Guide assembly for closure assemblies, and object
Patent Information
- Authority / Receiving Office
- EP · EP
- Patent Type
- Applications
- Current Assignee / Owner
- REHAU IND SE & CO KG
- Filing Date
- 2024-08-27
- Publication Date
- 2026-07-08
Smart Images

Figure EP2024073946_06032025_PF_FP_ABST
Abstract
Description
[0001] Guide arrangement for locking arrangements and object
[0002] The invention relates to a guide arrangement for closure arrangements of openings, in particular of furniture, shelves, bodies, containers, buildings, walls, cabinet furniture and the like, comprising at least one slatted lever device, at least one connector lever device, at least one sliding lever device, at least one lever device, at least one covering device, at least one guide device, at least one elastic element, according to the features of the preamble of claim 1.
[0003] Such closure arrangements have proven themselves for many years and are known in various designs.
[0004] For example, DE 102017000214 A1 discloses a locking arrangement for, in particular, a piece of cabinet furniture with a blind having slats, which is arranged in the region of an opening of a piece of cabinet furniture so as to be movable from a closed position into an open position and back, and has slats arranged parallel to one another which can be moved along lateral guides during their opening and closing movement, wherein the lateral guides of the slats are formed by respective guide slots which have a first, substantially rectilinear, vertical or horizontal guide track and a second guide track which is aligned substantially orthogonally to the first guide track, so that at least some of the slats of the blind can be transferred from a closed position into an open position located in the interior of the cabinet, in which position the slats are arranged one behind the other in a packing position arranged parallel to one another.Furthermore, a second vertical or horizontal guideway is provided parallel to the first vertical or horizontal guideway, wherein a respective guide body of a slat engages in the second guideway. The closure arrangement is further configured such that the first vertical or horizontal guideway transitions into a first, second guideway orthogonal to the first guideway with a curved corner region (E), and the second, first vertically or horizontally oriented guideway transitions via an arcuate corner region (E1) into a second, second guideway orthogonal to the second, first guideway.
[0005] The disadvantage of this locking arrangement is that it is very costly both in its manufacture and in its complex assembly.
[0006] Another disadvantage of this locking arrangement is that it can only be installed if costly and technically complex milling has been carried out in the side walls and / or in the top or bottom of cabinet furniture in particular.
[0007] Another disadvantage is that this locking arrangement takes up a lot of space or storage space in a cupboard, for example, which is then no longer available to the user.
[0008] Another disadvantage is that this locking arrangement is mechanically very complex and can therefore be manufactured to very tight tolerances. It is also extremely difficult to maintain and prone to failure during use.
[0009] This is where the invention comes in, which has set itself the task of overcoming the disadvantages of the known prior art and of demonstrating a guide arrangement for locking arrangements which can be produced economically and cost-effectively, which can be used both horizontally and vertically, which can be used both for closing new openings, in particular in furniture, and for closing existing furniture by means of replacement assemblies, and which is designed in such a way that the handle slat in particular can be guided in a stable and wear-resistant manner.
[0010] This object is achieved according to the invention by the features of claim 1. Further advantageous embodiments are described in the subclaims.
[0011] It has surprisingly been found that a closure arrangement for openings, in particular of furniture, shelves, bodies, containers, buildings, walls, cupboard furniture and the like, with at least one closure device, in particular blinds, roller shutters and the like, comprising at least one slatted lever device, at least one connector lever device, at least one sliding lever device, at least one lever device, at least one covering device, at least one guide device, at least one elastic element, is characterized in that the at least one lever device and / or the at least one sliding lever device and / or the at least one slatted lever device has at least one movably arranged guide device, that the guide device from a first position,in which the guide device is arranged in the at least one lever device and / or in the at least one sliding lever device and / or in the at least one slatted lever device, and is arranged to be movable into a second position in which the guide device is arranged so as to protrude from the at least one lever device and / or from the at least one sliding lever device and / or from the at least one slatted lever device. This now makes it possible to provide guide assemblies for locking assemblies that can be manufactured economically and cost-effectively, that are suitable for horizontal and vertical use, and that can be used for closing openings, for example, in new furniture, as well as for closing existing openings in furniture by means of replacement assembly.
[0012] Another advantage is that with this guide arrangement for locking arrangements, the handle blade in particular can be guided in a stable and wear-resistant manner.
[0013] A further advantage of the guide arrangement for locking assemblies is that it was not only operated mechanically by hand, but could also later be moved electrically, for example, by motorization.
[0014] The guide arrangement is further configured such that the at least one lever device and / or the at least one sliding lever device and / or the at least one slatted lever device has at least one pivotably mounted guide device. This allows the guide arrangement to be not only economically and cost-effectively manufactured, but also efficiently used, particularly in cabinet furniture.
[0015] Likewise advantageously, the guide arrangement is designed such that the at least one guide device, movably arranged in the at least one lever device and / or in the at least one sliding lever device and / or in the at least one lamella lever device, has at least one pin element and at least one lever element. The guide arrangement is thus applicable for both horizontal and vertical use of closure assemblies.Furthermore, the guide arrangement is designed such that the pin element of the guide device is arranged to be movable from a first position, in which the pin element of the guide device is arranged in the at least one lever device and / or in the at least one sliding lever device and / or in the at least one lamellar lever device, into a second position, in which the pin element of the guide device is arranged to protrude away from the at least one lever device and / or from the at least one sliding lever device and / or from the at least one lamellar lever device. In this advantageous embodiment, the guide arrangement can be produced both economically and cost-effectively and is designed such that, in particular, a handle blade of a closure arrangement can be guided in a stable and low-wear manner.
[0016] The guide arrangement is characterized in that the pin element of the guide device is arranged so as to be movable from a first position, in which the pin element of the guide device is arranged in the at least one lever device and / or in the at least one sliding lever device and / or in the at least one lamellar lever device, into a second position, in which the pin element of the guide device is arranged so as to protrude away from the at least one lever device and / or from the at least one sliding lever device and / or from the at least one lamellar lever device. As a result, the guide arrangement is advantageously suitable for guiding individual lamellar elements, in particular a handle lamellar element, of a closure arrangement in a stable and low-wear manner.
[0017] Furthermore, the guide arrangement is designed such that the at least one connector lever device has at least one lever element.
[0018] Another advantage of the guide arrangement is that the at least one connector lever device is rotatably connected to the at least one lever device via at least one guide element. The guide arrangement is advantageously designed such that the at least one connector lever device is arranged rotatably with the at least one lever device. Thus, the guide arrangement and its components can be manufactured economically and cost-effectively and are applicable for the horizontal as well as vertical use of closure assemblies. The guide arrangement is also designed such that the at least one lever device is arranged on the lamellar lever device. Another advantage of the guide arrangement is that the at least one lever device is fixed to the lamellar lever device.A further advantage of the guide arrangement is that at least one sliding lever device is arranged between the at least one lever device and the at least one lamella lever device. This advantageous design allows the guide arrangement to be manufactured economically and cost-effectively, for example, using a conventional injection molding process.
[0019] The guide arrangement is further characterized in that the at least one lever device has at least one guide device.
[0020] Another advantage of the guide arrangement is that the at least one lever device has at least one pivotably mounted guide device. The guide arrangement is further advantageously designed such that the at least one lever device has at least one guide device that has at least one pivotably connected pin element via at least one lever element. This provides a guide arrangement that is applicable to both horizontal and vertical use of locking arrangements, particularly in cabinet furniture.
[0021] A further advantage of the guide arrangement is that the at least one lever device has at least one first connecting element designed as a pin element. A further advantage of the guide arrangement is that the at least one lever device has at least one second connecting element designed as a locking element. It is also advantageous in the guide arrangement that the at least one lever device is arranged in at least one receiving element of the slatted lever device so as to be rotatable via at least one second connecting element designed as a locking element. The guide arrangement can thus advantageously be designed such that it is applicable to a wide variety of geometries, weights, and spatial shapes, in particular of locking arrangements for cabinet furniture.
[0022] An advantage of the guide arrangement is that at least one sliding lever device is arranged between the at least one lever device and the at least one slatted lever device. Advantageously, the guide arrangement is also designed such that the at least one sliding lever device is arranged longitudinally displaceably on the at least one lever device and / or the slatted lever device.
[0023] Furthermore, the guide arrangement is designed such that the at least one sliding lever device has at least one pivotably arranged guide device. It is also advantageous for the guide arrangement that the at least one sliding lever device has at least one guide device that has at least one pivotably connected pin element via at least one lever element. This advantageous design allows the guide arrangement to be manufactured economically and cost-effectively.
[0024] The guide arrangement is further designed such that the at least one sliding lever device has at least one guide element.
[0025] Furthermore, the guide arrangement is designed such that the at least one sliding lever device has at least one contact element.
[0026] The guide arrangement is further designed such that the at least one sliding lever device has at least one locking element.
[0027] Furthermore, the guide arrangement is designed such that the at least one sliding lever device has at least one support.
[0028] Another advantage of the guide arrangement is that the at least one sliding lever device has at least one guide rail.
[0029] In a particularly advantageous embodiment, the guide arrangement is designed such that the at least one sliding lever device is operatively connected to the at least one lever device via at least one elastic element.
[0030] The guide arrangement is further designed such that at least a first, free end of the elastic element is arranged on at least one pin element of the sliding lever device.
[0031] Furthermore, the guide arrangement is additionally designed such that the at least one sliding lever device is operatively connected to at least one guide element of the at least one lever device via at least one guide rail. Another advantage of the guide arrangement is that at least one contact element of the sliding lever device is operatively connected to at least one lever element of the connector lever device. This provides a guide arrangement that can be manufactured economically and cost-effectively and that is suitable for both horizontal and vertical use, particularly for locking arrangements.
[0032] Furthermore, the guide arrangement is designed such that the at least one lever device has at least one guide element. An advantage of the guide arrangement is that the at least one lever device has at least one pin element. Another advantage of the guide arrangement is that the at least one lever device has at least one connecting element.
[0033] The guide arrangement further has the advantage that at least one second, free end of the elastic element is arranged on at least one pin element of the at least one lever device. As a result, the guide arrangement is designed in such a way that it successfully overcomes the disadvantages of the known prior art, is both economical and cost-effective to manufacture, and is applicable to both horizontal and vertical use of closure arrangements.
[0034] A major advantage of the guide arrangement is that the sliding lever device is arranged to be displaceable from a first position, in which the guide device of the lever device rests against at least one first guide element of the sliding lever device, into a second position, in which the guide device of the lever device is arranged against a second guide element of the sliding lever device.
[0035] Another advantage of the guide arrangement is that the sliding lever device is arranged to be displaceable from a first position, in which at least one locking element of the sliding lever device is operatively connected to at least one contact element of the lever device, into a second position, in which at least one locking element of the sliding lever device is arranged at a distance from the at least one contact element of the lever device.
[0036] An advantage of the guide arrangement is that at least one contact element of the sliding lever device is in operative connection with at least one lever element of the connector lever device.
[0037] A further advantage of the guide arrangement is that the sliding lever device is arranged to be displaceable from a first position, in which the first lever element of the connector lever device is operatively connected to the first contact element of the sliding lever device, to a second position, in which the second lever element of the connector lever device is operatively connected to the second contact element of the sliding lever device. Thus, when used as intended, particularly in closure arrangements for openings, the guide arrangement can be constructed and used so flexibly that, in particular, it can be used for both horizontal and vertical movement sequences in closure arrangements at any time.
[0038] The guide arrangement is advantageously also designed such that at least one cover device is arranged so as to cover the sliding lever device arranged in the lever device. The guide arrangement is designed such that the at least one cover device is fixed to the at least one lever device. A further advantage of the guide arrangement is that the at least one cover device has at least one recess in which the guide device is arranged.
[0039] It is also advantageous in the guide arrangement that at least one connecting element of the lever device is arranged in at least one receiving element of the slatted lever device.
[0040] The invention further relates to an article with at least one closure arrangement of at least one opening, in particular furniture, shelves, bodies, compartments, containers, buildings, walls, containers, cupboard furniture as well as windows, vehicles, vehicle bodies and the like with at least one guide arrangement according to the preceding embodiments.
[0041] Alternatively, it is possible for the guide arrangement to be manufactured using a generative manufacturing process, for example by a 3D printing process.
[0042] For the production of the guide arrangement, machine-readable, three-dimensional models can advantageously be used. The invention also encompasses a method for generating a machine-readable, three-dimensional model for use in a production method for a guide arrangement. In particular, the method also comprises the input of data representing a guide arrangement into a machine and the use of this data to represent a guide arrangement as a three-dimensional model, wherein the three-dimensional model is suitable for use in the production of a guide arrangement. The guide arrangement can be produced entirely or partially using a line-based or layer-based manufacturing process. A 3D data set can be used with great advantage during construction or production.The method also encompasses a technique in which the input data of one or more 3D scanners, which operate either contact-based or contactless, with the latter delivering energy to a guide assembly and receiving the reflected energy, is used to generate a virtual three-dimensional model of a guide assembly using computer-aided design software. The manufacturing process can comprise an additive powder bed process, in particular selective laser melting (SLM), selective laser sintering (SLS), selective heat sintering (SHS), selective electron beam melting (EBM / electron beam additive manufacturing - EBAM), or binder jetting of powder material.The manufacturing process can comprise a generative free-space process, in particular deposition welding, wax deposition modeling (WDM), contour crafting, metal powder deposition (MPA), plastic powder deposition, cold gas spraying, electron beam welding (EBW), or melt layering processes such as fused deposition modeling (FDM) or fused filament fabrication (FFF). The manufacturing process can comprise a generative liquid material process, in particular stereolithography (SLA), digital light processing (DLP), multi-jet modeling (MJM), polyjet modeling, or liquid composite molding (LCM). Furthermore, the manufacturing process can comprise other generative layering processes, in particular laminated object modeling (LOM), 3D screen printing, or light-controlled electrophoretic deposition.
[0043] The invention will now be described in more detail using the following non-limiting embodiments.
[0044] They show:
[0045] Figure 1: perspective view of a guide arrangement,
[0046] Figure 2: Perspective view of a lamella lever device of the
[0047] management arrangement,
[0048] Figure 3: Perspective view of a connector lever device of the
[0049] Guide arrangement, Figure 4: perspective view of a sliding lever device of the
[0050] management arrangement,
[0051] Figure 5: perspective view of a lever device of the guide arrangement,
[0052] Figure 6: Perspective view of a guide arrangement in a first
[0053] Position,
[0054] Figure 7: Perspective view of a guide arrangement in a second
[0055] Position,
[0056] Figure 8: further guide arrangement in a second position in a view from above,
[0057] Figure 9: further guide arrangement in a second position in a view from above,
[0058] Figure 10: Perspective view of a guide arrangement on a
[0059] Locking arrangement in the open position (OP) on an object, in particular cabinet furniture.
[0060] Figure 1 shows a further perspective view of a guide arrangement 100.
[0061] The guide arrangement 100 for closure arrangements of openings, in particular of furniture, shelves, bodies, containers, buildings, walls, cabinet furniture and the like, comprises at least one slatted lever device 10, at least one connector lever device 30, at least one sliding lever device 40, at least one lever device 50, at least one covering device 60, at least one guide device 80 and at least one elastic element 8.
[0062] The guide arrangement 100 is characterized in that the at least one lever device 50 and / or the at least one sliding lever device 40 and / or the at least one lamellar lever device 10 has at least one movably arranged guide device 80, that the guide device 80 is arranged to be movable from a first position in which the guide device 80 is arranged in the at least one lever device 50 and / or in the at least one sliding lever device 40 and / or in the at least one lamellar lever device 10, into a second position in which the guide device 80 is arranged so as to protrude away from the at least one lever device 50 and / or from the at least one sliding lever device 40 and / or from the at least one lamellar lever device 10.
[0063] Furthermore, the guide arrangement 100 is designed such that the at least one lever device 50 and / or the at least one sliding lever device 40 and / or the at least one slatted lever device 10 has at least one pivotably arranged guide device 80.
[0064] The slatted lever device 10 is designed to have at least one receiving element 11, 12. In this exemplary embodiment, the receiving element 11, 12 of the slatted lever device 10 is designed as an opening.
[0065] The guide assembly 100 is designed such that at least one cover device 60 is arranged on the slatted lever device 10. The cover device 60 has a recess 61 on at least one side. In this exemplary embodiment, the recess 61 of the cover device 60 of the guide assembly 100 is designed as a so-called elongated hole.
[0066] The guide arrangement 100 is designed such that in this embodiment at least one guide device 80 is arranged in the recess 61 of the cover device 60.
[0067] Furthermore, the guide arrangement 100 is designed such that at least one lever device 50 is arranged on the slatted lever device 10.
[0068] The at least one lever device 50 is fixed to the slatted lever device 10.
[0069] Furthermore, in this exemplary embodiment, at least one sliding lever device 40 is arranged between the at least one lever device 50 and the at least one slatted lever device 10.
[0070] The sliding lever device 40 is arranged so as to be longitudinally displaceable on the at least one lever device 50 and / or the slatted lever device 10.
[0071] The lever device 50 is designed to have at least one connecting element 54, 55. In this exemplary embodiment, the lever device 50 is designed to have at least one first connecting element 54 and at least one second connecting element 55.
[0072] The connecting element 54, 55 of the lever device 50 is arranged in at least one recess 11, 1T, 12, 12' of the slatted lever device 10.
[0073] In this exemplary embodiment, the at least one lever device 50 is arranged in at least one receiving element 12, 12" of the slat device 10 in a rotatable manner via at least one second connecting element 55 designed as a locking element.
[0074] The connector lever device 30 is rotatably connected to the lamella lever device and / or the lever element 50. In this exemplary embodiment, the connector lever device 30 is connected to the lever device 50 via the second connecting element 55. Furthermore, the connector lever device 30 is rotatably connected to the lamella lever device 10 via the second connecting element 55 of the lever device 50.
[0075] The guide arrangement 100 is also designed such that at least one elastic element 8 is arranged in the slatted lever device 10.
[0076] For a better understanding, the individual components of the guide arrangement 100 are now described in the following figures.
[0077] Figure 2 shows a perspective view of a lamella lever device 10 of the guide arrangement 100.
[0078] The slatted lever device 10 has at least a first guide element 15 and a second guide element 16 arranged at a distance therefrom. The second guide element 16 is arranged at a free end of the first slatted lever device 10. The second guide element 16 of the slatted lever device 10 has a different height and / or a different geometry than the first guide element 15 of the slatted lever device 10.
[0079] In this exemplary embodiment, the second guide element 16 of the slatted lever device 10 is designed such that it has a lower height than the first guide element 15 of the slatted lever device 10. However, it is also within the scope of the invention for the second guide element 16 or the first guide element 15 of the slatted lever device 10 to each have a different geometry, for example a different diameter, a different outer contour and the like.
[0080] The slatted lever device 10 is further configured to have at least a first receiving element 11,1T and a second receiving element 12,12". The first receiving element 11,11" and the second receiving element 12,12" are configured, for example, as an opening in the slatted lever device 10. In this exemplary embodiment, the first receiving element 11,1T and the second receiving element 12,12" are each configured as two openings arranged opposite one another in the slatted lever device 10.
[0081] Adjacent to the second receiving element 12,12", the slatted lever device 10 has at least one connecting element 17.
[0082] The slatted lever device 10 has at least one third receiving element 13. The third receiving element 13 of the slatted lever device 10 is pin-shaped in this embodiment.
[0083] Furthermore, the slatted lever device 10 has at least one locking element 14 at its other free end opposite the second guide element 16.
[0084] In this embodiment, the locking element 14 is arranged in a recess 18 of the slatted lever device 10.
[0085] Figure 3 shows a perspective view of a connector lever device 30 of the guide assembly 100.
[0086] The connector lever device 30 has at least a first pin element 31.
[0087] In this embodiment, the connector lever device 30 has two pin elements 31 arranged opposite one another.
[0088] In this embodiment, the pin elements 31 are each arranged on a leg 34, 35 of the connector lever device.
[0089] The legs 34, 35 of the connector lever device 30 are arranged spaced apart from one another via a recess 36.
[0090] Furthermore, the connector lever device 30 has a first receiving element 32 and a second receiving element 33. The first receiving element 32 of the first connector lever device 30 is designed as an opening. The second receiving element 33 of the first connector lever device 30 is designed in a pin-like manner. In this exemplary embodiment, the pin-like second receiving element 33 of the first connector lever device 30 is arranged on at least one leg 34, 35 of the first connector lever device 30.
[0091] Furthermore, the connector lever device 30 is designed such that at least one first lever element 38 is arranged at the free end at which the first receiving element 32 is arranged.
[0092] The connector lever device 30 is further configured to have at least one second lever element 37, 37'. In this exemplary embodiment, the second lever element 37, 37' of the lever device 30 is arranged at a distance from the first lever element 38.
[0093] The second lever element 37, 37' is arranged on at least one leg 34, 35 of the connector lever device 30. In this embodiment, the second lever element 37 is arranged on the leg 34 and the second lever element 37' is arranged on the leg 35 of the connector lever device 30.
[0094] Figure 4 shows a perspective partial sectional view of a sliding lever device 40 of the guide arrangement 100.
[0095] The sliding lever device 40 is designed to have a base 49.
[0096] At the lower free end of the base 49, the sliding lever device 40 has at least one guide rail 48,48'.
[0097] At a first free end, the sliding lever device 40 has at least one contact element 46, 47. In this exemplary embodiment, the sliding lever device 40 is designed such that a second contact element 47 is arranged directly at the free end of the sliding lever device 40. The sliding lever device 40 is further designed such that a first contact element 46 is arranged at a distance from the second contact element 47.
[0098] At the opposite free end, the sliding lever device 40 is configured to have at least one guide element 42, 42', 43, 43'. In this embodiment, the first guide elements 42, 42' of the sliding lever device 40 are arranged opposite one another at approximately an acute angle to one another.
[0099] The second guide element 43, 43' is arranged directly on the first guide element 42, 42' of the sliding lever device 40, spaced apart from one another. The sliding lever device 40 is further configured to have at least one pin element 41. In this exemplary embodiment, the pin element 41 is arranged at a distance from the first guide element 42, 42' of the sliding lever device 40.
[0100] Furthermore, the sliding lever device is designed such that it has at least one support 44 at the free end at which the guide element 42, 42', 43, 43' is arranged.
[0101] The sliding lever device 40 further comprises at least one locking element 45, 45'. In this exemplary embodiment, the locking element 45, 45' is arranged on the base 49 of the sliding lever device 40. Furthermore, the locking element 45, 45' is arranged at a distance from the second guide element 43, 43' of the sliding lever device 40.
[0102] Figure 5 shows a perspective view of a lever device 50 of the guide arrangement 100.
[0103] The lever device 50 has at least one base 51.
[0104] At least one guide element 56, 57 is arranged on the base 51 of the lever device 50.
[0105] A first guide element 56 is designed as a web protruding from the base 51. A second guide element 57 is arranged directly on the base 51 of the lever device 50.
[0106] At least one contact element 53 is arranged on the base 51 of the lever device 50.
[0107] The lever device 50 has at least one connecting element 54, 55.
[0108] In this embodiment, a first connecting element 54 is arranged approximately in a pin shape, spaced from the base 51 by a web 58.
[0109] A second connecting element 55 of the lever device 50 is designed as a locking element in this embodiment.
[0110] The lever device 50 has at least one pin element 52. In this embodiment, the pin element 52 is arranged approximately on the second guide element 57.
[0111] The lever device 50 is advantageously designed such that it has at least one guide device 80.
[0112] Furthermore, the lever device 50 is designed to have at least one pivotably arranged guide device 80. In this exemplary embodiment, the lever device 50 is designed to have at least one guide device 80, which has at least one pin element 82 pivotably connected via at least one lever element 81.
[0113] The guide device 80 is arranged on the base 51 of the lever device 50, spaced apart from the first connecting element 54. In this embodiment, the pin element 82 of the guide device 80 is connected to the base 51 of the lever device 50 via the lever element 81.
[0114] Advantageously, the lever device 50 and / or the guide device 80 are made of a polymeric material. However, it is also within the scope of the invention for the lever device 50 and / or the guide device 80 to be made of a metallic and / or ceramic and / or thermosetting and / or polymeric material, or mixtures thereof.
[0115] For example, the base 51 of the lever device 50 can be made of a polymeric material, while the guide device 80 can be made of a metallic material, for example.
[0116] Figure 6 shows a perspective view of a guide arrangement 100 in a first position.
[0117] The guide arrangement 100 for closure arrangements of openings, in particular of furniture, shelves, bodies, containers, buildings, walls, cabinet furniture and the like, comprises at least one slatted lever device 10, at least one connector lever device 30, at least one sliding lever device 40, at least one lever device 50, at least one guide device 80 and at least one elastic element 8.The guide arrangement 100 is characterized in that the at least one lever device 50 and / or the at least one sliding lever device 40 and / or the at least one lamellar lever device 10 has at least one movably arranged guide device 80, that the guide device 80 is arranged to be movable from a first position in which the guide device 80 is arranged in the at least one lever device 50 and / or in the at least one sliding lever device 40 and / or in the at least one lamellar lever device 10, into a second position in which the guide device 80 is arranged so as to protrude away from the at least one lever device 50 and / or from the at least one sliding lever device 40 and / or from the at least one lamellar lever device 10.
[0118] In this embodiment, the guide assembly 100 is shown in a first position.
[0119] In this embodiment, the guide arrangement 100 includes the slatted lever device 10, the connector lever device 30, the sliding lever device 40, the lever device 50 and the elastic element 8.
[0120] The guide arrangement 100 is designed such that at least one lever element 37, 37', 38 of the connector lever device 30 is operatively connected to at least one contact element 46, 47 of the sliding lever device 40.
[0121] In this first position, the guide arrangement 100 is designed such that at least one second lever element 37, 37' of the connector lever device 30 is in operative connection with the second contact element 47 of the sliding lever device 40.
[0122] The connector lever device 30 is arranged at approximately an acute angle to the lamella lever device 10.
[0123] The sliding lever device 40 is further configured to have at least one pin element 41. In this exemplary embodiment, a first free end of the elastic element 8 is arranged on the at least one pin element 41 of the sliding lever device 40.
[0124] The first guide element 42,42' of the sliding lever device 40 is arranged such that it rests against the guide device 80.
[0125] The lever device 50 is arranged, in particular fixed, on the slatted lever device 10.
[0126] The lever device 50 has at least one pin element 52.
[0127] In this embodiment, a second free end of the elastic element 8 is arranged on at least one pin element 52 of the lever device 50.
[0128] The guide arrangement 100 is advantageously designed such that the at least one sliding lever device 40 has at least one elastic element 8 in operative connection with the at least one lever device 50.
[0129] The guide arrangement 100 is further configured such that the at least one sliding lever device 40 is operatively connected to at least one guide element 56, 57 of the at least one lever device 50 via at least one guide rail 48, 48'.
[0130] Furthermore, the guide arrangement 100 is designed such that at least one locking element 45, 45' is arranged on the contact element 53 of the lever device 50.
[0131] The guide arrangement 100 is advantageously designed such that the sliding lever device 40 is arranged to be displaceable from a first position, in which the guide device 80 of the lever device 50 rests against at least one first guide element 42, 42' of the sliding lever device 40, into a second position, in which the guide device 80 of the lever device 50 is arranged on a second guide element 43, 43' of the sliding lever device 40.
[0132] Furthermore, the guide arrangement 100 is designed such that the sliding lever device 40 is arranged to be displaceable from a first position, in which the guide device 80 of the lever device 50 rests against at least one first guide element 42, 42' of the sliding lever device 40, into a second position, in which the guide device 80 of the lever device 50 is arranged on a second guide element 43, 43' of the sliding lever device 40.
[0133] Another advantage of the guide arrangement 100 is that the sliding lever device 40 is arranged to be displaceable from a first position, in which the first lever element 38 of the connector lever device 30 is operatively connected to the first contact element 46 of the sliding lever device 40, into a second position, in which the second lever element 37, 37' of the connector lever device 30 is operatively connected to the second contact element 47 of the sliding lever device 40.
[0134] Figure 7 shows a perspective view of a guide arrangement 100 in a second position.
[0135] The guide arrangement 100 for closure arrangements of openings, in particular of furniture, shelves, bodies, containers, buildings, walls, cabinet furniture and the like, comprises at least one slatted lever device 10, at least one connector lever device 30, at least one sliding lever device 40, at least one lever device 50, at least one guide device 80 and at least one elastic element 8.The guide arrangement 100 is characterized in that the at least one lever device 50 and / or the at least one sliding lever device 40 and / or the at least one lamellar lever device 10 has at least one movably arranged guide device 80, that the guide device 80 is arranged to be movable from a first position in which the guide device 80 is arranged in the at least one lever device 50 and / or in the at least one sliding lever device 40 and / or in the at least one lamellar lever device 10, into a second position in which the guide device 80 is arranged so as to protrude away from the at least one lever device 50 and / or from the at least one sliding lever device 40 and / or from the at least one lamellar lever device 10.
[0136] In this embodiment, the guide arrangement 100 is shown in a second position
[0137] In this embodiment, the guide arrangement 100 includes the slatted lever device 10, the connector lever device 30, the sliding lever device 40, the lever device 50 and the elastic element 8.
[0138] The guide arrangement 100 is designed such that at least one lever element 37, 37', 38 of the connector lever device 30 is operatively connected to at least one contact element 46, 47 of the sliding lever device 40.
[0139] In this second position, the guide arrangement 100 is designed such that at least a first lever element 38 of the connector lever device 30 is in operative connection with the first contact element 46 of the sliding lever device 40.
[0140] The connector lever device 30 is arranged approximately parallel to the lamella lever device 10.
[0141] The sliding lever device 40 is moved in the longitudinal direction between the lever device 50 and the slatted lever device 10.
[0142] The first guide element 42, 42' of the sliding lever device 40 is then arranged such that it is spaced apart from the guide device 80. The second guide element 43, 43' of the sliding lever device 40 is then arranged such that it bears against the guide device 80.
[0143] The guide device 80 is then arranged such that it is moved by the sliding lever device 40 such that it protrudes away from the louvre lever device 10. In this embodiment, the guide device 80 is arranged such that the pin element 82 protrudes away from the sliding lever device 40 and / or the louvre lever device 10.
[0144] The lever device 50 is arranged, in particular fixed, on the slatted lever device 10. The lever device 50 has at least one pin element 52.
[0145] In this embodiment, a further free end of the elastic element 8 is arranged on the pin element 52 of the lever device 50.
[0146] The guide arrangement 100 is advantageously designed such that the at least one sliding lever device 40 is operatively connected to the at least one lever device 50 via at least one elastic element 8.
[0147] The guide arrangement 100 is further configured such that the at least one sliding lever device 40 is operatively connected to at least one guide element 56, 57 of the at least one lever device 50 via at least one guide rail 48, 48'.
[0148] Furthermore, the guide arrangement 100 is designed such that at least one locking element 45, 45' is arranged at a distance from the contact element 53 of the lever device 50.
[0149] In Figure 8, another guide arrangement 100 is shown in a second position in a view from above.
[0150] The guide arrangement 100 for closure arrangements of openings, in particular of furniture, shelves, bodies, containers, buildings, walls, cabinet furniture and the like, comprises at least one slatted lever device 10, at least one connector lever device 30, at least one sliding lever device 40, at least one lever device 50, at least one guide device 80 and at least one elastic element 8.The guide arrangement 100 is characterized in that the at least one lever device 50 and / or the at least one sliding lever device 40 and / or the at least one lamellar lever device 10 has at least one movably arranged guide device 80, that the guide device 80 is arranged to be movable from a first position in which the guide device 80 is arranged in the at least one lever device 50 and / or in the at least one sliding lever device 40 and / or in the at least one lamellar lever device 10, into a second position in which the guide device 80 is arranged so as to protrude away from the at least one lever device 50 and / or from the at least one sliding lever device 40 and / or from the at least one lamellar lever device 10.
[0151] In this embodiment, the guide arrangement 100 is shown in a second position analogous to the embodiments of Figure 7.
[0152] In this embodiment, in contrast to Figure 7, the slatted lever device 10, the connector lever device 30, the sliding lever device 40 and the elastic element 8 are shown in the guide arrangement 100.
[0153] The slatted lever device 10 of the guide arrangement 100 is designed such that it has at least one guide device 80.
[0154] Furthermore, the slatted lever device 10 is designed such that it has at least one pivotably arranged guide device 80.
[0155] In this exemplary embodiment, the slatted lever device 10 of the guide arrangement 100 is designed such that it has at least one guide device 80 which has at least one pivotable pin element 82 connected via at least one lever element 81.
[0156] Furthermore, the slatted lever device 10 is designed such that it has at least one pin element 19.
[0157] The guide arrangement 100 is advantageously designed such that the at least one sliding lever device 40 is operatively connected to the at least one lamella lever device 10 via at least one elastic element 8.
[0158] The sliding lever device 40 is designed such that it has a pin element 41. In this exemplary embodiment, a first free end of the elastic element 8 is arranged on the pin element 41 of the sliding lever device 40.
[0159] The slatted lever device 10 has at least one pin element 19. In this exemplary embodiment, a second free end of the elastic element 8 is arranged on the pin element 19 of the slatted lever device 10.
[0160] In this second position, the guide arrangement 100 is configured such that at least a first lever element 38 of the connector lever device 30 is operatively connected to the second contact element 47 of the sliding lever device 40. The connector lever device 30 is arranged approximately parallel to the lamella lever device 10.
[0161] The sliding lever device 40 is moved in the longitudinal direction in the slatted lever device 10.
[0162] The first guide element 42, 42' of the sliding lever device 40 is then arranged such that it is spaced apart from the guide device 80 of the slatted lever device 10.
[0163] The second guide element 43,43' of the sliding lever device 40 is then arranged such that it rests against the guide device 80 of the slatted lever device 10.
[0164] The guide device 80 of the slatted lever device 10 is then arranged such that it is moved by the sliding lever device 40 such that it projects away from the slatted lever device 10.
[0165] In this embodiment, the guide device 80 of the slatted lever device 10 is arranged such that the pin element 82 protrudes away from the sliding lever device 40 and / or the slatted lever device 10.
[0166] In Figure 9, a further guide arrangement 100 is shown in a second position in a view from above.
[0167] The guide arrangement 100) for closure arrangements of openings, in particular of furniture, shelves, bodies, containers, buildings, walls, cabinet furniture and the like, comprises at least one slatted lever device 10, at least one connector lever device 30, at least one sliding lever device 40, at least one lever device 50, at least one guide device 80 and at least one elastic element 8.The guide arrangement 100 is characterized in that the at least one lever device 50 and / or the at least one sliding lever device 40 and / or the at least one lamellar lever device 10 has at least one movably arranged guide device 80, that the guide device 80 is arranged to be movable from a first position in which the guide device 80 is arranged in the at least one lever device 50 and / or in the at least one sliding lever device 40 and / or in the at least one lamellar lever device 10, into a second position in which the guide device 80 is arranged so as to protrude away from the at least one lever device 50 and / or from the at least one sliding lever device 40 and / or from the at least one lamellar lever device 10.
[0168] In this embodiment, the guide arrangement 100 is shown in a second position analogous to the embodiments of Figures 7 and 8.
[0169] In this embodiment, in contrast to Figure 7 or 8, the slatted lever device 10, the connector lever device 30 and the sliding lever device 40 are shown in the guide arrangement 100.
[0170] The sliding lever device 40 of the guide assembly 100 is configured to have at least one guide device 80. Furthermore, the sliding lever device 40 is configured to have at least one pivotably arranged guide device 80.
[0171] In this embodiment, the sliding lever device 40 of the guide arrangement 100 is designed such that it has at least one guide device 80 which has at least one pivotable pin element 82 connected via at least one lever element 81.
[0172] In this second position, the guide arrangement 100 is designed such that at least a first lever element 38 of the connector lever device 30 is in operative connection with the second contact element 47 of the sliding lever device 40.
[0173] The connector lever device 30 is arranged approximately parallel to the lamella lever device 10.
[0174] The sliding lever device 40 is movable in the longitudinal direction in the slatted lever device 10.
[0175] The first guide element 42, 42' of the sliding lever device 40 is then arranged such that it is spaced apart from the guide device 80 of the slatted lever device 10.
[0176] The second guide element 43,43' of the sliding lever device 40 is then arranged such that it rests against the guide device 80 of the slatted lever device 10.
[0177] The guide device 80 of the sliding lever device 40 is then arranged such that it is moved by the sliding lever device 40 such that it protrudes away from the sliding lever device 40 and / or the louvre lever device 10. In this embodiment, the guide device 80 of the sliding lever device 40 is arranged such that the pin element 82 protrudes away from the sliding lever device 40 and / or the louvre lever device 10.
[0178] Figure 10 shows a perspective view of a guide arrangement 100 on a closure arrangement 2 in an open position (OP) on an object, in particular cabinet furniture 1.
[0179] The guide arrangement 100 is designed such that it can be used for closure arrangements of openings 3, in particular of furniture, shelves, bodies, containers, buildings, walls, in particular cabinet furniture 1, with at least one closure device 2, in particular a blind, roller shutter and the like, which is arranged in the region of an opening 3 so as to be movable from a closed position (GP) to an open position (OP) and back, which is operatively connected to at least one guide device 5 arranged at the opening 3, which has slat elements 20, 20', wherein the slat elements 20, 20' have at least one slat lever device 10 with at least one (not visible) guide element, wherein at least one connector lever device (not visible here) is provided, wherein at least one compensating device 90 is provided.
[0180] In this embodiment, the guide arrangement 100 is arranged at a free end 21, 22 of the slat 20 of the closure device 2.
[0181] In this exemplary embodiment, the slat 20 of the closure device 2 is further configured to include at least one gripping element 110. The gripping element 110 is positioned approximately centrally from the free ends 21, 22 of the slat 20.
[0182] The guide arrangement 100 for closure arrangements of openings, in particular of furniture, shelves, bodies, containers, buildings, walls, cabinet furniture and the like, comprises at least one slatted lever device 10, at least one connector lever device 30, at least one sliding lever device 40, at least one lever device 50, at least one guide device 80 and at least one elastic element 8.
[0183] The guide arrangement 100 is characterized in that the at least one lever device 50 and / or the at least one sliding lever device 40 and / or the at least one lamellar lever device 10 has at least one movably arranged guide device 80, that the guide device 80 is arranged to be movable from a first position in which the guide device 80 is arranged in the at least one lever device 50 and / or in the at least one sliding lever device 40 and / or in the at least one lamellar lever device 10, into a second position in which the guide device 80 is arranged so as to protrude away from the at least one lever device 50 and / or from the at least one sliding lever device 40 and / or from the at least one lamellar lever device 10.
[0184] In this embodiment, the guide arrangement 100 is shown in a second position (open position OP) approximately analogous to the embodiments of Figure 1 or Figure 6.
[0185] The guide arrangement 100 is advantageously designed such that the guide device 80 is arranged to be movable from a first position (closed position GP), in which the guide device 80 is in operative connection with the first guide device 5 of a cabinet 1, into a second position (open position OP), in which the guide device 80 is arranged at a distance from the first guide device 5, for example of a cabinet 1.
[0186] Furthermore, the guide arrangement 100 is designed such that the pin element 82 of the guide device 80 is arranged to be movable from a first position (closed position GP), in which the pin element 82 of the guide device 80 is in operative connection with the first guide device 5 of a piece of cabinet furniture 1, into a second position (open position OP), in which the pin element 82 of the guide device 80 is arranged at a distance from the first guide device 5 of a piece of cabinet furniture 1.
Claims
Patent claims 1. Guide arrangement (100) for closure arrangements of openings (3), in particular of furniture, shelves, bodies, containers, buildings, walls, cabinet furniture (1) and the like, comprising at least one slatted lever device (10), at least one connector lever device (30), at least one sliding lever device (40), at least one lever device (50), at least one covering device (60), at least one guide device (80), at least one elastic element (8), characterized in that the at least one lever device (50) and / or the at least one sliding lever device (40) and / or the at least one slatted lever device (10) has at least one movably arranged guide device (80), that the guide device (80) from a first position,in which the guide device (80) is arranged in the at least one lever device (50) and / or in the at least one sliding lever device (40) and / or in the at least one slatted lever device (10), is arranged to be movable into a second position in which the guide device (80) is arranged to protrude from the at least one lever device (50) and / or from the at least one sliding lever device (40) and / or from the at least one slatted lever device (10).
2. Guide arrangement (100) according to claim 1, characterized in that the at least one lever device (50) and / or the at least one sliding lever device (40) and / or the at least one slatted lever device (10) has at least one pivotably arranged guide device (80).
3. Guide arrangement (100) according to one of the preceding claims, characterized in that the at least one, in the at least one lever device (50) and / or in the at least one sliding lever device (40) and / or in the at least one slatted lever device (10), movably arranged, Guide device (80) has at least one pin element (81) and at least one lever element (82).
4. Guide arrangement (100) according to one of the preceding claims, characterized in that the pin element (82) of the guide device (80) is arranged to be movable from a first position, in which the pin element (82) of the guide device (80) is arranged in the at least one lever device (50) and / or in the at least one sliding lever device (40) and / or in the at least one lamellar lever device (10), into a second position, in which the pin element (82) of the guide device (80) is arranged to protrude away from the at least one lever device (50) and / or from the at least one sliding lever device (40) and / or from the at least one lamellar lever device (10).
5. Guide arrangement (100) according to one of the preceding claims, characterized in that at least one sliding lever device (40) is arranged between the at least one lever device (50) and the at least one slatted lever device (10).
6. Guide arrangement (100) according to one of the preceding claims, characterized in that the at least one sliding lever device (40) is arranged to be longitudinally displaceable on the at least one lever device (50) and / or the slatted lever device (10).
7. Guide arrangement (100) according to one of the preceding claims, characterized in that the at least one sliding lever device (40) has at least one guide device (80) which has at least one pivotable pin element (82) connected via at least one lever element (81).
8. Guide arrangement (100) according to one of the preceding claims, characterized in that the at least one sliding lever device (40) has at least one contact element (46, 47).
9. Guide arrangement (100) according to one of the preceding claims, characterized in that the at least one sliding lever device (40) has at least one pin element (41).
10. Guide arrangement (100) according to one of the preceding claims, characterized in that the at least one sliding lever device (40) is operatively connected to the at least one lever device (50) via at least one elastic element (8).
11. Guide arrangement (100) according to one of the preceding claims, characterized in that at least a first, free end of the elastic element (8) is arranged on at least one pin element (41) of the sliding lever device (40).
12. Guide arrangement (100) according to one of the preceding claims, characterized in that the at least one lever device (50) has at least one pin element (52).
13. Guide arrangement (100) according to one of the preceding claims, characterized in that at least one second, free end of the elastic element (8) is arranged on at least one pin element (21) of the at least one lever device (50).
14. Guide arrangement (100) according to one of the preceding claims, characterized in that at least one contact element (46, 47) of the sliding lever device (40) is in operative connection with at least one lever element (37, 37', 38) of the connector lever device (30).
15. Guide arrangement (100) according to one of the preceding claims, characterized in that the sliding lever device (40) is arranged to be displaceable from a first position in which the first lever element (38) of the connector lever device (30) is in operative connection with the first stop element (46) of the sliding lever device (40) into a second position in which the second lever element (37, 37') of the connector lever device (30) is in operative connection with the second stop element (47) of the sliding lever device (40).
16. An article having at least one closure arrangement of at least one opening (3) of, in particular, furniture, shelves, bodies, compartments, containers, buildings, walls, containers, cupboard furniture (1) as well as windows, vehicles, vehicle bodies and the like, having at least one guide arrangement (100) according to one of claims 1 to 15.