RU143287U1 - MULTI-STORED FRAME-SEISMIC-RESISTANT BUILDING WITH DIAPHRAMIC FRAMES - Google Patents

Abstract

A multi-storey earthquake-resistant frame building with diaphragm frames, containing a frame frame, vertical stiffeners in the form of reinforced concrete diaphragms, characterized in that the device has diaphragms in the form of frames with crossbars, diaphragm frame columns, ordinary frames, ordinary frame columns, ordinary frame crossbars, the columns of the frames-diaphragms have a section height of 2 or more times the height of the section of the columns of ordinary frames, the height of the cross-section of the crossbars of the frames-diaphragms is one and a half or more times the height of the section of the columns of the frames-diaphragms, and the similarity of the forms of deformation anija-frames and diaphragms ordinary frames is achieved by adjusting the ratio of linear rigidities crossbars and columns, diaphragms frames.

Description

The utility model relates to the construction of multi-story frame buildings of a structural frame-and-link scheme with reinforced concrete structures of precast, monolithic and precast-monolithic designs.

A multi-storey earthquake-resistant building is known, the frame of which is made according to a frame structural scheme, characterized by rigid knots of mating bolts with columns, (see Central Research Institute of Industrial Buildings of the USSR GOSTSTROY. Manual on the design of frame industrial buildings for construction in seismic areas (to SNiP II-7-81), Moscow, Stroyizdat, 1984, sections 3.61, 3.72).

Its disadvantage is the lack of structural strength under the action of a seismic load, which is completely perceived by the frame frames.

As a prototype, a multi-storey earthquake-resistant building is adopted, the frame of which is made according to a coupled structural scheme with vertical stiffness abutments in the form of reinforced concrete diaphragms, continuous along the entire height of the building. (see Central Research Institute for Industrial Buildings of the USSR GOSTSTROY. Manual on the design of frame industrial buildings for construction in seismic areas (to SNiP II-7-81), Moscow, Stroyizdat, 1984, sections 3.61, 3.62, 3.72).

Its disadvantage is the difference in the forms of deformation of the diaphragm and the ordinary frames, as a result of which there is a complex internal interaction of structural elements, while the diaphragms through the ceilings transfer additional load to the ordinary frames.

The technical task is to improve the design of the diaphragm in order to ensure the similarity of the deformation forms with the transverse frames of the building, but having significantly greater rigidity compared to them.

The technical result is an increase in the stability and strength of the building under the action of seismic loads by reducing the load on ordinary frames due to the similarity of the forms of deformation of the diaphragms and ordinary frames.

It is achieved by the fact that the device containing the frame frame, vertical stiffeners in the form of reinforced concrete diaphragms, has diaphragms in the form of frames with crossbars, columns of diaphragms, ordinary frames, columns of ordinary frames, crossbars of ordinary frames, while the columns of diaphragms have the cross-sectional height is 2 or more times the cross-sectional height of the columns of the ordinary frames, the cross-sectional height of the crossbars of the frame-diaphragms is one and a half or more times the cross-sectional height of the columns of the diaphragms, and the similarity of the deformation forms of the frames-diaphragms and ordinary frames is achieved by selecting cross-link stiffness of crossbars and columns of frame diaphragms.

The similarity of the forms of deformation of the frame-diaphragms and ordinary frames is achieved by calculation - by selecting the ratio of the linear stiffness of the crossbars and the columns of the frame-diaphragms, which allows not to take into account the deformation of the crossbar and consider it rigid.

The columns of the diaphragm frame have a section height of 2 or more times the section height of the columns of the ordinary frames, which leads to an increase in the moment of resistance by 4 or more times and, accordingly, an increase in the strength of the columns of the diaphragm frame compared to the ordinary columns. The moment of inertia of the columns of the frame-diaphragm increases by 8 or more times and, accordingly, the stiffness of the columns of the frame-diaphragm increases in comparison with the columns of ordinary frames.

We take the height of the section of the columns of the ordinary frames - h, then the height of the section of the columns of the frame-diaphragm - 2h; sectional width of columns of ordinary frames and columns of frame diaphragms - b.

The moment of resistance W of rectangular cross section is determined by the well-known formula:

the moment of inertia I of a rectangular cross section is determined by the well-known formula:

Ordinary frames columns resistance moment is: W _p = bh ^2/6; the moment of resistance columns, diaphragms frames equals: W = 4bh _d ^2/6. From the ratio of W _d / W _p = 4 it follows that W _d more than W _p 4 times.

The moment of inertia of ordinary frames columns is: I _p = bh ^3/12; moment of inertia of the columns, diaphragms frames is: I _d = 8bh ^3/12. From the ratio of I _d / I _p = 8 it follows that I _d more than I _p 8 times.

The design is illustrated by the drawing (figure 1 - a fragment of a multi-story building with a frame-diaphragm in the context). The device has crossbars 1 of the frame-diaphragm 2, columns 3 of the frame-diaphragm 2, crossbars 4 and columns 5 of ordinary frames.

The device operates as follows.

Crossbars 1 and columns 3 form a diaphragm frame 2 of significantly greater rigidity compared to ordinary frames consisting of crossbars 4 and columns 5.

Due to the rigid crossbars 1, the frame-diaphragm 2 is deformed according to a shear pattern, similar to ordinary frames.

When choosing the height of the cross-section of columns 3 of the frame-diaphragm 2 two or more times the height of the cross-section of the columns 5 of ordinary frames and the height of the cross-section of the crossbars 1 of the frame-diaphragm 2 one and a half or more times the height of the cross-section of the columns 3 of the frame-diaphragm 2, the similarity of the forms of deformation of the frames -diaphragms and ordinary frames, with a significant increase in the strength and rigidity of the frames-diaphragms relative to ordinary frames. This leads to a more even distribution of internal forces in the building and an increase in its ability to absorb seismic loads.

The positive effect is an increase in the stability of the frame building with the diaphragm frames of the proposed design to the action of seismic load, as a result of which such a building can remain safe for people and equipment in the building at the time of exposure.

Sources of information taken into account:

1. Baykov V.N., Sigalov E.E. Reinforced concrete structures. - M.: Stroyizdat, 1991, p. 527-528.

2. Spits B.C. Reinforced concrete and stone structures of earthquake-resistant buildings and structures. - Tomsk: Publishing house Tom. state architect - builds. Univ., 2006, p. 90 (Prototype).

Claims (1)

A multi-storey earthquake-resistant frame building with diaphragm frames, containing a frame frame, vertical stiffeners in the form of reinforced concrete diaphragms, characterized in that the device has diaphragms in the form of frames with crossbars, diaphragm frame columns, ordinary frames, ordinary frame columns, ordinary frame crossbars, in this case, the columns of the frame-diaphragms have a sectional height 2 or more times the height of the section of the columns of ordinary frames, the cross-section of the crossbars of the frame-diaphragms is one and a half or more times the height of the section of the columns of the frame-diaphragms, and the similarity of the deform anija-frames and diaphragms ordinary frames is achieved by adjusting the ratio of linear rigidities crossbars and columns, diaphragms frames.