RU2264509C1 - Load-bearing floor support structure - Google Patents

Abstract

FIELD: building, particularly raised floor made of composite members, namely beams and/or panels arranged at a predetermined height above floor base and supported by adjustable support structure.

SUBSTANCE: load-bearing support structure has base plate to secure it to basic floor structure and support plate. Base plate is connected to tubular post. Support plate is adapted to support beams and/or floor panels and is provided with threaded rod arranged from bottom part thereof. Threaded rod may move in axial direction and fixed to tubular post. Tubular post is made as coaxial cylindrical parts having different diameters and heights. Arranged between cylindrical parts is transition part having conical surface. Cylindrical part having greater diameter and height is connected to base plate. Cylindrical part having lesser diameter and height has inner thread cooperating with mating thread of hollow rod. Outer contour of support plate as viewed in plane is defined by four circle arches having equal lengths and radii. The circle arches are spaced equal distances one from another and connected by straight lines.

EFFECT: increased efficiency.

10 cl, 4 dwg

Description

The invention relates to the field of construction, in particular to the designs of raised floors from prefabricated elements - beams and / or panels installed at a given height from the base of the floor to bearing supports made with the possibility of adjusting them in height to form an underground space, it is necessary for laying various kind of communications.

Known carrier height-adjustable support of the raised floor, having a lower base plate, a lead screw with a nut and a support plate provided with a hollow tubular sleeve element, put on top of the screw and resting on the nut. A central recess is made in the slab, which includes a lead screw (EP 0138236, class E 04 F 15/024, 1985).

A disadvantage of the known solution is the increased consumption of material on the sleeve, which is a thin-walled cylindrical shell, the thickness of which is assigned taking into account the possibility of its loss of stability from existing forces.

The closest analogue to the claimed invention is a bearing adjustable support, mainly for a raised floor, including a base plate for attaching it to the main floor, connected to a tubular rack and a support plate supporting the beams and / or floor panels, equipped with a threaded rod mounted from below the possibility of axial movement and fixation on a tubular stand (EP 0567679, CL E 04 F 15/024, 1993).

In a known solution, the axial movement of the threaded rod is carried out by screwing it into a sleeve inserted into the upper end of the tubular stand. The presence of an additional transition element for coupling the threaded rod with the tubular stand, made in the form of a sleeve, is due to the fact that in order to ensure the bearing capacity and stability of the vertical elements of the stand from compressive forces, the cross section of the hollow tubular strut must exceed the cross section of the threaded rod.

An object of the invention is to reduce labor costs in the manufacture and installation of an adjustable support bearing by performing it from a minimum number of parts while maintaining its bearing capacity and stability.

This problem is solved due to the fact that in the carrier adjustable support, mainly for a raised floor, including a base plate for attaching it to the main floor, connected to a tubular stand and a support plate supporting the beams and / or floor panels, equipped with a threaded rod from the bottom, mounted with the possibility of axial movement and fixation on a tubular stand, the latter is made in the form of coaxially arranged two cylindrical sections of different diameters and heights with a transition section between them having a conical shape rhnost, wherein the cylindrical portion of greater diameter and height is connected to the base plate, and a cylindrical portion of smaller diameter and height is formed with an internal thread interacting with a corresponding thread of the hollow rod; the outer contour of the base plate in plan is formed by four equal to the length and radius of the circular arcs located at the same distance from each other and connected by straight lines.

The center of the circumference of the arcs of the base plate preferably coincides with the geometric center of the base plate.

The base plate and base plate have a central annular recess with ribs extending from it in the form of rays, dividing each of the plates into four equal sectors and having a grooved profile.

The width and depth of the ribs of the base plate and base plate are reduced to the edges of the plates.

The threaded rod is equipped with a fixing plate made in the form of a hexagonal washer.

The base plate has a rectangular shape in plan. The central longitudinal axis of each edge of the base plate coincides with its diagonal, and the central longitudinal axis of each edge of the base plate divides the circular arc in half.

The ratio of the diameter of the cylindrical part of the tubular stand with a thread to the diameter of its cylindrical part connected to the base plate is 0.4-0.8.

The ratio of the diameter of the threaded rod to the largest size in terms of the base plate is 0.11-0.18.

The threaded rod of the support is made hollow with a wall thickness exceeding the wall thickness of the tubular strut.

The invention is illustrated by drawings, which depict:

figure 1 is a cross section of a support;

figure 2 - section aa in figure 1,

figure 3 - base plate in the plan;

figure 4 - base plate in the plan.

An adjustable support bearing designed for raised floors consists of a bottom base plate 1, rigidly connected, mainly by welding with a tubular stand 2.

The base plate 1 is made of rectangular, mainly square, shape in plan and is installed with its subsequent fixing to the surface of the main floor, which is either a floor slab or a slab that overlaps the basement or technical floor of the building.

The rigidity of the base plate 1 is ensured by a central recess 3 located in the zone of concentration of stresses arising from the welded connection of the tubular stand 2 with the plate and extending from the annular recess in the form of rays of 4 stiffeners 4 having a groove profile. The width and depth of the ribs are reduced to the edges of the plates.

The central longitudinal axis of the ribs of the base plate coincide with its diagonal and divide the plate into four equal zones.

The central annular recess 3 and the stiffeners 4 are obtained by extrusion from the plane of the workpiece by stamping, while the concave surfaces of the recess and ribs face the main floor.

The tubular stand 2 is made in the form of two coaxially arranged cylindrical sections 5 and 6 of different diameters and heights with a smooth transition section 7 between them having a cone-shaped surface.

A cylindrical section 5 having a larger diameter and height is connected to the base plate 1, and a cylindrical section 6 of a smaller diameter and height is made with an internal thread interacting with a mating thread of the rod 8, rigidly attached to the bottom surface of the base plate 9 and mounted with axial movement and fixation on a tubular rack.

The inner diameter of the cylindrical section 6 is equal to the outer diameter of the threaded rod 8, and its height is determined by the strength of the threaded connection.

The diameter of the cylindrical section 5 is a calculated value and is assigned depending on the load acting on the support, as well as its height associated with the height of the underground space.

The bearing capacity of the tubular rack is provided when the ratio of the diameter of its cylindrical part with a thread 6 to the diameter of its cylindrical part 5 connected to the base plate is 0.4-0.8.

The threaded rod 8 is equipped with a latch 10, made in the form of a hexagonal washer.

The outer contour of the base plate 9 in plan is formed by four equal to the length and radius R of the circular arcs 11, located at the same distance from each other and connected by straight lines 12. The center of the circumference of the arcs of the base plate, preferably, coincides with the geometric center of the base plate.

The edge sections of the base plate, limited by a straight line, are intended for fixing and fixing the floor beams.

Increasing the rigidity of the base plate 9 is also ensured as in the base plate 1 due to the execution of the annular recess 13 and the ribs 14 of the grooved profile extending from it in the form of rays, dividing the plate into four equal zones, with each rib located in such a way that its central longitudinal axis divides the circumference in half.

The ratio of the diameter of the threaded rod to the largest size in terms of the base plate is 0.11-0.18. If you go beyond these limits, deformation of the base plate may occur, i.e. its strength characteristics will not be provided.

The threaded rod 8 can be made hollow, while to ensure the stability of the support, the thickness of its wall should exceed the thickness of the tubular rack 2.

Claims (10)

1. Bearing adjustable support mainly for a raised floor, including a base plate for attaching it to the main floor, connected to a tubular stand, and a base plate supporting the beams and / or floor panels, equipped with a threaded rod mounted below with axial movement and fixing on tubular stand, characterized in that the tubular stand is made in the form of coaxially arranged two cylindrical sections of different diameters and heights with a transition section between them having a conical surface, This cylindrical section of large diameter and height is connected to the base plate, and a cylindrical portion of smaller diameter and height is formed with an internal thread interacting with a corresponding thread of the hollow rod; the outer contour of the base plate in plan is formed by four equal to the length and radius of the circular arcs located at the same distance from each other and connected by straight lines. 2. The support according to claim 1, characterized in that the center of the circle of arcs coincides with the geometric center of the base plate. 3. The support according to claim 1 or 2, characterized in that the base plate and base plate have a central annular recess with ribs extending from it in the form of rays, dividing each of the plates into four equal sectors and having a groove profile. 4. The support according to claim 3, characterized in that the width and depth of the ribs of the base plate and the base plate are reduced to the edges of the plates. 5. The support according to claim 1, characterized in that the threaded rod is provided with a fixing plate made in the form of a hexagonal washer. 6. The support according to claim 1, characterized in that the base plate has a rectangular shape in plan. 7. The support according to claim 6, characterized in that the central longitudinal axis of each edge of the base plate coincides with its diagonal, and the central longitudinal axis of each edge of the base plate divides the circular arc in half. 8. The support according to claim 1, characterized in that the ratio of the diameter of the cylindrical part of the tubular stand with a thread to the diameter of its cylindrical part connected to the base plate is 0.4-0.8. 9. Support according to any one of claims 1 to 8, characterized in that the ratio of the diameter of the threaded rod to the largest size in terms of the base plate is 0.11-0.18. 10. The support according to claim 1, characterized in that the threaded rod is made hollow with a wall thickness exceeding the wall thickness of the tubular rack.

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