RU90521U1 - RING CONCRETE LOADER - Google Patents

Abstract

1. An annular concrete weighting agent, comprising two sections connected along a gap of lengthwise adjustable coupling elements in the form of half rings in their cross section, the inner surface of the pipe facing which has the shape of a cylindrical surface, and the external convex surface of each section has an arcuate curve in longitudinal section connecting the end sides of the weighting agent, moreover, to accommodate the coupling elements, openings are made open from the outer surface of at least one section of the niche with coaxial channels in which the coupling elements are preferably placed flush with the outer surface of the section. ! 2. The annular concrete weighting compound according to claim 1, characterized in that the inner surface of the sections facing the pipe has a diameter greater than the diameter of the pipeline, at least by the thickness of the means for protecting its surface located on the pipeline, made, for example, of a polymeric material. ! 3. The annular concrete weighting compound according to claim 2, characterized in that the gap between the sections at the junction of the coupling elements exceeds the gap between the pipe and the inner surface of each section. ! 4. The annular concrete weighting compound according to claim 1, characterized in that the diameter of each of the end sides is not less than half the maximum diameter of the weighting section along its outer surface, and the length of the section exceeds the maximum diameter of the weighting section.

Description

The proposed technical solution relates to the field of means used during construction or repair for ballasting of pipelines located in trenches and ensuring their design position during operation, including in flooded soils.

Known sectional concrete weighting agent containing concrete pipes located around the perimeter and interconnected by flexible bonds in the form of reinforcing bars (SU No. 1283485 A1, F16L 1/02, 1987).

The known design of the concrete weighting agent does not provide proper functioning during axial operational displacements (for example, temperature), since it has a sufficiently large resistance to its movement in the ground. As a result, the movement of the pipeline in the ground is carried out relative to the concrete weighting agent, which inevitably leads to damage to the insulation of the pipeline, a decrease in its life and the possibility of creating an emergency at the site of damage.

The technical task is to create a concrete weighting agent, which makes it possible to operate the pipeline without damaging its insulation during axial movements of the pipeline.

This is achieved by the fact that the annular concrete weighting compound contains two sections that are connected with a gap between each other and are adjustable along the length of the coupling elements in the shape of half rings in their cross section, whose inner surface facing the pipe has the shape of a cylindrical surface, and the outer convex surface of each section has a longitudinal the cross section is an arcuate curve connecting the end sides of the weighting agent, moreover, to accommodate the clamping elements, sections of niches open from the outer surface are made and with coaxial channels in which the coupling elements are arranged preferably flush with the outer surface of the section. In this case, the inner surface of the sections facing the pipe has a diameter exceeding the diameter of the pipeline, at least by the thickness of the means for protecting its surface located on the pipeline, made, for example, of polymeric material. And the gap between the sections in the place of their connection by the coupling elements exceeds the gap between the pipe and the inner surface of each section. In addition, the diameter of each of the end sides is not less than half the maximum diameter of the weighting section along its outer surface, and the length of the section exceeds the maximum diameter of the weighting section.

Figure 1 presents a General view of the annular concrete weighting agent in longitudinal section at the place of installation on the pipe;

Figure 2 is a transverse section of the annular concrete weighting agent in a longitudinal section at the place of installation on the pipe.

An annular concrete weighting agent contains two sections 1 and 2 in the shape of half rings in their cross section, made of concrete of class B 12.5-22.5 with a bulk density of at least 2300 kg / m ³ . In this case, the mass of such a weighting agent will be (depending on the diameter of the pipe pipe on which it is installed) - from 1.0 to 8.5 tons. Sections 1 and 2 are connected to each other with a gap b, length-wise clamping elements 3 made in the form of bolts or studs with nuts or in the form of wire twists. The inner surface of the sections 1 and 2 facing the pipe has the shape of a cylindrical surface 4, and the outer convex surface of each section has a curved curve 5 in longitudinal section connecting the end faces 6 and 7 of the weighting agent. To accommodate the coupling elements 3, sections of a niche 8 with coaxial channels open from the outer surface of at least one are made, in which the coupling elements are preferably placed flush with the outer surface of the section (see FIG. 2). The inner surface of the sections facing the pipe has a diameter exceeding the diameter of the pipeline, at least by the thickness of the means for protecting its surface located on the pipeline, made, for example, of polymeric material. This is due to the provision at these parameters of the maximum possible effect of using ballast with the minimum possible resistance to various types of soil with axial displacement, for example, due to a change in its length under the influence of temperature. The size of the gap b between the sections 1 and 2 at the place of their connection by the tie elements 3 exceeds the size of the gap e between the pipe and the inner surface of each section. This ensures guaranteed prevention of the displacement of sections 1 and 2 in their fixed position relative to the pipe during its axial movement. In addition, the diameter of each of the end sides is not less than half the maximum diameter of the weighting section along its outer surface, and the length of the section exceeds the maximum diameter of the weighting section. This ensures the stability of the concrete weighting agent with longitudinal axial movement of the pipe while maintaining its main purpose, as a means of ballasting the pipeline.

This design of an annular concrete weighting agent makes it possible to effectively use it when laying and reconstructing pipelines in various types of soils in trenches, in flooded spaces, including in swamps.

Claims (4)

1. An annular concrete weighting agent comprising two sections connected along a gap of length-adjustable coupling elements in the shape of half rings in their cross section, the inner surface of the pipe facing them having the shape of a cylindrical surface, and the external convex surface of each section having an arcuate curve in longitudinal section connecting the end sides of the weighting agent, moreover, to accommodate the coupling elements, openings are made open from the outer surface of at least one section of the niche with coaxial channels in which the coupling elements are preferably placed flush with the outer surface of the section. 2. The annular concrete weighting compound according to claim 1, characterized in that the inner surface of the sections facing the pipe has a diameter greater than the diameter of the pipeline, at least by the thickness of the means for protecting its surface located on the pipeline, made, for example, of a polymeric material. 3. The annular concrete weighting compound according to claim 2, characterized in that the gap between the sections at the junction of the coupling elements exceeds the gap between the pipe and the inner surface of each section. 4. The annular concrete weighting compound according to claim 1, characterized in that the diameter of each of the end sides is not less than half the maximum diameter of the weighting section along its outer surface, and the length of the section exceeds the maximum diameter of the weighting section.