RU101721U1 - PROFILED BEAM AND BUILDING ON ITS BASIS - Google Patents

Abstract

 1. A profiled beam of rectangular cross section, the opposite sides of which are provided with support protrusions and longitudinal installation grooves for placing the support protrusions of a similar beam when installing the bars on top of each other, having in the cross section trapezoidal profiles with a cut made in one of the installation grooves, characterized in that the cuts are additionally made in at least one further mounting groove and / or supporting ledges of the beam. ! 2. A profiled beam according to claim 1, characterized in that the cuts are made in the installation grooves of one face and on the corresponding supporting protrusions of the opposite side of the beam. ! 3. A profiled beam according to claim 1, characterized in that it is made with chamfers. ! 4. A profiled beam according to claim 1, characterized in that it is made with at least two supporting projections. ! 5. The structure of a profiled beam of two lengths, equipped with supporting protrusions and mounting grooves having trapezoidal profiles in cross section and stacked on top of each other, characterized in that it is made of a beam equipped with supporting protrusions and mounting grooves on two opposite sides of the timber, cuts are made in the installation grooves and / or support ledges of the beam, the end parts of the longer beam are made with the removed (cut) support ledges to a length equal to the width of the beam, with the formation we eat flat platforms, and the height (thickness) of a smaller beam is equal to the height of the end parts of a larger beam and is H2 = H1-2h, where H2 is the height of a smaller beam; H1 is the height of the beam of greater length; h is the height of the support ledges. ! 6. The structure according to claim 5, characterized in that

Description

The utility model relates to the construction industry and the woodworking industry, in particular to the constructions of wooden profiled timber and structures from it.

Known building profiled beam (RF patent 2239028, C1, 1/04 1/10, 10/27/2004)., Comprising longitudinal support projections and installation grooves made on two opposite sides, having asymmetrical trapezoidal profiles in the cross section, respectively alternating with the possibility of support along inclined lateral surfaces of a similar beam when installing the bars on top of each other.

Also known is a building beam for wooden house building (RF patent 87721 U1, E04В 1/10, Е04С 3/12 10.20.2009) containing profiled surfaces formed by longitudinally-oriented trapezoidal support protrusions and installation grooves on opposite sides of the timber, while installation grooves on profiled surfaces are opposite to the supporting protrusions, characterized in that the side wall of each extreme groove adjacent to the sidewall of the beam is inclined to the vertical at an angle smaller than the angle of inclination to the vertical of the outer the lateral face of each extreme supporting protrusion on the opposite profiled side of the beam, the named wall of the groove is connected to the sidewall of the beam through a surface forming an acute angle with the groove wall and an alignment rib oriented along the beam, which is located in a longitudinally vertical plane parallel to the plane of symmetry of the beam and crossing the specified external lateral face of the support ledge at a distance from the base of the latter, defined by the ratio: S = h-, where = (0.5-5) (mm), ah is the distance from the base Ia to conjugation of the groove rib having a relation: h = (0,3-0,7) H, where H - the depth of the trapezoidal groove of the profiled surface of timber ..

The disadvantages of the above beams are the complexity of manufacturing due to the need for very precise adherence to the shape of the beam, namely the implementation of asymmetric trapezoidal profiles to ensure the joining of angular joints, in addition, the design of these bars does not allow for high-quality drying of the beam in the array.

There is also known the construction of profiled timber, adopted for the prototype (EP 0787866 A1 06.08.97, E04B 1/10), which includes two support ledges, longitudinal mounting grooves for placing the supporting elements of a similar beam when installing the bars on top of each other, installation grooves are located on the side of the beam opposite from the supporting protrusions. The supporting protrusions and mounting grooves have a trapezoidal cross-sectional profile, and the bars are supported along the corresponding inclined side surfaces.

A disadvantage of the known beam is the impossibility of high-quality drying of the beam in the array.

A wooden structure from a profiled beam is known (RF patent 2293161, C1, E04В 1/10, 02/10/2007), including a bar of two lengths of square section with installation grooves on one side and a mating element of similar lengths connected to it when mounting the structure, made in the form boards with supporting protrusions on one side, having trapezoidal profiles in cross section, with respectively alternating pairing on flat and inclined surfaces during their successive laying. An interface element of greater length is laid on the shorter length and mating width of the bars forming angular or other joints, and the beam is laid on an interface element of a similar length. This solution is also selected as a prototype.

The disadvantage of this solution is the difficulty of assembling a wooden structure, due to the variety of assembly elements, high consumption of lumber.

The problem to which the claimed utility model is directed is to ensure high-quality drying of the profiled beam, simplify its manufacture, expand the range of building materials, as well as simplify the assembly of the structure from the beam, save materials.

The task is achieved in that the profiled beam is of rectangular cross section, the opposite edges of which are provided with support protrusions and longitudinal installation grooves for placing the support protrusions of a similar beam when the beams are mounted on top of each other, having trapezoidal profiles in cross section, according to the claimed utility model, made with cuts in installation grooves and / or supporting ledges of the beam.

The beam can be made with cuts in the installation grooves of one face and on the corresponding supporting protrusions of the opposite side of the beam.

The beam can be made with chamfers.

The beam may be made with at least two supporting projections.

The task is also achieved by the fact that the structure of a profiled beam of two lengths, equipped with supporting protrusions and installation grooves having trapezoidal profiles in cross section and stacked on top of each other, according to a utility model, is made of a timber equipped with supporting protrusions and installation grooves on two opposite the edges of the beam, while in the installation grooves and / or supporting protrusions of the beam, cuts are made, the end parts of the larger length of the beam are made with the removed (cut) supporting height blunts for a length equal to the width of the beam, with the formation of flat areas, and the height (thickness) of the beam of shorter length is equal to the height of the end parts of the beam of greater length and is H ₂ = H ₁ -2h, where H ₂ is the height of the beam of shorter length; H ₁ - the height of the beam of greater length; h is the height of the support ledges.

Saws on the installation grooves and supporting ledges of the beam can be equipped with embedded parts.

Embedded parts of cuts can be made in the form of wooden planks (dowels).

The embedded parts of the cuts can be made in the form of thin plates of aluminum foil, with their laying along the entire length of the cuts, with the exception of the angular parts of the structure.

In the place where the butt end of the beam of a shorter length joins the side face of the end part of the longer beam, vertical channels can be made for laying sealing elements, for example cords.

Bars of different lengths in the corner parts of the structure can be interconnected using a screw with a nut installed in the hole.

At least two beams laid on top of each other can be connected by fasteners, for example, using self-tapping screws.

A layer of heat-insulating material can be laid between the joined surfaces of the bars.

The declared profiled beam and the structure based on it are connected with each other by a single concept, therefore, the claimed utility model meets the requirement of unity.

The technical result achieved by the implementation of the proposed solution consists

- in use in the construction of high-quality dried raw materials by making cuts in the beam located in the installation grooves and / or supporting ledges of the beam, which, in addition, perform the function of compensating stresses, thermoregulatory sinuses, and when executed with embedded elements, for example, in the form of plates made of aluminum foil and energy-saving function;

- in ensuring accurate and without gaps the joining of the angle of the structure due to the execution of the end parts of the beam of greater length with the removed (cut) support projections for a length equal to the width of the beam, with the formation of flat platforms, and different heights of the bars (the height of the beam of a shorter length is equal to the height of the end parts longer timber).

- in saving materials due to the use of bars of different heights.

The inventive utility model is illustrated by drawings, where in Fig.1 schematically shows a cross section of a beam; figure 2 shows the assembly diagram of the structure based on profiled timber; figure 3 is a top view of figure 2; figure 4 section aa in figure 3; figure 5 part of the structure in the assembly.

The inventive profile beam contains the supporting protrusions 1 and the installation grooves 2 of the trapezoidal profile, cuts 3, chamfers 4.

The inventive structure of a profiled beam consists of a beam of greater length 5, a beam of shorter length and height 6, equipped on the opposite sides with supporting protrusions 1 and installation grooves 2 of a trapezoidal profile, with cuts made in them 3. Moreover, the longer beam has on its end parts installation sites 7, formed as a result of cutting the support projections 1, openings of vertical channels for laying sealing elements 8, openings 9 for installing screws, a layer of thermal insulation between the bars 10, fasteners 11.

Profiled timber is made by milling with the formation of support ledges and installation grooves. The number of supporting ledges 1 and corresponding mounting grooves 2 performed on the beam depends on the thickness of the beam and is determined individually for each structure. Sawing can be performed both before milling and after. The saw bar is dried.

Chamfers 4 on the bars to improve the outflow of water from the seams in the case if it is not intended to cover the structure of the structure, make it on the bars before assembling the structure.

The structure of the profiled beam is collected as follows.

Use the bars of two lengths, and the bars of shorter length should have a smaller height, calculated by the formula H ₂ = H ₁ -2h, where H ₂ is the height of the beam of shorter length; H ₁ - the height of the beam of greater length; h is the height of the support ledges. For bars of greater length, the support protrusions are cut to a length equal to the width of the beam.

The bars of two lengths are laid alternately, while in the lower rim the bars of greater length and height 5 are on opposite walls of the structure, and the bars of shorter length and height 6 between them are also opposite to each other. In the second and subsequent crowns, the stacking sequence is observed - a beam of shorter length and height is laid on a beam of greater length and height and vice versa. The angle of the structure is formed by the end parts of the bars of greater length and height, and the bars of shorter length and height play the role of embedded bars. In order to improve the thermal insulation properties of the structure, a thermal insulation layer is laid between the joined surfaces of the bars 10. Saws 3 on the installation grooves and supporting ledges of the timber are laid with wooden dowels, both for waterproofing the corner joints of the structure and for improving thermal insulation characteristics, or with thin aluminum foil plates, which contributes even more to the conservation of heat inside the building. At the junction of the end face of the smaller length of the beam with the side face of the end part of the larger length of the beam, vertical channels are made for laying sealing elements, for example, foam cords.

The bars of different lengths in the corner connection are fastened together using a screw with a nut installed in the hole. The boards laid on top of each other in the wall are fastened with any known fastening elements, for example, self-tapping screws, screws with a nut, etc.

The claimed structure, constructed on the basis of the declared timber, is easy and quick to assemble, has good thermal insulation properties, and saves lumber.

Claims (12)

1. A profiled beam of rectangular cross section, the opposite sides of which are provided with support protrusions and longitudinal installation grooves for placing the support protrusions of a similar beam when installing the bars on top of each other, having in the cross section trapezoidal profiles with a cut made in one of the installation grooves, characterized in that the cuts are additionally made in at least one further mounting groove and / or supporting ledges of the beam. 2. A profiled beam according to claim 1, characterized in that the cuts are made in the installation grooves of one face and on the corresponding supporting protrusions of the opposite side of the beam. 3. A profiled beam according to claim 1, characterized in that it is made with chamfers. 4. A profiled beam according to claim 1, characterized in that it is made with at least two supporting projections. 5. The structure of the profiled beam of two lengths, equipped with supporting protrusions and mounting grooves having trapezoidal profiles in cross section and stacked on top of each other, characterized in that it is made of a beam equipped with supporting protrusions and mounting grooves on two opposite sides of the timber, cuts are made in the installation grooves and / or support ledges of the beam, the end parts of the longer beam are made with the removed (cut) support ledges to a length equal to the width of the beam, with the formation eat flat areas, and the height (thickness) of the shorter timber is equal to the height of the end parts of the larger timber and is H ₂ = H ₁ -2h, where H ₂ is the height of the smaller timber; H ₁ - the height of the beam of greater length; h is the height of the support ledges. 6. The structure according to claim 5, characterized in that the cuts on the installation grooves and supporting ledges of the beam are equipped with embedded parts. 7. The structure according to claim 6, characterized in that the embedded parts of the cuts are made in the form of wooden planks (dowels). 8. The structure according to claim 6, characterized in that the embedded parts of the cuts are made in the form of thin plates of aluminum foil, with their laying along the entire length of the cuts, with the exception of the angular parts of the structure. 9. The structure according to claim 5, characterized in that at the junction of the end face of the beam of shorter length with the side face of the end part of the beam of greater length, vertical channels are made for laying sealing elements, for example cords. 10. The structure according to claim 5, characterized in that the beams of different lengths in the corner parts of the structure are interconnected using a screw with a nut installed in the hole. 11. The structure according to claim 5, characterized in that at least two beams laid on top of each other are interconnected by fasteners, for example, using self-tapping screws. 12. The building according to claim 5, characterized in that a layer of heat-insulating material is laid between the joined surfaces of the bars.