RU50626U1 - PIPELINE CONNECTION - Google Patents

Abstract

The utility model relates to the field of aeronautical engineering and can be used in other engineering fields where it is necessary to ensure the tightness of the connection when hot air is supplied at temperatures up to plus 600 ° C under high pressure. The pipeline connection contains two flanges, on the connecting surface of one of which an annular groove is made, and the surface of the other has an annular protrusion commensurate with the width and depth of the annular groove, a gasket in the form of a flat ring mounted in the annular groove, and means for compressing the flanges to each other, at the same time, annular slots are made on the surfaces of the annular protrusion and the annular groove in contact with the gasket. It differs from the known piping connections in that it is equipped with an additional sealing metal ring, an annular sealing gasket is made of thermally expanded graphite, and an additional metal ring is installed between the flanges along their perimeter without a gap when the sealing gasket is made of thermally expanded graphite.

Description

The utility model relates to the field of aeronautical engineering and can be used in other engineering fields where it is necessary to ensure the tightness of the connection when hot air is supplied at temperatures up to plus 600 ° C under high pressure.

The closest technical solution to the proposed one is the connection of pipelines, widely used in aviation technology, in particular on aircraft TU-134, TU-154 and others (see INDUSTRIAL STANDARD "Pipe connections flanged from steel for air systems" OST 1 10078-71, entered into force on 01.03.72).

In the known pipe connection containing two flanges, on the connecting surface of one of which an annular groove is made, and the surface of the other has an annular protrusion commensurate with the width and depth of the annular groove, a sealing * gasket in the form of a ring installed in the annular groove, means for compressing the flanges to each other friend and made on the surfaces of the annular protrusion and the annular groove in contact with the gasket ring annular slots, the gasket is made of stainless steel or copper. To ensure tightness and create a large specific pressure, the gasket is clamped between the slots. The means for preloading the flanges is made in the form of special coupling clamps.

With prolonged use and numerous repairs, the slots between which the gasket is clamped are damaged, nicks appear on them, and the flatness of the surfaces of the slots is violated. During the repair, tightening clamps are tightened to ensure tightness by efforts exceeding the calculated ones, which as a result can lead to the destruction of the coupling bolts and the disconnection of pipelines.

The technical task of the utility model is to increase the reliability and durability of the connection, the creation of a repair-suitable design.

The problem is solved in that the connection of pipelines containing two flanges, on the connecting surface of one of which an annular groove is made, and the surface of the other has an annular protrusion commensurate with the width and depth of the annular groove, a gasket in the form of a ring installed in the annular groove, and means pressing the flanges to each other, while on the surfaces of the annular protrusion and the annular groove in contact with the gasket, annular slots are made, equipped with an additional sealing metal ring, the O-ring is made of thermally expanded graphite, and an additional metal ring is installed between the flanges along their perimeter without a gap when the sealing gasket is made of thermally expanded graphite.

The utility model is illustrated in the drawing, where Fig. 1 shows a cross-sectional connection of pipelines.

The piping connection contains two flanges 1 and 2. An annular groove 4 is made on the connecting surface 3 of the flange 1, and the connecting surface 5 of the flange 2 has an annular protrusion 6. The annular protrusion 6 is made proportional to the width and depth of the annular groove 4. In the annular groove 4 of the flange 1 an annular sealing gasket 7 is installed, made of thermally expanded graphite, in particular, of GraFlex. On the surfaces in contact with the annular sealing gasket 7, annular slots are made 8. An additional sealing metal ring 9 is installed between the flanges 1 and 2 along their perimeter. The means for compressing the flanges can be, for example, in the form of a female clamp 10 with conical inner surfaces.

The connection of pipelines works as follows.

The elastic properties of GraFlex allow, when connecting flanges 1 and 2, to fill the entire space between splines 8 and to ensure high tightness of the connection. However, under high operating loads and vibrations, the destruction of the gasket 7 from GraFlex may occur. To avoid this, between the flanges 1 and 2, a metal ring 9, for example, made of steel, is installed around their perimeter, which is installed without a gap when the sealing gasket of GraFlex is compressed. This ring takes on all operational loads and acts as a compensator. In this case, a separation of functions occurs: the metal ring 9 provides strength, and the gasket 7 from GraFlex - tightness, moreover, regardless of the state of the ring splines.

This connection of pipelines has increased reliability and durability and is easy to repair, in which it is enough to replace the gasket from GraFlex and, if necessary, a metal ring.

Claims (1)

A pipeline connection containing two flanges, on the connecting surface of one of which an annular groove is made, and the surface of the other has an annular protrusion commensurate with the width and depth of the annular groove, a gasket in the form of a ring mounted in the annular groove, and means for compressing the flanges to each other, at the same time, annular slots are made on the surfaces of the annular protrusion and the annular groove in contact with the gasket, characterized in that it is provided with an additional sealing metal ring On the other hand, the sealing gasket in the form of a ring is made of thermally expanded graphite, and an additional metal ring is installed between the flanges along their perimeter without a gap when the sealing gasket is made of thermally expanded graphite.