UA55235A - Protective glove - Google Patents

Abstract

The protective glove consists of the internal cotton layer and at least one external thermoprotective layer with overlaid metallic mesh made of the knitted fabric. The protective layer represents the non-organic cloth.

Description

Description of the invention

The invention relates to heat protective means, in particular for hands, and can be used to prevent 2 damage to hands at the time of accidental heating of objects, as well as to protect the hands of workers in hot workshops.

Heat-protective gloves made of asbestos are well-known. Their disadvantage is the use of asbestos, which is harmful to human health.

A well-known protective glove consisting of two layers - an inner layer made of cotton knitted fabric and an outer woven layer made of chemical or synthetic fiber. The glove is covered with a 70 rubber film, which ensures its waterproofness and thermal insulation (Japanese patent M 4-361602, A 41 O 19/00).

Its disadvantage is the presence of a rubber film, which impairs the heat-protective and hygienic properties of the glove, as well as the rapid deterioration of the protective properties of rubber at elevated temperatures.

US patent M 5369806, A 41 O 13/10 describes a glove with protective properties against heat and burns of the welder's hands during welding. The glove contains a leather shell, inside which there is an intermediate 72 fire-resistant layer of foam material. The inner layer of the glove is made of cotton material.

The glove is difficult to manufacture and does not have sufficient thermal protection properties.

A well-known protective glove consisting of inner and outer layers. The inner layer, adjacent to the palm, is made of material that provides thermal protection and moisture absorption. The outer layer is a bumpy silicone coating made of such a heat-resistant fire-resistant polyamide fiber as "Kevlar", "Nomex" or "R.V.I." (application PCT (MO) M 93/05670, A 41 0 13/10).

The bumpy silicone coating of the surface of the palm part of the glove is a heat insulator, but it does not protect the hands from the high-temperature field in which the polyamide fibers used to make the outer layer of the glove melt. In addition, polyamide fibers have poor textile properties, so products made from them do not meet consumer requirements in terms of comfort. The presence of hard layers in a protective work glove reduces the sensitivity of objects and reduces the dynamics of the palm. "

The prototype is a protective knitted glove with a wrist cuff, consisting of an inner and outer glove, and the latter is made of heat-resistant yarn and has back and palm parts, and the palm part is reinforced with an additional layer. The inner mitten is made of cotton yarn and knitted with a cool smooth surface, and the outer one is made in a semi-regular way from crushed heat-protective yarn about togylen with high-strength, high-modulus SVM thread in a ratio of 2:1. The back part of the outer mitt and the palm part are connected by a semi-fang weave with a surface density of 420 g/m 2 with an additional reinforcing layer of knitted fabric with a 1 - 1 elastic weave, located in the upper part of the palm and cm fixed from the inner side of the palm part of the outer mitt to the side connecting seams (patent of the Russian Federation M)

Mo2126643, A 410 13/10).

The disadvantage of the prototype is that the thermal conductivity along the surface of the glove and the heat transfer from layer to layer are approximately equal, as a result of which, when a heated object is captured by the glove, the layers are deformed and the thermal field acquires a directionality vector in the direction of the deformation - to the palm, concentrating in a limited space. This, firstly, reduces the effectiveness of the glove's heat-protective properties, and secondly, reduces its service life. In addition, artificial fibers lose elasticity during use, which causes reduced wear resistance. The invention is based on the task of creating such a means for thermal and fire protection of hands, in which: by creating an outer layer, the thermal conductivity of which is much higher than the thermal conductivity of the inner layers and heat transfer from layer to layer, it is possible to direct the distribution of the thermal field evenly over the surface of the protective a means that allows you to avoid its concentration in a limited space of sl 395 deformation and reduce the temperature in the direction of the surface of the palm. This makes it possible to increase the efficiency of thermal protection and the service life of the protective agent. (9) To solve the problem, a protective glove containing an inner cotton layer and possibly at least one outer layer made by Kk! heat-protective yarn, which, according to the invention, contains a layer of metallic knitted mesh on top of the layer of heat-protective yarn, while (95) 50 inorganic fiber yarn is used as the heat-protective yarn. For lower temperatures, glass is used as an inorganic fiber in the proposed glove, and basalt is used for higher temperatures.

When grasping a heated object, the temperature field quickly and evenly spreads along the knitted metal mesh along the surface of the glove, reducing the temperature that spreads from layer to layer in the direction of the surface of the palm. Additional protection for the spread of the temperature field in the direction of the palm is created by 59 double "air corridors", formed by superimposing two knitted cloths - metal and basalt. This is in leads to an increase in the heat-protective properties of the glove and an extension of its service life.

To ensure sufficient surface thermal conductivity with minimum weight of the glove, the metal mesh is made of stainless wear-resistant elastic steel wire with a diameter of 0.08-0.12 mm by knitting the erasers 1-1 in one or more additions. because In order to increase the degree of overlap of the "air corridors" formed when two knitted cloths - metal and basalt - are laid, basalt fiber yarn is also made by interweaving erasers 1-1.

If it is necessary to strengthen the heat-protective properties of the glove, at least one additional layer of basalt fabric or basalt non-woven fabric 65 is placed between the inner cotton layer and the layer of heat-protective basalt yarn and between the layer of heat-protective basalt yarn and the layer of metallic knitted mesh.

To ensure the necessary hygienic properties in combination with protective ones, the inner cotton layer is made of tarpaulin or viscose fabric.

With increased requirements for hygroscopic properties, the glove additionally contains a hygienic one inside

Cover made of cotton canvas.

In fig. 1 - the general view of the glove is shown.

In fig. 2 - section A-A.

In fig. C is the sequence of placement of layers.

The claimed glove consists of an inner layer 1, which is a tarpaulin fabric. 7/0 The use of tarpaulin fabric provides gloves with additional hygienic properties.

On top of the inner layer, the following are sequentially arranged: a basalt fabric layer 2, a basalt knit layer 3, a basalt fabric layer 4 and a metal knitted mesh 5. The glove is sewn with heat-resistant threads. The outer perimeter of the glove can be connected mechanically using metal staples 6.

The working temperature of its operation is 7002C.

How to use gloves

When hot objects are grasped by the hand, the temperature field spreads in the direction of the least resistance, that is, evenly over the surface of the knitted metal mesh 5. This is the first effect of reducing the temperature field in the direction of the palm. The double "air corridors" formed when two knitted cloths are superimposed - metal 5 and basalt Z - are a stronger obstacle for the temperature field than the basalt thread of the cloth Z, so the temperature field under the metal mesh layer spreads evenly along the basalt knit threads. This is the second effect of lowering the temperature field towards the palm. As a result, the efficiency of thermal protection increases.

The glove can withstand higher temperatures than the prototype or other protective means of the same thickness. "

Claims (1)

Formula of the invention, AI. , 2, AI. iv) zo 1. A protective glove containing an inner cotton layer and at least one outer layer made of heat-protective material, which is distinguished by the fact that on top of the layer of heat-protective yarn it additionally contains a layer of metallic knitted mesh, while canvas is used as a heat-protective material with inorganic fiber. 2. A protective glove according to claim 1, which differs in that basalt and/or MO ZV GLASS are used as inorganic fibers. 3. A protective glove according to each of claims 1, 2, which is characterized by the fact that the metal mesh is made of stainless steel wire with a diameter of 0.08-0.12 mm by knitting the erasers 1-1 from one or more wires. 4. A protective glove according to each of claims 1-3, which is characterized by the fact that the heat-protective layer is made of basalt fiber by knitted interweaving of erasers 1-1. w-v c 5. Protective glove according to each of claims 1-4, which is characterized by the fact that between the inner cotton layer and the layer of thermal protection material there is at least one layer of basalt fabric or basalt non-woven fabric. b. The protective glove according to each of claims 1-5, characterized in that between the layer of thermally protective basalt material and the layer of metallic knitted mesh is located at least one layer of basalt sl fabric or basalt nonwoven fabric. 7. Protective glove according to each of claims 1-6, which is characterized by the fact that the inner cotton layer is made of canvas or viscose fabric. d) 8. A protective glove according to each of claims 1-7, which is characterized by the fact that the fabric layers are sewn around the perimeter with heat-resistant threads and connected with metal staples. o 9. Protective glove according to each of claims 1-8, which is characterized by the fact that it additionally contains a hygienic cover made of cotton linen inside. R 60 b5