RU2174637C1 - Dielectric flange pipe-line joint - Google Patents

Abstract

FIELD: pipe-line joints. SUBSTANCE: branch-pipes are provided with flanges. A coil made of fibre glass plastic pipe is glued inside the groove of the branch-pipes. Dielectric fibre glass plastic packing ring is placed in the space between flanges. Rubber sealing rings are placed in grooves. Steel stub bolts with nuts are insulated from other flanges by means of dielectric inserts. EFFECT: joint maintains dielectric separation of one pipe-line member from another and protects them against external corrosion, enhanced efficiency and service life. 1 dwg

Description

 The invention relates to pipeline connections that provide protection against external corrosion and a dielectric connector of one section of the pipeline from another while maintaining tightness at pressures of 21 MPa and above.

 Known flange connection of pipelines (SU, 1028939 A, class F 16 L 25/02, published. 07/15/1983), adopted as a prototype, containing pipes with flanges, electrically isolated from each other by a gasket-ring, and studs with nuts. The disadvantage of this connection is that it does not provide tightness at high pressures under axial and radial forces.

 The objective of the invention is to increase the efficiency, service life of the protective protection of the pipeline and ensuring the tightness of the flange connection at high pressures due to the electrical connector of the pipeline from metal structures.

 The technical result is achieved by the fact that the flange connection of the pipelines contains nozzles with flanges, electrically isolated from each other by a gasket-ring, studs with nuts, rubber o-rings placed in the grooves of the flanges, a dielectric coil in the form of a fiberglass pipe having a length greater than the diameter of the pipe, placed in a groove located inside the nozzles and connected to the nozzles with glue, while the studs with nuts are made of steel and are electrically isolated from the dielectric flanges With tertiary inserts, the ring gasket is made of fiberglass, and the nozzles are welded to the flanges.

 The drawing shows the dielectric flange connection of the pipeline.

 Flange pair 1 is extended on both sides by means of nozzles 2. Inside the welded nozzles 2, a dielectric coil 3 is mounted from a fiberglass pipe. In order to preserve the cross-section of the pipeline before and after the insulating connection inside the nozzles 2, a special groove is selected to accommodate the dielectric coil 3. The fiberglass coil 3 is glued to the internal cavity of the nozzles 2 and flanges 1. The length of the fiberglass coil 3 is greater than the diameter of the pipeline. Coil 3 completely covers the gap between the flanges 1. A dielectric fiberglass gasket-ring 4 is placed in the gap between the flanges 1. For additional sealing of the fiberglass gasket-ring 4, rubber o-rings are placed in the grooves 5. Steel studs with nuts 6 are electrically isolated from the steel flanges 1 s by means of dielectric inserts 7. An insulating flange connection on both sides is connected by welding to equipment or pipelines.

 The use of this dielectric flange connection with the electrical connector of the pipeline from metal structures will increase the tightness of the connection and resistance to external corrosion of the pipeline, increase the service life and efficiency of the tread, cathodic protection systems.

Claims (1)

 A flange connection of pipelines containing nozzles with flanges, electrically isolated from each other by a gasket-ring, and studs with nuts, characterized in that it contains rubber o-rings placed in the grooves of the flanges, a dielectric coil in the form of a fiberglass pipe having a length greater than the diameter of the pipeline placed in a groove located inside the nozzles and connected to the nozzles with glue, while the studs with nuts are made of steel and are electrically isolated from the dielectric flanges inserts, the gasket-ring is made of fiberglass, and the nozzles are welded to the flanges.