FURNITURE FITTING

Abstract

A furniture fitting includes a mounting device for releasably fastening the furniture fitting to one of two furniture parts, an actuating device which can be connected to the other of the two furniture parts and which is mounted so as to be movable relative to the mounting device, an energy accumulator which has a spring element formed from a wire, an the spring element is designed as a coil spring, and a force transmission mechanism by which energy which can be deposited in the energy accumulator can be transmitted to the actuating device. The wire has, in a cross-section normal to a longitudinal axis of the at least one wire, an outer contour which deviates from a circular shape.

Claims

1. A furniture fitting for movably mounting at least one first furniture part relative to a second furniture part, preferably wherein the furniture fitting is formed as a flap fitting for movably mounting a furniture flap relative to a furniture carcass, comprising: at least one mounting device for releasably fastening the furniture fitting to one of the two furniture parts; at least one actuating device, which can be connected to the other of the two furniture parts, and which is mounted movably relative to the at least one mounting device; at least one energy storage mechanism, which has at least one spring element made of at least one wire, wherein the at least one spring element is formed as a coil spring; at least one force transmission mechanism, via which energy, which can be deposited in the at least one energy storage mechanism, can be transmitted to the at least one actuating device; wherein the at least one wire has, in a cross section normal to a longitudinal axis of the at least one wire, an outer contour deviating from a circular shape.

2. The furniture fitting according to claim 1, wherein the at least one wire has, over a predominant part of its length, preferably over the entire length, an outer contour deviating from a circular shape, and preferably constant, in a cross section normal to a longitudinal axis of the at least one wire.

3. The furniture fitting according to claim 1, wherein the outer contour is formed oval, elliptical, egg-shaped, polygonal or rectangular with rounded narrow sides.

4. The furniture fitting according to claim 1, wherein the outer contour has, in the cross section normal to the longitudinal axis, a minimal extent in a first direction and a maximal extent in a second direction perpendicular to the first direction, preferably wherein the at least one spring element has a central axis and the first direction is oriented parallel to the central axis, and/or the maximal extent is greater than the minimal extent by a factor of 1.1 to 1.5, particularly preferably by a factor of 1.25.

5. The furniture fitting according to claim 1, wherein the at least one spring element is formed as a compression spring.

6. The furniture fitting according to claim 1, wherein the at least one spring element is formed from a spring steel, and/or at least one spring guide is provided to guide the at least one spring element, and/or the at least one energy storage mechanism has a plurality of, preferably two, spring elements, and/or the at least one spring element is arranged rotatably on the at least one mounting device, and/or the actuating device has at least one actuating arm or at least one actuating arm nub, which can be connected to an actuating arm extension.

7. The furniture fitting according to claim 1, wherein the at least one actuating device is mounted pivotably relative to the at least one mounting device about a swivel pin, which runs preferably horizontally in a usage position.

8. The furniture fitting according to claim 1, wherein the at least one force transmission mechanism has at least one pressure piece, preferably a pressure roller, and at least one control contour, on which the at least one pressure piece can be or is mounted displaceably, wherein preferably the at least one control contour is formed on the at least one actuating device.

9. The furniture fitting according to claim 1, wherein the at least one force transmission mechanism has at least one lever, preferably wherein the lever is mounted pivotably on the mounting device, and/or the energy storage mechanism is linked via an application point to the lever, particularly preferably the application point is adjustable by means of at least one adjusting device relative to the lever.

10. The furniture fitting according to claim 1, wherein the furniture fitting has at least one adjusting device, with which the energy that can be transmitted via the at least one force transmission mechanism to the at least one actuating device is adjustable, preferably wherein a spring pretensioning of the at least one spring element is adjustable by the at least one adjusting device, and/or the at least one energy storage mechanism is mounted pivotably on the at least one mounting device and is pivotable by the at least one adjusting device relative to the at least one mounting device.

11. The furniture fitting according to claim 1, wherein the furniture fitting has at least one damping device for damping the movement of the at least one actuating device in a closing and/or opening direction, wherein the at least one damping device interacts with the at least one energy storage mechanism, the at least one force transmission mechanism and/or the at least one actuating device.

12. The furniture fitting according to claim 1, wherein the at least one mounting device has a mounting plate, preferably formed at least partly as a housing part of the furniture fitting, for releasable fastening to one of the two furniture parts.

13. A piece of furniture with at least one first furniture part, at least one second furniture part and at least one furniture fitting according to claim 1, wherein the two furniture parts are mounted movably relative to one another via the at least one furniture fitting.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0052] Further details and advantages of the invention forming the subject-matter result from the following description of the figures, in which:

[0053] FIG. 1 is a perspective view of a piece of furniture,

[0054] FIG. 2 is a perspective view of a furniture fitting,

[0055] FIG. 3a is a perspective view of a spring element,

[0056] FIG. 3b is a detailed view of FIG. 3a, and

[0057] FIG. 4 are various cross sections of various embodiments of spring elements.

DETAILED DESCRIPTION OF THE INVENTION

[0058] FIG. 1 shows a perspective view of a piece of furniture 1, which has a furniture carcass 2 and a movably mounted furniture flap 3. The furniture flap 3 of this embodiment example is formed from a first furniture part 4 and the further furniture part 5. The furniture carcass 2 consists of a second furniture part 6, a top panel 7, a bottom panel 8 and a rear wall 9.

[0059] The piece of furniture represented in FIG. 1 is represented in a section for better illustration of the interior. Through this section it is to be recognized how the furniture fitting 10 is fastened to the furniture carcass 2 and how, via the furniture fitting 10, more precisely the actuating arm 11 of the furniture fitting 10, the furniture flap 3 is mounted movably relative to the furniture carcass 2.

[0060] FIG. 2 shows a perspective view of the furniture fitting 10, wherein a cover flap is open in order to reveal the interior of the furniture fitting 10 with its functional elements.

[0061] The furniture fitting 10 has a mounting device 12, which is used to be able to attach the furniture fitting 10 releasably to a second furniture part 6. This mounting device 12 in this embodiment example has a mounting plate 27, which is formed as part of a housing of the furniture fitting 10.

[0062] A first furniture part 4 can be mounted tiltably relative to the mounting device 12 via an actuating device 13. This actuating device 13 in this specific embodiment example has an actuating arm nub 20, which can be connected to an actuating arm extension attached to the first furniture part 4 in order to form a complete actuating arm 11.

[0063] The actuating arm nub 20 of the actuating device 13 is arranged rotatably via the swivel pin 30 on the mounting device 12, more precisely on the mounting plate 27.

[0064] The actuating device 13 has (seen towards the swivel pin 30 in the opposing part of the actuating arm nub 20) a control contour 21, which is connected for coherent movement to the actuating arm nub 20. More precisely, the actuating arm nub 20 and the control contour 21 are formed in one piece in this exemplary embodiment and mounted rotatably about the swivel pin 30.

[0065] A pressure roller 22 of the force transmission mechanism 17 is mounted or guided on the control contour 21.

[0066] The force transmission mechanism 17 of this embodiment example has a lever 23, which lever 23 is mounted pivotably on the mounting device 12.

[0067] The already named pressure roller 22, which is guided via the lever 23 on the control contour 21, is arranged on the lever 23.

[0068] Due to the guidance of the pressure roller 22 on the control contour 21, the lever 23 is tilted relative to the mounting device 12 when the control contour 21 is rotated about the swivel pin 30.

[0069] Due to this tilting of the lever 23 relative to the mounting device 12, the energy storage mechanism 14 linked via the application point 24 to the lever 23 is moved.

[0070] During a closing movement of the actuating arm nub 20, the energy storage mechanism 14 is loaded with energy, wherein the energy storage mechanism 14 stores this energy and at the same time a counterforce to the closing movement is transmitted via the energy storage mechanism 14 to the actuating arm nub 20.

[0071] Energy can consequently be deposited in the energy storage mechanism 14 via the force transmission mechanism 17.

[0072] During an opening movement, this deposited energy of the energy storage mechanism 14 can be released, whereby an opening movement executed by the operator can be supported.

[0073] Due to this supporting of this opening movement, the operator does not have to apply the entire force required to lift the first furniture part 4 and it can further be provided that the first furniture part 4 can be held by the energy storage mechanism 14 in any position relative to the second furniture part 6 against its weight, with the result that an operator can safely let go of the first furniture part 4 from outside the end positions of the furniture fitting 10.

[0074] The energy storage mechanism 14 is used to apply force to the lever 23 and thus to the actuating arm nub 20 and in this embodiment example has two spring elements 15, which are formed as coil springs, in particular compression springs.

[0075] The energy storage mechanism 14 is supported with a first end region on a supporting part 28, which is pivotable about the swivel pin 29. A second end region of the energy storage mechanism 14 is mounted on the application point 24, which is connected to the lever 23.

[0076] Via an adjusting device 25 (which is not to be recognized in this embodiment example) the application point 24 of the energy storage mechanism 14 can be locked in place on the lever 23 and a spring pretensioning of the spring elements 15 can be adjusted.

[0077] For this purpose the adjusting device 25 has a threaded spindle, which can be actuated by an adjusting tool from the front side (below the actuating device 15). This threaded spindle is mounted on the mounting device 12 and interacts with a corresponding counterpart on the application point 24 of the energy storage mechanism 14 on the lever 23, wherein the application point 24 on the lever 23 is adjustable along a contour 31 of the lever 23.

[0078] Through the locking in place of the application point 24 of the energy storage mechanism 14 on the contour 31 of the lever 23, the energy storage mechanism 14 is tilted about the swivel pin 29, whereby a relative distance between the swivel pin 29 and the application point 24 is altered.

[0079] Through the alteration of this relative distance, the spring pretensioning of the spring elements 15 can be varied on the one hand and on the other hand a lever arm, which are altered by the force exerted by the energy storage mechanism 14 on the lever 23, whereby the force that can be transmitted via the force transmission mechanism 17 to the actuating device 13 is adjustable.

[0080] Through the movement of the application point 24 on the contour 31 of the lever 23, an indicator element 32 is pivoted about the pivot pin 33 relative to the lever 23. This pivoting of the indicator element 32 about the pivot pin 33 is brought about because the application point 24 moves between indicator element 32 and contour 31 of the lever 23 and a corresponding distance between the indicator element 32 and the lever 23 changes. The indicator element 32 can be pretensioned, for example, by a spring element in the direction of the contour 31 of the lever 23.

[0081] At a lower end, for example, the indicator element 32 can have an indicator scale, which can be read from outside the housing of the furniture fitting 10 through a corresponding slot in the mounting device 12.

[0082] Through the twisting or tilting of the indicator element relative to the lever 23 and thus relative to the mounting device 12, this indicator scale is moved, with the result that for adjusting the energy storage mechanism 14 the indicator scale can be read or observed by an operator from outside via the slot in the housing.

[0083] Furthermore, the energy storage mechanism 14 has a spring guide in the interior of the spring elements 15. This spring guide is formed rotationally symmetrical and rests on an inner surface of the spring elements 15, with the result that these spring elements 15 cannot tilt out in a direction transverse to the operating direction when pressure or tension is applied.

[0084] The furniture fitting has a damping device 26 for damping the movement of the at least one actuating device 13 in a closing and/or opening direction, wherein the damping device 26 interacts with the energy storage mechanism 14, the force transmission mechanism 17 and the actuating device 13.

[0085] The damping device 18 can [0086] be formed as a fluid damper and/or [0087] have at least one piston-cylinder unit and/or [0088] be able to be acted on by the actuating device 13 during a closing movement and/or [0089] be able to be acted on from the same side both during an opening movement and during a closing movement of the actuating device.

[0090] FIG. 3a shows a perspective view of one of the spring elements 15 from the previously named embodiment example, wherein the spring element 15 is represented cut along its central axis 19. FIG. 3b shows detail view B, which is marked in FIG. 3a.

[0091] It is thus to be recognized in FIG. 3a how the spring element 15 is formed by a wire 16, which winds or extends along a helical surface around a central axis 19.

[0092] This wire 16 is formed along the screw axis (called longitudinal axis of the wire below) with a constant cross section.

[0093] Detail B represented in FIG. 3b, which is marked in FIG. 3a, shows the wire 16 in an enlarged representation in a cross section normal to the longitudinal axis of the wire 16.

[0094] The outer contour 18 of the wire 16 in this section is formed oval, wherein the outer contour 18 in the cross section normal to the longitudinal axis has a minimal extent in a first direction 34 and a maximal extent in a second direction 35 (perpendicular to the first direction 34), wherein the maximal extent is greater than the minimal extent by a factor of 1.25.

[0095] The first direction 34 is oriented parallel to the central axis 19.

[0096] FIG. 4 shows alternative embodiments of wire cross sections of the wire 16, which forms a spring element 15, wherein only the outer contours 18 of the wire 16 (cf. also FIG. 3b regarding this) are shown.

[0097] In this FIG. 4, outer contours 18 of the wire 16 are to be recognized, which are rectangular, elliptical, oval, rectangular with rounded narrow side faces, rectangular with rounded corners, polygonal or egg-shaped.

LIST OF REFERENCE NUMBERS

[0098] 1 Piece of furniture
2 Furniture carcass
3 Furniture flap
4 First furniture part
5 Further furniture part
6 Second furniture part
7 Top panel
8 Bottom panel
9 Rear wall
10 Furniture fitting

11 Actuating arm

[0099] 12 Mounting device
13 Actuating device
14 Energy storage mechanism
15 Spring element

16 Wire

[0100] 17 Force transmission mechanism
18 Outer contour of the wire
19 Central axis of the spring element

20 Actuating arm nub

[0101] 21 Control contour
22 Pressure roller

23 Lever

[0102] 24 Application point
25 Adjusting device
26 Damping device
27 Mounting plate
28 Supporting part

29 Swivel pin

30 Swivel pin

31 Contour

[0103] 32 Indicator element

33 Pivot pin

[0104] 34 First direction
35 Second direction