RU166518U1 - PROFILED WARMED BAR WITH HIGHER STRENGTH - Google Patents

Abstract

1. A profiled insulated beam with increased strength, containing external longitudinal profiled lamellas, on the inner surface of each of which a reinforcing moisture-protective layer is glued, a heater located inside the bar and glued with reinforcing moisture-proof layers of the external longitudinal profiled lamellas, and cross-links installed on top of the bar in the form H-shaped connectors, the end parts of which are fixed in recesses made in the external longitudinal profiled lamellas, characterized in that it additionally contains another longitudinal profiled lamella installed in the center of the beam, made with recesses for the connectors and glued with insulation, moreover, the connectors at the locations in the additional lamella have protrusions, all the connectors are installed vertically, and their central and terminal parts extend beyond the upper surface of the beam, in addition, in the lower part of the beam in the central and external longitudinal profiled lamellae, recesses are made, the depth of which corresponds to the height of the protruding affairs of the bar of the connector parts, in addition, the reinforcing moisture-proof layer on the inner surface of the external longitudinal profiled lamellas is made of plywood. 2. A profiled insulated beam according to claim 1, characterized in that all the elements are glued with a high-strength moisture-proof adhesive, for example, KLEIBERIT grade PUR-adhesive 501.3. Profiled insulated beam according to claim 1, characterized in that the lamella walls are impregnated with a bactericidal composition, for example, copper sulfate solution. 4. Profiled insulated beam according to claim 1, characterized in that the central

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.

Known combined glued beam, protected by a patent of the Russian Federation for utility model No. 108777 of the Russian Federation, IPC (2006.01) E04C 3/292. Publ. 09/27/2011. A beam is a combination of a glued building element and a longitudinal lamella. The glued building element consists of four profiled lamellas glued together to form a through longitudinal hole filled with insulation. Between the glued building element and the longitudinal lamella there is a profiled insulation with which adjacent lamellas are glued. In this case, high-strength moisture-proof glue is used, which prevents the penetration of moisture into the element.

The lamellas of the glued building element are glued 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 double warming and gluing of all elements, has improved moisture-proofing and heat-technical characteristics, its thermal conductivity does not meet the standards for northern climatic regions. If the loads increase (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.

Known combined laminated veneer lumber with transverse mounting according to the patent for a utility model of the Russian Federation No. 114982, IPC E04C 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, but does not provide sufficient strength with increasing number of storeys.

Known combined glued beam with transverse and vertical fastening according to the patent for utility model RU 133159, IPC E04C 3/12, publ. 10/10/2013. The device according to RU 133159 contains longitudinal profiled lamellas, a heater located between longitudinal profiled lamellas and glued with them with high-strength moisture-proof adhesive. Between the bottom and / or top of the glued beam, transverse connections are established that connect the longitudinal profiled lamellas to each other. Cross connections are made in the form of connectors, which can be of any shape: rectangular with rounded ends, in the form of dumbbells with cylindrical ends, with ends in the form of a "dovetail". The end parts of the connectors are fixed in recesses made in longitudinal profiled lamellas. Each connector consists of two layers. The end parts of the upper layer are made of wood, the middle part of the upper layer is made of insulation. The bottom layer of each connector is reinforcing and made of durable material. Additionally, longitudinal profiled lamellas and end parts of the connectors are interconnected in height using wooden pins. Due to the strengthening of cross-links, the moisture-protective, heat-protective and strength properties of glued beams increase. Despite all the listed advantages of the timber according to RU 133159, with an increase in the number of storeys of houses, the compressive strength may also be insufficient, which reduces its scope.

Closest to the claimed profiled beam is a profiled insulated beam with increased compressive strength according to the patent for utility model RU 143088, IPC E04C 3/12, publ. 07/10/2014, which serves as a prototype of the claimed beam.

The profiled insulated beam with increased compressive strength according to the prototype comprises external longitudinal profiled lamellas, a heater glued with 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 external longitudinal profiled lamellas.

The profiled insulated beam additionally from the inside of each outer longitudinal lamella contains a layer of cross-cut lamellas glued together, and, at the locations of the connectors, from longitudinal lamellas, the outer longitudinal lamellas and the inner layer of lamellas glued together with high-strength moisture-proof adhesive, and the lamellas of longitudinal the cut of the inner layer is additionally fastened with external longitudinal lamellas by metal self-tapping screws. The connectors are H-shaped or in the form of a "dovetail".

The presence of two layers of lamellas improves the heat-shielding properties of the timber. The presence of pepper ties in the form of connectors and the use of additional metal screws that secure the lamella of the longitudinal cut, in which the connectors are attached, with the lamella of the outer layer increase the compressive strength of the bar structure and thereby reduce the shrinkage of the building structure.

The objective of the utility model is to increase the strength and moisture resistance of the timber in order to expand its scope, as well as to simplify the assembly technology during construction.

The technical result consists in eliminating the possibility of penetration of water vapor into the insulation and timber, increasing the heat-shielding properties of the structure and increasing the structural strength of the timber and thereby reducing the shrinkage of the building structure.

The technical result and the solution of the task are achieved as follows.

The profiled insulated beam with increased strength, like the prototype, contains external longitudinal profiled lamellas, on the inner surface of each of which a reinforcing moisture-protective layer is glued, a heater located inside the bar and glued with reinforcing moisture-proof layers of the external longitudinal profiled lamellas, and cross connections in the form of connectors H-shaped, mounted on top of the beam. The end parts of the connectors are fixed in the recesses made in the external longitudinal profiled lamellas.

Unlike the prototype, the inventive bar additionally contains another longitudinal profiled lamella installed in the center of the bar, made with recesses for the connectors and glued with insulation. Connectors at locations in the additional lamella have protrusions of various shapes, for example, rectangular or trapezoidal. The difference is also that all the connectors are installed vertically, and their central and final parts protrude beyond the upper surface of the beam. In the lower part of the beam in the central and external longitudinal profiled lamellas, recesses are made, the depth of which corresponds to the height of the connector parts protruding beyond the beam. Unlike the prototype, the reinforcing moisture-proof layer on the inner surface of the outer longitudinal profiled lamellas is made of plywood.

All elements of the timber are glued with a high-strength moisture-proof adhesive, for example, KLEIBERIT PUR-adhesive grade 501. The lamella walls are impregnated with a bactericidal composition, for example, copper sulfate solution.

Unlike the prototype, in a profiled insulated beam, according to a utility model, additionally, from the inside of each outer longitudinal lamella, there is not a layer of transverse cut lamellas glued together, but in the locations of the connectors are made of longitudinal cut lamellas, but a plywood layer. The use of plywood makes the structure more waterproof (hydrophobic). In contrast to the use of lamellas on the inside of the longitudinal outer lamellas, which (albeit in small amounts) can be affected by moisture, the use of plywood eliminates both the transfer of moisture and the change in its own shape under the influence of moisture. The presence of an additional lamella in the center of the timber increases the strength of the timber. The protruding parts of the connectors and the corresponding recesses in the central and external longitudinal profiled lamellas, made in the lower part of the beam, make the building structure of the claimed beam even more rigid and strong, as well as simplify and speed up the process of collecting the wall structure.

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

The essence of the utility model is illustrated by drawings. In FIG. 1 shows a cross section of a profiled insulated beam. In FIG. 2 - profiled insulated beam in cross section (view 1-1 of Fig. 1).

Insulated beam, consists of external profiled longitudinal lamellas 1, 2, plywood layers 3, 4 glued with high-strength moisture-proof adhesive with lamellas 1, 2, insulation layer 5 between them and the internal longitudinal lamella 6. Layers of plywood 3, 4, internal longitudinal lamella 6 and insulation 5 glued together with a high-strength moisture-proof adhesive. The walls of the lamellas 1, 2, 6 are pre-impregnated with a solution of copper sulfate. On top of the beam there are transverse connections 7 in the form of H-shaped connectors with additional protruding parts, which are fixed in recesses made in the central 6 and outer 1, 2 longitudinal profiled lamellas. The distance between the connectors 7 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 1, 2, 6 it is possible to use tape and milling machines. As a heater 5, it is possible to use any rigid heat-insulating material, for example expanded polystyrene, polyurethane foam, expanded vermiculite, etc. Bonding of lamellas, plywood and insulation is carried out by high-strength moisture-proof adhesive, for example, KLEIBERIT PUR-adhesive 501. Before gluing, each individual lamella is first dried and processed with fire-retardant, water-repellent compounds, impregnated with a bactericidal composition. The use of a wide layer of insulation increases the heat-shielding properties of the timber. Lamels located closer to the room are preferably made of wood - cedar, because it better affects the microclimate of the room and the well-being of a person, closer to the outside air - from larch, because This wood species has unique strength properties. The value of the thermal insulation layer (insulation 5) is selected based on the area of application of the beam and taking into account regulatory indicators for northern regions with a cold climate. In the insulation 5, plywood layers 3, 4 and longitudinal lamellas 1, 2, 6, transverse recesses (recesses) are made above and below the beam, corresponding to the profile of the connector, in which the transverse connections are placed - connectors 7 made of plywood 1 cm thick. the location of the connectors 7 and the corresponding recesses in the lower part of the timber will simplify and speed up the process of collecting the wall structure.

The presence of cross-links in the form of connectors, the end parts buried in the lamellas 1, 2, as well as their additional fastening in the internal longitudinal lamella increases the strength of the structure. In addition, the wooden end parts of the connectors, filling the recesses, restore the integrity of the lamellas and serves as a stronger connection between the bars. And the presence on the inner surface of the outer lamellas of an additional layer of plywood increases the moisture-proofing properties of the timber.

Claims (5)

1. A profiled insulated beam with increased strength, containing external longitudinal profiled lamellas, on the inner surface of each of which a reinforcing moisture-protective layer is glued, a heater located inside the bar and glued with reinforcing moisture-proof layers of the external longitudinal profiled lamellas, and cross-links installed on top of the bar in the form H-shaped connectors, the end parts of which are fixed in recesses made in the external longitudinal profiled lamellas, characterized in that it additionally contains another longitudinal profiled lamella installed in the center of the beam, made with recesses for the connectors and glued with insulation, moreover, the connectors at the locations in the additional lamella have protrusions, all the connectors are installed vertically, and their central and terminal parts extend beyond the upper surface of the beam, in addition, in the lower part of the beam in the central and external longitudinal profiled lamellae, recesses are made, the depth of which corresponds to the height of the protruding affairs of the bar of the connector parts, in addition, the reinforcing moisture-proof layer on the inner surface of the external longitudinal profiled lamellas is made of plywood. 2. Profiled insulated beam according to claim 1, characterized in that all the elements are glued with a high-strength moisture-proof adhesive, for example, KLEIBERIT grade PUR-adhesive 501. 3. A profiled insulated beam according to claim 1, characterized in that the lamella walls are impregnated with a bactericidal composition, for example, copper sulfate solution. 4. Profiled insulated beam according to claim 1, characterized in that the central protrusions of the connectors are made in a trapezoidal shape. 5. Profiled insulated beam according to claim 1, characterized in that the central protrusions of the connectors are rectangular.

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