RU2166588C1 - Heat-and-sound insulating building panel - Google Patents

Abstract

FIELD: construction engineering; panels for fencing buildings and structures. SUBSTANCE: heat-and-sound insulating panel has framework with its frame built up of wood side members and internal ribs, protective coats, external facing, and heat-insulation. Internal ribs are inclined through 35- 55 deg. to longitudinal axis of panel. Heat- insulation is made of flat foamed-gypsum polymeric inserts and filling or embedded porous insulation placed between mentioned inserts; the latter are mounted in pairs and parallel to each other and to frame surface between wood side members of frame and internal ribs. Ratio of density of foamed-gypsum polymeric compound to that of porous insulation is 1:10 to 1:38. External facing is made of shields built of planking joined together and to side members of frame by adhesive. Wood side members of frame and internal ribs are joined at points of intersection by metal clamps. Air gap may be formed between one of shields and foamed-gypsum polymeric inserts; protective coat placed between foamed-gypsum polymeric inserts and other shield may be made of vapor seal. One of shields on external side of panel may be covered in addition with protective or protective-decorative covering made of roll material, or metal tile, or siding, or undulator, or asbestos shingle. EFFECT: enhanced strength and stiffness; reduced mass; prolonged service life of all panel members. 12 cl, 4 dwg

Description

 The invention relates to the field of construction and the construction industry and can be used in the construction of capital and temporary buildings for various purposes, including as an abandoned formwork in monolithic construction.

 Known prefabricated wall panel with an internal frame, designed for the construction of modular buildings with high heat resistance. The panel contains a main frame made of individual elements and fixed around the perimeter of the panel. The thickness of this frame is less than the thickness of the panel. The lower and upper elements of the main frame are connected at the ends by side bars. Attached to the main frame is an auxiliary frame made of planks and playing the role of an internal frame. The surface of the auxiliary frame coincides with the surface of the panel. The intervals between the main and auxiliary frames are filled with foamed insulating material, the thickness of which is equal to the thickness of the panel. This material fills both frames and prevents the formation of cold bridges between the panel surfaces (US Pat. No. 4,813,193 of 1984 to NCC 52-210).

 Also known is the building construction panel having a wooden frame. Between the upper and lower frame elements are fixed racks that form the inner frame. Outside, on one side of the panel, a plate is attached to the frame elements and racks, which ensures the rigidity of the panel. A layer of insulating material is laid on the inside of the plate from the inside of the panel. On the opposite side from the plate to the surface of the frame elements and racks, a grid is fixed, on which a protective coating is applied, representing another plane of the panel. The panels are used for the quick construction of buildings (French patent 2458545 from 1981, MKI E 04 C 2/10).

 The closest analogue adopted for the prototype of the claimed panel is a heat-insulating building panel of a building containing a frame formed by a frame in the form of edge wooden spars and internal ribs, protective coatings and thermal insulation (Germany 3901683 from 1990 MKI E 04 B 2/00).

 The disadvantage of all of these analogues, including the prototype, is the unreliable shelter of thermal insulation from adverse environmental influences, as well as the insufficiently high strength and rigidity of the panel.

 The objective of the invention is to increase the strength and rigidity of the panel with its own low weight, shelter insulation from the effects of negative environmental factors during transportation, installation and operation of the panel, as well as to increase the service life of all the elements that make up the panel.

 This problem is solved in that the heat and sound insulating panel of the building contains a frame formed by a frame in the form of edge wooden spars and internal ribs, protective coatings and thermal insulation. The inner ribs are located at an angle of 35-55 degrees. to the longitudinal axis of the panel. Thermal insulation is made in the form of flat foam-gypsum-polymer inserts and a filler or mortar poroizol located between them, and flat foam-gypsum-polymer inserts are mounted in pairs parallel to each other and to the plane of the frame between the wooden frame spars and the inner ribs. The density of the foam gypsum polymer and the density of poroisol are in a ratio of 1:10 to 1:38. The protective coating of the panel forms the outer cladding, made in the form of shields formed of boards connected to each other and with the frame side members on the glue. Shields are additionally attached to the frame side members with metal brackets. Wooden bars of the frame and inner ribs are fastened at the intersection with metal brackets. The inner ribs can be mounted between the shields, and their height is equal to the height of the frame side members. The inner ribs can also be made in the form of bars located in the plane of the frame flush with its outer surfaces. An air gap may be formed between one of the shields and the foam-gypsum liners, and the protective coating located between the foam-gypsum liners and the other shield can be made as a vapor barrier. One of the shields on the outside of the panel can additionally be covered with a protective or protective-decorative coating made in the form of rolled material or metal, or siding, or ondulin, or slate. The boards on the outside of the panel are additionally covered with waterproofing and water-repellent materials applied directly to the surface of the panel. All wooden elements of the panel are impregnated with flame retardant and antiseptic compounds, and the foam-gypsum polymer and poroizol are additionally treated with a hydrophobizing modifier.

 A comparative analysis of the proposed panel with the prototype shows that it differs in that the inner edges of the panel frame are located at an angle of 35-55 degrees. to the longitudinal axis of the panel. Due to this arrangement of the ribs and their rigid mounting on metal brackets to the frame side members, as well as rigid mounting with the frame side members brackets to each other, the panel acquires the necessary rigidity and strength exceeding the corresponding characteristics of the prototype. Thermal insulation is made in the form of flat foam-gypsum-polymer inserts and a filler or mortar poroizol located between them, and flat foam-gypsum-polymer inserts are mounted in pairs parallel to each other and to the plane of the frame between the wooden frame spars and the inner ribs. The density of the foam gypsum polymer and the density of poroisol are in a ratio of 1:10 to 1:38. The presence of flat foam-gypsum liners, protecting relatively unstable poroizol from external influences (moisture, solar radiation, external loads during transportation, etc.) also improves the technical capabilities of the panel compared to the prototype. The outer cladding is made in the form of shields formed of boards connected to each other and with the frame side members on the adhesive, and the board side members are additionally attached with metal brackets, which also enhances the rigidity and strength of the panel. The inner ribs can be mounted between the shields, and their height is equal to the height of the frame side members. The inner ribs can also be made in the form of bars located in the plane of the frame flush with its outer surfaces. An air gap may be formed between one of the panels and the foam-gypsum liners. A protective coating located between the foam-gypsum liners and another shield can be made in the form of vapor barrier. One of the shields on the outside of the panel is additionally covered with a protective or protective-decorative coating made in the form of rolled material or metal tile, or siding, or ondulin, or slate. The boards on the outside of the panel can be additionally coated with waterproofing and water-repellent materials applied directly to the surface of the panel. All wooden elements of the panel are impregnated with flame retardant and antiseptic compounds, and the foam gypsum polymer and poroisol are additionally treated with a hydrophobic modifier. Along the outer contour of the panel, wooden quarters are mounted flush with its outer surfaces.

 Comparison of the proposed panel with other well-known technical solutions for a similar purpose shows that the implementation of the frame of the panel with diagonal ribs, the rigid fastening of the spars forming the frame, ribs and shields with each other on metal brackets and on the adhesive composition increases the strength of the panel, and the use of foam-gypsum polymer liners makes it possible to protect the main thermal insulation - poroizol - from external influences, giving the panel new properties: good heat and sound insulation, transportability, easy It is, for ease of assembly, since all the elements of the frame panel is made of wood, versatility, which is expressed in the fact that the panel can be used as wall, ceiling and the like panel, and the panel cover and buildings. Processing of wooden parts of the panel with flame retardant, antiseptic and hydrophobic compounds increases its durability.

 This comparison allows us to conclude that there is a new, previously unknown positive effect obtained from the application of the proposed panel, which allows us to solve the problem.

The invention is illustrated by example. The drawings show:
- in FIG. 1 - panel on the plan view, the upper shield is conditionally removed;
- in FIG. 2 - cross section of the panel;
- in FIG. 3 - panel frame with solid racks, thermal insulation is conventionally not shown;
- in FIG. 4 - panel frame with racks in the form of bars, thermal insulation is conventionally not shown.

The heat and sound insulating panel contains a frame formed by a frame 1 in the form of edge wooden spars 2 and inner ribs 3. The inner ribs are located at an angle of 35-55 degrees. to the longitudinal axis 4 of the panel. The wooden frame spars and inner ribs are fastened at the intersection with metal brackets 5. The inner volume of the panel is filled with thermal insulation made in the form of flat foam-gypsum-polymer inserts 6 and the filler or mortar poroizole located between them 7. Flat foam-gypsum-polymer inserts 6 are mounted in pairs parallel to each other and the frame plane between wooden spars 2 frames and internal ribs 3. The density of the foam-gypsum polymer and the density of poroizol are in the ratio from 1:10 to 1:38. In practice, the density of the foam gypsum polymer is in the range of 200 - 300 kg / m ³ and the density of the poroisol is 8-12 kg / m ³ . Outside, the thermal insulation is closed by shields 8 formed from boards connected to each other and to the frame side members with glue. Shields are additionally attached to the frame side members with metal brackets. The inner ribs 3 are mounted between the shields 8 and can be made in two versions: according to the first embodiment, their height is equal to the height of the frame side members and the ribs 9 divide the internal volume of the panel into insulated sections - this design can be applied using embedded poroizol; according to the second version, the inner ribs 10 are made in the form of bars located in the plane of the frame flush with its outer surfaces - this option is applicable for filling poroizol. To improve the operating conditions of the panel between one of its panels facing the outer surface of the building and the foam-gypsum liners 6, an air gap 11 is formed, and the protective coating located between the foam-gypsum polymer liners and the other shield is made in the form of vapor barrier 12.

 In the case of using the panel as a building cover panel, one of the panels on the outside is additionally covered with a protective or protective-decorative coating 12 made in the form of a rolled material or metal tile, or siding, or ondulin, or slate.

 To increase the life of the panels, the panels on the outside of the panel are additionally covered with waterproofing and hydrophobizing materials applied directly to the surface of the panel. All wooden elements of the panel are impregnated with flame retardant and antiseptic compounds, and the foam gypsum polymer and poroizol are additionally treated with a hydrophobizing modifier.

 For joining the panels with each other along their outer contour, quarters 14 can be mounted, forming when the panels are closed, closed cavities 15 filled with filler or mortar poroizol, thus forming an insulated joint of the building wall.

Claims (12)

 1. The heat and sound insulating panel of the building, containing the frame formed by the frame in the form of edge, wooden spars and inner ribs, protective coatings and thermal insulation, characterized in that the inner ribs are located at an angle of 35 - 55 degrees. to the longitudinal axis of the panel, and the thermal insulation is made in the form of flat foam-gypsum polymer liners and a filler or mortar poroisol located between them, and flat foam-gypsum polymer liners are mounted in pairs parallel to each other and the plane of the frame between the wooden frame spars and the inner ribs, and the foam gypsum plane and the density ratio from 1: 10 to 1: 38.  2. The heat and sound insulating panel of the building according to claim 1, characterized in that the protective coating of the panel forms an outer lining made in the form of shields formed of boards connected to each other and with the frame side members on the adhesive, and the boards are additionally attached to the frame side members with metal brackets .  3. The heat and sound insulating panel of the building according to claim 1, characterized in that the wooden frame spars and inner ribs are fastened at the intersection with metal brackets.  4. The heat and sound insulating panel of the building according to claim 2 or 3, characterized in that the inner ribs are mounted between the shields, and their height is equal to the height of the frame side members.  5. The heat and sound insulating panel of the building according to claim 3, characterized in that the inner ribs are made in the form of bars located in the plane of the frame flush with its outer surfaces.  6. The heat and sound insulating panel of the building according to claim 2, characterized in that an air gap is formed between one of the panels and the foam-gypsum liners.  7. The heat and sound insulating panel of the building according to claim 2 or 6, characterized in that the protective coating located between the foam-gypsum liners and another shield is made in the form of vapor barrier.  8. The heat and sound insulating panel of the building according to claim 2, characterized in that one of the panels on the outside of the panel is additionally covered with a protective or protective-decorative coating made in the form of rolled material, or metal tile, or siding, or ondulin, or slate.  9. The heat and sound insulating panel of the building according to claim 2, characterized in that the panels on the outside of the panel are additionally coated with waterproofing and hydrophobizing materials applied directly to the surface of the panel.  10. The heat and sound insulating panel of the building according to claim 1, characterized in that all the wooden elements of the panel are impregnated with flame retardant and antiseptic compositions.  11. The heat and sound insulating panel of the building according to claim 1, characterized in that the foam gypsum polymer and poroisol are additionally treated with a hydrophobic modifier.  12. The heat and sound insulating panel of the building according to claim 1, characterized in that on its outer contour the wooden quarters are mounted flush with its outer surfaces.

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