RU199691U1 - FIRE RESISTANT INSULATING TAPE - Google Patents

Abstract

The proposed technical solution relates to the field of products for ensuring thermal and electrical insulation of cables and electrical wiring lines, and is intended to insulate the joints of current-carrying wires when they are connected during the installation of electrical wiring. The essence of the proposed technical solution is that a fire-resistant insulating tape, consisting of elastic of a thin-walled base covered with a layer of adhesive material is provided with an additional layer located between the base and the layer of adhesive material and made of granules of a mineral containing groups of hydromica having a layered plate structure. mineral from the group of hydromicas with a layered lamellar structure, vermiculite or muscovite is used.

Description

The proposed technical solution relates to the field of products for ensuring thermal and electrical insulation of cables and electrical wiring lines, and is intended to insulate the joints of current-carrying wires when they are connected during the installation of electrical wiring.

The prototype of the proposed technical solution is an anticorrosive insulating tape (patent for a useful model of the Russian Federation No. 49601 "Anticorrosive insulating tape", published on November 25, 2005).

The known device contains a base made of an elastic thin-walled material, which is used as a polymer film, and an adhesive layer, which is used as a heat-resistant mastic BITEP-GAZ TU 5775-005-48097807-2004.

The disadvantage of the prototype is the low fire resistance of the insulating tape, The disadvantage of the prototype is due to the fact that the melting temperature of the heat-resistant mastic BITEP-GAZ TU 5775-005-48097807-2004 is 180-190 ° C and when the ambient temperature exceeds this value (for example, in the event of a fire ) the known insulating tape can collapse and cease to perform its functions of electrical insulation of the joints of current-carrying wires, which in turn can lead to a short circuit. Therefore, the known insulating tape cannot be used, for example, for insulating joints when installing wires for fire alarm loops.

The aim of the proposed technical solution is to increase the fire resistance of the insulating tape.

The essence of the proposed technical solution lies in the fact that a fire-resistant insulating tape, consisting of an elastic thin-walled base covered with a layer of adhesive material, is equipped with an additional layer located between the base and the layer of adhesive material and made of mineral granules containing groups of hydromica, having a layered lamellar structure.

In preferred embodiments of the fire-resistant insulating tape, the plates of crystals are located parallel to the plane of the base; as a mineral from the group of hydromicas having a layered lamellar structure, vermiculite or muscovite is used.

Distinctive features of the technical solution are:

1. Fire-resistant insulation tape is provided with an additional layer located between the base and the layer of adhesive material - feature 1.

2. An additional layer is made of granules of a mineral containing groups of hydromicas with a layered lamellar structure - feature 2.

3. Plates of mineral crystals in an additional layer are parallel to the base plane. - sign 3.

4. Vermiculite was used as a mineral from the group of hydromicas with a layered lamellar structure - feature 4.

5. Muscovite was used as a mineral from the group of hydromicas with a layered lamellar structure - feature 5

The essence of the proposed technical solution is as follows:

Equipping the insulating tape with an additional layer located between the base and the layer of adhesive material (feature 1), provided that the additional layer is made of granules of a mineral containing groups of hydromica, having a layered lamellar structure (feature 2), makes it possible to increase the fire resistance of the insulating tape, because granules of a mineral containing groups of hydromicas, having a layered lamellar structure, when heated, listen in and expand, forming a continuous fire-resistant coating of the junction of current-carrying wires, which is provided by an insulating tape. The arrangement of the plates of the mineral crystals in the additional layer parallel to the base plane (feature 3) allows the insulation tape to be fire resistant, since the expansion and fluffing of the crystal plates during heating proceeds mainly in the direction perpendicular to the plane of the plate, which makes the fluff layer thicker and, therefore, more fire-resistant. The use of vermiculite (feature 4) or muscovite (feature 5) as a mineral from the group of hydromicas with a layered lamellar structure makes it possible to increase the fire resistance of the tape, because these minerals have high fluffing rates when heated.

This sketch shows a cross-section of a heat-resistant insulation tape.

The heat-resistant insulating tape consists of an elastic thin-walled base (1), which can be glass cloth. On the side surface of the base there is a layer of adhesive material (2), which can be used as a heat-resistant mastic. Between the thin-walled base and the layer of adhesive material, there are granules of a mineral containing groups of hydromicas with a layered lamellar structure (3). Vermiculite and muscovite are used as a mineral containing groups of hydromicas with a layered lamellar structure. The crystal plates of the layer (3) are located parallel to the base of the ribbon.

Using an insulating tape, the joint of the wires to be connected is insulated. When a high ambient temperature occurs, for example, due to a fire in the room where the electrical wiring was carried out, and the effect of such a temperature on the insulating tape when heating crystals of a mineral containing groups of hydromicas with a layered lamellar structure, their swelling and expansion occurs, in which continuous fire-resistant coating of the junction of current-carrying wires, which is provided by an insulating tape. This preserves the electrical conductivity of the wires and their insulation.

Claims (3)

1. A fire-resistant insulating tape containing a layer of an elastic thin-walled base covered with a layer of adhesive material, and a layer of mineral granules containing groups of hydromicas with a layered lamellar structure located between them, characterized in that the plates of crystals of a mineral containing groups of hydromica, having a layered lamellar structure are parallel to the plane of the base. 2. Fire-resistant insulating tape according to claim 1, characterized in that vermiculite is used as a mineral from the group of hydromicas with a layered lamellar structure. 3. Fire-resistant insulating tape according to claim 1, characterized in that muscovite is used as a mineral from the group of hydromicas having a layered lamellar structure.

Images