RU2770024C1 - Gabion foundation - Google Patents

Abstract

FIELD: environmental construction.

SUBSTANCE: invention relates to environmental construction and can be used as foundation supports in recreation areas or other places where it is difficult to deliver concrete. The gabion foundation includes steps of cylindrical gabions installed concentrically and forming a structure, so that the diameter of the cylindrical gabions increases as they are deepened, while the shells of the upper gabions are anchored into the lower ones, an impervious device is provided under the lower cylindrical gabion, and the tangent to the corners of the steps has a concave surface , which is made with a gradual increase in the angle of rotation. Gabion shells are made of recycled steel cord tires. The diameter of the holes in the side flanges of the lower shells is less than the diameter of the upper shells, the anchoring of the upper shells into the lower shells is made using at least three bolts fixed with nuts, uniformly penetrating the contacting side flanges of the shells along the circumference in the middle of their overlap, the length of these bolts is less than the height of the lower shells, but exceeds half of them height. The shells of the lower two steps of the foundation are made of recycled steel cord tires from heavy vehicles, and the shells of the upper steps of the foundation are made of recycled steel cord tires from trucks or cars. Each shell of the upper steps of the foundation, starting from the bottom from the third, is made of several identical recycled tires fastened together, the number of which is at least two.

EFFECT: ensuring an increase in the strength and stability of the foundation in relation to dynamic and seismic loads, as well as reducing the cost of the foundation.

1 cl, 3 dwg

Description

The invention relates to environmental construction and can be used as foundation supports in recreation areas or other places where it is difficult to deliver concrete.

Known prefabricated concrete foundation having a stepped structure, including prefabricated concrete elements (see Bergen R.I., Dukarsky Yu.M., Semenov V.B. and Russ F.V. Engineering structures. M .: Higher school, 1989 ., p. 349, Fig. 22.2).

The disadvantages of this foundation are the complexity of their use on sandy soils in recreation areas and the relative high cost.

Of the known technical solutions, the closest to the claimed technical solution (i.e., the prototype) is a gabion foundation, which includes steps of cylindrical gabions installed concentrically and forming a telescopic structure, so that the diameter of the cylindrical gabions increases with depth. The shell of the upper gabions is anchored into the lower ones. An impervious device is provided under the lower cylindrical gabion. The tangent to the corners of the steps has a concave surface, which is made with a gradual increase in the angle of rotation. The number of cylindrical gabions is at least two. In gabions, a woven metal or other mesh is used as a mesh (see the patent of the Russian Federation for invention No. 2457294, 2010).

The main disadvantage of the foundation of the prototype are the limited strength and stability in relation to dynamic and seismic loads, as well as the relative high cost of grids used in gabions.

The objective of the invention is to increase the strength and stability of the foundation in relation to dynamic and seismic loads, as well as to reduce the cost of the foundation.

To solve the problem in the gabion foundation, which includes steps of cylindrical gabions installed concentrically and forming a structure, so that the diameter of the cylindrical gabions increases as they deepen, while the shells of the upper gabions are anchored into the lower ones, an impervious device is provided under the lower cylindrical gabion, and the tangent to the corners of the steps has a concave surface, which is made with a gradual increase in the angle of rotation, the gabion shells are made of recycled metal-cord tires, while the diameter of the holes in the side flanges of the lower shells is less than the diameter of the upper shells, the anchoring of the upper shells into the lower ones is made using at least three bolts fixed with nuts, uniformly penetrating the contacting side flanges of the shells in the middle of their overlap, the length of these bolts is less than the height of the lower shells, but exceeds half their height, and the shells of the lower two steps of the foundation are are made of recycled steel cord tires from heavy vehicles, and the shells of the upper steps of the foundation are made of metal cord recycled tires from trucks or cars, while each shell of the upper steps of the foundation, starting from the bottom from the third, is made of several identical recycled tires fastened together, the number of which at least two.

The essence of the invention lies in the fact that the shells of gabions are made of recycled metal cord tires, while the diameter of the holes of the side flanges of the lower shells is less than the diameter of the upper shells, the anchoring of the upper shells into the lower shells is carried out using at least three bolts fixed with nuts, uniformly penetrating the contacting side flanges along the circumference shells in the middle of their overlap, the length of these bolts is less than the height of the lower shells, but exceeds half of their height, and the shells of the lower two steps of the foundation are made of recycled steel cord tires from heavy vehicles, and the shells of the upper steps of the foundation are made of metal cord recycled tires from trucks or cars, at the same time, each shell of the upper steps of the foundation, starting from the bottom with the third one, is made of several identical recycled tires fastened together, the number of which is at least two.

The first new feature, which consists in the fact that the gabion shells are made of recycled metal cord tires, allows the proposed technical solution to acquire a new property, which consists in the fact that recycled waste is used as the foundation gabion shell, having unique geometric and mechanical characteristics peculiar to them. , absent in the known technical solutions. The second new feature, which consists in the fact that the diameter of the holes of the side flanges of the lower shells is less than the diameter of the upper shells, allows the proposed technical solution to show a new property, which consists in the fact that a common contact surface is created between adjacent shells of the gabion foundation, which allows them to be fixed between them in the simplest way. itself and create conditions for the formation of anchoring in the body of the foundation. The third new feature, which consists in the fact that the anchoring of the upper shells into the lower shells is carried out using at least three bolts fixed with nuts, uniformly penetrating the contact side flanges of the shells along the circumference in the middle of their overlap, allows the proposed technical solution to show new properties, consisting in the fact that the most optimal places, their minimum number and the most accessible and convenient means for forming the simplest and most reliable connection between adjacent foundation gabion shells and creating possibilities for anchoring the upper gabions in the lower foundation gabions. The fourth new feature, which consists in the fact that the length of these bolts is less than the height of the lower shells, but exceeds half of their height, allows the proposed technical solution to acquire a new property, which lies in the fact that the optimal bolt height limits are determined for reliable anchoring of the upper gabions of the foundation in stone aggregate lower foundation gabions. The fifth new feature, which consists in the fact that the shells of the lower two steps of the foundation are made of recycled steel cord tires from heavy vehicles, allows the proposed technical solution to acquire a new property, which consists in the fact that it is the recycled steel cord tires from heavy vehicles that make it possible to form the lower cylindrical steps of the gabion foundation with optimally reliable dimensions, i.e. not less than 2.0 m in diameter and not less than 0.5 m in height. on the third, it is made of several identical recycled tires fastened together, the number of which is at least two, allows the proposed technical solution to acquire new properties, which consist in achieving compactness, expanding design solutions when designing the foundation and observing the condition of concavity of the surface tangent to the corners of the foundation steps, which performed with a gradual increase in the angle of rotation. These new features and properties are absent in the known technical solutions and allow the proposed technical solution to be effective, which consists in increasing the strength and stability of the foundation in relation to dynamic and seismic loads, as well as in reducing the cost of the foundation as a whole.

The foregoing allows us to assert that the proposed technical solution meets the criteria of the invention "inventive step" and "novelty".

In FIG. 1 shows a gabion foundation; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows separately the node for connecting and anchoring the lower gabions of the foundation.

In FIG. 1, 2 and 3 the following elements of the gabion foundation are marked: 1 - gabion foundation; 2 - pit; 3 - upper cylindrical gabions; 4 - lower cylindrical gabions; 5 - stone filling of gabions; 6 - anchors; 7 - bolt; 8 - nut; 9 - impervious device.

The gabion foundation is constructed and works as follows. A pit 2 is opened in the ground, in which a gabion foundation 1 will be assembled. Cylindrical gabions 3 and 4 of various diameters are assembled in the pit 2, forming a stepped structure. Higher gabions with the help of anchors 6 made of long bolts 7 with nuts 8 are anchored in the stone filling 5 of the lower gabions, while the shells of adjacent shells are fastened together.

At the very bottom of the pit, lower cylindrical gabions 4 are made from recycled metal cord tires of heavy vehicles (for example, BelAZ trucks). , 0.9 m tread width and 0.8 m bore diameter). On top of it, a shell of the second stage of the gabion foundation is installed concentrically, which is used as a recycled steel cord tire smaller than the lowest tire (for example, a recycled tire with a diameter of 2.5 m, a tread width of 0.9 m and an internal hole diameter of 0.7 is used here). m). Before filling the lower shells of the gabion foundation with stone fill in them, at least in three places (through 120° around the circumference) in the middle of the overlap of the contacting side flanges of the tires (i.e. in the selected example, the overlap of the side contacting flanges is 15 cm, the middle of the overlap is 7.5 cm) through holes are drilled with a diameter equal to the diameter of anchor bolts 7 (for example, 2 cm). Anchor bolts 7 covered with an anti-corrosion coating are inserted into these holes with a length less than the height of the shell of the lower gabion, but more than half of its height (in our example, we choose the length of the lower anchor bolt 0.6 m). From below, we tighten the bolts 7 with nuts 8, fastening the shells (tires) of the lower cylindrical gabions 4. When assembled, the bolts 7 and nuts 8 form elements that, after filling the tire of the lowest gabion with stone material 5, perform the functions of anchors 6 (see Fig. 3). After that, they begin to form the shell of the foundation gabion third from the bottom. In our example, we choose two scrap metal cord tires from trucks of the same size (diameter 0.96 m, tread width 0.22 m, and inner hole diameter 0.51 m) and we fasten them together along the contact side flanges, for example, using a rubber glue. The resulting shell of the foundation gabion, third from the bottom, is concentrically installed on the foundation gabion shell second from the bottom. At least in three places (through 120° around the circumference) in the middle of the overlap of the contacting side flanges of the shell of the second gabion from the bottom and the bottom cover of the shell of the third gabion from the bottom of the foundation (i.e. in the selected example, the overlap of the side contacting flanges is 13 cm, the middle of the overlap is 7.5 cm) through holes are drilled with a diameter equal to the diameter of anchor bolts 7 (for example, 2 cm). Anchor bolts 7 covered with an anti-corrosion coating are inserted into these holes with a length less than the height of the shell of the lower gabion, but more than half of its height (in our example, we choose the length of the middle anchor bolt 0.6 m). From below, we tighten bolts 7 with nuts 8, fastening the shells from the bottom of the second and third gabions of the foundation. When assembled, bolts 7 and nuts 8 form elements that, after filling the tire of the second gabion from the bottom with stone material 5, act as anchors 6 between the second and third gabions from the bottom of the foundation.

At the last stage, they begin to form the shell of the uppermost gabion of the foundation. In our example, we choose three metal cord recycled tires from passenger cars of the same size (diameter 0.63 m, tread width 0.19 m and inner hole diameter 0.37 m) and we fasten them together along the contact side flanges, for example, using rubber glue . The obtained shell of the uppermost gabion of the foundation is concentrically installed on the third gabion shell of the foundation from the bottom. At least in three places (through 120° around the circumference) in the middle of the overlap of the contacting side flanges of the upper cover of the shell of the third gabion from the bottom and the bottom cover of the shell of the uppermost gabion of the foundation (i.e. in the selected example, the overlap of the side contacting flanges is 6 cm, the middle of the overlap is 3 cm) through holes are drilled with a diameter equal to the diameter of anchor bolts 7 (for example, 2 cm). Anchor bolts 7 covered with an anti-corrosion coating are inserted into these holes with a length less than the height of the shell of the third gabion from the bottom, but more than half of its height (in our example, we choose the length of the upper anchor bolt 0.3 m). From below, we tighten bolts 7 with nuts 8, fastening the shells of the upper and third gabions from the bottom of the foundation. When assembled, bolts 7 and nuts 8 form elements, which, after filling the shells of the upper and third bottom gabions of the foundation with stone material 5, act as anchors 6 between the upper and third bottom gabions of the foundation. This design gabion foundation 1 has a large bearing capacity with a minimum consumption of building material. To prevent settlement of the gabion foundation 1 caused by mechanical suffusion, an impervious device 9 is placed under it at the bottom of the pit 2.

The proposed gabion foundation is relevant for construction in fragile sandy and sandy loamy soils, in recreation areas. The proposed design of a cylindrical multi-stage gabion has the required bearing capacity with a minimum consumption of building material.

The technical and economic efficiency of the proposed gabion foundation, in comparison with the prototype gabion foundation, lies in the fact that due to the use of recycled metal cord tires as shells of the gabion foundation, the stability of the gabion foundation in relation to dynamic and seismic loads is increased, and the proposed foundation design bypasses cheaper due to the use of recycled waste.

Claims (1)

Gabion foundation, including steps of cylindrical gabions installed concentrically and forming a structure, so that the diameter of the cylindrical gabions increases as they are deepened, while the shells of the upper gabions are anchored into the lower ones, an impervious device is provided under the lower cylindrical gabion, and the tangent to the corners of the steps has a concave surface, which is made with a gradual increase in the angle of rotation, characterized in that the gabion shells are made of recycled metal cord tires, while the diameter of the holes of the side flanges of the lower shells is less than the diameter of the upper shells, the anchoring of the upper shells into the lower ones is made using at least three bolts fixed with nuts, uniformly around the circumference of the shells penetrating the contacting side flanges in the middle of their overlap, the length of these bolts is less than the height of the lower shells, but exceeds half of their height, and the shells of the lower two steps of the foundation are made of of steel cord tires from heavy vehicles, and the shells of the upper steps of the foundation are made of metal cord recycled tires from trucks or cars, while each shell of the upper steps of the foundation, starting from the bottom from the third, is made of several identical recycled tires fastened together, the number of which is not less than two.

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