RU186878U1 - Special shoes for protection against electric fields of industrial frequency - Google Patents

Abstract

The utility model relates to special shoes, namely, electrically conductive shoes and can be used for personal protection of personnel from various adverse and potentially traumatic factors of exposure to an electric field. The technical result achieved by the implementation of this utility model is to achieve uniformity in the distribution of electrical resistance of the elements and parts of shoes, while increasing the electrical conductivity and shielding characteristics, which helps to improve the drainage of electromagnetic field charges. The specified technical result is achieved due to the fact that special shoes for protection against electric fields of industrial frequency, containing the top, an electrically conductive inter-lining located in the tibia part, an electrically conductive oil and petrol resistant heat-resistant sole. At the same time, it additionally contains a tape of increased conductivity located on the back of the berets, along the entire sole, going to the vamp on one side, and having on the other side a contact terminal that provides electrical connection of the shoe with a shielding suit, and the sole is glued through the substrate using electrically conductive glue to the top of the shoe.

Description

The utility model relates to the production of special shoes, namely, electrically conductive shoes and can be used to individually protect personnel from various adverse and potentially traumatic factors of exposure to the electric field.

To date, special shoes have been widely used, the purpose of which is to create normal, comfortable working conditions, as well as protecting the foot of the employee. Electrically conductive shoes, while maintaining the common features of household shoes, have the characteristic features of providing protection against electromagnetic fields of industrial frequency and induced voltage. The main factor of harmful effects on humans is the electromagnetic field, which has a negative effect on the central and autonomic nervous system, immune and cardiovascular systems. It is possible to protect yourself from the electromagnetic field only by using conductive shoes, since the draining of the charges of the electromagnetic field from the clothes occurs exactly at the moment the sole of the conductive shoe touches the ground.

An electrically conductive boot is known from the prior art (Korean Patent CN 201541805, AB43/23/02, publication 09/11/2016), conductively connected to trousers, which consists of an upper layer and an electrically conductive sole connected to the upper layer of the boot. The sole of the boot is multilayer: it has a large sole layer, an inner layer that is located between the large sole layer and the upper layer of the boots, and a conductive tape. The surface of the inner layer of the sole is in direct contact with a large layer of the sole. One end of the conductive strip is connected between a large layer of the sole and the inner sole and is attached to the bottom of the inner sole. At the other end, the conductive strip is electrically connected to the pants via a button.

The closest analogue is protective boots against electric shock when working in the induced voltage zone and from exposure to electric fields of industrial frequency according to RF patent No. 2577659 (A41D 31/00, publication July 10, 2015), the boots of which are made with an interlining of conductive shielding double-sided material . The sole is made of oil and petrol resistant conductive rubber having electrical contact with an electrically conductive boot interlining. The soft edge inside the berets is made of electrically conductive fabric to provide surface electrical contact with the electrically conductive material of the trousers. The galvanic connection of the boot with the trousers is provided by dual electrically conductive contact pins, which are attached to the soft edge of the berets. The electrical resistance of shoes is less than 4000 ohms.

The disadvantages of the known designs, first of all, are insufficient operational characteristics with the loss of the standard characteristics for electrical conductivity and shielding, especially when used in winter and in a humid environment, excluding the possibility of wet dry cleaning of the kit, as well as uneven distribution of electrical resistance of the elements and parts of shoes , which in turn leads to the appearance of electric discharges having different electrical resistance, which cannot guarantee p Realization of protective properties.

The objective of this utility model is to eliminate these shortcomings and create special shoes to protect against electric fields of industrial frequency, including induced voltage.

The technical result achieved by the implementation of this utility model is to achieve uniformity in the distribution of electrical resistance of the elements and parts of shoes, while increasing the electrical conductivity and shielding characteristics, which helps to improve the drainage of electromagnetic field charges.

The specified technical result is achieved due to the fact that special shoes for protection against electric fields of industrial frequency, containing the top, an electrically conductive inter-lining located in the tibia part, an electrically conductive oil and petrol resistant heat-resistant sole. This additionally contains a tape of increased conductivity located on the back of the berets, along the entire sole, going to the vamp on one side, and having, on the other hand, a contact terminal that provides electrical connection of the shoe with a shielding suit, and the sole through the substrate using electrically conductive glue glued to the top of the shoe.

In a preferred embodiment, the inter-lining is made of an electrically conductive fabric using meta-aramid yarn wrapped in silver plated copper wire.

In another preferred embodiment, the high conductivity tape consists of para-aramid and carbon filaments wrapped in a conductive copper wire with silver plating.

The essence of the utility model is illustrated in the drawing, which shows a diagram of the proposed conductive shoes.

The following positions are indicated in the drawing:

1 - the top of the shoe;

2 - backdrop;

3 - tape of increased conductivity;

4 - electrically conductive interlining;

5 - lining;

6 - welt;

7 - electrically conductive oil and petrol resistant heat-resistant sole;

8 - insole;

9 - a subsock;

10 - substrate.

Electrically conductive shoes contain the top 1 (leather), the back 2 and berets, sewn to the vamp. Between the lining and the upper of the shoe in the tibial part there is an interlining 4. In the back of the berets, there is a tape of increased conductivity 3, which runs along the back of the berets, along the entire sole, going into the vamp on the one hand, and having, on the other hand, at least at least one output terminal providing electrical connection between the shoe and the shielding suit.

Over the entire heel part along the sole with the toe grip placed substrate 10, which is in contact with the tape of increased conductivity 3.

A backing is a part to which, through threads, a workpiece of the upper of the shoe, tightened on the block, is attached through the welt. Then the sole is glued to this design.

A metallic lining is located between the upper of the shoe and the lining. External drainage of charge is carried out by a metallized tape, which at one end is a part of the current-carrying straps along the upper edge, and with the other end lies on the main insole, and ensures drainage of the charge on the electrically conductive sole. The interlining of metallized fabric in this case provides a current drain.

Genuine leather is used as the top of conductive shoes. As the lining materials used genuine leather, lining fabric, cotton fabric.

To produce metallized fabric, 16.7 tex x 2 linear density meta-aramid yarn is used, which is coated with an antistatic agent and an electrically conductive combined component, which consists of 16.7 tex linear density meta-aramid yarn wrapped in silver plated copper wire (5% of the total weight wire).

To develop prototypes of the electrically conductive tape, we chose a carbon filament and an electrically conductive combined component, which consists of paraamide and carbon filaments wrapped in a conductive copper wire with a galvanic coating of silver (5% of the total weight of the wire).

As a method of attaching soles with a workpiece top shoe selected glue, characterized by the reliability and flexibility of the glue line. In addition, the adhesive method of attachment allows the use of molded soles with different patterns and tread depths of the undercarriage. On the inner (non-moving) side, such soles have a continuous surface, without relief gratings, in which air plays the role of an insulator. Due to this and the use of electrically conductive glue, the sole of the sole is in close contact with the lining and the main insole, between which there is a tape of increased conductivity, and this ensures that the electric discharge easily drains onto the sole.

The conductive sole must pass an input test to check the electrical resistance, the value of which should be no more than 2 kOhm.

This is achieved by the compounding of the rubber compound for the release of conductive soles:

1. Isoprene rubber.

2. Butadiene rubber.

3. Sulfur.

4. Accelerators.

5. Fillers (technical / active carbon and special purposes).

6. Softeners (rosin, bitumen, oils).

7. Activators of vulcanization.

8. Special additives.

The electrical resistance of special shoes should be no more than 10 kOhm. The proposed design, as well as the composition of the electrically conductive fabric, ribbons and soles allow you to achieve the claimed technical result.

Claims (3)

1. Footwear for protection against electric fields of industrial frequency, containing a top, an electrically conductive inter-lining located in the tibia, an electrically conductive oil and petrol resistant heat-resistant sole, characterized in that it further comprises an electrically conductive tape located on the back of the beret, running along the entire sole, going into the vamp on the one hand, and having on the other hand a contact terminal for ensuring electrical connection of the shoe with a shielding suit, and the sole through the substrate using electrically conductive of adhesive glued to the top of the shoe. 2. Shoes according to claim 1, characterized in that the interlining is made of electrically conductive fabric using meta-aramid yarn wrapped in copper wire with a silver plating. 3. Shoes according to claim 1 or 2, characterized in that the high conductivity tape consists of para-aramid and carbon filaments wrapped in conductive copper wire with a galvanic silver coating.

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