RU189138U1 - POLYMERCONTAINER BALASTING DEVICE - Google Patents

Abstract

The technical solution relates to the field of construction of a polymer container ballasting device PKBU-MKS (dual), used as a prigruz pipelines and other structures by filling bulk mineral soil, such as soil, container part of a polymer container ballasting device and placing it on both sides of the pipeline. The task is to create a polymer container ballasting device that has reliability by eliminating the possibility of deformation of the expansion frame when the application of operating loads. The technical result consists in the reliability of the polymer container ballasting device under conditions of its assembly and operation by eliminating the possibility of loss of stability under loads. This is achieved by the fact that in the polymer container container ballasting device containing spacer frames made of pipes, formed by lateral and middle transverse racks, upper and lower longitudinal beams, in each of which along its forming at the ends and in the middle part are made slots for placement in the cavity of the longitudinal bulk and flattened sections of the respective transverse racks, and the panel covering the longitudinal beams is fixed to the upper of the longitudinal beams of each spacer frame and forms, together with side walls with slots for the passage of transverse racks, two symmetrically arranged containers for filling with ballast, the upper and lower cargo belts of which are connected, respectively , with upper and lower longitudinal beams, and each lateral transverse column is made of a longitudinally welded pipe section, on each flattened end section the stack of which is bent, with flatness preserved along the entire length of its bent part - the retainer is formed through, not crossing the weld, the L-shaped open to the outside slot of the flattened end of the lateral transverse tube, the cloth sewn along the length of two parts and reinforced with linings of material cloth, stitched in the upper peripheral zones of the connection of its sewn parts and in the upper peripheral zones of the connection with the sides of the container, which in places exit from them through the slots of the lateral transverse racks them are overlapping slits gussets. 1 hp f-ly, 6 ill.

Description

The technical solution relates to the field of construction of a polymer container ballasting device PKBU-MKS (dual), used as a prigruz pipelines and other structures by filling bulk mineral soil, such as soil, container part of a polymer container ballasting device and placing it on both sides of the pipeline.

The closest known is a polymer container ballasting device containing spacer frames made of pipes, formed by transverse posts, upper and lower longitudinal beams, a middle transverse post in each distance frame, connected to its upper and lower longitudinal beams in their middle part, and panel fixed directly or through loops to the top of the longitudinal beams of each spacer frame, and forming together with preferably having openings for the passage of river racks side walls of the tank for filling bulk mineral soil, as well as upper and lower cargo belts, connected respectively with the upper and lower longitudinal beams and sewn with the cloth on the part of their length, the main and middle additional transverse racks of each strut frame have mutually parallel sections , each main transverse post is made of a pipe section with flattened end sections, and in each longitudinal beam, slots for p are made at its ends at the ends and in the middle part displacements of the flattened sections of the respective transverse posts in the cavity of the longitudinal beam, while flattened sections at the ends of the longitudinal beams of the flattened transverse posts are fixed from reverse movement from the corresponding slotted slot made in the flattened portion bent out of the plane of the frame by the fixator of such a connection (RF Patent No. 833577 U1, 10.06.2009).

Known designs of a polymer container ballasting device do not adequately provide for the required reliability of stability due to the possibility of deforming the carcass formed by the spacer frame. Such deformation can occur in the frame at the junction of its tubular elements of the spacer frame due to the loss of stability of the latch during a pulsed, short-term application of a directed longitudinal load, since In the known constructions of the joint node, there is no constructive condition that prevents this and consists in the absence of a weld loosening fixative on the flattened portion of its implementation. The current requirements established that the frame of the polymer container ballasting device (PCBU) formed by the spacer frame should ensure their reliability and durability at the moment of filling it with loose mineral soil and subsequent backfilling of the trench. Elements of the frame should not receive bends and deformations during installation and operation, and should not be in contact with the insulating coating of the pipeline (Means of ballasting and securing gas pipelines in the design position, Technical requirements, STO Gazprom 2-2.2-577-2011, M., 2012) .

The objective of this technical solution is to create a polymer container ballasting device that has reliability by eliminating the possibility of deformation of the spacer frame when the application of operating loads.

The technical result consists in the reliability of the polymer container ballasting device in terms of its assembly and operation by eliminating the possibility of loss of stability under loads.

This is achieved by the fact that in a polymer container ballasting device containing spacer frames made of pipes, formed by lateral and middle transverse racks, upper and lower longitudinal beams, in each of which along its forming at the ends and in the middle part there are slots for placement in the cavity of the longitudinal the beams of the flattened sections of the respective transverse racks, and the panel covering the longitudinal beams is fixed to the upper of the longitudinal beams of each spacer frame and forms together with those having a slot and for the passage of transverse racks with side walls two symmetrically disposable containers for filling with loose mineral soil, the upper and lower cargo belts of which are connected, respectively, with the upper and lower longitudinal beams, and each lateral transverse column is made of a lengthwise welded pipe, on each flattened the end of which is made bent, with preservation of flatness along the entire length of its bent part - the latch is formed through, not crossing the weld, L-shaped open to the outside slit flattened end of the pipe lateral transverse rack, and the cloth sewn along the length of two parts and reinforced with plates of cloth material, stitched in the upper peripheral zones of the connection of the stitched parts and in the upper peripheral zones of the side walls of the tank, which in places exit from them through the slots lateral transverse racks have overlapping kerchief slots. At the same time, the bend of the lock should be made by an amount not exceeding 15 ° and a component not less than the width of the longitudinal slot, and the central column that does not have an L-shaped slot can have a larger than lateral diameter or cross section.

The relationship of these signs with the technical result (the materiality of the signs) is as follows. The spacing frame of a polymer container ballasting device comprising a spacing longitudinal column in the form of a pipe with a flattened end placed in a closed longitudinal slot perpendicular to a hollow beam and a locking part in the form of a latch acting in such a cavity determines the loads acting in such a joint, one of which - axial acting along the longitudinal axis is considered in this case. With such a load, arising in this particular connection of the node, a latch with a l-shaped slot, which keeps the entire node in the assembled state, will be briefly activated. Deformation (loss of stability) of the clamp under the action of a compressive load is possible within the limits of the angle of its limb, exceeding the values of 15 °. When the value of the angle that provides the limb is less than the width of the longitudinal slot, the fixation of the connection may not be performed, and the reliability of the connection is not sufficient. Bend from a value not less than the width of the longitudinal slot to the specified value (inclusive) while observing the requirements of straightness and flatness of the retainer and performing it outside the welded longitudinal seam of the pipe (the seam weakens the carrying capacity of the bend of the retainer and leads to non-uniformity of its deformation, i.e. flatness) allows to increase the stability of the latch, i.e. to ensure the reliability of the connection node. When exceeding the specified value of the angle there is a loss of stability of the lock and its deformation by bending. In addition, the pairing of the retainer with the flattened section of the pipe along the radius R of the L-shaped slot, not less than the thickness of the metal of the pipe wall excludes places of stress concentration, which is also aimed at improving the reliability of the node as a whole. Making containers of two stitched panels along the length allows the bulk mineral soil to be distributed evenly throughout their volume, balancing the load and thus eliminating the deformation of the structure. Strengthening with the lining of the cloth material, stitched in the upper peripheral zones of the connection of its stitched parts and in the upper peripheral zones of the connection with the side walls of the container, which, at the points of exit from them through the slits of the lateral transverse racks, have overlapping slits of the cloth, minimize the deformation of the material of the containers of the polymer container the account of the redistribution of stresses in the most loaded places of the structure as a whole.

FIG. 1 shows a general view of the spacer frame of a polymer container ballasting device, which is an integral part of the PCBU - ISS;

FIG. 2 schematically shows the capacity of PKBU-MKS;

FIG. 3 shows the connection of the tubular elements of the spacer frame of the polymer container ballasting device in the working position of the retainer;

FIG. 4 is a top view of the transverse rack of the spacer frame of the polymer container ballasting device;

FIG. 5 is a side view of a strut assembly for a junction of tubular elements of a spacer frame of a polymer container ballasting device;

FIG. 6 is a view “A” in FIG. 4 (in scale).

The polymer container ballasting device contains at least two spacer transverse racks 1 in the form of a pipe with a flattened end 2. The flattened end 2 of each side of the rack 1 is placed in a closed longitudinal slot 3 perpendicular to the hollow longitudinal beam 4. The key part is made in the form of a beam placed in the cavity 4 clamps 5, which is bent during assembly of the assembly from the longitudinal slot 3 of the beam 4 in the direction from the plane of the flattened end of the pipe after it enters the slot 3 of the corresponding upper 4 or lower 6 n odolnyh beams. The latch 5 with the L-shaped slot is formed on the section of the flattened end of the pipe that does not have a weld (see Fig. 6). The limb of the clamp is made on the measured value facing no longer than 15 ° and not less than the width of the longitudinal slot 3 provided that its flatness is maintained along the entire length (not counting the place of the limb). In addition, to enhance the technical result of the retainer may be located parallel to the axis of the seam on the flattened end of the pipe at a distance from him, not less than the wall thickness of the pipe. The mates of the retainer 5 with the flattened section of the pipe are made along the radius R, not less than the thickness of the metal of the pipe wall, which ensures reliability by eliminating deformation due to loss of stability in an off-design direction. The central pillar 7 does not have a latch, or the latch is made of a different design. The plate 8 is fixed to the upper of the longitudinal beams of each spacer frame and forms together with the side walls 9 having slots for the passage of transverse racks 9 two symmetrically positioned containers for filling with loose mineral soil, the upper 10 and lower 11 cargo belts of which are connected, respectively, with the upper soil lower longitudinal beams. The cloth is sewn along the length of two parts and reinforced with overlays 12 of the material of the cloth, stitched in the upper peripheral zones of the connection of the stitched parts and in the upper peripheral zones of the connection with the sides 8 of the container, which, at the points of exit from them through the slots of the lateral transverse racks have overlapping kerchiefs 13. To prevent contact with the insulation, the lower longitudinal beams are passed through a pocket formed by cross-stitching of the cloth 14. Handles 15 can be used for ease of assembly work.

When connecting the tubular elements of the spacer frame of the polymer container ballasting device, the flattened ends 2 with the fixture 5 are inserted into the slots of the 3 hollow beams. After placing the fixture in the beam cavity, use a special inventory key to rotate the fixture 5 through an angle of 15 °. When assembling a number of such nodes, an expansion frame is formed for a polymer container ballasting unit PKBU-MKS, which additionally has a central transverse post of a larger diameter (to perceive a greater design load) than the posts located symmetrically on both sides of it, and the upper and lower longitudinal beams are made with slots under the flattened ends of the central transverse strut). In the working position, the support 1 experiences only compressive loads, however, during the installation process (in a trench) on the fixer, when lifting the frame, compressive loads with a bending component act. With such a design of the spacer frame of the polymer container ballasting device, the influence of the bending component is minimized, leaving the retainer 5 in the design position, which ensures further reliable operation of the assembly and the polymer container container as a whole with the possibility of its extraction from the trench assembly.

Table 1 shows the parameters of the PCBU-ISS, which, when performed according to the characteristics indicated in the formula of this utility model, achieve a technical result while achieving an additional weight reduction of the PCBU-ISS.

Claims (2)

1. A polymer container ballasting device containing spacer frames made of pipes, formed by lateral and middle transverse posts, upper and lower longitudinal beams, in each of which slots are made at its ends and in the middle part to accommodate flattened sections in the longitudinal beam cavity transverse struts, and covering the longitudinal beams panel fixed to the top of the longitudinal beams of each spacer frame and forms together with having slots for the passage of transverse racks with side walls are two symmetrically disposable containers for filling with loose mineral soil, the upper and lower cargo belts of which are connected, respectively, with the upper and lower longitudinal beams, and each lateral transverse column is made of a longitudinally welded pipe section, each flattened end portion of which is made unbent, with preservation of flatness along the entire length of its bent part, retainer, characterized in that it is formed through, not crossing the weld, L-shaped open to the outside slit flattened end of the pipe lateral transverse rack, and the cloth sewn along the length of two parts and reinforced with plates of cloth material, stitched in the upper peripheral zones of the connection of the stitched parts and in the upper peripheral zones of the side walls of the tank, which in places exit from them through the slots lateral transverse racks have overlapping kerchief slots. 2. A polymer container ballasting device in accordance with claim 1, characterized in that the detent of the fixer is made by an amount not exceeding 15 ° and is not less than the width of the longitudinal slot, and not having an L-shaped slot, the central stand has a larger than lateral diameter or cross section .

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