RU193541U1 - ADJUSTABLE BEARING DESIGN FOR FALSE FLOOR - Google Patents

Abstract

The utility model relates to the field of construction, namely, to an adjustable structure device for erecting a raised floor. The technical result of the utility model is: - providing the ability to compensate for deviations from parallelism between the soil and the future floor; - it is possible to fix the angle of inclination of the upper horizontal support, as a result of which the ability to adjust the angle of the support without additional devices under the support. The specified technical result is achieved due to the fact that An adjustable supporting structure for a raised floor is provided, containing an adjustable support consisting of a cylindrical sleeve and an extension, which is divided into equal pipe sections of different internal diameters, the pipe sections have an external thread, and the base plate has a cylindrical part on top that has an internal thread with parameters, identical to the parameters of the internal thread of the coupling, on the outside of the base around the perimeter there are stiffeners, each of which is rigidly fixed to the base plate, while the upper the horizontal support has a spherical convexity in the lower part, a spherical recess is made in the upper end of the coupling, while the spherical recess in the coupling and the spherical convexity are mated with each other, characterized in that a latch of the upper horizontal support is installed in the central part of the spherical recess, representing a cylindrical protrusion having in the upper part symmetrically located angular branches in the cross section, and in the central part of the spherical convexity top

Description

DESCRIPTION OF A USEFUL MODEL

The utility model relates to the field of construction, namely to a device of adjustable design for the construction of a raised floor.

BACKGROUND OF THE INVENTION A support for a raised floor is known [CN 202416787 U, Published: 06/06/2012], consisting of a cylindrical base with external thread resting on a rectangular support plate, an extension from the ends of which onto the external thread are mounted fasteners made in the form of a pair - nut and a lock nut, and a cylindrical top from the upper end of which a flat base is mounted with holes for mounting raised floor construction elements.

The disadvantage of the analogue is the high complexity of the installation, due to strict requirements for the horizontalness of the building base and the lack of the ability to adjust the angle of the support without additional devices under the support, as well as the difficulty of attaching the elements of the raised floor construction structure to the top of the support.

Also known is HEIGHT-CONTROLLED BAR [GB 2378194 A, Published: 09.26.2001], consisting of a tubular vertical column mounted on a mounting plate, a flat head screw rod for floor-mounted panels and a locking device mounted between the column and the screw rod wherein the locking device comprises mounting sockets, an adjusting nut, and locking screws.

The disadvantage of this analogue is the complex material-intensive design, due to the large number of parts of the original design, as well as the high complexity of the installation, due to strict requirements for the horizontalness of the building base and the lack of the ability to adjust the angle of the support without additional devices under the support, the difficulty of fixing the elements of the raised floor construction structure to top of the pylon.

The ADJUSTABLE BEARING STRUCTURE FOR THE FALSE FLOOR [RU 2540723 U1, Published: 02/10/2015] is known. the middle of which are divided in height into equal pipe segments of different internal diameters, with a support flange protruding outwardly rigidly outward and at least 4 mm thick throughout the outer circumference of which the device is made to create rotation of the coupling around the vertical axis, the pipe segments under the support flange have an external thread and the pipe segments above the support flange have at least four external vertical stiffeners and an internal thread with a device for dumping contaminants, while the lower horizontal support has a flat round base with a glass-shaped flange at the top and which has an internal thread with parameters identical to the internal thread of medium pipes shaped couplings, along the ring of a flat round base are placed, forming equal segments, radial stiffeners in the form of rectangular triangles, each of which is rigidly fixed with one leg on a flat base along the entire width of the ring, and the other leg on the outside over the entire height of the glass-shaped flanging, the upper the horizontal support has, like the lower horizontal support, a flat round base, on the inside of which a cup-shaped flange is made, the inner diameter of which is at least 0.65 times the diameter of the flat base of the upper horizontal support and which has an external thread with parameters identical to those of the external thread of the middle pipe-shaped couplings, a device for creating rotation of the upper horizontal support around a vertical axis is made around the entire circumference of the flat base, identical to the device for creating rotation medium tubular couplings.

The main technical problem of the analogue is the high complexity of the installation, due to strict requirements for the horizontalness of the building base and the lack of the ability to adjust the angle of the support without additional devices under the support, the difficulty of attaching the elements of the raised floor construction structure to the top of the support.

The closest in technical essence is an adjustable supporting structure for a raised floor [WO2008105012, published: 09/04/2008] containing an adjustable support consisting of a cylindrical sleeve and an extension, which is divided into equal pipe sections of different internal diameters, pipe sections have an external thread, this support plate has a cylindrical part on top, which has an internal thread with parameters identical to the parameters of the internal thread of the coupling, stiffeners are placed on the outside of the base around the perimeter, each nd of which is rigidly fixed to the base plate, wherein the upper horizontal support has a lower part spherical protrusion at the upper end of the sleeve is spherical recess, the spherical recess in the sleeve and the spherical protrusion configured to mate with each other.

The main technical problem of the prototype is that the spherical recess in the upper end of the coupling, when paired with the spherical protrusion of the lower part of the upper horizontal support, is in a constant mobile state. However, it is not possible to fix the angle of inclination of the upper horizontal support, as a result of which there is no possibility of adjusting the angle of inclination of the support without additional accessories.

The objective of the utility model is to eliminate the disadvantages of the prototype.

The technical result of the utility model is:

- providing the ability to compensate for deviations from parallelism between the soil and the future floor;

- it is possible to fix the angle of inclination of the upper horizontal support, as a result of which it is possible to adjust the angle of inclination of the support without additional devices for support.

The specified technical result is achieved due to the fact that the declared supporting structure for the raised floor, containing an adjustable support, consisting of a cylindrical sleeve and extension, which is divided into equal pipe sections of different internal diameters, the pipe sections have an external thread, while the base plate has a cylindrical part on top, which has an internal thread with parameters identical to those of the internal thread of the coupling, stiffeners are placed on the outside of the base around the perimeter, each e of which is rigidly fixed to the support plate, while the upper horizontal support has a spherical convexity in the lower part, a spherical recess is made in the upper end of the coupling, while the spherical recess in the coupling and the spherical convexity are mated with each other, characterized in that in the central part of the spherical recess, a latch of the upper horizontal support is installed, which is a cylindrical protrusion having angular branches symmetrically located in the upper part in the cross section, and in the central part of the spherical convexity of the upper horizontal support, a hole is made for the shape of the upper part of this retainer.

It is permissible that the upper horizontal support on the flat upper end has four protrusions equally spaced around a circle with an angle between adjacent 90 degrees.

It is acceptable that the protrusions are movable, adapted to the thickness of the coating.

Preferably, the connecting thread of all couplings is multi-start.

Preferably, the free side of the stiffener is a complex curve.

Preferably, the outwardly projecting support flange has a thickness of at least 3 mm.

Brief Description of the Drawings

Figure 1 shows a General view of an adjustable support with protrusions of the upper horizontal support for mounting a tiled raised floor.

Figure 2 shows a General view of the upper horizontal support with protrusions for mounting the raised floor on the logs.

Figure 3 shows a General view of the upper horizontal support with protrusions for mounting the raised floor on the profile.

Figure 4 shows an example of the implementation of the upper horizontal support of the coupling with the clamp upper horizontal support of circular cross section with angular branches.

Figure 5 shows an example implementation in the Central part of the spherical convexity of the upper horizontal support holes for the shape of a retainer with angular branches, according to Figure 4.

Figure 6 shows a view of Figure 4 in volume.

In the figures: 1 - base, 2 - extension cord, 3 - coupling, 4 - upper horizontal support, 5 - base support plate, 6 - mounting holes, 7 - base stiffeners, 8 - extension stiffeners, 9 - spherical recess, 10 - retainer of the upper horizontal support, 11 - spherical bulge, 12 - hole of the upper horizontal support, 13 - protrusion, 14 - gasket, 15 - angular branches, 16 - hole for the retainer.

Implementation of a utility model.

The adjustable supporting structure for the raised floor (see Figure 1) contains an adjustable support, consisting of a cylindrical sleeve 3 and an extension 2, which is divided into equal pipe sections of different internal diameters, the pipe sections have an external thread, and the base plate 5 of the base 1 has a cylindrical the part on top, which has an internal thread with parameters identical to those of the internal thread of the coupling 3.

On the outside of the base 1 around the perimeter are placed stiffeners 7, each of which is rigidly fixed to the support plate 5.

The upper horizontal support 4 has a spherical bulge 11 in the lower part, and a spherical recess 9 is made in the upper end of the sleeve 3, while the spherical groove 9 in the sleeve 3 and the spherical bulge 11 are adapted to mate with each other.

What is new is that in the central part of the spherical recess 9, a latch of the upper horizontal support 10 is installed, which is a cylindrical protrusion having angular branches 15 symmetrically located in the upper part (see Fig. 4, Fig. 6) in cross section, and in the central part of the spherical bulge 11 of the upper horizontal supports 4 made a hole 16 (see Figure 5) under the shape of the upper part of this retainer.

The extension cord 2 is made in the form of a hollow body of circular cross section, divided in height into equal pipe segments of different internal diameters. An external thread is made in the lower part of the extension cord 2, external vertical stiffening ribs 8 and an internal thread are made in the upper part of the extension cord, while the internal thread is identical to the internal thread of the base 1.

Extension 2 can be made of various lengths.

The number of extension cords 2 may vary in height depending on the height difference of the surface on which the support is intended to be mounted.

The sleeve 3 is made in the form of a cylindrical body with an external thread made identical to the external thread of the extension 2. In the upper end of the sleeve 3 a spherical recess 9 is made, in the central part of which a prismatic retainer of the upper horizontal support 10 is made.

The upper horizontal support of the support 4 is made in the form of a horizontal support, in the lower part of which a spherical bulge 11 is made with a hole 12 in the central part, the shape and size of the spherical bulge 11 corresponds to the shape and size of the spherical cavity 9 in the sleeve 3, and the size of the hole is 12 the spherical bulge 11 exceeds the size of the retainer of the upper horizontal support 10. In the upper part of the upper horizontal support 4, the protrusions 13 are made.

The spherical recess 9 in the sleeve 3 and the spherical bulge 11 at the top of the support 4 are adapted to mate with each other and adjust the angle of inclination of the upper horizontal support 4 relative to the vertical axis of the sleeve 3 and the support as a whole.

The latch of the upper horizontal support 10 in the sleeve 3 and the hole 12 in the top 4 are configured to fix the angle of inclination of the upper horizontal support 4.

Adjustable support is used as follows.

Before installing the raised floor, choose the type of upper horizontal support 4, suitable for mounting the raised floor based on the building elements on which the raised floor is mounted - on the tile (see Figure 1), on the logs (see Figure 2) or on the profile (see Fig. 3).

The support is assembled sequentially from at least three parts: base 1, sleeve 3 and the upper horizontal support 4. To raise the raised floor base above the building base, the support is assembled in series of four elements: base 1, extension 2, sleeve 3 and the upper horizontal support 4. At a considerable height the raised floor base above the building base, additional extensions 2 are mounted in the support structure between the extension 2 and the coupling 3 until the height of the support is sufficient to mount the raised floor on it. The support is installed on a flat base (soil) over which it is planned to mount the floor covering and is fixed on the base through the mounting holes 6, and at least three mounting holes 6 symmetrically located relative to each other are selected to fix the support.

The upper level of the adjustable supporting structures for the raised floor assembled on a building base is regulated by rotating the extension 2 and / or the coupling 4 along the threads, while the extension 2 is rotated manually using stiffeners 8 made on the extension 2. To prevent creaking during friction of the supporting structure raised floor about the surface of the upper horizontal support 4 on top of it set the gasket 14.

After height adjustment to the top 4 of the support, the raised floor is mounted using typical building logs for the floor or with the help of building and construction elements for which the projections 13 of the upper horizontal support 4 are designed, while the spherical recess in the sleeve 3 and the spherical protrusion of the upper horizontal support 4 allow adjust the angle of inclination of the upper horizontal support 4 relative to the vertical axis of the support and compensate for the lack of parallelism of the base (soil) relative to the mounted raised floor. At the same time, due to the clamp of the upper horizontal support 10, with a slight rotation of the coupling 3, it is fixed with the upper horizontal support, when the upper part of the clamp 10 with its angular branches 15 enters the hole 16. In this case, the angle of inclination of the upper horizontal support 4 relative to the vertical axis support is maintained.

Thus, the above features of self-adjustment of the angle of inclination of the upper horizontal support 4 relative to the vertical axis of the support, provide the ability to compensate for deviations from parallelism between the ground and the future floor.

And the possibility of fixing the angle of inclination of the upper horizontal support, as a result of which it is possible to adjust the angle of inclination of the support without additional devices under the support, is achieved due to the fact that in the central part of the spherical recess 9 there is a latch of the upper horizontal support 10, which is a protrusion having symmetrically located angular branches in the cross section, and in the central part of the spherical bulge 11 of the upper horizontal support 4, a hole is made for the shape of this fixed ator.

In general, the utility model allows you to install the site without preliminary preparation of the building foundation, while the created space under the floor can be used for laying any communications. As a result, the adjustable support reduces the complexity of the installation, reduces the requirements for horizontal constructional base, the ability to adjust the angle of inclination of the support without additional devices under the support.

In addition, the claimed technical solution provides the raised base of the raised floor above the construction base in the range of heights up to 1000 mm and the load on each support up to 3000 kg.

The technical result is solved by the fact that when laying the tile floor, the protrusions are adapted to the thickness of the coating used, and the connection of the system elements is carried out using multi-thread, made directly on the structural elements without additional fasteners.

That is, a self-aligning upper horizontal support and a concave sleeve are used.

Claims (6)

1. An adjustable supporting structure for a raised floor, comprising an adjustable support consisting of a cylindrical sleeve and an extension, which is divided into equal pipe sections of different internal diameters, the pipe sections have an external thread, and the base plate has a cylindrical part on top that has an internal thread with parameters identical to the parameters of the internal thread of the coupling, stiffeners are placed on the outside of the base around the perimeter, each of which is rigidly fixed to the base plate, while the upper the horizontal support has a spherical convexity in the lower part, a spherical recess is made in the upper end of the coupling, while the spherical recess in the coupling and the spherical convexity are mated with each other, characterized in that a latch of the upper horizontal support is installed in the central part of the spherical recess, representing a cylindrical protrusion having in the upper part symmetrically located angular branches in the cross section, and in the central part of the spherical convexity The horizontal support has a hole for the shape of the upper part of this clamp. 2. The adjustable supporting structure for the raised floor according to claim 1, characterized in that the upper horizontal support on the flat upper end has four protrusions equally spaced around the circumference with an angle between adjacent 90 degrees. 3. The adjustable supporting structure for the raised floor according to claim 2, characterized in that the protrusions are movable, adapted to the thickness of the coating. 4. The adjustable supporting structure for the raised floor according to claim 1, characterized in that the connecting thread of all the couplings is multi-start. 5. The adjustable supporting structure for the raised floor according to claim 1, characterized in that the free side of the stiffener is a complex curve. 6. The adjustable supporting structure for the raised floor according to claim 1, characterized in that the outwardly projecting support flange has a thickness of at least 3 mm.

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