SU707530A3 - Armature skeleton of eartquakeproof structure - Google Patents

Description

(54) ARMATURE FRAMEWORK OF SEISMIC RESISTANT FACILITIES

one

The invention relates to the field of construction / namely to the design of earthquake-resistant structures.

The reinforcing cage of the seismic structure, including longitudinal rods and transverse collars 1, is known.

A disadvantage of the known reinforcement cage is low seismic resistance. .

The aim of the invention is to increase the seismic stability of the structure.

The goal is achieved due to the fact that in the proposed reinforcement cage of seismic resistant coaxial, including longitudinal rods and transverse shears, the longitudinal rods are placed around the circumference and the carcass is provided with annular bands that surround the longitudinal rods placed along their length between each other. In addition, each ring can be made in the form of a curved metal strip, the ends of which have openings and are connected with each other with overlapping with the combination of openings, and is equipped with a locking device, passed through the combined holes, and locking

the fixture can be made in the form of a bolt with a hook at the end, with the bolt being passed through the aligned holes at the ends of each metashlic strip, and the hook enclosing the corresponding longitudinal rod; or in the form of a bracket, one end of which is wound into aligned holes at the ends of each metal strip, and the other has a U-shape and overlaps the overlapped ends of each strip, with one end of each metal strip being curved and -Sa corresponding S longitudinal kernel; or in the form of a pin with a neck and a curved plate with a slot, the pin being passed through the aligned holes in the ends of each metal strip and the slot in the curved plate, and one end of each metal strip is bent and wound around the corresponding longitudinal rod.

FIG. 1 shows the reinforcement cage, a general view; in fig. 2 is a section A-A in FIG. one; in fig. 3 - locking device in the form of a bracket, a general view; in fig. 4 - locking device in the form of a pin with a curved plate, a general view; in fig. 5 - - -pSapeaB-B in FIG. four; in fig. 6 - / curved plate, common .view. The reinforcement cage includes hp6final rods 1, located around the border, transverse collars 2 and. circumferential bandages 3, enclosing (longitudinal rods 1 and located between yokes 2. In this case, bandages 3 are made in the form of bent metal bands with holes in the end sections, interconnected overlapping with overlapping hinges and fitted with locking arms, which are passed by the body, passed by the body of the body. prisfio s6bl1eni MO if ut be rypolneny in view 4 with a hook 5 at the end, the volume of the latch corresponds to the longitudinal rod, or in the form of a bracket b, one end 7 of which is inserted into the aligned metal holes along The ZU and other 8 blades have a C-shaped shape and an overlapped ends of each strip 3, or in the form of a pin 9 s, a neck 10 and a curved plate 11 with a slit 12, and the pin 9 is passed through the aligned holes of the ends of each metal strip 3 and Slot 12 in the clamp plate 11, Odan end 13 of each metal strip 3 should be worn out by the corresponding longitudinal rod 1. The principle of operation of the reinforcing KajiKa sa. is to be made in creating a rigid ;; metal spatial ka. kasa that unites all reinforcement,; and forcing it to work seismic effects. At the same time, the capacity of the structural element is significantly increased. The use of the proposed reinforcement cage increases the seismic capacity of the structure with a decrease in its material consumption in the unit and its bearing capacity. Formula of the invention; -, ----. one...-.-.;.-.--- . . -. .-: 1. The reinforcement cage of the earthquake-resistant Structure, including longitudinal columns and transverse collars, is designed to increase seismic resistance.

The structure, the longitudinal rods are arranged around the circumference, and the framework is provided with annular bands that enclose the longitudinal rods and are spaced along their length at a distance from each other between the clamps. 2. The reinforcing cage according to claim 1, about t and h a and y with and I with the fact that each ring band is made in the form of a bent metal strip, the ends of which have holes and are connected with each other overlapping with the combination of the holes, and provided with a locking device passed through the combination of the opening. 3. The reinforcement cage according to claim 2, which means that the locking device is made in the form of a bolt with a hook hook, and the bolt is passed through aligned holes at the ends of each metal strip, and the hook is removed. corresponding longitudinal rod. . 4. The mounting frame according to claim 2, that is, so that one end of each metal bar is curved, and each locking device is made in the form of a bracket. One end of which is wound up in the aligned holes at the ends of each metallic band, the other one has an i-shaped shape and volume. The overlapped ends of each polar region, with the curved end of the metal band wound. for the corresponding longitudinal stress. :,; V; : ;; . . 5. Armature carcass, according to Claim 2, 6, tl. h and y with the fact that one end of each. metal strip izogyut. and each locking device. It is seen as a pin with a neck and a curved plate With a slit, the pin being passed through the aligned openings at the ends of each metal strip and cutting through the curved plate, and the curved end of the metal strip is wound over the corresponding longitudinal rod. Sources of information accepted in. Attention - for examination 1. Sakhnovsky K.V. Reinforced concrete KcJiiCrpykiiHHV M.yGosstroyizdat, p. 687-693.