SU1278424A1 - Butt joint of ferroconcrete elements - Google Patents

Abstract

The invention relates to the field of construction, namely, butt joints of prefabricated reinforced concrete core structures, such as columns of high-rise building frameworks, reinforced concrete supports, masts, piles, etc. The purpose of the invention is to reduce the metal intensity and increase the reliability of the butt joint. The junction contains joined elements 1 with ends made with ledges 2 and protrusions 3, with contact pads 4, a centering pad and a protrusion, longitudinal reinforcing bars 7, transverse reinforcement (clamps, indirect reinforcement spirals) 8, additional longitudinal rods 9 disposed against breaks longitudinal working reinforcement 10. With mon (With the same joined elements of monolithic (glued together), for example, polymeric resin (with solvent solution. 4 Cp f-crystals, 5 ill.

Description

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The invention relates to the construction, in particular to butt joints of precast concrete core structures, naimer columns of frames of multi-storey buildings, as well as reinforced concrete supports, masts, piles, etc.

The purpose of the invention is to reduce the metal content and increase the reliability of the connection, as well as simplify installation.

FIG. 1 shows the junction of elements with screw spacing of contact nlosh, adok, axonometrics; in fig. 2 - the same, with a centering pad and alternating arrangement of projections; in fig. 3 is a vertical section of the joint; in fig. 4 is a section A-A in FIG. 3; in fig. 5 - stress distribution in reinforcement and concrete.

STE) 1k of reinforced concrete elements includes abutting elements 1 with ends made with ledges 2 and protrusions 3, contact pads 4, centering pad 5 with protrusion 6, longitudinal reinforcing bars 7, transverse reinforcement 8 (clamps, spirals of indirect reinforcement), additional longitudinal rods 9, located opposite the breaks 10 of the longitudinal reinforcement, the monolith material 11, for example, a polymer-cement composition.

The mutual arrangement of the ledges 2 and the protrusions 3 at the ends of the abutting elements is such that when the elements are joined, the protrusions of one element go into the ledges of the other.

The contact pads 4 are arranged in increments corresponding to the length of the anchoring of the working reinforcement 7. It is structurally convenient to perform four contact pads or five, including the centering pad 5.

Thus, the contact of the joined elements is not carried out in the same transverse plane, but is dismembered along the length of the elements so that in any cross section no more than one rod breaks; fittings.

During installation, the elements are connected by ends with monolithing gaps, for example, polymer cement mortar.

During the operation of the joint, the forces are transmitted from the element to the element through contact and centering pads and polymer cement joints, which have reliable adhesion to concrete and strength greater than the strength of concrete of the elements being joined.

The use of polymer-cement composition ensures smooth transfer of forces, leveling of stresses in the places of their concentration. The stepwise arrangement of the contact pads allows for more efficient use of the joint work of concrete and reinforcement in the joint zone, since in each cross section all rods of the working reinforcement, except one, are included in the work.

The proposed joint design can also be used when the joint is located in the zone of bending moments, since single breaks of the working rods are compensated by additional rods, and the use of polymer-cement monolithic compound increases the reliability of the coupling and brings the design closer to the monolithic one.

Claims (5)

1. Reinforced concrete elements, including connected orts of reinforced concrete rod elements with longitudinal reinforcing bars and transverse reinforcement and monolith material, which, in order to reduce the metal intensity and increase the reliability of the connection, the ends of the elements are made in the form of stepped protrusions with contact areas in transverse sections, arranged in increments corresponding to the anchoring length of the working reinforcement. 2. A stack according to claim 1, characterized in that, in order to simplify installation, the stepped protrusions at the ends are arranged alternately. 3.Styk on PP. 1 and 2, characterized in that the core elements in the protrusion formation areas are provided with additional longitudinal reinforcing bars with a length of at least double the height of the protrusion. 4.Styk on PP. 1 and 3, characterized by the fact that the transverse reinforcement is made in the form of spirals, covering the main and additional longitudinal reinforcing bars. 5.Styk on PP. 1 and 2, characterized in that a polyme 1 solution was used as the embedding material. one With g / F {Ag. FIG. 2 A-A A 7 / 9 3 Fig.Ch Voltage in apMamijpHbix rod) stress (e . and a c3 in the Token, and