SU1747650A1 - Device for beam reinforcement - Google Patents

Abstract

The invention: the device contains spacer systems 2. Clamps 3, covering the bottom of the T-bar 1, springs 4, located between the hinge nodes 7 of the spacer systems 2 and the overhang of the beam flange 1. The ends of the spacer systems are fixed to the supporting structures 5. Installation of pre-compressed springs 4 and then releasing them from the squeezing forces ensures that the beam 1 is supported on the spacer system 2 and is partially unloaded at the level of the upper flange. The clamps 3 allow the beam 1 to be unloaded at the level of the stretched core. 5 yl

Description

The invention relates to the construction, in particular to the reinforcement of T-shaped beams.

The reinforced reinforcement reinforcement construction is known, consisting of a prestressed two-leg shpingelnoy fastening attached to additional two-legged elements in the form of angles with flanges facing outward along lateral ends of the beam, connected along the top of the beam by clamps.

The disadvantages of this design are the complexity and bulkiness of the device. The entire upper surface and sidewalls of the flange of the beam are cluttered with rolling profiles, this increases the cost of reinforcement and loads the beam - as a result, instead of increasing the carrying capacity, we get a decrease, since the generated lifting force is canceled by the weight of the device elements

The closest in technical essence and the achieved result is a device for reinforcing a beam, including spacer systems located on both sides of the beam, spacer systems of hinged rods and tension suspensions in the form of clamps, covering the bottom of the beam and attached ends to the spacer systems at the hinge angles.

The disadvantages of this device are the inefficiency of increasing the carrying capacity, since the cable stay system mutually brings together the upper ends of the beam, as a result of which the stress concentration will be concentrated in the support zone. In addition, as the ends of the beam approach each other, the curvature is in the direction of the overall deformation of the beam, in general, the amount of bending is compensated by the deflection from the lifting force, due to which the effect of increasing the carrying capacity will not be so significant.

The purpose of the invention is to increase the bearing capacity of the T-section units.

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The goal is achieved in that the device for reinforcing the beam includes a spacer system consisting of individual rigid elements interconnected at the hinge assemblies, the ends of which are fixed to the support structures of the beam, and suspensions in the form of clamps placed symmetrically on both sides along the the length of the beam, as well as the springs, each of which is located between the bottom of the overhangs of the flange flanges and the hinge assembly of the spacer system.

Figure 1 shows a device for reinforcing a beam, a general view; in fig. 2 is a section A-A in FIG. 1; in fig. 3 shows a section BB in FIG. one; in fig. 4 - suspension-clamp; in fig. 5 shows a possible joint between the elements of the spacer system and the suspension.

The device for reinforcement of the T-bar 1 includes a spacing system 2, suspension Ski collars 3 and springs 4.

The spacing system 2. fixed with the ends on the supporting structures 5 of the beam 1 consists of separate elements 6, which are interconnected in the node 7 pivotally, arching towards the overhang of the beam flange. The clips 3 include a suspension bracket 8, having at the lower end threads with a nut 9 and secured with an upper end in the assembly 7, joining the rigid element 6, and a jumper 10 with openings. The springs 4 are located between the hinge nodes 7 of the rigid element 6 and the overhang of the flange 11 of the beam 1.

The gain is performed as follows.

Symmetrically on both sides along the length of the reinforced beam of T-section 1, rigid elements 6 with suspensions 8 are installed and fixed to the supporting structures 5. Pre-compressed springs 4 and then they are released from the forces of compression. This ensures that the beam 1 is supported on the spacer system 2 and is partially

unloading it in the level of the upper shelf. Then, clamps 3 are installed and the nuts 9 are screwed on the suspensions 8, the span of the beam 1 is lifted 1. the deflection is eliminated, that is, the beam 1 is unloaded at the level of its stretched beam. Rigid elements 6 depending on the generated force can be made of angles, channels, reinforcement or other rolled sections. The use of a spring expands the field of application of the device. For example, it is very useful for reinforcing a beam cell to overlap a building or when the flanges of a T-beam are used as a supporting element, i.e. when forces are applied to the flange of a beam.

By transferring a portion of the unloading force to the level of the upper beam, the working conditions of its wall are improved. The proximity of the outline of the device to the curve of the bending

Claims (1)

the moment in the beam, as well as its operation as a spacer system, significantly reduces the consumption of metal for reinforcement. An apparatus for reinforcing a beam, comprising spacer systems arranged on both sides of the beam from hinged rods and tension suspensions in the form of clamps covering the bottom of the beam and attached to the beam hinge angles with ends to increase bearing capacity of T-section beams, it is equipped with springs, each of which is located between the bottom of the overhangs of the beams and the hinge assembly of the spacer system, the ends of which are fixed to the supporting structures of the beam. Aa Tg Fig 6-5 fig.Z FIG A