RU106262U1 - FLEXIBLE BALLASTING PROTECTIVE COATING - Google Patents

Abstract

 1. A flexible ballast protective coating containing concrete blocks interconnected by a monolithic rope, made in the form of bilateral truncated pyramids with a common rectangular base and asymmetrically located relative to the plane of a common rectangular base, characterized in that the lateral adjacent faces of the truncated bilateral pyramids are made asymmetrically with respect to the common rectangular base, and in the middle part of the lower base of the concrete block a longitudinal through excavation is made, smoothly with maskers with the lower base of the concrete block. ! 2. Flexible ballast protective coating according to claim 1, characterized in that the concrete blocks are additionally equipped with anti-erosion nozzles. ! 3. Flexible ballast protective coating according to claim 1, characterized in that the connection of concrete blocks is made in the plane of the largest section. ! 4. The flexible ballast protective coating according to claim 1, characterized in that the concrete blocks are connected to each other by a monolithic rope with an external fastener. ! 5. Flexible ballast protective coating according to claim 1, characterized in that the concrete blocks are connected to each other by a monolithic rope with side fastening. ! 6. The flexible ballast protective coating according to claim 1, characterized in that the concrete blocks are connected together by a monolithic rope diagonally. ! 7. Flexible ballast protective coating according to claim 6, characterized in that when the diagonal connection in the corners of the concrete block bevels are made. ! 8. Flexible ballast protective coating according to claim 6, characterized in that with a diagonal connection d

Description

The utility model relates to the construction industry and is intended primarily for ballasting and protection of underwater pipelines from erosion by the water flow, as well as pipelines when they reach the day surface in swamps and floodplains from external influences.

A universal flexible protective concrete coating is known that contains concrete blocks made in the form of truncated double-sided pyramids and interconnected in order by means of a rope in the form of a monolithic rope (RF Patent No. 2129635, Е02В 3/12, op. 27.04.1999, g.)

A disadvantage of the known technical solution is that the form of execution of the block in view of the bilateral truncated pyramid in contact with the protected surface of the pipeline provides contact pressure in only one line.

A universal flexible protective concrete coating is known, containing concrete blocks interconnected by a monolithic rope, made in the form of bilateral truncated pyramids with a common large rectangular base and with smaller vertices, while the concrete blocks are made asymmetric relative to the plane of the common rectangular base of the pyramids (RF Patent No. 2364678 , EB02B 3/12, op. 08.20.2009, prototype)

A disadvantage of the known solution is the presence of contact pressure along one line of the pipeline surface to be protected. In addition, the shape of the block in the form of truncated bilateral pyramids asymmetric with respect to the plane of a common rectangular base does not allow the effective use of the volume and, therefore, the weight of the concrete block.

The proposed technical solution avoids the above disadvantages, and improves the reliability of ballasting and protection of pipelines by reducing and even distribution of contact loads on the object.

The goal is achieved in that the Flexible ballast protective coating contains concrete blocks interconnected by a monolithic rope, made in the form of bilateral truncated pyramids with a common rectangular base and asymmetrically located relative to the plane of a common rectangular base, the side adjacent faces of the truncated bilateral pyramids are made asymmetrically with respect to the common rectangular base, and in the middle part of the lower base of the concrete block a longitudinal through hole is made it is smoothly interfaced with the lower base of the concrete block, while the concrete blocks are additionally equipped with anti-erosion nozzles, the concrete blocks are connected together by a monolithic rope in the largest section plane with external fastening, with lateral fastening, diagonally, with diagonal connection in the corners of the concrete block and an additional mounting device is installed.

Figure 1 shows a perspective view of a fragment of the Flexible ballast protective coating, figure 2 shows a concrete block front view, figure 3 shows a concrete block side view, figure 4 shows a concrete block top view, figure 5 shows a perspective view of a concrete block with by diagonal fastening, in Fig.6 shows the bearing of concrete blocks on the surface of the pipeline at two points, in Fig.7 shows a perspective view of a concrete block with an external fastener, Fig.8 shows the external fastening of a concrete block with a monolithic rope for installation nom the rope, Fig.9 shows the external fastening of the concrete block to the mounting rope by a node, Fig.10 shows the external fastening of the concrete block with a clamp, Fig.11 shows the external fastening of the concrete block with an additional half ring, Fig.12 shows the fastening of concrete block diagonally, FIG. 13 shows a perspective view of an anti-erosion nozzle.

Flexible ballast protective coating consists of interconnected concrete blocks 1 monolithic ropes 2.

Concrete blocks 1 are made in the form of two-sided truncated pyramids with a common rectangular base 3 and asymmetrically located relative to the plane of the common rectangular base 3 of the pyramids, while the adjacent side faces 4 and 5 of the upper truncated pyramid, and the side adjacent faces 6 and 7 of the lower truncated pyramid are asymmetrically relative to a common rectangular base, that is, with a different angle of inclination - angles β and α, δ and γ to a common rectangular base 3, and in the middle part of the lower base 8 of the concrete block 1 is made longitudinal I-through recess 9 smoothly conjugate with the lower base 8.

The execution of concrete blocks 1 with a longitudinal through recess 9 in the middle of the lower base 8 of the concrete block 1 ensures that the concrete blocks 1 are supported on the surface of the pipeline 10 along two lines 11 and 12, i.e. in the place of smooth conjugation of the longitudinal through recess 9 with the lower base 8, which allows you to distribute contact pressure on the surface of the pipeline 10, and also significantly reduce the pressure on the pipeline 10.

Moreover, the ratio of the lengths of the flat sections of the lower base 8 of the concrete block 1 equal to "A", with the projection length of the longitudinal through recess 9 equal to "B" allows you to change the angle of support φ, concrete block 1 on the pipeline 10 and adjust the voltage from contact pressure at the reference points a, b - along two lines 11 and 12.

Concrete blocks 1 are interconnected by monopolized rope 2 or loops 13 of monolithic rope 2 in the plane of the largest section.

The interconnection of concrete blocks 1 with a monopolized rope 2 is made with lateral internal fastening, with diagonal internal fastening, with external fastening.

In the case of a diagonal connection in the corners of the concrete blocks 1, chamfers 14 are additionally made and a fixing device 15 is additionally installed.

The connection of concrete blocks 1 is carried out in the plane of the largest section. Lateral and diagonal fastening of concrete blocks 1 provides a minimum mounting gap between them.

When the concrete blocks 1 are diagonally connected, the fastening is made mainly by means of loops 13 from the monolithic rope 2.

The length of the loops 13 or monolithic rope 2 provides a technological gap that allows a flexible ballast protective coating to bend around the surface of the pipeline 10 with greater curvature.

For concrete blocks 1, an external fastener 16 is provided with a monopolized rope 2. The external fastener 16 is fastened with a knot or clamp.

The external fastener 16 is additionally equipped with half rings 17, which are nested between the external fastener 16 and the concrete block 1, which allows the concrete blocks 1 to move relative to the monolithic rope 2.

The external mount 16 is additionally equipped with a mounting cable 18, for example, nylon, missed inside the half rings 17.

The use of external fastening 16 allows the installation of a flexible ballasting protective coating of individual concrete blocks 1, since their external fastening 16 to monopolized rope 2 is carried out independently of each other.

Lateral adjacent faces 4 and 5 of the upper truncated pyramid and lateral adjacent faces 6 and 7 of the lower truncated pyramid form corners with the plane of the common rectangular base 3, namely, angles β, δ, α and γ. In this case, the angles β and δ are not equal to each other and are determined on the basis of conditions: for angle β, the chain line equations formed during installation of a flexible ballast protective coating with a crosshead, for angle δ, the longitudinal curvature of the protected pipeline 10.

Similarly, the angles α and γ are not equal to each other and are determined on the basis of conditions: for angle α by the longitudinal curvature of the protected pipeline 10, for angle γ with the radius of the protected pipeline 10.

Concrete blocks 1 are additionally equipped with anti-erosion nozzles designed to hold the soil on the upper base of concrete block 1.

The anti-erosion nozzle is made of geomaterial and consists of a central element 19 and four side elements 20, forming a contour that fits onto the concrete block 1. Elements 19 and 20 are fastened together by rivets 21. In the anti-erosion nozzle, holes 22 are provided for fixing the anti-erosion nozzle to the concrete block 1 for the diagonal connection of concrete blocks 1. On the lateral elements 20 there are cutouts 23 into which the monolithic rope 2 is passed when the concrete blocks 1 are laterally mounted.

Flexible ballast protective coating works as follows.

The concrete blocks 1 are installed, taking into account the length of the loops 13 or the length of the monopolized rope 2, providing a predetermined technological gap between the concrete blocks 1, which allows a flexible ballast protective coating to bend around the surface of the pipeline 10 with a given curvature.

A flexible ballast protective coating is laid on the pipeline 10 using a special traverse for the mounting loops and the lifting mechanism so that the longitudinal through recess 9 of the lower base 8 of the concrete block 1 is pressed against the surface of the pipeline 10 along two lines 11 and 12.

The proposed technical solution improves the reliability of ballasting and protection of pipelines by reducing and even distribution of contact loads on the pipeline.

Claims (8)

1. A flexible ballast protective coating containing concrete blocks interconnected by a monolithic rope, made in the form of bilateral truncated pyramids with a common rectangular base and asymmetrically located relative to the plane of a common rectangular base, characterized in that the lateral adjacent faces of the truncated bilateral pyramids are made asymmetrically with respect to the common rectangular base, and in the middle part of the lower base of the concrete block a longitudinal through excavation is made, smoothly with maskers with the lower base of the concrete block. 2. Flexible ballast protective coating according to claim 1, characterized in that the concrete blocks are additionally equipped with anti-erosion nozzles. 3. Flexible ballast protective coating according to claim 1, characterized in that the connection of concrete blocks is made in the plane of the largest section. 4. The flexible ballast protective coating according to claim 1, characterized in that the concrete blocks are connected to each other by a monolithic rope with an external fastener. 5. Flexible ballast protective coating according to claim 1, characterized in that the concrete blocks are connected to each other by a monolithic rope with side fastening. 6. The flexible ballast protective coating according to claim 1, characterized in that the concrete blocks are connected together by a monolithic rope diagonally. 7. Flexible ballast protective coating according to claim 6, characterized in that when the diagonal connection in the corners of the concrete block bevels are made. 8. The flexible ballast protective coating according to claim 6, characterized in that, with a diagonal connection, a mounting device is additionally installed.