RU203290U1 - Support for above-ground pipelines in seismically hazardous areas - Google Patents

Abstract

The utility model relates to the field of construction of elevated pipelines in seismically hazardous areas. The objective of this utility model is to ensure the reliability and functionality of the structure of supports for above-ground laying of pipelines during operation in zones of seismic activity. This problem is solved, and the technical result is achieved by the fact that, in accordance with the claimed technical solution, the support for above-ground laying of pipelines in zones of seismic activity consists of a platform fixed on two piles through damping devices with a movable hemisphere inside itself. The foot of the support is installed on the movable hemisphere, which, with the help of hinges that ensure the rotational movement of the pipeline, is connected to the cradle with half-couplings. The technical result consists in providing the possibility of displacement of the pipeline in the longitudinal, transverse, vertical, horizontal directions without violating the integrity of the pipeline structure.

Description

The utility model relates to the field of construction of elevated pipelines in seismically hazardous areas.

Known freely movable support of the pipeline (RF Patent 120181, publ. 09/10/2012, IPC: F16L 3/18), including a cradle with clamps, to which is attached a stand installed in the hinges of the base plate of the cradle and clamps. The stand consists of a movable and a fixed part. The fixed part is directed along the pipeline axis and is a swinging girder that is hinged in the transverse and longitudinal direction relative to the pipeline axis. In this case, the runner slides over the girder surface when the pipeline moves. The movable part, in turn, includes a cradle, which is connected by means of adjusting screws to the skid.

Structural complexity and laboriousness in manufacturing are the main disadvantages of this design.

Also known is a support for an inclined pipeline (RF Patent 128274, publ. 05/20/2013, IPC: F16L 3/18), containing a half-coupler covering the pipeline, a base plate and a stand, which are movably connected to each other, and a lodgement, which is mounted on a stand body.

The inclined arrangement of the sliding surface of the support and the inability to operate in areas of permafrost are the main disadvantages of this design. This is due to the fact that during the operation of an inclined pipeline, the load on the pipeline increases. It is also worth noting that the absence of limiters for the movement of the support creates certain risks during operation.

The closest to the proposed utility model in technical essence is an anchor support for overground pipeline laying (US Patent US4140292A, publ. 20.02.1979, IPC: F16L3 / 16).

The support is a structure consisting of four vertical support elements rigidly fixed to each other by transverse brackets; a support assembly mounted above the transverse brackets on vertical support elements and including a support frame and a movable assembly carrying a self-adjusting hemispherical connection. The upper extension of the cylindrical shape of the hemispherical element is attached to the lower half of the pipe clamp, within which the pipeline is located. This design fixes the position of the pipeline relative to the ground, but also allows for relative movement between the support and the pipeline in the event of seismic activity or other disturbance that could cause the pipeline and anchor support to move from its nominal position.

However, this support does not allow horizontal lateral displacement of the pipeline.

The objective of this utility model is to ensure the reliability and functionality of the structure of supports for above-ground laying of pipelines during operation in zones of seismic activity.

The technical result consists in providing the possibility of displacement of the pipeline in the transverse, vertical, horizontal directions without violating the integrity of the pipeline structure.

The specified problem is solved, and the technical result is achieved by the fact that, in accordance with the claimed technical solution, the support for above-ground laying of pipelines in zones of seismic activity consists of a platform fixed on four piles, the platform is fixed through damping devices, there is a movable hemisphere inside the platform, hinged joints are installed on hemisphere and cradles, in which the pipeline is installed and secured with clamps.

The technical essence of the utility model is illustrated by the following drawings: FIG. 1 is a view of a support for overhead laying along the axis of the pipeline; fig. 2 - view of the support for overhead laying across the axis of the pipeline, where

1.pipeline;

2. fastening clamp;

3. articulated joint;

4. movable hemisphere;

5. playground;

6. damper device;

7.pile.

The support for above-ground laying of pipelines in zones of seismic activity (Fig. 1) consists of a platform (5) fixed on four piles (7), which is a "foundation" in which there is a movable hemisphere (4), which provides free movement of the pipeline (1 ) inside the site. Damping devices (6) are installed between the piles (7) and the platform (5), which damp various vibrations and displacements of the soil due to the seismic activity of the area. On the movable hemisphere (4) there is a support base with articulated joints (3), which provide the rotational movement of the pipeline (1). The pipeline (1) is installed on special cradles and fixed with fastening clamps (2).

The practical implementation of the presented support is possible in areas with high seismic activity. This support will ensure the safety of the pipeline structure and reduce the number of emergency situations leading to a violation of the environmental stability of the adjacent territories.

Claims (1)

A support for above-ground laying of pipelines in zones of seismic activity, consisting of a platform fixed on four piles, characterized in that the platform is fixed through damping devices, there is a movable hemisphere inside the platform, hinged joints are installed on the hemisphere and cradles, in which the pipeline is installed and secured with clamps.

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