RU2190794C2 - Device for fastening pipe passing through wall - Google Patents

Abstract

FIELD: nuclear power engineering. SUBSTANCE: invention relates to construction of nuclear power objects being designed for fastening pipes in passages without clamping of pipes at displacements caused by temperature fluctuations. Bushing with flanges on end faces is installed with clearance on pipe, and bushing holders are secured in wall. Inner surface of bushing used to support pipe is made to shape of hyperbola, and holders are made in form of plates with arch-shaped cutouts. With edges of plates aligned, cutouts form round whose diameter corresponds to mean diameter of flange. EFFECT: improved reliability of pipeline. 3 dwg

Description

 The invention relates to the field of nuclear energy and is intended for pipelines crossing the safety system of building structures with the requirement that there are no restrictions on the movement of pipelines relative to building structures within certain limits without transferring additional loads to pipelines and building structures.

 There are known penetrations for crossing pipelines of building structures, made in the form of one or two flat rings, welded on one side to the pipeline directly or through an adapter flange, and on the other hand to building structures. At the same time, density requirements or requirements for limited leaks may or may not be presented to said penetration. The specified design of penetration limits or eliminates the possibility of movement of the pipeline in the place of welding of the flanges to the pipeline [1].

 Also known are penetrations with the use of annular compensators providing density of the joint. However, annular compensators partially limit the movement of the pipeline along its axis and limit across the axis [2].

 This construction design differs from the known ones in that it does not create restrictions on the movement of the pipeline in any direction.

 The closest technical solution to the proposed one is a device for fastening a pipe passing through a wall, containing a sleeve with flanges at the ends coaxially mounted with a clearance on the pipe and wall holders for the sleeve located between the flanges [3].

 The purpose of the present invention is to prevent restrictions on the movement of the heated pipe passing through the wall, while ensuring the necessary density of the connection.

 This goal is achieved by the fact that in the device for fastening pipes passing through the walls, containing a sleeve with flanges at the ends coaxially mounted with a gap on the pipe and wall-mounted sleeve holders located between the flanges, new is that the inner surface of the sleeve is made according to the shape of a hyperbola, and the holders are transversely mounted plates with an arcuate cut so that when the edges of the plates are aligned, the arcuate cuts form a round hole whose diameter corresponds to the average diameter of the flanges.

 The implementation of the contact surface of the sleeve with the pipe wall in the form of a hyperbola and the location of the retaining plates between the flanges with a gap allows the pipe to move in different directions.

This construction design is illustrated by drawings, where:
figure 1 shows a view of the penetration across the pipe,
figure 2 is a sectional sinking along the axis of the pipeline,
figure 3 is a view of the penetration along the pipe.

 A device for fastening a pipe passing through a wall consists of a sleeve 1 with flanges 2 at the ends. The sleeve 1 is transversely mounted in the wall 3 by means of holders located between the flanges 2.

 The holders are plates 4 fixed in the wall with arcuate notches 5, while the edges of the plates are aligned so that the arcuate notches form a circular hole. The diameter of the round hole should correspond to the average diameter of the flanges 2 in order to form a compensating gap.

 The inner surface 6 of the sleeve 1 is made in the form of a hyperbole, the minimum diameter of which corresponds to the diameter of the pipe 7 or exceeds it by an acceptable value. The distance between the flanges 2 is selected based on the thickness of the holder plates 4 and the compensation clearance.

 A device for mounting a pipe passing through a wall is mounted as follows. The pipe 7 is inserted into the opening of the wall 3 and the sleeve 1 is coaxially mounted on it. Then the holder plates 4 are placed between the flanges 2 of the sleeve 1, the edges of the plates are combined with each other to form an opening from the arcuate cutouts and the holder plates are fixed to the wall 3.

 In the process of operation of the power plant, the pipe 7 heats up and begins to move in the wall 3. Axial movement occurs due to the compensation of the gaps formed between the inner surfaces of the flanges 2 and the plates 4, as well as due to the sliding of the pipe 7 through the hyperboloid inner surface 6 of the sleeve 1.

 The transverse movement occurs due to the choice of the gap between the edges of the arcuate cuts 5 of the plates 4 and the outer surface of the sleeve 1. The rotary movement of the pipe 7 is facilitated by rolling the convexity around the hyperboloid shaped inner surface 6 of the sleeve 1.

 The technical and economic effect consists in the fact that additional impacts on the pipeline and building structures that occur when using known penetrations are eliminated, which reduces the consumption of materials for these structures and improves the reliability of the device.

Sources of information
1. Drawing of penetration 2, Iran 1976

 2. Drawing of penetration 3, Iran 1976

 3. Patent GDR 132808, MKI F 16 L 5/00, 09.09.77 - (prototype).

Claims (1)

 A device for fastening pipes passing through walls, comprising a sleeve with flanges at the ends coaxially mounted with a gap on the pipe and wall-mounted sleeve holders located between the flanges, characterized in that the inner pipe is used to reduce temperature stresses on the pipe section located in the wall the surface of the sleeve is made in the shape of a hyperbola, and the holders are plates transversely mounted transverse to the pipe with an arcuate notch so that when the edges of the arcs of the plates are aligned together Other cutouts form a circular hole, the diameter of which corresponds to the average diameter of the flange.

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