RU2638682C1 - Dome structure - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: dome structure includes large-sized reinforced concrete slabs, the longitudinal ribs of which are directed along the meridians, rigidly connected in the lower part to the support ring; a ring of foam concrete and a reinforced concrete base ring are additionally included in it. The ring of foam concrete is rigidly connected to the support ring and the reinforced concrete base ring, all the rings being buried in the soil.

EFFECT: increasing the structure reliability at earthquakes.

1 dwg

Description

The invention relates to the construction of dome structures and can be used in civil and industrial construction in earthquake-prone areas.

Known dome structure (RU, No. 2490398, C01 E04B 1/32, publ.: 08.20.2013), containing a rigid frame with outer and inner shells forming a cavity with low atmospheric pressure. The inner shell is made of textile fabric, and the cavity formed by the shells is connected to a fan supporting a previously calculated difference between the dome and atmospheric pressure in the cavity, ensuring uniform stretching of the inner shell of a given spherical shape. The rigid frame is made collapsible and formed by a network of triangles.

The disadvantage of this technical solution is the low reliability of the structure during earthquakes.

Known dome structure (RU, No. 2100549, C1 E04H 9/00, E04B 1/32, publ.: 12/27/1997), containing vertical tubular sector-type frames mounted on the base around the pillar-liner of compliant material and fastened below by means of horizontal tubular frames of selector type laid on the base. A mesh of plastic wire is stretched along the vertical tubular frames of the selector type, onto which a layer of compliant material is laid, covered with a protective film on top. All frames are fastened to each other by plate clamps.

The disadvantage of this technical solution is the low reliability of the structure during earthquakes.

The closest in technical essence to the claimed invention is a domed structure (Ponomarev, V.A. Architectural design: textbook / A.V. Ponomarev. - 2nd ed. Moscow: Architecture-S, 2009. - 736 p. , ill., p. 479), including large-sized cylindrical slabs whose length is equal to the radius of the dome, the upper and supporting ring. The longitudinal edges of the plates are directed along the meridians, in addition, transverse ribs are made in the plates. The upper ring is made of reinforced concrete L-shaped section with a special table for supporting the upper part of the plates. The support ring is made of separate reinforced concrete elements that are mounted on supports.

The disadvantage of this technical solution is the low reliability of the structure during earthquakes.

The problem to which the invention is directed, is to increase the reliability of the structure during earthquakes.

The task is achieved in that in a dome structure, including large-sized reinforced concrete slabs, the longitudinal ribs of which are directed along the meridians, in the lower part rigidly connected to the support ring, it additionally includes a foam concrete ring and a reinforced concrete base ring, and the foam concrete ring is rigidly connected to supporting ring and reinforced concrete ring of the base, while all the rings are buried in the ground.

Among the mechanical characteristics of materials, damping ability is of great importance - the ability to absorb energy during their cyclic deformation. In order to enhance the damping of the vibrational effects of seismic waves on the dome structure, an additional artificial energy absorber in the form of foam concrete inserts was introduced into its design. The propagation velocity of an elastic wave in a material decreases with an increase in the entropy of the main phase and a decrease in the coefficient of thermal conductivity, which can be explained by the energy ability of a substance to dissipate the energy communicated to it and reduce the vibrations of the crystal lattice, which is responsible for the phonon conductivity in the solid phase of such a material.

The increase in the damping properties of the dome structure is associated with the following circumstance. Monolithic continuous structures of the structure are a complex of many jointly working reinforced concrete elements (beams, slabs, racks, walls, etc.). Thus, the vibrational energy of seismic waves is absorbed not only in the element on which it directly acts, but also in all other structural elements of the structure. Therefore, if we use mainly foam concrete inserts with solid phases and a high entropy content in the construction structures, the measure of scattering of elastic waves generated by seismic waves in them will increase. This solution will help to significantly increase the coefficient of unloading of the structure from dynamic loads caused by the effects of seismic waves, and also, therefore, increase the reliability of structures during earthquakes.

At the filing date, according to the authors and the applicant, the claimed dome structure is not known and this technical solution has world novelty.

According to the authors and the applicant, the claimed invention meets the eligibility criteria - inventive step.

The claimed invention is industrially applicable and can be used in civil and industrial engineering.

The essence of the technical solution of the dome structure is illustrated in the drawing.

The drawing shows a dome structure in section.

The dome structure contains: large-sized reinforced concrete slabs 1 (drawing), the longitudinal ribs of which are directed along the meridians, in the lower part are rigidly connected to the support ring 2, an additional ring of foam concrete 3 and a reinforced concrete ring of base 4 are additionally included in it, and the ring of foam concrete 3 is rigidly connected with a support ring 2 and a reinforced concrete ring of the base 4, while all the rings are buried in the ground.

The dome structure works as follows: when seismic waves act on the reinforced concrete ring of the base 4, vibrational effects are transmitted to the foam concrete ring 3, which dampens them.

This design solution allows to increase the reliability of the dome structure during earthquakes in comparison with the prototype.

Claims (1)

A dome structure including large-sized reinforced concrete slabs, the longitudinal ribs of which are directed along the meridians, in the lower part are rigidly connected to the support ring, characterized in that it additionally includes a foam concrete ring and a reinforced concrete base ring, the foam concrete ring being rigidly connected to the support ring and reinforced concrete base ring, while all the rings are buried in the ground.

Images