SU937663A1 - Load-supporting girder - Google Patents

Description

(5) BEARING BEAM

one

The invention relates to construction and can be used as bearing beams for the industry of buildings and structures.

Known construction element type beams with a vertical wall, one of the sov which is made in the form of a full tubular element filled with concrete

The closest to the technical essence of the invention is a carrier beam containing a metal I-beam profile and a box-shaped metal element connected to it, filled with C27 concrete.

However, the known devices are characterized by insufficient bending carrying capacity with lateral force and incomplete use of the strength characteristics of materials.

The purpose of the invention is to increase the carrying capacity by improving the static work using the arch effect of compression,.

The goal is achieved by the fact that in a carrier beam containing a metal I-beam profile and a box-shaped metal element connected to it, filled with concrete, the latter is made in the form of an arch and is attached to the wall of the utah profile symmetrically on both sides, with the arch in the upper part connected to the upper shelf, and the bases with the lower profile of the som above the beam supports, while in the profile wall in the places adjacent to the adjacent arches holes are made to form concrete dowels.

FIG. 1 shows a carrier beam; in fig. 2 - embodiment of the carrier beam; in fig. 3 is a section A-A in FIG. 1 and 2; in fig. k is a section bb in fig. 1 and 2.

Claims (2)

The carrier beam 1 consists of a two-profile profile 2. Between the wall themselves on the 3937 wall on both sides of the beam there are two symmetric cavities of the arch of the box-shaped profile 3 rigidly attached to the wall, the arch of the upper part being connected to the upper flange, and the bases adjacent to the lower shelf above the supports. The cavities in the arches are filled with high-strength concrete k, and in the profile wall, along the contour of the adjacent arches, with the necessary pitch, holes 5 are formed, which form concrete keys after concreting. The technology for the production of beams is carried out as follows. A hollow metal arch is rigidly fastened to the composite I-beam to its wall on both sides, and according to its configuration, holes are made in the wall of the I-beam with a predetermined pitch to form concrete dowels. Then the cavities of the arches are filled with high strength concrete. The proposed carrier beam in the part of static work is more rational since in the used beams the bearing capacity of the metal is not fully used, while the bending moments and normal stresses reach the maximum value of the middle span. The complex work of a beam with an arch significantly changes the static work of the structure, and some of the compressive stresses will be perceived by the concrete with the transfer of spacer forces to the supports. This reduces the deflection and increases the carrying capacity of the beam. As a result of the use of the arch effect of compression and the use of high-strength concrete to perceive the compressive forces, the static performance of the carrier beam is improved, the bearing capacity is increased, the deflections are reduced, and metal savings are achieved in comparison with all-metal beams up to 10%. An inventive beam containing a metal I-beam profile and a box-shaped metal element connected to it, filled, characterized in that, in order to increase the bearing capacity of the beam, the box-shaped metal element is made in the form of an arch and attached to the wall of the I-beam profile symmetrically on both sides, moreover, the arch in the upper part is connected to the upper flange, and the bases to the lower one along the som profile above the beam supports, while in the profile wall, in places adjacent to the adjacent arches, holes with holes are made Azov concrete pins. Sources of information taken into account in the examination 1. USSR author's certificate number 385011, cl. E 04 C 3/29. publish 2. For France No., cl. E 04 C 3/293, published. 197. rl t) 2 A-l 5-5 3 -C-3 FIG. five Phage.