RU174430U1 - WARMED LIGHTWOOD - Google Patents

Abstract

Insulated lightweight timber can be used for the construction of wooden houses. In the bar, rows of through holes are made, which are staggered. The holes are treated with a high-strength moisture-proof adhesive, for example KLEIBERIT PUR-adhesive 501, and filled with insulation. As the insulation can be used foamed polymer or peat aggregate. The surface of the timber is impregnated with a bactericidal composition. The bar has improved performance due to effective drying, low weight and increased heat-shielding properties. 2 ill.

Description

The utility model relates to the field of building structures, and more specifically to wooden beams and can be used in the construction of houses in the manufacture of walls.

Known wooden bars [Ustimenko V.V. The construction of log and cobblestone walls of a residential building // "Housing", 2002, No. 7, p. 25]. Such bars are made with a rectangular cross section and are widely used in construction practice. However, the walls of such bars in their heat-shielding properties do not meet the regulatory requirements established for cold climatic conditions.

Known wooden beam according to the patent for utility model RU 38793, IPC E04C 3/292, publ. 07/10/2004, which has enhanced heat-shielding properties. For this, a through longitudinal hole is made in the center of the wooden beam, filled with heat-insulating material. However, the implementation of a through longitudinal hole in the beam in the manufacture is difficult and time-consuming especially for long beams.

Closest to the claimed utility model and selected as a prototype is a universal building beam, protected by patent for invention RU 2155840, IPC Е04В 1/10, publ. 09/10/2000, Bull. Number 25. In the specified building beam, including wooden beams with through holes in which the pins are located, the wooden beams are made of different lengths with the same pitch, and the holes are located at a distance: two holes of 0.5 and two holes of 1.5 beam widths from the ends of the short beam. The holes of the short bars coincide with the holes of the long bars when applying short bars to long ones. Between the bars and at the joints of the bars a soft insulation is laid. Wooden bars can be made rectangular or square.

In the prototype, the holes in the bar are made exclusively for installing the pins - improving the fastening of the bars to each other. The prototype does not take into account the possibility of better preparation of timber for use.

The technical problem solved by the utility model is to improve the operational properties of the beam by increasing its heat-shielding properties, reducing weight and increasing the drying efficiency in the manufacture of timber.

The technical result that allows us to solve the problem is to obtain the design of the timber, effectively prepared for use, well-dried and with improved heat-shielding characteristics.

The technical result is achieved as follows. The inventive beam, as well as the prototype, is made with through holes that are perpendicular to the longitudinal axis of the beam. But unlike the prototype, the through holes are made in rows along the timber, staggered, treated with high-strength moisture-proof adhesive and filled with insulation. Thus, in the claimed beam, not four holes are made, as in the prototype, intended only for fastening the bars to each other, but two, three or more rows of through holes located in a checkerboard pattern. Holes made perpendicular to the axis of the beam, perpendicular to the movement of heat fluxes. They can be round or oval. The implementation of such a number of through holes will provide minimal time and energy consumption during the drying process without defects of shrinkage phenomena. After drying, the beam will have less weight compared to the prototype and conventional timber. In the perforated beam, the surface of the walls of the holes is covered with a high-strength moisture-proof adhesive, for example KLEIBERIT PUR-adhesive 501, which serves simultaneously for gluing assortments and as a vapor barrier that prevents diffusion of water vapor in the area of their possible condensation. In addition, all surfaces of the timber can be impregnated with a bactericidal composition, for example, copper sulfate solution, which also improves the performance of the timber. As insulation, foamed polymer or peat aggregates can be used.

In the drawings 1 and 2 shows a beam and its section, respectively. Perforated beam 1 has rows of holes 2 filled with insulation 3. A layer of high-strength moisture-proof adhesive, for example, KLEIBERIT PUR-adhesive 501, is applied to the inner surface of the walls of the holes.

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 for the construction of wooden houses in the construction of walls. Holes 2 in the beam are made by drilling or milling. Then the beam goes through the preparation process - more efficient drying in special furnaces or atmospheric. After reaching the normalized moisture content of the beam 1, all of its surfaces are treated with a bactericidal composition. A layer of glue is applied to the surface of the through holes 2 and allowed to dry. The holes are filled with insulation, which can be used as a foamed polymer or peat aggregates.

Claims (7)

1. The insulated lightweight beam made with through holes located perpendicular to the longitudinal axis of the beam, characterized in that the through holes are made in rows along the beam, are staggered, treated with high-strength moisture-proof adhesive and filled with insulation. 2. A beam according to claim 1, characterized in that the through holes are made round. 3. A beam according to claim 1, characterized in that the through holes are oval in shape. 4. A beam according to claim 1, characterized in that its surface is impregnated with a bactericidal composition, for example, copper sulfate solution. 5. A beam according to claim 1, characterized in that KLEIBERIT PUR-adhesive 501 is used as a high-strength moisture-proof adhesive. 6. A beam according to claim 1, characterized in that a foamed polymer is used as a heater. 7. A beam according to claim 1, characterized in that peat aggregate is used as a heater.

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