RU61316U1 - COMBINED BEAM STRUCTURE - Google Patents

Abstract

The utility model relates to the field of construction, in particular to long-length building structures made of wood, and can be used as a bearing part of walls and ceilings. The technical problem to be solved is the provision of thermal insulation properties of the structure. The prefabricated beam structure consists of the upper and lower panels, walls and bars located between the panels with the formation of hollow chambers. The bars are attached by one of the side surfaces to the inner surfaces of each of the panels, and the wall is installed between the surfaces of the bars, opposite the attached planes, and is made of plate insulation. 1 nz., 1 star pf, 1 FIG.

Description

The utility model relates to the field of construction, in particular to long-length building structures made of wood, and can be used as a bearing part of walls and ceilings.

Known prefabricated beam construction of an I-section, including a flat plywood wall and the belts connected to it from glued layers of boards or solid beams. To reduce the consumption of wood, the belts are made by sawing a common workpiece of rectangular cross section diagonally and glued to the plywood wall with an acute angle of the T-section inward (RU 2052043, E 04 C 3/12, 1996).

Also known prefabricated beam structure, made in the form of a hollow block, consisting of vertically arranged rows at a certain distance from each other with the formation of a cavity of longitudinal elements. On the upper and / or lower faces of the elements, longitudinal grooves and protrusions are made. The longitudinal elements in each row are fastened together in height, and the adjacent rows of longitudinal elements are interconnected by at least one connecting element having, on opposite faces oriented along the longitudinal axis of the block, grooves and protrusions engaged with protrusions and grooves, respectively longitudinal elements of adjacent rows. In each row, at a distance from each other along the length of the block equal to the module, vertical through and / or blind holes and / or grooves are made for installing clamps in them with the placement of coupling elements between them having a length multiple of the module (RU 2204668, E 04 C 3/12, E 04 B 1/10, 2003). In another embodiment, the prefabricated beam structure contains a package of glued together boards and longitudinal inserts with the formation of hollow chambers located between parallel boards of the package (EP 0069040, E 04 C 3/14, E 04 C 3/12, 1983). Longitudinal inserts can be made with installation grooves and protrusions for fixing the block elements in a prefabricated structure (RU 2266376, E 04 C 3/12, 2005).

Closest to the claimed is a prefabricated beam structure consisting of upper and lower wood panels, walls in the form of bars located between the wood panels with the formation

hollow chambers, and elements connecting the wall with wood shields (RU 2032042, Е 04 С 3/12, 1995).

However, the use of these structures ensures the performance of only the supporting function in the constructed object without insulation.

The technical problem to be solved is the provision of insulation of an object constructed using a prefabricated beam structure without additional introduction of insulation elements.

The solution to this technical problem is that the following changes are made to the prefabricated beam structure, consisting of upper and lower panels, walls and bars located between the wood panels with the formation of hollow chambers:

1) the bars are attached to one of the side surfaces to the inner surfaces of each of the shields;

2) the wall is installed between the side surfaces of the bars, opposite the attached planes;

3) the wall is made of plate insulation (expanded polystyrene, polyurethane, foam, etc.).

The causal relationship of the proposed technical solution with the technical result achieved is that in this design the wall, being made of plate insulation, provides not only a reduction in material consumption, but also thermal protection of the constructed object. In this case, thermal protection is also enhanced by the presence of two air gaps in the form of hollow chambers between the wall and each of the shields, while in the prototype design there is only one hollow chamber.

The most appropriate implementation of the bars in the form of long rails. In this case, they form the configuration of the brand with the shield to which they are attached.

As the upper and lower shields can be used chipboard.

Figure 1 shows a variant of the prefabricated beam structure with T-shaped connection of the shield with the bars.

The prefabricated beam structure (Fig. 1) consists of upper and lower wood shields (items 1 and 2, respectively), a wall 3 and two pairs of wooden bars 4 located between the wood shields 1 and 2 and

glued one of the side surfaces to the inner surfaces of each of the wood shields. The wall 3 is installed between the surfaces of the bars 4, opposite the attached planes and is made of plate insulation. In this embodiment, the wall 3 is rigidly connected to the bars 4 by means of a tightening strap 5 attached to the outer side surfaces of the bars 4. An assembly option is possible, providing for gluing the wall 3 between the corresponding pairs of bars 4.

The hollow chambers 6 and 7 formed between the wall 3 and the shields 1 and 2, respectively, can be used as a ventilated facade, as well as for laying engineering networks and communications.

Thus, in comparison with the prototype, the proposed prefabricated beam structure in addition to the supporting function also performs thermal insulation of the construction object without complicating the device. Other types of positive effects derived from the achieved are:

- increase the bearing capacity of the structure, especially in the embodiment with the formation of the T-joint of the elements;

- reliable fastening of a heater and finishing boards (GVL, OSB, etc.) without additional crate;

- manufacturability (high-precision expensive equipment is not required, the target product can be manufactured by bench assembly, including directly at the construction site from harvested elements);

- general availability and low cost of raw materials used;

- providing the necessary gaps for laying engineering networks and ventilation;

- low weight of the structure, which improves the conditions of transportation and installation;

- there are no cold bridges when using the design as a building envelope;

- universality of application (wall panels, ceilings, rafter systems, etc.).

Claims (2)

1. The prefabricated beam structure, consisting of upper and lower boards, walls and bars located between the boards with the formation of hollow chambers, characterized in that the bars are attached to one of the side surfaces to the inner surfaces of each of the boards, and the wall is installed between the surfaces of the bars, opposite attached surfaces and is made of plate insulation. 2. The prefabricated beam structure according to claim 1, characterized in that the bars are attached to the shields with the formation of the configuration of the brand.