The present invention relates to a railing strut for a drawer, the railing strut having at least one end region configured to be connected to a wall element of the drawer. The railing strut, on the at least one end region, includes a locking device having at least one locking element configured to be engaged with the wall element for locking the railing strut. The railing strut includes, in addition to the at least one locking element, at least one movably mounted actuating element, and the at least one locking element, by applying a force to the actuating element, can be moved into a release position in which the locking between the railing strut and the wall element can be released when the railing strut is in a locked condition with the wall element.
Furthermore, the invention concerns an arrangement comprising at least one railing strut of the type to be described, and at least one wall element, in particular a front panel or a rear wall, of a drawer, and the end region of the railing strut can be releasably connected to the wall element by the locking device.
Further, the invention relates to a drawer comprising at least one railing strut of the type to be described, and a method for mounting and demounting a railing strut on a drawer.
Railing struts are used in order to enlarge the receiving volume of a drawer, for reinforcing the drawer, and, in the case of a length-adjustable configuration, also for adjusting an inclination of a drawer front panel. Usually, the railing struts are positioned a predetermined distance above the drawer sidewalls, and the longitudinal direction of the railing strut extends substantially parallel to the longitudinal direction of the drawer sidewall.
An example of a railing strut is shown in EP 2 323 518 B1 to the present applicant. The rear end portion of the railing strut is thereby configured to be connected to the rear wall of the drawer by a snap-connecting element. The snap-connecting element can include one or a plurality of plastic tabs which, in a locked condition of the railing strut, engage in corresponding openings of the rear wall. A drawback is the fact that demounting of the railing strut from the rear wall is relatively elaborate and can only be performed with a large manual effort.
US 2007/159039 A1 discloses a drawer having a railing strut which, in a rear end region, is provided with a clip for releasably connecting to a drawer rear wall. The clip includes a resilient limb with a tab arranged thereon, and the tab engages into a corresponding receiving opening of the rear wall when the railing strut is mounted. For releasing the locking, a screwdriver is to be inserted into an access opening of the rear wall, so that the locking between the tab and the receiving opening of the drawer rear wall can be released. By lifting the resilient limb with the aid of the screwdriver, the tab can be moved out, against its resilient action, from the receiving opening of the rear wall, whereby the railing strut can be separated from the drawer rear wall. A drawback is the fact the view to the tab is restricted and the accessibility to the tab is hindered, and a tool is also indispensably required for releasing the locking.
Further releasable fastening possibilities of a railing strut to a drawer are disclosed in CN 2627916 Y, WO 2017/001610 A1, DE 10 2009 025 792 A1 and EP 0 723 752 A2.
It is therefore an object to the present invention to propose a railing strut of the type mentioned in the introductory part, thereby avoiding the above-discussed drawbacks.
According to the invention, at least one actuating element, in a condition in which the railing strut is locked to the wall element, is accessible for manual actuation for an operator and can be directly actuated, so that the locking between the railing strut and the wall element can be released by the manual actuation of the actuating element.
In other words, the railing strut includes at least one movably mounted actuating element for releasing the locking between the railing strut and the wall element of the drawer when the railing strut is in a mounted condition on the wall element. The actuating element of the railing strut, in the mounted position thereof, is accessible for an operator and can be directly actuated, so that a comfortable demounting of the railing strut (for example for cleaning purposes) can be enabled.
The actuating element can be configured so as to be separate from the at least one locking element. Alternatively, it is possible that the actuating element and the at least one locking element are arranged on a common member, but are configured as components that can be clearly distinguished from one another. According to an embodiment, the actuating element and the locking element are movement-coupled to one another, so that an appropriate application of force to the actuating element leads to a (destruction-free) movement of the locking element into the release position.
The actuating element can be displaceably arranged on the railing strut, preferably in a longitudinal direction of the railing strut, and/or can be arranged so as to be pivotable or bendable about an axis, preferably about an axis extending in a horizontal direction in the mounted position.
The actuating element can be movably arranged on a front face of the railing strut and/or on a shell surface of the railing strut. For example, the actuating element can be arranged so as to be substantially flush with the front face of the railing strut and/or substantially flat with a shell surface of the railing strut, so that an inadvertent application of force to the actuating element can be prevented and an attractive visual appearance can be provided.
The actuating element is configured to be manually actuated, and the actuating element may be provided with an anti-slip serration in order for the static friction to be increased.
The at least one end region of the railing strut can include at least two locking elements, and the at least two locking elements can jointly be moved into the release position by applying a force to the actuating element. Due to the arrangement of two or more locking elements configured to be jointly moved into a release position in which the wall element can be released, a very tilting-proof connection between the railing strut and the wall element and a comfortable unlocking of the locking elements from the wall element of the drawer can be provided.
The railing strut can be directly connected to a wall element of the drawer, for example by a pin arranged on the railing strut, and the pin is configured to be introduced into a bore of the wall element so as to be held in position. Alternatively, it is possible that the railing strut is connected to the wall element by at least one furniture fitting arranged or formed on the wall element.
Further details and advantages of the invention result from the following description of figures, in which:
For mounting the railing strut 13, the procedure will be as follows:
Demounting of the railing strut 13 from the second wall element 11 is effected such that the actuating element 21 is moved into a release position by applying a force (for example by applying pressure to the actuating element 21 in the longitudinal direction (L) of the railing strut 13). In the release position, the locking between the railing strut 13 and the wall element 11 or the furniture fitting 15 mounted to the wall element 9 can be released.
The railing strut 13 is pre-positioned on the wall element 11 such that the front-end portion of the railing strut 13 is slid onto the furniture fitting 15 and the supporting portion 17 of the rear-end portion is inserted into the opening 19 of the wall element 11. The pre-positioned state of the railing strut 13 is shown in
Preferably, the first locking element 23a and/or the second locking element 23b can be moved in a longitudinal direction (L) of the railing strut 13 by applying a force to the actuating element 21.
A length-compensating element 26 is arranged on the front-end portion of the railing strut 13. Preferably, the length-compensating element 26 is configured so as to be resilient in the longitudinal direction (L). The length-compensating element 26 serves for covering a gap formed between the front end of the railing strut 13 and the wall element 9, when the railing strut 13 is in a mounted condition with the wall elements 9, 11. The cavity 18 for receiving the furniture fitting 15 is formed in a receiving portion 31, and the furniture fitting 15 can be releasably locked by the movably-mounted locking elements 23c, 23d of the receiving portion 31. The head portion 33 (
A particular advantage of the railing strut 13 lies in the fact that the railing strut 13, together with the locking device, forms a pre-assembled constructional unit and that-no additional functional elements (except for the opening 19 and the recesses 20, 20a of the wall element 11) for locking purposes must be provided on the drawer 3 to which the railing strut 13 is to be mounted. If appropriate, the railing strut 13 can also be configured to be adjustable in length. This can be made possible, for example, by at least two partial struts of the railing strut 13 configured to be telescopically displaceable relative to one another in the longitudinal direction (L).
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A 51061/2017 | Dec 2017 | AT | national |
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Number | Date | Country | |
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20200297111 A1 | Sep 2020 | US |
Number | Date | Country | |
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Parent | PCT/AT2018/060298 | Dec 2018 | US |
Child | 16893793 | US |