RU116544U1 - COMBINED MONOLITHIC VERTICAL CYLINDER TANK - Google Patents

Abstract

Precast-monolithic vertical cylindrical tank, including an inner metal cylindrical shell and an outer reinforced concrete shell, characterized in that to increase the strength and increase the volume of the structure, the reinforced concrete shell is made of a precast-monolithic multi-modular one, while the outer prefabricated panels and the inner metal cylindrical shell are used during the construction period as a non-removable formwork, filled with multi-modulus stress concrete, which provides stress for both the outer and inner shells.

Description

The utility model relates to the field of construction, in particular to the construction of ground vertical cylindrical tanks for storing liquids.

A well-known tank with a multilayer wall, including an inner metal shell, heat-insulating material and an outer concrete shell (US Patent 3464175, according to CL 52249 from May 26, 1966).

The disadvantages of this tank are the complexity of its construction, the need for additional external formwork when creating a concrete shell, the complexity of the calculation. In addition, such a tank is designed to store a small volume of product.

The closest to the utility model for the technical solution is the tank body, consisting of an internal sealing metal shell and an external prestressed bearing shell of reinforced concrete blocks with the placement of prestressed reinforcement beams in the channels and pipes (USSR Author's Certificate No. 310464, Cl. C21C 13/08 , 1971).

The main disadvantages of such structures are peripheral reinforcement, which predetermines greater deformability, the difficulty of creating prestressing and calculation

The objective of the utility model is to increase the reliability of the tank, increase the volume of stored fluid, simplify the design of the tank body.

This is achieved by the fact that the external reinforced concrete shell is multimodular, while the internal load-bearing sealing metal shell and external supporting precast concrete panels are used as fixed formwork, which is filled with multimodular stress-strain concrete, providing a wall of equal strength in thickness and creating the necessary prestressing as internal and external shells.

The essence of the utility model lies in the fact that the precast-monolithic vertical cylindrical tank includes an internal supporting sealing metal shell and an external supporting reinforced concrete shell, while the external shell is made of precast-monolithic multimodular, and the space between the shells is filled with multimodular tensioning concrete, which creates the necessary stress as outer and inner shells.

The technical result consists in the fact that the use of reinforced concrete panels coupled with prestressing concrete increases the stability of the wall of the inner metal shell, which allows the construction of large tanks. Reinforced concrete panels and tensile concrete protect the inner metal shell from corrosion and increase the fire resistance of the tank, which is positive for the design, in view of the constant tightening of fire safety standards.

Compared with existing solutions, the proposed cylindrical tank is economically more profitable, since it can be used to store large volumes of liquids, the erection time of the proposed tank is shorter compared to existing solutions. Such tanks have high fire resistance, which allows them to be erected at a small distance from each other, which saves space, as well as technological production capacity.

The essence of the utility model is illustrated by drawings, where in Fig.1 shows a cross section of the proposed tank body; figure 2 - shows a fragment of the multilayer shell of the tank; figure 3 - shows a fragment of the junction of prefabricated reinforced concrete panels of the external supporting reinforced concrete shell;

The precast-monolithic tank body consists of an internal load-bearing sealing metal cage 1, multimodular tensile concrete 2 and 3, an external load-bearing shell made of prefabricated modular reinforced concrete panels 4, separation wire 5, steel ropes 6, outlets of reinforcement 7, concrete mix 8.

Reinforced concrete panels 4 are connected to each other in the vertical direction into the groove using steel ropes 6 passing through hemispherical channels in the panels along the entire height of the structure, in the horizontal direction, the connection is made by welding reinforcing outlets from the panels with further concreting of the space between the panels. A drawing of a panel connection unit is shown in FIG. 3.

The space between the inner metal shell and the outer reinforced concrete shell is filled with multimodal tensioning concrete 2 and 3. The space is filled at the same time with two concrete mixtures, providing concrete of equal strength, but with different elastic modulus values, while the elastic modulus of the concrete layers changes according to a law that ensures equal stresses along the wall thickness during operational impacts Separation grid 6 prevents the mixing of concrete 2 and 3 when it is fed into Design. When building strength, concrete 2 and 3 expands, creating stress in the shells 1 and 4.

External reinforced concrete panels 4 from the side adjacent to the metal shell at the factory are treated with a sandblasting machine to create additional surface roughness for better adhesion to stress concrete 2 and 3. This solution avoids the use of various anchor devices for connecting the inner and outer bearing shells, which , in turn, allows you to accelerate the construction of the structure as a whole.

Claims (1)

A precast monolithic vertical cylindrical tank including an inner metal cylindrical shell and an outer reinforced concrete shell, characterized in that to increase strength and increase the volume of the structure, the reinforced concrete shell is made of a precast monolithic multimodular, while the external precast panels and the inner metal cylindrical shell are used during the construction period as an indelible formwork, filled with multimodular tensile concrete, providing tension as external, that to and the inner shells.