NO318491B1 - Facade construction, especially for balconies in buildings comprising a rail and glass structure. - Google Patents

Abstract

The façade structure is intended for balconies (P) in buildings. It comprises the combination of a railing structure (KR) and a glazing (LA). The railing structure (KR) comprises the combination of a support structure (1) and cover plate structure (3) connected to it by mounting pieces (2). The glazing (LA) comprises a lower profile piece (4) and an upper profile piece (5), between which there are vertical glass panes (6). Between the mounting piece (2) of the cover plate structure (3), which is connected to the upper part of the railing structure (KR), and the power profile piece (4) of the glazing (LA), there is placed, substantially in the horizontal direction, a connecting piece (8) which has the length of the facade structure (JR) and which is provided with first (1S) and second (2S) adjusting means. The mounting piece (2) and the lower profile piece (4), in turn, comprise third (3S) and fourth (4S) adjusting means. The first (1S) and the third (3S) adjusting means and, on the other hand, the third (2S) and the fourth (4S) adjusting means together form separate adjusting ranges (ESA, TSA) for connecting said mounting piece (2), connecting piece (8) and lower profile piece (4) to each other.

Description

The present invention relates to a facade construction, especially for balconies in buildings, comprising a combination of a rail construction and a glass construction, in accordance with the introduction to the independent patent claim 1.

In building construction - both in the construction of new buildings and in renovations - it has become more and more common to use balcony rooms by equipping them with so-called balcony glass construction. In the construction of new buildings and in the case of a number of building renovations, balcony glass constructions, as well as rail constructions related to these, form a unit that is essential for the facade impression of the building. Especially in the construction of new buildings, the trend is to utilize combinations of steel and concrete constructions, where not only natural deflections of the buildings set high demands, but also variations in temperature and permissible dimensioning deviations in the construction, this especially applies to multi-storey buildings where the balcony glass constructions together with the rail constructions should form a unit that is beneficial in terms of the overall impression of the facade. Related to this is a factor to increase the standard in the mobility of the functions of modern glass constructions, including, for example, hinge systems, guide rails, the ability to assemble separate glass panes, transfer of glass panes over corners of the balcony and so on. Naturally, in the same way, major problems are involved in renovation, especially when not only the glass construction, but also the rail construction, is to be foamed.

Naturally, it is appropriate to produce the glass construction and the rail construction as far as possible using industrial methods, where the above-mentioned problems only arise when these are to be installed in the building facade. It is an object of the present invention to present a facade construction which makes it possible to install a rail construction and a glass construction related to this in connection with each other, despite the fact that there are still significant variations in the dimensioning of the construction used as a basis for the installation. It is thus possible on the one hand that each combination separately forms a functional unit, and on the other hand that the building facade is elegant as a whole.

In order to achieve these purposes, the facade construction in accordance with the invention is primarily characterized by

the connecting part comprises first and second adjustment means, where the mounting part and the lower profile part in turn comprise third and fourth adjustment means, whereby the position of the parts in the horizontal direction and in the height direction can be adjusted in relation to each other by means of the adjustment means,

wherein the first and third adjustment means on one side form a first adjustment area intended to connect the mounting part and the coupling part to each other, whereby the position of the coupling part can be adjusted relative to the support structure within the first adjustment area for attachment, and

where the second and fourth adjustment means on the other side form a second common adjustment area which is intended to connect the coupling part and the lower profile part in relation to each other, whereby the position of the coupling part and the lower profile part can be adjusted in relation to each other within the second adjustment area .

The other, independent patent claims show certain preferred embodiments of the facade construction in accordance with the invention.

In the following, the invention will be illustrated in more detail with reference to the attached drawings, where: fig. 1 shows a first embodiment of the facade construction in vertical cross-section;

fig. 2 shows a front view of a first embodiment of the facade construction in accordance with fig. in;

fig. 3 shows on a larger scale a vertical cross-section of point I in fig. 1, where the rail construction and the glass construction are connected together;

fig. 4 shows a second embodiment of the facade construction in vertical cross-section;

fig. 5 shows a front view of a second embodiment of the facade construction in accordance with fig. 4; and

fig. 6 shows on a larger scale a vertical cross-section of point IV in fig. 4, where the rail construction and the glass construction are connected together.

The embodiments of the facade construction in accordance with the invention are intended especially for balconies P in apartment blocks. In this way, between the floor LA and the roof levels KT of a balcony P, a facade construction JR is placed which comprises a vertical combination of a rail construction KR and a glass construction LA, substantially placed on top of each other.

The rail structure KR comprises a support structure 1 which extends in the vertical direction substantially upwards from the bottom plane related to the facade structure JR, that is usually from the floor level LT at the balcony P, and is attached to the vertical side surface of the floor level LT which forms the bottom plane, or , in the embodiment shown in the drawings, of a horizontal reinforced concrete slab. To the support structure 1, which preferably consists of two or more steel beams and vertically fixed at regular intervals to the vertical side surface of the reinforcing concrete slab, a cover plate structure 3 is attached by means of mounting parts 2, which thus forms the primary visible lower part of the facade structure JR. Especially in the case of renovation, the material in this cover plate construction 3 is usually tempered and shielded glass, where it forms a glazed glass construction that matches the overall facade of the apartment block.

The vertical glass structure LA extending upwards from the upper part of the rail structure KR comprises a lower horizontal profile part 4 mounted to the upper part of the rail structure KR and an upper horizontal profile part 5 located in the upper part of the facade structure JR, and in the case that is an apartment block, preferably mounted to a balcony Py at the upper floor (that is, to the roof level KT at the balcony P), to the lower surface at its bottom plane. Between the parallel profile parts 4, 5 which extend in the same horizontal plane, also in the vertical direction, there are placed two or more panes of glass 6 which are arranged to be movable between the profile parts 4, 5 and rotatable around a horizontal axis in relation to the profile parts 4 , 5, especially at at least one end of the facade construction JR. For their movement, the panes of glass 6 are mounted at their upper and lower edges to hinges and sliding parts 7 in recesses extending in the longitudinal direction of the profile parts 4, 5. These functions are known to a person skilled in the field, for example from the patent publication WO 99/32752, and will not be described in more detail here.

Fig. 1 to 3 in the drawings show an embodiment where the cover plate construction 3 of the rail construction KR with its mounting part 2, is placed on the outside of the facade construction JR, forms a substantially visible part of the facade construction JR, where the support structure 1 remains inside the facade construction JR in relation to the cover plate construction 3. Figs. 4 to 6 in the drawings show an embodiment where the location of the parts of the rail structure KR is opposite to that mentioned above, where the support structure 1, placed on the outside of the cover plate structure 3, forms a part that clearly stands out in the facade structure JR and thus consists of vertical beams, mounted at their lower part to the vertical side surface of the concrete slab forming the floor level LT, and a horizontal rail beam IA connecting the vertical beams at their upper part and being placed at the lower part of the glass structure LA.

It is characteristic in both embodiments of the facade construction JR shown in the drawings, that is, fig. 1 to 3 and fig. 4 to 6, that between the mounting part 2 and the cover plate construction 3, connected to the upper part of the rail construction KR, and the lower profile part 4 of the glass construction LA, there is placed a substantially horizontal connecting part 8 with a length equal to the facade construction JR and which forms part of the facade construction JR. The connecting part 8 makes it possible to connect the rail construction KR on one side and the glass construction LA on the other side to each other during installation and assembly of the facade construction JR, despite dimensional deviations.

For these purposes, the coupling part 8 is provided with first IS and second 2S adjustment means. The mounting part 2 on one side and the lower profile part 4 on the other side, in turn, comprise third 3S and fourth 4S adjustment means. When installing the facade construction JR, the first adjusting means IS is placed in the connecting part 8 and the third adjusting means 3S in the mounting part 2 in connection with each other, to provide a first adjusting area ESA. In a similar way, the second adjustment means 2S in the connecting part 8 and the fourth adjustment means 4S in the lower profile part 4 are placed in connection with each other during the installation of the facade construction JR, to provide a second adjustment area TSA. Accordingly, these first ESA and second TSA adjustment ranges, which can be adjusted separately when installing the facade construction JR, make it possible to connect the mounting part 2 of the facade construction JR, the connecting part 8, and the lower profile part 4 of the glass construction LA to each other in such a way that the facade construction JR forms an equal unit despite dimensional deviations in different parts of the balcony P which forms the basis for the installation of the facade construction JR in the apartment block.

The first ESA and second TSA adjustment areas are utilized in such a way that the position of the coupling part 8 in the height direction in relation to the support structure 1 of the rail structure KR is arranged to be adjustable within the first adjustment area ESA formed by the first IS and third 3S adjustment means. Accordingly, the mounting part 2 and the coupling part 8 are placed against each other within the first adjustment area ESA in the height direction. Furthermore, the horizontal position of the connecting part 8 and the lower profile part 4 in relation to each other, and thus the position of the lower profile part 4 in the facade construction, is arranged to be adjustable within the second adjustment area TSA formed by the second 2S and fourth 4S adjustment means. Consequently, the position of the glass construction LA in relation to the connecting part 8 can be selected in the most advantageous way.

In the embodiment shown in fig. 1 - 3, where the cover plate structure 3 is outside the support structure 1 of the rail structure, the coupling structure 8 is placed on top of the support structure 1 of the facade structure JR, where the first IS and the third 3S adjusting means for the first and the second 2S and fourth 4S adjusting means for the second are placed on opposite vertical sides of the support structure 1.1 the embodiment in fig. 4 to 6, where the cover plate structure 3 is on the inside of the support structure 1 of the rail structure KR, the connecting part 8 is placed in connection with the vertical inner surface of the support structure 1 of the facade structure JR. In this way, the support structure 1 usually passes the lower profile part 4 in the vertical direction and the horizontal rail beam IA of the support structure 1 is next to the lower part of the glass structure LA, seen in the horizontal direction. Consequently, all the adjustment means IS - 4S in the second embodiment shown in fig. 4-6 placed in connection with the inner surface of the support structure 1.

In a more detailed examination of the embodiment in fig. 1 - 3, the following main parts can be seen in the connecting part 8. The visible part of the facade construction JR is a protective enclosure 9 which forms the horizontal rail beam and which extends diagonally downwards and outwards in the facade construction JR, crossing the upper part of the support structure 1 at the facade construction JR and extends horizontally on both sides of the support structure 1 of the rail structure KR.

Furthermore, the connecting part 8 comprises a fastening element 10 which extends downwards from the lower surface of the protective enclosure 9 and is connected to the support structure 1 of

the rail construction. Constructionally, the fastening element 10 of the coupling part 8 comprises two downwardly directed flange parts 10a, 10b, which are placed at a horizontal distance from each other and are preferably formed to correspond to the total length of the coupling part 8. The upper end of the support structure 1 is arranged to be placed between the flange parts, where at least one of the flange parts, preferably the inner flange part 1 Ob, is provided with a perforation or the like over the length of the vertical adjustment area, to connect the coupling part 8 with a predetermined height with at least some beams of the support structure 1 by means of fasteners, such as a screw or a bolt fastener PK. The first adjustment means IS in the coupling part 8 is located on the side of the lower surface of the protective casing 9, extending downwards on the outside of the support structure 1. The second adjustment means in the coupling part 8 is in turn located on the side of the lower support surface of the protective the enclosure 9 extends horizontally towards the inner part of the facade construction JR. 1 a more detailed examination of the embodiment shown in fig. 4 - 6, the following parts can be seen in the connecting part 8. The protective casing 9 is placed in connection with the inner edge of the support structure 1 of the rail structure KR, below the rail beam 1 A, and extends diagonally upwards and inwards. To the outer edge of the protective enclosure 9 is connected a downwardly directed fastening element 10 which is in one plane at least on the section placed against the support structure 1 and is connected to the inner surface of the support structure 1 of the facade structure JR. The fastening element 10 is provided with a vertical perforation or the like over the length of the vertical first adjustment area ESA, connects the coupling part 8 with a predetermined height to the inner surface of the support structure 1 with fasteners 11, such as a bolt or a screw fastener PK. Furthermore, the connecting part 8 comprises the first adjustment means 1S placed under the protective casing 9 and the fastening element 10, so as to extend as a flange part 10c downwards on the side of the inner edge of the support structure 1. The second adjustment means 2S is placed on the side of the lower surface to the protective enclosure 9, so as to extend horizontally from the lower edge of the fastening element 10 towards the inner part of the facade construction JR.

In terms of construction, the first adjustment means IS used in the embodiment shown in fig. 1 - 3 primarily a flange 12 which is preferably as long as the connecting part 8 and which extends downwards from the outer edge of the protective casing 9, and is, when the connecting part 8 is installed in the facade construction JR, located at a horizontal distance from the outer edge of the support structure 1 of the rail structure KR. Accordingly, the transverse profile of the protective enclosure 9 makes it possible to place the mounting part 2 of the cover plate structure 3 in a space substantially jointly limited by the inner surface of the flange 12, the lower surface of the protective enclosure 9, and the vertical outer edge of the support structure 1 In this way it is possible to use the outer flange part 10a of the fastening element 19 of the coupling part 8 as part of the first adjustment means IS, where the coupling part 8 extends downwards and is in connection with the mounting part 2.

The cross-sectional profile of the extended mounting part 2, which surrounds the edges of the preferably rectangular cover plate construction 3 comprises at least the following main parts of the first adjusting means 1S. A recess part 2a having a U-shaped cross-section having in the horizontal direction substantially the length of the cover plate structure 3, or a part thereof, and where the edge 3a of the cover plate of the cover plate structure 3 is arranged to be placed in a blocked manner by means of a barrier 13 which also has a U-shaped cross-section. Furthermore, the mounting part 2 includes an attaching flange part 2b which is formed to project forward in the direction opposite to the direction of the opening of the recess of the recess part 2a with a U-shaped cross-section and which is to be placed vertically on the other side of the mounting part 2. The outer surface of the the attaching flange part 2b and the outer surface 2c of the inner (Fig. 3) or outer (Fig. 6) crossbar of the recess part 2a is placed against the support structure 1 of the rail structure KR; in the embodiment in fig. 1 - 3 against the vertical outer edge of the support structure 1, and in the embodiment in fig. 4 - 6 against the vertical inner edge of the support structure 1.

The fixing flange part 2b is provided with a perforation or the like, for fixing the combination of the cover plate structure 3 and the mounting part 2 to the support structure 1 with fasteners, such as a screw or a bolt fastener PK.

In the embodiments in both fig. 1 - 3 and fig. 4 - 6, the outer edge of the fastening flange part 2b comprises a tongue part 2d which is thinner than the base thickness of the fastening flange part 2b and which, when the fastening part 2b is installed in connection with the support structure 1, extends upwards and at a horizontal distance from the vertical the surface of the support structure 1. Accordingly, the structure is provided with a horizontal recess 11 which is open upwards between the inner surface of the tongue part 2d and the vertical surface of the support structure 12 and where the outwardly downwardly directed flange part 10a of the fastening element 10, which belongs to the first adjusting means IS and which is adapted in the coupling part 8, is placed in the embodiment shown in fig. 1 - 3. Similarly, in the embodiments shown in fig. 4-6, this recess 11 receives the flange part 10c connected to the lower edge of the fastening element and forms the first adjusting means.

Accordingly, the first adjustment area consists of ESA in the embodiment shown in fig. 1 - 3 of two parts, that is, firstly, the area between the flange 12 which extends downwards from the outer edge of the protective enclosure 9 and the outer surface of the outer crossbar of the recess part 2a of the mounting part 2 placed in connection therewith, and secondly, the area between the horizontal recess 11 and the outer flange part 10a of the fastening element 10 of the coupling part 8.

In the embodiment in fig. 4 - 6 consists of the first adjustment area ESA, with deviations from the first embodiment shown in fig. 1 - 3, of a single area between the horizontal recess 11 opening upwards and which is provided by means of the inner surface of the tongue part 2d of the fastening flange part 2a and the edge of the support structure 1 and the vertical flange part 10c connected to the fastening element 10 of the connecting part 8.

Referring to what has been discussed above, it can generally be said that the first adjusting means 3S is preferably formed at least in connection with the fixing flange part 2b of the mounting part 2.1 in addition to this, it is very advantageous to use the construction of the outer surface of the recess part 2a of the mounting part 2 to provide the first adjusting means 3S.

Furthermore, the second adjusting means 2S, which is in the coupling part 8 both in the embodiment in fig. 1 - 3 and in fig. 4 - 6, structurally speaking, a horizontal flange 15 which is placed under the protective casing 9 of the coupling part 8 and extends on the side of the inner surface of the support structure 1 of the rail structure JR, and is preferably as long as the coupling part 8. The lower profile part 4 belonging to the glass structure LA is arranged to be fixed with fasteners, such as a bolt or a screw fastener PK, to the upper surface of the horizontal flange 15. The horizontal flange 15 is preferably fixed to the fastening element 10 of the coupling part 8, the that is, in the embodiment in fig. 1 - 3 to the outer inward facing surface of the inner flange part 10 which extends downwards, and in the embodiment shown in fig. 4 - 6 to the flange-like fastening element 10 to the lower edge of the same. The horizontal flange 15 is provided with a perforation or the like having the length of the horizontal second adjustment area TSA and extending in a direction substantially perpendicular to the longitudinal direction of the coupling part 8, for attaching the lower profile part 4 to the glass structure LA i to the coupling part 8.1 the embodiment in fig. 1 - 3, the upper surface of the horizontal flange 15 is flat, and in the embodiment 4-6 step-shaped in the vertical direction, in which the outer edge part 15a, positioned at a lower level of the horizontal flange 15, is provided with said perforation or the like with the length of the horizontal second adjustment area TSA, and extends in a direction substantially perpendicular to the longitudinal direction of the coupling part 8, where the lower profile part 4 can be positioned and attached to the horizontal flange 15 of the coupling part 8 in accordance with what is required in the installation project.

The fourth adjustment means 4S consists of the lower surface 4a of the lower profile part 4 of the glass structure LA, which is supported to the upper surface of the horiontal flange 15 of the coupling part 8, which forms the second adjustment means 2S. In connection with the bottom surface 4a of the lower profile part 4, there is a recess 14 or the like where the fastening means PK, such as a bolt or a screw, which pierces the perforation in the horizontal flange 15, is fixed at its apex.

The upper part of the lower profile part 4 is in the embodiment both in fig. 1 - 3 and in fig. 4 - 6 provided with an outwardly directed horizontal protective flange 16 which is arranged in the installed position of the facade structure JR to be placed with the inner edge of the protective casing 9 of the coupling part 8 on top of each other. The protective flange 16 comprises a downwardly directed nose part 17 which is placed on top of the protective casing 9 of the coupling part 8. The inner edge of the protective casing 9 belonging to the coupling part 8 is provided with an upwardly directed nose part 18 placed below the protective flange.

Claims (22)

1. Facade construction, especially for balconies (P) in buildings, comprising the combination of a rail construction (KR) and a glass construction (LA), where the rail structure (KR) comprises: - the combination of a support structure (1) which extends substantially upwards from a bottom plane of a facade structure (JR), and a cover plate structure (3) attached by means of mounting parts (2) to the support structure (1) and preferably formed of a glass construction (LA), and where the glass construction includes: - a lower profile part (4) connected to the upper part of the rail construction (KR), and an upper horizontal profile part (5) placed in the upper part of the facade construction (JR) and attached specifically to the balcony (P) in the building, - two or more vertical panes of glass (6) arranged to be movable and rotatable between the profile parts (4, 5), where the panes of glass (6) are fixed at their upper and lower edges in hinged and sliding parts (7) arranged in track that extends in the longitudinal direction of the profile parts (4,5), and - where between the mounting part (2) of the cover plate construction (3), which is connected to the upper part of the rail construction (KR) and the lower profile part (4) of glass -structure (LA), a connecting part (8) is placed essentially in a horizontal direction, with a length corresponding to the facade structure (JR) which is attached to the support structure (1) and to which the lower profile part (4) is attached, characterized in that - the coupling part (8) comprises first (1S) and second (2S) adjusting means, where the mounting part (2) and the lower profile part (4) in turn comprise third (3S) and fourth (4S) adjusting means, whereby the position of the parts ( 2,4) in the horizontal direction and in the height direction can be adjusted relative to each other using the adjustment means (IS, 2S, 3S, 4S), - where the first (IS) and the third (3S) adjustment means on one side form a first adjustment area (ESA) which is intended to connect the mounting part (2) and the coupling part (8) to each other, whereby the position of the coupling part (8) can be adjusted in relation to the support structure (1) within the first adjustment area (ESA) for attachment, and - where the second (2S) and the fourth (4S) adjustment means on the other side form a second common adjustment area (TSA) which is intended to connect the coupling part (8) and the lower profile part (4) in relation to each other, whereby the position of the connecting part (8) and the lower profile part (8) can be adjusted relative to each other within the second adjustment range (TSA). 2. Facade construction in accordance with patent claim 1, characterized in that the position of the connecting part (8) in the height direction in relation to the support structure (1) of the rail structure (KR) is arranged to be adjustable within the first adjustment area (ESA) formed by the first ( IS) and the third (3S) adjuster. 3. Facade construction in accordance with patent claim 1, characterized in that the horizontal position of the connecting part (8) and the lower profile part (4) in relation to each other and thus the position of the lower profile part (4) in the facade construction (JR) is arranged to to be adjustable within the second adjustment range (TSA) formed by the second (2S) and third (3S) adjustment means. 4. Facade construction in accordance with patent claim 1, characterized in that the connecting part (8) is placed on top of the support structure (1) of the facade construction (JR), where the first (IS) and third (3S) adjustment means on one side, and the other ( 2S) and the fourth (4S) adjustment means on the other side, are on opposite vertical sides of the support structure (1). 5. Facade structure in accordance with patent claim 1, characterized in that the connecting part (8) is placed in connection with the vertical inner surface of the support structure (1) of the facade structure (JR), where the support structure (1) passes the lower profile part (4) in the the vertical direction and all the adjustment means (IS - 4S) are placed in connection with the inner surface of the support structure (1). 6. Facade construction in accordance with one of the patent claims 1-4, characterized in that the connecting part (8) comprises: - a protective enclosure (9) which extends diagonally downwards and outwards in the facade construction (JR), crosses the upper part of the support construction (1 ) of the facade structure (JR) and extends horizontally on both sides of the support structure (1), - a fastening element (10) extending downwards from the lower surface of the protective enclosure (9) is attached to the support structure (1) of the rail structure (KR), and is equipped to receive fastening means to fasten the coupling part (8) to the upper part of the support structure (1), - first adjusting means (IS) which is located on the side of the lower surface of the protective casing (9) , extends downwards on the outside of the support structure (IX and - second adjusting means (2S) which is located on the side of the lower surface of the protective casing (9), extends horizontally towards the in re part of the facade construction (JR). 7. Facade construction in accordance with one of the patent claims 1,2,4 or 6, characterized in that the fastening element (10) of the connecting part (8) comprises two downwardly directed flange parts (10a, 10b) which are preferably formed to correspond to the total length of the connecting part (8) and between the upper end of the support structure (1) is arranged to be placed, at least the second flange part (10b) is provided with a vertical perforation or the like with the length of the first adjustment area (ESA) for attaching the coupling part ( 8) at a predetermined height in connection with the support structure (1) by means of fasteners (PK). 8. Facade construction in accordance with one of patent claims 1, 4, 6 or 7, characterized in that the first adjusting means (IS) preferably comprises at least one flange (12), which is preferably as long as the connecting part (8) and which extends downwards from the outer edge of the protective enclosure (9), where the flange (12) is located at a horizontal distance from the outer edge of the support structure (1) of the rail structure (KR) when the connecting part (8) is installed in the facade structure (JR), the mounting part (2) of the cover plate structure (3) is essentially located in a space which is jointly limited by the inner surface of the flange (12) and the outer edge of the support structure (1). 9. Facade construction in accordance with one of the patent claims 1, 4, 6, 7 or 8, characterized in that the second adjusting means (2S) comprises a horizontal flange (15), which is placed on the underside of the protective casing (9) at the connecting part (8), which extends towards the inner part of the facade structure (JR) on the side of the inner surface of the support structure (1) of the facade structure (JR), preferably with the length of the connecting part (8), and where the lower profile part (4) to its upper surface is arranged to be fixed by means of the fastening means (PK), the horizontal flange (15) being preferably fixed to the inner surface of the inner downward-directed flange part (10b) of the fastening element (10) of the coupling part (8) . 10. Facade construction in accordance with one of the patent claims 1, 4, 6, 7, 8 or 9, characterized in that the upper part of the lower profile part (4) comprises an outwardly directed horizontal protective flange (16), which is arranged in the installed the position of the facade construction (JR), to be placed with the inner edge of the protective casing (9) of the coupling part (8) on top of each other. 11. Facade construction in accordance with one of the patent claims 1,3, 4, 6 -10, characterized in that the horizontal flange (15) is equipped with a horizontal perforation or similar, which extends over the length of the second adjustment area (TSA) in the direction substantially perpendicular to the longitudinal direction of the coupling part (8), for attaching the lower profile part (4) to the coupling part (8). 12. Facade construction in accordance with one of patent claims 1-5, characterized in that the connecting part (8) comprises: - the protective enclosure (9) which extends inwards from the support structure (1) of the facade construction (JR), - the fastening element (10), extending downwardly from the outer edge of the protective enclosure (9), which is connected to the inner edge of the support structure (1), and arranged to receive fasteners (PK) for attaching the protective enclosure (9) to the inner the surface of the support structure (1), - the first adjustment means (IS) which is placed on the underside of the fastening element (10), to extend downward on the side of the inner edge of the support structure (1), and - the second adjustment means (2S) which is located on the side of the lower surface of the protective casing (9), to extend towards the inner part of the facade structure (JR). 13. Facade construction in accordance with one of patent claims 1, 2, 5 or 12, characterized in that the fastening element (10) is equipped with a perforation or the like directly over the length of the horizontal adjustment area, for fastening the coupling part (8) at a predetermined height to the inner surface of the support structure (1) by means of fasteners 13. 14. Facade construction in accordance with one of patent claims 1, 5, 12 or 13, characterized in that the first adjusting means (1S) is a flange (10c) which extends downwards from the lower edge of the fastening element (10) and preferably has the length of the facade construction (JR). 15. Facade construction in accordance with one of patent claims 1, 6, 12, 13 or 14, characterized in that the second adjusting means (2S) comprises a horizontal flange (15) which is placed under the protective casing (9) of the connecting part (8) , which extends towards the inner part of the facade construction (JR) on the side of the inner surface of the support structure (1) of the facade construction (JR), preferably has the length of the connecting part (8), and where the lower profile part (4) to its upper surface is arranged to be fixed by means of fasteners (PK), where the horizontal flange (15) is preferably fixed to the inner surface of the flange forming the fastening element (10) of the coupling part (8). 16. Facade construction in accordance with one of the patent claims 1, 5, 12, 13, 14, or 15, characterized in that the horizontal flange (15) which forms the second adjustment means (2S) is stair-shaped in the vertical direction, where the outer edge part ( 15a) placed on the lower level is equipped with a perforation or the like, with the length of the horizontal adjustment area and extending in a direction substantially perpendicular to the longitudinal direction of the coupling part (8), to attach the lower profile part (4) to the coupling part ( 8). 17. Facade construction in accordance with one of patent claims 1, 5 or 12 -16, characterized in that the upper part of the lower profile part (4) is equipped with an outwardly directed protective flange (16) which is arranged, in the installed position of the facade construction (JR), to be placed with the inner edge of the protective casing (9) of the coupling part (8) on top of each other. 18. Facade construction in accordance with patent claim 1, characterized in that the mounting part (2) comprises: - a recess part (2a) which essentially has the length of the cover plate construction (3) or a part thereof and where the edge (3') of the cover plate is arranged to be placed in a locked manner, and - a fixing flange part (2b), which protrudes in a direction opposite to the direction of the opening of the recess part (2a), located on the other side of the mounting part (2), where - the fixing flange part (2b) is provided with a perforation or the like, for attaching the cover plate structure (3) and the mounting part (2) to the support structure (1) with fasteners (PK). 19. Facade construction in accordance with patent claim 18, characterized in that the third adjusting means (3S) is provided in connection with the recessed part (2a) and/or the attaching flange part (2b) of the mounting part (2). 20. Facade construction in accordance with patent claim 18 or 19, characterized in that the outer edge of the attaching flange part (2b) comprises a tongue part (2d) which, when the attaching flange part (2b) is installed in connection with the support structure (1) is in a horizontal distance from the surface of the support structure (1), and is located at the first adjustment means (IS) or part of the same. 21. Facade construction in accordance with patent claim 1, characterized in that the fourth adjusting means (4S) is the bottom surface of the lower profile part (4) supported to the horizontal flange (15) of the connecting part (8) which forms the second adjusting means (2S). 22. Facade construction in accordance with patent claim 10 or 17, characterized in that the protective flange (16) comprises a downward-directed nose part (17) placed on top of the protective casing (9) of the connecting part (8), and that the inner edge of the protective casing (9) of the coupling part (8) is equipped with an upwardly directed nose part (18) under the protective flange (16).