RU46792U1 - ADJUSTABLE METAL SUPPORT, PREVIOUSLY FOR FALSE FLOOR - Google Patents

Abstract

The utility model relates to the field of construction, in particular, to raised floors or raised floors installed with adjustable supports at some distance from the supporting horizontal structure of the building. An adjustable metal support, mainly for a raised floor, consisting of a floor laid on beams, includes a composite stand made of two tubular elements: the upper one having an external thread along the entire length, rigidly connected at one end to the base plate and the lower one, one end of which is connected with a base plate, and the other has a tapering section in the form of a conical surface turning into a cylindrical surface with an internal thread interacting with the mating thread of the upper tubular element, p In this case, the support plate is made in the form of a disk and is equipped with pairs of slots placed open crosswise around its perimeter, open from the peripheral part, and the disk contour between the slots is limited by a chord, a recess is made in the central part of the disk with walls formed by the side surface of a regular truncated pyramid with square bases, from the ribs of which radial folds depart, dividing the disk arc between pairs of adjacent slots in half, the base plate is provided with a depression extruded from its lower side form a spherical shell. 6 ill.

Description

The utility model relates to the field of construction, in particular, to raised floors or raised floors installed with adjustable supports at some distance from the supporting horizontal structure of the building. Such a floor creates an underground space used for various kinds of engineering communications and provides free access to them.

Known adjustable support for raised floor, comprising a composite adjustable stand of a threaded rod and a tubular element, a lower plate attached to the base of the floor and an upper plate designed to support the floor elements in the form of beams and plates laid on them. (DE 10116313, CL E 04 F 15/024, 2002.).

In the known support, one of the elements of the composite stand is made of a solid threaded rod, which increases its material consumption.

A metal adjustable support, predominantly for a raised floor, including a lower square plate made of a metal sheet, rigidly connected to a threaded rod mounted in a central bowl-shaped recess and an upper plate connected to a tubular element, into the cavity of which is axially rotatable, is also known from the prior art. the free end of the threaded rod with a nut screwed onto it is inserted. To increase the rigidity of the support, the recess is surrounded by a holder, in the upper surface of which wedge-shaped recesses are made, forming flat support on the back side

surfaces separated by U-shaped, radially diverging folds (EP 0980944, class E 04 F 15 / 024,2000).

A disadvantage of the known support structure is an increase in material consumption due to the formation of two layers of a metal sheet at the apex of each wedge-shaped recess.

The technical task of the utility model is to provide the bearing capacity of an adjustable support while reducing its material consumption of labor for manufacturing and assembly. This problem is solved due to the fact that the adjustable metal support, mainly for a raised floor, consisting of a floor laid on beams, includes a composite stand made of two tubular elements: the upper one, having an external thread along the entire length, rigidly connected at one end to the supporting a plate and a lower one, one end of which is connected to the base plate, and the other has a tapering section in the form of a conical surface turning into a cylindrical surface with an internal thread interacting with the reciprocal the thread of the upper tubular element, while the base plate is made in the form of a disk and is equipped with pairs of slots located crosswise on its perimeter, open from the peripheral part, and the disk contour between the slots is limited by a chord, a recess is made in the central part of the disk with the walls formed by the side surface of a regular truncated pyramids with square bases, from the edges of which radial folds extend, separating the disk arc between pairs of adjacent slots in half, the base plate is provided with lennymi with its bottom side a recess in the form of a spherical shell.

Between the slots of each pair of the base plate, a semi-oval recess is made with a flat bottom having an opening.

The base plate is made primarily of soft metal.

The radial folds of the support plate are made of a trapezoidal cross-section, linearly decreasing in height to the periphery of the plate, while the convex surface of the fold is turned towards the base plate.

The diagonal stiffening ribs of the base plate are made of a U-shaped cross-section, linearly decreasing in height from the recess, while their ends do not reach the corner zone of the plate, and the convex surface faces the base plate.

The cavities of the diagonal stiffeners of the base plate are filled with adhesive material.

In each corner of the base plate there is a pair of holes for mounting elements located symmetrically relative to the diagonal of the plate, while the line passing through the centers of the holes of each pair does not intersect the diagonal stiffener.

The tubular element is connected to the base plate by welding, while the weld is located in the cavity of the spherical layer.

Racks of support are made equally high.

The length of the missed end of the lower tubular element protruding from the lower surface of the base plate is equal to or does not exceed the height of the spherical layer.

The ratio of the diameter of the upper tubular element to the maximum diameter of the lower tubular element with a wall thickness of 2-4 mm is 0.6 - 0.8.

The utility model is illustrated by drawings, which depict:

figure 1 is a General view of an adjustable rack assembly;

figure 2 is a support plate in plan;

figure 3 is a view aa in figure 2;

figure 4 - base plate (top view);

figure 5 - the lower tubular element.

Adjustable metal support, mainly for a raised floor, consisting of flooring laid on beams, includes a composite rack 1.

The rack 1 consists of two, mainly equal, tubular elements: the lower 2 with a variable diameter and the upper 3 with a constant diameter in height.

The lower tubular element 2 vertically protrudes from the base plate 4 and is rigidly connected to it.

The free end of the lower tubular element 2 has a tapering section formed by a conical surface 6, turning into a cylindrical surface 5 with an internal thread.

The upper tubular element 3 has an external thread along its entire length and is connected at one end to the support plate 7. The opposite end of the tubular element 3 interacts with the mating internal thread of the cylindrical part 6 of the tapering portion of the lower tubular element 2.

The base plate 7 is made of soft metal in the form of a disk and is equipped with pairs of slots 8 located crosswise along its perimeter and open from its peripheral part

Slots 8 are intended for installation in them of the walls of U-shaped or box-shaped floor beams. Thus, the surface of the disk between the slots is the receiving area of the floor beams.

The edges of the disk between the slots 8 are limited by a chord for interaction with a special beam profile (not shown in the drawing).

For attaching the beams to the support plate between the slots of each pair, at least one hole 10 is made. Ensuring the rigidity of the disk at the location of the hole weakening it

the cross section is achieved by performing between the slots of the semi-oval recesses with a flat bottom, in which the hole 10 is made.

In the central part of the disk, an opening 12 is also provided, which is located in the flat bottom of the recess 13.

The walls of the recess 13 are formed by the lateral surface of a regular truncated pyramid, the larger square base of which is facing the flooring.

From each of the edges of the pyramid radial folds 14 of a trapezoidal cross section extend linearly decreasing in height to the periphery of the disk. The convex surface of the folds faces the base plate.

The ends of the folds 14 divide the arc of the disk between the slots of adjacent pairs in half. Thus, the surface of the disk between adjacent pairs of slots, designed to support the corners of the floor panels on it, is strengthened along the axis of its symmetry by a diagonal fold, which ensures the strength of the base plate with its minimum thickness.

The base plate 4 may have a square shape in plan and provided with a centrally located ball-shaped recess 15 extruded from its lower side. From the recess 15 diagonal stiffeners 16 extend, made of a U-shaped cross section, linearly decreasing in height from the central hole, and their ends do not reach the corner zone of the plate, and the convex surface faces the base plate.

In each corner of the base plate, on either side of the stiffener, holes 17 for fasteners are located symmetrically with respect to the diagonal of the plate. Moreover, the imaginary line connecting the centers of each pair of holes does not intersect the stiffeners.

The end of the lower tubular element 2 can be passed through a smaller upper base of the spherical layer.

The length of the missed end of the lower tubular element protruding from the lower surface of the base plate is equal to or does not exceed the height of the spherical layer.

Preferably, the length of the protruding end of the lower tubular element is equal to the height of the spherical layer. In this case, the end face of the tubular element will be located in the same horizontal plane with the flat lower surface of the base plate and the vertical load from the flooring will be transferred directly to its supporting structure - floor.

The tubular element is connected to the base plate by welding, while the weld is located in the cavity of the spherical layer.

The highest strength characteristics of the support are provided when the ratio of the diameter of the upper tubular element to the maximum diameter of the lower tubular element with a wall thickness of 2-4 mm is 0.6 - 0.8, while the ratio of the length of the cylindrical part of the lower tubular element to its total height is 0.08-0.12.

Claims (11)

1. An adjustable metal support, mainly for a raised floor, consisting of a floor laid on beams, includes a composite stand made of two tubular elements: the upper one having an external thread along the entire length, rigidly connected at one end to the base plate and the lower one end which is connected to the base plate, and the other has a tapering section in the form of a conical surface, turning into a cylindrical surface with an internal thread interacting with the mating thread of the upper tubular element, the support plate is made in the form of a disk and is equipped with pairs of slots located open on the peripheral part located crosswise around its perimeter, the disk contour between the slots being limited by a chord, a recess is made in the central part of the disk with walls formed by the side surface of a regular truncated pyramid with square bases, from the ribs of which radial folds extend, dividing the disk arc between pairs of adjacent slots in half, the base plate is provided with recesses extruded from its lower side in the form of a spherical shell. 2. The support according to claim 1, characterized in that between the slots of each pair of the base plate there is a semi-oval recess with a flat bottom having an opening. 3. The support according to claim 2, characterized in that the support plate is made of soft metal. 4. The support according to claim 1, characterized in that the radial folds of the base plate are made of a trapezoidal cross-section, linearly decreasing in height to the periphery of the plate, with the convex surface of the fold facing the base plate. 5. The support according to claim 1, characterized in that the diagonal stiffening ribs of the base plate are made of U-shaped cross-section, linearly decreasing in height from the recess, while their ends do not reach the corner zone of the plate, and the convex surface faces the base plate . 6. The support according to claim 5, characterized in that the cavity of the diagonal stiffening ribs of the base plate is filled with adhesive material. 7. The support according to claim 6, characterized in that in each corner of the base plate there is a pair of holes for mounting elements located symmetrically relative to the diagonal of the plate, while the line passing through the centers of the holes of each pair does not intersect the diagonal stiffener. 8. The support according to claim 1, characterized in that the tubular element is connected to the base plate by welding, while the weld is located in the cavity of the spherical layer. 9. The support according to claim 1, characterized in that the racks are made equally high. 10. The support according to claim 1, characterized in that the length of the missed end of the lower tubular element protruding from the lower surface of the base plate is equal to or does not exceed the height of the spherical layer. 11. Support according to claim 1, characterized in that the ratio of the diameter of the upper tubular element to the maximum diameter of the lower tubular element with a wall thickness of 2-4 mm is 0.6 - 0.8.