RU52049U1 - ADJUSTABLE BRACKET - Google Patents

Abstract

The utility model relates to building structures, in particular, to supporting adjustable structural elements of raised panel floors (raised floors). The purpose of the proposed utility model is to increase the reliability of the adjustable support. The device operates as follows. The bottom plate 1 with the tubular element 2 tightly connected to it is installed in a predetermined location of the base and is attached to the base through mounting holes 27 with fasteners. A nut 5 is screwed onto the threaded rod 4 with the upper plate 3 fixedly fastened to it. The threaded rod 4 is inserted coaxially into the tubular element 2 with the free end 28 until the nut 5 stops, into the tubular element 2, while the total height of the adjustable support is set by moving the nut 5 along the threaded rod 4. The orientation of the upper plate 3 can be set by turning it slightly so that the location of the holes 16 and the cut-outs 13 is suitable for fasteners and protruding parts of the raised floor parts, which are subsequently fixed to the top henna plate 3. It is possible to adjust the height only by rotating the nut 5 without changing the position of the upper plate 3. Similarly, any required number of adjustable supports can be set and fixed, and the height of each adjustable support can be set separately.

Description

The utility model relates to building structures, in particular, to supporting adjustable structural elements of raised panel floors (raised floors).

Known adjustable support (application for utility model No. 2005111711, priority 05/20/2005), containing the lower and upper plates provided with a threaded rod and a threaded tubular element respectively screwed into one another. The upper and lower plates are made in the form of disks with a central hole. A threaded tubular element is attached to the upper plate in its central part so that its axis coincides with the axis of the central hole in the upper plate. Slots are made in the upper plate from the side of its perimeter, between which the holes are located, and its central part is pressed towards the threaded tubular element. The bottom plate is made with holes located in a circle close to the outer edge of the plate. A threaded rod is rigidly fixed to the center hole of the bottom plate on one side so that its axis coincides with the axis of the center hole in the bottom plate. The central part of the lower plate is pressed towards the threaded rod. Four radial stiffeners are extruded in the bottom plate, facing with their convex part towards the threaded rod. Rotation allows you to adjust the height of the support and the orientation of the slots in the upper plate.

The closest technical solution is an adjustable support structure (RF patent No. 2230162, priority 11/14/2003), including the lower and upper plates, a tubular element connected at one end to the lower plate, a threaded stand with a nut and locknut, one end connected to the upper plate. The bottom plate is made in the form of a square, in the corners of which are located diagonally holes for fasteners. The upper plate is made in the form of a disk, along its perimeter, pairs of slots open from the peripheral part of the plate are located crosswise, holes for fixing elements are placed between adjacent slots. The free end of the threaded stand is installed with the possibility of axial movement in the cavity of the tubular element. The lower and upper plates are made with a Central hole for placement in it, followed by rigid connection with the plates of the ends, respectively, of the tubular element and the threaded stand. There is a recess around each hole, the depth of which is not

exceeds the thickness of the plate, while the convex surfaces of the recesses of the upper and lower plates are facing towards each other. The height of the adjustable support structure is set by moving the nut on the threaded stand, followed by fixing the position of the nut with a lock nut. This fixes the position of the top floor plate relative to the bottom. The design of the adjustable support described above allows you to adjust (or, if necessary, level) the height of the raised floor. However, due to the insufficient study of individual structural elements and their connections (unreliable connections of the upper plate with a threaded stand, the lower plate with a tubular element, the non-optimal shape and dimensions of the lower plate), the design as a whole does not have sufficient reliability and durability during operation.

A disadvantage of the known technical solution is the low reliability during operation.

The purpose of the proposed utility model is to increase the reliability of the adjustable support.

This goal is achieved due to the fact that in an adjustable support containing the lower and upper plates, respectively equipped with a tubular element and a threaded rod with a nut screwed onto it and inserted into its specified tubular element with its free end all the way to the specified nut, said upper plate being made in the form of a disk with a Central hole in which the end of the specified threaded rod, so that its axis coincides with the axis of the specified Central holes in the specified upper plate, and the pointer the associated tubular element is attached on one side to the specified lower plate in its central part so that its axis coincides with the axis of the specified central hole in the specified lower plate, the central part of the specified upper plate is pressed toward the specified rod to a depth greater than the thickness of the specified upper plate, the central a portion of said lower plate is pressed into the direction of said threaded rod to a depth of more than three thicknesses of said lower plate, with four extruded in said lower plate e radial stiffeners, facing with their convex part towards the specified tubular element, starting from the specified tubular element and located relative to each other crosswise, and the length of the specified tubular element is not less than the diameter of the specified upper plate, and the specified lower plate is made in the form of a rectangle with the ratio sides 0.95-1.05.

The utility model is illustrated by drawings (FIGS. 1-5), which depict an adjustable support assembly and its individual elements. Figure 1 shows the adjustable support assembly, figure 2, 3 shows the upper plate in two types, figure 4, 5 shows the lower plate in two types.

The utility model is implemented as follows. The adjustable support consists of a lower plate 1, a tubular element 2 connected to the lower plate 1, an upper plate 3, a threaded rod 4 connected to the upper plate 3, and a nut 5 screwed onto the threaded rod 4. The threaded rod 4 is inserted into the tubular element 2 all the way into the nut 5.

The upper plate 3 is made in the form of a disk with a Central hole 6, in which the end 7 of the threaded rod 4 is rigidly fixed so that its axis 8 coincides with the axis 9 of the Central hole 6. The Central part 10 of the upper plate 3 is pressed towards the threaded rod 4 to a depth more than the thickness of the upper plate 3 sequentially (in the direction from the axis 9 of the Central hole 6) partially with the formation of sleeve-like and disk-shaped parts. In the described example of implementing the utility model, the edge of the sleeve-like part 11 of the central part 10 is beveled to the axis 9 (for example, as a result of its rolling). The connection thus made between the upper plate 3 and the threaded rod 4 has increased strength due to the increased contact area of the upper plate 3 and the threaded rod 4. Cutouts 13, in particular of a P-shaped profile, with their expanded parts 14 are made along the outer edge 12 of the upper plate 3. facing the inside of the upper plate 3. The cutouts 13 are arranged in a crosswise fashion in pairs 15 and are open from the outer edge 12, with in each pair 15 the expanded parts 14 of the cutouts 13 are directed towards each other. Along the outer edge 12, between each two adjacent cutouts 13, holes 16 are located, in particular along the lines of circles of two different diameters. The axis 17 of the holes 16 are parallel to the axis 8 of the central hole 5. On the upper plate 3 there are four radial stiffeners 18 located crosswise at right angles to each other and directed with their convex part towards the threaded rod 4. The stiffeners 18 start from the sleeve-like part of the central part 10 and end in front of the holes 16 located between the cutouts 13 of each pair 15. The described mutual arrangement of the holes 16, cuts 13 and the presence of radial stiffeners 18 contributes to an optimal p spredeleniyu load on the top plate 3 and the unchanged preservation of the shape and dimensions of the top plate 3.

The lower plate 1 is made in the form of a rectangle with an aspect ratio of 0.95-1.05 with a central hole 19. In the described embodiment of the utility model, the lower plate 1 has, in particular, a square shape with rounded corners 20 and arcuate recesses 21 in the middle of the sides, which gives, in addition to the indicated, metal saving in the manufacture (Fig.4, 5). The central part 22 of the lower plate 1 is partially pressed in conically towards the threaded rod 4 to a depth of at least three thicknesses of the lower plate 1. The tubular element 2 is tightly mounted on the upper end 23 of the central part 22, which is cylindrical with a diameter of not more than the inner diameter the tubular element 2 coaxially with the Central hole 19. In this case, the axis 24 of the tubular element 2 coincides with the axis 25 of the Central hole 19. The length of the tubular element 2 is not less than the diameter of the upper plate 3.

Four radial stiffeners 26 are made in the lower plate 1, which are located crosswise at right angles to each other, start from the tubular element 2 and go to the midpoints of the arcuate recesses 21, ending in close proximity to them. The radial stiffeners 26 face the convex part towards the tubular member 2. At the corners 20 along the diagonals of the lower plate 1 there are four mounting holes 27, one in each corner 20. The bottom plate 1 is made with a pressed-in central part 22, the radial stiffeners 26 in combination with made in this way, the connection of the tubular element 2 with the upper plate 3 provides increased rigidity, resistance to the loads of the adjustable supports. To facilitate the perception in figure 1, the connections of the lower plate 1 and the tubular element 2, as well as the upper plate 3 with the threaded rod 4 are shown with a gap, and in figure 2-5, a part of the identical designations is not affixed.

The device operates as follows. The bottom plate 1 with the tubular element 2 tightly connected to it is installed in a predetermined place of the base (for example, the subfloor) and is attached to the base through the mounting holes 27 with fasteners (for example, nails, screws, etc.). A nut 5 is screwed onto the threaded rod 4 with the upper plate 3 fixedly fastened to it. The threaded rod 4 is inserted coaxially into the tubular element 2 with the free end 28 until the nut 5 stops, into the tubular element 2, while the total height of the adjustable support is set by moving the nut 5 along the threaded rod 4. In this case, the orientation of the upper plate 3 can be set by turning it slightly so that the location of the holes 16 and cutouts 13 is suitable for mounting, respectively

and protruding parts of raised floor components (plates, beams, etc.), fixed on the upper plate 3 hereinafter. Since the holes 16 are located on the upper plate 3 quite often (in particular, every 45 °), the orientation of the upper plate 3 almost no effect on the total height of the adjustable support. An option is possible to adjust the height only by rotating the nut 5 without changing the position of the upper plate 3. Similarly, any necessary number of adjustable supports can be set and fixed, and the height of each adjustable support can be set separately.

In the described example of the implementation of the adjustable support, the totality of all these features (the design of the upper plate 3 (the shape of a disk, the presence of a depressed central part 10, the relative position of the holes 16, cutouts 13 and the presence of radial stiffeners 18) in combination with the threaded rod connection 4 with the upper plate 3; the implementation of the lower plate 1 in the form of a rectangle with a pressed-in central part 22, radial stiffeners 26 in combination with the connection method m tubular member 2 with the bottom plate; size ratio described adjustable support parts) leads to an optimum distribution of the load on the adjustable foot, improves its hardness, resistance to stresses, simplifies the process of adjusting its height. In general, the combination of all of the above features provides increased reliability of the entire structure of the adjustable support.

Claims (1)

An adjustable support containing the lower and upper plates, respectively equipped with a tubular element and a threaded rod with a nut screwed onto it and inserted into its specified tubular element with its free end all the way into said nut, said upper plate being made in the form of a disk with a central hole in which placed the end of the specified threaded rod, so that its axis coincides with the axis of the specified Central holes in the specified upper plate, and the specified tubular element is attached to one hundred they are to the specified lower plate in its central part so that its axis coincides with the axis of the specified central hole in the specified lower plate, the central part of the specified upper plate is pressed toward the specified rod to a depth greater than the thickness of the specified upper plate, the central part of the specified lower plate is pressed into side of the specified threaded rod to a depth of more than three thicknesses of the specified lower plate, while four radial stiffeners are extruded in the specified lower plate, facing their the convex part to the side of the specified tubular element, starting from the specified tubular element and located relative to each other crosswise, and the length of the specified tubular element is not less than the diameter of the specified upper plate, and the specified lower plate is made in the form of a rectangle with an aspect ratio of 0.95-1, 05.