RU176996U1 - GLUED BEAM - Google Patents

Abstract

The utility model relates to construction, namely to supporting structures of beam type for buildings and structures of various values, and can be used in new construction, as well as in reinforcement, in coatings and ceilings of buildings and structures for industrial and civil purposes, in bridge building, mainly in as the supporting structure of the unloading span for passing the railway load. The beam contains plywood boards (1) and (2), connected by plates with glue and screws (3), reinforcing elements (4), made in the form of fiberglass reinforcement, impregnated with a polymer adhesive composition (5), horizontal channels (6) formed alternating different height boards (1, 2). The size of the channels (6) is equal to the thickness of the reinforcing elements (4) and the adhesive layer. The height of the extreme boards should be greater than the next board in the direction of the longitudinal axis of the beam. Reinforcing elements (4) are expediently installed in the stretched zone of the beam section: in the middle part of the split beam or above the middle supports of the continuous beam. The bearing capacity increases, the complexity of manufacturing the beam decreases. 2 ill.

Description

The utility model relates to construction, namely to supporting structures of beam type for buildings and structures for various purposes, and can be used in new construction, as well as in reinforcement, in coatings and ceilings of buildings and structures of industrial and civil purposes, in bridge building, mainly in as the supporting structure of the unloading span for passing the railway load.

Known construction of glued beams, including boards connected by plates with glue (E.N. Serov, Yu.D. Sannikov, A.E. Serov "Design of wooden structures: a training manual", edited by E.N. Serov; - M .: DIA Publishing House, 2011, p. 42, Fig. 2.2, a).

A disadvantage of the known solution is the insufficient bearing capacity and stiffness of the beams.

A glued beam is known (see patent for PM No. 123040), including boards connected by plates with glue, reinforcing elements made in the form of tapes, and the extreme boards located in the stretched part of the beam section are made on a part of the length with grooves, the longitudinal axis which are parallel to the longitudinal axis of the beam, and the reinforcing elements are installed in the grooves and connected to the surface of the groove, and the other side to the board adjacent to the reinforcing element.

A disadvantage of the known technical solution is the insufficient bearing capacity and stiffness of the beams, as a result of which it has a somewhat limited scope. In addition, the disadvantage of the known technical solution is the complexity of manufacturing the grooves of the extreme beams, as well as the need for special equipment (gluing machine, horizontal mechanical press), and also after exposure of the beam must be machined.

The objective of the utility model is to increase the bearing capacity of the glued beam, reducing the material consumption and the complexity of its manufacture.

The technical result is achieved by the fact that the glued beam, including the boards connected by plates with glue and reinforcing elements, is made of alternating boards of different heights with the formation of a channel for accommodating reinforcing elements, which are used as fiberglass reinforcement.

The utility model is illustrated by drawings, where in FIG. 1 shows a general view of a glued beam; in FIG. 2 - section 1-1 in FIG. one.

The glued beam contains plywood boards 1 and 2, connected by plates with glue and screws 3, reinforcing elements 4, made in the form of fiberglass reinforcement, horizontal channels 5, formed by alternating different height boards 1 and 2, filled with a polymer adhesive composition 6. In this case the dimensions of the channels 5 should be equal to the diameter of the reinforcing elements and the adhesive layer. The height of the extreme boards should be greater than the next board in the direction of the longitudinal axis of the beam.

Channels 6 are formed by splicing boards of different heights, which reduces the complexity in preparing places for the installation of reinforcing elements. Reinforcing elements 4, it is advisable to install in the stretched zone of the beam section: in the middle part of the split or above the middle supports of the continuous beam. Thus, the reinforcing element may not be located on the entire, but on a part of the length of the board.

An example of the implementation of the utility model is a glued wooden beam used as a beam of the span of an unloading package for passing a railway load. Existing solutions for unloading spans made of metal structures for installation require heavy crane equipment, and the known structures of wooden beams have insufficient bearing capacity and rigidity.

The manufacture of glued beams can be carried out as follows. As boards 1, plywood sheets 2440 × 250 × 20 mm are used, and as boards 2, plywood sheets 2440 × 230 × 20 mm are used. As reinforcing elements 4, fiberglass reinforcement ∅16 mm is used. Pre-splicing and processing of boards is carried out. The boards are fused together by applying epoxy glue. The packages are glued by fixing the boards with screws 3. After exposure, reinforcing elements 4 are installed in the formed channels 6, impregnated with a polymer-adhesive composition 5, and they are attached with the end face of the boards 2 and the side faces of the boards 1, after which a strong connection of reinforcement and wood is formed as well as solid and monolithic filling of channels.

The proposed glued beam in comparison with the prototype allows to increase the load-bearing capacity of the beam on the action of bending moments, thereby expanding the scope, including using the proposed utility model as the supporting structure of the unloading span to pass the railway load, and also reduce the complexity of its manufacture.

Claims (1)

Glued beam, including boards connected by plates with glue and reinforcing elements, characterized in that the beam is made of alternating boards of different height with the formation of a channel for accommodating reinforcing elements, which are fiberglass reinforcement.

Images