RU44685U1 - LONG-SPAN JOINT PIPELINE TRANSITION - Google Patents

Abstract

The utility model relates to the construction of pipelines and can be used to strengthen and increase the strength of above-ground trunk pipelines at crossings over obstacles that limit the choice of locations for supports of an above-ground pipeline, as well as with an increase in the length of the span to be blocked. The long-span passage of the overhead pipeline contains pre-constructed supports, the distance between which determines the span, the pipeline and the pipeline carrying the structure, fixed by the ends on the supports and made in the form of a protective casing made of a pipe or several pipes of equal diameter, joined and rigidly connected by the pipe ends , the inner diameter of which is larger than the diameter of the outer surface of the pipeline, which is laid inside the protective casing by its longitudinal movement along the morning surface of the protective casing installed in the design position and fixed on the supports. The pipeline may be lined externally with wooden battens for protection against damage, or with an external heat-insulating coating protected from damage by the lining on the outside with wood battens, while the outer surface of the pipeline is its outer surface formed by wooden battens. The utility model provides a simplification of the design of the long-span transition of the elevated pipeline and a reduction in the complexity and time of construction and installation works during its construction and repair, as well as an increase in the operational reliability of the elevated pipeline at the sections of crossings over the barriers.

Description

The utility model relates to the construction of pipelines and can be used to strengthen and increase the strength of above-ground trunk pipelines at sections of crossings over artificial or natural obstacles, for example, structures, canals, ponds and watercourses, ravines, etc., restricting the choice of location of overhead supports the pipeline, as well as with an increase in the length of the span to be blocked.

The organization of transitions of elevated pipelines through permanent and temporary water bodies and streams is an urgent problem in the field of construction and operation of pipelines, taking into account such requirements as reliability, efficiency and accessibility for inspection and repair. The difficulty to ensure the stability of overhead pipelines at the crossings of water barriers can be the insufficient strength of the soils of the footings of the supports, as well as the possibility of developing such natural processes as the reformation of the channel of the watercourse, ice drift, high water, frosty heaving of soils, etc.

There are various technical solutions that allow you to increase the distance between the supports of the pipeline, thereby reducing or reducing to zero the number of supports falling on adverse sections.

A large group consists of suspended structures for transitions of elevated pipelines through obstacles. For example, known:

- a suspension device for an elevated pipeline, containing pylons, a supporting rope resting on them, connected to it via lanyards supporting a suspension pipeline from rods, each suspension made of a closed bar of high-ductility steel and

equipped with two spiral coils, the turns of which are located in perpendicular planes, while one coiling covers the pipeline and the other - suspension traction (patent RU 2059916 C1, IPC F 16 L 3/08, published on 05/10/1996);

- a suspended single-span cable junction containing coastal supports, a bearing cable, pendants, anchors and a working pipe, with one end of the bearing cable fixed to the dead load and a counterweight attached to the anchor with a flexible extension (certificate for utility model RU 18433 U1, IPC F 16 L 3/00, published on 06/20/2001);

- a pipeline passage, including a pipeline, supports, rod-supporting systems supporting the pipeline, each of which is placed between the support and the pipeline and is made in the form of V-shaped in the longitudinal and inclined directions of the lower belts transverse relative to the axis of the pipeline, pivotally fixed to the support, the ends of which connected by upper belts, and longitudinally movable supporting parts located at the junction of the belts of the rod systems, the ends of the lower belts of each rod system being spaced across in the direction relative to the axis of the pipeline, they are interconnected by crossbars and are equipped with additional pivots, which are extensions of the lower belts, rods converging above the pipeline and connected to it in these nodes by vertical suspensions and inclined braces, while the supporting parts are placed on the crossbars (copyright certificate SU 1730328 A1, IPC E 01 D 17/00, published on 04/30/1992).

The disadvantages of overhead overhead pipelines over obstacles are the complexity of their design, the complexity of construction and installation works during construction and repair, and the low

reliability during operation, requiring constant monitoring of the state of elements of suspended structures.

There are also known designs of transitions of elevated pipelines through obstacles, which provide for strengthening the pipeline and increasing the length of the span to be blocked by the cantilever development of supports along the pipeline, for example:

- a device for enhancing a pipeline passage, including supporting elements and beams, the longitudinal axes of which are parallel to the axes of the above-ground section and the coastal sections of the transition, and the supporting elements are made in the form of foundations located on the banks of the obstacle outside the prism of the collapse of the shores, and the beams that they themselves are reinforced with vertical trusses, placed on foundations with the formation of cantilever overhangs above the coastal and elevated sections of the pipeline, while the cantilever overhangs are medium units of rods and crossbars are connected, respectively, with onshore and elevated sections of the pipeline (patent RU 2150548 C1, IPC E 01 D 18/00, 1/00, F 16 L 3/10, 3/16, published on 10.06.2000);

- a single-span cantilever-anchor junction containing coastal supports, anchors and two casings cantilevered on the supports, and the length of the inner consoles of the casings relative to the support exceeds the length of the outer consoles, the ends of which are fixed by anchors, while the pipeline is passed through the casings and freely lies in them ( patent RU 2191946 C2, IPC F 16 L 1/024, published on 10.27.2002);

- a pipeline passage containing a pipeline supported by supports and having reinforcing elements in the abutment points, each of which is made in the form of a balancer of two rod isosceles triangles, the planes of which are inclined, the vertices are connected by an upper belt on which additional longitudinally movable sliding supports are placed the pipeline, and the bases are fixed pivotally-fixed on supports with a swing axis,

perpendicular to the pipeline (copyright certificate SU 1288426 A1, IPC F 16 L 1/00, published on 02/07/1987).

Such transitions of elevated pipelines with cantilever supports have a less complicated design, are less labor-intensive during construction and repair, and are more reliable in operation than suspended transitions of elevated pipelines through obstacles, but they do not significantly increase the length of the span to be blocked.

Pipeline bridges of various designs are also known, for example, a pipeline bridge that includes supports and a stiffener beam with traverses installed on them for placing pipelines, and the stiffener beam is made of a team of reinforced concrete cylindrical shells having cross-section reinforcing sections in abutment zones and in the points of abutment support in the form of a hollow tetrahedron, in the side walls of which holes for traverses are made (copyright certificate SU 855111 A, IPC E 01 D 17/00, published on 08.25.1981).

The disadvantages of this pipeline bridge are a significant increase in the material consumption of its reinforced concrete structures with an increase in the length of the span to be blocked, which reduces the cost-effectiveness of such an overhead pipeline passage.

The closest analogue of the proposed utility model in technical essence is the long-span overhead pipeline transition containing pre-constructed supports, the distance between which determines the span, pipeline and pipeline carrying the longitudinal structure fixed by the ends on the supports (copyright certificate SU 983170 A, IPC E 01 D 11 / 00 published December 23, 1982).

In this known pipeline passage, the supporting structure, on which the pipeline is laid, contains horizontally positioned prestressed ropes fixed with ends in anchor supports, supporting cross members for the pipeline and fastening elements to them

ropes, and the ropes are arranged in two tiers, and the supporting cross members are placed between the ropes of both tiers, while the fastening elements of the supporting cross members are made in the form of connecting pins and having through holes for connecting pins of sidewalks and fixing plates located on both sides of the pipeline, respectively, on the ropes of the upper tier and under the ropes of the lower tier of the supporting structure.

The disadvantages of the closest analogue are the complexity of the design of such a long span overhead pipeline passage, the complexity of construction and installation work during its construction and repair, and low reliability during operation, requiring constant monitoring of the state of prestressed ropes of the supporting structure.

The objective of this utility model is to simplify the design of the long-span transition of an overhead pipeline and reduce the complexity and time of construction and installation works during its construction and repair, as well as ensure the operational reliability of an overhead pipeline at sections of crossings over obstacles.

The solution to this problem is achieved by the fact that in the long-span passage of the elevated pipeline containing pre-constructed supports, the distance between which determines the span, pipeline and the supporting pipeline is a longitudinal structure fixed by the ends on the supports, according to a utility model, the longitudinal pipeline carrying the design is made in the form of a protective casing made of a pipe or several pipes of equal diameter, joined and rigidly connected by pipe ends, the inner diameter of which is greater than and the diameter of the external surface of the pipeline, which is laid inside the protective casing by its longitudinal movement along the inner surface of the protective casing, installed in the design position and fixed on the supports.

The pipeline may be lined externally with wooden battens to protect against damage, while the outer surface of the pipeline is its outer surface formed by wooden battens.

The pipeline can be made with an external heat-insulating coating protected from damage by lining the outside with wooden battens, while the external surface of the pipeline is its outer surface formed by wooden battens.

The essence of the utility model is illustrated by drawings, where Fig. 1 shows a long-span transition of an elevated pipeline, general view; figure 2 is the same, cross section (enlarged).

The long-span passage of an elevated pipeline 1, for example, through a water barrier 2 with a channel 3, contains supports 5 pre-constructed on the banks of the 4 water barrier 2, the distance between which determines the span, pipeline 1 and the supporting pipeline 1, a longitudinal structure fixed by the ends to the supports 5. Bearing pipeline 1, the longitudinal construction is made in the form of a protective casing 6 made of a pipe or several pipes of equal diameter, joined and rigidly connected by pipe ends, the inner diameter of which is greater than ametra outer surface of the pipeline 1. The protection cap B informs additional stiffness transition structure and increases the strength dlinnoproletnogo transition overground pipeline 1 via a water barrier 2, but also protects the pipeline 1 from direct exposure to wind and snow loads and reduces the impact on air it changes in temperature. The pipeline 1 is laid inside the protective casing 6 by longitudinally moving it along the inner surface of the protective casing 6, installed in the design position and fixed on the supports 5.

The pipeline 1 can be made with lining on the outside with wooden battens 7 to protect against damage, while external

the surface of the pipeline 1 is its outer surface formed by wooden slats 7.

The pipeline 1 can be made with an external heat-insulating coating 8, protected from damage by lining the outside with wooden rails 7, while the outer surface of the pipeline 1 is its outer surface formed by wooden rails 7.

The technical result provided by this utility model is:

- the possibility of laying the pipeline through natural and artificial barriers with an increased span between supports that exceeds the permissible span, calculated on the basis of the mechanical strength of the material of the pipeline itself;

- reducing the timelines for laying the pipeline through obstacles and the volume of construction and installation works;

- protection of the pipeline from the direct effects of wind and snow loads, as well as reducing the influence of temperature extremes;

- greater operational reliability of the pipeline at the crossing section due to the location of supports in places with more favorable soil conditions.

Claims (3)

1. Long-span passage of an elevated pipeline containing pre-constructed supports, the distance between which determines the span, the pipeline and the pipeline carrying the longitudinal structure, fixed by the ends on the columns, characterized in that the longitudinal pipeline carrying the structure is made in the form of a protective casing made of a pipe or several equal in diameter, joined and rigidly connected by the ends of the pipes, the inner diameter of which is greater than the diameter of the outer surface of the pipeline, which ene inside the protective housing by means of its longitudinal movement along the inner surface of the protective casing installed in the design position and fixed in the supports. 2. The transition according to claim 1, characterized in that the pipeline is lined externally with wooden rails to protect against damage, while the outer surface of the pipeline is its outer surface formed by wooden rails. 3. The transition according to claim 1, characterized in that the pipeline is made with an external heat-insulating coating protected from damage by lining the outside with wooden battens, while the external surface of the pipeline is its outer surface formed by wooden battens.