EP3095926A1 - Abschlussprofil - Google Patents

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Publication number
EP3095926A1
EP3095926A1 EP16170471.3A EP16170471A EP3095926A1 EP 3095926 A1 EP3095926 A1 EP 3095926A1 EP 16170471 A EP16170471 A EP 16170471A EP 3095926 A1 EP3095926 A1 EP 3095926A1
Authority
EP
European Patent Office
Prior art keywords
wall
connecting means
finishing
finishing profile
slot
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP16170471.3A
Other languages
English (en)
French (fr)
Inventor
Marc Deweerdt
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Tode Management
Original Assignee
Tode Management
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Tode Management filed Critical Tode Management
Publication of EP3095926A1 publication Critical patent/EP3095926A1/de
Withdrawn legal-status Critical Current

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    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04FFINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
    • E04F19/00Other details of constructional parts for finishing work on buildings
    • E04F19/02Borders; Finishing strips, e.g. beadings; Light coves
    • E04F19/06Borders; Finishing strips, e.g. beadings; Light coves specially designed for securing panels or masking the edges of wall- or floor-covering elements
    • E04F19/062Borders; Finishing strips, e.g. beadings; Light coves specially designed for securing panels or masking the edges of wall- or floor-covering elements used between similar elements
    • E04F19/064Borders; Finishing strips, e.g. beadings; Light coves specially designed for securing panels or masking the edges of wall- or floor-covering elements used between similar elements in corners
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04FFINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
    • E04F19/00Other details of constructional parts for finishing work on buildings
    • E04F19/02Borders; Finishing strips, e.g. beadings; Light coves
    • E04F19/06Borders; Finishing strips, e.g. beadings; Light coves specially designed for securing panels or masking the edges of wall- or floor-covering elements
    • E04F19/061Borders; Finishing strips, e.g. beadings; Light coves specially designed for securing panels or masking the edges of wall- or floor-covering elements used to finish off an edge or corner of a wall or floor covering area
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04FFINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
    • E04F19/00Other details of constructional parts for finishing work on buildings
    • E04F19/02Borders; Finishing strips, e.g. beadings; Light coves
    • E04F19/06Borders; Finishing strips, e.g. beadings; Light coves specially designed for securing panels or masking the edges of wall- or floor-covering elements
    • E04F19/062Borders; Finishing strips, e.g. beadings; Light coves specially designed for securing panels or masking the edges of wall- or floor-covering elements used between similar elements
    • E04F19/063Borders; Finishing strips, e.g. beadings; Light coves specially designed for securing panels or masking the edges of wall- or floor-covering elements used between similar elements for simultaneously securing panels having different thicknesses

Definitions

  • the present invention relates to a finishing profile for the finishing of cladding elements installed on a wall, in particular, to such a finishing profile consisting of two elements.
  • the invention further relates to finishing sets for the finishing of internal and external corners of walls clad with elements, in particular, finishing sets consisting of sets of identical profiles.
  • Cladding elements are often used to clad surfaces such as walls, partitions, ceilings or floors, both indoors and outdoors.
  • finishing profiles are used to cover the cladding elements by simple overlapping.
  • the finishing profiles often have a U-shaped section into which the end of a cladding element fits.
  • US 5 444 953 and JP 8 246 656 both have two U-shaped sections, whose openings form a 90° angle, which can cover two cladding elements.
  • finishing profiles are only suitable to be installed in either an internal corner, or an external corner. Accordingly, various types of finishing profiles may be needed to finish the cladding of a complete structure. A person skilled in the art must therefore calculate the required amount of each type of finishing profile in advance.
  • a further step is the development of a finishing profile that can be installed in all corner types.
  • EP 2 549 032 shows a finishing profile that is multifunctional, meaning a person skilled in the art would need only one type of finishing profile.
  • finishing profiles are typically installed first, after which the cladding elements are applied.
  • the ends of the cladding elements come into contact with the U-shaped sections of multiple finishing profiles.
  • the final cladding elements there is often not enough space to allow for a smooth installation.
  • the cladding element covers the entire width of the wall, the installation of the final cladding elements can become problematic.
  • a second disadvantage is that the current systems are designed for one type of cladding element, with one particular thickness. A person skilled in the art is therefore still forced to purchase and combine multiple types of finishing profiles.
  • the object of the present invention is the provision of a finishing profile that meets these disadvantages.
  • a finishing profile for the cladding of a wall comprising a first element for attachment to the wall, the first element comprising a wall portion and first connecting means, the wall portion comprising a wall surface configured to touch the wall and a first inner surface parallel to the wall surface, and the first connecting means being formed on said first inner surface, and a second element for attachment to the first element, the second element comprising a covering portion and second connecting means, the covering portion comprising a second inner surface that is positioned opposite the first inner surface during use and a front surface parallel to the second inner surface, said second connecting means being formed on the second inner surface, characterised in that said first and second connecting means are configured to connect with each other such that, when connected, there is a free space between the wall portion and the covering portion.
  • this finishing profile is that the first element can be mounted before placement of the cladding, and the second element can be mounted after placement of the cladding. As a result, very little space is required at the edges of the cladding for the finishing profile. As a result, little clearance is also needed between the cladding and the finishing profile. Furthermore, because the finishing profile consists of two elements, it can also be used for different cladding thicknesses by connecting the two elements closer or further from each other.
  • the first element comprises a transverse portion which is formed on the first inner surface.
  • This transverse portion provides the first element with extra strength.
  • the first element comprises a connecting portion, which connects the transverse portion with the first connecting means.
  • the first and second connecting means are formed substantially perpendicular to the first inner surface and the second inner surface, respectively.
  • the wall portion of the first element comprises a bend in the direction of the wall surface towards the first inner surface so that a portion of the wall portion, which in use does not form part of the free space, is substantially parallel with the other, non-bent part of the wall portion, the rear side of the bent portion of the wall portion being located substantially in the extension of the first inner surface of the non-bent portion of the wall portion.
  • this bend ensures that multiple first elements may be attached next to each other, wherein the bent and non-bent portions of the wall portions of two profiles attached side by side overlap.
  • the covering portion of the second element comprises a bend in the direction of the front surface towards the second inner surface so that a portion of the covering portion, which in use does not form part of the free space, is substantially parallel with the other non-bent portion of the covering portion, the front side of the bent portion being located substantially in the extension of the second inner surface of the non-bent portion.
  • the bent portion provides space for overlapping by a portion of the second finishing profile, said overlapping portion of the second finishing profile lying in the same plane of the non-bent portion of the covering portion of the first finishing profile.
  • the first and second connecting means are configured such that, when connected, the distance between the wall portion and the covering portion is substantially equal to the thickness of the wall cladding.
  • the free space when connected, has a depth clearance, and the first and second element are configured such that the depth clearance is a predetermined minimum value.
  • the depth clearance is greater than 5 mm.
  • the second element further comprises a side portion at one end of the covering portion which, when connected, is positioned opposite the free space, the side portion, the covering portion and the first and second connecting means being configured such that they form a U-shaped section in use.
  • the first and second connecting means comprise a snap mechanism.
  • the snap mechanism of the first connecting means comprises a slot-shaped section and the snap mechanism of the second connecting means comprises a pin portion, the slot-shaped section being configured to receive the pin portion.
  • This more specific embodiment of the snap mechanism has an advantage that the user can very easily position the first element on the second element before pressing it in.
  • the pin portion comprises at least one hook element, wherein the hook element has a press-open surface and a blocking surface, the press-open surface being a surface rotated at an angle of less than 90° with respect to a side face of the pin portion and the blocking surface being a surface substantially perpendicular to the side face of the pin portion, the slot-shaped section comprising two parallel sides formed to receive the pin portion, each parallel side comprising at least one hook element, wherein the hook element has a press-open surface and a blocking surface, the press-open surface being a surface rotated at an angle of less than 90° with respect to a side face of the slot-shaped section and said blocking surface being a surface substantially perpendicular to the side surface of the slot-shaped section, such that, when connecting the first and the second element, the press-open surfaces slide over each other and, when connected, the blocking surfaces are positioned opposite each other.
  • press-open surfaces allow for an easy connection of the elements and the blocking surfaces allow for the blocking of the second part in the first part so that the connection cannot come loose.
  • the first or second element comprises at least third connecting means, formed on the first or second inner surface, respectively, wherein the first, second and third connecting means are configured such that when the first connecting means are connected to the second connecting means a free space is formed with a first predetermined distance between the wall portion and the covering portion, and that when the third connecting means are connected to the first or second connecting means, a free space is formed with a second predetermined distance between the wall portion and the covering portion.
  • finishing profile can be used very flexibly for claddings of different thicknesses.
  • the third connecting means comprise a slot-shaped section when formed on the first inner surface, and a pin portion when formed on the second inner surface.
  • the distance between the first and second inner surface is determined by an end position of the pin portion in the slot-shaped section.
  • the object of the present invention is achieved by means of a finishing profile for the cladding of a wall comprising a first element for attachment to the wall, the first element comprising a wall portion and first connecting means, the wall portion comprising a wall surface configured to touch the wall and a first inner surface parallel to the wall surface, the first connecting means being formed on said first inner surface, and a second element for attachment to the first element, the second element comprising a covering portion and second connecting means, the covering portion comprising a second inner surface that is positioned opposite the first inner surface during use and a front surface parallel to the second inner surface, said second connecting means being formed on the second inner surface, characterised in that the first and second connecting means are configured such that the first connecting means can connect to the second connecting means in at least two ways, the distance between the first and second inner surface having a first predetermined value in a first connecting position and a second predetermined value in a second connecting position.
  • finishing profile can be used flexibly for claddings of different thicknesses.
  • the first and second connecting means comprise a snap mechanism.
  • the snap mechanism of the first connecting means comprises a slot-shaped section and the snap mechanism of the second connecting means comprises a pin portion, the slot-shaped section being configured to receive the pin portion.
  • This more specific embodiment of the snap mechanism has an advantage that the user can very easily position the first element on the second element before pressing it in.
  • the snap mechanism of the first connecting means comprises at least two slot-shaped sections.
  • This object is achieved by a set of finishing profiles for the finishing of an internal or external corner formed by two walls to be clad, comprising at least two finishing profiles according to one of the embodiments described above.
  • the set of finishing profiles for the finishing of an external corner formed by two walls to be clad comprises at least two finishing profiles wherein the side portion has a length which is less than or equal to the width of the U-shaped section between the side portion and the connected first and second connecting means.
  • the bent portion of the covering portion of the first finishing profile is at least as long as the length of the side portion of the second finishing profile.
  • the side portion and the bent portion of the covering portion are configured such that in use the side portion is positioned against the bent portion.
  • Figures 1 a and 1 b show a cross-sectional view of an embodiment of a first element 50 and a second element 51 of the finishing profile, respectively. Both elements 50, 51 are produced by extrusion. Accordingly, the cross-sectional view is representative of the entire length of the finishing profile.
  • other known techniques can be used to produce the finishing profile, such as, for example, injection moulding, die-casting or 3D printing.
  • the first element 50 in Figure 1 a is intended to be attached to the wall. It comprises a wall portion 1.
  • the wall portion 1 comprises a wall surface 3 which is configured to touch the wall upon installation of the finishing profile and an inner surface 4, which is parallel to the wall surface 3.
  • the wall portion 1 has a bend 42 which divides the wall portion 1 in a non-bent portion 36 and a bent portion 38.
  • the bend 42 is dimensioned such that the rear side of the bent portion 38 lies substantially in the extension of the first inner surface 4 of the non-bent portion 36.
  • the bend 42 may be more or less.
  • a portion 62 is formed at an angle of substantially 45°. This portion 62 serves for the application of a number of walls substantially perpendicular to the wall portion 1, such that slot-shaped sections are formed.
  • a first slot portion 64 is formed at the end of wall portion 1, substantially in the corner formed by wall portion 1 and portion 62.
  • a second slot portion 66 is formed substantially in the centre of portion 62.
  • a third slot portion 68 is formed at the end of portion 62.
  • the slot portions are formed directly on the wall portion 1.
  • the slot portions 64, 66 and portion 62 together form a slot-shaped section 80.
  • This slot-shaped section 80 forms a first position for connecting the second element 51 in Figure 2b with the first element 50, as will be further described in the description in more detail.
  • the slot portions 66, 68 and portion 66 together form a second slot-shaped section 90.
  • This slot-shaped section 90 forms a second position for connecting the second element 52 in Figure 2b .
  • there are more than three slot portions and more than two slot-shaped sections are formed. In such embodiments there are more than two positions to connect the second element 51 to the first element 50.
  • the slot-shaped sections 80, 90 comprise a number of hook elements 32.
  • Each hook element 32 comprises a press-open surface 33 and a blocking surface 34.
  • the press-open surface 33 is rotated at an angle of less than 90° relative to a side face of the slot-shaped sections 80, 90 and is formed at the side of the opening of the slot-shaped sections 80, 90.
  • the blocking surface 34 is substantially perpendicular to a side face of the slot-shaped sections 80, 90 and is facing towards the plane opposite the opening of the slot.
  • the slot-shaped sections 80, 90 form, together with the hook elements, the female portion of a snap mechanism to connect the second element 51 with the first element 50 as described below in more detail. In an alternative embodiment, other forms and techniques are used to form the snap mechanism.
  • the embodiment in Figure 1 a further comprises a transverse portion 5, which is formed substantially perpendicularly to the inner surface 4, and a connecting portion 6, which connects the transverse portion 5 and the first slot portion 64.
  • This hollow bar 25 contributes to the stability of the first element 50 and of the finally-formed finishing profile.
  • the transverse portion 5 lies at an angle to the first inner surface 4.
  • Figure 1 b shows the second element 51 of an embodiment of the finishing profile.
  • the second element 51 of the finishing profile serves to connect with the first element 50.
  • the second element comprises a covering portion 10.
  • the covering portion 10 comprises a front surface 12, and an inner surface 13.
  • the inner surface 13 is parallel to the front surface 12.
  • the covering portion 10 in the embodiment in Figure 1 b further comprises a bend 46.
  • the bend 46 divides the covering portion 10 of the second element 51 into a non-bent portion 56 and a bent portion 58.
  • the bend is dimensioned such that the front side of the bent portion 58 lies substantially in the extension of the inner surface 13 of the non-bent portion 56.
  • the bend 46 may be more or less.
  • a pin portion 11 is formed, which is substantially perpendicular to the covering portion.
  • the pin portion 11 comprises a number of hook elements 72 formed on the side walls of the pin portion 11.
  • Each hook element 72 once again has a press-open surface 73 and a blocking surface 74, such as the hook elements 32 on the slot portions of the first element 50.
  • the pin portion 11 will be used to connect the second element 51 with the first element 50.
  • the pin portion 11 is formed at an angle to the second inner surface 13.
  • a side portion 14 is formed.
  • This side portion 14 is substantially perpendicular to the covering portion 10.
  • the side portion 14 and the pin portion 11 are substantially parallel to each other on the covering portion 10.
  • Figures 2a and 2b illustrate, with regard to the finishing profile in the embodiment as described in Figures 1a and 1b , two possible connections in order to obtain two configurations of the finishing profile.
  • the second element 51 is connected with the first element 50 by securing the pin portion 11 in the first slot-shaped section 80.
  • a space 52 is formed between the wall portion 1 and the covering portion 10 having a width 84 between the first inner surface 4 and the second inner surface 13.
  • this space 52 serves to fit the end parts of wall panels into, such that these end parts are no longer visible after installation. Due to the depth 88 of this space 52, tolerances when sizing wall panels can be accommodated. A decent depth 88 makes it possible to saw the wall panels quite inaccurately, allowing work to be done much quicker.
  • the second element 51 can be pushed into the first element 50 until the inner surface 13 touches the front side of the connecting portion 6.
  • This structure has an advantage that after connection, both elements 50, 51 connect over a wide area so that a solid and stable finishing profile is obtained.
  • the end of the third slot portion 68 of the first element 50 is in contact with the bend 46 of the covering portion 10 of the second element 51. This also contributes to stability. In alternative embodiments, stability can also be obtained through techniques known in the prior art.
  • first the first element 50 is attached to the wall by means of a connecting technique known in the prior art, such as screws, adhesives, etc.
  • a connecting technique known in the prior art, such as screws, adhesives, etc.
  • the wall surface 3 of the non-bent portion 36 will touch the wall.
  • the wall panels are applied over the entire surface of the wall.
  • the second element 51 is fit onto the first element 50 of the finishing profile. This is especially advantageous when wall panels cover the horizontal or vertical length of a wall in one piece.
  • the second element 51 is connected to the first element 50 by fitting the pin portion 11 into the first slot-shaped section 80.
  • the pin portion 11 and the slot-shaped section 80 form a snap mechanism that will now be described in more detail.
  • the press-open surfaces 33 of at least one hook element 32 at each side face of the slot-shaped section 80 guide the press-open surfaces 73 of at least one hook element 72 of the pin portion 11.
  • the slot portions 64 and 66 are pushed open, so that the pin portion 11 can slide into the slot-shaped section 80.
  • the slot portions 64 and 66 move back to their original positions.
  • the blocking surfaces 74, 34 of a hook element 72 of the pin portion 11 and of a hook element 32 of the slot-shaped section 80 end up positioned opposite each other. Because the blocking surfaces 34, 74 are formed substantially perpendicular to the side faces, once connected, the pin portion 11 is held in the slot-shaped section 80.
  • a blocking surface 74 of the pin portion 11 is then positioned deeper in the slot-shaped section 80 than a blocking surface 34 of a hook element 32 of a side face of the slot-shaped section 80, as a result of which the pin portion 11 can no longer easily be removed from the slot-shaped section 80.
  • the blocking surfaces 34, 74 are formed at an angle relative to the side faces of the slot portions and pin portion, respectively, as a result of which the second element 51 can once again be removed from the first element 50.
  • Figure 2b shows the second configuration for the connection of the first and second elements 50, 51 according to the embodiment in Figures 1 a and 1 b.
  • the second element 51 is connected to the first element 50 by fitting the pin portion 11 into the second slot-shaped section 90. Since the second slot-shaped section 90 is less deep than the first slot-shaped section 80, a larger free space 52 is formed for the wall panels in this configuration. In particular, the width 94 of the free space 52 between the wall portion 1 and the covering portion 10 is greater than the width 84 in the configuration in Figure 2a .
  • a snap mechanism (80, 90, 11) is each time described to connect the first element 50 with the second element 51.
  • other connecting means are used to bring about the connection between the first and second element 50,51, such as a screw connection, adhesive joint, hook connection, gluing, etc. Hybrids of these connection types are also possible.
  • connection positions 80, 90 on the first element 50 and one connection position 11 on the second element 51 there are a plurality of connection positions 80, 90 on the first element 50 and one connection position 11 on the second element 51. It goes without saying that this can also be carried out the other way round, i.e. a plurality of connection positions on the second element 51, and one connection position on the first element 50. In another alternative, both the first and second element 50, 51 have a plurality of connection positions.
  • the embodiment according to Figures 2a and 2b are configured such that a distance 84, 94 is created between the non-bent portion 36 of the wall portion 1 and the non-bent portion 56 of the covering portion 10, which is substantially equal to the thickness of a cladding element.
  • the present invention differs from systems known in the art in that the first and second element may be combined such that predetermined distances can be obtained in the usual thicknesses of claddings.
  • the distance between the non-bent portion 36 of the wall portion 1 and the non-bent portion 56 of the covering portion 10 can be varied by varying the depth of slot-shaped sections or by not fully inserting the pin portion.
  • Figures 3a, 3b , 4a and 4c each illustrate the specific elements of the structure of the finishing profile described above in order to finish an internal or external corner of 2 walls in different configurations.
  • the different configurations are illustrated in Figures 3a to 4b for the embodiment of the finishing profile of Figures 1 a to 2b, but it goes without saying that the same configurations can be obtained with all other embodiments of the finishing profile described above.
  • Figure 3a shows a set of 2 identical finishing profiles in a configuration for the finishing of an internal corner, the second element 51 each time being connected to the first element 50 at the first position 80 of the two possible snap connections corresponding to the smallest width 84 of the opening for wall profiles.
  • the first element 50 of the first finishing profile is placed against the first wall 100.
  • the second element 51 of the first finishing profile is pushed into the first position 80 of the snap connection, so that the finishing profile provides the desired smallest opening 84 for wall profiles.
  • the first element 50' of the second finishing profile is connected with the second element 51' at the first position 80' of the snap-fit connection, so that the second finishing profile also provides the desired smallest opening 84' for wall profiles.
  • the second finishing profile is positioned with the wall surface 3' against the second wall 102 and with the outer face of the side portion 14' against the front side of the bent portion 58 of the covering portion 10 of the first finishing profile.
  • the connection is in the corner between the two finishing profiles, behind the bend 42 of the first finishing profile.
  • the small space 130 that is present between the outer side of the bend 42 of the first finishing profile and the front side of the bent portion 58' of the covering portion 10' of the second finishing profile is useful for the application of an optional silicone finish in the corner.
  • Figure 3b shows a set of 2 identical finishing profiles in a configuration for the finishing of an external corner, the second element 51 each time being connected to the first element 50 in the first position 80 of the two possible snap connections corresponding to the smallest width 84 of the opening for wall profiles.
  • first element 50 of the first finishing profile is placed against a first outer wall 104.
  • second element 51 of the first finishing profile is placed in the first snap connection 80, such that the first finishing profile provides the smallest opening 84 for wall profiles.
  • the first element 50' of the second finishing profile is positioned.
  • the first element 50' can be positioned by placing it against the second outer wall 106 and against the end of the side portion 14 of the first finishing profile. As a result, the position of the first element 50' is fully determined.
  • the second element 51' of the second finishing profile can then be positioned in the first snap connection 80' with the first element 50'.
  • the side portion 14' slides along the front side of the bent portion 58 of the covering portion 10 of the first finishing profile. Because of this, the crucial first part of the final corner is formed by the side portion 14' and the bent portion 58' of the covering portion 10' of the second finishing profile, i.e., by one whole. This always results in a perfect corner.
  • the structure is constructed such that the bent portion 58 of the covering portion 10 of the first finishing profile is located in the corner behind the side portion 14', and the side portion 14 is located behind the bent portion 58' of the covering portion 10'.
  • This double wall in the corner provides extra strength. Due to the structure wherein the side portion 14 is positioned in the U-shaped section 53', tolerances in the assembly, profiles, walls, etc. can be easily accommodated without these becoming visible.
  • the bend 42 in the covering portion ensures that the front side of the side portion 14' of the second finishing profile ends up in the same plane as the front surface 12 of the first finishing profile.
  • Figure 3b also shows that part of the external corner formed by the two walls is not in contact with the finishing profiles at the corner. This is the result of introducing the bend 46, 46' in the first elements 50, 50' of the finishing profile. This makes it possible to accommodate small deviations from a perfect right angle. After all, corners are rarely a perfect right angle.
  • Figure 4a shows a set of 2 identical finishing profiles in a configuration for the finishing of an internal corner, the second element 51 each time being connected to the first element 50 in the second position 90 of the two possible snap connections corresponding to the largest width 94 of the opening for wall profiles.
  • the various steps for the application of the two finishing profiles proceed according to the steps described for Figure 3a , with the difference that in each case the second element 51, 51' is inserted into the second position 90, 90' of the snap connection, instead of the first snap position 80, 80'. This ensures that the resulting finishing profiles in each case have the largest openings 94, 94' for wall profiles.
  • the structure of the finishing profiles in the embodiment in Figure 4a is such that after being attached to the walls, the angle formed by the side portion 14' and the bent portion 58' of the covering portion 10' of the second finishing profile at the end of the bent portion 58 of the covering portion 10 of the first finishing profile is positioned at the side of the bend 42. This allows for a very precise connection in the corner. This also ensures, as with the configuration of Figure 3a , that imperfections due to tolerances are not visible.
  • Figure 4b shows a set of 2 identical finishing profiles in a configuration for the finishing of an external corner, the second element 51 each time being connected to the first element 50 in the second position 90 of the two possible snap connections corresponding to the largest width 94 of the opening for wall profiles.
  • the finishing profile has two positions 80, 90 in order to connect the first and the second element with each other.
  • the second element 51 of the first finishing profile is a distance 96 farther away from the first outer wall 104.
  • the front side of the bent portion 58 of the covering portion 10 is further removed from the first outer wall 104 by a distance 96.
  • the inner side of the side portion 14' of the second finishing profile must also shift the same distance 96 in relation to the first outer wall 104.
  • Figures 5a and 5b illustrate the specific elements of the structure of the finishing profile described above in order to form a plurality of multiple finishing profiles on a single wall. This may be useful, for example, in order to accommodate a hole or to be able to build the entire wall out of complete wall panels and not have to work with wall panels in the longitudinal direction.
  • the configurations illustrated in Figures 5a and 5b use the embodiment of the finishing profile as shown in Figures 1 a to 2b. It goes without saying that the same configurations can be obtained with all other embodiments of the finishing profile described above.
  • Figure 5a shows two identical finishing profiles in the configuration in which, in each case, the second element 51 is inserted into the first snap position 80, 80', corresponding to the smallest opening 84' for wall profiles.
  • the bent portion 58' of the covering portion 10' of the second finishing profile slides behind the non-bent portion 56 of the covering portion 10 of the first profile. This makes the width 152 of the whole of the two finishing profiles variable and it possible to choose the width depending on the wall profiles and wall to be finished.
  • Figure 5b The configuration of Figure 5b is similar to that in Figure 5a , with the difference that the second element 51 of the two finishing profiles are now inserted into the second snap position 90, 90'.
  • the width 154 of the whole of the two finishing profiles is also variable.
EP16170471.3A 2015-05-20 2016-05-19 Abschlussprofil Withdrawn EP3095926A1 (de)

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Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR1376369A (fr) * 1963-12-06 1964-10-23 Plastopress Ag Perfectionnements apportés aux plinthes composées de plusieurs éléments
US5444953A (en) 1991-08-09 1995-08-29 Trayco, Inc. Interior corner joint simulating grout line for wall boards simulating tiles embedded in grout
JPH08246656A (ja) 1995-03-13 1996-09-24 Shinsei Kogyo Kk 建築物の外壁におけるサイディング材用出隅材
EP2549032A1 (de) 2011-07-18 2013-01-23 Tode Management BVBA Abschlussverkleidungsprofil für eine zu verkleidende Fläche
US8490350B1 (en) * 2009-12-09 2013-07-23 Troy Anthony Greely Exterior window and door trim

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR1376369A (fr) * 1963-12-06 1964-10-23 Plastopress Ag Perfectionnements apportés aux plinthes composées de plusieurs éléments
US5444953A (en) 1991-08-09 1995-08-29 Trayco, Inc. Interior corner joint simulating grout line for wall boards simulating tiles embedded in grout
JPH08246656A (ja) 1995-03-13 1996-09-24 Shinsei Kogyo Kk 建築物の外壁におけるサイディング材用出隅材
US8490350B1 (en) * 2009-12-09 2013-07-23 Troy Anthony Greely Exterior window and door trim
EP2549032A1 (de) 2011-07-18 2013-01-23 Tode Management BVBA Abschlussverkleidungsprofil für eine zu verkleidende Fläche

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