RU2176299C1 - Wood-metal panel - Google Patents

Abstract

FIELD: construction engineering; panels of floors, coverings, and walls including those for industrial buildings and structures bearing heavy load per unit area of floor. SUBSTANCE: beams with metal angle pieces installed between the latter and longerons are fastened to longitudinal longerons of panel; external and internal shields are fastened to metal angle pieces. Beams are mounted on longerons by means of hollow rivets with expanded ends passed through longerons, wall of angle pieces. As viewed from top, cells are shaped as isosceles equidimensional triangles formed by longitudinal longerons and ribs which are essentially diagonal and transversal inner and outer barriers. Adjacent and cross vertexes of triangles are joined together by metal fastening members. Porous heat insulation is enclosed in facings made of foam polymeric gypsum plates glued together, treated with water- repellent modifier, and forming sealed cavities placed in cells. External and internal shields are joined to metal angle pieces by self-threaded bolts. Removable pockets for receiving assembling bolts of hollow rivets are provided in internal and/or external shields opposite to some of hollow rivets. Metal fastening members are stamped in the form of U-section cantilevers whose ledges are provided with stamped flanges which form vertical through grooves. Plates with cut-through tabs entering vertical through grooves of cantilevers are mounted on the latter. EFFECT: enhanced strength and rigidity of panel having small weight; extended service life; facilitated manufacture. 13 cl, 10 dwg

Description

 The invention relates to the field of construction and can be used as coating, floor and wall panels, including in industrial buildings and structures with increased load per unit area of the floor.

 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, NCI 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 2458645 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, made in the form of a frame of wooden longitudinal spars and transverse ribs, the space between which forms separate cells filled with thermal insulation, and the outside of the panel is covered with a shield on the plane and sheathed with boards on nails, forming the front surface of the panel (US patent 5144785 E 04 C 3/29 from 1992 NCI 52-730).

 The disadvantage of all of these analogues, including the prototype, is the insufficient cover of thermal insulation from the adverse effects of the environment, 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, increase the manufacturability and service life of all the elements that make up the panel.

 This problem is solved in that the wood-metal panel contains a frame in the form of wooden ribs and longitudinal spars, the spaces between which form separate cells filled with thermal insulation. Outside the panels, external and internal panels are mounted. On the longitudinal spars, bars are fixed with metal corners or brands installed between them and the spars, to which external and internal shields are attached. The longitudinal spars are made integral, and the bars are mounted on them by means of the corners or Tauri, hollow rivets with flared ends, passed through them. In the plan, the cells have the shape of isosceles isometric triangles formed by longitudinal spars and ribs made in the form of diagonal and transverse internal and external partitions. Adjacent and cross vertices of the triangles are connected to each other by metal connecting elements. Thermal insulation is enclosed in plates forming a sealed cavity installed in the cell. External and internal shields are attached to metal corners or brands on self-tapping bolts. On the contrary, part of the hollow rivets in the inner and / or outer shields are removable pockets for installation of mounting bolts in the hollow rivets. Metal connecting elements are stamped in the form of a cross-shaped or T-shaped, or L-shaped in terms of the brackets of the U-shaped cross section, the shelves of which are equipped with stamped bends, forming vertical through grooves. Plates are mounted on the brackets with the edges bent normally to their plane, in which the petals cut into the vertical through grooves of the brackets are cut. The brackets are connected with diagonal or with transverse internal and external ribs or with spars on self-tapping screws and with the help of additional angles mounted on the plate also on self-tapping screws, and with each other and with diagonal, transverse ribs and spars - with rivets. Self-tapping screws, fastening brackets, are installed close to the plate petals. The external shield is made in the form of a reinforced or non-reinforced slab of cement-sand or concrete mix or of polymer concrete, or of concrete polymer. External and internal panels can be made of wood. All wood panel parts are treated with antiseptic and flame retardant. The plates are made of foam-polymer gypsum plates connected to each other on glue and treated with a hydrophobic modifier. Internal boards can be made of drywall, and thermal insulation - from mortgage or filling poroizol.

 A comparative analysis of the claimed design with the prototype shows that the proposed panel differs in that the bars are mounted on the longitudinal side members with metal corners or brands installed between them and the side members, to which external and internal panels are attached. The longitudinal spars are made integral, and the bars are mounted on them by means of the corners or Tauri, hollow rivets with flared ends, passed through them. In the plan, the cells have the shape of isosceles isometric triangles formed by longitudinal spars and ribs made in the form of diagonal and transverse internal and external partitions. Adjacent and cross vertices of the triangles are connected to each other by metal connecting elements. Thermal insulation is enclosed in plates forming a sealed cavity installed in the cell. External and internal shields are attached to metal corners or brands on self-tapping bolts. On the contrary, part of the hollow rivets in the inner and / or outer shields are removable pockets for installation of mounting bolts in the hollow rivets. Metal connecting elements are stamped in the form of a cross-shaped or T-shaped, or L-shaped in terms of the brackets of the U-shaped cross section, the shelves of which are equipped with stamped bends, forming vertical through grooves. Plates are mounted on the brackets with the edges bent normally to their plane, in which the petals cut into the vertical through grooves of the brackets are cut. The brackets are connected with diagonal or with transverse internal and external ribs or with spars on self-tapping screws and with the help of additional angles mounted on the plate also with self-tapping screws, and with each other and with diagonal, transverse ribs and spars - with rivets. Self-tapping screws, fastening brackets, are installed close to the plate petals. The external shield is made in the form of a reinforced or non-reinforced slab of cement-sand or concrete mix or of polymer concrete, or of concrete polymer. External and internal panels can be made of wood. All wood panel parts are treated with antiseptic and flame retardant. The plates are made of foam-polymer gypsum plates connected to each other on an adhesive and treated with a hydrophobic modifier. Internal boards can be made of drywall, and thermal insulation - from mortgage or filling poroizol.

 This analysis indicates the presence of novelty in the claimed design.

 Comparison of the proposed invention with other well-known technical solutions of the same purpose shows that the implementation of the ribs in the form of diagonal and transverse partitions, forming together with the side members equal isosceles triangles, adjacent and cross vertices of which are connected by metal connecting elements, provides, firstly, the rigidity of the frame structure and panels as a whole and, secondly, it improves the manufacturability of panels, since the frame is made in fact of three types Dimensions of bearing elements, spars, cross partitions and similar diagonal walls, united in their places of crossing each other uniform metal fittings. The design of the metal connecting elements and their installation in the panel provide increased rigidity of the panel. The installation of longitudinal bars on the side members with hollow rivets, to which there is access to install mounting bolts in them to join individual panels, simplifies the installation of panels in the design position. And the execution of plates made of foam-gypsum plates, connected to each other on glue and treated with a hydrophobic modifier, which form sealed cavities installed in the cells with the thermal insulation enclosed in them in the form of a mortgage or pouring poroizol, make it possible to protect the thermal insulation from the effects of negative environmental factors. The service life of all the elements that make up the panel is enhanced by treating all the wooden parts of the panel with an antiseptic and flame retardant. The panel in its design characteristics can be used both as a wall panel and a cover panel, and as a floor panel of residential, public and industrial buildings with increased load per square meter of floor area. Due to the use of poroizol as a thermal insulation, the panel can also be used as a noise insulating fence.

 From the above comparison, we can conclude that the claimed invention exceeds the existing level of technology and industrial applicability of the proposed panel.

The invention is illustrated by an example of its implementation. The drawings show:
- in FIG. 1 is a side view of the panel,
- in FIG. 2 is a section along AA in FIG. 1,
- in FIG. 3 - node B in FIG. 2
- in FIG. 4 - node B in FIG. 2
- in FIG. 5 is a plan of the panel frame,
- in FIG. 6 is a view along DG in FIG. 5,
- in FIG. 7 - a cross-shaped bracket,
- in FIG. 8 - T-shaped bracket
- in FIG. 9 - L-shaped bracket,
- in FIG. 10 - plate.

 The wood-metal panel contains a frame in the form of wooden ribs 1, 2 and 3 and longitudinal spars 4, the spaces between which form separate cells 5 filled with thermal insulation 6. Outside the panel, external 7 and internal 8 panels are mounted. On the longitudinal spars, bars 9 are fixed with metal corners 10 or brands 11 installed between them and the spars, to which external and internal shields are attached. The longitudinal spars are made integral, and the bars are mounted on them by means of the corners or Tauri wall 12 of hollow rivets 13 with flared ends 14. The cells have the shape of isosceles triangles 15 formed by longitudinal spars 4 and made in the form of ribs 4 diagonal 2 and transverse internal 3 and external 1 partitions. Adjacent 16 and cross 17 vertices of the triangles are connected to each other by metal connecting elements 18. Thermal insulation is enclosed in plates 19, forming a sealed cavity installed in the cell. External and internal shields are attached to metal corners or brands on self-tapping bolts 20. On the contrary, part of the hollow rivets in the internal and / or external shields are removable pockets 21 for installation of mounting bolts in the hollow rivets (not shown in the drawings). The metal connecting elements are stamped in the form of a cross-shaped 22 or T-shaped 23, or L-shaped 24 in terms of the brackets of the U-shaped cross section, the shelves 25 of which are equipped with stamped bends 26 forming vertical through grooves. Plates 27 are mounted on the brackets with the edges 28 bent normal to their plane, in which the petals 29 are cut, which are included in the vertical through grooves of the brackets. The plates are made in the form of a quarter of a circular disk. The brackets are connected with diagonal or with transverse internal and external ribs or with spars on self-tapping screws 30 and with the help of additional angles 31 mounted on the plate also on self-tapping screws, and with each other and with diagonal, transverse ribs and spars - with rivets 32. Self-tapping screws fastening the brackets are mounted close to the plate petals, which prevents the petals from disengaging from the grooves of the brackets. The external shield is made in the form of a reinforced or non-reinforced slab of cement-sand or concrete mix, or of polymer concrete, or of concrete polymer. External and internal panels can be made of wood. All wood panel parts are treated with antiseptic and flame retardant. The plates are made of foam-polymer gypsum plates connected to each other on glue and treated with a hydrophobic modifier. Internal boards can be made of drywall, and thermal insulation - from mortgage or filling poroizol.

 The panel is assembled in the following order: previously, the bars 4 are mounted on hollow rivets 13 of the bars 9 and the corners located between the bars and the side members 10 are assembled on the metal connecting elements 18: the side members 4 and the ribs 1, 2 and 3 are mounted on screws 30 to the brackets 22, 23 and 24, the corners 31, and under the brackets lay the plate 27, the petals 29 of which are introduced into the through bends 26 of the brackets. Similarly fasten the upper edge of the ribs and side members. The plate 27 is additionally attached to the frame using self-tapping screws 30. Then, on the frame are mounted on self-tapping screws 20, passed through the wall 12 of the corner 10, one of the shields 7 or 8, after which the foam-polimer gypsum plates 19 are assembled on the adhesive and filled their filling or mortgage poreizol 6 and seal the cell, closing it with a cover-lining 33 installed on the glue. The panel is completed by installing the opposite shield 8 or 7, respectively. Before starting all operations, all wooden parts of the panel are flame retardant and antiseptic treated, polymeric gypsum plates are hydrophobized, and metal parts are treated with anticorrosion.

Claims (13)

 1. A wood-metal panel containing a frame in the form of wooden ribs and longitudinal spars, the spaces between which form separate cells filled with thermal insulation, and the outer and inner shields are mounted outside, characterized in that the bars are mounted on the longitudinal spars with metal corners installed between them and the spars or Tauri, to which external and internal shields are attached, and the longitudinal side members are made inseparable, and the bars are mounted on them through the missing wells if they, the side members and the wall of the corners or Tauri of hollow rivets with flared ends, while in the plan the cells have the shape of isosceles equal triangles formed by longitudinal side members and ribs made in the form of diagonal and transverse internal and external partitions, and adjacent and cross vertices of the triangles are connected with each other with metal connecting elements, and the thermal insulation is enclosed in plates that form sealed cavities installed in the cells.  2. The wood-metal panel according to claim 1, characterized in that the outer and inner shields are attached to metal corners or brands on self-tapping screws.  3. The wood-metal panel according to claim 1, characterized in that opposite to the part of the hollow rivets in the internal and / or external panels, removable pockets are made for installation of mounting bolts in the hollow rivets.  4. The wood-metal panel according to claim 1, characterized in that the metal connecting elements are stamped in the form of a cross-shaped or T-shaped, or L-shaped in terms of the brackets of the U-shaped cross section, the shelves of which are equipped with stamped bends, forming vertical through grooves, moreover, plates are mounted on the brackets with edges bent normal to their plane, in which the petals included in the vertical through grooves of the brackets are cut.  5. The wood-metal panel according to claim 1, characterized in that the brackets are connected with diagonal or with transverse internal and external ribs or with spars on self-tapping screws and with the help of additional angles mounted on the plate also on self-tapping screws, and with each other and with diagonal, transverse ribs and side members - through rivets.  6. The wood-metal panel according to claim 1 or 2, characterized in that the self-tapping screws, fastening brackets, are installed close to the petals of the plate.  7. The wood-metal panel according to claim 1, characterized in that the outer shield is made in the form of a reinforced or unreinforced slab of cement-sand or concrete mix or of polymer concrete, or of concrete polymer.  8. The wood-metal panel according to claim 1, characterized in that the outer and inner shields are made of wood.  9. The wood-metal panel according to claim 1, characterized in that all the wooden parts of the panel are treated with an antiseptic and a flame retardant.  10. The wood-metal panel according to claim 1, characterized in that the plates are made of foam-gypsum plates connected to each other by glue.  11. The wood-metal panel according to claim 1, characterized in that the foam-gypsum plates are treated with a hydrophobic modifier.  12. Wood panel according to claim 1, characterized in that the inner panels are made of drywall.  13. The wood-metal panel according to claim 1, characterized in that the thermal insulation is made of embedded or pouring poroizol.

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