• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    An adjusting piece (2; 22) for adjusting vertical straightness or position when mounting and fixing structures similar to a railing, such as the glass railings (1), which extend vertically and which can be fixed in the region of its lower edge, which is adjusted associated with an attachment point for the rail structure, between the rail structure and a mounting surface (3) thereof, said adjusting piece (2; 22) having two portions (7, 8; 27, 28) that are inclined relative to each other, a space (9; 29) between these portions for locking said relative position of inclined parts relative to each other by means of a curing mass, and a channel (10; 30) from the outer surface of the adjusting piece to said space for feeding the curing mass into said space. .
    公开号:FI20185004A1
    申请号:FI20185004
    申请日:2018-01-02
    公开日:2019-07-03
    发明作者:Jouko Rahikka
    申请人:Oy Steelpro Ltd;
    IPC主号:
    专利说明:

    The invention relates to an adjusting piece used for mounting and securing vertical structures extending from the lower edge area, such as glass railings, by means of which the vertical straightness of the railing structure in question can be adjusted during installation.
    The glass railings typically comprise a base portion used to secure the railing, a glass railing portion to be attached to the base portion, and a armrest typically attached to the top edge 10 or the top edge of the glass railing.
    Adjusting the vertical straightness of the glass railing portion of known glass railings is problematic. The position of the base of the glass railing very much determines the vertical position of the glass railing and its straightness, and the vertical or horizontal straightness of the fixing surfaces of the building used for fixing the base part can vary considerably. In order to correct the position of the base, various filler plates are usually used between the attachment surface of the building and the base of the glass railing to ensure the straightness of the base. However, the use of these inserts is often difficult and slows down the installation of the glass railing.
    One known solution for adjusting the vertical straightness of the glass railing portion of the glass railing is to support the lower edge of the glass railing portion to the bottom of the base interior and to provide vertically displaceable support members on either side of the glass railing portion. These brackets are moved vertically on each side of the glass handrail portion by means of screws on the upper surface of the base. By moving the support members of the base member vertically apart from one another, the glass handrail portion can be tilted relative to the base member, whereby the straightness of the glass handrail portion can be corrected after the glass railing has been installed.
    U.S. Patent Application Publication No. 2001025953 A1 discloses a glass railing structure comprising a fitting base portion, a glass fence portion mounted on a base portion, a wedge effect mounting portion and a seating portion of a base portion engaging a wedge effect between a base wall interior to adjust the vertical portion of the glass handrail relative to the base.
    20185004 prh 02 -01- 2018
    However, such adjustment of the vertical straightness of the glass railing portion of the glass railing through the base portion or base portion is a time-consuming process and may be difficult depending on the solution used due to possible adjustment on each side of the railing.
    An alternative way of adjusting the glass handrail structures is to use a spacer placed under and / or attached to the base of the glass handrail to adjust the straightness of the base so that the position of the glass handrail relative to the base need not be individually adjusted. One such solution is known from the patent application EP 2 942 450 A1. However, attaching and adjusting such known spacers requires an additional step of their own before installing and securing the glass railing itself.
    The present invention provides a simple adjustment of a glass railing structure attached to the lower edge area, or a similar railing structure requiring a vertical straightness, which can be implemented in a cost effective manner without the substantial lengthening of the time required for installation and fastening. The solution according to the invention is also advantageously capable of adjusting the vertical straightness or position of handrail structures which do not themselves have the vertical straightness or position adjustment of the vertical extending section.
    The adjusting member according to the invention for adjusting the vertical straightness or position of the vertical and longitudinal and lower barrier structures, such as glass railings, during installation and fastening, which is placed in relation to the anchorage structure , a space formed between these portions for locking the mutual position of said mutually inclined portions with a curable mass, and for feeding a curable mass of a channel extending from the outer surface of the adjusting member to said space.
    With such an adjusting piece, the vertical straightness of the handrail structure can easily be adjusted during installation, and the attachable handrail structure does not require separate vertical adjustment of the inclination of the handrail.
    20185004 prh 02 -01- 2018
    Vertical straightness or position, as used herein, means the substantially perpendicular or vertical position of the railing structure transverse to and perpendicular to the longitudinal direction of the handrail structure relative to a substantially horizontal plane, such as typically the floor level of a building. Adjusting the vertical straightness or position in this context thus means tilting the handrail structure and its vertically extending portion or portions in a plane substantially perpendicular to the longitudinal direction of the handrail structure.
    In one embodiment of the invention, one of said two tiltable portions of the adjusting member comprises a surface to be mounted against a surface of a railing and an other surface to be mounted against a surface of a building; the surface to be set. In this way, the locking mass which produces the lu15 fitting can advantageously be fed between the parts of the adjusting member when the railing structure to be mounted is installed and its vertical straightness is adjusted.
    In one embodiment of the invention, the facing surfaces of the two tiltable portions of the adjusting member are curved to provide the tilt of these portions 20. In this embodiment, the radius of curvature of the surfaces facing each other of said parts is preferably 60 to 80 mm. Further, there are preferably two opposing curved surfaces of the members in the adjusting body, the two opposing curved surfaces being disposed in the peripheral regions of the adjusting member, and having a space for curable mass between said curved surfaces.
    In one embodiment of the invention, the adjusting member comprises a hole for attaching a handrail structure extending through each of the reciprocally inclined portions. This allows the bolt or other fastening device for the handrail structure to be passed through the adjusting piece.
    In one embodiment of the invention, the two reciprocally tilting portions of the adjusting member are formed as extruded aluminum profiles, and the transverse ends of these aluminum profiles are closed by plate-like pieces to form a sealed space between the said parts.
    20185004 prh 02 -01- 2018
    Alternatively, the two reciprocally tilting portions of the adjusting member may be formed by casting aluminum or stainless steel.
    In one embodiment of the invention, the two tiltable portions of the adjusting body are tilted to each other.
    More specifically, the features of the adjusting member according to the invention are set forth in claim 1. The dependent claims disclose advantageous features and embodiments of the attachment member according to the invention.
    The invention will now be further illustrated by way of example with reference to the accompanying drawings, in which Fig. 1 schematically illustrates an embodiment of a handrail secured by the adjusting elements according to the invention; Figs. and 4B schematically illustrate two different ways of attaching a handrail structure with an adjusting member according to the invention.
    Figure 1 schematically shows a handrail structure which in the straightened form of the figure is a slack handrail structure 1 secured at its lower edge by fastening means passing through the adjusting members 20 according to the invention to a suitable surface 3 of the building.
    The glass handrail structure 1 typically consists of a glass handrail portion 4 as shown in Figure 1, a glass handrail portion 5 mounted and attached to the base portion, and a handrail 6 attached to the upper portion of the glass handrail portion.
    When fitting the glass railing structure 1 shown in Figure 1, it is necessary to adjust the railing structure vertically, since the horizontal straightness of its attachment surface 3 is often not sufficient to guarantee the straightness of the glass railing structure extending over its entire longitudinal direction.
    With respect to the embodiment shown in Figure 1, it is to be noted that the gap created by the thickness of the adjusting bodies 2 under the base 4 of the base 1 of the glass railing30 is typically covered by a separate mold or similar cover solution to prevent the adjusting bodies from being visible.
    Further, with respect to the embodiment shown in Fig. 1, it is to be noted that the adjusting piece 2 can also be used in connection with the side surface of the base 4 of the glass railing structure 1 for fixing the glass railing structure from its lower area to a vertical building surface.
    Figures 2A-2D schematically illustrate an adjusting member 2 according to the invention and its structure. Fig. 2A shows the adjusting member 2 from above, Fig. 2B shows the adjusting member from the side, Fig. 2C shows the adjusting member 7 and 8 from the side, and Fig. 2D shows the adjusting member parts 7 and 8 in the maximum adjusting position.
    2A and 2B the embodiment of the adjusting member 2 according to the invention consists of an upper part 7, a lower part 8, a space 9, a channel 10, end plates 11 and 11 ', 15 end plate fixing screws 12 and 12', an upper part through hole 13 and a lower part through hole 14 shows the longitudinal direction of the adjustable handrail structure 2, with respect to which the perpendicular structure is inclined from the lower edge of the handrail structure.
    20185004 prh 02 -01- 2018
    The upper surface 7 of the adjusting body 2 is positioned against a suitable surface of either the lower surface or the side surface of the lower region 20 of the handrail structure. The underside of the lower part 8 of the adjusting piece is positioned against a suitable mounting surface of the building.
    A space 9 is formed between the upper part 7 and the lower part 8, the end portions of which are enclosed by end plates 11 and 11 'which are fastened to the lower part 8 by screws 12 and 12' fixing the end plates. In the space 9, a channel 10 extends from the outer edge of the adjusting body 2, the channel being formed in this embodiment by a series of grooves formed on both the upper part 7 and the lower part. Through this channel 10, in the final stage of attachment and vertical adjustment of the handrail structure, a curable mass can be introduced into the space 9, after which the mass of the upper part 7 and the lower part 8 are locked relative to each other.
    A through hole 13 is formed in the middle of the upper part 7 of the adjusting piece 2 and a corresponding hole 14 is formed in the lower part 8 through a suitable fixing device for the railing, such as a fastening bolt extending from the lower part of the railing into the building.
    20185004 prh 02 -01- 2018
    Figures 2C and 2D show the upper part 7 and the lower part 8 of the adjusting piece 2, as well as changing the mutual position of these parts.
    The upper part 7 and the lower part 8 are in contact with each other through curved surfaces 15, 15 'along which the upper part 7 can be inclined relative to the lower part 8.
    Figures 2A to 2D embodiment the control body length of the arrow 2 of Figure 2A in the direction indicated approx. 52 mm, ignoring the mounting screws 12 and 12 'positions, the adjusting piece has a width of approx. 80 mm, thickness approx. 11 mm in the situation according to Figure 2B. The curved surfaces 15 and 15 'of the embodiment have a radius of curvature R of about 60 mm, whereby the maximum inclination angle A between the lower surface of the lower part 8 and the upper surface of the upper part 7 is about 2.5 ° in its direction. At a typical height of the handrail structure of about 1 m, a displacement of about 4 cm in its direction at the top of the handrail structure is obtained.
    Figures 3A-3D schematically illustrate an alternative embodiment of the adjusting member according to the invention. Fig. 3A shows the adjusting body 22 on top, Fig. 3B shows the adjusting body on its other side end, Fig. 3C shows the lower part 28 of the adjusting body and Fig. 3D shows the upper part 27 of adjusting body.
    Unlike the embodiment of Figures 2A-2D, in the embodiment of Figures 3A-3D the lower part 28 of the adjusting member is formed by casting, whereby it replaces the lower part 8, the end plates 11, 11 'and the end plate fixing screws 12, 12'.
    In the embodiment of Figures 3A-3D, the upper surface 27 of the adjusting member 22 is positioned against a suitable surface, either the lower surface or the side surface 25, of the lower edge of the handrail structure. The underside of the lower part 28 of the adjusting member is placed against a suitable mounting surface of the building.
    The upper part 27 and the lower part 28 of the adjusting body 22 are formed so that a space 29 is formed therebetween. The space 30 extends from the side end face of the adjusting body 22 to the grooves 30 formed in the upper part 27 and the lower part 28. Through this channel 30, in the final stage of attachment and vertical adjustment of the handrail structure, space 29 is substantially filled with a fully cured mass which, after curing, is locked relative to one another between the upper part 27 and the lower part. A control body extends into space 29
    20185004 prh 02 -01-2018 22 also has a smaller channel 31, by means of which the substantial filling of the space 29 with the curable mass can be verified.
    A through hole 23 is formed in the center 27 of the upper portion 27 of the adjusting piece and a through hole 24 is formed at the corresponding position 28 in the lower part 28 through which a suitable barrier structure fastening device, such as a fastening bolt, extends from the lower part of the barrier structure.
    The upper portion 27 and the lower portion 28 of the adjusting member 22 are in contact with one another through curved surfaces 25, 25 'along which the upper portion 27 may be inclined relative to the lower portion 28. In addition, the upper portion 27 is secured to the lower portion 28 by suitable pin and at the corresponding position through elongated and curved openings 33 in the side surfaces of the upper part 27. The elongated and curved openings 33 of the upper portion 27 allow the upper portion to be tilted relative to the lower portion 28.
    3A-3D, the width of the adjusting member 22, i.e. its dimension in the cross-sectional plane of the attachable railing structure, is about 80 mm. The curved surfaces 25 and 25 'of the embodiment have a radius of curvature of about 60 mm.
    Figures 4A and 4B schematically illustrate two different ways of attaching a handrail structure with an adjusting member according to the invention.
    Figures 4A and 4B show a handrail structure, in this case a glass handrail structure 1, which is secured to a suitable building fastening surface 3 through the base part 4 of the glass handrail structure through the adjusting body 2, 22 according to the invention.
    4A, the adjusting body 2, 22 is disposed between the lower surface of the base member and the substantially horizontal anchorage surface 3 of the building in the region of the anchorage point of the glass railing structure. Preferably, the width of the adjusting body 2, 22 used in this bottom attachment, i.e. its dimension in the cross-sectional plane of the glass rail structure shown in the figure, is approximately 60 mm, whereby it is completely below the base part 4.
    4B, the adjusting member 2, 22 is disposed between the lateral surface of the base member and the substantially vertical anchorage surface 3 of the building in the region of the attachment point of the glass railing structure. The width of the adjusting member 2, 22 used in this lateral attachment, i.e. its dimension in the cross-sectional plane of the glass handrail structure shown in the figure, is preferably about 80 mm.
    Although the invention has been illustrated in the embodiments of the figures in the attachment of the glass railing structure and in the adjustment of their vertical straightness, it is correspondingly suitable for the fastening and vertical straightening of other types of railing structures as well.
    With respect to the embodiment shown in the drawings and described above, it should be noted that it is not intended to limit the invention in any way. The person skilled in the art will be able to modify the presented embodiment within the scope of the obvious variation as defined in the appended claims.
    权利要求:
    Claims (9)
    [1]
    1. An adjusting piece (2; 22) for adjusting a vertical straightness or position during the installation and attachment of vertical barrier-like arched structures, such as glass railings (1), which can be attached at the lower edge,
    5, the adjustment piece (2; 22) having two tiltable portions (7, 8; 27, 28), a space formed between these portions (7, 8; 27, 28). 9; 29) for locking the mutual position of said mutually inclined portions with a curable mass, and a regulating body 10 for supplying a curable mass of a passage (10; 30) extending from said outer surface to said space.
    [2]
    An adjusting piece (2; 22) according to claim 1, wherein one of said two tilting portions (7, 8; 27, 28) of the adjusting piece comprises a surface to be mounted against the surface of the railing structure (1) to be mounted.
    15 and another (8; 28) surface to be placed against the building surface (3), wherein the outer surface of the adjusting body from which said channel (10; 30) extends differs from the surface to be placed against the surface of the railing
    [3]
    An adjusting body (2; 22) according to claim 1 or 2, wherein the adjusting surfaces (15, 15 '; 25, 25') of the two tilting portions (7, 8; 27, 28) of one another are curved by these portions. to achieve tilt.
    [4]
    Adjusting piece (2; 22) according to claim 3, wherein the radial radii of curvature of the faces (15, 15 '; 25, 25') of the parts (7, 8; 27, 28) are 60-80
    25 mm.
    [5]
    The adjusting piece (2; 22) according to claim 3 or 4, wherein the adjusting piece (2, 22 ', 25, 25') of the parts (7, 8; 27, 28) have two, two opposing curved surfaces (15, 15 '; 25, 25'). located on the periphery of the adjusting member, and between said curved surfaces said space (9; 29)
    30 wettable masses.
    [6]
    An adjusting member (2; 22) according to any one of claims 1 to 5, comprising each of the reciprocating members (2).
    [7]
    7,
    [8]
    8; 27, 28) for mounting means for a railing structure (1) to be fastened through a hole (13, 14; 23, 24) extending through it.
    Adjusting piece (2) according to one of Claims 1 to 6, in which the two reciprocally inclined portions (7, 8) are formed as extruded aluminum profiles, and the transverse ends of these aluminum profiles are closed by plate-like pieces (11, 11 '). 9) for forming a curable mass between said parts.
    Adjusting piece (22) according to one of Claims 1 to 6, the two tilting parts (27, 28) of which are formed by casting aluminum or stainless steel.
    [9]
    Adjusting piece (22) according to one of Claims 1 to 8, in which said two tilting parts (27, 28) are tilted to one another.
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    同族专利:
    公开号 | 公开日
    EP3735501A1|2020-11-11|
    FI128270B|2020-02-14|
    US20200347610A1|2020-11-05|
    CA3086814A1|2019-07-11|
    WO2019135025A1|2019-07-11|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US3245181A|1961-08-07|1966-04-12|Lloyd G Stephenson|Anchor plate for posts|
    US8776477B2|2010-03-19|2014-07-15|C.R. Laurence Company, Inc.|Architectural alignment system|
    WO2015047109A1|2013-09-27|2015-04-02|Hardware And Glass Group Pty Limited|Mount for a panel|GB2555169B|2017-07-21|2019-10-23|Pure Vista Ltd|Panel support system and method|
    法律状态:
    2020-02-14| FG| Patent granted|Ref document number: 128270 Country of ref document: FI Kind code of ref document: B |
    2020-03-04| PC| Transfer of assignment of patent|Owner name: OY STEELPRO LTD |
    2020-09-07| PC| Transfer of assignment of patent|Owner name: OY STEELPRO LTD |
    优先权:
    申请号 | 申请日 | 专利标题
    FI20185004A|FI128270B|2018-01-02|2018-01-02|Adjusting piece|FI20185004A| FI128270B|2018-01-02|2018-01-02|Adjusting piece|
    US16/957,560| US20200347610A1|2018-01-02|2018-12-27|Adjustment part|
    CA3086814A| CA3086814A1|2018-01-02|2018-12-27|Adjustment part|
    EP18839679.0A| EP3735501A1|2018-01-02|2018-12-27|Adjustment part|
    PCT/FI2018/050980| WO2019135025A1|2018-01-02|2018-12-27|Adjustment part|
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