The present invention relates to a guide system for guiding at least one movably-supported door wing, in particular a folding-sliding-door, relative to a stationary furniture part, the guide system comprising:
Moreover, the invention concerns an item of furniture comprising a stationary furniture part and at least two furniture parts movable relative to the stationary furniture part, and the at least two furniture parts are movable relative to the stationary furniture part by a guide system of the type to be described.
Moreover, the invention relates to a method for mounting a guide system of the type to be described.
AT 521133 B1 discloses a guide system. The receiving device for receiving the running carriage and the carrier displaceable in a depth direction of the furniture carcass are configured as constructional units which are separate from one another and which are configured to be fixed to one another. In a mounted condition, the receiving device and the carrier are movably supported relative to one another in a longitudinal direction of the carrier. Therefore, these components can be decoupled from one another from a load of the respective other component. For mounting the receiving device, the receiving device must be slid in a longitudinal direction onto the carrier which to be pre-mounted to the item of furniture, until a protrusion arranged on the carrier engages into a recess arranged on the receiving device (see FIG. 6a of the AT 521133 B1 reference). The mounting procedure of the receiving device on the carrier can be relatively elaborate, in particular when the carrier has a considerable length and due to a restricted accessibility.
It is an object of the present invention to propose a guide system of the type mentioned in the introductory part, thereby avoiding the above-discussed drawbacks and facilitating the mounting procedure of the receiving device on the carrier.
According to the invention, the at least one carrier includes an interface for fixing the at least one receiving device, the interface being configured such that the at least one receiving device and the at least one carrier can be fixed to one another by sliding in a sliding direction extending parallel to the at least one guide rail.
In other words, the receiving device can be connected to the carrier by a movement in a direction extending transverse, preferably at a right angle, to a longitudinal direction of the carrier, so that the receiving device can be slid or snapped-on, for example from the front, to the carrier pre-mounted to the furniture carcass.
This facilitates the mounting procedure insofar, because the receiving device needs not to be positioned onto the carrier from above, especially because a relatively large ceiling height has to be provided for that purpose. With the invention, on the contrary, the receiving device can be connected to the carrier by a substantially horizontally extending sliding movement, without the need that the carrier must be positioned onto the carrier from above.
For securing the receiving device on the carrier, at least one locking device can be provided. The receiving device can be, preferably releasably, locked to the carrier by the at least one locking device.
The interface can include at least one guide for guiding the at least one receiving device. Preferably, the at least one guide is configured substantially U-shaped in a cross-sectional plane extending perpendicular to a longitudinal extension of the at least one carrier. This allows a precise linear movement of the receiving device when the receiving device, for mounting purposes, is slid onto the carrier in the sliding direction.
The interface can include at least one abutment configured to limit the sliding movement of the at least one receiving device.
According to an embodiment, at least one clearance compensating element can be provided, the at least one clearance compensating element being configured to compensate for a clearance between the at least one receiving device and the at least one carrier in a direction extending parallel to the at least one guide rail. Preferably, the at least one clearance compensating element can be arranged on the at least one receiving device. It can be particularly preferred that at least two clearance compensating elements are arranged on mutually opposing sides of the at least one receiving device.
According to an embodiment, at least one mounting portion for mounting the at least one door wing on the at least one carrier is provided. The at least one mounting portion includes at least one counter-abutment configured to block the at least one receiving device in a direction opposite the sliding direction. Preferably the at least one mounting portion includes at least two hinges for movably supporting the at least one door wing.
The item of furniture according to the invention includes a stationary furniture part and at least two door wings movable relative to the stationary furniture part, and the at least two door wings can be guided relative to the stationary furniture part by a guide system of the described type.
Further details and advantages of the present invention result from the following description of figures.
In the shown transfer position, the carrier 11 is releasably locked to the longitudinal rail 7, and the locking between the longitudinal rail 7 and the carrier 11 can be released by an entry of the running carriage 6 in or onto the carrier 11. The carrier 11 can be in the form of a longitudinal column, the length of which corresponding to at least half of a height of the door wings 3a, 3b. The two door wings 3a, 3b are hingedly connected to one another about a vertically extending axis by at least one hinge fitting 9. The second door wing 3b is displaceably supported along the longitudinal rail 7 via the running carriage 6.
The carrier 11 is configured for movably supporting the door wing 3a, and the door wing 3a can be pivotally supported, for example, via two or more hinges 10 (
The carrier 11 is configured to be releasably locked to the longitudinal rail 7 via a receiving device 15. The receiving device 15 is configured to receive the running carriage 6, and the running carriage 6 is configured to run between the longitudinal rail 7 and the receiving device 15. For this purpose, guide grooves 20, 21 may be arranged in the longitudinal rail 7, the guide grooves 20, 21 being aligned flush with corresponding guide grooves 20a, 21a of the receiving device 15 in the transfer position of the receiving device 15. In this way, the running wheels 6a of the running carriage 6 can be displaced between the longitudinal rail 7 and the receiving device 15 without a disturbing abutting edge.
The receiving device 15 is configured to be movably supported relative to the carrier 11 in the longitudinal extension (L1) of the carrier 11. In this way, the receiving device 15 and the carrier 11 can be displaced relative to one another in the longitudinal extension (L1) of the carrier 11, so that the receiving device 15 can be decoupled from undesired torsional movements or sagging movements of the carrier 11 when a mechanical force is exerted to the carrier 11 (for example caused by a force of the door wing 3a or due to an adjustment device for adjusting a position of the door wing 3a). As a result, the guide grooves 20, 21 of the longitudinal rail 7 and the guide grooves 20a, 21a of the receiving device 15, in the transfer position, always remain aligned flush to one another upon a sagging movement or upon a torsional movement of the carrier 11. As a result, a precise displacement of the running carriage 6 between the longitudinal rail 7 and the receiving device 15 can be guaranteed.
For an improved decoupling between the receiving device 15 and the carrier 11, the receiving device 15 includes at least one supporting roller 16a separate from the guiding device 14 of the carrier 11, and the at least one supporting roller 16a is movably supported along the guide rail 17. It can be preferably provided that the guide rail 17 includes a first running limb 17a and at least one second running limb 17b separate from the first running limb 17a, and the running wheel 14a of the guiding device 14 is movably supported along the first running limb 17a of the guide rail 17, and the at least one supporting roller 16a of the receiving device 15 is movably supported along the second running limb 17b of the guide rail 17.
The carrier 11 and the receiving device 15 are connected in a motionally-coupled manner to one another upon a movement along the guide rail 17 in the depth direction (Z). Preferably, the receiving device 15 and the carrier 11, upon a movement along the guide rail 17 in the depth direction (Z) and upon a movement in a direction opposite the depth direction (Z), are coupled to one another without clearance. For improving the support of the carrier 11, at least one further guide rail 18 may be provided, and a further running wheel 19 of the carrier 11 is displaceably supported along the further guide rail 18.
In the shown embodiment, at least one further guide rail 22 for guiding the receiving device 15 is provided, the at least one further guide rail 22 being arranged in a parallel relationship to the guide rails 17, 18 for guiding the carrier 11. The vertically extending, lengthy carrier 11 is movable along the guide rails 17, 18 by a scissor mechanism 24.
The receiving device 15 can include a plurality of supporting rollers 16a, 16b. The supporting rollers 16a, in a mounted condition of the receiving device 15, are rotatable about a horizontally extending axis and the supporting rollers 16b are rotatable about a vertically extending axis.
Preferably, the receiving device 15 includes at least one guiding portion 32 configured to be moved along the guide 23a of the interface 23 upon sliding the guiding device 15 in the sliding direction (SR).
In the shown embodiment, a mounting portion 27 separate from the carrier 11 is provided. At least two hinges 10 for moving the first door wing 3a are arranged or are configured to be arranged on the mounting portion 27. The mounting portion 27 has a height substantially corresponding to a height of the carrier 11. The mounting portion 27 is configured to be connected to the carrier 11 via at least one fastening device 29.
It can be preferably provided that that in a first step, all hinges 10 provided for moving the door wing 3a are jointly pre-mounted to the mounting portion 27. In a second step, the hinges 10 pre-mounted to the mounting portion 27 are to be connected to the first door wing 3a. In a third step, the mounting portion 27 fixed to the first door wing 3a is to be connected to the carrier 11 via the at least one fastening device 29.
Moreover, the mounting portion 27 fulfils a further function, namely that the mounting portion 27 forms at least one counter-abutment 30 (
The at least one clearance compensating element 31 can be configured as a spring buffer, and the spring buffer can include a compressible or an elastically deformable plastic material. Alternatively, the clearance compensating element 31 can also include a bearing member pressurized by a force storage member. By the bearing member, a clearance between the receiving device 15 and the carrier 11 can be compensated for.
The method for mounting at least one guide system 5 is characterized by the following, preferably in the indicated order chronologically performed, method steps:
According to a further embodiment of the method, it can be provided that the at least one guide system 5 includes at least one locking device 26, and that the at least one receiving device 15 can be, preferably releasably, locked upon sliding onto the at least one carrier 11. It can be preferably provided that the at least one locking device 26 includes at least one pivotable lever arm 26a pressurized by a force of at least one spring element 26d. The at least one lever arm 26a can be pivoted against the force of the at least one spring element 26d upon sliding the at least one receiving device 15 onto the carrier 11.
Further, when carrying out the method, it can be provided that the at least one guide system 5 includes at least one mounting portion 27 for mounting the at least one door wing 3a, 3b to the at least one carrier 11. The at least one mounting portion 27 includes at least one counter-abutment 30 configured to block the at least one receiving device 15 in a direction opposite the sliding direction (SR). The at least one mounting portion 27 can be mounted to the at least one carrier 11 after the sliding operation of at least one receiving device 15. The at least one counter-abutment 30 of the at least one mounting portion 27 blocks the at least one receiving device 15 in a direction opposite the sliding direction (SR). Moreover, when carrying out the method, it can be provided that the at least one guide system 5 includes at least one longitudinal rail 7 for displaceably supporting the at least one running carriage 6. The at least one longitudinal rail 7, in a further method step, preferably before the sliding operation of the at least one receiving device 15, is arranged transversely to the at least one guide rail 17, 18 for guiding the at least one carrier 11.
Number | Date | Country | Kind |
---|---|---|---|
51118/2019 | Dec 2019 | AT | national |
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Number | Date | Country |
---|---|---|
521133 | Nov 2019 | AT |
521139 | Nov 2019 | AT |
521260 | Dec 2019 | AT |
107735542 | Feb 2018 | CN |
108868417 | Nov 2018 | CN |
2 775 079 | Sep 2014 | EP |
2004-116267 | Apr 2004 | JP |
WO2013114730 | Aug 2013 | JP |
2022-507438 | Jan 2022 | JP |
2022-507440 | Jan 2022 | JP |
201723295 | Jul 2017 | TW |
2016081960 | Jun 2016 | WO |
2018204947 | Nov 2018 | WO |
Entry |
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Search Report issued Jul. 6, 2023 in corresponding Chinese Patent Application No. 202080088344.6. |
International Search Report issued Mar. 17, 2021 in International (PCT) Application No. PCT/AT2020/060456. |
Number | Date | Country | |
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20220307307 A1 | Sep 2022 | US |
Number | Date | Country | |
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Parent | PCT/AT2020/060456 | Dec 2020 | US |
Child | 17841008 | US |