RU55076U1 - SUPPORT FOR BUILDING CONSTRUCTIONS OF BEAM TYPE - Google Patents

Abstract

The utility model relates to construction, namely to supports intended for placement of beam-type structures on them. The inventive supporting structure can find application in the construction of pipelines, in particular, when securing on piles traverses or beams with fixed pipelines. The objective of the utility model is to increase the reliability of the support and ensure its height adjustment during installation, during sinking or lifting piles. The problem is solved in that the support for building structures of the beam type, placed on a pile, containing a clamp with tightening fasteners, according to the proposed solution, contains a housing rigidly connected to the clamp, made with the possibility of placing the beam structure on it and is a cantilever platform having a cutout on the outer diameter of the clamp and provided with lateral stiffeners. In this case, the lateral stiffeners have vertically bent sections located perpendicular to the tangent plane at the interface with the clamp. The support is additionally equipped with lower stiffeners located under the cantilever platform: two longitudinal, parallel to the lateral stiffeners and one transverse. The clamp is made with the possibility of vertical movement on a pile. For vertical movement of the clamp on the pile, the support is equipped with a screw mechanism and an additional console fixed in the upper part of the pile, while holes in the console platform and console are made to accommodate the screw mechanism. The connection of the cantilever platform with the stiffeners and the clamp is made by welding, while the resulting total voltage arising in the welds of the housing from the effects of building structures does not exceed the calculated resistance of the weld. The support is equipped with a second additional housing. The additional housing is equipped with an additional screw mechanism.

Description

The utility model relates to construction, namely to supports intended for placement of beam-type structures on them. The inventive supporting structure can find application in the construction of pipelines, in particular, when securing on piles traverses or beams with fixed pipelines.

Known support pipe containing a clamp with a tightening and fastening elements and an elastic element between the pipe and the clamp, a hollow box-shaped body, rigidly fastened to the clamp, placed with the possibility of lateral movements on the bases. The hollow box-shaped case is rigidly fixed on the base (Patent for utility model of the Russian Federation No. 31722, IPC: F 16 L 3/10).

However, this design has a limited scope, namely, it is intended for fastening structures in the form of pipelines.

A well-known bracket for attaching a fence made of pipes connecting rigid pipes of circular cross section located mutually perpendicular to each other. The bracket is made collapsible of two parts interconnected by annular protrusions and depressions made with the same radius in the mating parts. Each part of the bracket is made in the form of two identical brackets, interconnected by bolted connections. The outer surface of the brackets of one part of the bracket is made with a radial cut in a radial section and is equipped with radial holes with counterbores for fixing the position of the bracket on the pipe using bolts. Each bracket of the second part of the bracket is equipped with one longitudinal depression and one longitudinal protrusion in the plane of the pipe fastening to fix their relative position during assembly (Utility Model Patent of the Russian Federation No. 21638, IPC: F 16 L 3/10).

However, this device is designed to secure the enclosing structures of pipes, which, as a rule, do not carry heavy loads. Thus, the inventive bracket does not have sufficient reliability when used as a support for the perception of the effects of loaded structures of the beam type.

Closest to the claimed utility model is a pipe support made in the form of a U-shaped pylon having a crossbar and cylindrical racks immersed in the ground, for example, piles, with supporting pipelines and a lower connection fixed to the racks. The crossbar is made removable, a ring protecting the insulation is put on the pipeline in the bearing area, while the lower connection of the pylon racks

formed by a ring protecting the insulation and brackets supporting it on both sides, the upper surface of each of which is made with a curvature equal to the curvature of the ring, and the upper ends of the cylindrical racks are equipped with means for their rotation and extraction (USSR Author's Certificate No. 756124, IPC: F 16 L 3 / 00).

However, this support is intended primarily for fastening pipelines placed in the ground, and also does not have sufficient reliability when used for overhead placement and fastening of pipelines.

The objective of the utility model is to increase the reliability of the support and its strength characteristics, and to ensure its height adjustment during installation, during subsidence or lifting of the pile.

The problem is solved in that the support for building structures of the beam type, placed on a pile, containing a clamp with tightening fasteners, according to the proposed solution, contains a housing rigidly connected to the clamp, made with the possibility of placing the beam structure on it and is a cantilever platform having a cutout on the outer diameter of the clamp and provided with lateral stiffeners.

In this case, the lateral stiffeners have vertically bent sections located perpendicular to the tangent plane at the interface with the clamp.

The support is additionally equipped with lower stiffeners located under the cantilever platform: two longitudinal, parallel to the lateral stiffeners and one transverse.

The clamp is made with the possibility of vertical movement on a pile.

For vertical movement of the clamp on the pile, the support is equipped with a screw mechanism and an additional console fixed in the upper part of the pile, while holes in the console platform and console are made to accommodate the screw mechanism.

The connection of the cantilever platform with the stiffeners and the clamp is made by welding, while the resulting total voltage arising in the welds of the housing from the effects of building structures does not exceed the calculated resistance of the weld.

The support is equipped with a second additional housing.

The additional housing is equipped with an additional screw mechanism.

The utility model is illustrated by drawings, where in Fig. 1 is a front view of the claimed support, Fig. 2 is a top view, Fig. 3 is a side view of the claimed structure in

assembly with a building structure, for example, a traverse and pipe fastening elements located on it, FIG. 4 is a side view of the claimed structure, an option with two buildings.

The positions in the drawings indicate: 1 - support, 2 - clamp, 3 - tightening fasteners, 4 - elastic element, 5 - pile, 6 - body, 7 - cantilever platform, 8, 9 - lower stiffeners, 10 - lateral stiffeners 11 - screw mechanism, 12 - additional console, 13 - screw, 14 - nut, 15 - washer, 16 - beam (traverse).

The support 1 contains a clamp 2 with pulling fasteners 3, an elastic element 4 placed between the clamp 2 and the pile 5. The clamp 2 is rigidly connected to the housing 6, which consists of a cantilever platform 7 having lower 8, 9 and side 10 stiffeners. The lateral stiffening ribs 10 have vertically bent sections whose ends fit tangentially to the outer surface of the clamp 2 (see Figs. 1, 2). Thus, the bent sections of the lateral stiffening ribs 10 are located perpendicular to the tangent plane at the interface with the clamp 2. The lower ribs 8, 9 are located under the cantilever platform 7, while the ribs 8 are parallel and the rib 9 is perpendicular to the lateral ribs 10. Support 1 can be made stationary or movable relative to the pile 5. When performing support movable, the design uses a screw mechanism 11 with an additional console 12, rigidly mounted in the upper part of the pile 5. The screw mechanism consists of a screw 13, a nut 14, ayby 15. Cantilever pad 7 and additional console 12 have openings 13 for mounting screws screw mechanism 12, the screw 13 or nut 14 or the upper fixed motionlessly. A possible embodiment of the support with two housings 6 (Fig. 4) and, accordingly, two screw mechanisms 11. In this case, the housings 6 are mounted symmetrically on opposite sides of the clamp 2. The connection of the cantilever platform 7 with the stiffeners and the clamp 2 is made by welding, while the resulting the total voltage arising in the welds of the housings from the action of a loaded building structure does not exceed the calculated resistance of the weld.

The support 1 is mounted on the pile 5 as follows. The clamp 2 with the housing 6 and the elastic element 4 is fixed on the pile 5 and pulled together with fasteners 3. Then, on the cantilever platform, a building structure is installed, for example a beam 16, on which is fixed, for example, pipelines (Figure 3). A possible option of securing pipelines using one pile 5 (Figure 5). To do this, use a support with two bodies 6, mounted from diametrically opposite sides on the clamp 2. If necessary, move the support 1 along the pile 5 (when

mounting, sinking or lifting piles) use a screw mechanism 11. To do this, unscrew the fasteners 3 and rotate the nut 14 with the screw 13 attached in the additional console 12 to raise or lower the support to the required height. The movement can also be carried out by rotating the screw 13 with the nut 14 fixed in the additional console 12.

The support is able to withstand vertical loads from 1500 kg to 7500 kg, horizontal loads - 450-2250 kg, allows for adjustment during installation of the position of the loaded building structure in height.

Claims (8)

1. Support for building structures of the beam type, placed on a pile containing a clamp with pulling fasteners, characterized in that it contains a housing rigidly connected to the clamp, made with the possibility of placing on it a beam type and is a cantilever platform having a cut on the outer diameter of the clamp and equipped with lateral stiffeners. 2. The support according to claim 1, characterized in that the lateral stiffeners have vertically bent sections located perpendicular to the tangent plane at the interface with the clamp. 3. The support according to claim 1, characterized in that it is additionally provided with lower stiffeners located under the cantilever platform: two longitudinal, parallel to the lateral stiffeners and one transverse. 4. The support according to claim 1, characterized in that the clamp is made with the possibility of vertical movement on the pile. 5. The support according to claim 4, characterized in that for vertical movement of the clamp on the pile, the support is equipped with a screw mechanism and an additional console fixed in the upper part of the pile, while holes in the console platform and console are made for accommodating the screw mechanism. 6. The support according to claim 1, characterized in that the connection of the cantilever platform with the stiffeners and the clamp is made by welding, while the resulting total voltage arising in the welds of the housing from the effects of building structures does not exceed the calculated resistance of the weld. 7. The support according to claim 1, characterized in that it is provided with a second additional housing. 8. Support according to claim 7, characterized in that the additional housing is equipped with an additional screw mechanism.