RU197921U1 - BEAM SECTION BEAM - Google Patents

Abstract

The utility model relates to the field of construction, namely, the designs of the supporting beams of the I-section used as load-bearing elements of floors or coatings of buildings. The solution of the problem and the achievement of the claimed technical result is ensured by the fact that the utility model is a known beam of I-section, including a flat wall 3 and the shelves 1 connected to it, provided with longitudinal grooves 2 for placement of a wall 3 in them, characterized in that the wall 3 of the beam is made of cement-bonded particleboard (hereinafter referred to as DSP). In the proposed design, the connection of the wall 3 and the shelves 1 of the formwork beam of the I-beam overlap is provided by the grooves 2 in the shelves 1 of the formwork and adhesive. Despite the fact that to enhance rigidity, the design has an additional lower shelf 4 of the product and an additional groove 5, which provides a more stable fastening of the beam in the interface. This ensures the longitudinal stability of the beam wall and increases the reliability of fastening. From the condition of ensuring the greatest bearing capacity, the depth of the grooves 2 and 5 is not less than 0.07 of the height of the wall 3 of the beam, and the width of the grooves 2 and 5 is equal to the thickness of the sheet of the wall 3 of the formwork beam. 4 s.p. f-ly, 1 ill.

Description

The utility model relates to the field of construction, namely, to the designs of I-beam beams used as load-bearing elements of floors or coatings of buildings.

I-beams made of wood or gluing beams, as well as wooden I-beams, in which metal products are placed to increase the bearing capacity and stiffness, be it steel corrugated lintels, plates, crosses, etc., are known from the prior art.

So, for example, the I-beam is known, according to the patent for utility model No. 151745, class. Е04С 3/12 (2006.01), including structural elements - belts and a wall, which are connected in a rigid structure using metal pins, the belts are made of wood, characterized in that the wall is made of corrugated steel sheet.

As well as a metal-wooden I-beam according to the invention patent No. 2382855, class. Е04С 3/29 (2006.01), including the upper and lower belts made of wood and a metal flat wall mounted and fixed in the longitudinal grooves of the upper and lower girders of the beam, characterized in that the corrugations are made of semi-cylindrical shape, and in the grooves of the shelves of the beam with in a step equal to the step of the transverse corrugations of the wall, cylindrical recesses are provided in which the corrugations of the beam wall are introduced and fixed in them by cylindrical pins.

The disadvantage of the above solutions is the complexity of the manufacture of the structure, requiring increased costs, as well as the low strength of the main element - wood, which has low wear resistance.

Known patent for utility model under No. 166399, class. IPC E04C 3/29 (2006.01). A steel-wood I-beam, including the upper and lower belts of metal shells, one of which is filled with concrete, and a wall from a glued package of boards, characterized in that, in order to increase reliability and load-bearing capacity, the wooden wall and the beam belts are interconnected through the teeth of metal shells that are stamped in them with different pitch along the length, with a decrease in the supports.

The disadvantage of this steel-concrete I-beam is also the increased complexity of manufacturing, as well as the multicomponent technical solution.

The author set himself the task of developing an I-section beam with increased overall strength and rigidity, wear resistance. Also an important criterion was resistance to the external environment, such as moisture resistance and fire resistance.

At the same time, the design does not have to be complicated, since excessive parts lead to higher production costs, and, consequently, the cost of the product.

Brief Description of the Drawings:

FIG. 1 - General view of the beam formwork floor.

The solution of this problem and the achievement of the claimed technical result is ensured by the fact that the utility model is a known beam of I-section, including a flat wall 3 and the shelves 1 connected to it, provided with longitudinal grooves 2 for placement of a wall 3 in them, characterized in that the wall 3 beams are made of cement-bonded particleboard (hereinafter referred to as DSP). Replacing the material of the wall 3 of the beam of the formwork of the overlapping of the I-section to the DSP allows you to simplify the design of the product as much as possible while achieving the objectives: increasing the overall strength, with the relative lightness of the beam, fire resistance, moisture and frost resistance, as well as heat and sound insulation.

As you know, DSP is widely used in the field of construction due to its valuable characteristics. So, for example, DSP has a small weight compared to other cement-based materials, while having a high density, which gives the frame structures an increased level of rigidity.

As for the consumer characteristics, here DSP is one of the most demanded materials, since the combination of cement chips and wood chips, as well as other additives included in its composition, allows such a plate to have high moisture resistance and biological factors, such as: frost resistance heat conductivity, vapor permeability and fire resistance.

In the proposed design, the connection of the wall 3 and the shelves 1 of the I-beam, is ensured by the grooves 2 in the shelves 1 and adhesive. Despite the fact that to enhance rigidity, the design has an additional lower shelf 4 of the product and an additional groove 5, which provides a more stable fastening of the beam in the interface. This ensures the longitudinal stability of the beam wall and increases the reliability of fastening. From the condition of ensuring the greatest bearing capacity, the depth of the grooves 2 and 5 is not less than 0.07 of the height of the wall 3 of the beam, and the width of the grooves 2 and 5 is equal to the thickness of the sheet of the wall 3 of the formwork beam.

Claims (5)

1. A beam of I-section, containing shelves and a rack, and the shelves are made of timber, characterized in that the rack is made of cement-bonded particleboard placed in the grooves of the shelves. 2. An I-section beam according to claim 1, characterized in that the structure has an additional lower shelf of the product and an additional groove. 3. The beam of the I-section according to claim 1, characterized in that the fastening of the shelves and walls in the grooves is provided by an adhesive. 4. The beam of the I-section according to claim 1, characterized in that the width of the grooves is equal to the thickness of the sheet of the rack of the beam of the I-section. 5. The beam of the I-beam section according to claim 1, characterized in that the depth of the grooves is at least 0.07 of the rack height of the beam of the I-beam.

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