RU199198U1 - ADJUSTABLE BEARING STRUCTURE FOR RAISED FLOOR - Google Patents

Abstract

The utility model relates to the field of construction, namely to the device of an adjustable structure for the construction of a raised floor. The technical result of the utility model is to ensure more efficient drainage of water from the shaft of the base of the support. The specified technical result is achieved due to the fact that an adjustable supporting structure for a raised floor containing an adjustable a support consisting of a cylindrical coupling and an extension, which is divided into pipe sections of different internal diameters, the pipe sections are threaded, and drain holes are made in the base of the base plate, intersecting the bore of the base barrel, characterized in that slots are made on the lower side of the base of the base plate, connected in a network of channels and having an exit to the edge of the base plate, and drain holes are mated with the channels of the slots.

Description

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

From the prior art, there is a SUPPORT FOR A FALSE FLOOR [CN 202416787 U, Published: 06.06.2012], consisting of a cylindrical base with an external thread, resting on a rectangular base plate, an extension from the ends of which fasteners are mounted on the external thread, made in the form of a pair - a nut and a lock nut, and a cylindrical top from the upper end of which a flat base is mounted with holes for fastening the structural elements of the raised floor.

Also known ADJUSTABLE ROD HEIGHT [GB 2378194 A, Published: 09/26/2001], consisting of a tubular vertical post mounted on a mounting plate, a flat head screw rod for floor panels mounted in a rack and a locking device mounted between the rack and a screw rod , while the locking device contains mounting slots, an adjusting nut and locking screws.

Known adjustable supporting structure for a raised floor [patent RU193541U, publ .: 11/01/2019.], Containing an adjustable support, consisting of a cylindrical coupling and an extension, which is divided into equal pipe sections of different internal diameters, 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 the parameters of the internal thread of the coupling, on the outside of the base along the perimeter there are stiffeners, each of which is rigidly fixed to the base plate, while the upper horizontal support has a spherical bulge in the lower part, in the upper end of the coupling has a spherical recess, while the spherical recess in the coupling and the spherical bulge are made with the possibility of mating with each other, characterized in that in the central part of the spherical recess there is an upper horizontal support lock, which is a cylindrical protrusion having a parts are symmetrically located corner branches in 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.

Known adjustable supporting structure for a raised floor [WO2008105012, publ .: 04.09.2008], containing an adjustable support, consisting of a cylindrical coupling and an extension, which is divided into equal pipe sections of different internal diameters, pipe sections have external threads, while the base plate has a cylindrical part from the top, which has an internal thread with parameters identical to the parameters of the internal thread of the coupling, on the outer side of the base along the perimeter there are stiffeners, each of which is rigidly fixed to the base plate, while the upper horizontal support has a spherical projection in the lower part, in the upper end The sleeve has a spherical recess, the spherical recess in the sleeve and the spherical projection are made to mate with each other.

A technical problem with the known above-described analogs is the lack of drain holes in the base of the support through which water from the extension could escape through the bottom of the base. Thus, the known adjustable bearing supports cannot be used for installing a raised floor in places where the floor is flooded, for example, in basements and cellars with a high level of groundwater.

The closest in technical essence is an ADJUSTABLE LOADING STRUCTURE FOR A FALSE FLOOR [RU 2540723 U1, Published: 02/10/2015], containing a vertical stringer, at the ends of which there are horizontal supports, in which different-sized grooves and cylindrical holes are made, the vertical stringer is made of prefabricated polypropylene cylindrical pipe-shaped couplings of different height, the middle of which are divided in height into equal pipe sections of different inner diameters, rigidly connected to them with a supporting flange protruding outward with a thickness of at least 4 mm, along the entire outer circumference of which a device is made to create rotation of the coupling around the vertical axis, pipe segments under the support flange have an external thread, and the pipe sections above the support flange have at least four external vertical stiffeners and an internal thread with a device for dumping dirt, while the lower horizontal support has a flat round base with a glass-like flanging from above and which has an internal thread with parameters identical to the parameters of the internal thread of medium pipe-shaped couplings, radial stiffeners in the form of right-angled triangles are placed along the ring of a flat round base, forming equal segments, each of which is rigidly fixed by one leg on a flat base throughout the width of the ring, and with the other leg on the outside along the entire height of the glass-like flange, the upper horizontal support has a flat round base, similar to the lower horizontal support, on the inside of which a glass-like flange is made, the inner diameter of which is at least 0.65 of the diameter of the flat base of the upper horizontal support and which has an external thread with parameters identical to the parameters of the external thread of the middle pipe-shaped couplings, a device is made around the entire outer circumference of the flat base to create rotation of the upper horizontal support around the vertical axis, and This is a similar device for creating rotation of medium pipe couplings.

This solution contains arcuate drain holes in the base of the post through which water from the extension could escape through the bottom of the base. Thus, such an adjustable bearing support can be used to install a raised floor in places where the floor is flooded, for example, in basements and cellars with a high level of groundwater.

The technical problem of the prototype is that when using such supports in flooded raised floors, along with water, soil dirt is usually present, which, together with the rise of water, rises from the bottom (for example, in cellars). In the process of standing water, dirt settles to the bottom, often closing the very drain holes. The pressure of the water that remains after the water disappears in the area of the base shaft of the support is not able to push the settled dirt and leave the base shaft. Thus, even after the water level disappears, water remains in the shaft of the support base, which cannot come out and the water and sedimentary soil inside begins to rot. This leads to the spread of a putrid odor penetrating through the panels of the raised floor.

Thus, it has been experimentally found that even supports with drain holes at the base do not provide water drainage.

The task of the utility model is to eliminate the above technical problems.

The technical result of the utility model is to provide a more efficient drainage of water from the shaft of the support base.

The specified technical result is achieved due to the fact that an adjustable supporting structure for a raised floor is declared, containing an adjustable support, consisting of a cylindrical coupling and an extension, which is divided into pipe sections of different internal diameters, pipe sections are threaded, and drain holes are made at the base of the base plate, crossing the bore of the base, characterized in that slots are made on the lower side of the base of the base plate, connected into a network of channels and having an exit to the edge of the base plate, and the drain holes are associated with the channels of the slots.

Preferably, some of the slots are in the form of longitudinal and transverse channels intersecting with each other.

Preferably, some of the slots are in the form of arcs around the drain holes.

The utility model is illustrated by a drawing.

In the drawing: 1 - base barrel, 2 - extension, 3 - coupling, 4 - upper support, 5 - base plate, 6 - central drain holes, 7 - slots forming flow-through drainage channels that exit to the edge of the support plate, 8 - drain holes remote from the support base trunk, 9 - drain holes crossing the base trunk, 10 - arc slots, 11 - stop for the construction log.

Implementation of the utility model

An adjustable supporting structure for a raised floor (see Fig.) Contains an adjustable support consisting of a cylindrical coupling 3 and an extension 2, which is divided into equal pipe sections of different internal diameters, the pipe sections have an external thread, while the base plate 5 has a cylindrical part on top in the form of the stem of the base 1, which has an internal thread with parameters identical to the parameters of the external thread of the coupling 3 and the external thread of the extension 2. At the base of the base plate 1, drain holes 9 are made that intersect the bore of the base 1.

After adjusting the height to the top of the 4 supports, the raised floor is mounted using standard building joists for the floor or with the help of construction and installation elements for which the stops 11 are intended.

What is new is that, in contrast to the prototype, on the lower side of the base of the base plate 5, slots 7 and 10 are made, connected into a network of channels and having an exit to the edge of the base plate 5, and drain holes 9, or 9 and 8 are mated with the channels of the slots 7, or 7 and 10, respectively.

The presence of a network of channels from slots 7, or 7 and 8 provides a more efficient drainage of water from the shaft of the base 1 of the support, since even if the outer part (outside the shaft 1) of all drain holes 9 is clogged, the drainage of water from the shaft of the support 1 will occur through the network of channels from the slots with exits to the edges of the base plate 5.

In addition, when the water pressure in the bore of the support 1 barrel is high due to the accumulation of water also in the extension 2 and the coupling 3, the water draining from the support occurs actively through the central holes 6 in the barrel 1 and through the holes 9 crossing the base barrel 1. The water leaves in the network of channels of slots 7, or 7 and 8. The water pressure tends to push the accumulating soil dirt out of the holes 9, or 9 and 8, respectively, if it begins to settle in them and clog them. When the water pressure decreases and the water remains only at the level of the barrel bore 1, the resulting blockages in the holes 9, or 9 and 8, are partially discharged through the channels 7, or 7 and 10 of the slots, respectively.

The water remaining in the lower part of the base barrel 1 is diverted to the holes 9 crossing the base barrel 1. Due to the mating of the holes 9 with the channels of the slots 7, even the presence of soil dirt in the holes 9 allows better and more efficient drainage of water through the channels of the slots 7.

The execution of the channels of the slots is possible in different ways, both in straight lines and curved.

For example, part of the slots 7 can be made in the form of longitudinal and transverse channels that intersect with each other. The channels of such slots 7, for example, mate with drain holes 9 that intersect the stem of the base 1.

Or part of the slots can be made, for example, in the form of arc slots 10 around the drain holes 8, which are distant from the stem of the support base. Through the holes 8, additional water is discharged from the channels 7 to the outside, which also makes it possible to more efficiently drain water if they are used in conjunction with the holes 9 and a network of channels having an outlet to the edge of the base plate 5.

Claims (3)

1. An adjustable supporting structure for a raised floor, containing an adjustable support, consisting of a cylindrical sleeve and an extension, which is divided into pipe sections of different internal diameters, the pipe sections are threaded, and at the base of the base plate there are drain holes that intersect the bore of the base barrel, characterized in that that on the lower side of the base of the base plate there are slots connected into a network of channels and having an exit to the edge of the base plate, and the drain holes are associated with the channels of the slots. 2. An adjustable supporting structure for a raised floor according to claim 1, characterized in that part of the slots are made in the form of longitudinal and transverse channels that intersect with each other. 3. An adjustable supporting structure for a raised floor according to claim 1, characterized in that part of the slots are made in the form of arcs around the drain holes.

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