RU2622814C1 - Protective clothes for electrical works - Google Patents

Abstract

FIELD: personal demand items.

SUBSTANCE: protective clothing for work related to electricity, contains galvanically connected electrically conductive elements. The overalls or jacket with trousers or bib overall are made of a heat-resistant fabric based on cotton with a nylon embedding with a fire-resistant inserting or a heat-resistant fabric based on meta-aramid fibers. Electrically conductive elements are sewn onto the fabric from the wrong side in the form of flexible buses made on the basis of heat-resistant synthetic threads with interlacing of tinsel silvered thread and/or filaments of staple fibers on the basis of stainless steel, and on the inner side of the bus they are covered with a non-flammable light lining with a continuous layer or locally only under the buses. Flexible buses are located from one cuff of the sleeve to the cuff of the other one and through the inseam of trousers, these tires are connected to each other by parallel at least two additional buses located along the back piece of the garment.

EFFECT: increased reliability of simultaneous protection from electric shock under induced and step voltage, and from the thermal risks of the electric arc.

11 cl

Description

The invention relates to labor protection and safety and is intended for individual protection against electric shock under induced and step voltages, as well as thermal risks of an electric arc when working under both induced and operating voltage. These harmful and dangerous production factors affect personnel servicing electrical installations of high and extra-high voltage (including work carried out under operating and induced voltage).

Known protective clothing for working under tension, containing a jacket (with a hood), bib suit, helmet, gloves made of electrically conductive fabric and shielding shoes with electrically conductive soles galvanically connected to each other by means of electrically conductive contact leads (USSR Author's Certificate No. 1105180, class A41D 13 / 00, 1982).

The fabric used in well-known protective clothing consists of intertwined metal threads, while its checkered structure does not allow to achieve high electrical conductivity and, as a consequence, a high coefficient of shielding from electric and electromagnetic fields. In addition, such clothing allows currents to be shunted through a person in case of unintentional contact with induced or step voltage. Such fabric is hard, dense, heavy, and there is poor electrical contact between the threads. Metallized threads easily break when the fabric is wrinkled repeatedly during wear, which leads to a decrease in its electrical conductivity.

In the process, the user is forced to be in protective clothing for a long time, hence the requirements for its hygienic and operational properties - wear, breathability, softness of the fabric, its heat-insulating properties. In the case of using well-known clothing for personal protection from the effects of an electric field of industrial frequency, the required level of performance is unattainable.

Known protective clothing for working under voltage and in an electric field of industrial frequency, containing a jacket with a hood, bib overall, a helmet, gloves made of electrically conductive fabric and shielding shoes, galvanically connected to each other by means of electrically conductive contact leads, characterized in that the jacket, bib overall and shielding shoes made of three layers, while the upper layer of the jacket, semi-overalls and shoes is made of oil and water resistant and dirt-repellent material, the middle layer is made of electric the conductive material with a galvanically applied, evenly distributed double-sided electrically conductive coating, and the inner one is made of cotton fabric, in addition, the conductive silver-plated tapes are galvanically connected to this layer in addition to the middle layer, and the conductive contact leads of the jacket, bib overall and shielding shoe are connected to the middle layer and brought out through the loop in the inner or outer layer of the corresponding layer of clothing. Additionally, the clothes are equipped with a protective helmet and a shielding net mounted on the helmet using a removable holder (RU 2276570 C1, 05.20.2006).

The shielding fabric used in well-known protective clothing is made by galvanic deposition of a metal layer on a fabric base. In this case, a continuous metal layer does not allow to achieve stable adhesion of the shielding layer when worn, which leads to a decrease in the shielding coefficient. This clothing must not be washed. The three-layer structure used to protect the shielding layer from human body secretions and external aggressive influences against the background of a continuous metallized layer on the shielding fabric increases the thickness of the material package and significantly impairs air permeability. This, especially in a hot climate and (or) the warm season, in the process of many hours of constant work leads to significant discomfort when worn, which often causes personnel errors and (or) not using these clothes. In addition, the presence of an outer layer of material makes it impossible to visually monitor the condition of the shielding fabric during operation. As a result, there is the possibility of an unpredictable decrease in the shielding coefficient during wear and / or damage to the shielding fabric. The mesh screen with the helmet holder used in the kit with the clothes makes the structure heavier and is not suitable for use on live overhead power lines when respiratory protection from air ions is required. In addition, the use of such a screen in clothing for protection against electromagnetic high-frequency fields makes viewing difficult for the user.

Known protective clothing of an electrician, containing a suit, gloves and boots, which are equipped with electrically conductive elements (nets, pads) galvanically connected to each other (Author's certificate No. 1000005, class A41D 13/02, 1978). Such clothing solves the problem of protection against induced voltage, as conductors allow you to shunt a person’s body along standard paths of getting under voltage (arm-arm, arm-legs). However, in this case, the problem of the thermal risk of the electric arc is not solved (especially with the capacitive mechanism of the induced voltage associated with a large potential and a powerful arc during discharge). In addition, the linings and connecting wires are inconvenient during operation - they constrain movement, they interfere with work operations (cling to protruding parts of installations, equipment).

A common drawback of the clothes described above is the insecurity from the additional thermal risk of the electric arc when working in electrical installations. In addition, this is especially important when working under induced voltage, when touching live parts can be accompanied by an arc discharge, which can provoke the destruction of gloves and a breakthrough of current to the human body, followed by electrical injury. This increases the risks of improper use of PPE when changing clothes. For example, this can happen if it is necessary to repeatedly move from an electrical installation with a voltage of 6 kV, where there are no risks of exposure to an electric field of industrial frequency with a voltage above the acceptable level, but the thermal risks of an arc are high, to a switchgear of 330 kV or higher, where, on the contrary, thermal the risks are minimal. From this point of view, the case is even more indicative when it comes to work on the contact network of an alternating current railway (27.5 kV): the electrician KS is exposed to the risks of an electric arc and induced voltage at the same time.

The goal of the development of electrician clothes was to increase its reliability and comfort, to ensure the possibility of wet washing without loss of protective properties and to unify the relatively dangerous and harmful production risks for personnel working under operating, induced and step voltage.

This goal is achieved that the protective clothing for work related to electricity is galvanically connected and made with electrically conductive elements, while the jumpsuit or jacket with trousers or semi-overalls is made of heat-resistant fabric based on cotton with an insert of polyamide with a fire-resistant finish or heat-resistant fabric based on meta-aramide fibers or analogues. Electrically conductive elements are sewn onto the fabric from the wrong side in the form of flexible tires made on the basis of heat-resistant synthetic threads with the interweaving of tinsel silver plated threads and / or staple fiber threads based on stainless steel or analogs, and on the inside of the tire are covered with a non-combustible light lining in a continuous layer ( lining of overalls or jackets, trousers or semi-overalls) or locally only under the tires (if you look inside the clothes from the side of the outer fabric). Flexible tires range from one cuff of the sleeve to the cuff of the other and along the step seams of the trousers; between them, these tires are connected in parallel by at least two additional tires located along the back of the garment.

In another embodiment, the flexible tires have a width of at least 30 mm, and the heat-resistant fabric contains cotton and polyamide with a fire-resistant finish in the ratio 88/12. Also, flexible tires for overalls or jackets with trousers or semi-overalls are connected to at least five electrically conductive connectors on the inside of the trousers and cuffs of the sleeves for connecting shoes, gloves and a helmet. Flexible tires of a jacket with trousers or semi-overalls running along the back are made detachable with at least two electrically conductive connectors for connecting trousers or semi-overalls with a jacket. To connect to the potential, clothes are provided with electrically conductive contact tires with removable clamps or clamps, tires are connected by holnitentami with parallel flexible tires in the back of the clothes and are located in separate pockets of the jacket or overalls. The jumpsuit or jacket is made with a hood, which is made with electrically conductive flexible tires located crosswise on it, and at least two tires of the hood at the point of its connection with the back of the jumpsuit or jacket are connected to at least two tires located along the back of the jumpsuit or jacket , or two tires located along the back of the jumpsuit or jacket are made integrally with at least two tires of the hood. Also, the shoulder pad is made with electrically conductive flexible tires arranged crosswise on it, and at least two tires located along the back of the jumpsuit or jacket have at least one electrically conductive connector at the collar to connect to at least one electrically conductive connector of the nasal, connected to its flexible tires. The shoes are made on an electrically conductive sole without metal elements, with an electrically conductive flexible tire located from the top of the berets to the toe on the inside of the sole, and each glove contains at least one electrically conductive flexible tire, each unit of shoes and gloves provided with at least one electrically conductive a connector connected to a flexible bus. The conductive connectors are made in the form of half rings with half buttons, and / or frames, and / or buckles. Also on the elbows, and / or shoulders, and / or knees, and / or the hood, and / or the hood, and / or the yoke of the back, at least one additional electrically conductive flexible bus is sewn from the inside, also having a galvanic connection with parallel at least with at least two additional tires along the back of the garment. The kits consist of clothing, head and face protection, hand protection and shoes. Clothing can be made in the form of: - overalls - more convenient for high-altitude work; - jackets and semi-overalls (or) trousers - in order to further facilitate the design. The jacket can be made: - with a central zipper; - without a central fastener - to ensure the reliability of these properties during use (it is impossible to unfasten the jacket during operation); - with a stitched hood and a quill, or with one of these elements. To connect the kit with the potential of the workplace (wire or ground), 2 contact bars with removable clips or clamps are provided on the clothes, the leads are at least 1.5 m long. These tires are connected using holniten or other elements with parallel tires in the back of the clothes and are located in special separate pockets of the jacket (overalls). To protect the hands, knitted or woven gloves are used that have connecting leads (electrically conductive connectors). To use the kit, boots on electrically conductive soles without metal elements (toe cap, accessories for lacing) are used. At the same time, there is no need to carry out shoes with an interlining from an electrically conductive fabric, it is enough to place a flexible tire from the top of the tibia to the toe on the inside of the sole. For shunting the head, it is possible to use both a stitched hood with conductive tires located on it cross-on-cross, and a similarly made headband with an elastic band for putting on a general-purpose electrical helmet.

Protective clothing is worn in the following sequence. In the initial position, they unfasten the jumpsuit or jacket with trousers or semi-overalls. Put on overalls or trousers or semi-overalls. Put on a jacket by connecting the electrically conductive connectors of the jacket and the electrically conductive connectors of the overall or trousers. Next, put on shoes over the trousers and connect them with electrically conductive connectors to the connectors of the overalls (trousers or semi-overalls). A protective helmet is put on and a helmet and / or hood is thrown over it. They put on gloves, connecting them to the electrically conductive connectors on the cuffs of the jumpsuit or jacket. Fasten the central fastener of the jumpsuit or jacket. After performing all of the above operations, protective clothing is in working condition. Protective clothing is removed in the reverse order.

Kits provide protection against the following harmful and dangerous factors: thermal risks of an electric arc; possible electrical injury when operating under induced and step voltage. Thus, heat-resistant clothing made of fabric based on natural material (cotton) with additional flexible electrically conductive tires connecting the hands, feet and head of the user acquires (unifies) the properties of two personal protective equipment (PPE) at once: a protective shunt kit for protection against electric shock under induced and step voltage, as well as protective clothing from the thermal risks of the electric arc.

At the same time, the product can be used separately, for protection against only one of the factors: an electric arc, for example, on the ground potential on switchgears, when there is no need to protect against induced voltage and on the contrary, on disconnected contact network of an alternating current railway or overhead power line, when thermal risks are minimal and the risk of electric shock is great.

The technical result consists in increasing the reliability of simultaneous protection against electric shock under induced and step voltage, as well as from thermal risks of an electric arc.

It should be noted that the claimed utility model is not limited to the particular forms of implementation described in the application. Other modifications of the claimed device are also possible within the scope of the proposed set of essential features.

Claims (11)

1. Protective clothing for work related to electricity, containing galvanically connected electrically conductive elements, the jumpsuit or jacket with trousers or semi-overalls, made of heat-resistant fabric based on cotton with an insert of polyamide with a fire-resistant finish or heat-resistant fabric based on meta-aramide fibers, while the fabric on the wrong side contains electrically conductive elements in the form of flexible tires made on the basis of heat-resistant synthetic fibers with the interweaving of tinsel silver-plated threads and / or threads from stainless steel-based fiber, and on the inside of the tire are covered with a non-combustible lightweight lining in a continuous layer or locally only under the tires, with the tires ranging from one sleeve cuff to the cuff of the other and along the step seams of the trousers, these tires are connected at least parallel to each other two additional tires along the back of the clothes. 2. Protective clothing according to claim 1, characterized in that the flexible tires have a width of at least 30 mm. 3. Protective clothing according to claim 1, characterized in that the heat-resistant fabric contains cotton and polyamide with a fire-resistant finish in the ratio 88/12. 4. Protective clothing according to claim 1, 2, or 3, characterized in that the flexible tires of the overalls, or jackets with trousers, or semi-overalls, are connected to at least five electrically conductive connectors on the inside of the trousers and cuffs of the sleeves for connecting shoes gloves and a nakasnik. 5. Protective clothing according to claim 4, characterized in that the flexible tires of the jacket with trousers or semi-overalls running along the back are made detachable with at least two electrically conductive connectors for connecting the trousers or semi-overalls to the jacket. 6. Protective clothing according to claim 4, characterized in that for connection with potential on the clothes contact electro-conductive tires with removable clips or clamps are provided, the tires are connected by holnitentami with parallel flexible tires in the back of the clothes and are located in separate pockets of the jacket or overalls. 7. Protective clothing according to claim 4, characterized in that the jumpsuit or jacket is made with a hood, which is made with electrically conductive flexible tires located crosswise on it, and at least two hood tires at the junction with the back of the jumpsuit or jacket are connected with at least two tires located along the back of the jumpsuit or jacket, or two tires located along the back of the jumpsuit or jacket, made in one piece with at least two tires of the hood. 8. Protective clothing according to claim 4, characterized in that the shoulder pad is made with electrically conductive flexible tires arranged crosswise on it, and at least two tires located along the back of the jumpsuit or jacket have at least one electrically conductive connector at the collar for connection with at least one electrically conductive connector of the shoulder piece connected to its flexible tires. 9. Protective clothing according to one of paragraphs. 5-8, characterized in that the shoes are made on an electrically conductive sole without metal elements, with an electrically conductive flexible tire located from the top of the berets to the toe on the inside of the sole, and each glove contains at least one electrically conductive flexible tire, each unit of shoes and gloves are provided with at least one electrically conductive connector connected to the flexible bus. 10. Protective clothing according to one of paragraphs. 5-8, characterized in that the connectors are made in the form of half rings with half buttons, and / or frames, and / or buckles. 11. Protective clothing according to one of paragraphs. 5-8, characterized in that on the elbows, and / or shoulders, and / or knees, and / or a helmet, and / or a hood, and / or a yoke of the back, from the wrong side contains at least one additional electrically conductive flexible bus having also galvanic connection with parallel at least two additional tires located along the back of the garment.