RU11922U1 - FLAT CABLE - Google Patents

Abstract

1. A flat cable containing a polymer sheath, flexible conductive wires of twisted copper conductors with jumpers between them, filled with an insulating material of the sheath, characterized in that each of the flexible conductive wires is insulated with a polymer material having a release coating, the conductive wires are located in the same plane in parallel each other and have individual twisting in different directions, while the veins are combined into groups, each of which is equipped with a synthetic longitudinal thread, and osednie groups of conductors are separated by webs of material obolochki.2. The flat cable according to claim 1, characterized in that the thickness of the jumper between adjacent groups of cores is at least 0.5 mm. The flat cable according to claim 1, characterized in that the conductive conductors with multidirectional twisting are arranged alternately or in any other sequence. The flat cable according to claim 1, characterized in that the cable contains at least six conductive wires. The flat cable according to claim 1, characterized in that the cable sheath is made of non-combustible material. A flat cable according to claim 1, characterized in that the insulation of the core is made of two layers, the first layer being painted in natural color and the second layer in any other, preferably black. Flat cable according to claim 1, characterized in that the cable sheath and the surface of each insulated core are marked with paint.

Description

FLAT CABLE

The utility model relates to the field of electrical engineering, in particular, to cable technology and can be used as a flexible cable in mobile devices, especially passenger and freight elevators.

Known flat cable containing a conductive core of twisted copper conductors with jumpers between them, the cable has a polymer sheath, the jumpers are filled with insulating material, forming a single unit with the sheath. As a shell (insulation) can be used rubber or plastic 1. This technical solution is chosen as the closest analogue.

The disadvantages of the cable is its lack of resistance to bending and twisting with free hanging during operation.

The task to which the claimed technical solution is directed is to improve the operational characteristics of the cable by increasing its flexibility, durability in a dynamic mode of operation, as well as improving consumer properties during its processing and installation.

The stated technical problem is solved by the fact that in the well-known

a flat cable containing a polymer sheath, flexible conductive wires of twisted copper conductors with jumpers between them, which are filled with sheath insulation material, each of the flexible conductive wires is insulated with a polymer material having a release coating, conductive wires are located in the same plane parallel to each other and have an individual twisting in different directions, while the cores are combined into groups, each of which is equipped with a synthetic longitudinal thread, neighboring groups of conductors living cores are separated by jumpers, made of non-combustible shell material, and the thickness of the jumper between

IPC H 01 in 7/08

by neighboring groups of conductors is at least 0.5 mm., conductive conductors with multidirectional twisting are arranged alternately or in any other sequence, and the number of conductive conductors in the cable must be at least six, the insulation of conductors is double-layer, the first layer is painted in natural color, the second layer - in any other, preferably black, with paint marking on the cable sheath and the surface of each insulated core.

The difference between the proposed technical solution and the known one is that each of the flexible conductive conductors is insulated with a polymer material having a release coating, while the conductive conductors are parallel and in the same plane and have individual twisting in different directions, the wires are combined into groups, each of which is equipped synthetic longitudinal thread, moreover, the neighboring groups of cores are separated by jumpers, of non-combustible material of the sheath, the thickness of each bridge is at least 0.5 mm., cores with different directional twist arranged either serially or in any other sequence, and the number of conductors in the cable must be at least six cores are formed two layer wherein each layer has a different color, and on the polymeric sheath of the cable and the surface of each core is coated with paint markings.

Thus, the totality of the claimed significant distinguishing features is necessary and sufficient to achieve the technical solution provided by the utility model.

The utility model is illustrated by the drawing, which shows a flat flexible cable, where: 1 - conductive core, 2 - core insulation, 3 - jumper between groups of conductive conductors, 4 - thread to break the sheath, 5 - cable sheath, 6 - insulated ground conductor.

In a flat cable, insulated conductors are coated with a release coating, which may be, for example, talc. Twisting the cores in different directions provides good stability in suspended

(no twisting) of the cable during operation, these cores with multidirectional twisting can be arranged alternately, in pairs, or in any other sequence in the cable, for example, half of the cores are twisted to the right side, the other half of the cores are twisted to the left side. Synthetic thread serves to break the cable and provides ease of installation.

Thus, when implementing a utility model, it is possible to obtain the claimed technical result, namely:

- the use of separately insulated and coated with anti-adhesive material cores solves the problem of cable reliability with multiple bends;

- the use of twisting of conductive conductors in different directions solves the problem of cable stability when it is suspended, the absence of twisting due to balancing the moments that occur when twisting conductors of conductive conductors;

-applying the method of combining several insulated conductive cores into groups separated by solid jumpers and laying in each group a synthetic thread to break the sheath when cutting the ends of the cable solves the problem of high-quality, convenient and quick cable cutting and its installation directly on the work site;

- the presence of a double insulation layer of each conductive core, one layer of which has a natural color, and the second layer is painted in any other color, increases the dielectric strength of the insulation and saves dye;

- marking on the surface of the conductive core facilitates the installation of wires at the cable installation site, and surface marking of the cable sheath allows you to correctly orient the cable when installing and fixing it on the object, and digital marking of the wires facilitates the installation of the electrical circuit without additional calls. 1. Bibliographic data of information sources: Copyright certificate No. 259215, publ. 12.12.69, IPC Н 01 В

Claims (7)

1. A flat cable containing a polymer sheath, flexible conductive wires of twisted copper conductors with jumpers between them, filled with an insulating material of the sheath, characterized in that each of the flexible conductive wires is insulated with a polymer material having a release coating, the conductive wires are located in the same plane in parallel each other and have individual twisting in different directions, while the veins are combined into groups, each of which is equipped with a synthetic longitudinal thread, and osednie groups of conductors are separated by webs of casing material.  2. The flat cable according to claim 1, characterized in that the thickness of the jumper between adjacent groups of cores is at least 0.5 mm.  3. The flat cable according to claim 1, characterized in that the conductive conductors with multidirectional twisting are located alternately or in any other sequence.  4. The flat cable according to claim 1, characterized in that the cable contains at least six conductive wires.  5. The flat cable according to claim 1, characterized in that the cable sheath is made of non-combustible material.  6. The flat cable according to claim 1, characterized in that the core insulation is made of two layers, the first layer being painted in natural color and the second layer in any other, preferably black. 7. The flat cable according to claim 1, characterized in that the cable sheath and the surface of each insulated core are marked with paint.