SU1515204A1 - Insulating structure - Google Patents

Abstract

The invention relates to electrical engineering and can be used in high-voltage installations with a fiber-optic information transmission system. The goal is to increase the reliability and quality of transmission of optical information, expanding the functionality. The insulating structure is made in the form of a hollow body 1 with a glass-reinforced plastic pipe 3, inside which or the cylinder 4 is installed of insulating material with a spiral groove with a fiber light guide 5. The internal cavity of the insulating body is filled with transformer oil or SF6 gas. The proposed construction makes it possible to use glass fiber as an optical fiber, which makes it possible to improve the optical properties of the optical fiber, improve the image quality and simplify the design of the optical connectors. 2 hp f-ly, 2 ill.

Description

The invention relates to electrical engineering and can be used in fiber-optic information-measuring information transmission lines operating under high voltage

The aim of the invention is to increase the reliability and quality of the transmission of optical information and expand the functionality of the fiber "

Figure 1 shows a device with an internal arrangement of the carrier pipe; on fig "2 - the same, with an external 15 location of the carrier pipe"

The light guide contains a housing 1 with a terminator 2 ”In the cavity of the housing 1 of the light guide there is a supporting insulating tube 3, inside of which or on a 20-th cylinder there is a cylinder 4 made of insulating material with a spiral cut groove and a fiber optic bundle laid in it 5. Fastening the ends 2 to the pipe 3 carrying the mechanical load and the cylinder 4, it is carried out using 6 screws. The pipe carrying the mechanical load can be made of fiberglass, and the cylinder can be made of polymeric materials, for example, fluoroplastic.

After mounting the carrier pipe, the cylinder with the fiberglass and securing the end fittings, the internal cavity of the fiber is filled with an insulating liquid or SF6 gas and sealed with plugs 7. The fiber is connected to the information source and the receiving device using optical connectors 8.

The use of a cylinder 4 with a spiral groove in the design of the insulator makes it possible to increase the length of the fiber optic bundle 5, which is protected from external influences, which allows to increase the electric strength of the light guide element and thereby improve its electrical parameters and the reliability of the entire insulator without increasing the length of the insulator.

The proposed design makes it possible to use fiber optic bundles as a light guide element, the use of which in local information-measuring lines is most effective. This is due to the fact that the design of the information-measuring path, which includes an insulator, is significantly simplified, because the conditions for the input and output of optical radiation into fiber optic bundles are less stringent compared to fiber-optic modules and cables, and the reliability of the path is higher Due to the fact that the entire line is less critical for misalignment, the transmitter is the harness, the harness is the receiver. In addition, fiber optic bundles, for example, when creating wide-angle systems for transmitting images from high-voltage platforms, are the only possible light guide elements that allow the transmission of optical images.

In order to lighten the weight of the insulator, its body and inner cylinder can be made of polymer insulating materials. It is better to perform the ribs or a group of ribs separately with the subsequent axial or threaded assembly of the entire insulator. Transformer oil or 30 SF _s can be used as an electrically insulating material filling the internal cavity of the insulator. In the latter case, the parameters of the insulator are better.

The proposed fiber design makes it possible to use a fiber optic bundle as a light guide element, which allows the transmission of an optical image of large geometric dimensions and thereby improve the quality of the transmitted optical image and, in particular, greatly increase the resolution. In addition, the use of the proposed design can significantly simplify the design of the nodes that provide the input of optical radiation from light sources into the fiber-optic channel for transmitting information and from the fiber-optic channel to the photorecorder. This increases the reliability of the optical characteristics of the entire line as a whole.

Claims (3)

Claim 1 ”An insulating structure containing a hollow insulating body with fins, a core and a light-conducting fiber, characterized in that, in order to increase the reliability and quality of the transmission of optical information, expand the functionality, the core is made in the form of a pipe and cylinder carrying a mechanical load with a spiral groove, while the latter has a light guide fiber, and the inner cavity of the insulating body is filled with insulating material. 2. The design of claim 1, wherein the support pipe is located inside the cylinder. 3. The design according to claim 1, which is characterized in that the supporting tube · tube covers the cylinder.