Patent Application
20240159060
This application claims priority from Finnish Patent Application 20226028, filed Nov. 16, 2022, the entire contents of which is incorporated by reference herein as if expressly set forth in its respective entirety herein.
The invention relates to a lining board arrangement for lining e.g. a building facade.
Furthermore, the invention relates to a method for mounting a lining board arrangement.
Building facades comprise wall sections of various lengths, on top of which, lining boards are mounted. The lining boards mountable on top of the building walls are typically manufactured and pre-assembled with specific dimensions at the factory. However, a problem is e.g. that the building facade does not match up its construction plans due to, for example, dimensional inaccuracies or manufacturing defects occurred in the construction stage, whereby the mounting of the lining boards manufactured with specific dimensions based on the construction plan may be slowed down or even prevented. Particularly, this problem occurs in buildings which comprise several walls being at an angle relative to each other, such as corners of the building or recesses formed by the windows.
An object of the invention is to provide a novel lining board arrangement and a method for mounting said arrangement.
The lining board arrangement according to the invention is characterized by the lining board arrangement comprising a lining board for being mounted to a wall, wherein the lining board comprises lining tiles arranged to a back-plate. The back-plate has first positioners for positioning an angle plate relative to the lining board. The lining board arrangement further comprises said angle plate for being mounted to the back-plate, wherein the angle plate has second positioners corresponding the first positioners of the back-plate.
The method for mounting a lining board arrangement according to the invention is characterized by mounting the lining board to a wall, positioning an angle plate to the lining board by means of first positioners in the lining board and second positioners in the angle plate, and attaching the angle plate to the lining board.
In the presented lining board arrangement, lining boards and lining tiles manufactured with specific dimensions at the factory are made to correspond to the actual dimensions of the building walls, which may comprise dimensional inaccuracies created in the construction stage. The lining board arrangement is made to correspond to the actual dimensions of the building wall by means of the lining board and the angle plate being mounted to it, wherein the angle plate is positioned at a determined position relative to the lining board by means of the first positioners in the lining board and the second positioners in the angle plate. Said positioners enable the quick and accurate positioning of the angle plate to the lining board.
Some embodiments of the invention are presented in the dependent claims.
The invention is now described in closer detail in connection with preferred embodiments and with reference to the accompanying drawings, in which
For reasons of clarity, some embodiments of the invention are illustrated in the figures in a simplified form. In the figures, like reference numerals identify like elements.
A lining board arrangement 10 of Figures IA-C comprises a lining board 100 for being mounted to a wall of a building, whereby the facade of the building may be formed by mounting several lining boards 100 of Figures IA-C on the building wall side by side in both the horizontal and vertical direction of the building wall. The lining board 100 comprises a back-plate 120 and lining tiles 110 arranged to the back-plate 120. The lining board arrangement 10 further comprises an angle plate 200 for being mounted to the lining board 100. The lining board arrangement 10 is intended to be located near the wall sections of the building being at an angle relative to each other, such as near the window recesses of the building or the corners of the building, such that the angle plate 200 is located on both sections of the wall section being at an angle relative to each other. The lining tiles 110 are mounted to the back-plate 120 and/or the angle plate 200 by an adhesive mass 130.
The lining tile 110 of
Furthermore, the lining tile 110 of the lining board 100 has a back surface 114 which is located on the opposite side from the facade surface 112 of the lining board 110. The back surface 114 of the lining board 110 is arranged to be positioned against a front surface 120F of the back-plate 120 or near the front surface 120F of the back-plate 120, wherein the back-plate 120 will be later described in more detail.
Furthermore, the lining tile 110 of the lining board 100 has side faces 116′-116″″ between the facade surface 112 and the back surface 114. The lining tile 110 has a determined thickness, which may be e.g. 10-45 mm, preferably about 20 mm. The lining tiles 110 are fixed from their side faces 110′-110′″ to an adhesive mass 130 and, via the adhesive mass 130, to the back-plate 120.
The back-plate 120 of the lining board 100 of the lining board arrangement 10 of
Furthermore, the back-plate 120 includes grippers 122, which are protrusions pointing in the direction of the facade side 100F of the lining board 100, or in other words, protrusions pointing in the direction shown by the front surface 120F of the back-plate 120. The grippers 122 are located in the back-plate 120 in an arranged manner such that the side faces 110′-110′″ of the lining tiles 110 for being mounted to the back-plate are positioned near the grippers 122. Said grippers 122 may be separately mounted to the back-plate 120, but more preferably said grippers 122 are fixed portions of the back-plates 120 and formed of the back-plate 120, for example, by punching said portion with the exception of one edge off the back-plate 120 and by bending it in the shape of a protrusion of the desired shape. The gripper 122 is configured, in a manner to be described later in more detail, to the adhesive mass 130, whereby the lining tiles 110 are fixed via the grippers 122 and the adhesive mass 130 to the back-plate 120.
Furthermore, the back-plate 120 includes hangers 126, from which, the lining board 100 is configured to be mounted for supporting hanging rails mounted to the building wall. The hangers 126 are protrusions oriented in the direction of the back side 100B of the lining board 100 or i.e. oriented away from the back surface 114 of the lining tile 110, or in other words, protrusions directed into a direction determined by the back surface 120B of the back-plate 120. Said hangers 126 may be separately fixed to the back-plate 120, but more preferably said hangers 126 are fixed portions of the back-plates 120 and formed of the back-plate 120, for example, by punching said portion with the exception of one edge off the back-plate 120 and by bending it in the shape of a protrusion of the desired shape. The hanger 126 formed of the back-plate 120 may comprise e.g. a protrusion first extending vertically away from the back surface 120B of the back-plate 120, from which, the protrusion continues as folded downward partially toward the lower edge 120′″ of the back-plate, from which, the protrusion further extends still folded downward parallel with the back-plate 120 towards the lower edge 120″ of the back-plate.
Furthermore, the back-plate 120 includes first positioners 128 which are protrusions located on the back side 120B of the back-plate 120 which are located in a determined position near the first side face 120′ and/or the second side face 120″ if the back-plate 120. The first positioners 128 may be oriented in the direction of the back side 100B of the lining board 100, or in other words, protrusions oriented away from the lining tile 110. Said first positioners 128 may be separately fixed to the back-plate 120, but more preferably said first positioners 128 are fixed portions of the back-plates 120 and formed of the back-plate 120, for example, by punching said portion with the exception of one edge off the back-plate 120 and by bending it in the shape of a protrusion of the desired shape. The first positioners 128 align the angle plate 200 in the height direction of the upper edge 120′″ and the lower edge 120′″ of the back-plate 120 when assembling the lining board arrangement 10.
Furthermore, in the embodiment of
Furthermore, in the embodiment of
The angle plate 200 of the lining board arrangement 10 of the figures, such as e.g. a bent steel plate, is intended for being mounted on the back side 120B of the back-plate 120 of the back-plate 120 of the lining board 100, wherein the angle plate 200 is located near the first side face 120′ or the second side face 120″ of the back-plate 120. In
Furthermore, the lining board 100 of the lining board arrangement 10 and the angle plate 200 to be mounted to it are intended to be located in the wall sections of the building being at an angle relative to each other, such as to the window recesses or the corners of the building. To the angle plates 200 to be located to window recesses are mounted i.e. positioned and fixed typically lining tiles 110 for forming a facade in the window recess. The lining tiles 100 to be located on both sides of the building corners are mounted i.e. positioned and fixed relative to each other by means of the angle plate 200.
Furthermore, the angle plate 200 of the figures comprises second positioners 210 corresponding to the first positioners 128 of the back-plate 120. The angle plate 200 comprises a first side 202 where said second positioners 210 are located. Said second positioners 210 may be mounted to the angle plate 200 separately but, more preferably, said positioners 210 are fixed sections of the angle plate 200 and formed in the angle plate 200, wherein the second positioner 210 is a slot 210 having an open end, or an elongated slot 210 having an open end, on the first side 202 of the angle plate. The slot having an open end or the elongated slot having an open end allows the positioning of the angle plate 200 in a determined position relative to the first side face 120′ or the second side face 120″ of the back-plate 120 when assembling the lining board arrangement 10.
Furthermore, in the embodiment of the figures, the angle plate 200 includes grippers 220. The angle plate 200 comprises a second side 204 where said grippers 220 are located. The grippers 220 are protrusions oriented away from the plane surface formed by the second side 204 into the direction of the lining tiles 110 to be mounted, or in other words, the protrusions are directed away from the wall or window recess of the building. The angle plate 200 of the figures is used in window recesses which are lined with lining tiles 110. Said grippers 220 may be separately mounted to the angle plate 200, but more preferably said grippers 220 are fixed portions of the angle plates 200 and formed of the angle plate 200, for example, by punching said portion with the exception of one edge off the angle-plate 200 and by bending it in the shape of a protrusion of the desired shape. The gripper 220 is configured to grip the adhesive mass 130 for mounting the lining tile 110 to the back-plate 120.
In an embodiment, instead of the grippers 220 in the angle plate 200, the angle plate 200 includes third positioners on the second side 204 of the angle plate 200. Said third positioners are not shown in the figures. Said embodiment is used when the angle plate 200 is located in the corner of the building, wherein two adjacent lining boards 100 located on both sides of the corner are positioned and fixed relative to each other. The construction of the third positioners is equivalent to that of the above-mentioned second positioners 210, but the third positioners are configured to correspond to the second lining board 100, or in more detail, to the positioners 128 of the second lining board 100, and thus to align the lining board 100 corresponding to the angle plate 200 relative to each other.
In an embodiment, the second side 204 of the angle plate 200 does not comprise grippers 220 nor third positioners, but the second side 204 is configured to operate as a protective plate of the window recess, wherein no lining tiles 110 nor second lining board 100 is thus mounted to the angle plate 200.
The lining board 100 is manufactured as follows. The lining tiles 110 are positioned on a manufacturing platform with their facade surfaces 112 facing down, at a distance from each other determined by a desired gap. In said positioning, a meshy panel guide, for example, may be utilised, having longitudinal and transverse rods that define the mutual positioning of the lining tiles 110. When a panel guide is used, the lining tiles 110 may be put in place either by hand or automatically with the aid of a robot, for example. Alternatively, the positioning of the lining tiles 110 may be carried out automatically without a special panel guide by means of a robot, only.
When the specified lining tiles 110 included in the lining board 100 to be manufactured have been set in place, adhesive mass 130 is fed onto the side faces 110′-110′″ of the adjacent lining tiles 110, wherein said adhesive mass 130, as it is curing, fixes the adjacent lining tiles 110 to each other. The lining tiles 110 may comprise sockets on the sides 110′-110′ of the lining tile, on the back side of the lining tile 110, in which the adhesive mass is fed, wherein the socket and the adhesive mass fed to it enable the mounting of the lining tiles very near each other. Said sockets are not shown in the figures and they will not be discussed here in more detail.
Before the adhesive mass 130 cures, the back-plate 120 is put in place such that the grippers 122 are positioned between the lining tiles 110, where the adhesive mass 130 is located, whereby the grippers 122 thus grip to the adhesive mass 130. In such a case, the adhesive mass 130, as it is curing, secures the tiling formed by the lining tiles 110 to the back-plate 120 through the adhesive mass 130 and the grippers 122, the back-plate 120 forming a frame structure of the lining board 100.
As adhesive mass 130, cement-based grout, cement or epoxy based jointing mortars or plastic pastes may be used. To mount brick and lining brick panels, grout, jointing mortars, or plastic pastes may be used. Plastic pastes may be best suited for mounting plastic panels, but the use of grout or jointing mortar to mount plastic panels is also possible.
In the manufacture of the lining board 100, a part of the lining tiles 110 may be left unmounted, wherein particularly a part of the lining tiles 110 of the lining board 100 to be positioned at an angle of the window recess or the corner of the building may be left unmounted. For example,
The lining board arrangement 10 is mounted as follows in accordance with a method. The lining boards 100 and the angle plates 200 are manufactured at a factory. The lining boards 100 and the angle plates 200 are transported to a mounting site. The lining tiles 110 are transported to the mounting site.
Furthermore in the mounting stage, hanging rails, to which the hangers 126 of the lining board 100 correspond, are mounted to the walls of the building. The lining board 100 is set by its hangers 126 to be supported by the hanging rails on the wall of the building.
Furthermore in the mounting stage, the angle plates 200 are positioned to those lining boards 100 which are located near the window recesses or corners of the building. The angle plate 200 is positioned to the lining board 100 such that the second positioners 210 of the angle plate 200 correspond to the first positioners 128 of the back-plate 120, whereby the angle plate 200 retains its vertical position relative to the lining board 100. The angle board 200 is positioned relative to the corner or the window recess of the building such that the angle plate 200 is specifically in line with the angle in the building, whereby the angle plate 200 is further in a determined position relative to the first side face 120′ or the second side face 120″ of the back-plate 120.
Furthermore in the mounting stage, the angle plate 200 positioned to the lining board 100 is attached to the lining board 100 e.g. by an adhesive material, i.e. installation adhesive, and/or mounting members, such as e.g. drill screws. The adhesive is located between the angle plate 200 and the lining board 100, whereby the angle plate 200 is fixed to the lining board 100. The mounting members may, depending on the situation, be mounted from the facade side 100F or the back side 100B of the lining board 100.
Furthermore in the mounting stage, the lining tiles 110 are fixed to the angle plate 200 by an adhesive mass 130 before mounting the angle plate 200 and/or after having mounted the angle plate 200 to the lining board 100. The lining tiles 110 having possibly left unmounted in the manufacturing stage of the lining board 100 are mounted in the same mounting stage with the lining tiles 110 for being fixed to the angle plate 200, whereby the unmounted lining tiles 110 may be positioned specifically relative to the lining tiles 110 to be located to the angle plate 200 considering e.g. dimensional inaccuracies created in the construction stage of the building. It is possible to cut the lining tiles 110 to be mounted to the lining board 100 and the angle plate 200 to specific size before mounting them to the lining board 100 or the angle plate 200.
According to another method, the mounting order of the mounting stage is as follows. The lining boards 100 and the angle plates 200 are manufactured and transported to a mounting site. The lining tiles 110 are transported to the mounting site. Said hanging rails are mounted on the walls of the building. The angle plate(s) 200 is/are positioned and attached to the lining board 100, wherein the position of the angle plate 200 relative to the first side 120′ and/or the second side 120″ of the back-plate 120 is determined in a specified manner, such as e.g. based on the measurement of the building. The lining tiles 110 are fixed to the angle plate 200 by an adhesive mass 130 before mounting and/or after having mounted the angle plate 200 to the lining board 100. The lining tiles 110 having possibly left unmounted in the manufacturing stage of the lining board 100 are also mounted in this stage, and it is possible to cut the lining tiles 110 to be mounted to the lining board 100 to specific size before mounting them to the lining board 100. The lining board 100, to which is mounted the angle plate 200, is mounted to be supported by the hanging rails mounted to the building wall by the hangers 126 of the lining board 100.
If necessary, it is possible to cut the lining tiles 110 to specific size before mounting them to the lining board 100 or the angle plate 200 to consider the dimensional inaccuracies created in the construction stage of the building. The position of the angle plate 200 relative to the lining board 100 is determined at the mounting site, wherein possibly cut-to-size lining tiles 110 are mounted in place of the lining tiles 110 unmounted to the lining board 100, the size being based on the position of the angle plate 200 relative to the lining board 100.
It is possible to cut the lining boards 100 to size, if necessary, from the first side 120′ or the second side 120″ of the lining board 100 before mounting and/or after having mounted the lining board 100 to the wall.
Those skilled in the art will find it obvious that, as technology advances, the basic idea of the invention may be implemented in many different ways. The invention and its embodiments are thus not restricted to the examples described above but may vary within the scope of the claims.
| Number | Date | Country | Kind |
|---|---|---|---|
| 20226028 | Nov 2022 | FI | national |
