RU85516U1 - GLUED BUILDING ELEMENT (OPTIONS) - Google Patents

Abstract

1. Glued building element made of two longitudinal and two transverse lamellas glued together to form a through longitudinal hole filled with insulation, characterized in that the longitudinal lamellas are made of tangential sawn timber, and the transverse ones are made of radial sawn timber. ! 2. Glued building element according to claim 1, characterized in that the lamella walls on the side of the insulation are impregnated with a solution of copper sulfate. ! 3. Glued building element according to claim 1, characterized in that all the lamellas are made of rectangular cross-section. ! 4. Glued building element according to claim 1, characterized in that all the lamellas are profiled. ! 5. Glued building element according to claim 1, characterized in that the lamellas are glued with a high-strength moisture-proof adhesive of the brand KLEIBERIT PUR-adhesive 501.! 6. Glued building element made of two longitudinal and two transverse lamellas glued together to form a through longitudinal hole filled with insulation, characterized in that the longitudinal lamellas are made of radial sawn timber, and the transverse ones of tangential sawn timber. ! 7. Glued building element according to claim 6, characterized in that the lamella walls on the side of the insulation are impregnated with a solution of copper sulfate. ! 8. Glued building element according to claim 6, characterized in that all the lamellas are made of rectangular cross-section. ! 9. Glued building element according to claim 6, characterized in that all the lamellas are made profiled. ! 10. Glued building element according to claim 1, characterized in that the lamellas are glued with high-strength moisture

Description

The utility model relates to the field of ground construction, and more specifically to glued building elements and can be used in the construction of houses in the manufacture of walls as an independent beam or as an element of a glued wooden beam depending on the required thickness, as well as in the manufacture of floors and attic floors for cold climates.

Known insulated wooden bars [No. 49053 of the Russian Federation, IPC E04C 3/292. Publ. 11/10/2005. Bull. No. 31.]. Such bars are made of lamellas glued together. Some of the lamellas have longitudinal recesses, and the hole in the beam is formed due to these recesses when joining and gluing the lamellas and is filled with insulation. However, stresses can occur in such bars, and then splits with cracks due to the fact that when gluing the lamellas, the directions of the annual layers of wood are not taken into account.

Closest to the claimed utility model and selected as a prototype for both options is a glued building element protected by the RF patent for utility model No. 57311 of the Russian Federation, IPC E04C 3/292. Publ. 10/10/2006. Bull. No. 28. This element is made of four lamellas glued together. When gluing such lamellas in the center of the glued building element, a hole for the insulation is formed.

Despite the fact that such a glued building element has improved heat-shielding properties, during its operation inside the element stresses can occur due to uneven wetting and drying of the element lamellas located in the element, without taking into account the direction of the annual wood layers. This in turn reduces the performance of the building element.

The objective of the utility model for both options is to increase the performance of the glued building element by reducing stress in it.

The technical result that allows us to solve the problem is to reduce stresses by taking into account the direction of the annual layers of wood of various lamellas when gluing them.

The technical result is achieved as follows. According to the first embodiment, the glued building element, like the prototype, is made of two longitudinal and two transverse lamellas glued together to form a through longitudinal hole filled with insulation. Unlike the prototype, the longitudinal lamellas of the inventive glued building element according to the first embodiment are made of tangential sawn timber, and the transverse ones are made of radial sawing material. According to the second option, the inventive glued building element, like the prototype, is made of two longitudinal and two transverse lamellas glued together to form a through longitudinal hole filled with insulation. In contrast to the prototype, the longitudinal lamellas of the inventive glued building element according to the second embodiment are made of radial sawn timber, and the transverse ones are made of tangential sawn material. In both versions, the slats can be made of rectangular cross-section or profiled. To prevent rotting of the wood, the walls of the lamellas in contact with the insulation can be impregnated with a bactericidal solution, in particular, copper sulfate solution. To prevent the ingress of moisture into the element, it is advisable to use a high-strength moisture-proof adhesive, for example, KLEIBERIT PUR-adhesive 501.

To ensure the necessary strength characteristics, additional lamellas can be glued to one or both longitudinal (lateral) external surfaces of the element, taking into account the direction of the annual layers of wood. In this case, according to the first variant, additional lamellas should be tangential sawing, and according to the second variant - radial.

This embodiment of the glued building element gives him a new useful consumer quality - reducing internal stresses and, as a result, reducing the likelihood of splits and cracks, since both longitudinal and transverse lamellas of the glued building element will undergo deformations in the same plane when the wood is moistened and dried.

The essence of the utility model is illustrated in the drawing. The drawing shows a glued building element in cross section for both options.

The glued building element according to the first and second options contains longitudinal lamellas 1, 2 located on the side surfaces of the structure being formed and transverse lamellas 3, 4 located perpendicular to the side surfaces of the structure, and insulation 5 located in the longitudinal hole of the element obtained by gluing the lamellas. The lamellas shown in the drawing have a rectangular cross section. Other embodiments are possible. Lamels can be any sizes. Glued building element can be made of profiled lamellas. According to the first variant, longitudinal lamellas 1, 2 are made of tangential sawn timber, transverse 3, 4 are made of radial sawn timber. According to the second variant, the longitudinal lamellas 1, 2 are made of radial sawn timber, the transverse 3, 4 - of tangential sawn timber.

To ensure the necessary strength characteristics, additional lamellas can be glued to one or both longitudinal (side) surfaces of the element, taking into account the direction of the annual layers of wood (not shown in the drawing). The glued building element, depending on the climatic zone of the construction, can be used as a beam, then chamfers are performed on its outer corners. If necessary, the elements can be glued together to achieve the required level of thermal protection. It is possible to use a glued building element in the manufacture of floors and attic floors. To exclude the processes of diffusion of water vapor from the internal air to the external one and their condensation in the glued building element, high-strength moisture-proof adhesive can be used for gluing lamellas, for example KLEIBERIT PUR-adhesive 501. The inner walls of the lamellas in contact with the heater can be impregnated with a solution of copper sulfate.

The utility model is industrially applicable. The production of glued building element in accordance with the claimed utility model can be carried out using conventional technological equipment, and the manufactured glued building element is used in the construction of houses for the manufacture of walls, floors and attic floors. For the manufacture of lamellas, it is possible to use such sawmill equipment as: multisaw and band saws and circular saw machines with mechanical feed. Bonding lamellas is carried out under the press. For gluing lamellas it is possible to use glue KLEIBERIT PUR-adhesive 501. Other similar types of glue can also be used. The production of glued building element is as follows: First, the lamellas are treated with a bactericidal composition. Then, lumber of the required size is formed from lamellas and a molded insulation, and they are glued using a press.

Claims (10)

1. Glued building element made of two longitudinal and two transverse lamellas glued together to form a through longitudinal hole filled with insulation, characterized in that the longitudinal lamellas are made of tangential sawn timber, and the transverse ones are made of radial sawn timber. 2. Glued building element according to claim 1, characterized in that the lamella walls on the side of the insulation are impregnated with a solution of copper sulfate. 3. Glued building element according to claim 1, characterized in that all the lamellas are made of rectangular cross-section. 4. Glued building element according to claim 1, characterized in that all the lamellas are profiled. 5. Glued building element according to claim 1, characterized in that the lamellas are glued with a high-strength moisture-proof adhesive of the brand KLEIBERIT PUR-adhesive 501. 6. Glued building element made of two longitudinal and two transverse lamellas glued together to form a through longitudinal hole filled with insulation, characterized in that the longitudinal lamellas are made of radial sawn timber, and the transverse ones of tangential sawn timber. 7. Glued building element according to claim 6, characterized in that the lamella walls on the side of the insulation are impregnated with a solution of copper sulfate. 8. Glued building element according to claim 6, characterized in that all the lamellas are made of rectangular cross-section. 9. Glued building element according to claim 6, characterized in that all the lamellas are made profiled. 10. Glued building element according to claim 1, characterized in that the lamellas are glued with high-strength moisture-proof adhesive brand KLEIBERIT PUR-adhesive 501.