RU2184196C1 - Adjustable support for building structures - Google Patents

Abstract

FIELD: civil engineering, in particular, floor boardings, facings of ceilings and walls, applicable in the construction of floors, facings installed at a preset level relative to their base, also applicable in the construction of adjustable screens in plaster work. SUBSTANCE: invention consists in development of such a construction of the adjustable support, which would ensure installation of the building structure at a preset distance from the base with a high precision, would prevent deviations from its level worsening the surface quality. Besides, the construction should provide compensation for deviations in the geometry of the building structure members, for example, floor sleepers, both at installation and in service. And what is more, the construction of the support should make the minimum weakenings of the building structure, provide reliability and durability in service. According to the invention, in the adjustable support for building structures, for example, for the floor boarding with construction members installed at a preset height from the base, containing a carrying member made in the form of a rod with a male thread attached to the base, and a bearing platform engageable with the rod thread, the rod is made with a spherical outer surface on the lower end attached in a outer surface on the lower end attached in a thrust bearing installed on the base. EFFECT: enhanced quality, reduced labor content and cost of manufacture. 4 cl, 2 dwg

Description

 The invention relates to construction, specifically to flooring, ceilings and walls, and can be used in the construction of floors, cladding, installed at a given level relative to their base, to improve quality, reduce the complexity and cost of manufacturing, and can also be used in construction rearranged beacons for plastering.

State of the art
Known floor installed at a predetermined level relative to the base using adjustable supports. The adjustable support is made of a mounting support element in the form of a hollow pillar with an external thread screwed into the threaded hole of the floor log, while the hollow pillar has an end closed at one end, attached to the floor base with a latch, and in the upper part of the pillar can be equipped with a sleeve with flange attached to the floor log from the side facing the base. (see RF patent 2157877, E 04 F 15/00, 2000)
The disadvantage of this design of the adjustable support is that the position of the hollow strut screwed into the lag depends on the geometry of the log, which in practice has deviations from the given shape: horizontal, vertical, and twist deviations in the cross section. This leads to distortion of the flatness of the floor. In addition, the floor base also has errors in the geometry of the surface, which leads to the point support of the rack on the floor base, to a displacement of the support point of the rack relative to its axis and, therefore, to the creation of additional internal stresses in the rack when it is fixed with a latch. Moreover, the presence of threaded holes of significant dimensions in the lag reduces its strength characteristics. All this leads to a deterioration in the quality of the floor, reducing its durability.

Known adjustable support for building structures, for example, for flooring with structural elements installed at a given height from the base, containing a supporting element made in the form of a rod attached to the base with an external thread, and a supporting platform made in the form of a supporting structure of the floor element with a flange and a threaded hole that interacts with the threaded rod. When this rod is mounted on an elastic element having a recess for the head of the rod. The lower surface of the elastic element is made in the form of a cone, which ensures alignment of the rod with the supporting element with a threaded hole. The elastic element is fixed to the base with a fastener (see Japan Patent 2934958, CL E 04 F 15/00, 1998)
The disadvantage of this design is that the support has a point contact with the base, leading to an increase in stresses in the head of the elastic element and the presence of significant floor deformations under load, and a decrease in the durability of the support. In addition, the need to make holes for the supporting element in the floor structure reduces its strength characteristics. All this affects the quality of the floor surface.

SUMMARY OF THE INVENTION
The objective of the invention is to develop such a design of an adjustable support, which would ensure the installation of a building structure at a given distance from the base with high accuracy, would exclude deviations from its level, worsening the quality of the surface. In addition, the design must provide compensation for deviations in the geometry of the elements of the building structure, for example, floor logs both during installation and during operation. Moreover, the construction of the support should introduce minimal weakening of the building structure, ensure reliability and durability in operation.

 According to the invention, the task is achieved in that in an adjustable support for building structures, for example, for flooring with structural elements installed at a predetermined height from the base, containing a supporting element made in the form of a rod with an external thread that is attached to the base, and a support platform, interacting with the thread of the rod, the rod is made with a spherical outer surface at the lower end and fixed in the thrust bearing mounted on the base.

 It is advisable to support the platform in the form of a flat plate.

 It is possible to carry out a support platform equipped with two flanges parallel to each other located at its opposite edges to place a flooring element between them.

 In addition, the support is equipped with a flexible metal tape, passed under the thrust bearing, and with the ends fixed to the structural element of the floor.

 Moreover, the rod is equipped with an additional adjusting circular plate located on its external thread.

 It is possible to carry out a support provided with a flexible metal tape covering a structural element of the floor, for example a lag, and with ends fixed on the base crosswise to each other on both sides of the lag.

The list of figures in the drawings
The invention is illustrated by drawings, in which:
figure 1. - shows an adjustable support for building structures, made in accordance with the invention, in section along its axis;
FIG. 2. - shows an adjustable support for building structures, equipped with an adjustment plate, in a section along its axis.

Information confirming the possibility of carrying out the invention
According to the invention, the adjustable support for building structures contains (see FIG. 1) a support element made in the form of a rod 1 with an external thread that is attached to the base and a support pad 2 made in the form of a flat plate with a threaded hole interacting with the rod thread. The supporting platform 2 can be performed when viewed from above in a square shape with a side size equal to the width of the floor log. The supporting platform 2 can be equipped with two vertical flanges located at its opposite edges to each other to place the floor paste element between them. The flanges may be provided with holes for accommodating self-tapping screws for securing the lags (not shown).

 The rod 1 is made of plastic hollow inside with an open upper end 3 and a blind lower end 4, made with a spherical outer and inner surfaces and mounted in a thrust bearing 5 mounted on the base 6 of the floor. A flexible metal strip 7 is passed under the thrust bearing 5, the ends of which 8 and 9 are fixed on the floor structure element made in the form of a log 10 using self-tapping screws 11. The lower end 4 of the rod 1 is fixed in the thrust bearing 5 using, for example, a wedge dowel 12. The dowel 12, together with the lower end 4 of the rod 1, attaches the thrust bearing 5 to the base 6 and the flexible metal tape 7. The spherical washer 13 is installed under the dowel head 12 to better fix the rod 1. The rod 1 and thrust bearing 5 can also be fixed by others by known methods, for example for soft (wooden) substrates, using self-tapping screws.

 Fixing the lags on the support can be performed in another way. The support may be provided with a flexible metal tape covering a structural element of the floor, such as a lag, and with ends fixed to the base crosswise to each other on both sides of the log (not shown).

 Installation of a floor or other building structure is as follows.

 After marking the installation sites of the supports, holes for the installation of dowels are drilled on the base. Then, in each hole, a flexible metal strip 7, a thrust bearing 5, a rod 1 are installed in series. A dowel 12 with a spherical washer 13 is inserted into the cavity of the rod 1 from the open end 13. The dowel 12 is pushed through the lower end of the rod 1, the holes in the thrust bearing 5 and the flexible metal tape 7 and is sent to the stop in the hole of the base.

 With a hammer and a hammer, the dowel 12 is pre-wedged, allowing the rod 1 to deviate with little effort relative to the axis of the thrust bearing 5. By deflecting the rod 1 in the necessary direction with the help of the technological sleeve and level, the installation plane 14 of the supporting platform 2 is set horizontally. Screwing or unscrewing the support platform 2, using technological equipment, set the required level 15 of the mounting plane of the support 14. Then, the rod 1 is finally attached to the base 6 by jamming the dowel 12. The upper end 3 of the rod 1, protruding above the installation plane 14, is cut flush with the surface of the supporting platform 2.

 On the exposed rows of supports on their installation planes 14, logs 10 are placed. The logs are pressed to the installation plane and secured with flexible metal bands and self-tapping screws. Fixing the lag with metal flexible tapes can be made not on all supports, but selectively, where necessary. On the installed logs lay and fix the flooring.

 In the case of using flooring made of plywood boards (or boards made of other materials), it is laid directly on the installation plane of the supports. The flooring is fixed with self-tapping screws in the drilling of the supporting platform 2.

 Another example embodiment of the invention is presented in figure 2. The adjustable support contains parts similar to the above example, a rod 16, a thrust bearing 18, a flexible metal tape 19, fixed on the base 20 with a wall plug 21. The ends of the flexible metal tape 19 are fixed on the lag of the floor 22 installed on the upper end of the rod 16 with self-tapping screws 23. In this case the support is equipped with an additional adjusting circular plate 17, equal in diameter to the width of the log 22 and provided with a threaded hole for placement on the outer surface of the rod 16. The plate 17 is used as a support exhibition site minutes at supports and cutting the top of the rod 16 at the level of the mounting plane 24. After installation and fastening of plate lugs 22, 17 by means of the special tool moves down along the thread, pulling the flexible metal strip 19, thereby achieving a tight fit lugs 22 on the rod 16.

 Installation and fixing of the flooring in this case is carried out similarly to the first example.

 Using the proposed design of the adjustable support in building structures allows you to install the building structure at a given distance from the base with high accuracy. In addition, the design provides compensation for deviations in the geometry of the elements of the building structure, for example, the floor lag during installation. Thus, deviations of the structure from its level, which worsen the surface quality, are eliminated. The support structure does not weaken the building structure. All this leads to an increase in the surface quality of building structures, an increase in their reliability and durability in operation.

 Moreover, the support is simple in design can be manufactured on conventional technological equipment, reduces the complexity of installation of building structures.

Claims (4)

 1. Adjustable support for building structures, for example, for flooring with structural elements installed at a given height from the base, containing a supporting element in the form of a hollow rod with an external thread installed on the base with a thrust bearing, characterized in that it is provided with a supporting platform made in the form of a flat plate with a threaded hole interacting with the thread of the rod, and the rod has a blind bottom end with spherical outer and inner surfaces attached to Warping using, for example, dowels with a spherical washer, and an upper end, cut off flush with the bearing pad surface.  2. An adjustable support for building structures according to claim 1, characterized in that the support platform is provided with two vertical flanges located at its opposite edges to accommodate an element of flooring between them.  3. An adjustable support for building structures according to claim 1 or 2, characterized in that it is provided with a flexible metal tape passed under the thrust bearing and with ends fixed to the floor structure element.  4. Adjustable support for building structures according to any one of paragraphs. 1-3, characterized in that it is equipped with a flexible metal tape covering a structural element of the floor, such as a lag, and with the ends fixed on the base crosswise to each other on both sides of the lag.

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