RU2729540C1 - Method for erection of filler structures using hydrosphere hydraulic formwork - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to methods of erection of structures from hardening material. Method of erection of flood structures with the use of hydraulic form is characterized by the fact that for formation of future walls there are used at least two closed shells, limiting distribution of hardening material of walls, wherein inner shell is filled with liquid, and hardening material is placed between inner and outer shells.

EFFECT: technical result is reduction of labour intensity of process, as well as reduction of time spent on erection of structures.

8 cl

Description

The technical field to which the invention relates

The present method relates to methods of erecting structures.

State of the art

Methods for erecting structures using removable and non-removable formwork are known from the prior art. There are also known methods of erecting dome structures by spraying concrete on a pneumatic dome.

Disclosure of invention

The problem to be solved by the claimed technical solution is to increase the number of methods for the construction of structures and reduce the labor intensity of the process, as well as to reduce the time spent on the construction of structures.

The technical result provided by the given set of features is to reduce the labor intensity and time of the process of erecting structures.

This task is achieved due to the fact that:

1. A method of erecting cast structures using hydraulic formwork, characterized in that at least two closed shells are used to form future walls, limiting the propagation of the solidifying wall material, and the inner shell is filled with liquid, and the solidifying material is placed between the inner and outer shells.

2. A method of erecting cast structures using a hydraulic formwork, according to claim 1, characterized in that a reinforcing structure is preliminarily placed in the space filled with the hardening material.

3. A method of erecting cast structures using a hydraulic formwork, according to claim 1, characterized in that a reinforcing structure consisting of movably interconnected links is preliminarily placed in the space filled with the hardening material.

4. A method of erecting cast structures using a hydraulic formwork, according to claim 1, characterized in that a reinforcing structure consisting of a flexible material is preliminarily placed in the space filled with the hardening material.

5. A method of erecting cast structures using a hydraulic formwork, according to claim 1, characterized in that the hydro and electrical wiring is preliminarily placed in the space filled with the hardening material.

6. A method of erecting cast structures using a hydraulic formwork, according to claim 1, characterized in that hollow figures are preliminarily placed in the space filled with the hardening material, forming cavities after the material has hardened, preventing heat conduction and used for technical needs.

7. A method for erecting cast structures using hydraulic formwork, according to claim 1, characterized in that the number of shells is greater than 2, and the space between them is filled with various hardening materials.

8. A method of erecting cast structures using a hydraulic formwork, according to claim 1, characterized in that not one, but several inner shells are used, filled with liquid for a device inside several rooms or complex shapes.

Implementation of the invention

In the simplest version, the method is implemented as follows:

A large hemisphere of flexible material, for example, of thick plastic reinforced with PVC threads, is installed on the prepared site. Inside the large hemisphere is a smaller, closed hemisphere of the same material. The small hemisphere is filled with water, then the space between the small and large hemisphere is filled with hardening materials, for example, concrete. After the concrete has hardened, the water from the inner hemisphere is drained, the large and small shells are either removed, or used as an additional wall covering.

The outer large shell can have openings for windows and doors, closed at the ends with the same material, while in the inner shell the slots are not arranged and the openings are cut in it after the material has hardened and the water is drained.

Between the inner and outer sheaths, during their manufacture, reinforcing elements can be placed, for example, a net woven from chain links or a net woven from fiberglass ropes.

If another large hemisphere is placed on top of the large shell, the gap between the second and third shells can be filled with another hardening material, for example, hardening foam, which in this case will act as thermal insulation.

If you place not one, but several figures filled with liquid inside a large hemisphere, after the concrete has hardened inside, for example, not one, but two rooms can be organized.

The inner hemisphere, due to the fact that it will be filled with water or other liquid having a specific weight lighter than concrete, will float, the float height can be limited by special limiters, while after hardening, the structure will have a flooded floor, which, at a certain thickness, can serve as a foundation. Located inside, filled with liquid and separated by dividers, will be located one above the other, the structure can have several floors separated by ceilings.

Claims (8)

1. A method of erecting cast structures using hydraulic formwork, characterized in that at least two closed shells are used to form future walls, limiting the propagation of the solidifying wall material, and the inner shell is filled with liquid, and the solidifying material is placed between the inner and outer shells. 2. A method of erecting cast structures using a hydraulic formwork according to claim 1, characterized in that a reinforcing structure is preliminarily placed in the space filled with the hardening material. 3. A method of erecting cast structures using a hydraulic formwork according to claim 1, characterized in that a reinforcing structure consisting of movably interconnected links is placed in the space filled with the hardening material. 4. A method of erecting cast structures using a hydraulic formwork according to claim 1, characterized in that a reinforcing structure consisting of a flexible material is preliminarily placed in the space filled with the hardening material. 5. A method of erecting cast structures using a hydraulic formwork according to claim 1, characterized in that the water and electrical wiring is placed in the space filled with the hardening material. 6. A method of erecting cast structures using a hydraulic formwork according to claim 1, characterized in that hollow figures are preliminarily placed in the space filled with the hardening material, forming cavities after the material has hardened, preventing heat conduction and used for technical needs. 7. A method of erecting cast structures using a hydraulic formwork according to claim 1, characterized in that the number of shells used is greater than two, and the space between them is filled with various hardening materials. 8. A method of erecting cast structures using a hydraulic formwork according to claim 1, characterized in that several inner shells are used, filled with liquid for a device inside several rooms or complex shapes.