RU2153047C2 - Wall member and wall member system - Google Patents

Abstract

FIELD: construction. SUBSTANCE: wall member for wall construction comprises heat insulation 10 and additional insulations 40 in the form of plates, as well as holders consisting of load-bearing uprights 20 that may be embedded at least partially in grooves 11 of heat-insulating plate 10. Heat insulation represents plate 10 of cellular plastic formed on whose one side are vertically oriented and transversely spaced grooves 11, in which load-bearing vertical ribs 20 may be fastened by nails or by some other method on vertically oriented supporting ribs 30 located in the same place on the opposite side of heat-insulating plate 10. Such a depth of grooves 11 on the surface of heat-insulating plate 10 is selected that, when it is installed on bottom 12 of groove 11, load-bearing upright 20 would project from the level of surface of heat-insulating plate 10 to a distance equal to the thickness of the additional layer of insulation 40. The vertical sides of heat-insulating plate 10 have grooves 14 and respective lugs 13 for joining of heat-insulating plates 10 of the adjacent members by a tongue-and-groove joint. The system of wall members with precise dimensions provides for erection of walls from members on building site irrespective of the existing conditions. EFFECT: reduced weight and simplified design of wall members. 12 cl, 7 dwg

Description

 The present invention relates to a system of wall elements comprising thermal insulation and fire or sound insulation, as well as structural support elements consisting of vertical and horizontal struts.

 Especially in the construction of small houses with a wooden structure, the usual way of erection is to form a structural frame on the foundation. Typically, the frame consists of horizontal boards and vertical posts between them, which form a load-bearing structure. Between the vertical posts, the required heat-insulating panels are placed, plastic is attached to the inside to protect against moisture, and panels to protect against wind are attached from the outside of the thermal insulation. The wooden frame, together with its insulation, is coated on its outer surface with an outer coating, and on its inner side is covered with interior decorative panels.

 This type of construction method requires a lot of manual labor. For this reason, they began to use a system of elements in which all walls are prefabricated in factories, and the walls are connected to each other at the construction site. Typically, these elements are quite heavy, and lifting machines are required to assemble them at the construction site. No changes are possible at the construction site. That's why element systems are needed that consist of smaller and lighter wall elements that can be easily assembled to make walls of various sizes and in which changes can easily be made at the construction site.

 Such a wall element is known, for example, from Norwegian patent N 151251. According to this patent, the element consists of a filler of insulating material, on both sides of which are attached by gluing facing plates. Vertical racks are attached to the inside of each facing plate by gluing at the same distance from each other. Thus, the uprights enter into the grooves in the insulating material. The uprights on opposite sides are located in different places. To form all the walls, the elements can be connected side by side and on top of each other. Such an element is pre-fabricated at the factory and cannot be combined together from its components at the construction site. No changes can be made to this element at the construction site. In addition, the element, according to the aforementioned patent, does not contain any layer of fire-resistant material, therefore, such a layer and structures for its support must be added after as external parts of the element structure.

 The present invention relates to a wall element based on a prefabricated thermoplastic foam board. Fire resistance is a problem with foam insulation, which means that the wall structure also preferably contains layers of flame retardant material. So, the present invention relates, in particular, to a wall element for such a wall structure, which contains thermal insulation in the form of plates, additional insulation and structural support elements consisting of vertical, load-bearing racks, which can be embedded at least partially into the grooves, formed in thermal insulation. The wall element, in accordance with the present invention, can be pre-assembled at the plant for the production of elements or it can easily be assembled at the construction site without the use of any tools. The present invention also relates to a wall element system based on such a wall element.

 The wall element for the wall structure according to the present invention contains thermal insulation and additional insulation in the form of plates, as well as holders consisting of load-bearing vertical posts that can be embedded at least partially into the grooves in the insulation plate, the insulation comprising a foam plate , where at least one side is formed, vertically oriented grooves spaced transversely, in which you can install vertical racks, bearing the load of the wall element, attaching them to up or another way to vertically oriented support ribs located at the same point on the opposite side of the heat-insulating plate, the depth of the grooves on the surface of the heat-insulating plate is chosen such that when it is installed at the bottom of the groove, the vertical strut carrying the load will protrude from the surface level of the heat-insulating plate at a distance equal to the thickness of the additional insulation plate, and on the vertical sides of the heat-insulating plate there are grooves and corresponding protrusions for connecting I adjacent insulation boards by a tongue and groove elements.

 The heat-insulating plate may have, on its both sides, vertically oriented and transverse spaced grooves for similar vertical load-bearing posts and for supporting ribs arranged in a similar manner.

 The depth of the groove for the support rib is chosen such that the outer surface of the support rib protrudes from the heat-insulating plate by a distance equal to the thickness of the additional insulation plate, thus additional insulation can be placed on both sides of the heat-insulating plate.

 The lower edge of the heat-insulating plate may have a recess corresponding to the shape of the foundation of the wall, the shape of a horizontal board or a bearing profile located on the foundation.

 The material of the heat-insulating board is a foam, for example, polystyrene, polyurethane or phenol-formaldehyde resin.

 The system of wall elements contains thermal insulation and additional insulation in the form of plates, as well as holders consisting of transversely spaced load-bearing racks that can be embedded in the grooves of the heat-insulating plate, and possibly horizontal boards supported on load-bearing vertical racks, while bearing load vertical racks are installed in grooves on the surface of the heat-insulating plate and are attached with nails or in another similar way to vertically oriented support ribs located in one point on the opposite side of the heat-insulating plate, the depth of the grooves on the surface of the heat-insulating plate and the width of the vertical struts bearing the load are chosen so that when it is installed at the bottom of the groove, the vertical strut bearing the load protrudes from the surface level of the heat-insulating plate by a distance equal to the thickness of the layer of additional insulation, the vertical sides of the heat-insulating plate have grooves and corresponding protrusions for connecting the heat-insulating plates with a tongue-and-groove connection.

 At the upper end of the vertical struts bearing the load, a recess may be formed for installing horizontal supports or screeds.

 The system of wall elements can be equipped with vertically spaced and horizontally oriented ribs, which are attached to the vertical support ribs with nails or in another way and which act as supports for installing the outer wall covering at a distance of the air gap from the heat-insulating plate.

 The support ribs are fully or partially embedded in vertically oriented grooves on the heat-insulating board.

 The support ribs also act as load-bearing vertical posts, and they are embedded in the grooves of the insulation plate, the depth of which is chosen such that the outer surface of the support ribs protrudes from the insulation plate to a distance equal to the thickness of the additional insulation layer, so that on both sides of the insulation plate Place additional insulation boards, such as fireproof boards or soundproofing boards. The distance between the grooves is chosen such that, for example, a fire-resistant plate of a standard size, for example, a glass wool plate, fills the space between the heat-insulating plate and the uprights. A uniform smooth surface forms on the inner side of the element after installing a fire-resistant board or other additional layer of insulation, since the outer side surfaces of the uprights are flush with the fire-resistant board. On this surface, it is easy to place a plastic film or aluminum foil or the like, acting as a vapor barrier, and an inner cover plate, since the uprights are visible, albeit in the plane of the surface.

 The wall element system may also include uprights also on the outside of the wall element, completely embedded in the grooves of the heat-insulating board by nailing it through support ribs, fire-resistant board, uprights and heat-insulating board to load-bearing uprights located on opposite sides. Instead of joining on nails, for example, screw fastening can be used.

 The advantage of this method is that the assembly can be carried out either at the factory for the production of thermal insulation, or it can be easily performed later at the construction site. In addition, when the uprights are embedded at least partially in the insulation boards, the grooves support the uprights and prevent their deformation during loading.

 Additional insulation may be a mineral wool slab, gypsum board or blown mineral wool. The additional layer of insulation is preferably in the form of a plate, but instead of a plate, in situ blow molded material can also be used.

 For load-bearing elements, preferred materials are, for example, wood and plywood. As the material for load bearing uprights, vertical and horizontal ribs, plastic profiles can be used that may be fiber reinforced or may not be reinforced. Of course, metals can be chosen as the material, for example, steel or aluminum profiles.

 Thus, according to the present invention, a system of wall elements with exact dimensions is achieved, which allows the wall to be assembled from its elements on a construction site regardless of the existing conditions. Elements can also be assembled at the element factory. The wall element of the present invention is lightweight and can be easily installed without any special tools and lifting equipment. The design is good, in terms of energy technology, since there are no paths for the penetration of cold between the elements, and it is durable, since the vertical struts carrying the load are embedded in the grooves of the heat-insulating plates, thus eliminating the risk of longitudinal bending. The wall element in accordance with the present invention is also simple in terms of design and, therefore, it is attractive in terms of its cost, it does not require separate layers for protection from the wind.

The present invention is described with reference to the accompanying drawings, in which:
FIG. 1 and 2 are a sectional side and top view and a three-dimensional view of the main parts of a wall element system in accordance with the present invention;
FIG. 3 shows a top view of two wall elements, according to FIG. 2, with components fitted and installed together;
FIG. 4 shows a top view of two modified wall elements, according to FIG. 3, with components fitted and mounted together;
FIG. 5 is a plan view of a wall element having a flame retardant layer or other additional insulation layer on either side;
Fig.6 shows a modification of the wall element shown in Fig.5;
7 is a perspective view in section of the entire wall element.

 FIG. 1 and 2 show a heat-insulating board 10, vertical posts 20, vertical ribs 30 and a fire-resistant board 40, separated from each other. In the heat-insulating board 10, vertically oriented grooves 11 are formed for vertical struts 20. The width of the grooves 11 corresponds to the thickness of the vertical struts 20, so that the vertical struts 20 can be embedded in the grooves 11. Choose the depth of the grooves 11 so that when it is pressed against the bottom 12 of the groove 11, the stand 20 will protrude from the surface of the heat-insulating board 10 by a distance equal to the thickness of the fire-resistant board 40.

 In addition, a protrusion 13 is formed on one vertical side of the heat-insulating board 10, and a groove 14 of a similar shape is respectively formed on the other vertical side, so that a tongue-and-groove connection is possible between adjacent elements. Vertical posts 20 and vertical ribs 30 are fixed with nails, screws or other such fasteners 31 through a heat-insulating plate 10.

 FIG. 3 is a plan view of two adjacent wall elements with their components mounted and secured in place. This figure also shows fire-resistant boards 40 installed between the uprights 20 and completely filling the space between the uprights 20 and the heat-insulating board 10, so that the surface 41 of the fire-resistant board 40 is in the same plane as the surface 21 of the uprights 20. A horizontal board is shown at position 32 or a rib attached to the vertical ribs 30 for fixing the outer coating to the wall after installing the elements.

 FIG. 4 represents an embodiment similar to that shown in FIG. 3, except that the heat-insulating plate 10 is also provided on its outer side with vertically oriented grooves 15 into which vertical ribs 30 are embedded.

 FIG. 5 is a plan view of a wall element where the vertical fins on the outside of the element are replaced by vertical struts 20 and where fire-resistant boards 40 are located on both sides of the heat-insulating board 10.

 6 is similar to FIG. 5 except that the uprights 20 on the outside of the wall element are also completely embedded in the heat-insulating board 10. On the outside of the wall element attached to the heat-insulating plate 10, there is a gypsum board 41 attached to the structure with nails 31, clogged through vertical ribs 42, plate 41, vertical struts 20 and heat-insulating plate 10 into vertical struts 20 on the opposite side of vertical struts 20. In this way, a wall construction that is insulated linen on both sides.

 FIG. 7 is a perspective view, partially in section, of a wall element mounted at the top of a horizontal board 2 lying on a foundation 1. The upper edge of the element has a horizontal board 3 that is attached to recesses (not shown) at the upper ends of the vertical posts 20, partially embedded in heat-insulating board 10. According to this figure, the upper side of the element is covered with a horizontal board 4. The figure also shows fire-resistant boards 40, acting as additional insulation and attached between the heat-insulating boards 10 and vertical posts 20, so that their outer surface on the inner side of the wall is flush with the surface of the vertical posts 20. At position 11 shows the connection between two adjacent heat-insulating plates 10. On the additional insulation plate 40 is a layer 50 to protect against vapors and the inner cover plate 60 is located on the layer 50. In addition, this figure also shows electric cables 70 located in the additional insulation layer 40 and leading to the socket 71 in the inner cover level plate 60.

Claims (12)

 1. Wall element for a wall structure containing thermal insulation (10) and additional insulation (40) in the form of plates, as well as holders consisting of vertical struts (20), bearing load, which can be embedded at least partially into grooves (11 ) in a thermal insulation plate (10), characterized in that the thermal insulation contains a foam plate (10), where at least one side is formed of vertically oriented grooves spaced transversally, in which vertical struts (20) can be installed, supporting wall element load by attaching by nails or by other means to vertically oriented support ribs (30) located at the same point on the opposite side of the heat-insulating plate (10), the depth of the grooves (11) on the surface of the heat-insulating plate (10) is chosen such that when it is installed on the bottom (12) of the groove (11), the vertical strut (20) bearing the load will protrude from the surface level of the heat-insulating plate (10) by a distance equal to the thickness of the additional insulation plate (40), and on the vertical sides of the heat-insulating plate (10) there are grooves (14) and soo corresponding protrusions (15) for connecting the heat-insulating plates (10) of adjacent elements by means of a tongue and groove connection.  2. Wall element according to claim 1, characterized in that the heat-insulating plate (10) has vertically oriented and transversely spaced grooves (11, 15) located on both sides thereof for vertical struts (20) carrying a load and for supporting ribs (30).  3. Wall elements according to claim 1 or 2, characterized in that the depth of the groove (15) for the support rib (30) is chosen such that the outer surface of the support rib (30) protrudes from the heat-insulating plate (10) by a distance equal to the thickness of the plate additional insulation (40), so additional insulation (40) can be placed on both sides of the heat insulation plate (10).  4. Wall element according to any one of claims 1 to 3, characterized in that the lower edge of the heat-insulating plate (10) has a recess (16) corresponding to the shape of the foundation (1) of the wall, the shape of a horizontal board or supporting profile (2) located on foundation.  5. Wall element according to any one of claims 1 to 4, characterized in that the material of the heat-insulating plate (10) is a foam, for example, polystyrene, polyurethane or phenol-formaldehyde resin.  6. A system of wall elements containing thermal insulation (10) and additional insulation in the form of plates, as well as holders consisting of transversely spaced racks (20) bearing a load that can be embedded in the grooves (11) of the heat-insulating plate (10), and possibly horizontal boards (3) supported on load-bearing vertical posts (20), characterized in that (a) load-bearing vertical posts (20) are installed in the grooves (11) on the surface of the heat-insulating board (10) and nails or the like are attached way to upright landmark to the supporting ribs (30) located at one point on the opposite side of the heat-insulating plate (10), (c) the depth of the grooves (11) on the surface of the heat-insulating plate (10) and the width of the vertical struts (20) bearing the load are selected in such a way so that when it is installed on the bottom (12) of the groove (11), the vertical support (20), bearing the load, protrudes from the surface level of the heat-insulating board (10) by a distance equal to the thickness of the additional insulation layer (40), (c) vertical sides thermal insulation boards (10) have grooves (14) and the corresponding dull (15) for connecting the insulation boards (10) tongue and groove connection.  7. The system of wall elements according to claim 6, characterized in that at the upper end of the vertical posts (20) bearing the load, a recess (21) is formed for installing horizontal supports or screeds (3).  8. The system of wall elements according to any one of claims 6 to 7, characterized in that it is provided with vertically spaced and horizontally oriented ribs (32), which are attached to the vertical support ribs (30) with nails or in another way and which act as supports for installation of the outer wall covering at a distance of the air gap from the heat-insulating plate (10).  9. The system of wall elements according to claim 8, characterized in that the support ribs (30) are completely or partially embedded in vertically oriented grooves (15) on the heat-insulating plate (10).  10. The system of wall elements according to claim 9, characterized in that the supporting ribs (30) also act as load-bearing vertical posts, and they are embedded in the grooves (15) of the heat-insulating plate (10), the depth of which is chosen such that the outer surface the support ribs (30) protrudes from the heat-insulating plate (10) by a distance equal to the thickness of the additional insulation layer (40), so on both sides of the heat-insulating plate (10), additional insulation plates can be placed, for example, fire-resistant plates or sound insulation plates (40) .  11. The system of wall elements according to claim 9, characterized in that it contains vertical posts (20) also on the outside of the wall element, completely embedded in the grooves (15) of the heat-insulating plate (10) by nailing through the supporting ribs (42), fire-resistant plate (41), vertical struts (20) and heat-insulating plate (10) to load-bearing vertical struts (20) located on opposite sides.  12. The system of wall elements according to any one of claims 6 to 11, characterized in that the additional insulation is a mineral wool slab, gypsum slab or blown mineral wool.

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