RU53812U1 - CONTROL CABLE - Google Patents

Abstract

The utility model relates to the cable industry, in particular to the design of flexible cables, and can be used in rooms, outdoors, channels and tunnels for transmitting electrical signals with remote control of actuators. The control cable contains, located under the protective sheath and under the common screen (if any), insulated multi-conductive conductors twisted into twisted pairs, over which a screen is applied in the form of a braid or winding with wires. The free space under the protective sheath, under the shield of twisted pairs, under the insulation of the conductive wires and between the wires in the conductive core is filled with sealant, the sealant under the protective shell and under the shield of twisted pairs has a higher viscosity than the sealant under the insulation of the conductive wires and between the wires in the conductive core . The technical result consists in increasing the high-frequency characteristics while maintaining the tightness and mechanical resistance of the cable.

Description

The utility model relates to the cable industry, in particular to the design of flexible cables, and can be used in rooms, outdoors, channels and tunnels for transmitting electrical signals with remote control of actuators.

Known control cable according to the patent of the Russian Federation for utility model No. 31744, IPC 7 H 01 B 7/04, publication July 20, 2003, containing multiconductor conductive wires coated with insulation from polyvinylchloride plastic compound and made of tinned copper wires and twisted into a pair, then concentric in a cable by means of coils, a foil-coated lavsan screen and a shell of low flammability polyvinyl chloride plastic compound successively applied to them. The cable also contains wire armor and an additional sheath of low flammability polyvinyl chloride plastic compound.

A cable with a common screen made of foil-coated lavsan does not have sufficient flexibility and is subject to mechanical damage during repeated bending, due to this, noise immunity from external factors is reduced. Since each pair in the known cable is not shielded, the influence of each other on electrical signals transmitted through the conductive wires is not excluded, which leads to a decrease in the noise immunity of the cable. As a result, the cable does not provide stability of electrical parameters when transmitting control signals.

The closest analogue to the purpose, task and technical essence is the control cable according to the patent of the Russian Federation for utility model RU 45553 U1, IPC 7 Н 01 В 7/04, publication November 29, 2004, containing coated under the common screen and protective sheath

PVC insulation, multi-wire conductors made of tinned copper wires and twisted twisted into twisted pairs, over which a screen with a surface density coefficient of at least 70% in the form of a braid or winding of tinned copper wires with a diameter of not more than 0.15 mm , while the cores are twisted in a pair with a step multiplicity of not more than 21.

The design of such a cable due to the shielding of each twisted pair cable provides increased noise immunity, flexibility, and due to the presence of wire armor - a high degree of insulation protection from mechanical stress.

The technical task of the utility model is to further improve the design of the cable, aimed at increasing high-frequency characteristics while maintaining the tightness and mechanical resistance of the cable.

The problem is solved in that the control cable contains, located under the protective sheath and under the common screen (if available), insulated multi-wire conductors, twisted into twisted pairs, over which a screen is applied in the form of a braid or wire winding. The free space under the protective sheath, under the shield of twisted pairs, under the insulation of the conductive wires and between the wires in the conductive core is filled with sealant, the sealant under the protective shell and under the shield of twisted pairs has a higher viscosity than the sealant under the insulation of the conductive wires and between the wires in the conductive core .

In private versions of the utility model, low density polyethylene is used as a sealant filling the space under the twisted pair screen, and the insulation of the conductive wires is made of high density polyethylene.

The space under the twisted pair screen in cross section is preferably in the shape of a circle.

Under the protective sheath, power wires are placed, the multi-wire conductive wires of which are coated with high-density polyethylene insulation, over which a screen is applied in the form of a braid or winding with wires.

The technical result that can be obtained as a result of the implementation of a utility model, characterized by the proposed set of features, is to increase the uniform wave impedance, increase the transient attenuation (reduction of pickups) and reduce the attenuation coefficient while maintaining a high level of sealing.

The essence of the utility model is illustrated using graphic materials. The figure shows a cross section of the proposed cable.

The control cable contains conductive conductors 1, coated with insulation of high density polyethylene 2, twisted into twisted pairs 3, and power wires 4. Over the twisted pairs and power wires, a screen 5 is applied in the form of a braid or wire winding. The free space under the twisted pair screen is filled with sealant 6, which is used as low density polyethylene. Twisted pairs and power cores are twisted midway into a cable. A common screen 7 and a protective sheath are superimposed over the twist. The free space under the protective sheath, under the twisted pair screen, under the insulation of the conductive wires and between the wires in the conductive core is filled with sealant, and the sealant 9 under the protective sheath and under the twisted pair screen 6 has a high viscosity than a sealant (for example GS-1) under the insulation of conductive conductors and between wires in a conductive vein. Between the common screen and the protective sheath, a winding of PVC tape 10 can be placed.

The proposed cable is made on known equipment from well-known materials according to the developed technology.

Claims (5)

1. A control cable comprising insulated multi-wire conductive wires placed under a protective sheath twisted into twisted pairs, over which a screen in the form of a braid or wire is laid, characterized in that the free space under the protective sheath, under the twisted pair screen, under the conductive insulation the cores and between the wires in the conductive conductor are filled with sealant, and the sealant under the protective sheath and under the twisted pair screen has a higher viscosity than the sealant under the insulation of the conductive cores and between wires in a conductive conductor. 2. The cable according to claim 1, characterized in that as the sealant filling the space under the twisted pair screen, low density polyethylene is used, and the insulation of the conductive wires is made of high density polyethylene. 3. The cable according to claim 1, characterized in that the space under the screen of twisted pairs in cross section has the shape of a circle. 4. The cable according to claim 1, characterized in that under the protective sheath there are power wires, multi-wire conductive wires of which are coated with high-density polyethylene insulation, over which a screen is applied in the form of a braid or wire winding. 5. The cable according to claim 1, characterized in that a common screen is placed directly under the protective sheath.