1. Technical Field
The present invention relates to a modular rail system for suspending sliding doors according to the preamble of the first independent claim. The invention further relates to a sliding door system with a repositionable braking/stopping element.
2. Background Art
Sliding doors are nowadays frequently applied in private homes. The installation of the sliding door is not always simple and straightforward. Depending on the circumstances, the rail system needs to be fixed to a horizontal wall portion, a vertical wall portion or a ceiling, or at a distance from either. Often, there are obstructions in the vicinity which one has to take into account, such as light switches, electric wall sockets, floor plinths and the like, since the sliding door has to be able to safely pass these obstructions. Furthermore, in the case multiple sliding doors are to be installed which slide alongside each other, one has to adapt the distance between the adjacent rails to the thickness of the door, taking into account door handles or other protruding elements on the door panel.
Another problem with conventional sliding doors is that they are often installed such, that they “disappear” into a narrow gap, for example between two wall parts, between a wall and a closet, etc. This renders the mechanisms which are added onto the rail system for slowing down movement of the door or determining its extreme position inaccessible for later adjustments or repairs.
It is a first aim of the present invention to provide a modular rail system for suspending sliding doors which is easily adaptable to the circumstances.
It is a second aim of the present invention to provide a sliding door system in which access to braking/stopping elements for later adjustments or repairs is facilitated.
These and other aims of the invention are achieved with the modular rail system and the sliding door system of the independent claims.
As used herein, with “sliding door” is meant any type of door, wall panel, window or the like which is provided for being opened by a sideways movement.
As used herein, with “height direction” is meant the direction which is normally vertical in use.
As used herein, with “length direction” is meant the direction which is normally horizontal in use and corresponds to the longest horizontal dimension of the sliding door. This is also the direction in which the sliding door is moveable.
As used herein, with “cross direction” is meant the direction which is normally horizontal in use and corresponds to the shortest horizontal dimension of the sliding door. This is also the direction perpendicular to the direction in which the sliding door is moveable.
In a first aspect, the invention provides a modular rail system for suspending sliding doors, comprising at least one rail profile comprising:
This combination of rail profiles and spacer elements according to the invention can highly facilitate the installation of the rail system. The installer can simply select the spacer element with the appropriate dimensions, taking into account the obstructions which are encountered, and insert it into the appropriate recess for adapting the rail system to the specific circumstances. For example, if obstructions need to be overcome on the side of the vertical wall, to which the rail is to be mounted, the installer can simply add spacer element(s) by insertion in the recess(es) on the first lateral side. If a given distance needs to be provided between two adjacent rails, the installer can simply add an appropriate spacer element in between them. Since the recesses on the rail profiles are the same, the same spacer elements can be used on both sides.
Furthermore, since the rail profile has the first flat portion on the top side and the second flat portion on the first lateral side, it can be fixed to a horizontal wall portion or a ceiling, or to a vertical wall portion, or both. This can also be a simple operation, for example by applying screws in pre-drilled holes in the flat portions, or in another way known to the person skilled in the art.
The open second lateral side of the profile has the advantage that once the rail profile is installed, the sliding door can be placed by passing its suspension wheels through the opening on the second lateral side. This is easier than in the case of rail systems with closed lateral sides, where the suspension wheels can only be brought in place via the openings at the extremities of the rails. The open second lateral side further has the advantage that the interior of the rail is easily accessible to the installer, for example for operating fixing screws or adding other elements, such as for example a braking/stopping element or other.
In preferred embodiments, the spacer elements are simply oblong slats, for example aluminium slats, the thickness of which corresponds to the height of the recesses. Preferably, a plurality of these slats with stepwise varying widths are provided, so the installer can simply select the slat according to the space which needs to be created.
In preferred embodiments, one side of each recess in the rail profile is formed by a wing which is shaped for exerting a clamping force on the inserted spacer element. This means that the wing is slightly resilient, for example as a result of a reduced wall thickness at its base where it is connected to the rest of the profile, so that it can slightly bend away upon insertion of one of the spacer elements and that after insertion the wing holds the spacer element clamped firmly in position. This construction has the advantage that no additional means are required for holding the spacer elements in the recesses.
Preferably each rail profile comprises a first recess at a first corner formed by the top side and the first lateral side, a second recess at a second corner formed by the top side and the second lateral side, and a third recess at a third corner formed by the first lateral side and the bottom side. So in case the spacer elements are oblong slats, this means that two of these are insertable on the first lateral side, namely one at the top and one at the bottom, and one on the second lateral side. The third recess at the bottom has the advantage that by insertion of a spacer slat in this recess, the space behind the rail profile is closed off and the whole construction is easily given a finished look.
In preferred embodiments, the rail profile is provided with grooves for slidably holding a repositionable braking/stopping element, which defining an extreme position of the sliding door. This braking/stopping element can be easily added after the rail is installed via the open second lateral side.
In a second aspect, which may or may not be combined with the first aspect, the invention provides a sliding door system comprising:
Preferably, the braking/stopping element further comprises a brake for slowing down movement of the sliding door before it hits the stop. This can avoid undesirable damage or wear to the stop or the door and can increase the life of the system.
In a first embodiment the braking/stopping element comprises a bent metal wire which is shaped for being slidably mounted in corresponding grooves in the rail system, the bent metal wire having a first part forming the stop, a second part forming the brake and a third part holding the releasable fixing element. This is a simply and thus cheap construction for the braking/stopping element.
In a second, alternative embodiment, the braking/stopping element comprises a central part holding the stop and the fixing element and comprising brakes in the form of leaf springs on opposite sides. In this embodiment, the braking/stopping element works in both directions for defining the extreme positions of the sliding door and slowing it down before reaching these. In this embodiment, the stop is preferably adjustably mounted on the central part for fine-tuning the extreme positions of the sliding door.
In preferred embodiments of the sliding door system, the suspension wheels are formed by inline wheels on a suspension block to which the sliding door is fixed. This suspension block is provided with positioning means for fine-tuning the position of the inline wheels with respect to the sliding door, such that all inline wheels remain in contact with the rail system. This embodiment has the advantage that the sliding door is carried by multiple inline wheels, which highly enhances the mobility of the sliding door and reduces the force which needs to be applied for opening/closing the door.
The positioning means preferably enable position adjustments both in height and length direction of the sliding door. In this way, the position of the sliding door in the door opening and also its extreme positions on the rail system can be fine-tuned after installation.
The positioning means preferably further comprise a compression spring extending in length direction of the sliding door between a first member on which the inline wheels are mounted and a second member to which the sliding door is fixed. This compression spring functions as a positioning aid which counteracts the tendency of the suspension block to tilt downwards as a result of the weight of the sliding door as long as the positioning means are loosened during the installation stage. So this compression spring can help to make sure that all the inline wheels will in the end be in contact with the rail system and suspend the sliding door.
In a preferred embodiment, at least one of the inline wheels comprises a protrusion for contacting the brake and/or the stop of the braking/stopping element. This is preferably the front wheel, i.e. the wheel closest to the edge of the sliding door, but one of the other wheels is also possible. The wheels may also be interchangeable to enable a coarse adjustment of the respective extreme position of the door.
In an alternative embodiment, the suspension block comprises a plurality of selectively extendable/retractable protrusions, spaced apart from each other in length direction of the sliding door, for contacting the stop of the braking/stopping element. This embodiment also enables a coarse adjustment of the extreme position of the door by selecting which of the protrusions is extended.
In preferred embodiments of the sliding door system according to the invention, the suspension block further comprises a tilt prevention means for preventing tilting of the sliding door upon being pushed by a user. This tilt prevention means preferably comprises a removable screw having a wide head portion which protrudes upwardly and is located in close proximity of the bottom side of the rail system.
In preferred embodiments of the sliding door system according to the invention, the suspension block is constructed such that in cross direction of the sliding door the inline wheels are located substantially in the middle of the sliding door, i.e. substantially within the plane of the centre of gravity of the sliding door.
In preferred embodiments of the sliding door system according to the invention, the sliding door comprises a wobble prevention means at the bottom for preventing wobbling of the sliding door. The wobble prevention means comprises a resiliently mounted running wheel, which runs on a guide rail at the bottom of the door or simply on the floor.
The invention will be further elucidated by means of the following description and the appended figures.
The present invention will be described with respect to particular embodiments and with reference to certain drawings but the invention is not limited thereto but only by the claims. The drawings described are only schematic and are non-limiting. In the drawings, the size of some of the elements may be exaggerated and not drawn on scale for illustrative purposes. The dimensions and the relative dimensions do not necessarily correspond to actual reductions to practice of the invention.
Furthermore, the terms first, second, third and the like in the description and in the claims, are used for distinguishing between similar elements and not necessarily for describing a sequential or chronological order. The terms are interchangeable under appropriate circumstances and the embodiments of the invention can operate in other sequences than described or illustrated herein.
Moreover, the terms top, bottom, over, under and the like in the description and the claims are used for descriptive purposes and not necessarily for describing relative positions. The terms so used are interchangeable under appropriate circumstances and the embodiments of the invention described herein can operate in other orientations than described or illustrated herein.
The term “comprising”, used in the claims, should not be interpreted as being restricted to the means listed thereafter; it does not exclude other elements or steps. It needs to be interpreted as specifying the presence of the stated features, integers, steps or components as referred to, but does not preclude the presence or addition of one or more other features, integers, steps or components, or groups thereof. Thus, the scope of the expression “a device comprising means A and B” should not be limited to devices consisting only of components A and B. It means that with respect to the present invention, the only relevant components of the device are A and B.
This combination of rail profiles 1, 16, 17 and spacer elements 14, can highly facilitate the installation of the rail system. The installer can simply select the spacer element 14, 15 with the appropriate dimensions, taking into account the obstructions which are encountered on the wall, on the sliding door etc., and insert it into the appropriate recess 11, 12, 13 for adapting the rail system to the specific circumstances. For example, if obstructions need to be overcome on the side of the vertical wall 9, to which the rail is to be mounted, the installer can simply add spacer elements 14, 15 by insertion in the recesses 11, 13 on the first lateral side 7, as shown in
In particular each rail profile comprises a first recess 11 at a first corner formed by the top side 2 and the first lateral side 7, a second recess 12 at a second corner formed by the top side 2 and the second lateral side 10, and a third recess 13 at a third corner formed by the first lateral side 7 and the bottom side 5.
In the embodiment of
In particular,
The fixing of the rail profiles 1, 16, 17 to the walls 4, 9 is preferably a simple operation, for example by applying screws in pre-drilled holes in the flat portions, or in another way known to the person skilled in the art.
The open second lateral side 10 of the profile 1, 16, 17 has the advantage that once the rail profile is installed, the sliding door can be placed by passing its suspension wheels through the opening on the second lateral side. This is easier than in the case of rail systems with closed lateral sides, where the suspension wheels can only be brought in place via the openings at the extremities of the rails. The open second lateral side 10 further has the advantage that the interior of the rail is easily accessible to the installer, for example for operating fixing screws or adding other elements, such as for example a braking/stopping element or other.
In the embodiments shown, the spacer elements 14, 15 are simply oblong slats, for example aluminium slats, the thickness of which corresponds to the height of the recesses 11-13. Preferably, a plurality of these slats with stepwise varying widths are provided, so the installer can simply select the slat according to the space which needs to be created.
As shown in
Some further details of the rail profile 1 are explained with reference to
The rail profile 1 is further provided with grooves 20 for slidably holding a repositionable braking/stopping element, examples of which will be described further on. Such a braking/stopping element can be easily added after the rail is installed via the open second lateral side 10.
A first embodiment of a sliding door system using the above described rail profile 1 will now be described with reference to
As shown in
The braking/stopping element 27 further comprises brakes in the form of leaf springs 33 on both sides for slowing down movement of the sliding door 25 before it hits the stop element 28. This can avoid undesirable damage or wear to the stop element 28 or the door 25 and can increase the life of the system.
So in all, there are multiple provisions in the sliding door system of
A second embodiment of a sliding door system will now be described with reference to
The rail profile 51 is slightly different from that described above, but nonetheless shows the same features, see
The repositionable braking/stopping element 77 of this embodiment of the sliding door system is shown in
The stop 79 defines an extreme position of the sliding door 75, i.e. for determining up to where the door can slide. The fixing element 82 comprises two screws which can be screwed against the rail profile 51 for fixing the position of the braking/stopping element 77. So in this embodiment, the position of the element 77 is adjustable in a continuous manner, whereas in the previous embodiment the position was stepwise adjustable. The fixing element 82 are spaced a predetermined distance from the stop part 79, the distance being selected to be long enough for maintaining user accessibility to the fixing elements 82 while the stop part 79 may be located in a user inaccessible position, for example between two adjacent walls between which the sliding door 75 disappears. This is clearly visible on
The brake 80 is a part of the wire 78 which is arranged for being resiliently compressed against the rail profile 51 by a protrusion 85 on one of the inline suspension wheels 76, in particular the foremost wheel 84. The stop 79 is a vertically extending wire part against which the protrusion 85 of this wheel runs. The operation of these parts will be described in detail below. Note that the brake 80 and the stop 79 are located besides the path of the other inline wheels 76 which do not carry the protrusion 85. As a result, passage of these wheels and also the inline wheels (not shown) at the opposite end of the sliding door can occur unhindered.
The protrusion 85 on the inline wheel 84 can be used in both directions. As shown in
The braking/stopping element 77 shown in
The braking/stopping elements 77, 77′ can be inserted into or removed from the grooves 70 of the rail profile 51 via the extremities of the profile, or via the open lateral side 60. In the latter case, a tool such as a pair of tongs is used for slightly reducing the size of the braking/stopping element 77, 77′, which is possible as a result of the resiliency of the metal wire 78, 78′, so that the element 77, 77′ can snap into the grooves 70 of the profile 51.
As shown in
The suspension block 84 is provided with positioning means for fine-tuning the position of the inline wheels 76, 84 with respect to the sliding door 75. These positioning means have a dual function: on the one hand to ensure that all inline wheels 76, 84 remain in contact with the rail profile 51 and on the other hand to fine-tune the position of the sliding door 75 in the door opening and/or in the extreme positions. The positioning means enable position adjustments both in height and length direction of the sliding door.
The positioning means are carried out as follows. The suspension block 86 comprises a first member 94 on which the suspension wheels 76, 84 are mounted and a second member 93 to which the sliding door is fixed by means of a screw 91. A horizontal screw 89 and a vertical screw 95 fix the two members to each other. In the second member 93, these screws 89, 95 extend through oblong slots, enabling the adjustment in height and length direction and also tilting the members 93, 94 with respect to each other to a given extent. The two members 93, 94 further enclose a compression spring 92 extending in length direction over another screw 90. This compression spring 92 functions as a positioning aid which counteracts the tendency of the first member 94 of the suspension block to tilt downwards as a result of the weight of the sliding door as long as the positioning screws are loosened during the installation stage. So this compression spring 92 can help to make sure that all the inline wheels 76, 84 will in the end be in contact with the rail system 51 and suspend the sliding door 75. The screws 89, 90 and 95 are operable from the side of the sliding door, as shown in
The suspension block 86 further comprises a tilt prevention means for preventing tilting of the sliding door upon being pushed by a user. In particular, this tilt prevention means comprises a removable screw 87 having a wide head portion 88 which protrudes upwardly and is in use located in close proximity of the bottom side of the rail system 51, see
Number | Date | Country | Kind |
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2006/0452 | Sep 2006 | BE | national |
This application is the entry into the United States of PCT Application No. PCT/EP2007059354 filed Sep. 6, 2007 and claims priority from Belgian Application No. 20060452 filed Sep. 6, 2006, the entirety of each of which are hereby incorporated by reference.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2007/059354 | 9/6/2007 | WO | 00 | 12/3/2009 |