RU2079029C1 - Movable spherical support for laying pipe lines in sleeves - Google Patents

Abstract

FIELD: laying pipe lines in sleeves. SUBSTANCE: movable spherical support has holder 1 made from circular half-ring, balls 2, rib 3, bearing strips 4 with reinforcing sector 5 of pipe line 6. Rib 3 is used for stiffening holder 1 and it is simultaneously used as stop for balls 2. Sleeve 8 is reinforced with sectors 7 at areas where balls 2 rest against it. Pipe line 6 is provided with retainers 9 which have assembly holes. EFFECT: enhanced reliability. 4 dwg

Description

 The invention relates to the field of construction of trunk and intracity pipelines of overhead laying, as well as laying them in impassable channels (sleeves) for pipes with a nominal diameter of less than 350 mm.

 A known design of a ball movable support, providing parallelism of the carriage relative to the plane of the balls, regardless of the distortions of the base of the support under the influence of thermal deformation of the pipeline / 1 /.

 The design disadvantage is the large overall dimensions that prevent its use for laying pipelines in sleeves.

 There is also known a guide for rectilinear movement, containing a cage connected to the pipe and filled with balls, which are a support for the guide, moving along them with minimal friction / 2 /.

 The design is not reliable enough, since the cage is made without reinforcement, and the inner pipe of the pipeline is not equipped with clamps that protect the cage from damage when the pipe section is rolled into the sleeve during installation.

 The ball joint for pipes with double walls / 3 /, containing a cage with a rubber-metal elastic element and a ball (cylindrical body), connected to the inner pipe of the pipeline, is also not reliable enough, since the cage is made without reinforcement and contains one ball, therefore, when using such supports in the field of construction of trunk and intracity transportation pipelines, where the axial force on the support for pipes with a nominal diameter of up to 350 mm reaches 18 kN, several would be required, which is uneconomical and labor-intensive in the manufacture. When using such supports for pipes with a nominal diameter of less than 350 mm, the design disadvantage is a rubber-metal elastic element related to systems with a given stiffness characteristic / 4 /, so there is a need to solve the additional problem of selecting the stiffness of the elastic element for a specific combination of loads. If there are several balls in the cage, then when the first ball is hit by an unevenness, the elastic element will bend downward with a bulge and wedge the middle balls.

 The closest analogue, selected as a prototype, is a ball joint for laying pipelines in sleeves, containing a pipe installed in the sleeve with clamps and a welded holder with rolling elements in contact with the sleeve / 5 /.

 The disadvantage of the design is its unlimited scope, which is expressed in the fact that for pipelines with a nominal diameter of less than 350 mm, a rectangular cage made by welding is inefficient and time-consuming to manufacture.

 In the known design of the ball movable support containing a tube installed in the sleeve with clamps and a cage with rolling elements in the form of balls in contact with the sleeve, the stop for which are plugs connected to the reinforcement sector of the conveying pipe, the cage is made of a welded, rectangular shape with ribs and welded to the gain sector.

 Comparative analysis with the prototype allows us to conclude that the inventive spherical movable support for laying pipelines in a sleeve differs in that for the purpose of supporting the pipes with a nominal diameter of less than 350 mm, the cage is made of a circular pipe half-ring, with a longitudinal rib and support strips, and the clamps are provided with mounting holes, and the stoppers for the balls can be both plugs and a longitudinal rib.

 Thus, the claimed technical solution meets the criterion of "novelty."

 An analysis of the known technical solutions in the studied area allows us to conclude that they lack features similar to the distinctive features in the inventive movable ball joint and recognize the claimed solution as meeting the criterion of "significant differences".

 In FIG. 1 shows a cross-section of a ball joint located in a sleeve. In FIG. 2 shows a longitudinal section through a ball joint. In FIG. 3 shows a view of the ball joint from below (option with plugs). In FIG. 4 shows a view of the ball joint from below (version without plugs).

 The spherical movable support contains an integral cage 1 of a circular pipe half-ring with balls 2, a longitudinal rib 3 and support strips 4 connected to the reinforcement sector 5 of the conveyor pipe 6. In the places where the ball bearings are supported on the sleeve (in the working position), the reinforcement sectors are welded to the latter 7, similar to sector 5. The number of ball bearings and their overall dimensions vary depending on the load. Spherical bearings are placed in the spaces between the clamps 9, which are installed along the edges and in the middle of the pipeline passing in the sleeve 8, and the clamps are made with mounting holes in the longitudinal rib located with mounting holes in the longitudinal rib located between the transverse ribs of the clamp. The clip can be performed with or without plugs 10.

 The conveying pipe of the pipeline 6 is thermally insulated 11 in order to increase the corrosion resistance of the ball bearings by lowering the temperature in the sleeve (in the case of transporting the product with elevated temperature).

 When laying it in the sleeve, the pipeline section is arranged in the form of a U-shaped compensator, in which the sleeve is located, and the outreach depends on the size of the portal chambers and should allow unhindered rolling out of the pipeline section from the sleeve when it is being repaired to a previously prepared site located along the axis of the sleeve.

 Thus, ball bearings are additionally included in the work during the installation of the pipeline, as well as during its repair or reconstruction.

Claims (1)

 A movable spherical support for laying a pipeline in a sleeve, comprising a pipe installed in the sleeve with clamps and a clip with rolling elements in the form of balls contacting the sleeve, the stoppers of which are plugs connected to the transport pipe reinforcement sector, characterized in that the clip is made of a circular half ring pipes with a longitudinal rib and support strips, and the clamps are provided with mounting holes, and both plugs and a longitudinal rib can serve as a stop for balls.

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