Adjustment part

Abstract

An adjustment part for adjusting, in conjunction with installation and fastening, the vertical straightness or position of railing type assemblies, such as glass railings, extending in vertical direction and being fastenable by a bottom edge region, said adjustment part being placed at a fastening point of the railing assembly between the railing assembly and a mounting surface therefor, said adjustment part comprising two mutually inclinable components, a space established between these components for locking a relative position of said mutually inclinable components with a hardening mass, as well as a conduit extending from an external surface of the adjustment part into said space for supplying said space with the hardening mass.

Claims

1. An adjustment part for adjusting, in conjunction with installation and fastening, the vertical straightness or position of railing type assemblies, such as glass railings, extending in vertical direction and being fastenable by a bottom edge region, said adjustment part being placed at a fastening point of the railing assembly between the railing assembly and a mounting surface therefor, and said adjustment part comprising two mutually inclinable components, wherein the adjustment part comprises a space established between said mutually inclinable components, for locking a relative position of said mutually inclinable components with a hardening mass, as well as a conduit extending from an external surface of the adjustment part into said space for supplying said space with the hardening mass.

2. The adjustment part according to claim 1, wherein, with regard to said two mutually inclinable components of said adjustment part, one comprises a surface to be set against the surface of an installable railing assembly and the other a surface to be set against the surface of a building, whereby that external surface of the adjustment part, from which said conduit is extending, is different from said adjustment part's surface to be set against the surface of an installable railing assembly, as well as from said surface thereof to be set against the surface of a building.

3. The adjustment part according to claim 1, wherein surfaces of said adjustment part's two mutually inclinable components to be set against each other are curved for achieving the inclinability of these components.

4. The adjustment part according to claim 3, wherein the surfaces of the components to be set against each other have a radius of curvature which is 60-80 mm.

5. The adjustment part according to claim 3, wherein the number of curved surfaces in the components to be set against each other is two in the adjustment part, said two curved surfaces setting against each other being placed in edge regions of the adjustment part, and said curved surfaces defining said space therebetween for hardening mass.

6. The adjustment part according to claim 1, which comprises a hole extending through each of the mutually inclinable components for a fastening element for the railing assembly to be fastened.

7. The adjustment part according to claim 1, whose two mutually inclinable components are provided as extruded aluminum profiles and the ends of these aluminum profiles, transverse relative to the extruding direction, are closed with plate-like pieces for establishing a space for hardening mass between said components.

8. The adjustment part according to claim 1, whose two mutually inclinable components are produced by casting of aluminum or stainless steel.

9. The adjustment part according to claim 1, wherein said two mutually inclinable components are attached to each other in an inclinable manner.

Description

[0019] The invention will now be described more precisely by way of example with reference to the accompanying figures, in which

[0020] FIG. 1 shows schematically one railing assembly fastened by means of adjustment parts of the invention,

[0021] FIGS. 2A-2D show schematically one embodiment for an adjustment part of the invention,

[0022] FIGS. 3A-3D show schematically one optional embodiment for an adjustment part of the invention, and

[0023] FIGS. 4A and 4B show schematically two different ways of fastening a railing assembly with an adjustment part of the invention.

[0024] FIG. 1 shows schematically a railing assembly, which in the illustrated embodiment is a glass railing assembly 1 fastened by its bottom edge to an appropriate building surface 3 with fastening elements passing through adjustment parts 2 of the invention.

[0025] The glass railing assembly 1 consists typically of a glass railing's base member 4 shown in FIG. 1, a glass panel section 5 placed in and fastened to the base member, as well as a handrail 6 fastened to an upper portion of the glass panel section.

[0026] In the process of installing the glass railing assembly 1 shown in FIG. 1 in its place, it will be necessary to adjust the railing assembly to a straight position in vertical direction, because the horizontal straightness of its mounting surface 3 is often less than sufficient in terms of ensuring the straightness of an entire railing assembly extending in its longitudinal direction.

[0027] With regard to the embodiment shown in FIG. 1, it should be noted that a gap, established between the building surface 3 and the base member's bottom surface by the thickness of the adjustment parts 2 present under a bottom of the railing assembly's 1 base member 4, is typically covered with a separate strip or the like concealment solution in order to make the adjustment parts invisible in the finished glass railing assembly.

[0028] In addition, with regard to the embodiment shown in FIG. 1, it should be noted that the adjustment parts 2 can also be used in connection with a side surface of the glass railing assembly's 1 base member 4 as the glass railing assembly is being fastened by its bottom region to a vertical building surface.

[0029] FIGS. 2A-2D show schematically and in more detail one adjustment part 2 of the invention and its design. FIG. 2A shows the adjustment part 2 in a top view, FIG. 2B shows the adjustment part in a side view, FIG. 2C shows adjustability-providing components 7 and 8 of the adjustment part in a side view, and FIG. 2D shows the adjustment part's components 7 and 8 in a maximal adjustment position in a side view.

[0030] The embodiment for an adjustment part 2 of the invention, shown in FIGS. 2A and 2B, consists of a top component 7, a bottom component 8, a space 9, a conduit 10, end plates 11 and 11, fastening screws 12 and 12 for the end plates, a through-hole 13 in the top component, and a through-hole 14 in the bottom component. An arrow alongside FIG. 2 represents the lengthwise direction of a railing type assembly adjustable with the adjustment part 2, the railing type assembly being tilted by a bottom edge region of the railing type assembly in a plane perpendicular to that lengthwise direction.

[0031] The adjustment part 2 has a top surface of its top component 7 placed against an appropriate surface of the railing type assembly's bottom edge region, either its bottom surface or side surface. The adjustment part has a bottom surface of its bottom component 8 placed against a building's appropriate mounting surface.

[0032] Between the top component 7 and the bottom component 8 is established a space 9, the end regions of said space being closed by end plates 11 and 11 which are fastened to the bottom component 8 with fastening screws 12 and 12 for the end plates. Extending into the space 8 from an outer edge of the adjustment part 2 is a conduit 10, said conduit being established in this embodiment by coinciding grooves formed both in the top component 7 and in the bottom component 8. By way of this conduit 10 there is provided a means of supplying the space 9 with hardening mass at the final stage of fastening and vertically adjusting a railing type assembly, whereby, after the hardening of said mass, the top component 7 and the bottom component 8 will be in a locked position relative to each other.

[0033] The adjustment part 2 is formed with a through-hole 13 in the middle of its top component 7, and the bottom component 8 is formed with a through-hole 14 in the corresponding location. Through these through-holes is inserted an appropriate fastening element for a railing type assembly, such as a fastening bolt, which extends from a bottom part of the railing type assembly through the adjustment part 2 into a structure which defines the building's mounting surface.

[0034] FIGS. 2C and 2D show a top component 7 and a bottom component 8 of the adjustment part 2, as well as changing a relative position of these components.

[0035] The top component 7 and the bottom component 8 are in contact with each other by way of curved surfaces 15, 15, along which the top component 7 can be inclined relative to the bottom component 8.

[0036] In the embodiment of FIGS. 2A-2D, the adjustment part 2 has a length of about 52 mm in the arrow-pointed direction disregarding the heads of fastening screws 12 and 12, the adjustment part has a width of about 80 mm, a thickness of about 11 mm in the condition of FIG. 2B. The embodiment's curved surfaces 15 and 15 have a radius of curvature of about 60 mm, resulting in a maximal angle of inclination A between a bottom surface of the bottom component 8 and a top surface of the top component 7 being about 2.5 either way. With a typical railing assembly height, which is about 1 m, is achieved a shift of about 4 cm either way in the railing assembly's top edge.

[0037] FIGS. 3A-3D illustrate schematically one alternative embodiment for an adjustment part of the invention. FIG. 3A shows an adjustment part 22 in a top view, FIG. 3B shows the adjustment part from one of its lateral ends, FIG. 3C shows a bottom component 28 of the adjustment part, and FIG. 3D shows a top component 27 of the adjustment part. In this embodiment, the adjustment part 22 only consists essentially of the top component 27 and the bottom component 28 which are attached to each other in a swinging manner.

[0038] As opposed to the embodiment of FIGS. 2A-2D, it is in the embodiment of FIGS. 3A-3D that the adjustment part's bottom component 28 is constructed in a single piece by casting, whereby it replaces, as a single piece, the bottom component 8, the end plates 11, 11, as well as the fastening screws 12, 12 for the end plates featured in the embodiment of FIGS. 2a-2D.

[0039] In the embodiment of FIGS. 3A-3D, the adjustment part 22 has a top surface of its top component 27 placed against an appropriate surface in the bottom edge of a railing type assembly, either its bottom surface or side surface. The adjustment part has a bottom surface of its bottom component 28 placed against an appropriate mounting surface of the building.

[0040] The adjustment part 22 has its top component 27 and its bottom component 28 designed so as to establish a space 29 therebetween. Into this space 29 extends from a lateral end surface of the adjustment part 22 a conduit 30, said conduit consisting of grooves formed in the top component 27 and in the bottom component 28. By way of this conduit 30 there is provided a capability of filling the space 29 substantially completely with hardening mass at the final stage of fastening and vertically adjusting a railing type assembly, whereby, after said mass has hardened, the top component 27 and the bottom component 28 will be locked in a relative position with respect to each other. Into the space 29 extends from a lateral end surface of the adjustment part 22 also a smaller conduit 31 by means of which it is possible to confirm that the space 29 is substantially filled with hardening mass.

[0041] The adjustment part 22 is formed with a through-hole 23 in the middle of its top component 27, and the bottom component 28 is formed with a through-hole 24 in the corresponding location. Through these through-holes 23 and 24 is inserted an appropriate fastening element for a railing type assembly, such as a fastening bolt, which extends from a bottom part of the railing type assembly through the adjustment part 22 into a structure which defines the building's mounting surface.

[0042] The adjustment part 22 has its top component 27 and its bottom component 28 in contact with each other via curved surfaces 25, 25, along which the top component can be inclined relative to the bottom component 28. In addition, the top component 27 is attached to the bottom component 28 with appropriate rod type fastening elements (not shown) via holes 32 included in the side surfaces of the bottom component 28 and via elongated and curved slots 33 included in the side surfaces of the top component 27. The elongated and curved slots 33 of the top component 27 allow the top component to be inclinable with respect to the bottom component 28.

[0043] In the embodiment of FIGS. 3A-3D, the width of the adjustment part 22, i.e. its extent in the cross-sectional plane of a railing type assembly to be fastened, is about 80 mm. The embodiment's curved surfaces 25 and 25 have a radius of curvature which is about 60 mm.

[0044] FIGS. 4A and 4B illustrate schematically two different ways of fastening a railing type assembly with an adjustment part of the invention.

[0045] FIGS. 4A and 4B depict a railing type assembly, in this case a glass railing assembly 1, which is fastened to an appropriate mounting surface 3 of the building by way of the glass railing assembly's base member 4 through an adjustment part 2, 22 of the invention.

[0046] In the fastening solution shown in FIG. 4A, the glass railing assembly 1 is fastened by way of a bottom surface of the base member 4 defining its bottom edge, whereby the adjustment part 2, 22 is positioned between the base member's bottom surface and the building's substantially horizontal mounting surface 3 in an attachment point area of the glass railing assembly. The width of an adjustment part 2, 22 to be used in this bottom attachment, i.e. its extent in the glass railing assembly's cross-sectional plane shown in the figure, is preferably about 60 mm, being thereby retained in its entirety under the base member 4.

[0047] In the fastening solution shown in FIG. 4B, the glass railing assembly 1 is fastened by way of a side surface of the base member 4 defining its bottom edge, whereby the adjustment part 2, 22 is positioned between the base member's side surface and the building's substantially vertical mounting surface 3 in an attachment point area of the glass railing assembly. The width of an adjustment part 2, 22 to be used in this side attachment, i.e. its extent in the glass railing assembly's cross-sectional plane shown in the figure, is preferably about 80 mm.

[0048] Although the invention in the illustrated embodiments is described in the fastening of a glass railing assembly and in adjusting the vertical straightness thereof, it is respectively suitable for the fastening and vertical straightness adjustment of other types of railing-like assemblies as well.

[0049] With regard to the embodiment shown in the figures and described above, it should be appreciated that it is by no means intended to limit the invention. A person skilled in the art will be capable of modifying the disclosed embodiment for a variation suitable for him/her within the scope of protection defined by the appended claims.