RU120989U1 - ADJUSTABLE SUPPLY FLOOR SUPPORT - Google Patents

Abstract

 Adjustable support for the prefabricated floor, mainly for flooring with structural elements installed at a predetermined height from the base, containing an upper base plate of mainly rectangular shape with holes for fasteners, in the central part of which there is a recess with a bottom, in which there are made outgoing from the central hole radial stiffeners, and the lateral surface of the recess passes at the top into the angular and lateral supporting platforms, flat from above, between which curly cuts are made, with tapering to the center and with rounding in the area closest to the center, the bottom plate is mainly rectangular in shape with a central hole and holes for fasteners, provided with stiffeners, made along the periphery along its sides, to which are adjacent radial stiffeners crosswise extending from the central opening moreover, the holes for the fasteners are made in the peripheral stiffening ribs of the lower plate, as well as a threaded rod with a nut connected to one of the plates, placed in a tubular element connected to another plate, characterized in that the lateral bearing pads of the upper support plate are solid and the holes for the fastening elements are made only on the corner supporting pads, the peripheral ends of the radial stiffenders extending from the central hole of the upper supporting plate are located outside a support element, and the width of these ribs on the side facing the bottom plate is 0.2-0.6 of their length.

Description

The utility model relates to the construction, in particular, to supporting adjustable structural elements of the floors installed at a given level relative to their base with the formation of an underground space.

Known adjustable support of a prefabricated floor, mainly for flooring with structural elements installed at a predetermined height from the base, containing an upper base plate of mainly rectangular shape with holes for fasteners, in the central part of which there is a recess with a bottom, which is made departing from the central the holes are radial stiffeners, and the lateral surface of the recess passes at the top into the angular and lateral supporting platforms flat from above, between which curly grooves tapering to the center and with rounding in the area closest to the center, the bottom plate is mainly rectangular in shape with a central hole and holes for fasteners, equipped with stiffening ribs made along the periphery along its sides, to which are adjacent radial crosses extending from the central hole stiffeners, and holes for fasteners are made in the peripheral stiffeners of the lower plate stiffness, as well as a threaded rod connected to one of the plates a nut inserted in the other plate connected to the tubular member (see. RF patent No. 46514 for utility model, IPC E04F 15/024, 2005). The disadvantages of the known adjustable bearings include insufficient operational reliability due to the low rigidity and strength of the upper support plate, weakened by numerous slots.

Closest to the technical nature of the proposed is an adjustable support for the prefabricated floor, mainly for flooring with structural elements installed at a predetermined height from the base, containing an upper base plate of mainly rectangular shape with holes for fasteners, in the central part of which there is a recess with a bottom in which radial stiffeners extending from the central hole are made, and the lateral surface of the recess passes at the top into angular and supporting platforms between which shaped slots are made, tapering towards the center and with rounding at the site closest to the center, the bottom plate is mainly rectangular in shape with a central hole and holes for fasteners, equipped with stiffeners made along the periphery along its lateral sides, to which adjoin radial stiffeners crosswise extending from the central hole, and the holes for fasteners are made in the stiffening ribs of the lower plate located at the periphery, and also a threaded rod with a nut connected to one of the plates, inserted into a tubular element connected to another plate (see RF patent No. 51061 for utility model, IPC E04F 15/024, 2005). The disadvantages of the known adjustable support can also be attributed to insufficient operational reliability due to the low rigidity and strength of the upper base plate, weakened by numerous slots.

The technical result achieved by the utility model is to increase operational reliability by increasing the rigidity and strength of the upper base plate.

This technical result is achieved by the fact that in the adjustable support of the prefabricated floor, mainly for flooring with structural elements installed at a predetermined height from the base, containing an upper base plate of mainly rectangular shape with holes for fasteners, in the central part of which there is a recess with a bottom in which radial stiffeners extending from the central hole are made, and the lateral surface of the recess passes at the top into angular and lateral support plates pads, between which curly slots are made, tapering towards the center and with rounding at the site closest to the center, the bottom plate is mainly rectangular in shape with a central hole and holes for fasteners, provided with stiffeners made along the periphery along its lateral sides to which are adjacent radial stiffeners extending crosswise from the central hole, and the holes for fasteners are made in the stiffening ribs of the lower plate located at the periphery, as well as a threaded rod with a nut inserted from one of the plates, inserted into a tubular element connected to the other plate, the lateral support areas of the upper support plate are solid, and the holes for the fasteners are made only on the corner support platforms, the peripheral ends of the radial outgoing from the central hole of the upper support plate stiffening ribs are located outside the support element connected to it, and the width of these ribs on the side facing the lower plate is 0.2-0.6 of their length.

The execution of the lateral support platforms of the upper support plate is continuous, while the holes for the fasteners are made only on the corner support platforms, increases the rigidity and strength of the upper support plate due to the fact that it has a minimum number of slots and holes (there are no holes on the side support sites), the presence of which, as in the prototype, degrades the strength characteristics of the plate.

The location of the peripheral ends of the radial stiffeners extending from the central hole of the upper support plate outside the support element connected to it increases the rigidity and strength of the upper support plate due to the fact that these ribs reinforce this plate not only at the place of fastening of the support element, but also adjacent to it outside the central region of the bottom of the recess, which experiences the greatest power load.

The implementation of radial stiffening ribs of the upper base plate with a width on the side facing the lower plate of the component 0.2-0.6 of their length provides high operational reliability due to the fact that this plate has a large and uniform stiffness over its entire area. So, as our experimental studies have shown, when performing radial stiffeners with a width on the upper side of the lower base plate of less than 0.2 of their length, such radial ribs practically do not increase the stiffness of the upper plate in comparison with a smooth plate, and do not provide its equal strength in the whole area. When performing radial stiffeners with a width on the side facing the lower plate of more than 0.6 of their length, such radial ribs practically do not increase the stiffness of the upper plate in comparison with the ribs in the above optimal range, but only increase the material consumption of the plate, and do not provide it uniform strength over the entire area.

Figure 1 presents a General view of the proposed adjustable support, figure 2 is a top view of the upper base plate, figure 3 is a bottom view of the upper base plate, figure 4 is a top view of the lower base plate.

The adjustable prefabricated floor support comprises an upper base plate 1 of a substantially rectangular shape, in the central part of which there is a recess 2 with a bottom 3, in which radial stiffeners 5 extending from the central hole 4 are made. The width A of these ribs 5 on the side facing the bottom plate is 0.2-0.6 of their length B. The lateral surface of the recess 2 passes at the top into the corner support platforms 6 and the side support platforms 7, between which there are curly slots 8, made tapering to the center and with rounding at the site closest to the center. The lateral bearing pads 7 of the upper base plate are solid (without holes), and the mounting holes 9 for mounting and fixing the floor elements are made only on the corner supporting platforms 6. As shown in FIG. 1, a tubular element 10 is connected to the bottom 3 of the upper base plate 1 into which the threaded rod 12 connected to the bottom plate 11 is inserted with a nut 13, but there can also be a reverse connection diagram when the threaded rod 12 is connected to the nut 13 with the bottom 3 of the upper support plate 1, and the tubular element 10 is connected to the lower plate Noah 11 grounds. The peripheral ends of the radial stiffeners 5 extending from the central hole 4 of the upper base plate are located outside the supporting element connected to it, either the tubular element 10 or the threaded rod 12.

The bottom plate 11 is generally rectangular in shape, has a central hole 14 and holes 15 for fasteners, and is also provided with stiffeners 16 made on the periphery along its lateral sides, adjacent to which radial stiffeners 17 crosswise extending crosswise from the central hole 14, and the holes 14 for fasteners are made in the peripheral ribs 16 of the stiffness of the lower plate.

The adjustable foot of the prefabricated floor works in the usual way for this type of foot. For example, the bottom plate 11 is secured using fasteners located in the holes 15 on a base (not shown). Then, the upper support plate 1 is installed at the required height relative to the lower base plate 11 by axial movement of the threaded rod 12 in the tubular element 10, followed by fixing with a nut 13. Various elements are installed and fixed on the support plates 6 and 7 flat on the top in the figured slots 8 and holes 9 prefabricated floor.

The proposed adjustable support has high operational reliability by increasing the rigidity and strength of the upper support plate, and also has a low material consumption and cost.

Claims (1)

Adjustable support for the prefabricated floor, mainly for flooring with structural elements installed at a predetermined height from the base, containing an upper base plate of mainly rectangular shape with holes for fasteners, in the central part of which there is a recess with a bottom, in which there are made outgoing from the central hole radial stiffeners, and the lateral surface of the recess passes at the top into the angular and lateral supporting platforms, flat from above, between which curly cuts are made, with tapering to the center and with rounding in the area closest to the center, the bottom plate is mainly rectangular in shape with a central hole and holes for fasteners, provided with stiffeners, made along the periphery along its sides, to which are adjacent radial stiffeners crosswise extending from the central opening moreover, the holes for the fasteners are made in the peripheral stiffening ribs of the lower plate, as well as a threaded rod with a nut connected to one of the plates, placed in a tubular element connected to another plate, characterized in that the lateral bearing pads of the upper support plate are solid and the holes for the fastening elements are made only on the corner supporting pads, the peripheral ends of the radial stiffenders extending from the central hole of the upper supporting plate are located outside a support element, and the width of these ribs on the side facing the bottom plate is 0.2-0.6 of their length.