RU179875U1 - PROFILED GLUED BEAM - Google Patents

Abstract

The utility model relates to the field of ground-based construction, namely, glued wooden structures that can be used as prefabricated load-bearing elements in wooden housing for the formation of vertical walling. The objective of the utility model is to create a profiled glued beam with good strength properties while reducing its cost. The technical result of the claimed utility model is a sufficiently high deflection strength of a glued honeycomb beam. The result is achieved by the fact that the profiled glued beam consists of two parallel wooden lamellas, interconnected at the same distance from each other by glued inserts with the formation of air cavities, while the inserts are made by gluing at least three layers of transverse and longitudinal cut lamellas, while the lamella with a perpendicular arrangement of fibers in relation to others is located in the center of the insert. 3 s.p. f., 2 ill.

Description

The utility model relates to the field of ground construction, namely to glued wooden structures that can be used as prefabricated load-bearing elements in wooden housing for the formation of vertical walling.

Wooden glued beam is one of the expensive types of materials, which is widely used in private suburban construction. Buildings constructed from this type of timber are characterized by high strength and durability, however, construction will require high costs. Glued beams - a special material, characterized by a whole set of advantages, although it is not without certain drawbacks.

Wooden houses from glued beams are popular because of the special structure of the material: it is not solid, but is made from thin lamellas, interconnected with glue. The number of lamellas varies from 2 to 5, the thickness of the finished material depends on their number. All boards are selected with special care, which allows you to ultimately get building materials with perfectly even surfaces and are dried, which prevents cracking of the beam during use. In addition, the special structure provides glued beams with a number of advantages:

- manufacturability,

- a small amount of shrinkage that does not require a long period of settling of the walls,

- glued beam facades do not need cladding.

Glued beams are obtained using various types of glue: polyurethane (PU), polyvinyl acetate (PVA) or MUV. According to the degree of danger, glues are divided into groups and can be safe (FC0), potentially dangerous (FC1), unsuitable for use in residential premises, dangerous (FC2).

The quality of the finished wood materials depends on many parameters - the type of wood and the quality of the source timber, the professionalism of the machine tools, compliance with the drying technology of lumber and the production of finished products. Another factor that has a significant impact on the quality and appearance of lumber, as well as their mechanical properties, is the method of sawing wood, which determines the texture of the board.

Known combined laminated veneer lumber with transverse mounting according to the patent for a utility model of the Russian Federation No. 114982, IPC Е04С 3/292, publ. 04/20/2012 The beam consists of three longitudinal and two transverse lamellas. Two longitudinal profiled and two transverse lamellas are glued together to form a through longitudinal hole that is filled with insulation. Between the obtained glued building element and the third lamella there is a molded profiled insulation glued to the adjacent lamellas. All elements of the timber are glued together with high-strength moisture-proof glue. The presence of two layers of insulation increases the heat-shielding properties of glued beams. The outer longitudinal profiled lamellas are interconnected above and / or below by transverse connections, for example in the form of brackets. The presence of cross-links increases the strength of the beam.

The well-known "profiled insulated beam with increased compressive strength" according to the utility model of the Russian Federation No. 143088 from 05.03.2014 publ. 07/10/2014 Bull. No. 19.

The profiled insulated beam with increased compressive strength contains external longitudinal profiled lamellas, a heater glued to the lamellas with high-strength moisture-proof adhesive, and transverse connections in the form of connectors that are installed on the bottom and / or top of the beam, and the end parts of which are fixed in recesses made in the outer longitudinal profiled lamellas, while the beam additionally from the inside of each outer longitudinal lamella contains a layer of glued transverse cut lamellas, and in the locations of the connectors are from longitudinal lamellas, the outer longitudinal lamellas and the inner layer of lamellas glued together with a high-strength moisture-proof adhesive, and the lamellas of the longitudinal cut of the inner layer are additionally bonded to the outer longitudinal lamellas with metal self-tapping screws.

Known I-beam, according to the patent of France No. 2574838 from 12/13/1984 publ. 06/20/1986 "Improvement of I-beams, mainly made of wood."

An I-beam contains two parallel protrusions with a longitudinal direction of the wood, which is solid wood, in which the fiber is parallel to the axes of the protrusion.

These two protrusions are connected to each other by means of a bridge formed by longitudinal elements of solid wood, having fibers parallel to the axis, as well as transverse elements connecting these elements together. This connecting web is formed by longitudinal elements made of solid wood with fibers running parallel to the axis and transverse elements connecting these longitudinal elements together so as to counteract the torsion to which these longitudinal elements are subjected as a result of mechanical stresses.

The objective of the utility model is to create a profiled glued beam with good strength properties while reducing its cost.

The technical result of the claimed utility model is a sufficiently high tensile strength of a glued honeycomb beam.

The technical result is achieved by the fact that the profiled glued beam consists of two parallel wooden lamellas, interconnected at the same distance from each other by glued inserts with the formation of air cavities, while the inserts are made by gluing at least three layers of transverse and longitudinal cut lamellas, while lamella with a perpendicular arrangement of fibers in relation to others is located in the center of the insert.

The essence of the utility model is illustrated by drawings.

профилированного клееного бруса с поперечными связями в виде бруска.In FIG. 1 shows a view in

profiled glued beam with cross-ties in the form of a bar.

In FIG. 2 - view of the insert.

Profiled glued beam consists of two parallel-mounted wooden lamellas 1, glued in turn from at least two lamellas, interconnected at a given distance from each other by glued inserts 2 with the formation of air cavities.

The inserts 2 are made by gluing at least three layers of lamellas, while the lamella 3 with a perpendicular arrangement of fibers relative to others is located in the central part of the insert (Fig. 2). The layers are glued together with high-strength moisture-resistant glue.

The distance between the inserts along the profiled longitudinal lamellas is selected depending on the required strength properties of the structure of the profiled glued beam and technological capabilities and is 40-120 cm.

In particular, it can be 80 cm. The width (thickness) of the longitudinal lamellas is 6 cm. The width of the insert is equal to the distance between the profiled lamellas of 10-20 cm.

For a stronger connection of the lamellas of the inserts and with the profiled longitudinal lamellas during assembly, high-strength moisture-resistant adhesive is used.

Preliminary impregnation of the walls of the lamellas with a bactericidal composition, for example a solution of copper sulfate, is desirable.

The strength characteristics of the inventive profiled glued beams are shown in table 1, obtained experimentally in comparison with a solid profiled beams made from one species of wood.

From table 1 it can be seen that the design of the profiled hollow glued beam significantly compensates for the loss of strength compared to a solid beam, since the multidirectional fibers of the lamellas do not allow the inserts to collapse under the influence of shear stresses.

The hollow part of the profiled glued beam, namely the air cavities can be filled with insulation, with a coefficient of thermal resistance R = 3, for example, sealed with ecowool.

The advantages of the claimed utility model:

1) The inventive beam is warmer in comparison with glued solid timber due to the possibility of using effective insulation in the wall structure. For example, when using ecowool, the coefficient of thermal resistance R = 3.

2) The inventive beam is strong enough even with a significant increase in the air cavities of the wall beam.

3) The inventive beam is cheaper due to the significant saving of raw materials in the production of honeycomb timber.

Claims (4)

1. Profiled glued beam, consisting of two parallel wooden lamellas, interconnected at a distance from each other by glued inserts with the formation of air cavities, characterized in that the inserts are glued at least three layers of transverse and longitudinal cut lamellas, while the perpendicular arrangement of the fibers in relation to others is located in the central part of the insert. 2. Profiled glued beam according to claim 1, characterized in that the outer longitudinal lamellas and the inner lamella inserts are glued together with a high-strength moisture-resistant adhesive. 3. Profiled glued beam according to claim 1, characterized in that the walls of the lamellas are pre-impregnated with a bactericidal composition. 4. Profiled glued beam according to claim 1, characterized in that the air cavities are filled with a sealed ecowool.

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