SU1174549A1 - Skeleton of single-storey earthquake-proof building - Google Patents

Abstract

FRAME OF ONE-FLOOR SEISMIC RESISTANT BUILDING, including foundations, transverse frames, struts, connections in the form of descending bracings attached to the frames in the nodes connecting them with struts that, in order to reduce the bone material and simplify the construction, each additional foundation is clamped in the concrete preparation of the floor, and the bracing is connected to the additional foundation with the displacement of their axes relative to the center the axis of the additional foundation on the value of c, equal to g JJ 2 H - a + h where h, t is the height of the additional func g of the day; the distance between the axes of the axis and the O) frame; H is the height from the floor level to the level of bracing of frames to the frames; a is the distance between the top of the foundation and the floor mark. 1

Description

The invention relates to the construction and can be used in the construction of one-story buildings, mainly for agricultural purposes, built with the use of three-hinged frames in seismic areas.

The purpose of the invention is to reduce material consumption and simplify the design,

Figure 1 shows the frame of a one-story seismic building; figure 2 - node 1 in figure 1.

The frame of a single-floor seismic building contains foundations 1, transverse frames 2, struts 3, communications in the form of descending braces 4, supplementary foundations 5 and concrete preparation 6 of the floor 7. Supplementary foundations 5 are installed in the center of the span between the racks 8 of the frames 2 and clamped into concrete preparation 6 of floor 7, braces 4 are attached to the uprights 8 of frames 2 at the nodes connecting them with spacers 3 and connected to additional foundations 5. with their axes 9 displaced relative to the central axis 10 of additional foundations 5 by an amount equal to

g

2 N - a + h (,

where bA - the height of the additional fudamenta;

E - the distance between the axes

ram;

H - height. From the floor mark to the level of bracing of frames to the frames;

a is the distance between the top

additional foundation and floor marker.

This offset braces 4 provides the intersection of the axes of 9 braces 4 exactly in the center of the additional foundation 5.

The frame works as follows

Under seismic action, compressive forces appear in one of the struts 4, and tensile forces appear in the other. At the same time, in the compressed diagonal 4, the vertical component is always directed downwards, and in stretched form - upwards, the horizontal components are always directed in one direction and create a relatively positive sign relative to the center of gravity of the additional foundation 5. Multidirectional vertical components, installed offset from the axis 10 of the additional foundation 5, create a reverse moment, i.e. in this case, a conditionally negative sign. In this case, the displacement by the specified value C ensures the equality of the absolute values of the moments and their mutual balancing.

Thus, the additional foundation 5 does not experience the effects of vertical loads and moments, and the shear forces are easily perceived with the surrounding array of concrete preparation 6 of the floor 7. Therefore, the foundation under foundation 5 does not experience stresses, which makes it possible to build the foundation 5 of minimum dimensions, constructive data.

An additional foundation 5 is made of the simplest shape in the form of a prefabricated element of a rectangular prism.

Claims (2)

FRAME OF ONE-STOREY SEISMIC-RESISTANT BUILDING, including foundations, transverse frames, struts, ties in the form of descending braces attached to frames in the nodes connecting them with struts additional foundations. installed in the center of the spans between the uprights of the frames, and concrete floor preparation, characterized in that, in order to reduce bone material and simplify the design, each additional foundation is pinched in the concrete floor preparation, and the braces are connected to the additional foundation with the displacement of their axes relative to the central axis of the additional foundation for a value of c equal to - ₌ h f _______I____ - 2 N - a + h *. ’Where bf is the height of the additional foundation; ? - the distance between the axes of the racks of the frames; H - height from the floor mark to the level of attachment of the braces to the frames; and - the distance between the top of the foundation and the floor mark. FIG. 1 winp ⁰⁰ · ^>