RU2291508C1 - Sealed cable entry - Google Patents

Abstract

FIELD: electrical and power engineering.

SUBSTANCE: proposed cable entry that can be used to pass conductors into sealed premises or locations, for instance to connect biaxial cables when specifications require that radio-frequency cable screens should not be in electric contact with sealed entry body, has cylindrical body with flanges welded to its butt-ends and provided with holes wherein mineral-insulation covered and metal-sheathed ninety-core cables are welded, this cable sheath being electrically connected to body flanges. Conductors disposed about mineral-insulation covered central cores of cables form screens and are electrically connected to first screens of lead-in cables. Mineral-insulation covered central cores of cables are connected to those of lead-in cables and conductors of mineral-insulation covered cables around seven central cores form second screen and are connected to second screens of lead-in cables. Each core of double-screen lead-in cable is electrically connected to one mineral-insulation covered central cable conductor. First screen of lead-in cable is connected to six cable conductors disposed around central conductor; second screen is connected to twelve conductors disposed around seven central conductors.

EFFECT: enhanced noise immunity of screened-core lead-in cables in data-transfer radio-frequency band.

1 cl, 1 dwg

Description

The invention relates to electrical engineering and energy, in particular to sealed bushings of electrical conductors, and can be used to enter conductors into sealed rooms or volumes at nuclear power plants or other objects.

Known sealed input for lead-in cables into sealed rooms or volumes, containing a cylindrical metal case with flanges attached to its ends, through holes in which seven-core cables with mineral insulation are passed, the shell of which is galvanically connected to the flanges of the case, conductors located around the central cores of the cables form screens and are electrically connected to the shields of the supply cables, and the central conductors of mineral insulated cables are connected to the central conductors s connecting cables. (Application RU No. 2003134573, IPC ⁷ H 01 B 17/26, published in Offic. Pat. Bulletin 2005.05.27.)

The disadvantage of this design is that it does not provide the connection of cables with two screens with a higher degree of protection against interference.

The objective of the invention is the provision of connecting biaxial radio-frequency cables, in the case when, according to technical requirements, the screens of the radio-frequency cables should not have electrical contact with the housing of the pressure seal. That is, ensuring noise immunity of the supply cables with shielded cores in the radio frequency range of information transmission.

This problem is solved in that in a sealed input containing a cylindrical body, to the ends of which are flanges welded, holes in which are soldered nineteen-wire cables with mineral insulation, having a metal sheath, which is galvanically connected to the flanges of the body, conductors located around the central cores of the cables with mineral insulation, form screens and are electrically connected to the first screens of the supply cables, the central cores of cables with mineral insulation are connected to the central cores supply cables, and mineral insulated cable conductors surrounding the seven central cores form a second shield and are connected to second shields of the supply cables.

The essence of the invention lies in the fact that each one core of the lead cable with two shields is electrically connected to one center conductor of the mineral insulated cable, the first shield of the lead cable is connected to six cable conductors surrounding the center conductor, and the second shield is connected to twelve conductors surrounding seven central conductors.

The technical result is the production of hermetic bushings that provide higher noise immunity of the lead-in cables with shielded cores in the radio-frequency range of information transmission, each lead-in cable forms a separate electrical circuit with a piece of mineral-insulated cable with shields not galvanically connected to the flanges of the cylindrical body.

The invention is presented in the drawing. The device consists of a metal cylindrical housing 1, the ends of which are flanges hermetically welded 2. Nineteen-core cables with mineral insulation in a metal sheath are hermetically soldered into the holes in the flanges 3. In the nineteen-core cable, six cores surrounding the central core 6 are combined into a conductor 4, and twelve cores surrounding the conductor 4 are combined into the conductor 5. To the central core 6 of each cable 3, the core 7 of each supply cable is connected, the first screens connected to the conductor 4 of each cable 3 silt supply cables 8, and to the conductor 5 are connected to the second screens of the supply cables 9.

The device operates as follows. In mineral-insulated cables, conductor 4, located around the central core 6 of cable 3, is isolated from the cable gland and forms the first screen around the central cable core, and conductor 5, located around the conductor 4, forms a second screen, which allows connecting lead cables with two screens , and also provides the necessary noise immunity and reliable operation of cable lines in the radio frequency range of information transmission.

Thus, in a sealed entry, two mineral-shielded cable shields are connected on both sides of the input with two shields of the supply cables, but are isolated from the input case. The location of the conductors of the sealed input provides an input for biaxial radio frequency cables with their increased noise immunity. In this case, the sheath of the group of conductors of the sealed input can be made of any metal.

The device can be manufactured in small batch production using standard equipment.

Claims (1)

A high-frequency sealed cable entry containing a cylindrical metal case with metal flanges attached to its ends, through the openings of which are connected groups of conductors with mineral insulation connected to the cores and shields of the cores of the lead cables in a common metal sheath, which is galvanically connected to the flanges of the casing, characterized in that the supply cable contains two shields and is connected to the cable entry so that each one core of the supply cable with two shields connected to one central core of a mineral-insulated nineteen-core cable; the first screen of the supply cable is connected to all six cores of the mineral insulated cable surrounding the central core, and the second screen is connected to all twelve external cores surrounding the seven central cores of the cable.