RU191289U1 - CONCRETE LOADER - Google Patents

Abstract

Concrete weighting agent refers to the field of construction of tools used during construction or repair for ballasting pipelines located in trenches and ensuring their design position during operation, including in irrigated soils and passing through water barriers. The task is to create a concrete weighting agent that enables production installation work without undue labor to give the blocks a design position. The technical result is a reduction in the influence of external force factors (inertial, mainly tangential, impact on the power belt attached to the elements of the anchor, manifested as a result of acceleration or deceleration when moving the concrete weighting agent), which ensures the reliability of the fastening of the power belt on the anchor, thereby preventing violation of the centering of the weighting material its installation. This is achieved by the fact that the concrete weighting agent contains two blocks located opposite to the longitudinal axis of the pipeline and connected in two levels by flexible power belts, each block of which is made in the upper part in the shape of a truncated pyramid, the top of which is oriented in the design position from the axis of the pipeline, and the larger base is the base of the prism of the lower part of the block, which has a supporting part in the level of the lower part of the pipeline and a surface inclined towards it from the side of the pipeline, and in each of the blocks from the side facing the pipeline, below the center of gravity of the block, a recess is formed in which the ele the fastening point of the flexible power belt, made in the form of an anchor, the free ends of which are placed in the recess in the form of rods that are relative to each other with mutual overlap on a part of their length and with the formation of a gap between them, sufficient to establish between them and into the recess of the flexible power belt, and the lower of the rods is made with the end bent outward to the base of the block. 2 s.p. f-ly, 4 ill.

Description

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

A concrete pipeline weighting agent is known, comprising a pair of ballast weights symmetrically relative to the pipeline, whose flat walls facing each other interact with the pipeline and to which flexible jumpers are laid on top of the pipeline, each ballast weight is provided with a thrust pad on the bottom of the flat wall, and each of hinges of attachment to the ballast load of flexible jumpers is placed below its center of gravity and located on its frontal surface, with the jumper itself is made with a length that ensures the interaction of the thrust ballast weights with the surface of the pipeline below its horizontal axial plane, while the frontal surfaces of each ballast weight of the weighting material are made with a blind groove on the side of the pipeline, which is located below its center of gravity, and each of the hinges flush to the ballast load of a flexible jumper in this groove for the possibility of closing the frontal surfaces of ballast weights of neighboring weighting materials (SU No. 1106950, 1984 )

The closest known is a concrete weighting agent containing two blocks located opposite to the longitudinal axis of the pipeline and connected in two levels by flexible power belts, and in each of the blocks from the side facing the pipeline, below the center of gravity of the block is formed a recess in which the element is placed fastening a flexible power belt, each block being made in the upper part in the shape of a truncated pyramid, the top of which is oriented in the design position from the axis of the pipeline, and more the base is a base bottom portion of the prism block having a level bottom of the pipe and a supporting portion disposed obliquely thereto from the pipeline surface, whose area exceeds the area of the supporting part (RU №92137 U1, 2009). The proposed technical solution is a further improvement of this development.

However, the known designs of concrete weighting agents often make it difficult to install them in the design position, due to the possibility of misalignment of the blocks on the suspension due to the sliding of the flexible power belt along the elements of the anchor under the force of external factors or the uneven movement of the blocks by lifting equipment.

The task is to create a concrete weighting compound that provides the possibility of installation work without undue labor to give the blocks a design position.

The technical result consists in reducing the influence of external force factors (inertial, mainly tangential, impact on the power belt attached to the elements of the anchor, manifested as a result of acceleration or deceleration when moving the concrete weighting agent), which ensures the reliability of the fastening of the power belt on the anchor, thereby preventing violation of the centering of the weighting agent during its installation.

This is achieved by the fact that the concrete weighting compound contains two blocks located opposite to the longitudinal axis of the pipeline and connected in two levels by flexible power belts, each block of which is made in the upper part in the shape of a truncated pyramid, the apex of which is oriented in the design position from the axis of the pipeline, and the larger the base is the base of the prism of the lower part of the block, having a supporting part at the level of the lower part of the pipeline and a surface inclined towards it from the side of the pipeline moreover, in each of the blocks from the side facing the pipeline, below the center of gravity of the block, a recess is formed in which there is a fastening element of a flexible power belt made in the form of an anchor, the free ends of which are placed in the recess in the form of rods that are located relative to each other with mutual overlap on the part of their length and with the formation of a gap between them, sufficient to establish between them and in the recess of the flexible power belt, and the lower of the rods is made with the base bent outward th block end. Moreover, the anchor can be made in the form of a bracket, the arcuate part of which is monolithic in the concrete of the block, and the free ends of the anchor can preferably be located one above the other so that the power belt covers the lower rod to the point of its bending and is wound with both branches into the recess of the block behind another rod.

The causal relationship of the signs with the indicated technical result is that the shape of the weighting block described by the signs characterizing the truncated pyramid and prism forming it with the indicated base and location, as well as the performance of the anchor in the recess, allow to exclude any additional work centering the unit during installation due to its self-installation with uniform coverage of the lower part of the pipe. This is possible due to the prevention of any changes in alignment given to it during installation of the unit, which is also determined by the presence of a rod oriented towards the base of the limb, which limits the possibility of displacement of the force belt along it. Additionally, the result can be enhanced due to the fact that the power belt covers the lower rod to the point of its bending and is wound with both branches into the recess of the block behind the other rod.

In FIG. 1 shows a general front view of a concrete weighting compound at a mounting location on a pipe;

In FIG. 2 is a side view of the concrete weighting block at the installation site on the pipe;

In FIG. 3 is a top view of a concrete weighting compound at a pipe mounting place.

In FIG. 4 - attachment point of the power belt (type A in Fig. 1).

An annular concrete weighting agent contains two 12.5-22.5 class B concrete with a bulk density of at least 2300 kg / m ^{3 of} blocks 1 and 2 with a lower part 3 in the shape of a prism connected in its upper part with a smaller base having an upper base truncated pyramid 4. Blocks 1 and 2 are located opposite (on both sides) relative to the longitudinal axis of the pipeline and are connected in two levels by flexible power belts - upper 5 and lower 6. In each of the blocks from the side facing the pipeline, below the center of gravity (center mass) of the block formed by coal killing (niche) 7, in which the fastening element of the flexible power belt is placed 6. Each block is made in the upper part in the shape of a truncated pyramid 4, the top of which is oriented in the design position from the longitudinal axis of the pipeline. Their larger base is (aligned) the base of the prism of the lower part of the block, having a support part 8 at the level of the lower part of the pipeline and a surface 9 inclined towards it from the side of the pipeline, the area of which exceeds the area of the support part. The fastening element of the flexible power belt 6 is made in the form of a mortgage into concrete when forming an anchor block having the shape of a C-shaped rod, the free ends 10 and 11 located in the recess thereof are located relative to each other with mutual overlap on a part of their length, and with the formation of a gap " e ”(see Fig. 4) between them, sufficient to establish between them and in the deepening of the flexible power belt. In this case, the lower of the rods has a limb of its end part outward to the base of the block.

Before laying the weighting blocks, the sling loop of the power belt is inserted into the gap between the rods, covering the rods as a result, and thereby is reliably protected from spontaneous release, since when the block is lifted by the power belts, the gap “e” between the rods 10 and 11 can decrease, which will lead to the displacement of the power belt along the rods and to the loss of alignment of the block. The prevention of this is facilitated by the presence of a limb of the lower of the rods, limiting the possibility of such a displacement. In the process of lowering the blocks in their stabilized position on both sides of the pipeline, the ribs 12 of their bases are brought under the pipeline without touching it, and the blocks themselves fix this position, being installed on the supporting part. Power belts 5 can be fixed to blocks 1 and 2 as well as lower power belts 6. This ensures the reliability of fastening and the efficiency of installation work.

This design of concrete weighting 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 and water barriers, reducing the laboriousness of work.

Claims (3)

1. A concrete weighting agent containing two blocks located opposite to the longitudinal axis of the pipeline and connected at two levels by flexible power belts, each block of which is made in the upper part in the shape of a truncated pyramid, the top of which is oriented in the design position from the axis of the pipeline, and the larger base represents a base of the prism of the lower part of the block, having a support part at the level of the lower part of the pipeline and a surface inclined towards it from the pipeline side, and in each of blocks from the side facing the pipeline, below the center of gravity of the block, a recess is formed in which there is a fastening element of a flexible power belt made in the form of an anchor, the free ends of which are placed in the recess in the form of rods that are relative to each other with mutual overlap on the part their lengths and with the formation of a gap between them, sufficient to establish between them and into the recess of the flexible power belt, and the lower of the rods is made with the end bent outward to the base of the block. 2. The concrete weighting compound according to claim 1, characterized in that the anchor is made in the form of a bracket, the arched part of which is monolithic in the concrete of the block. 3. The concrete weighting compound according to claim 1, characterized in that the free ends of the anchor are located one above the other so that the power belt covers the lower rod to the point of its bending and is wound with both branches into the recess of the block behind the other rod.

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