RU123038U1 - PROFILED COMPOSITION BAR AND CONSTRUCTION PANEL ON ITS BASIS - Google Patents

Abstract

1. Profiled composite beam made of glued wood, characterized in that the beam is a pre-formed rigid frame, which is made of three layers: in the form of two layers of pine wood lamellas, between which along the entire length of the side surfaces there is a heat-insulating insert, the latter is laid in in the form of a layer of polyurethane foam, while the ends of the lamellas on one side are made in the form of triangular projections, and on the other side in the form of triangular grooves. 2. A building panel containing a wooden frame with joining elements, characterized in that the wooden frame contains n profiled composite beams, which are pre-formed rigid frames made of three-layer: in the form of two layers of pine wood lamellas, between which along the entire length of the side surfaces there is a thermal insulation insert, the latter is laid in the form of a layer of polyurethane, while the ends of the lamellas are made on one side in the form of triangular protrusions, and on the other side in the form of triangular grooves, while the bars are rigidly connected to each other by docking elements in the form of triangular protrusions and triangular grooves made on the ends of the lamellas.

Description

The utility model relates to the field of construction and can be used in the construction of external walls.

A wall panel is known that contains an outer frame of two rigidly connected frames forming one of the sides of the frames protruding outward of at least one docking element, sheet sheathing attached to opposite sides of the frame, forming an internal cavity filled with insulating material (see RF patent for useful Model No. 74940, IPC E04C 2/38, published on July 20, 2008).

The disadvantages of the wall panel include insufficiently wide technological capabilities during the assembly of the building, insufficiently high consumer properties, especially with regard to the optimal combination of structural and thermal insulation properties while maintaining the required structural rigidity.

The closest technical solution to the proposed utility model is a profiled structural beam and a building panel based on it, which is made of multi-layer glued wood and contains a central bar with adjacent side planks that form grooves, and the side planks are made of composite angled blocks that form longitudinal grooves (see RF patent for utility model No. 81219, IPC E04B 1/10, publ. March 10, 2009).

The disadvantages of the known profiled structural timber and a building panel based on it are that during construction of buildings, the docking element has not high rigidity, in addition, the above wall panel has low thermal insulation properties, narrow technological capabilities.

The technical task of the claimed utility model is to expand the technological capabilities of a profiled composite beam and a building panel based on it, improve operational properties and expand the range of building materials, reduce the cost of the panel.

The problem is solved in that the profiled composite Rus made of glued wood, according to a utility model, the beam is a pre-formed rigid frame, which is made of three layers: in the form of two layers of pine wood lamellas, between which along the entire length of the side surfaces there is a heat-insulating liner, the latter is laid in the form of a layer of polyurethane foam, while the ends of the lamellas on the one hand are made in the form of triangular protrusions, and on the other hand in the form of triangular grooves.

The problem is also solved by the fact that a building panel containing a wooden frame with docking elements, according to a useful model, a wooden frame contains n profiled composite beams, the latter is a preformed rigid frame, which is made three-layer: in the form of two layers of pine wood lamellas, between by which along the entire length of the side surfaces there is a heat-insulating liner, the latter is laid in the form of a layer of polyurethane foam, while the ends of the lamellas on one side They are made in the form of triangular protrusions, and on the other hand in the form of triangular grooves, while the bars are rigidly interconnected by docking elements in the form of triangular protrusions and triangular grooves made at the ends of the lamellas.

The inventive profiled composite beam differs from the prototype in the following features:

- the implementation of the beam as a pre-formed rigid frame with three layers: in the form of two layers of pine wood lamellas, between which along the entire length of the side surfaces there is a heat-insulating liner, it allows to accelerate the process of construction and installation works and expand the technological capabilities of the beam as a new wall material;

- the implementation of the heat-insulating liner in the form of a layer of polyurethane foam allows you to change its thickness for the manufacture of profiled composite beams for any region of Russia, to improve its operational properties;

- the execution of the ends of the lamellas on the one hand in the form of triangular protrusions provides a rigid connection between the bars;

- the execution of the ends of the lamellas on the other hand in the form of triangular grooves provides a connection between the bars and allows you to form a rigid triangle connection.

The inventive building panel differs from the prototype in the following features:

- the implementation of the construction panel in the form of a rigid frame of n profiled composite beams, interconnected by docking elements in the form of triangular protrusions and triangular grooves made at the ends of the lamellas, which allow you to get two pairs of joints in the form of triangles, thereby increasing the rigidity of the connection, improve operational quality of the building panel, expand the range of use of composite materials from pine wood and polyurethane foam.

Improving energy efficiency and introducing energy-saving technologies for the implementation and manufacture of profiled composite beams and building panels based on them are a strategic task for the Russian economy. This is due to both rising energy prices and increasing carbon dioxide emissions, which negatively affects the climate and the environment. From which it becomes clear what paramount importance for the country's economy is to increase the operational characteristics of buildings and reduce energy consumption in homes. Efficient use of energy contributes not only to the conservation of natural resources of the Russian Federation, but also to the strengthening of Russia's competitive position in the world market.

The utility model is illustrated by drawings, which depict:

figure 1 - design of a profiled composite beam;

figure 2 - construction of a building panel based on a composite profiled beam.

The design of a three-layer wall based on composite materials - pine wood and polyurethane foam is claimed.

The profiled composite beam is a pre-formed rigid frame, which is assembled from two lateral lamellas 1 made of pine wood 0.05 m thick, between which a heat-insulating liner 2 is evenly spaced along the entire length of the side surfaces, using polyurethane foam with density p ₀ = 60 kg / m ³ . The ends of the lamellas 1 are made in the form of connecting elements: on the one hand in the form of triangular protrusions 3, and on the other hand in the form of triangular grooves 4, which at the junctions form paired triangles intended for rigid connection of the profiled composite beams to each other in the construction panel for erection walls.

The profiled composite beam is made of three layers and consists of three layers: the first layer is a 0.05 m thick pine wood lamella, the second layer is a polyurethane foam insulation liner with a density of p ₀ = 60 kg / m ³ , the third layer is pine 0 mm thick lamella , 05 m.

The choice of a specific ratio of the thickness of the lamellas 1 and the thickness of the layer of the heat-insulating liner 2 in the proposed profiled composite beam and a building panel based on it is determined depending on the purpose: residential building or dry storage facilities, or shopping center, or non-residential object, on floors, on operating conditions location depending on the climate zone, etc. The ability to change the thickness of the layer of the heat-insulating liner from polyurethane foam will make it possible to produce a beam and a building panel based on it for the climatic conditions of any region of the Russian Federation. As a heat-insulating liner 2, polyurethane foam is used, which is a non-meltable thermosetting plastic with a pronounced cellular structure. Only 3% of the volume of polyurethane foam is occupied by a solid material that forms a framework of ribs and walls. This crystalline structure gives the material mechanical strength. The remaining 97% of the volume is occupied by cavities and pores filled with gas with extremely low thermal conductivity, and the proportion of closed pores reaches 90-95%. Polyurethane foam has a unique property of preventing the spread of fire, as it melts only in the open flame zone. The insulation will melt at the site of the lesion, but the spread of fire along the plane will not occur.

With an increase in strength characteristics, polyurethane foam retains high elasticity, the tensile strength at break reaches 350%, which provides a strength value of 50 MPa.

Polyurethane foam is characterized by high strength, wear resistance, resistance to swelling in oils and solvents, significant ozone and radiation resistance. The combination of high elasticity qualities with a wide range of hardness in polyurethane foam determines the operational properties of products made of polyurethane foam components that are in demand in modern industry and modern thermal insulation technologies.

A building panel based on a profiled composite beam is assembled according to standard technology as follows. The lamellas 1 in the construction panel are rigidly connected to each other using docking elements made on the ends of the lamellas in the form of triangular protrusions 3 on the one hand and in the form of triangular grooves 4 on the other hand, forming a rigid connection in the form of two pairs of triangles. Between the lateral surfaces along the entire length of the lamellas 1 have a heat-insulating liner 2, which is poured in the form of a layer of polyurethane foam. According to the height of the wall formation, the lamellas 1 are additionally connected by elements in the form of pins (not shown in Figs. 1, 2).

The use of a new wall material made of three layers of composite materials: pine wood and polyurethane foam, allows us to ensure the fulfillment of the set of requirements for a modern residential building:

- according to the necessary strength and preservation of bearing abilities;

- on the heat transfer resistance of the enclosing structures (walls), which meets modern requirements;

- on protection against atmospheric influences and achievement of a necessary level of comfort;

- to give appropriate decorative qualities with the possibility of subsequent decoration, ensuring the implementation of the appearance of the building provided for by the architectural design.

The table shows the comparative characteristics of the three types of outdoor fences.

No. Name of comparison parameter Profiles. composition. timber The beam is ordinary. Brick wall one. The total thickness of the outer fence, mm 230 375 850 2. The cost of 1 m ^{2 of the} wall, rub. 650 1200 2800 3. Weight 1 m ^{2 of} wall, kg. 63 130 980

As can be seen from the table, an external fence made of profiled composite beam has several advantages:

- the total thickness of the outer wall is 1.5 times less than the wall of an ordinary beam and 3.5 times less than a brick wall;

- profiled composite beam is 2 times lighter than usual, which undoubtedly allows you to speed up the process of construction and installation works;

- the main indicator as the cost is also not on the side of an ordinary timber and brick;

- our own production line of profiled composite beams allows you to minimize material costs, and the ability to change the thickness of the insulating layer makes it possible to make a beam for any region of the Russian Federation.

In practice, the use of a new wall material made of composite materials in the construction of residential buildings: pine wood and polyurethane foam insulation material provides heat and reliability of the building, significantly reduces the cost of heating it, and the use of profiled composite beams in residential construction is very important, especially in these conditions, when the issues of energy saving and saving of fuel and energy resources are very acute.

Claims (2)

1. A profiled composite beam made of glued wood, characterized in that the beam is a pre-formed rigid frame, which is made of three layers: in the form of two layers of pine wood lamellas, between which along the entire length of the side surfaces there is a heat-insulating insert, the latter is laid in in the form of a layer of polyurethane foam, while the ends of the lamellas on the one hand are made in the form of triangular protrusions, and on the other hand in the form of triangular grooves. 2. A building panel comprising a wooden frame with docking elements, characterized in that the wooden frame contains n profiled composite beams, which are preformed rigid frames made of three layers: in the form of two layers of pine wood lamellas, between which along the entire length of the side surfaces a heat-insulating liner is located, the latter is laid in the form of a polyurethane layer, while the ends of the lamellas are made on the one hand in the form of triangular protrusions, and on the other hand in the form of triangular grooves, while the bars are rigidly interconnected by docking elements in the form of triangular protrusions and triangular grooves made at the ends of the lamellas.