RU111232U1 - PCBU-MK POLYMERCONTAINING BALLASTING DEVICE FOR BALLASTING OF MAIN PIPELINES (OPTIONS) - Google Patents

Abstract

 1. The PCBU-MK polymer container ballasting device for ballasting pipelines, in which two containers filled with ballasting material are made of a single panel of polymer technical fabric, with the possibility of placing them on both sides of the pipeline and placing a single panel with their middle zone on the pipeline, each of the tanks equipped with end partitions and stiffening frames of rigidity, the outer longitudinal sides - the runs of each specified frame are placed in the eyes, which are supplied these are the corresponding edges of a single panel, the inner run of each specified frame passes under a single panel outside the tank and each end of the internal run is placed in the corresponding eye, which is equipped with each edge of the lower power belts, superimposed on top of a single cloth, while the middle zones of the lower power belts and a single the panels are fastened to each other, for example, by connecting lowercase seams, the ends of the lower power belts for a limited length are fastened with a single panel by discontinuous elements, for example, lowercase seams that are destroyed when filling containers with ballasting material are passed through holes made in a single sheet and are located outside the containers, and the slope of each stiffening frame toward the pipeline without supporting its lower part on the pipeline and the bottom of the trench when filling containers with ballasting material is provided by the estimated length of the lower power belts / belts and the length of the upper power belts. ! 2. The device according to claim 1, in which the end walls are connected to a single panel and upper power zones. ! 3. Devices

Description

The utility model (PM) relates to the construction of pipeline transport and is used when laying underground trunk pipelines in the conditions of the spread of permafrost soils, when laying pipelines in swamps, as well as in irrigated areas.

An analogue of the claimed utility model is known from the prior art — a weighting agent for laying an underground pipeline, comprising a pair of containers symmetrically hung on the pipeline and filled with soil, each of which is composed of a rigid frame and a semi-cylindrical container made of flexible material suspended from it (SU 769178 A, 1978, F16L 1/06).

The known weighting agent is used for group ballasting of pipelines, while the weighting agents in the group are fastened to the end cross-members of the frames. A disadvantage of the known solution is the increased consumption of material on the end walls of the containers, since both adjacent walls of the containers perform one function - they are separators for the backfill soil.

An analogue of the claimed device is also a pipeline weighting agent, known from patent RU 2164636 C1, 03/27/2001, F16L 1/06.

The weighting agent contains a pair of containers, each of which is composed of a rigid flat frame and a semi-cylindrical frame made of a flexible material of a container suspended from it.

The tanks are multisectional along the axis of the pipeline, and the sections are separated by intermediate transverse walls and frame spacers.

The containers of the weighting compound are interconnected by a bond imposed on the pipeline - power belts made of flexible material and fixed by the ends on the external runs of the frames.

A disadvantage of the known solution is the increased consumption of backfill soil. When weighting agents are installed in the group (with continuous ballasting of the pipeline) under the influence of the backfill of the sheet, the forming containers are deformed and wedge-shaped gaps arise between the neighboring weighting groups in which the ballasting soil of the backfill wakes up.

Known pipeline weighting agent containing a V-shaped pair of concrete blocks suspended on the pipeline by means of power belts and resting the lower part on the bottom of the trench. In each of the blocks a blind cavity is opened, open at the top, creating an additional volume filled with backfill soil (see SU 1710913 A1, 02/07/1992).

A disadvantage of the known solution is the possibility of damage to the insulation of the pipeline, increased consumption of concrete and significant costs in the manufacture of weighting compounds and when transporting them to the place of construction of the pipeline.

Known from the prior art, a pipeline weighting agent that contains containers placed with symmetrical relative to the longitudinal axis of the pipeline tanks with rigid rectangular frames - frames. The longitudinal walls of the tanks are suspended from the frames and are made of strips of flexible material. The weighting compound is equipped with a pair of flexible jumpers forming the walls of the containers (SU 1551930 A1, 03.23.1990).

A disadvantage of the known solution is the low ballasting ability of the weighting agent, increased metal consumption, the possibility of damage to the pipeline insulation. Closest to the claimed utility model is a prior art polymer container ballasting device, which contains two containers placed on both sides of the pipeline and filled with soil from polymeric technical fabric panels, each of which is equipped with stiffness frames and partitions, as well as power belts, in the eyes of which mescheny runs stiffening frames. The lower power belt and the tanks filled with soil are made in the form of a single panel, superimposed on the pipeline, equipped with eyes for placement of longitudinal runs of stiffness frames in them. Each partition is fastened with a container forming a container and a corresponding upper power belt. The lower part of each frame relative to the bottom of the trench is placed with a slope towards the pipeline without leaning on it and on the soil of the bottom of the trench when filling the tanks with soil, as well as when the pipeline is subjected to an ejection load, which is ensured by the estimated length of a single sheet between its eyes for the lower runs of the stiffness frames and the length of the upper power zones (see RU 2266457 C1. 12/20/2005). A disadvantage of the known solution is the ability to support the stiffness frame on the pipeline with the possibility of damage to its insulation and the deformation of the longitudinal elements - runs of the stiffness frames when the pipeline is exposed to operational loads.

The problem solved by the declared PM is the elimination of possible damage to the frames and the insulation of the pipeline by the elements of the spacer rigid frames during construction, operation and repair of the pipeline. Achievable technical result is to increase the reliability of the pipeline due to the full involvement of the backfill of the trench in the soil, to ensure the safety of the elements of the spacer frames of the rigidity, to preserve the insulation of the pipeline by eliminating the contact of the elements of the spacer frames of the female with the outer surface of the pipeline.

This problem is solved by the PCBU-MK polymer container ballasting device for ballasting pipelines, in which two containers filled with ballasting material are made of a single cloth of polymer technical fabric, with the possibility of placing them on both sides of the pipeline and placing a single cloth with its middle zone on the pipeline, each of tanks equipped with end partitions and stiffening frames of rigidity, the outer longitudinal sides - runs of each specified frame are placed in the eyelets that are provided with the corresponding edges of a single panel, the inner run of each specified frame passes under a single panel outside the tank and each end of the internal run is placed in the corresponding eye, which is equipped with each edge of the lower power zones superimposed on top of a single panel, while the middle zones of the lower power belts and a single cloth fastened together, for example, connecting lowercase seams, the ends of the lower power belts on a limited length are fastened with a single cloth discontinuous by items, for example, lower seams, which are destroyed when filling containers with ballasting material, are passed through holes made in a single sheet and are located outside the containers, and the inclination of each spacer frame of rigidity towards the pipeline without supporting its lower part on the pipeline and the bottom of the trench when filling containers with ballasting material , is provided by the estimated length of the lower power zone / s and the length of the upper power zones.

In particular cases of the device, the upper power belts are formed by single-layer or folded in several layers and stitched ribbons of polymer threads or from a polymer technical fabric, the number of upper power belts of each capacity is at least two, while the upper power belts are sewn to a single panel in its middle parts.

The eyes of a single panel are formed by its bent and stitched edges, and reinforced, and the reinforcement of the eyes of a single panel is formed by single-layer or stitched into several layers and stitched tapes of polymer threads or polymer technical fabric, which allows you to replace the evenly distributed load from the weight of the ballasting material focused. Replacing the distributed load on the external runs of the spacer frames with a concentrated load, preferably shifted to the edges of the external runs, removes the load from the middle of the runs, eliminates their deformation during the construction and operation of the pipeline and reduces the material consumption of the cruelty frames, for example, by replacing pipes with a diameter of 73 mm by pipes with a diameter of 60 mm. In the particular case of performing PKBU-MK, the stiffening frames are provided with additional spacer elements, while the stiffening frames are made of collapsible tubular elements or rolled products, and the longitudinal sides of the stiffness frames are equipped with connecting elements with the possibility of fixing these frames during group ballasting of the pipeline. Each tank is equipped with at least one partition connected to a single panel, and the end walls are connected to a single panel and upper power belts. In addition, each tank is equipped with a panel hinged towards the wall of the trench, which increases the ballasting capacity of PKBU-MK.

In addition, this problem is solved by the PM option - PCBU-MK polymer container ballasting device for ballasting pipelines, in which two containers filled with ballasting material are made of polymeric technical fabric panels, with the possibility of placing containers on both sides of the pipeline, each of the containers is connected to with a single panel and the corresponding upper power belt with end walls, as well as stiffening spacers, longitudinal, relative to the pipeline and, the sides - the runs of each specified frame are placed in the eyes, which are provided with the corresponding edges of the panel forming each container, each end of the inner and outer run is placed in the eye, which is equipped with, respectively, the lower and upper power zones imposed on the pipeline, and the slope of each spacer the stiffness frame towards the pipeline without supporting its lower part on the pipeline and the bottom of the trench, when filling the tanks with ballasting material, is provided by the estimated length of the lower and upper power zones s.

Each end wall is additionally connected to a corresponding lower power belt.

The presence of the end walls of the tanks fastened with the upper power belts and a single cloth increases the reliability of ballasting due to a more complete filling of the device volume with soil and eliminates the filling of soil backfill through the ends of PKBU-MK.

The location of the internal runs of each stiffening frame and their connection with the belts eliminates the rigid fastening of the lower power belt and, accordingly, the internal runs of the stiffening frame, allows the tanks to self-install relative to the pipeline without supporting the stiffening frames on its outer surface, eliminates the contact of the internal runs of these frames with the external the surface of the pipeline and possible damage to its insulation, and also eliminates the deformation of the runs, which ensures repeated enenie said frames during pipe repair.

Tubular frame elements of the stiffness frames provide ease of assembly, especially with group ballasting of the pipeline.

The utility model is illustrated by graphic material, which shows the claimed device installed on the pipeline, front view, and the positions respectively indicate:

1 - pipeline;

2 - soil backfill;

3 - capacity PKBU-MK;

4 - a single panel of polymer technical fabric;

5 - spacer framework stiffness;

6 - end wall;

7 - upper power belt;

8 - lower power belt;

9 - outer longitudinal sides - runs of stiffness frames;

10 - inner longitudinal sides - runs of stiffness frames;

11 - trench.

PKBU-MK contains two placed on both sides of the pipeline 1 filled with ballasting material, for example, backfill 2 containers 3, made of a single panel of polymer technical fabric. Each of these containers 3 is equipped with spacer frames of rigidity 5 and end walls 6, as well as the upper and lower / lower power belts 7 and 8. The outer longitudinal sides - runs 9 of each frame 4 are placed in the eyes, which are provided with the corresponding edges of a single panel polymer technical fabric.

Moreover, these eyes, in the particular case of the device, are reinforced. Reinforcement of the eyes of a single panel is formed by single-layer sewn to it or folded into several layers and stitched with ribbons of polymer threads or of polymer technical fabric. It is desirable to perform reinforcing along the transverse pipeline edges of a single panel of polymer technical fabric, which will allow you to replace the evenly distributed load from the weight of the ballasting material with a concentrated load. Replacing the distributed load on the external runs of the stiffening frames with a concentrated load, preferably shifted to the edges of the external runs, removes the load from the middle of the runs, eliminates their deformation during the construction and operation of the pipeline, and reduces the material consumption of the cruelty spacers. Capacities PKBU-MK are symmetrically placed relative to the pipeline. Runs of stiffening frames located along the pipeline, as well as their cross members, are made of tubular elements. This embodiment of the stiffening frames simplifies their transportation and installation. The inner run 10 of each specified frame passes under a single cloth of polymer technical fabric 4 outside the tank 3, and each end of the inner run 10 is placed in the eye, which is equipped with lower power belts 8, superimposed on top of a single cloth of polymer technical fabric 4. Middle zones of the lower power belts 8 and a single panel of polymer technical fabric 4 are fastened together, for example, by connecting lowercase seams. To facilitate installation of the device, the ends of the lower power belts 8 are fastened to a limited length with a single panel of polymer technical fabric 4 by discontinuous elements, for example, horizontal seams that are destroyed when filling containers with ballasting material, passed through 4 holes made in a single panel of polymer technical fabric and are located outside the containers 3, which allows the tanks to self-install without supporting frames on the pipeline. The inclination of each stiffening frame 5 towards the pipeline 1 without supporting its lower part on the pipeline 1 and the bottom of the trench 11 when filling containers 3 with ballasting material is ensured by the estimated length of the lower power belt / belts 8 and the length of the upper power belts 7.

The upper power zones are provided with eyes and are formed by single-layer or folded in several layers ribbons of polymer threads or of polymer technical fabric, and the number of upper power zones of each capacity is at least two. The upper power zones are sewn to a single panel of polymer technical fabric 4 in its middle part.

Each end wall 6 is fastened with a single cloth of polymer technical fabric 4 and a corresponding upper power belt 7 forming a container 3, which eliminates the filling of soil from the tanks.

In the particular case of the implementation of PKBU-MK, the spacer framework of rigidity 5 is provided with additional spacer elements and is made collapsible. In addition, the longitudinal sides of the stiffening frames are equipped with embedded elements-inserts with the possibility of fixing the frames during group ballasting of the pipeline.

Each tank 3 is equipped with a panel hinged towards the wall of the trench, which allows to increase the ballasting capacity of PKBU-MK.

In the PKB-MK variant (not shown), two containers filled with ballasting material are made of panels of polymer technical fabric, with the possibility of placing containers on both sides of the pipeline. Each of the containers is equipped with end partitions and stiffening frames, the longitudinal side, relative to the pipeline, the side of the run of each frame are placed in the eyes, which are equipped with the corresponding edges of the panel forming each tank, and each end of the inner and outer run is placed in the eye, which is provided, respectively, lower and upper power zones imposed on the pipeline. The inclination of each stiffening frame towards the pipeline without supporting its lower part on the pipeline and the bottom of the trench, when filling the containers with ballasting material, is ensured by the estimated length of the lower and upper power zones. In the particular case of the embodiment of the device, each end wall is fastened to the edges of the container forming the capacity of the lower and upper power zones.

The tanks PKBU-MK are filled with soil sequentially, preferably symmetrically, which prevents the tanks from skewing relative to the pipeline.

During group ballasting of a pipeline using PKBU-MK, up to four ballasting devices are included in the group, while the number of groups per kilometer of the pipeline is from 40 to 50.

A special case of laying a pipeline is the implementation of trenches of increased depth, which is typical for icy soils in the North. Since the trench has an increased depth relative to the recommended SNiP, the parts of the ballasting device - PKBU-MK protruding above the upper generatrix of the pipeline do not affect the increase in the volume of earthwork. In this case, it is advisable to use PKBU-MK with hinged panels or with an increased size of containers for ballasting soil, for which the transverse elements of the stiffening frames perform an increased length. When ballasting, the upper longitudinal elements of the frames of rigidity are located above the upper generatrix of the pipeline by 10-20 cm. In this case, it is permissible to touch the upper runs of the frames of rigidity and the walls of the trench.

The main bearing element - the bottom of the containers, being membranes, work only in tension. The resistance to pulling the pipeline out of the soil when exposed to operational loads is the sum of the mass of the soil column (cone or bulging cylinder) above PKBU-MK.

The utility model is technological in manufacturing, with low dead weight and simple assembly, it is convenient for transportation and installation on the pipeline, and also effective in laying and operating pipelines in various climatic conditions. PKBU-MK increases the reliability of the ballasting of the pipeline and eliminates the possibility of damage to its insulation during construction and operation.

Claims (14)

1. The PCBU-MK polymer container ballasting device for ballasting pipelines, in which two containers filled with ballasting material are made of a single panel of polymer technical fabric, with the possibility of placing them on both sides of the pipeline and placing a single panel with their middle zone on the pipeline, each of the tanks equipped with end partitions and stiffening frames of rigidity, the outer longitudinal sides - the runs of each specified frame are placed in the eyes, which are supplied these are the corresponding edges of a single panel, the inner run of each specified frame passes under a single panel outside the tank and each end of the internal run is placed in the corresponding eye, which is equipped with each edge of the lower power belts, superimposed on top of a single cloth, while the middle zones of the lower power belts and a single the panels are fastened to each other, for example, by connecting lowercase seams, the ends of the lower power belts for a limited length are fastened with a single panel by discontinuous elements, for example, lowercase seams that are destroyed when filling containers with ballasting material are passed through holes made in a single sheet and are located outside the containers, and the slope of each stiffening frame toward the pipeline without supporting its lower part on the pipeline and the bottom of the trench when filling containers with ballasting material is provided by the estimated length of the lower power belts / belts and the length of the upper power belts. 2. The device according to claim 1, in which the end walls are connected to a single panel and upper power zones. 3. The device according to claim 1, in which the upper power zones are formed by single-layer or folded into several layers and stitched ribbons of polymer threads or of polymer technical fabric. 4. The device according to claim 1, in which the number of upper power zones of each capacity is at least two. 5. The device according to claim 1, in which the upper power zones are sewn to a single panel in its middle part. 6. The device according to claim 1, in which the eyes of a single panel formed by its bent and stitched edges. 7. The device according to claim 1, in which the eyes of a single panel reinforced, and the reinforcement is formed by single-layer sewn to it or folded into several layers and stitched with tapes of polymer threads or of polymer technical fabric. 8. The device according to claim 1, in which the spacer framework of rigidity is provided with additional spacer elements. 9. The device according to claim 1, characterized in that the spacers of stiffness are made collapsible from tubular elements or rolled. 10. The device according to claim 1, in which the longitudinal sides of the spacer frames of rigidity are equipped with connecting elements with the possibility of fixing the frames during group ballasting of the pipeline. 11. The device according to claim 1, in which each tank is equipped with at least one partition connected to a single panel. 12. The device according to claim 1, in which each tank is equipped with a hinged panel towards the wall of the trench. 13. The PCBU-MK polymer container ballasting device for ballasting main pipelines, in which two containers filled with ballasting material are made of polymeric technical fabric panels with the possibility of placing containers on both sides of the pipeline, each container is equipped with end pipes connected to a single panel and corresponding upper power belt partitions, as well as spacer frames of rigidity, longitudinal relative to the pipeline side - runs of each specified frame is placed in the eyes, which are equipped with the corresponding edges of the panel forming each container, each end of the inner and outer run is placed in the eye, which is equipped with, respectively, the lower and upper power belts superimposed on the pipeline, and the inclination of each spacer frame of rigidity towards the pipeline without supporting its lower part of the pipeline and the bottom of the trench when filling containers with ballasting material is provided by the estimated length of the lower and upper power zones. 14. The device according to item 13, in which each end partition is additionally connected to the corresponding lower power belt.