SU817183A2 - Multistorey prefabricated-monolithic building for seismic areas - Google Patents

Description

The invention relates to the construction of multi-storey buildings in seismic. kih areas.

By main auto № 263 849 is known a multistory building precast-modules ⁵ nolitnogo type for seismic areas, wherein the rack and crossbars adjacent prefabricated frames are installed at each floor with a gap relative to each other, and their surfaces · θ mutually facing parts made with increased roughness, anchor outlets are formed, and in the ends of the racks - outlets of reinforcing bars. The latter are joined within 15 figured cutouts of frames with working reinforcement of monolithic sections of columns.

The disadvantage of this design is the lack of connection of the reinforcing rods of the uprights of the frames of adjacent floors at the places of 20 bearing against each other, which leads to a weakening of the frame assembly of the frame and to an increase in the diameters of the working reinforcement of the monolithic sections of the columns due to the impossibility of using 25 large-diameter reinforcement in the corners of the columns of the frame. An increase in the diameters of reinforcement for monolithic sections of columns entails complications in the technological process of production of monolithic construction works and 30. increase in metal consumption.

The purpose of the invention is to increase the earthquake resistance of the building by ensuring the continuity of the vertical angular working reinforcement of the frame racks and to reduce the metal consumption.

This goal is achieved by the fact that in a multi-storey building of prefabricated-monolithic type for seismic areas by auth. No. 263849, each rack of prefabricated frames is made with the release of one of the working reinforcing rods beyond the edge of the upper platform of the upper figured notch and with a recess located at the lower platform of the lower figured notch and equipped with an embedded part attached to the lower end of the working reinforcing bar.

Figure 1 schematically shows a prefabricated frame of the frame; figure 2 - node support frame of the upper floor on the frame of the lower floor.

The multi-storey building of the prefabricated monolithic type consists of prefabricated frames 1 mounted on top of each other with a gap relative to each other for the formation of monolithic columns.

The racks 2 of the frames 1 are made with releases of working reinforcing bars 3 beyond the edge of the upper supporting platform 4 of the support of the upper figured cutout 5 and have a recess 6 located at the lower platform 7 of the support of the lower $. Figure cutout 8. In the recess 6 there is a embedded part 9 attached to the rod 3 of the reinforcement of the rack 2. After installing the prefabricated frames 1 in the design position, the release of the working | q reinforcement 3 of the lower frame 1 is attached by welding to the embedded part 9 of the higher frame 1, thereby achieving continuity of the working arm urs uprights 2 1 frames.

The possibility of joining the vertical angular reinforcing rods of the uprights of the frame frames in places where the precast frames are supported against each other leads to the continuity of the vertical working reinforcement of the columns along the entire height of the building. This 20 significantly increases the strength of the frame nodes of the frame under seismic conditions. In addition, the proposed design allows to increase the diameter of the angular working rods of the columns, which makes it possible to reduce the diameter of the working reinforcement of their monolithic sections, and this in turn facilitates the process of reinforcing monolithic sections of the columns, since thinner reinforcing bars are easier to pass through the loop outlets racks of prefabricated frames forming column clamps, and leads to metal savings, since the rods of monolithic parts of large diameter columns are replaced by rods of thinner diameter.

Claims (2)

(54) MULTILEVAL BUILDING OF A MEASURING-MONOLITHIC TYPE FOR SEISMIC AREAS Racks 2 frames 1 are made with releases of reinforcing rods 3 for the edge of the upper support platform 4 of the upper figure cutout 5 and have a recess 6 located at the lower platform 7 of the lower figure figure 8. . In the recess 6 there is placed an insert part 9, attached to the rod 3 of the rack reinforcement 2. After installation of the prefabricated frames 1 in the design position, the release of the working reinforcement 3 of the frame 1 located below is attached by welding to the fixing piece 9 of the frame 1 located above, thus achieving continuity of the working reinforcement of the struts 2 of the frame 1. Possibility of joining the vertical angle bars of the struts frame frames in places leaning on each other prefabricated frames leads to the continuity of the vertical working reinforcement of columns along the entire height of the building. This significantly increases the strength of the frame nodes of the frame under seismic conditions. In addition, the proposed design allows to increase the diameter of the corner working rods of the columns, which makes it possible to reduce the diameter of the working reinforcement of their monolithic sections, and this in turn facilitates the reinforcement of monolithic sections of the columns, since thinner reinforcing rods make it easier to pass through loopbacks of the struts of prefabricated frames. which form the collars of the column, and leads to savings in metal, since the rods of the monolithic parts of the columns of large diameter are replaced by rods of a thinner diameter. Claims of the invention Multi-storey building of assembly-monolithic type for seismic areas according to auth.St. No. 263849, that is, in order to improve the seismic resistance of the building by. ensuring the continuity of the vertical working reinforcement of the frame struts and reducing the metal consumption, each frame stand is made with one of the working reinforcing bars released over the edge of the upper platform of the upper cutout and with a recess located at the lower platform of the lower figure cutout and provided with a fixed part attached to the lower end of the working reinforcement rod Sources of information taken into account during the examination 1. USSR author's certificate No. 263849, cl. E 04 H 9/02, 1968. Y / l /