RU46123U1 - ELECTRICAL CABLE - Google Patents

Abstract

A utility model relates to electric cables intended for transmitting electric current or electrical signals. The technical result is expressed in a decrease in the amount of water swellable material in the cable. The essence of the claimed utility model lies in the fact that the electric cable contains a conductor of at least one insulating layer, an outer sheath, a layer of water-swellable material and differs from the closest analogue in that the layer of water-swellable material is made in the form of separate belts arranged in series along the longitudinal axis cable with a gap between them in the form of sections in which water-swelling material is absent or water-swelling material is deposited in these areas with a density of not more than 10% of the density of the layer in onabuhayuschego material in a separate zone.

Description

A utility model relates to electric cables intended for transmitting electric current or electrical signals.

Known electrical cables containing a conductive core, a protective sheath and a layer of powder of an organic material that swells in water (for example, certificate of the Russian Federation for utility model No. 32634 IPC 7 H 01 B 7/00, publication date 2003.09.20). The disadvantages of such cables include the increased consumption of organic material powder, which is applied continuously along the longitudinal axis of the cable to the protective sheaths, or to water-blocking threads laid along the core, or to special tapes of non-woven material laid over the conductive core or protective sheath.

The closest analogue to the utility model is an Electric cable (see, for example, the description of patent RU 2217826 Н 01 В 9/02, published 2003.11.27) containing a conductor, at least one insulating layer, an outer sheath, a layer of water-swelling material.

The disadvantage of the closest analogue is the excessive application of powder along the entire length of the cable layers. It is known from operating conditions that water enters an electric cable as a result of violation of the insulating or protective layers only at specific individual sections of the electric cable or at insufficiently protected ends of the cable and spreads both across and along the cable from the point of water penetration. As a result of the swelling of the water-swellable material, water is blocked inside the cable at a specific length. In this case, the rest of the water blocking material is not involved in the blocking process.

The objective of the utility model is to obtain an electric cable with a lower cost.

The technical result is expressed in a decrease in the amount of water swellable material in the cable.

The essence of the claimed utility model is that the electric cable (option 1) contains a conductor, at least one insulating layer, a protective sheath, a layer of water-swelling material and differs from the closest analogue in that the layer of water-swelling material is made intermittent in the form of separate belts, located sequentially along the longitudinal axis of the cable with a gap between them in the form of sections in which water-swelling material is absent.

In the second embodiment, the electric cable contains a conductor, at least one insulating layer, a protective sheath, a layer of water-swellable material and differs from the closest analogue in that the layer of water-swellable material is made discrete in the form of separate belts arranged in series along the longitudinal axis of the cable with a gap between them in the form of sections in which water-swellable material is deposited with a density of not more than 10% of the density of the layer of water-swellable material in a separate belt.

The essence of the utility model is illustrated by drawings, where:

figure 1 shows a General view in cross section;

figure 2 shows a view in longitudinal section with an intermittent layer of water-swellable material;

figure 3 shows a view in longitudinal section with a discrete layer of water-swelling material.

In a first embodiment, the electric cable comprises a conductor 1, at least one insulating layer 2, a protective sheath 3, a layer

water swellable material. The layer of water-swellable material is made in the form of separate belts 4 arranged in series along the longitudinal axis of the cable with a gap between them in the form of sections 5 in which there is no water-swellable material.

In a second embodiment, the electric cable comprises a conductor 1, at least one insulating layer 2, a protective sheath 3, a layer of water-swelling material. The layer of water-swellable material is made in the form of separate belts 4 arranged in series along the longitudinal axis of the cable with a gap between them in the form of sections 5, in which the water-swellable material is applied with a density of not more than 10% of the density of the layer of water-swellable material in a separate belt.

As a water-swellable material, a water-swellable powder is used, which, when combined with water, swells and blocks the inner part of the cable on which the water appeared. The particle size of the powder is about 50-300 microns. The powder is applied to the insulating layer 2 in the form of periodically repeating belts 4 with a gap between them in the form of sections 5 in which there is no water-swelling powder. The length of each belt 4 and each section 5 along the longitudinal axis of the cable is not more than 200 mm, respectively. The length of the belt 4 and section 5 is determined from the condition of ensuring moisture resistance, taking into account the speed of swelling of the powder when exposed to water, the rate of flow of water. The rate of water intake is determined by the operating conditions of a particular cable option. The cable can be made in versions for operation under water, in a residential or industrial building, underground, in an open space above the ground when exposed to atmospheric precipitation. Depending on the operating conditions and particle size of the water-swellable powder, the thickness of the belt 4 of the applied water-swellable material is about 50-300 μm.

The density of section 5 during the discrete deposition of a water swelling layer in the second embodiment of the electric cable is up to 10% of the density of the belt 4.

Water-swelling powder can be applied by electrostatics or by corona discharge, or by tribomatic charge of its individual particles. As a device for applying powder, a triboelectric powder spray can be used (for example, the description of the invention to the patent of the Russian Federation No. 2144950 IPC 6 V 05 V 5/047, publication date 1999.01.20).

In any version of the electric cable, it can be made with the number of conductors 1 more than one and the corresponding number of insulating layers 2, covered with a belt insulation of the cable 6, which is covered by an intermediate metal sheath 7, and layers of water-swelling material are applied to the insulating layers 2 and / or the belt insulation of the cable 6, and / or on the intermediate metal sheath 7. In this case, in the first embodiment, the layers of water-swellable material are made intermittent in the form of separate belts 4 arranged in series along noy axis of the cable with a clearance therebetween to form portions 5, in which a water swellable material is absent. In the second embodiment, the layers of water-swellable material are made discrete in the form of separate belts 4, arranged sequentially along the longitudinal axis of the cable with a gap between them in the form of sections 5, on which the water-swellable material is applied with a density of not more than 10% of the density of the layer of water-swellable material in a separate belt 4.

The intermediate metal shell 7 can be made, for example, of aluminum or copper, and is protected from external influences by a protective shell 3.

The application of water-swellable material, for example, water-swellable powder, in the form of separate belts 4 with a gap between them in the form of sections 5 in which there is no water-swellable powder, leads to a decrease in the amount of water-swellable powder in the electric cable. Application of water-swellable material — powder in the form of separate belts 4 with a gap between them in the form of sections 5, on which water-swellable powder is applied with a density of not more than 10% of the density of water-swellable powder in a separate belt 4 also leads to a decrease in the amount of powder in the electric cable. Given the rather high cost of such a powder, the cost of the electric cable decreases. When using a water-swellable material of a different type than that of the water-swellable powder, the claimed utility model will also achieve its savings and reduce the cost of the electric cable.

Claims (6)

1. An electric cable comprising a conductor, at least one insulating layer, a protective sheath, a layer of water-swellable material, characterized in that the layer of water-swellable material is made intermittent in the form of separate belts arranged in series along the longitudinal axis of the cable with a gap between them in the form of sections on which water-swelling material is absent. 2. The electric cable according to claim 1, characterized in that the layer of water-swellable material is made of loose water-swellable powder, which is applied by electrostatics or corona discharge, or tribomatic charge of its individual particles. 3. An electric cable according to any one of claims 1 and 2, characterized in that it contains conductors of more than one, each of which has an insulating layer covered with a belt insulation of the cable, which is covered by an intermediate metal sheath with a protective sheath located on it, and the layers water swellable material, deposited on the insulating layers and / or on the belt insulation of the cable, and / or on the intermediate metal sheath and are made intermittent in the form of separate belts arranged in series along the longitudinal axis of the cable with Azores between a land on which a water swellable material is absent. 4. An electric cable containing a conductor, at least one insulating layer, a protective sheath, a layer of water-swellable material, characterized in that the layer of water-swellable material is made discrete in the form of separate belts arranged in series along the longitudinal axis of the cable with a gap between them in the form of sections on which water-swellable material is applied with a thickness of not more than 10% of the thickness of the layer of water-swellable material in a separate belt. 5. The electric cable according to claim 4, characterized in that the layer of water-swellable material is made of bulk water-swellable powder, which is deposited by electrostatics or corona discharge, or tribomatic charge of its individual particles. 6. An electric cable according to any one of claims 4 and 5, characterized in that it contains conductors of more than one, each of which has an insulating layer covered with a belt insulation of the cable, which is covered by an intermediate metal sheath with a protective sheath located on it, and the layers water-swellable material, deposited on the insulating layers and / or on the belt insulation of the cable, and / or on the intermediate metal sheath and made discrete in the form of separate belts arranged in series along the longitudinal axis of the cable with zorom between a land on which a water swellable material is applied density of not more than 10% of the density of the swellable material layer in a separate zone.