RU152725U1 - INVENTORY SUPPORT "QUADRO" - Google Patents

Abstract

1. Inventory support for the pipeline, made in the form of a hollow thin-walled body of polymer material with a lateral surface in the form of a pyramid tapering upward, truncated in its upper part by a cylindrical surface, the radius of which is not less than the radius of the pipeline pipe laid on it, forming the upper cylindrical supporting surface, divided into symmetrical parts located through its generatrix through the rib concave in the direction of the base of the support and arranged in plan perpendicular to it concave inward about pores by ribs, and the longitudinal axis of the first of the said ribs and second ribs do not lie in the same plane. 2. An inventory support for the pipeline according to claim 1, characterized in that the base of the pyramid is formed by a regular polygon. 3. Inventory support for the pipeline according to claim 2, characterized in that the base of the pyramid is formed by a square. 4. An inventory support for a pipeline according to claim 1, characterized in that the ribs have a trapezoidal shape in cross section. An inventory support for the pipeline according to claim 4, characterized in that the ribs have a longitudinal inclination from the central part of the support. 6. An inventory support for the pipeline according to claim 1, characterized in that the through rib located along the generatrix concave in the direction of the base of the support is made in the shape of an arch. An inventory support for the pipeline according to claim 1, characterized in that technological cuts are made on the supporting surface. An inventory support for a pipeline according to claim 1, characterized in that a polymer based on polyethylene is used as the polymer material of the support. Inventory support for the pipeline according to claim 1, exl.

Description

Inventory support refers to devices that are stands used during the inspection.

the structures installed on them, the production of welding or installation works with long cylindrical structures and may find application in the laying or repair of sections of trunk pipelines, in particular, a gas pipeline.

Of the known closest in technical essence is the inventory support of the pipeline, made of a polymeric material, containing an external support wall, mainly of tubular shape, having a lower part for fixing on the surface and supporting the pipeline upper part, an internal support wall, which retreats inward from the external support walls and having, basically, the shape of a truncated cone, with a lower part for fixing on the surface and supporting the pipeline upper part, and a connecting section for sub holding the outer support wall and the inner support wall in a fixed, spaced apart from one another mutual position (RF application No. 2013126213 for an invention with a priority of July 27, 2010).

The disadvantages of the known support are the technological complexity of the manufacturing process due to its developed three-dimensional central part, which is an additional support, as well as a low margin of safety in relation to emergency (dynamic, shear loads), since, as a rule, the support is calculated on the perception of normal forces, but can deform and collapse when shear, tangential forces occur.

Utility Model Disclosure

The objective of the claimed utility model is to create a support for the pipeline with a technologically simple design, providing a high margin of stability in relation to emergency, including shear loads.

The technical result is to increase the strength characteristics, providing, inter alia, a margin of stability with respect to possible increased, dynamic, shear, emergency loads.

The claimed technical result is achieved due to the fact that the inventory support for the pipeline is made in the form of a hollow thin-walled body of polymer material with a lateral surface in the form of a pyramid tapering upward, truncated in its upper part by a cylindrical surface whose radius is not less than the radius of the pipe placed on it, forming the upper cylindrical support, divided into symmetrical parts located through its generatrix through the rib concave in the direction of the base of the support and located in the plan perpendicular to it with ribs concave inward of the support, and the longitudinal axes of the first of said ribs and second ribs do not lie in the same plane. At the same time, the base of the pyramid is formed by a regular polygon, for example, a square. It is preferable that the ribs have a trapezoidal shape in cross section, and also in the longitudinal direction, a slope from the central part of the support. The through rib located concave along the generatrix concave in the direction of the base of the support can be made in the shape of an arch. Technological cuts can be made on the supporting surface. As the polymeric material of the support, a polymer based on polyethylene or polypropylene is used, while it is advisable to reinforce the polymeric material. In addition, these ribs are located in the plan with the possibility of fixing in them the ribs mounted on top of additional inventory support.

The causal relationship of the above signs of inventory support with the technical result is due to the orientation of each sign of an independent item to ensure the improvement of strength characteristics:

- the implementation of the support hollow and thin-walled of a polymeric material (in the form of a shell) allows you to optimize its shape with the distribution of the existing loads throughout the structure, which increases the strength of the support;

- truncation in the upper part of the cylindrical surface, the radius of which is not less than the radius of the stacked pipe of the pipeline allows you to organize the optimal spot of contact with the pipe, allowing you to transfer the load in the form of evenly distributed;

- the formation of the upper cylindrical supporting surface with symmetrical supporting surfaces located symmetrically with respect to the longitudinal axis and combining them with a centrally located portion of the cylindrical surface allows strengthening the thin-walled support body directly in the zone of perception of the acting loads due to the increased stiffness at the transition point from the centrally located solid portion of the cylindrical surface, providing estimated contact pressure with lateral overhnosti, thereby eliminating the occurrence of stress concentration zones;

- the implementation of the ribs with its location in a plane parallel to the longitudinal axis of the pipe being laid, is ellipsoid in its longitudinal section by a vertical plane and its conjugation with the said centrally located portion of the cylindrical supporting surface leads to an increase in its geometric parameters with respect to other ribs due to such a shape.

Brief Description of the Drawings

In FIG. 1 shows a view (volumetric) of a pipeline support;

In FIG. 2 - shows a view (volumetric) of three pipeline supports assembled in a package;

In FIG. 3 is a top view of a pipeline support;

FIG. 4 is a section along BB in FIG. 3 (rotated);

In FIG. 5 - remote element A;

In FIG. 6 is a section along BB in FIG. 3;

In FIG. 7 is a side view assembled in a package of three pipeline supports;

In FIG. 8 is a side view assembled in a package of three pipeline supports;

Utility Model Implementation

Inventory support is made of polymer material by casting technology in special molds or by hot stamping. The inventory support is a thin-walled shell reinforced by a longitudinal stiffener and designed in such a way that, due to possible bending deformation along the rib, the formation of a gap in the vicinity of the lower generatrix of the pipe in the area of contact interaction of the gas pipeline surface and the supporting surface of the PP is eliminated. Moreover, it is accepted that the shell is a body in which one of the dimensions (thickness) is significantly less than the other two.

The support has three main surfaces: the outer surface is the support beam 1, the ground contact surface 2 and the surface 3 receiving the load from the pipeline. The surface 3 has a concave saddle shape with a concavity radius determined from the condition of gapless coupling with the surface of the pipeline, which eliminates the displacement of the support from its mounting position. On the upper surface 3, longitudinal grooves 4 are made, which, forming an ellipsoid rib in its longitudinal section with a vertical plane, are designed to fix the same supporting stiffener installed on top of the additional support if it is necessary to increase the height of the support. On the surface 3 of the support, technological cuts 5 are made — holes, which can reduce adhesion to the surface of the pipe being laid and eliminate the possibility of abrasive damage to the insulation by soil that has fallen on the support due to spilling into the cuts. The ribs are formed by recesses, preferably trapezoidal (or oval) in cross section from the side of the outer surface of the support.

The height of the pipe from the supporting surface of the inventory support is about 900 mm. The permissible axial load is not less than 316000 N, the compressive strength is not less than 120 MPa, the tensile strength is not less than 120 MPa, the density of the pillow material is not more than 930 kg / m3 with a mass of not more than 32 kg. In the manufacture of possible application of a reinforcing material, which can be applied in layers with different orientations of the fibers of the material from layer to layer. The support has two positions: transport and working. The transport position allows you to set several supports of each other due to the coincidence of the bearing support ribs with the longitudinal groove of each support. In this position, compact transportation of the package of supports to the object of repair and laying of the main pipeline is ensured. This allows you to achieve the required support height when performing installation work at the facilities for repair and laying of the main pipeline. The claimed design of the support allows you to achieve high values of safety margin under emergency loads, possible with pulsation modes of transportation of the product through the pipeline.

The description of the design of the inventory support for the pipeline presented in this application covers only its preferred implementation and should not be used as information limiting other implementations of the claimed device, which should be obvious to a person skilled in the art.

Claims (11)

1. Inventory support for the pipeline, made in the form of a hollow thin-walled body of polymer material with a lateral surface in the form of a pyramid tapering upward, truncated in its upper part by a cylindrical surface, the radius of which is not less than the radius of the pipeline pipe laid on it, forming the upper cylindrical supporting surface, divided into symmetrical parts located through its generatrix through the rib concave in the direction of the base of the support and arranged in plan perpendicular to it concave inward about pores by ribs, and the longitudinal axis of the first of the mentioned ribs and second ribs do not lie in the same plane. 2. Inventory support for the pipeline according to claim 1, characterized in that the base of the pyramid is formed by a regular polygon. 3. Inventory support for the pipeline according to claim 2, characterized in that the base of the pyramid is formed by a square. 4. Inventory support for the pipeline according to claim 1, characterized in that the ribs have a trapezoidal shape in cross section. 5. Inventory support for the pipeline according to claim 4, characterized in that the ribs have a longitudinal inclination from the central part of the support. 6. Inventory support for the pipeline according to claim 1, characterized in that the through rib located along the generatrix concave in the direction of the base of the support is made in the shape of an arch. 7. Inventory support for the pipeline according to claim 1, characterized in that technological cuts are made on the supporting surface. 8. Inventory support for the pipeline according to claim 1, characterized in that a polymer based on polyethylene is used as the polymer material of the support. 9. Inventory support for the pipeline according to claim 1, characterized in that a polymer based on polypropylene is used as the polymer material of the support. 10. Inventory support for the pipeline according to claim 8 or 9, characterized in that the polymer material is reinforced. 11. Inventory support for the pipeline according to claim 1, characterized in that the said ribs are arranged in plan with the possibility of fixing in them an additional inventory support mounted on top of the ribs.

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