RU114982U1 - COMBINED Glued beam with transverse fastening - Google Patents

Abstract

1. Combined glued laminated timber with a transverse fastening, containing a glued building element made of two transverse and two longitudinal profiled lamellas, glued together to form a through longitudinal hole filled with insulation, characterized in that it additionally contains another longitudinal profiled lamella, between which and a glued building element additionally placed a molded profiled insulation, while the additional insulation and the adjacent lamellas are glued together, in addition, the outer longitudinal lamellas are interconnected by transverse ties installed below and / or above the glued beam. ! 2. The combined glued laminated timber with transverse fastening according to claim 1, characterized in that the walls of the lamellas are impregnated with a bactericidal composition, for example, a solution of copper sulfate. ! 3. Combined laminated veneer lumber with transverse fastening according to claim 1, characterized in that polystyrene foam is used as a heater. ! 4. Combined glued laminated timber with transverse fastening according to claim 1, characterized in that all elements of the timber are glued together with a high-strength moisture-proof glue, for example KLEIBERIT PUR glue 501.! 5. Combined laminated veneer lumber with transverse fastening according to claim 1, characterized in that the lamellas of the glued building element are glued together taking into account the direction of annual layers of wood, for this longitudinal lamellas are made of tangential sawn timber, and the transverse ones are made of radial sawn timber or vice versa. ! 6. The combined glued laminated timber with transverse fastening according to claim 1, characterized in that p�

Description

The utility model relates to the field of ground construction, and more specifically to glued wooden beams and can be used in the construction of houses in the manufacture of walls, mainly for cold climatic conditions.

Known wooden shaped beams [Construction and architecture. Express information, series: building structures and materials, VNIINTPI, 1997, issue 4, Moscow, S.12-15]. Such beams are made by gluing two three boards, however, the walls of such beams in terms of heat engineering parameters do not meet the requirements of building codes and rules established for cold climatic conditions.

Closest to the claimed utility model and selected as a prototype is a glued building element (timber), protected by a RF patent for utility model No. 855516 of the Russian Federation, IPC E04C 3/29. Publ. 08/10/2009. Bull. Number 22. This bar is made of two longitudinal and two transverse lamellas glued together to form a through longitudinal axial hole filled with an effective heater. The lamellas are glued together taking into account the direction of the annual layers of wood, which reduces the likelihood of splits and cracks. This is achieved by the fact that the longitudinal lamellas are made of sawn timber of tangential sawing, and the transverse ones are made of radial sawing, or vice versa. Despite the fact that such a bar due to warming has improved thermal characteristics, its thermal conductivity does not meet the standards for northern climatic regions. At increased loads (number of storeys above 2 floors or when installing heavy equipment) in the places of gluing lamellas and insulation, delamination can occur, which will lead to destruction of the timber structure and loss of structural strength.

The objective of the utility model is to expand the scope of the claimed beam by increasing its heat-shielding and strength properties.

The technical result, which is claimed by the claimed utility model to solve the problem, is to exclude the possibility of penetration of water vapor into the insulation and timber, increase the heat-insulating layer of the structure and increase the structural strength of the timber.

The technical result is achieved as follows. The combined glued beam with transverse fastening proposed as a utility model has in common with the prototype that it contains a glued building element made of two transverse and two longitudinal profiled lamellas glued together to form a through longitudinal hole. The hole between the lamellas is filled with insulation.

In contrast to the prototype, according to the utility model, the beam additionally contains another longitudinal profiled lamella. Between the additional longitudinal lamella and the glued building element, a molded profiled insulation is placed. All elements of the beam are glued together, for example, with high-strength moisture-proof adhesive of the brand KLEIBERIT PUR-adhesive 501. In contrast to the prototype, the outer longitudinal lamellas are interconnected by additional transverse ties installed below and / or above the glued beam. The walls of the lamellas on the side of the insulation are impregnated with a solution of copper sulfate. In the particular case, polystyrene foam can be used as a heater.

The lamellas of the glued building element can be glued together, as in the prototype, taking into account the direction of the annual layers of wood. For this, the longitudinal lamellas are made of tangential sawn timber, and the transverse lamellas are made of radial sawn timber, or vice versa.

Cross ties can be made in the form of metal brackets or made of wood and fixed in the outer longitudinal lamellas by means of the dovetail connection.

The utility model is new, because the prior art does not reveal the construction of the beam, characterized by the same set of existing features as the claimed combined glued beam.

The essence of the utility model is illustrated by drawings. Figure 1 shows a combined glued beam in cross section with transverse ties in the form of metal staples. Figure 2 is a top view of figure 1. Figure 3 - combined glued beam in cross section with transverse ties fixed in the outer longitudinal lamellas through the connection "dovetail". Figure 4 is a top view of figure 3.

In the combined beam, consisting of profiled longitudinal 1, 2, 3 and transverse lamellas 4, 5, there are insulator inserts 6, 7. Insulation 6 is located in a through longitudinal hole. Molded profiled insulation 7 is made between 2 and 3 profiled longitudinal lamellas and glued to lamellas 2, 3, being their fastening. The walls of the lamellas are pre-impregnated with a solution of copper sulfate. Above and below depicted in the drawings 1, 3 of the beam structures are shown ledges and grooves for connecting the bars of the wall. When building a house, a wide layer of insulation 7 is located closer to the outside air. Cross connections of the outer lamellas 1, 3 are made on top and bottom of the timber in the form of metal brackets 8, 9 (Fig. 1, 2) or made of wood and fixed in the outer longitudinal lamellas by means of the dovetail connection 8, 9 (Fig. 3, four). Depending on the load and climatic conditions, it is possible to make pepper links above or below the timber. The distance between the bonds along the beam is selected depending on the required strength properties of the structure.

The utility model is industrially applicable. The production of timber in accordance with the claimed utility model can be carried out using conventional technological equipment, and the manufactured timber is used in the construction of wooden houses for the manufacture of walls. For the manufacture of profiled lamellas with protrusions and recesses, it is possible to use tape and milling machines. Bonding lamellas is carried out under the press. Filling the holes with a heater is possible either with ready-made molded products, or by injection from a foam-forming sleeve. As a heater, it is possible to use any heat-insulating material, for example expanded polystyrene, polyurethane foam, expanded vermiculite, etc. Before gluing, first, each individual lamella is dried and treated with fire-retardant and hydrophobic compounds. In such a glued finished beam due to the layers of glue, a vapor barrier is created that does not allow water vapor to penetrate into the insulation. The use of additional insulation increases the heat-shielding properties of the timber. The value of the thermal insulation layer is selected based on the scope of the beam and taking into account regulatory indicators for northern regions with a cold climate. In the construction of the beam, transverse recesses are made in which the transverse connection is placed. To fix the transverse bonds in the outer lamellas 1, 3, holes and cuts are made in the form corresponding to the type of connection - a bracket or a “dovetail”. Then the cross-links are laid in the grooves made. The presence of additional cross-links increases the strength of the structure.

As in the prototype, the lamellas of the glued building element can be glued taking into account the direction of the annual layers of sawing to reduce the likelihood of splits and cracks in the building element. To do this, the longitudinal and transverse lamellas are made and connected from lumber with different sawing methods, for example, the longitudinal lamellas are made of tangential sawn lumber, and the transverse ones are made from radial sawn lumber. And vice versa.

Claims (7)

1. A combined glued beam with transverse fastening, comprising a glued building element made of two transverse and two longitudinal profiled lamellas glued together to form a through longitudinal hole filled with insulation, characterized in that it further comprises another longitudinal profiled lamella, between of which the molded profiled insulation is additionally placed with the glued building element, while the additional insulation and the adjacent lamellas eeny among themselves, in addition, the outer longitudinal slats linked cross-linked, mounted from the bottom and / or top of laminated veneer lumber. 2. The combined glued beam with transverse fastening according to claim 1, characterized in that the lamella walls are impregnated with a bactericidal composition, for example, copper sulfate solution. 3. The combined glued beam with transverse fastening according to claim 1, characterized in that polystyrene foam is used as insulation. 4. The combined glued beam with transverse fastening according to claim 1, characterized in that all the elements of the beam are glued together with a high-strength moisture-proof adhesive, for example KLEIBERIT PUR-adhesive 501. 5. The combined glued beam with transverse fastening according to claim 1, characterized in that the lamellas of the glued building element are glued together taking into account the direction of the annual layers of wood, for this the longitudinal lamellas are made of tangential sawn timber, and the transverse ones are made of radial sawn timber or vice versa. 6. The combined glued beam with transverse fastening according to claim 1, characterized in that the transverse ties are made in the form of metal staples. 7. The combined glued beam with transverse fastening according to claim 1, characterized in that the transverse ties are made of wood and are fixed in the outer longitudinal lamellas by means of the dovetail connection.