layer is a layered product of plural layers of an aramid felt.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a disaster prevention work tool having both heat resistance and extreme cold resistance and excellent flexibility.

[0002]

2. Description of the Related Art In recent years, it has both heat resistance and extreme cold resistance to be worn when inspecting and repairing production facilities for producing flammable liquefied gas such as LPG, LNG and liquefied hydrogen gas, and has excellent flexibility. There is a growing demand for emergency work tools.
Liquefied gas such as LPG, LNG and liquefied hydrogen gas is -1
Liquefies at 50-250 ° C and burns when vaporized.

[0003] Therefore, it is necessary for this kind of disaster prevention work tool to be excellent in heat resistance and in extreme cold resistance.

Conventionally, as a working tool worn when working in a low-temperature environment, a thick working tool made of a highly air-permeable material such as feathers or wool has been used. Further, because of its light weight and good workability, a composite material in which a hollow synthetic fiber, a metal composite sheet, a foamed synthetic resin, and the like are combined with a surface material and a lining made of synthetic fibers such as polyester and polyamide has been developed.

[0005] However, there is no problem with a cold working tool using synthetic fibers such as polyester and polyamide when used under relatively mild conditions of about 5 ° C to -5 ° C. It hardens under the working environment of 15 ° C., and has insufficient cold protection. Also, feathers and wool are -20 ° C ~
It can withstand use up to -30 ° C, but -30 ° C
If it is lower than this, there is a problem of embrittlement. The most serious drawbacks are heavy, poor workability, and low strength.

[0006]

SUMMARY OF THE INVENTION The present invention has been devised to solve the above-mentioned conventional problems. The present invention has both heat resistance and extreme cold resistance, and is lightweight and excellent in flexibility. Another object of the present invention is to provide a disaster prevention work tool excellent in workability.

[0007]

According to the first aspect of the present invention, there is provided a disaster prevention work tool comprising a three-layer composite fabric having an aramid fiber as a main component and comprising a surface material, an intermediate layer and a lining. (A) to (c) are satisfied.

(A) The outer and inner linings are composed of 50-100% by weight of meta-aramid fiber, 0-10% by weight of para-aramid fiber and 0-40% by weight of other flame-retardant fibers (provided that meta-aramid fiber + para-aramid fiber is used). + Other flame retardant fiber = 100
(B) A protective layer having both heat resistance and cold resistance having a thickness of 0.1 to 1.0 mm is formed on the surface or / and inside of the outer material. (C) Intermediate The layer is a laminate in which a plurality of aramid fiber felts are stacked.
Since it is composed of 50 to 100% by weight of aramid fiber, 0 to 10% by weight of para-aramid fiber and 0 to 40% by weight of other flame-retardant fiber, even if liquid of liquefied gas such as LNG or LPG adheres, it deteriorates. Not only is there no danger of brittleness or embrittlement, but there is no danger of burning or burning when exposed to a flame. In addition, since a protective layer having both heat resistance and cold resistance is formed with a thickness of 0.1 to 1.0 mm on the surface or / and inside of the outer material, a liquid of a liquefied gas such as LNG or LPG is used. Even if it adheres to the surface, it can not only prevent penetration into the interior, but also prevent the flame from propagating inside even when exposed to a flame.

Further, since the intermediate layer is a laminate in which a plurality of aramid fiber felts are stacked, not only is the heat resistance and the extreme cold resistance excellent, but also the weight and the flexibility are excellent.

The disaster prevention work tool according to the second aspect of the present invention is a woven fabric having a surface material and a lining having a warp density of 20 lines / inch or more and a weft density of 20 lines / inch or more. According to the invention described in claim 2, both the heat resistance and the air permeability are good because the outer material and the lining are woven fabrics having a warp density of 20 strands / inch or more and a weft density of 20 strands / inch or more.

[0011] In the disaster prevention work tool according to the third aspect of the present invention, the woven fabric is a satin woven fabric. According to the third aspect of the present invention, since the woven fabric is a satin woven fabric, the surface of the woven fabric or /
Even if a protective layer having both heat resistance and cold resistance is formed inside, it is excellent in flexibility and therefore excellent in workability.

According to a fourth aspect of the present invention, the other fire-retardant fibers are polybenzimidazole fiber, poly-p-phenylenebenzobisoxazole fiber, phenol fiber, melamine fiber and polyimide fiber. And at least one selected from the group consisting of

According to the fourth aspect of the present invention, the other flame-retardant fibers used in the disaster prevention work implement are polybenzimidazole fiber, poly-p-phenylenebenzbisoxazole fiber, phenol fiber, melamine fiber. Since it is at least one of a system fiber and a polyimide fiber, it has excellent flame retardancy and does not burn or burn even when exposed to intense flame.

According to a fifth aspect of the present invention, the protective layer having both heat resistance and cold resistance is formed of an inorganic silicon resin.

According to the fifth aspect of the present invention, since the protective layer having both heat resistance and cold resistance is formed of inorganic silicon resin, the thickness of the protective layer is 0.1 to 1.0 mm. However, it is excellent in flexibility and therefore excellent in workability.

In the disaster prevention work tool according to the present invention, the density of the fiber felt in the intermediate layer is 50 to 200 g / m.
²

According to the sixth aspect of the invention, since the density of the fiber felt in the intermediate layer is 50 to 200 g / m 2, not only the heat resistance and the extreme cold resistance are excellent, but also the weight can be reduced. .

The disaster prevention work tool according to the invention of claim 7 is provided with a permeable coating on the surface of the lining.

According to the seventh aspect of the present invention, since the moisture permeable coating is applied to the surface of the lining, the disaster prevention work tool itself has a three-layer structure, and thus has a high moisture permeability. Excellent, can withstand long-term use without stuffiness.

The disaster prevention work tool according to the invention of claim 8 is a work glove that protects the disaster prevention work tool up to the elbow.

According to the eighth aspect of the present invention, since the disaster prevention work tool is a work glove that protects up to the elbow, it is possible to protect the hand and the elbow during work.

According to a ninth aspect of the present invention, the disaster prevention work tool is a work apron for protecting the front surface of the body.

According to the ninth aspect of the present invention, since the disaster prevention work tool is a work apron for protecting the front of the body,
The chest, abdomen and legs can be protected during work.

[0024]

BEST MODE FOR CARRYING OUT THE INVENTION The disaster prevention work tool of the present invention is composed of a three-layer composite fabric comprising an aramid fiber as a main component, a surface material, an intermediate layer and a lining.

Here, the outer and inner linings are composed of 50-100% by weight of meta-aramid fiber and 0-10% by weight of para-aramid fiber.
% By weight and 0-40% by weight of other flame-retardant fibers.

The outer material and the lining are made of meta-aramid fiber 5
0-100% by weight, 0-10% by weight of para-aramid fiber
And 0-40% by weight of other flame-retardant fibers, LP
Even if a liquid of a liquefied gas such as G or LNG adheres, there is no danger of hardening or embrittlement, and there is no danger of burning or burning even when exposed to a flame.

Examples of the meta-aramid fiber include polymetaphenylene isophthalamide and a fiber obtained by copolymerizing the third component with the polymetaphenylene isophthalamide. As an example of the polymetaphenylene isophthalamide copolymer, a copolymer represented by the following formula can be given.

[0028]

Embedded image

(However, x = y + z, y> z, and n indicate the number of repeating units.) The para-aramid fiber is made of polyparaphenylene phthalamide or a copolymer of the same with the third component. Fibers may be mentioned. Examples of the polyparaphenylene phthalamide copolymer include a copolymer represented by the following formula.

[0030]

Embedded image

(Where x = y and n represent the number of repeating units.) Other flame-retardant fibers include polybenzimidazole fiber, poly-p-phenylenebenzobisoxazole fiber, phenol fiber, and melamine. System fibers and polyimide fibers.

Next, the intermediate layer needs to be a laminate in which a plurality of felts made of aramid fiber are stacked.

When the intermediate layer is constituted by a laminate in which a plurality of felts made of aramid fiber are stacked, the heat resistance and the extreme cold resistance are excellent, and the weight can be reduced.

The aramid fibers include meta-aramid fibers,
Para-aramid fiber may be used, but especially meta-
Aramid fibers are preferred. Among them, the intermediate layer has a density of 50
To 200 g / m ^2, it is preferred that multiple ply laminate of aramid fiber felt having a thickness of 0.5～3.5Mm. If the felt density is too low or the thickness is too thin, a sufficient heat resistance effect cannot be obtained. On the other hand, if the felt density is too high or too thick, the air permeability will be insufficient, and the weight will increase, restricting the movement of the body during work, and the workability will decrease. Further, it is desirable that the intermediate layer be fixed to the outer material and the lining in order to prevent displacement during washing. Examples of the fixing method include a bonding method of bonding with an adhesive and a quilting method by sewing, and a quilting method is preferable in order to improve durability against washing. In this case, the quilting interval is preferably about 35 to 50 mm.

The most important thing in the disaster prevention work tool of the present invention is that a protective layer having both heat resistance and cold resistance is formed on the surface or / and inside of the outer material with a thickness of 0.1 to 1.0 mm. That is.

When a protective layer having both heat resistance and cold resistance having a thickness of 0.1 to 1.0 mm is formed on the surface and / or inside of the outer material, liquid of liquefied gas such as LNG or LPG adheres to the surface. Not only can this prevent penetration into the interior to improve cold resistance, but also prevent the flame from propagating inside even when exposed to a flame, thereby improving heat resistance. When the thickness of the protective layer is less than 0.1 mm, the effect of preventing the penetration of the liquefied gas and the prevention of the spread of the flame is small, and the cold resistance and heat resistance are insufficient. The thickness of the protective layer is 1.
If it exceeds 0 mm, the flexibility is reduced, and the workability and comfort become insufficient. In order to form a protective layer having both heat resistance and cold resistance on the surface or inside of the outer material, the following method can be appropriately selected. That is, as an agent having both cold resistance and heat resistance, an inorganic silicon resin or an acrylonitrile-based resin can be selected, and it is preferable to mix short fiber cut fibers of meta-aramid fiber in these. A predetermined protective layer can be formed by forming these resins into a sheet and bonding them to the outer material (topping method) or applying a liquid material to the outer material (coating method). In particular, a coating method of an inorganic silicone resin is preferably selected. In addition, in order to form a protective layer inside the outer material, as described above, the cloth with the protective layer formed on the surface of the outer material is used by using the folded cloth as the outer material so that the protective layer is on the inner side. It becomes possible.

The outer material and the lining that constitute the disaster prevention work tool of the present invention have a density of at least 20 threads / inch, preferably 20 to
It is desirable that the woven fabric has a weave density of 150 yarns / inch and a weft density of 20 yarns / inch or more, preferably 50 to 100 yarns / inch. When the woven densities of the warp density and the weft density are both less than 20 yarns / inch, the heat resistance becomes insufficient, and the warp density exceeds 150 yarns / inch and / or the weft density becomes 100 yarns / inch. If it exceeds, weaving becomes poor,
Not only does the quality of the obtained fabric become poor, but also the air permeability becomes insufficient. Furthermore, as a woven fabric having the above woven density,
Satin fabric is particularly preferred. Even if the protective layer having the cold resistance and heat resistance is formed on the surface of the satin fabric by selecting the satin fabric, the satin fabric has a soft feeling, is flexible, and has good wearing feeling and workability.

Furthermore, it is desirable that 1 to 5 conductive yarns are incorporated in the fabric constituting the outer material and the lining. If the conductive yarn is not incorporated,
Static electricity is charged on the outer material and the lining, which is dangerous. On the other hand, even if the number of the conductive yarns exceeds 5 yarns / inch, the effect does not change much.

The spun yarn constituting the warp or the weft of the woven fabric is provided with conductive stable fibers of 1 to 10 times.
%. When the content of the conductive stable fiber is less than 1% by weight, static electricity is charged on the surface material and the lining, which is dangerous. On the other hand, the content of the conductive stable fiber is 10% by weight.
The effect does not change much even if it exceeds.

Furthermore, it is desirable to apply a moisture-permeable coating to the surface of the lining. By having a moisture-permeable coating, it can withstand long-term use without stuffiness.
A urethane resin can be used as the moisture-permeable coating agent.

As the disaster prevention work tool of the present invention, for example, various forms such as gloves, arm covers, work aprons, shoes, shoes covers and floor sheets can be used.

[0042]

As described above, according to the first aspect of the present invention, the outer material and the lining have meta-aramid fibers of 50 to 100.
% By weight, 0-10% by weight of para-aramid fibers and 0-40% by weight of other flame-retardant fibers.
Even if a liquid of a liquefied gas such as G or LPG adheres, there is no danger of deterioration or embrittlement, and there is no danger of burning or burning even when exposed to a flame. A protective layer having both heat resistance and cold resistance is provided on the surface or / and inside of the outer material.
Since it is formed with a thickness of 1 to 1.0 mm, even if a liquid of a liquefied gas such as LNG or LPG adheres to the surface, it can not only prevent the liquid from penetrating into the inside, but also when exposed to a flame. , The flame can be prevented from propagating inside.

Further, since the intermediate layer is a laminate in which a plurality of aramid fiber felts are stacked, not only is the heat resistance and the extreme cold resistance excellent, but it is also lightweight and excellent in flexibility.

Further, according to the second aspect of the present invention, since the outer material and the lining are woven fabrics having a warp density of 20 yarns / inch or more and a weft density of 20 yarns / inch or more, both heat resistance and air permeability are both high. Good.

According to the third aspect of the present invention, since the woven fabric is a satin woven fabric, even if a protective layer having both heat resistance and cold resistance is formed on the surface and / or inside of the woven fabric, the fabric is flexible. And thus excellent workability.

Further, according to the fourth aspect of the present invention, the other fire-retardant fibers used in the disaster prevention work tool include polybenzimidazole fiber, poly-p-phenylenebenzbisoxazole fiber, phenol fiber, Since it is at least one of melamine fibers and polyimide fibers, it has excellent flame retardancy and does not burn or burn even when exposed to a violent flame.

According to the fifth aspect of the present invention, since the protective layer having both heat resistance and cold resistance is formed of an inorganic silicon resin, the thickness of the protective layer is 0.1 to 1.0 mm.
However, it is excellent in flexibility and therefore excellent in workability.

According to the sixth aspect of the present invention, since the density of the fiber felt in the intermediate layer is 50 to 200 g / m ² , not only the heat resistance and the extreme cold resistance are excellent, but also the weight is reduced. Can be.

According to the seventh aspect of the present invention, since the surface of the lining is provided with a moisture-permeable coating, the disaster-prevention work implement itself has a three-layer structure, and thus has a moisture-permeable property. Excellent for long-term use without stuffiness.

According to the eighth aspect of the present invention, since the disaster prevention work tool is a work glove that protects up to the elbow, it is possible to protect the hand and the elbow during work.

According to the ninth aspect of the present invention, since the disaster prevention work tool is a work apron for protecting the front of the body, the chest, abdomen, and legs can be protected during work.

[0052]

EXAMPLES The present invention will be described more specifically with reference to the following examples, but the present invention is not limited to the following examples.

Examples 1 to 5 and Comparative Examples 1 to 4 The following spun yarns, woven fabrics, felts and processed woven fabrics were prepared using aramid fibers as main components.

Spun yarn: The following fibers (A) and (B) were blended at a weight ratio of 90:10 to give a 20-count double yarn.

(A) Meta-aramid fiber (manufactured by Teijin Limited)
Teijin Conex (trademark)), (B) Polybenzimidazole fiber (manufactured by Hoechst Celanese Co., Ltd.)-Woven fabric: The above spun yarn has a density of 25 warps / inch and 25 wefts / inch in a five-sheet satin weave. Weaved.

Felt: Two sheets having a basis weight of 130 g / m ² were laminated using Teijin Conex (trademark).

Fabric processed product: An emulsion of an inorganic silicone resin (manufactured by Shin-Etsu Chemical Co., Ltd.) was applied to the above-mentioned fabric to change the thickness of the protective layer on the fabric surface.

A composite fabric having a three-layer structure was prepared by using the above processed fabric as a surface material, a felt as an intermediate layer, and a woven fabric (unprocessed product) as a backing.

Using this composite fabric, a working apron (for protecting the chest, abdomen and legs of a male worker 165 cm tall)
It was created.

Various cryogenic liquefied gases were blown toward the working apron for 30 minutes to evaluate. here,
As a comparison, those using an unprocessed woven fabric for the dress material and those forming a protective layer by applying a general PVC resin emulsion to the dress material were evaluated. Table 1 shows the obtained results.

[0061]

[Table 1]

──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. ⁶ Identification code FI A41D 31/00 501 A41D 31/00 501H 503 503F 31/02 31/02 A A62B 17/00 A62B 17/00 D06M 17/00 D06M 15/643 // D06M 15/643 17/00 M

Claims (9)

[Claims] A dress material comprising aramid fiber as a main component,
A disaster prevention work tool comprising a composite fabric having a three-layer structure including an intermediate layer and a lining, and satisfying the following requirements (a) to (c). (A) The outer material and the lining are meta-aramid fibers 50 to 10
0% by weight, 0-10% by weight of para-aramid fiber and 0-40% by weight of other flame-retardant fiber (however, meta-aramid fiber + para-aramid fiber + other flame-retardant fiber = 100%) ( b) A protective layer having both heat resistance and cold resistance having a thickness of 0.1 to 1.0 mm is formed on the surface or / and inside of the outer material. (c) The intermediate layer is formed by stacking a plurality of aramid fiber felts. It must be a laminated body 2. The disaster prevention work tool according to claim 1, wherein the outer material and the lining are woven fabrics having a warp density of 20 yarns / inch or more and a weft density of 20 yarns / inch or more. 3. The disaster prevention tool according to claim 2, wherein the woven fabric is a satin woven fabric. 4. The flame-retardant fiber is at least one selected from the group consisting of polybenzimidazole fiber, poly-p-phenylenebenzbisoxazole fiber, phenol fiber, melamine fiber and polyimide fiber. Item 1
The disaster prevention work tool according to any one of Items 1 to 3. 5. The disaster prevention work tool according to claim 1, wherein the protective layer having both heat resistance and cold resistance is formed of an inorganic silicone resin. 6. The intermediate layer having a fiber felt density of 50-2.
Claims 1, which is 200 g / m ² to 5 emergency work tool according to any one. 7. The disaster prevention work tool according to claim 1, wherein a moisture permeable coating is applied to a surface of the lining. 8. The disaster prevention work tool according to claim 1, wherein the disaster prevention work tool is a work glove that protects up to the elbow. 9. The disaster prevention work tool according to claim 1, wherein the disaster prevention tool is a work apron for protecting the front of the body.