RU2558869C1 - Erection method of pier foundation with expanded base - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction, namely to permafrost foundations. An erection method a pier foundation with an expanded base involves creation of a well by soil excavation, formation on the end of the cavity of the expanded base by arrangement in the lower part of the well of an explosive charge and its further blasting, with that, before cast concrete is introduced to the well, the foundation is reinforced. According to the invention, before the cavity of the enlarged base is formed, a casing pipe is introduced to the well to the level of the supposed enlarged based, and into the upper part of the casing pipe, which is not filled with concrete, there installed is a heat pipe after concreting, the lower end of which is arranged below lower permafrost level.

EFFECT: speed-up and simplification of erection of a foundation with a high load-carrying ability with simultaneous improvement of its reliability due to exclusion of warm-up of the pier foundation during summer season.

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Description

The invention relates to the field of construction, namely to the foundations in permafrost.

Known pile foundation with explosive broadening (patent for utility model No. 32137, IPC E02D 5/44, E02D 5/46, E02D 27/01, published: 09/10/2003) containing a columnar shaft made by forming a well in the ground with its subsequent filling with hardening material, a broadening sole located in the lower part of the trunk, the trunk being made up of prikamuletnoy and upper parts, and the shape of the broadening sole is formed by explosion of an explosive charge, and the columnar trunk is made with a reinforcing cage installed inside it, and as the hardening material used is a cast concrete.

A disadvantage of the known columnar foundation is its heating in the summer.

A known method of erecting a columnar foundation with camouflage broadening (prototype) (RF patent No. 2244780, IPC E02D 5/38, E02D 5/34, published: 01/20/2005), which includes creating a well by excavation, the formation of widening at the end of the cavity by placing in the lower part of the borehole of the explosive charge and its subsequent explosion, while the foundation is reinforced before the injection of cast concrete into the borehole.

The disadvantage of this method is the heating of the columnar foundation in the summer.

In the conditions of permafrost, the columnar foundation in the summer can increase the temperature of the soil, which leads to thawing of frozen soil, deformation and loss of bearing capacity of the foundation over time.

The objective of the invention is the creation of a method of erecting a foundation with high load-bearing capacity, which does not require a long erection time, while improving reliability by eliminating the heating of the column foundation in the summer.

The problem is solved in that in the method of erecting a columnar foundation with camouflage broadening, including creating a well by excavating the soil, forming an camouflage broadening at the end of the cavity by placing an explosive charge in the lower part of the well and its subsequent explosion, while cast concrete is introduced into the well before casting reinforcing the foundation, according to the invention, before the formation of a camouflage broadening cavity, a casing is inserted into the well to the level of the proposed camouflage broadening, and in ezapolnennuyu concrete upper portion of the casing after the concreting of the heat pipe is installed, the lower end of which is situated below the lower level of permafrost.

The introduction into the well before the formation of the camouflage broadening cavity of the casing to the level of the expected camouflage broadening, and the installation of the upper part of the casing after the concreting of the heat pipe, the lower end of which is located below the lower level of permafrost, allows to accelerate and simplify the construction of the foundation with high bearing capacity while increasing its reliability by eliminating the heating of the columnar foundation in the summer.

The drawing shows a vertical section of a columnar foundation with camouflage broadening.

The pillar foundation includes a well 1, a camouflage broadening cavity 2, a reinforcement 3, a casing 4. A heat pipe 5 is installed in the upper part of the casing 4 not filled with concrete, the lower end of which is located below the lower level 6 of permafrost.

The method is as follows.

A method of erecting a columnar foundation with camouflage broadening includes creating a well 1 by excavating the soil, forming camouflage broadening at the end of the cavity 2 by placing an explosive charge (not indicated) in the lower part of the well and then exploding it, while cast concrete is introduced into the well 1, carry out reinforcement of the foundation with reinforcement 3. According to the invention, before the formation of the camouflage broadening cavity 2, a casing 4 is inserted into the well 1 to the level of the proposed camouflage broadening, unfilled with concrete in the upper part of the casing 4 is installed after concreting the heat pipe 5, the lower end of which is situated below the lower level 6 permafrost.

The technical result of the invention consists in accelerating and simplifying the construction of a foundation with high bearing capacity while increasing its reliability by eliminating the heating of the columnar foundation in the summer.

Claims (1)

A method of erecting a columnar foundation with camouflage broadening, including creating a well by excavating the soil, forming an explosive charge at the end of the cavity by placing explosive charge in the lower part of the well and then blasting it, while reinforcing the foundation before introducing cast concrete into the well, characterized in that that before the formation of the camouflage broadening cavity, a casing is inserted into the well to the level of the supposed camouflage broadening, and into the top unfilled with concrete Yu portion of the casing after the concreting of the heat pipe is installed, the lower end of which is situated below the lower level of permafrost.

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