RU56905U1 - SMALL FOUNDATION - Google Patents

Abstract

The invention relates to the field of construction and is intended to create small foundations for the construction of buildings and structures for various purposes in remote, newly developed areas, including in areas of permafrost distribution. The shallow metal foundation, consisting of metal elements and parts, contains a horizontal support element and vertical stiffeners fixed on top of it, bearing the support parts installed above for the structures of the aboveground part of the building. The shallow metal foundation may be provided with distribution elements for combining it in joint work with adjacent shallow metal foundations. The cavities formed by the elements and details of the shallow metal foundation can be concreted. Elements and details of a shallow metal foundation can be protected by a corrosion-resistant coating. The invention provides an increase in the bearing capacity of the shallow metal foundation and expansion due to this area of its possible use, including for the construction of buildings and structures for various purposes in areas of permafrost distribution.

Description

The invention relates to the field of construction and is intended to create small foundations for the construction of buildings and structures for various purposes in remote, newly developed areas, including in areas of permafrost distribution.

Currently, in the construction of buildings and structures, reinforced concrete is used to create shallow foundations.

Known prefabricated reinforced concrete shallow foundations arranged under walls and columns (Foundations, foundations and underground structures. Designer guide. Under the general editorship of E.A. Sorochan and Yu.G. Trofimenkov. Moscow, Stroyizdat, 1985, p. 44-45, fig. 4.2, 4.4 and p. 53, fig. 4.12). These foundations have a large mass and therefore are subject to significant losses during impacts during transshipment and storage at transhipment bases, which limits their use in construction in remote, underdeveloped areas due to high transport and material costs.

Also known are lightweight prefabricated shallow reinforced concrete foundations with internal cavities (Foundations, foundations, and underground structures. Designer guide. Edited by E. A. Sorochan and Yu. G. Trofimenkov. Moscow, Stroyizdat, 1985, p. 57, Fig. 4.19 ) Such foundations have a lower mass, but remain quite heavy and vulnerable to shock during transportation and during overloads. Therefore, such foundations are not widely used in construction in remote, underdeveloped areas.

When developing remote areas, including in areas of permafrost distribution, various mobile dwellings are widely used. So it is known the collapsible multi-purpose building

destination (bungalow) developed by Rhein - Flugzeugbau GmbH (Germany), in which the floor frame is formed by aluminum hollow profiles connected by pins that simultaneously fasten the floor plates and the lower edge of the wall panels, while the floor plates and all enclosing panels consist of a layer of paper insulation with double-sided cladding of wood-fiber boards with a plastic protective coating, the vertical aluminum corners between the panels transfer the load collected from the roof by gable metal rafters to the floor frame ( Mobile dwellings for the North (from light alloys and synthetic materials). Edited by S. M. Verizhnikov. Leningrad, Stroyizdat, Leningrad Branch, 1976, p.134-135, Fig. 40).

The bungalow described above does not need a foundation, the functions of which are performed by an aluminum floor frame, which in this case is a surface metal foundation, which, being very light and convenient for transportation and overloads, has low bearing capacity and cannot be used as a foundation for shallow laying, t .to. the named frame cannot be buried in the ground due to the attachment of floor plates and wall panels to it.

The shallow metal foundations are practically unknown, one of which, with some assumptions, can be attributed to such, is the support of the contact network, erected on heaving soils, in areas of permafrost and deep seasonal freezing, which in the case of the metal support of the contact network consists from a tubular metal foundation to be buried into the ground and a metal stand installed on it, which is a shallow metal foundation, consisting of metal lementov and parts (patent of the Russian Federation №2209269, IPC E 02 D 27/35, published 27.07.2003).

The disadvantages of such a shallow metal foundation are its low bearing capacity, suitable only for

the construction of the supports of the contact network, and the resulting limited area of its use.

The objective of the present invention is to increase the bearing capacity of the shallow metal foundation and expand due to this area of its possible use, including for the construction of buildings and structures for various purposes in areas of permafrost.

The solution to this problem is achieved by the fact that the metal foundation of shallow laying, consisting of metal elements and parts, according to the invention, contains a horizontal support element and vertical stiffeners mounted on top of it, supporting the support parts installed above for the structures of the aerial part of the building.

The metal foundation can be equipped with distribution elements for combining it in joint work with adjacent shallow metal foundations.

The cavities of the metal foundation formed by its elements and details can be concreted.

Elements and details of the metal foundation can be protected by a corrosion-resistant coating.

The invention is illustrated by the following two examples of constructive implementation of the shallow metal foundation, not exhaustive of all possible structural embodiments of the present invention, and the corresponding drawings, in which Fig. 1 shows a shallow metal foundation with a horizontal support element of a rolled sheet and vertical stiffeners of channels, a plan with a cut; figure 2 is a section aa in figure 1; figure 3 shows two shallow metal foundations with supporting elements composed of pipes and vertical stiffeners made of sheet steel, which are combined in

joint work with distribution elements made in the form of beams, a longitudinal section; figure 4 is a section bB in figure 3.

Example 1

The shallow foundation metal 1 (see FIG. 1 and FIG. 2) contains a horizontal support element 2, in which case a metal sheet is used, and vertical stiffeners 3 mounted on top of the perimeter and made of rolled metal, for example channels. Vertical stiffening ribs 3 carry the supporting parts installed above for the structures of the aerial part of the building. The supporting parts consist of beams 4 made, for example, of channels, mounted with a gap between them on top of the vertical stiffeners 3 and facing one another by the walls, and plates 5 and 6, attached to the channels, respectively, from above and below by welding and anchor bolts 7, passed through the gaps between the channels.

To preserve the permafrost soils of the base 8 in a natural state in the inner cavity of the foundation 1 and / or next to it, heat-insulating material 9 can be laid.

To increase the durability of the metal foundation 1 shallow laying of its elements and parts can be protected by anti-corrosion coating.

Depending on the configuration and the magnitude of the load, the shape of the horizontal support element 2 in the plan can be different: square, rectangular, polygonal, round, etc. If, for example, the load in the plan is located on the ring, then the horizontal support element 2 can also have the same shape in the plan.

The temperature control of the soil of the base 8 can be provided by installing inside the foundation 1 or next to it devices for the artificial cooling of the base 8.

The preservation of the permafrost soils of base 8 in a natural state is facilitated by the placement in the cavity of the foundation 1 or the cavities of its elements of grain drills, i.e. substances that accumulate cold during the period of exposure to negative temperatures.

To reduce the deformability of the base 8 during thawing, it is advisable to apply chemical protection of the soil.

In the horizontal support element 2, which is used as a metal sheet, in order to save metal and reduce the mass of the foundation 1, cuts can be made in the central part and / or on the periphery.

The load from the column or other construction of the above-ground part of the building acts on the supporting parts, consisting of beams 4, joined with anchor bolts 7 and plates 5 and 6. The beams 4 transfer the load to the stiffeners 3, which load a horizontal supporting element 2. Horizontal the support element 2, depending on the thickness and the distance between the stiffeners 3, acts as a membrane or plate and transfers the load to the compacted leveling layer 10, usually from sand, then the load acts on the natural base 8.

Example 2

The horizontal support element 2 of the metal foundation 1 shallow laying can be made of rolled, bent or welded profiles. In this case, the metal foundation 1 shallow (see figure 3 and figure 4) contains a horizontal supporting element 2, consisting of horizontally laid pipes 11, combined and reinforced with vertical stiffeners 3 of sheet steel mounted on top of them, bearing the above supporting parts for the construction of the aboveground part of the building.

Each such metal foundation 1 is equipped with distribution elements for combining it into a joint work.

with adjacent metal foundations 1 shallow. Distribution elements are made in the form of beams 12, which combine the foundations 1 into a single shallow foundation and consist of channels installed with a gap between them on top of the plates 13 and facing each other by the walls, and plates 14 and 15 attached to the channels, respectively, above and below by welding and anchor bolts 16, passed through the gaps between the channels, with the formation of supporting parts for structures of the aerial part of the building.

Foundations 1 are in the bedding 17 and installed on the preparation 18, laid on a natural base 8. To keep the permafrost soils of the base 8 in a natural state in a single shallow foundation and / or next to it, heat-insulating material in the bedding 17 and / or preparation 18 (not shown in the drawings).

Foundations 1 with a horizontal supporting element 2 of pipes 11 and vertical stiffeners 3 are combined in a joint work using distribution elements in the form of beams 12 from channels. The load from the column or other construction of the above-ground part of the building acts on the supporting parts, consisting of beams 12, united by means of anchor bolts 16 and plates 14 and 15. The load perceived by the plates 14 and 15 and anchor bolts 16, for example, acts on the column beam 12 in the form of shear force, bending moment and longitudinal force. Further, the load using the plates 13 is transferred to the foundations 1. The forces from bending moments transmitted to the foundations 1 are regulated using the length of the beam 12. The forces from the plate 13 are transmitted to the horizontal support element 2 from the pipes 11 using stiffeners 3, which, moreover, reinforce the pipe 11 as a shell of a closed section. In the horizontal support element 2, pipes 11 or other rolled, bent or welded profiles with

in order to save metal and reduce the mass of the foundation 1 is installed with the maximum allowable vacuum.

To increase the durability of the metal foundation 1 shallow laying of its elements and parts can be protected by anti-corrosion coating.

In order to eliminate or reduce the thawing of permafrost soils of the base 8, under the metal foundation 1 of a shallow laying in the inner cavity are placed zerotors - cold accumulators (water, salt solutions and other similar substances). For this purpose, the pipes 11 constituting the horizontal support elements 2 are drowned from the ends.

Zerotors can also be placed in foundations with open and not sealed cavities. To do this, in the volume of the foundation and / or outside it place the drills in their own flexible vessels, which is better for safety, because Zerotors are placed, in this case, in separate isolated, not communicating vessels.

Foundations 1, in which the horizontal support element 2 consists of horizontally laid pipes 11, can be installed on watercourses without plugging the pipes 11, which will serve in this case for water passage.

The installation inside the foundation or near it of devices for artificial cooling of the base makes it possible to increase the bearing capacity of the soils of the base 8 and increase the reliability of the "foundation - foundation" system.

Chemical protection of soils of base 8 also increases the bearing capacity and reliability of the "foundation - foundation" system.

The cavities formed by the elements or parts considered in examples 1 and 2 of the metal foundations of shallow laying can be concreted, then such parts become rigid reinforcement and increase the bearing capacity of the foundation. However,

Concreting of the metal foundation of shallow laying increases its durability.

Cutouts in a horizontal sheet support element or rarefaction of pipes or other rolled, bent or welded profiles in a composite horizontal support element reduces metal consumption and foundation mass, but has little effect on the deformability of the base as a whole.

The above two examples do not exhaust all possible structural options for the implementation of the shallow metal foundation in accordance with the claims in view of the possible variety of execution forms, types, types, etc., as well as the spatial arrangement of the elements making up the proposed shallow metal foundation.

The shallow metal foundation has a minimum mass (almost an order of magnitude lighter than reinforced concrete with the same bearing capacity) and is not subject to shock losses during transportation and transshipment at transshipment bases. This significantly reduces transport and material costs in the construction of foundations in remote areas where there are no bases for the construction industry. Such foundations can be mounted using lightweight taps or manually. In the factory, they can be placed: insulation, grinders, devices for artificial cooling of the base, etc., painted, protected by a corrosion-resistant coating, etc. Possible maximum factory readiness of shallow metal foundations and their high transportability facilitate, simplify and increase the efficiency of their use in remote, undeveloped areas.

Claims (4)

1. The metal foundation of shallow laying, consisting of metal elements and parts, characterized in that it contains a horizontal support element and vertical stiffeners mounted on top of it, supporting the support parts installed above for the structures of the aboveground part of the building. 2. The metal foundation according to claim 1, characterized in that it is equipped with distribution elements for combining it in joint work with adjacent shallow metal foundations. 3. The metal foundation according to claim 1, characterized in that the cavity formed by its elements and parts are concreted. 4. The metal foundation according to claim 1, or 2, or 3, characterized in that its elements and parts are protected by a corrosion-resistant coating.