EP3804564A1 - Dispositif d'extraction pour armoire de coin - Google Patents

Dispositif d'extraction pour armoire de coin Download PDF

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Publication number
EP3804564A1
EP3804564A1 EP19202558.3A EP19202558A EP3804564A1 EP 3804564 A1 EP3804564 A1 EP 3804564A1 EP 19202558 A EP19202558 A EP 19202558A EP 3804564 A1 EP3804564 A1 EP 3804564A1
Authority
EP
European Patent Office
Prior art keywords
storage
storage element
guide
pull
corner
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP19202558.3A
Other languages
German (de)
English (en)
Other versions
EP3804564B1 (fr
Inventor
Bernhard Weber
Adrian Schmidig
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Peka Metall AG
Original Assignee
Peka Metall AG
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Peka Metall AG filed Critical Peka Metall AG
Priority to EP19202558.3A priority Critical patent/EP3804564B1/fr
Publication of EP3804564A1 publication Critical patent/EP3804564A1/fr
Application granted granted Critical
Publication of EP3804564B1 publication Critical patent/EP3804564B1/fr
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47BTABLES; DESKS; OFFICE FURNITURE; CABINETS; DRAWERS; GENERAL DETAILS OF FURNITURE
    • A47B81/00Cabinets or racks specially adapted for other particular purposes, e.g. for storing guns or skis
    • A47B81/002Corner cabinets; Cabinets designed for being placed in a corner or a niche

Definitions

  • the present invention relates to a pull-out device for a corner cupboard.
  • Pull-out devices for corner cabinets are used to make the storage space in the corner of a corner cabinet more accessible.
  • the corner cabinet pull-out device has an outer built-in part and an inner built-in part, which have storage compartments.
  • the outer built-in part can be pulled out and swiveled out so that the inner built-in part can be made accessible for removing or storing objects.
  • the inner built-in part can be shifted horizontally out of the corner area into the position of the outer built-in part along a guide rail attached to the rear wall of the corner cabinet.
  • each storage compartment of the inner built-in part can have a guide rail which enables these storage compartments to also be pulled out of the cabinet body.
  • the disadvantage of this solution is the guide arrangement on the rear wall of the corner cabinet, the assembly of which is relatively complex.
  • it is necessary to complete the pull-out movement and the pivoting movement of the outer built-in part before the sliding movement and, if necessary, the pull-out movement of the individual storage compartments of the inner built-in part can take place.
  • the rear walls of corner cabinets are often not designed as load-bearing walls, so that an attachment to the floor or the side walls must be provided in order to stabilize the guide arrangement for the dead weight of the storage compartments and the load in such a way that the storage compartments cannot be tilted or tilted Load can be avoided with certainty.
  • the outer and inner mounting parts are integrally formed, which is for example in the EP1925237 A2 is shown.
  • the built-in element consisting of the outer and inner built-in parts is pulled out and swiveled out together.
  • the built-in element is moved along a guide rail attached to the cabinet floor.
  • the installation element must therefore have a floor space which is designed in such a way that the installation element can be rotated and displaced from a storage position to a removal position.
  • the built-in element has a storage area which is essentially designed in the form of a figure eight, with the result that a not inconsiderable part of the storage space in the corner area cannot be used.
  • the object of the invention is to develop a pull-out device which, on the one hand, enables the best possible utilization of the installation area and, at the same time, enables accessibility to the storage compartments of the inner built-in part to be improved.
  • the pull-out device should also be easy to install in a corner cabinet.
  • the pull-out device should be usable for any height or width dimensions of the corner cabinet.
  • the object of the invention is achieved by a pull-out device according to claim 1 and a corner cabinet according to claim 15.
  • Advantageous embodiments of the pull-out device are the subject matter of claims 2 to 14.
  • the term “for example” relates to exemplary embodiments and / or embodiments, which is not necessarily to be understood as a more preferred application of the teaching of the invention.
  • the terms “preferably”, “preferred” are to be understood by referring to an example from a set of exemplary embodiments and / or embodiments, which is not necessarily to be understood as a preferred application of the teaching of the invention. Accordingly, the terms “for example”, “preferably” or “preferred” can relate to a plurality of exemplary embodiments and / or embodiments.
  • a pull-out device for a corner cabinet comprises an inner storage element and an outer storage element for storing objects, the inner storage element being designed for positioning in a corner area of the corner cabinet and the outer storage element being designed for positioning in a storage area of the corner cabinet adjoining the corner area.
  • the outer storage element can be displaced between a storage position and at least one removal position by means of a guide device.
  • the inner storage element is rotatably connected to the outer storage element at a pivot point, so that the inner storage element is rotatable about the pivot point about a vertical axis of rotation with respect to the outer storage element.
  • the rotary movement of the inner storage element can be controlled by means of a control device.
  • the inner storage element cannot be connected to the guide device.
  • the guide device only serves to move the outer storage element from the storage position in a storage area of the corner cabinet in a removal position that is located outside the storage area.
  • the inner storage element can thus only be connected to the outer storage element via a rotary element arranged in the area of the pivot point. Any removal position can be set by means of the guide device.
  • the control device comprises a stationary control curve.
  • the control cam is arranged on a control cam base element which is intended for fixed installation in the corner cabinet.
  • the control cam is arranged in a stationary manner on the floor of the corner cabinet.
  • the control cam is fixedly arranged on a guide frame.
  • the guide frame is fastened in the interior of the corner cabinet, for example on the floor of the corner cabinet or its walls.
  • the guide rail can be part of the / a guide device.
  • a fixed control cam ensures a guided movement of the inner storage element.
  • the control cam can be attached to a control cam base element which is attached to the bottom of the corner cabinet.
  • the control curve basic element comprises a control curve for installation on the left in the corner cabinet and a mirrored control curve for installation on the right in the corner cabinet.
  • control cam can be arranged on the left or right side of the guide frame, depending on whether the storage position for the inner storage element is on the left or right of the storage position of the outer guide element.
  • control cam for the left-hand installation can in particular be arranged opposite the control cam for the right-hand installation on the opposite side of the control cam base element.
  • control cams on the opposite sides of the control cam basic element only a single control cam basic element is required for both left-hand and right-hand installation.
  • the control cam comprises a first section with a first curvature and a second section with a second curvature.
  • the curvature is selected such that the inner storage element can be positioned in the corner area and can be led out of the corner area for removal or storage of objects.
  • non-contact means that the inner storage element does not come into contact with a rear wall or a side wall of the corner cabinet. The only contact of the inner storage element takes place via the floor of the corner cabinet or the guide frame on which, according to this exemplary embodiment, the control cam base element is attached.
  • the first section can be connected to the second section via a V-shaped or U-shaped connecting element.
  • the V-shaped or U-shaped connecting element forms a turning point at which a change in direction of a guide element guided along the control curve takes place.
  • the control cam is designed as a guide channel in which a guide element can be displaced, the guide element being arranged on the underside of the inner storage element.
  • the distance A of the guide element from the edge of the inner storage element opposite the outer storage element in the removal position can be a maximum of 65% of the length L of the inner storage element.
  • the length of the inner storage element corresponds to the edge length of the inner storage element.
  • the length L of the inner storage element extends between the front side of the inner storage element opposite the rear side of the outer storage element and the rear side of the inner storage element facing the rear wall of the corner cabinet.
  • the guide element comprises at least one coupling element which is slidably mounted in the guide channel and which can be designed as a control cylinder.
  • the coupling element can contain two control cylinders which are arranged at a predetermined distance from one another via a connecting element.
  • the two control cylinders can in particular be arranged parallel to one another. The use of two control cylinders enables an even smoother sequence of movements.
  • the guide channel can be designed as an open channel.
  • the control cam is designed as a guide rail.
  • the guide rail is designed as a multi-part guide rail.
  • the guide element contains a coupling element which has two rollers.
  • the coupling element is designed in particular as a roller holder.
  • the rollers can be arranged at a predetermined distance from one another.
  • the rollers can in particular be arranged parallel to one another, which means in particular that they have axes of rotation which run parallel to one another.
  • the distance between the axes of rotation is in particular greater than each of the roller diameters, so that the rollers do not touch one another.
  • the distance between the rollers corresponds essentially to the wall thickness of the guide rail.
  • At least one of the inner and outer storage elements comprises a plurality of storage compartments.
  • the use of several storage compartments makes it possible in particular to store a plurality of objects whose height is less than half the height of the corner cupboard.
  • the outer or inner storage element comprises a first storage compartment and at least one second storage compartment.
  • the first storage compartment can be a first Have base and the second storage compartment have a second base, wherein the first base is smaller than the second base.
  • the rotary element can for example be designed as a pin element which is attached to the inner storage element.
  • the pin element is intended to be received in a recess which is attached in the outer storage element.
  • a pin element can be attached to the outer storage element.
  • the pin element can be intended to be received in a recess which is located on the inner storage element.
  • the recess or the pin element can be located on a tab that is pivotably connected to the outer or inner storage element. The use of such a tab has the advantage that the side surface of the outer storage element and the side surface of the inner storage element can be arranged parallel to one another.
  • a corner cabinet comprises a pull-out device according to one of the preceding exemplary embodiments.
  • An advantage of the pull-out device according to the invention lies in its improved accessibility, i.e. the user has improved access to the contents of the storage compartment (s).
  • increased rigidity of the pull-out device can be obtained, which leads to increased dimensional stability of the storage compartment (s), so that it is ensured that the storage surfaces remain essentially horizontal, even when relatively heavy objects are placed on the storage surfaces are, for example, containers filled with liquids such as beverage bottles or the like.
  • pull-out device has fewer components, in particular because it can be used for left-hand and right-hand corner cabinets.
  • Fig. 1a shows a pull-out device 10 for a corner cabinet 5.
  • the corner cabinet 5 comprises a front wall 51, a rear wall 52, two side walls 55, 56 which delimit a base 57.
  • the corner cabinet has a ceiling 58, which in Fig. 1 is only partially shown to allow a view of the interior of the corner cabinet.
  • the pull-out device 10 comprises an inner storage element 1 and an outer storage element 2 for storing objects, the inner storage element 1 being designed for positioning in a corner area 6 of the corner cabinet 5 and the outer storage element 2 for positioning in a storage area 7 adjacent to the corner area 6 of the corner cabinet 5 is arranged.
  • the outer storage element 2 can be displaced by means of a guide device 4 between a storage position 31 and at least one removal position 32, 33, 34, 35.
  • the inner storage element 1 is rotatably connected to the outer storage element 2 at a pivot point 3, so that the inner storage element 1 can be rotated around the pivot point 3 around a vertical axis of rotation 40 with respect to the outer storage element 2.
  • the rotary movement of the inner storage element 1 can be controlled by means of a control device 8.
  • the inner storage element 1 contains a first storage compartment 11 and a second storage compartment 12.
  • the first storage compartment 11 is arranged above the second storage compartment 12.
  • Each first and second storage compartment 11, 12 has a substantially rectangular base area.
  • One of the corners of each of the first and second storage compartments 11, 12 has a curve 28, 29.
  • the outer storage element 2 contains a first storage compartment 21, a second storage compartment 22, a third storage compartment 23 and a fourth storage compartment 24.
  • the first storage compartment 21 is arranged above all the other storage compartments. That is, the first Storage compartment 21 is located above all other storage compartments.
  • the first storage compartment 21 has a base area which essentially consists of two rectangular areas arranged in an L-shape relative to one another.
  • the second storage compartment 22 is located below the first storage compartment 21 and, in this exemplary embodiment, has a rectangular base area.
  • the third and fourth storage compartments 23, 24 are arranged below the second storage compartment 22.
  • the third storage compartment has an essentially rectangular base area.
  • the base of the third storage compartment 23 is larger than the base of the second storage compartment 22.
  • the base of the fourth storage compartment 24 is below the base of the third storage compartment 23.
  • the base of the fourth storage compartment 24 is smaller than the base of the third storage compartment 23.
  • the third Storage compartment 23 and the fourth storage compartment 24 can be arranged on a common support frame.
  • the support frame rests on the guide device 4, which is not visible in the present illustration.
  • the arrangement and / or number of each of the storage compartments 21, 22, 23, 24 can be adapted depending on the desired storage space.
  • only a single storage compartment 21 could be provided.
  • two storage compartments could be provided which have essentially the same base area.
  • three storage compartments could be provided which have essentially the same base area.
  • the installation height of the first and second storage compartments 21, 22 can vary.
  • the installation height of the third storage compartment 23 can also vary.
  • the fourth storage compartment 24 can in particular extend over the maximum length and width of the support frame.
  • the fourth storage compartment 24 can be used to store flat objects with large dimensions standing or lying, for example plate-shaped objects.
  • Figure 1b shows a horizontal section through a corner cabinet 5 containing the pull-out device 10 according to the first embodiment in the extended state.
  • the cutting plane is located between the second storage compartment 22 and the third storage compartment 23. Therefore, the storage compartments which are arranged above the third storage compartment 23 are not visible in this illustration.
  • the inner storage element 1 and the outer storage element 2 are located as in FIG Fig. 1a in front of the area formed by the front wall 51 of the corner cabinet 5. In this position, objects can be placed on the inner and outer storage element 1, 2 or objects can be removed from the inner and outer storage element 1, 2.
  • One or more cabinet doors 53, 54 can be provided on the front wall 51. In the present illustration, the cabinet doors 53, 54 are shown in the open state.
  • At least the outer storage element 2 projects beyond each of the cabinet doors 53, 54, so that objects can be removed or stored in the storage compartments 21, 22, 23, 24 in a particularly simple manner can, since in particular the storage compartments of the outer storage element 2 are accessible from several sides.
  • the corner cabinet 5 has a rear wall 52 which runs parallel to the front wall 51.
  • Figure 1c shows a horizontal section through a corner cabinet 5 containing the pull-out device 10 according to the first embodiment in the installed state.
  • the cutting plane is as in Figure 1b between the second storage compartment 22 and the third storage compartment 23. Therefore, the storage compartments which are arranged above the third storage compartment 23 are not visible in this illustration.
  • the inner storage element 1 is designed for positioning in a corner area 6 of the corner cabinet 5 and the outer storage element 2 is arranged for positioning in a storage area 7 of the corner cabinet 5 adjoining the corner area 6.
  • the front wall 51 also has two cabinet doors 53, 54, which are shown in the open position in the present illustration in order to reveal the position of the inner and outer storage elements 1, 2.
  • the cabinet doors 53, 54 can also be closed, since the inner and outer storage elements 1, 2 are located in the interior of the corner cabinet 5.
  • the interior of the corner cabinet 5 is delimited by the front wall 51, containing the cabinet doors 53, 54 and the rear wall 52 and two side walls 55, 56 extending between the front wall 51 and the rear wall 52.
  • the front wall 51, the rear wall 52 and the two side walls 55, 56 form the circumference of the corner cabinet 5.
  • the corner cabinet 5 can have a floor 57 and a ceiling, which in FIG Figure 1c is not visible because it is above the cutting plane.
  • the bottom 57 is covered by the inner storage element 1, in Figure 1b the bottom 57 is partially visible.
  • Fig. 2 shows a simplified illustration of an extension device 10 in the extended state in a top view at time t0.
  • the pull-out device 10 comprises an inner storage element 1 and an outer storage element 2 for storing objects, the inner storage element 1 being designed for positioning in a corner area 6 of the corner cabinet 5 and the outer storage element 2 for positioning in a storage area 7 adjacent to the corner area 6 of the corner cabinet 5 is arranged.
  • the corner area 6 and the storage area 7 form the interior of the corner cabinet 5.
  • the corner cabinet 5 can, as in connection with Fig. 1a , Figures 1b, 1c already described, have a front wall 51, a rear wall 52, a first and second side wall 55, 56, a floor 57 and a ceiling.
  • the ceiling is in Fig.
  • the outer storage element 2 is between a storage position 31 by means of a guide device 4, which is shown in FIG Fig. 6 is shown, and at least one removal position 32, 33, 34, 35, movable, which is in the Figures 2 to 5 is visible.
  • the Figures 2 to 5 thus show the position of the pull-out device 10 at different times.
  • the pull-out device 10 is in the position shown in FIG Fig. 2 position shown.
  • the pull-out device 10 is in the position shown in FIG Fig. 3 position shown.
  • the pull-out device 10 is in the position shown in FIG Fig. 4 position shown.
  • the pull-out device 10 is in the position shown in FIG Fig. 5 position shown.
  • the pull-out device 10 is in the position shown in FIG Fig. 6 position shown. It applies here that t4> t3, t3> t2, t2> t1, t1> t0.
  • the position of the pull-out device 10 shown at time t0 corresponds to the removal position 32.
  • the outer storage element 2 is located outside the storage area 7.
  • the inner storage element 1 can also be located partially, as in the present illustration, or even completely outside the storage area 7.
  • the guide device 4 can contain several telescopically displaceable guide rails, in particular 2 to 4 guide rails can be telescopically pulled apart or pushed together.
  • the outer storage element 4 can thus be displaced by means of the guide device 4.
  • the storage element 4 is thus attached to a first end of the guide device.
  • the guide device 4 is attached to a second end in the corner cabinet.
  • the fastening of the guide device 4 is located in the storage area 7 of the corner cabinet 5.
  • the guide device 4 can be fastened to the floor of the storage area 7.
  • the guide device 4 can be attached to a wall of the corner cabinet 5, for example to one of the side walls or the rear wall.
  • the guide device 4 can contain a so-called over-extension. If a guide device 4 contains an over-extension, both the outer storage element 2 and the inner storage element 1 can be arranged outside the storage area 7.
  • the inner storage element 1 has a side surface 14 which runs essentially parallel to the intermediate wall 9 of the storage area 7.
  • the intermediate wall 9 can also be designed as a side wall 56, as in FIG Fig. 1a , Fig. 1b or 1c is shown.
  • the inner storage element 1 has at least one front side 15 which runs essentially parallel to the rear side 25 of the outer storage element 2.
  • a spacer 16 can be attached to the front 15 so that a gap remains between the front 15 and the rear 25.
  • the spacer 16 can contain a contact element which establishes contact between the outer storage element 2 and the inner storage element 1, as long as the inner storage element 1 is not in relation to the outer one Storage element 2 is pivoted.
  • the contact element can comprise a magnetic element.
  • the contact element can also contain a snap mechanism.
  • the inner storage element 1 is rotatably connected to the outer storage element 2 at a pivot point 3, so that the inner storage element 1 is rotatable about the pivot point 3 around a vertical axis of rotation with respect to the outer storage element 2, the rotational movement of the inner storage element 1 by means of a control device 8 is controllable.
  • a rotary element 30 can be located at the pivot point 3.
  • the inner storage element 1 is thus only connected to the outer storage element 2 via the rotary element 30 arranged in the pivot point 3. Any removal position can be set by means of the guide device 4. Since the inner storage element 1 is coupled to the outer storage element 2 via the rotary element 30, the inner storage element 1 is moved along with the outer storage element 2. In particular, the inner storage element 1 cannot be connected to the guide device 4.
  • the inner storage element 1 can be separable from the outer storage element 2.
  • the pivot point 3 can have a rotary element 30 which can contain a releasable connection or can be designed as a releasable connection.
  • the inner storage element 1 can therefore be removed from the pull-out device when the outer storage element 2 is in the removal position 32 according to FIG Fig. 2 is located or a removal position, not shown, in which the inner storage element 2 is located completely outside of the storage area 7.
  • the control device 8 comprises a control curve.
  • the control cam can be attached to a control cam base element 83, which is designed for a control cam for installation on the left side in the corner cabinet 5 and a mirrored control curve for installation on the right side in the corner cabinet.
  • the control cam can be arranged in a stationary manner on the floor of the corner cabinet 5.
  • the control device 8 is screwed into the ground, for example, by means of a screw connection; alternatively, an adhesive connection or fastening by means of at least one nail or rivet would be possible.
  • the control cam comprises a first section 81 with a first curvature and a second section 82 with a second curvature.
  • the control cam is formed by a guide channel for a guide element 13 for the inner storage element 1.
  • the first section 81 is connected to the second section 82 via a connecting element 85.
  • the connecting element 85 is V-shaped.
  • the guide channel can thus be designed as an open channel in which the guide element 13 can be moved.
  • the guide element 13 is arranged on the underside of the inner storage element 1. According to the present embodiment, the guide element 13 is located near the side surface 14 or directly adjacent to the side surface 14 of the inner storage element 1. The distance A of the guide element 13 from the front side 15 of the inner storage element 1 opposite the outer storage element 2 is at most half the length L of the inner storage element 1, which is shown in Fig. 8 is shown.
  • Fig. 3 shows the pull-out device 10 according to Fig. 2 in a partially extended position at time t1.
  • the removal position 32 shown is in the removal position 33 only the outer storage element 2 is still easily accessible for removing or positioning objects.
  • the inner storage element 1 is pivoted through an angle which is between 30 degrees and 45 degrees with respect to the outer storage element 2.
  • the outer storage element 2 is displaced in the direction of the bearing area 7, the guide element 13 of the inner storage element 1 coming into engagement with the guide channel of the control cam.
  • the guide element 13 is thus guided in this guide channel in the control cam. It's in Fig. 3 in the second section 82 of the control cam.
  • the inner storage element 1 is pivoted about a pivot point 3 in relation to the outer storage element 2.
  • a vertical axis of rotation runs through the pivot point 3.
  • a rotary element 30 can be located at the pivot point.
  • the rotary element 30 can be formed by a pin element which is connected to one of the storage elements or is part of one of the storage elements. The pin element can be received in a recess of the other storage element.
  • the inner storage element 1 can be pivoted in relation to the outer storage element 2 by means of the rotary element 30 about the axis of rotation running through the pivot point 3.
  • the pivoting movement of the inner storage element 1 is predetermined by the course of the control curve.
  • Fig. 4 shows the pull-out device according to Fig. 2 in a partially extended position at time t2.
  • the removal position 33 shown is already partially pushed into the storage area 7 in the removal position 34.
  • the inner storage element 1 is almost completely in the corner area 6 of the corner cabinet.
  • the outer storage element 2 is still accessible for removing or positioning objects.
  • the inner storage element 1 is pivoted through an angle which is approximately 90 degrees with respect to the outer storage element 2. This means that the front side 15 of the inner storage element 1 encloses an angle of approximately 90 degrees with the rear side 25 of the outer storage element 2.
  • the outer storage element 2 is thus partially located in the storage area 7.
  • the guide element 13 of the inner storage element 1 moves in the second section 82 of the open channel of the control cam of the control device 8 when the outer storage element 2 is moved in the direction of the storage position, i.e. in the storage area 7 is moved.
  • the control cam of the control device 8 is shown with its first section 81, the second section 82 and the connecting element 85 arranged between the first and second sections 81, 82; the control cam basic element is omitted in the present illustration.
  • Fig. 5 shows the pull-out device according to Fig. 2 in a partially extended position at time t3.
  • the guide element 13 has already passed the connecting element 85 between the first section 81 and the second section 82 of the control cam.
  • the outer storage element 2 was pushed further into the storage area 7, whereby the pivot point 3 also moves in the direction of the rear wall of the corner tavern 5 and the pivoting movement of the inner storage element 1 continues.
  • the rear side 25 of the outer storage element 2 and the front side 15 of the inner storage element 1 thus enclose an obtuse angle which, according to the present illustration, can be between 100 and 150 degrees. How out Fig. 5 can be removed, the corners of the inner storage element 1 come close to the inner walls of the corner area 6 of the corner cabinet 5 in this position.
  • the control device 8 and the inner storage element 1 are designed in such a way that the inner storage element 1 cannot touch one of the inner walls of the corner cabinet 5 during this movement phase. If the edge lengths of the side surface 14 and the front side 15 of the inner storage element 1 are of the same length and, as in FIG Fig. 8 shown, have the length L and enclose an angle of 90 degrees with each other, the width b of the corner region 6 is greater than 2 * L. / 2 .
  • Fig. 6 shows the pull-out device 10 according to Fig. 2 in the installed state in bearing position 31 at time t4.
  • the outer storage element 2 is completely accommodated in the storage area 7, the inner storage element 1 is located in the corner area 6.
  • the front side 15 and the rear side 25 run essentially parallel to one another in this position, but are no longer opposite one another.
  • the front side 15 and the rear side 25 thus enclose an angle of approximately 180 degrees to one another.
  • This means that the inner storage element 1 has been pivoted in relation to the outer storage element 2 by an angle of essentially 180 degrees around the pivot point 3.
  • the side surface 14 lies essentially parallel to the side surface 26 of the outer storage element 2.
  • Fig. 9 shows a guide element 13 according to one of the preceding exemplary embodiments, which comprises a control cylinder 36 which is slidably mounted in the guide channel of the control device 8.
  • the open channel shown can be visible through a section along a vertical section plane through the first section 81 or the second section 82.
  • a corresponding open channel is arranged opposite the open channel of the section 81, 82.
  • This open channel is used for a corner cupboard, the corner area of which is shown in the illustration FIGS. 2 to 6 on the left of the storage area 7 would be.
  • the guide element 13 further comprises a holding element 37, by means of which the guide element is held in a recess of the inner storage element 1.
  • the holding element 37 can be held in the recess by means of a securing element 38 so that the guide element 13 cannot fall out of the recess in the event of impact.
  • Fig. 10 shows a further variant for a guide element 13 according to one of the preceding exemplary embodiments, the guide element 13 comprising two control cylinders 36 that are slidably mounted in the guide channel of the control device 8.
  • the open channel shown is shown in this figure as a section along a vertically extending sectional plane through the connecting element 85, which connects the first section 81 to the second section 82 of the control cam designed as an open channel.
  • a corresponding open channel is arranged opposite the open channel of the connecting element 85 or the sections 81, 82 adjoining it.
  • This additional open channel is used for a corner cabinet, the corner area of which is shown in the illustration FIGS. 2 to 6 on the left of the storage area 7 would be.
  • the guide element 13 further comprises a holding element 37, by means of which the guide element is held in a recess of the inner storage element 1.
  • the holding element 37 can be held in the recess by means of a securing element 38 so that the guide element 13 cannot fall out of the recess in the event of impact.
  • the securing element 38 can also be designed as a coupling element which surrounds the two control cylinders 36 which are slidably mounted in the open channel and which are arranged at a predetermined distance from one another by means of the coupling element. The use of two or more control cylinders 36 enables a smoother sequence of movements.
  • the holding element or the securing element 38 can contain a spring element which exerts a restoring force on the control cylinder 36 in order to better guide them in their path in the open channel.
  • the orientation of the guide element 13 can change because a rotary movement of the guide element 13 takes place, which leads to the rear control cylinder in the second section 82 becoming the front control cylinder in the first section 81, i.e. the sequence of the control cylinders 36 changes in relation to the direction of movement.
  • Fig. 11 shows a pull-out device 10 for a corner cabinet according to a second embodiment.
  • the corner cabinet is not shown in the present illustration.
  • the pull-out device 10 comprises an inner storage element 1 and an outer storage element 2 for Storage of objects, the inner storage element 1 being designed for positioning in a corner area of the corner cabinet and the outer storage element 2 being arranged for positioning in a storage area of the corner cabinet adjoining the corner area.
  • the outer storage element 2 can be displaced by means of a guide device 4 between a storage position 31 and at least one removal position 32, 33, 34, 35.
  • the removal position 32 is shown. In this removal position 32, both the storage compartments of the inner storage element 1 and the storage compartments of the outer storage element 2 are as accessible as possible.
  • This removal position 32 corresponds to that in FIG Fig. 2 shown removal position.
  • the removal position 32 is obtained when the extension device 10 is in the position of maximum extension.
  • the inner storage element 1 is rotatably connected to the outer storage element 2 in a pivot point 3 by means of a rotary element 70, so that the inner storage element 1 can be rotated around the pivot point 3 around a vertical axis of rotation 40 in relation to the outer storage element 2, the rotational movement of the inner Storage element 1 can be controlled by means of a control device 8.
  • the inner storage element 1 contains a first storage compartment 11 and a second storage compartment 12.
  • the first storage compartment 11 is arranged above the second storage compartment 12.
  • Each first and second storage compartment 11, 12 has a substantially rectangular base area.
  • One of the corners of each of the first and second storage compartments 11, 12 has a curve 28, 29.
  • the outer storage element 2 contains a first storage compartment 21, a second storage compartment 22, a third storage compartment 23 and a fourth storage compartment 24.
  • the first storage compartment 21 is arranged above all the other storage compartments. This means that the first storage compartment 21 is located above all the other storage compartments.
  • the first storage compartment 21 has a base area which, in this exemplary embodiment, essentially consists of a rectangular area.
  • the second storage compartment 22 is located below the first storage compartment 21 and, in this exemplary embodiment, has a rectangular base area.
  • the third and fourth storage compartments 23, 24 are arranged below the second storage compartment 22.
  • the third storage compartment has an essentially rectangular base area.
  • the base of the third storage compartment 23 is larger than the base of the second storage compartment 22.
  • the base of the fourth storage compartment 24 is below the base of the third storage compartment 23.
  • the base of the fourth storage compartment 24 is smaller than the base of the third storage compartment 23.
  • the third Storage compartment 23 and the fourth storage compartment 24 can be arranged on a common support frame.
  • the support frame rests on the guide device 4, which is not visible in the present illustration.
  • the arrangement of each of the storage compartments 21, 22, 23, 24 can be adapted depending on the desired storage space.
  • only a single storage compartment 21 could be provided.
  • two storage compartments could be provided which have essentially the same base area.
  • three storage compartments could be provided which have essentially the same base area.
  • the installation height of the first and second storage compartments 21, 22 can vary.
  • the installation height of the third storage compartment 23 can also vary.
  • the fourth storage compartment 24 can in particular extend over the maximum length and width of the support frame.
  • the fourth storage compartment 24 can be used to store flat objects with large dimensions standing or lying, for example plate-shaped objects.
  • a holder 27 can be provided above the second storage compartment 22.
  • the holder 27 can be used to hold elongated objects, for example rod-shaped objects.
  • Fig. 12 shows a view of the pull-out device 10 for a corner cabinet according to FIG Fig. 11 in a view from below.
  • the inner storage element 1 and the outer storage element 2 are located above the guide device 4.
  • the guide device 4 contains a first guide rail 41, which is arranged below the third storage compartment 23.
  • the first guide rail 41 is attached to the underside of the third storage compartment 23.
  • the outer storage element 2 is guided by means of the first guide rail 41, the first guide rail 41 taking up the weight of the outer storage element 2 as well as the weight of the inner storage element 1.
  • the first guide rail 41 can be connected to a first carriage element 91 which carries the outer storage element 2.
  • the weight of the outer storage element 2 is transferred from the first carriage element 91 to the first guide rail 41.
  • the inner storage element 1 is connected to the outer storage element 2 via the rotary element 70, which is arranged in the pivot point 3.
  • An exemplary embodiment for a rotary element 70 is shown in FIG Fig. 15 shown.
  • the first carriage element 91 has rollers which are guided in a second carriage element 92 which can be moved by means of a second guide rail 42.
  • the first carriage element 91 and the second carriage element 92 are thus displaceable relative to one another.
  • a third carriage element 93 is provided which has rollers on which the second carriage element 92 can slide so that the third carriage element 93 can be displaced relative to the second carriage element 92.
  • the third carriage element 93 is displaceable with respect to the guide frame 90.
  • the guide frame 90 contains rollers on which the third carriage element 93 can slide.
  • the third storage compartment 23 forms the supporting base element of the outer storage element 2.
  • a carrier element serves to stiffen the wall of the outer storage element 2. It can be formed in one piece with the wall element of the outer storage element 2 or it can be attached to the first carriage element 91.
  • Fig. 13 shows the inner storage element 1 in detail.
  • the inner storage element 1 comprises a wall element 17 as well as a lower storage compartment 12 and an upper storage compartment 11.
  • one or more additional storage compartments can be provided, which are arranged between the lower storage compartment 12 and the upper storage compartment 11.
  • the lower storage compartment 12 has a spacer 16 which is attached to its front 15.
  • the spacer 16 is used to maintain a defined distance from the rear side, not shown, of the third storage compartment 23 (see FIG Fig. 11 or Fig. 12 ) to be observed.
  • the spacer 16 can contain a magnetic element by means of which the inner storage element 1 can be coupled to the outer storage element 2.
  • the inner storage element 1 rotates about the vertical axis of rotation 40 until the front side 15 runs essentially parallel to the rear side 25 of the third storage compartment 23.
  • the magnetic element of the spacer 16 exerts an attractive force, so that the distance between the front side 15 and the rear side 25 of the third storage compartment 23 is fixed.
  • This increases the running smoothness because tilting movements cannot occur during the pull-out movement or the return movement, which can be caused, for example, by uneven loading of at least one of the storage compartments.
  • the wall element 17 has receiving elements 75, 76 which serve to receive the upper or lower storage compartment 11, 12.
  • the receiving element 75 is designed as a slot which runs in the vertical direction.
  • a plurality of such slots can be provided on the wall element 17, which are arranged at different heights.
  • the upper storage compartment 11 can thus be attached at different heights.
  • the number of slots can be greater than the number of suspension devices, so that the one or more storage compartments arranged above the lowermost storage compartment 11 can be hung into the wall element 17 of the inner storage element 1 in different numbers and / or at different distances from one another.
  • the receiving element 76 is designed as a recess.
  • the recess contains two tabs on which the side wall of the lower storage compartment 12 is held.
  • the recess can be punched out of the wall element 17 or it can have been cut out of the wall element 17, for example by means of a Laser cutting process.
  • the cut-out surface element can be bent over so that a horizontal support 77 is obtained for the lower storage compartment 12, which is shown in the view according to FIG Fig. 14 is visible.
  • the inner storage element 1 can be rotated relative to the outer storage element 2.
  • the inner storage element 1 is rotatably mounted at the pivot point 3 in relation to the outer storage element 2.
  • the axis of rotation 40 which is vertical in the installed state, runs through the pivot point 3 Fig. 15 shown in detail.
  • a first rotary element is arranged on an upper rim element 71
  • a second rotary element is arranged on a lower rim element 72.
  • the upper rim element 71 extends in the horizontal direction and can be obtained by bending the upper end region of the wall element 17.
  • the lower rim element 72 has a horizontally extending portion and a vertically extending portion.
  • the lower rim element 72 can be obtained by bending over the lower end region of the wall element 17.
  • the lower rim element 72 contains a rotary element which is arranged in the horizontally extending section.
  • FIG. 15 A detail of an exemplary embodiment of a rotary element 70 located in the pivot point 3 is shown, here a detail of the rotary element 70 located in the upper rim element 71.
  • the pivot point 3 is formed by the center of a circular opening 78 which contains a cylinder 69.
  • This cylinder 69 is arranged in the vertical direction, that is, its center axis runs parallel to the axis of rotation 40.
  • the cylinder 69 is intended to be received in the circular opening 78, which is in the upper rim element 71 or in the horizontally extending section of the lower rim element 72, as in FIG Fig. 16 shown is arranged.
  • the cylinder 69 is accommodated in an expansion cone 68 which is accommodated in a tab, not shown, of the outer support element 2.
  • the cylinder 69 has a flange element 67 which, when installed, rests on the bracket. During assembly, the expansion cone is inserted into an opening in the bracket.
  • the cylinder 69 is passed through the expansion cone until the flange element 67 rests on the bracket.
  • the side walls of the expansion cone which are designed as expansion elements, are pressed apart, as a result of which they have an outer diameter which is larger than the diameter of the opening and therefore hold the cylinder in the opening in a captive manner.
  • a clamping connection is created, as a result of which the cylinder 69 is held in the opening of the bracket.
  • only the upper end of the cylinder 69 has to be pushed through the opening 78.
  • the inner storage element 1 is thus held by its own weight in engagement with the cylinder 69 and thus with the outer storage element 2, without a rotational movement of the inner storage element 1 would thereby be hindered.
  • the two lateral shelf elements 73 and 74 extend from the upper shelf element 71 to the lower shelf element 72.
  • the two lateral shelf elements 73 and 74 serve to stiffen the wall element 17, which has to accommodate the weight of the upper and lower storage compartments 11, 12 and their contents.
  • Fig. 16 shows a detail of a guide element 13 according to a variant which is shown here in connection with the second exemplary embodiment of the pull-out device 10.
  • the guide element 13 has a rotatable roll holder 80 fastened to the lower shelf element 72, on which has a first and a second roll 79, which are rotatably mounted in the roll holder and are arranged here next to one another, i.e. at the same height in the installed state.
  • the two rollers 79 are spaced apart from one another so that they form a cam element 86 of the control device 8 according to the method shown in FIG Fig. 11 the Fig. 12 can accommodate illustrated second embodiment.
  • Fig. 17 shows the pull-out device 10 for a corner cupboard according to the second embodiment in the partially extended state.
  • the corner cabinet is not shown in the present illustration.
  • the pull-out device 10 comprises an inner storage element 1 and an outer storage element 2 for storing objects, the inner storage element 1 being designed for positioning in a corner area of the corner cabinet and the outer storage element 2 being arranged for positioning in a storage area of the corner cabinet adjoining the corner area .
  • the outer storage element 2 can be displaced by means of a guide device 4 between a storage position 31 and at least one removal position 32, 33, 34, 35. In Fig. 17 the removal position 34 is shown. In this removal position 34, the storage compartments of the inner storage element 1 can still be seen and the storage compartments of the outer storage element 2 are accessible.
  • the angle between the plane containing the front side 15 of the lower storage compartment 12 and the plane containing the rear side 25 of the third storage compartment 23 is less than 90 degrees.
  • the removal position 34 is obtained as soon as the pull-out device 10 is removed from the in Fig. 11 or Fig. 12 position of the maximum extension shown is moved.
  • the inner storage element 1 is rotatably connected to the outer storage element 2 at a pivot point 3, so that the inner storage element 1 is rotatable about the pivot point 3 around a vertical axis of rotation 40 with respect to the outer storage element 2, the rotational movement of the inner storage element 1 by means of a Control device 8 is controllable.
  • the inner storage element 1 contains a first storage compartment 11 and a second storage compartment 12.
  • the first storage compartment 11 is above the second Storage compartment 12 arranged.
  • Each first and second storage compartment 11, 12 has a substantially rectangular base area. At least one of the corners of each of the first and second storage compartments 11, 12 has a curve 28, 29.
  • the outer storage element 2 contains a first storage compartment 21, a second storage compartment 22, a third storage compartment 23 and a fourth storage compartment 24.
  • the first storage compartment 21 is arranged above all the other storage compartments.
  • the third storage compartment 23 and the fourth storage compartment 24 can be arranged on a common support frame. The support frame rests on the guide device 4.
  • each of the storage compartments 21, 22, 23, 24 can be adapted depending on the desired storage space. Alternatively, according to an exemplary embodiment not shown, only a single storage compartment 21 could be provided. Alternatively, two storage compartments could be provided which have essentially the same base area. Alternatively, three storage compartments could be provided which have essentially the same base area.
  • the installation height of the first and second storage compartments 21, 22 can vary.
  • the installation height of the third storage compartment 23 can also vary.
  • the fourth storage compartment 24 can in particular extend over the maximum length and width of the support frame. For example, the fourth storage compartment 24 can be used to store flat objects with large dimensions standing or lying, for example plate-shaped objects.
  • a holder 27 can be provided above the second storage compartment 22.
  • the holder 27 can be used to hold elongated objects, for example rod-shaped objects.
  • Fig. 18 shows the pull-out device 10 for a corner cupboard according to the second embodiment in the partially extended state.
  • the corner cabinet is not shown in the present illustration. All related to Fig. 17 The components and functions described can also be found in this figure, so please refer to the description Fig. 17 referenced.
  • the outer storage element 2 can be displaced by means of a guide device 4 between a storage position 31 and at least one removal position 32, 33, 34, 35. In Fig. 18 the removal position 33 is shown. In this removal position 33, the storage compartments of the inner storage element 1 can no longer be seen, but the storage compartments of the outer storage element 2 are still accessible.
  • the angle between the plane containing the front side 15 of the lower storage compartment 12 and the plane containing the rear side 25 of the third storage compartment 23 is less than 90 degrees. But the angle is larger than that in Fig. 17 shown angles.
  • the removal position 33 is obtained as soon as the pull-out device 10 is removed from the in Fig. 17 position shown is shifted in the direction of the closed position.
  • FIG. 19 show the pull-out device 10 for a corner cupboard according to the second exemplary embodiment in the partially extended state.
  • the corner cabinet is not shown in the present illustration. All related to Fig. 17 components described and Functions can also be found in the following illustrations, so please refer to the description Fig. 17 referenced.
  • the outer storage element 2 can be displaced by means of a guide device 4 between a storage position 31 and at least one removal position 32, 33, 34, 35. In 19, 20 and Fig. 21 the removal position 32 is shown. In this removal position 32, the storage compartments of the inner storage element 1 can no longer be seen, but the storage compartments of the outer storage element 2 can still be seen and at least partially accessible.
  • the angle between the plane containing the front side 15 of the lower storage compartment 12 and the plane containing the rear side 25 of the third storage compartment 23 is more than 90 degrees but less than 180 degrees.
  • the removal position 34 is obtained as soon as the pull-out device 10 is removed from the in Fig. 18 is moved further in the direction of the storage position.
  • Fig. 22 shows the pull-out device 10 for a corner cabinet according to the second embodiment in the retracted state.
  • the corner cabinet is not shown in the present illustration.
  • the corner cabinet is in the closed state. All related to Fig. 17
  • the components and functions described can also be found in this figure, so please refer to the description Fig. 17 referenced.
  • the outer storage element 2 can be displaced by means of a guide device 4 between a storage position 31 and at least one removal position 32, 33, 34, 35.
  • the storage position 31 is shown.
  • the storage compartments of the inner storage element 1 can no longer be seen, the storage compartments of the outer storage element 2 can still be seen, but are no longer accessible for removing or storing objects.
  • the angle between the plane containing the front side 15 of the lower storage compartment 12 and the plane containing the rear side 25 of the third storage compartment 23 is 180 degrees.
  • Fig. 23 shows an exploded view of the outer storage element 2.
  • the example of the outer storage element 2 is intended to illustrate the possibility of assembling the pull-out device from several modules, some of which can be used optionally.
  • the first, second and fourth storage compartments 21, 22, 24 each represent a unit that can be used optionally. These storage compartments 21, 22, 24 can be used if necessary, but they can also be removed without the functionality of the pull-out device being impaired as a result.
  • the shape of the storage compartments is only shown as an example; storage compartments of other shapes and / or sizes could also be used.
  • divider sheets can be provided, by means of which the available storage space can be further subdivided. Hanging devices could also be used, for example for the storage of sheet-shaped or plate-shaped objects or tools.
  • the storage compartments could also be adaptable in size, for example they could be pulled out. Instead of storage compartments with solid profiles, wire racks, wire baskets or the like could also be used.
  • the storage compartment 23 shows that such a storage compartment can also consist of several sub-elements.
  • the storage compartment 23 consists of a base element 18, a side cover element 19, a front cover element 39, a rear side 25 and a wall element 20.
  • the base element 18 rests on the first carriage element 91, on the underside of which the first, not shown here Guide rail 41 is attached.
  • the wall element 20 is held in the first carriage element 91 by means of plug connections; in the present illustration it adjoins its right-hand edge.
  • the wall element 20 could in the same way connect to the left-hand edge of the carriage element 20, since the plug connections can be arranged mirror-symmetrically with respect to a plane of symmetry arranged parallel to the wall element 20.
  • the rear side 25, the side cover element 19, the front cover element 39 can also be connected to one another and / or to the first carriage element 91 or the wall element 20 by means of plug connections.
  • the entire arrangement of the wall element 20, the rear side 25, the side cover element 19, the front cover element 39 can be arranged mirror-symmetrically on the first carriage element 91, so that the pull-out device for corner cabinets can be used directly for any arranged room corners without structural changes to the sub-elements.
  • the wall element 20 contains a plurality of recesses, for example in the form of vertical slots.
  • the first or second storage compartments 21, 22 or a holder 27 can be arranged at any height and spatial arrangement relative to one another.
  • the storage compartments 21, 22 and the holder 27 have corresponding suspension elements which are suspended in the associated slots.
  • two suspension elements are provided on each of the corresponding front and rear sides, the vertical spacing of which corresponds to the spacing of the associated slots in the wall element.
  • the rear side 25 and the front cover element 39 can also have hanging elements which are designed to be received in corresponding recesses in the wall element 20. These recesses can also be designed as slots.
  • other types of plug connections or clip connections can also be provided, depending on whether the pull-out device is to be dismantled or not.
  • Fig. 24 shows a detail of an arrangement for a guide element according to a fourth embodiment in a view from below and Fig. 25 a detail of the arrangement of the guide element 13 according to the fourth embodiment in a side view.
  • the arrangement shows the guide element 13, the wall element 20 and part of a control device 8.
  • control device 8 comprises a control curve.
  • the control cam can be designed for installation on the left-hand side in the corner cabinet (not shown here) and as a mirrored control curve for installation on the right-hand side in the corner cabinet.
  • control cam can be arranged in a stationary manner on the floor of the corner cabinet (not shown).
  • control device 8 is also fastened to the guide frame 90; alternatively or in addition to this, an adhesive connection or fastening on the floor of the corner cabinet is possible, for example with a screw connection.
  • the control cam comprises a first section 81 which has a straight section which is arranged at a first angle with respect to the side edge of the guide frame 90.
  • the control cam comprises a second section 82 which has a straight section which is arranged at a second angle with respect to the side edge of the guide frame 90.
  • a connecting element 85 which is curved at least in sections, is located between the two straight sections.
  • control cam is designed as a guide rail for the guide element 13 for the inner storage element 1, of which only the wall element 20 is visible at this point.
  • the first section 81 is connected to the second section 82 via the connecting element 85.
  • the guide element 13 is guided by the guide rail, which is not visible in the present illustration, since the guide element 13 is not in engagement with the control cam in the extended position.
  • the guide element 13 is arranged on the underside of the wall element 20 of the inner storage element 1. According to the present embodiment, the guide element 13 is located near the side surface 14 or directly adjacent to the side surface 14 of the inner storage element 1. The distance A of the guide element 13 from the front side 15 of the inner storage element 1 opposite the outer storage element 2 is at most half the length L of the inner storage element 1 or its wall element 20.
  • the guide element 13 is attached to the underside of the wall element 20.
  • the wall element 20 has a strip element 45 which is oriented in the horizontal direction.
  • the guide element 13 is attached to the underside of the strip element 45.
  • the guide element 13, which in Figs. 26 and 27 is shown in detail, has a guide element body 87 according to this embodiment.
  • the guide element body 87 contains a first lateral guide element 88 and a second lateral guide element 89.
  • the first lateral guide element 88 is arranged opposite the second lateral guide element 89.
  • the first lateral guide element 88 is at a distance from the Second lateral guide element 89 is arranged, which corresponds at least to the rail width of the guide rail, so that a slot is formed.
  • the distance between the first lateral guide element 88 and the second lateral guide element 89 can be different in the longitudinal direction of the slot.
  • the longitudinal direction here is understood to mean a straight line running through the plane of symmetry of the first and second lateral guide elements 88, 89, which in the installed state extends in an essentially horizontal direction.
  • At least one of the first and second lateral guide elements 88, 89 can also be arranged pivotably about a vertical pivot axis in order to enable a change in direction of the corresponding lateral guide element, which can be predetermined by the first and second sections 81, 82 and the connecting element 85 of the control device, if the first and second lateral guide elements 88, 89 are in engagement with the guide rail.
  • the bar element 45 contains a deflecting element 60.
  • This deflecting element 60 supports the pivoting movement of the inner storage element 1 when it is moved from the in FIG Fig. 4 position drawn in the in Fig. 5 drawn position is moved or vice versa.
  • the deflecting element 60 is accommodated in a receiving element 65 fixedly attached to the floor of the corner cabinet, so that the pivoting movement can be stabilized, in particular in the area of the connecting element 85, and any tilting movement of the inner storage element 1 is avoided, as well as a substantially shock-free pivoting movement of the inner storage element 1 will when it is in the in Fig. 6 storage position 31 shown is moved.
  • the receiving element 65 is attached to a floor of a corner cabinet, not shown in the present illustration.
  • the deflecting element 60 can contain a pin element 61 which is fastened to the strip element 45.
  • a roller element 62 can be arranged on the pin element 61, which roller element can in particular be arranged so as to be rotatable about the center axis of the pin element 61.
  • the receiving element 65 can have a U-shaped recess 66 which is intended to receive the roller element 62.
  • Fig. 26 shows the guide element 13, which in Fig. 24 or Fig. 25 is used in a first view and Fig. 27 the guide element 13 according to Fig. 26 in a second view.
  • the guide element consists of the guide element body 87, which contains a first lateral guide element 88 and a second lateral guide element 89.
  • the guide element 13 is thus formed in one piece.
  • the guide element 13 can contain a plastic or consist of a plastic.
  • the slot formed by the first and second lateral guide elements 88, 89 has a variable slot width. Expanded according to the present exemplary embodiment the slot at both slot ends so that the guide element can slide on the guide rail formed by the control cam.

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  • Combinations Of Kitchen Furniture (AREA)
EP19202558.3A 2019-10-10 2019-10-10 Dispositif d'extraction pour armoire de coin Active EP3804564B1 (fr)

Priority Applications (1)

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EP19202558.3A EP3804564B1 (fr) 2019-10-10 2019-10-10 Dispositif d'extraction pour armoire de coin

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Application Number Priority Date Filing Date Title
EP19202558.3A EP3804564B1 (fr) 2019-10-10 2019-10-10 Dispositif d'extraction pour armoire de coin

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EP3804564B1 EP3804564B1 (fr) 2023-08-30

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE202023102161U1 (de) 2022-09-08 2023-12-11 Kesseböhmer Holding Kg Auszugvorrichtung für einen Schrank, insbesondere einen Eckschrank
EP4335322A1 (fr) 2022-09-08 2024-03-13 Kesseböhmer Holding Kg Dispositif d'extraction pour une armoire, en particulier une armoire d'angle

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE19514009A1 (de) * 1995-04-13 1996-10-17 Vauth Sagel Gmbh & Co Eckschrank zum Aufstellen in einer Raumecke
EP1050246A2 (fr) * 1999-05-05 2000-11-08 Peka-Metall Ag Placard
EP1591039A1 (fr) 2004-04-26 2005-11-02 Peka-Metall Ag Dispositif de coulissement pour meuble d'angle
EP1925237A2 (fr) 2006-11-27 2008-05-28 Hetal-Werke Franz Hettich GmbH & Co. KG Armature pour une armoire angulaire et armoire angulaire

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE19514009A1 (de) * 1995-04-13 1996-10-17 Vauth Sagel Gmbh & Co Eckschrank zum Aufstellen in einer Raumecke
EP1050246A2 (fr) * 1999-05-05 2000-11-08 Peka-Metall Ag Placard
EP1591039A1 (fr) 2004-04-26 2005-11-02 Peka-Metall Ag Dispositif de coulissement pour meuble d'angle
EP1925237A2 (fr) 2006-11-27 2008-05-28 Hetal-Werke Franz Hettich GmbH & Co. KG Armature pour une armoire angulaire et armoire angulaire

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE202023102161U1 (de) 2022-09-08 2023-12-11 Kesseböhmer Holding Kg Auszugvorrichtung für einen Schrank, insbesondere einen Eckschrank
EP4335322A1 (fr) 2022-09-08 2024-03-13 Kesseböhmer Holding Kg Dispositif d'extraction pour une armoire, en particulier une armoire d'angle
DE102022122884A1 (de) 2022-09-08 2024-03-14 Kesseböhmer Holding Kg Auszugvorrichtung für einen Schrank, insbesondere einen Eckschrank

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