EP4183962A1 - Drive device having an electric motor for moving a movable furniture part relative to a furniture body - Google Patents

Abstract

A drive device with an electric motor for moving a movable furniture part relative to a furniture body is proposed, with the torque of the motor being transferrable to a furniture fitting, with the rotational movement of the motor causing the furniture fitting and thus the movable furniture part to move in the opening and closing direction , wherein the drive device has a clutch, the clutch having an input and an output, a spring element being arranged between the input and the output, wherein a torque of the motor can be transmitted to the input and from the input to the output. According to the invention, the spring element has a winding and two ends protruding for winding the spring element, with the drive having two recesses, with one end of the spring element being accommodated in an associated recess in the drive, with the spring element being designed in such a way that the spring element, through the position of the ends in the recesses predetermines a largely fixed positioning of the ends and a torque as a result of a contact force of the spring element on the output, with the spring element transmitting the predeterminable torque from the input to the output.

Description

State of the art

Drive devices for moving a movable furniture part relative to a furniture body are already known, with the known drive devices having a clutch in order to decouple when a torque is exceeded.

Object and advantages of the invention

The object of the invention is to provide an improved drive device for moving a movable furniture part relative to a furniture body, in particular with regard to a compact and simple design.

The object is solved by the features of the independent claims.

Advantageous and expedient embodiments, variants and developments of the invention are set out in the dependent claims.

The invention is based on a drive device with an electric motor for moving a movable furniture part relative to a furniture body, the torque of the motor being transferrable to a furniture fitting, the rotational movement of the motor causing the furniture fitting and thus the movable furniture part to move in the opening and opening positions Closing direction causes, wherein the drive device has a clutch, wherein the clutch has a drive and output, wherein a spring element is arranged between the drive and the output, wherein a torque of the engine can be transmitted to the drive and from the drive to the output.

Advantageously, the drive device can be retrofitted to an existing furniture fitting that is designed conventionally or without a drive device. The furniture fitting is preferably designed for a flap, in particular a top flap, or a cabinet door. The drive device preferably has a coupling element for subsequent attachment to the furniture fitting, which can be connected to a housing of the furniture fitting, e.g. via screws. The coupling element can be designed, for example, as a plate or housing, with the components of the drive device preferably being accommodated on or in the coupling element. The furniture fitting advantageously has a housing, in which case the housing of the furniture fitting and the coupling element can be accommodated in a recess in a side wall of the furniture body, in particular so that the housing of the furniture fitting and the coupling element are flush with the surface of the side wall or are slightly raised to the surface of the sidewall.

The drive device preferably has a transmission, the transmission preferably having at least one transmission element, such as. e.g. a gear wheel. The transmission preferably has a plurality of transmission elements. The transmission elements are preferably designed as double gears. In the case of a double gear, a larger gear and a smaller gear are preferably arranged one above the other.

Advantageously, the torque of the engine can be transmitted to the transmission, with transmission elements preferably following the engine on the output side, with one transmission element preferably engaging in the clutch. It is also conceivable that the drive device does not have a gear, but instead, for example, a drive shaft of the Motor engages directly in the clutch or acts on the clutch to transmit torque.

The drive device preferably has a lever, the lever advantageously being able to be connected, in particular detachably connected, to a part of the furniture fitting, for example by means of connecting means such as screws. For example, the lever can be connected to an arm or swivel arm of the furniture fitting. The lever is preferably arranged after the clutch and is preferably connected to the output of the clutch. Another transmission element can also follow the clutch, in which case the lever is preferably connected to the transmission element. In this case, the lever is preferably pivoted by the rotary movement of the transmission element or the clutch. Thus, the lever is connected at one end to the arm or swivel arm of the furniture fitting and at the other end to the transmission element or to the clutch, in particular the output of the clutch, preferably detachably connected.

The lever of the drive device can also be subsequently connected to the arm of the furniture fitting. A piece of furniture can thus advantageously be retrofitted with a drive device for motorized movement of the furniture fitting or the movable furniture part. The rotary movement of the motor is transmitted to the gear during operation, with the lever being moved, as a result of which the movable furniture part can be moved in the opening and closing direction by means of the furniture fitting.

A rotational movement of the motor is preferably transmitted via the gear to the drive of the clutch, with the rotational movement being transmitted from the drive via the spring element to the output in the coupled position of the clutch, with the output transferring the rotational movement to the lever, for example, and thus to the furniture fitting transmits. Preferably, the rotary movement of the furniture fitting or a rotatable part of the Furniture fitting moves the movable furniture part in the opening and closing direction, depending on the direction of rotation of the part of the furniture fitting. Advantageously, the motor can rotate in both directions of rotation, so that the furniture fitting or the movable furniture part can be moved in a driven manner in the opening and closing direction via the drive device.

The core of the invention is that the spring element has a winding and has two ends protruding for winding the spring element, the drive having two recesses, one end of the spring element being received in an associated recess in the drive, the spring element being configured in this way that the spring element, through the position of the ends in the recesses, a largely fixed positioning of the ends and through a bearing force of the spring element on the output, specifies a torque, the spring element transmitting the specified torque from the drive to the output.

Advantageously, the drive includes a gear wheel section. The drive preferably has a hollow cylinder section with a cavity, the outer contour preferably having the tooth contour. Furthermore, the inner contour of the hollow cylinder section is preferably circular or concave. Furthermore, the recesses for the protruding ends of the spring element are preferably formed on the inner contour. The recesses are advantageously designed to be recessed in the inner contour of the hollow cylinder section, so that the protruding ends of the spring element cannot be moved out of the recesses in the inner contour.

The inner contour of the drive is preferably arranged opposite the output, with the output preferably being partially accommodated in the cavity of the hollow cylinder section of the drive.

It is advantageous that the two ends of the spring element protrude from the winding radially to the axis of rotation in the direction of the drive.

The axis of rotation preferably runs centrally through the winding or centrally through the cylindrical section of the output, with the winding or the outer surface of the cylindrical section of the output radially surrounding the axis of rotation. The two ends of the spring element protrude in the radial direction to the axis of rotation, so that the ends of the spring element protrude in the direction of the inner contour of the hollow cylinder section and these ends are embedded in the recesses on the inner contour of the hollow cylinder section.

It is advantageous that the winding of the spring element is twisted by a maximum of 4°, 3°, 2°, 1° in relation to the recesses.

The recesses on the drive are advantageously matched to the configuration of the spring element, in particular the protruding ends of the spring element. If the protruding ends of the spring element are spaced 180° apart from one another, for example, then the recesses on the drive are also spaced 180° apart from one another. The protruding ends of the spring element are preferably spaced apart from one another by 180° to 240° along the winding direction. Advantageously, the recesses in the drive are fixed in position relative to one another.

The recesses in the drive are preferably designed in such a way that the protruding ends of the spring element can be moved within the recesses by a minimum, for example 3 mm. However, if the first end of the spring element is moved within the first recess, the movement is preferably transmitted to the other or second end of the spring element, with the second end of the spring element moving into the same within the second recess Direction and the same way as the first end of the spring element moves.

It is also advantageous that the predefinable torque, which can be transmitted from the input to the output at engine power, is the same in both directions of rotation.

The protruding ends of the spring element are advantageously designed in such a way that the set torque is the same or essentially the same in both directions of rotation. The two ends of the spring element are preferably designed in the same way, e.g. identically. The protruding ends of the spring element preferably protrude identically, in particular at the same angle, from the winding of the spring element in the direction of the drive.

The recess on the drive is preferably designed in the form of a groove or the recess forms a U-shape in cross section, with two legs of the U-shape forming an edge contour which are connected by a connecting surface. At least one edge contour of the recess of the drive preferably rests against the protruding end of the spring element. Furthermore, a protruding end of the spring element can rest against the respective edge contour of the corresponding recess in which the protruding end of the spring element is arranged.

The drive is preferably moved in one direction of rotation by the motor, with a transmission element of the transmission, which is preferably arranged between the motor and the clutch, engaging in the tooth contour of the gear wheel of the drive. The edge contour of the recess of the drive presses on at least one protruding end of the spring element, so that the spring element is moved by the drive in the direction of rotation specified by the motor. The rotation is preferably transmitted without slip from the drive through the spring element to the output when the specified torque is not exceeded, so that the output couples with the drive or the spring element. The drive and thus also the output can advantageously be rotated to the left or right or clockwise or counterclockwise to the axis of rotation.

It is also advantageous that the spring element is designed as a wrap spring, with a spiral winding and two protruding ends.

The wrap spring is preferably made of metal. Preferably, an entanglement begins at the first protruding end, the first protruding end being followed by the helical winding and the second protruding end being connected to the helical winding. Thus, the first protruding end is preferably spaced apart from the second protruding end, since the winding is arranged between the two ends. The axial distance between the two projecting ends is dictated by the number of turns and the width of the material forming the turns. Thus, the first end of the spring element lies in the first recess, with the first end of the spring element being aligned with an upper side of the drive and the second end of the spring element in the second recess, with the second end of the spring element being aligned with the underside of the drive. The bottom and top of the drive are designed as circular rings and connect the inner contour and the outer contour of the drive with each other.

The axis of rotation of the coupling advantageously runs centrally through the winding, with the protruding ends of the spring element being aligned perpendicularly or radially to the axis of rotation. The drive, the output and the spring element are preferably rotated about the axis of rotation in both directions of rotation.

It is advantageous that the winding of the spring element surrounds an outer surface of the output.

The output preferably has a cylindrical section, with the outer surface of the output being formed on the cylindrical section of the output. The axis of rotation about which the output, drive and spring element are rotated preferably runs parallel or along the height of the cylindrical section of the output. The outer surface of the output is preferably an outer surface of the cylindrical section of the output. The cylindrical section of the output is advantageously accommodated in the cavity of the hollow cylindrical section of the drive, with preferably at least 70% of the cylindrical section of the output being accommodated in the cavity of the drive. The outer surface of the output is advantageously positioned opposite an inner contour of the input. The winding of the spring element is advantageously arranged between the inner contour of the drive and the outer surface of the output. In this case, the outer surface of the output is preferably wrapped around by the winding of the spring element.

A gear wheel is preferably arranged on the, for example, circular base surface of the cylindrical section of the output, the gear wheel contour of the gear wheel of the output being aligned in the same direction as the gear wheel contour of the drive. Furthermore, a plane in which the gear wheel contour of the output is located is advantageously offset from a plane in which the gear wheel contour of the drive is located. The gear wheel or the gear wheel contour of the output is preferably at a distance from an upper side of the drive.

It is also advantageous that the predefinable torque from the drive to the output can be adjusted by a transmission surface of the spring element resting on the output.

The transmission surface of the spring element is preferably the surface with which the spring element rests on the output or the outer surface of the output. In this case, the windings of the spring element preferably rest on the outer surface of the output. The transfer area is preferably dictated by the number of turns and the width or diameter of the material forming the turns. The torque that can be specified is therefore dependent on the number of windings and the width or the diameter of the material forming the windings. This means that the torque that can be predetermined can advantageously be adjusted via the number of windings and the width of the diameter.

Advantageously, when the movable furniture part is moved in a driven manner when the predefinable torque is exceeded, a rotation cannot be transferred from the drive to the output.

The drive is preferably rotatable by the motor, the spring element being rotatable with the drive in the same direction as a result of the connection of the drive to the spring element or the engagement of the protruding ends of the spring element in the recesses in the drive. Since the winding of the spring element rests on the outer surface of the output, the torque can advantageously be transmitted to the output by friction of the transmission surface of the winding of the spring element on the outer surface of the output. However, if the drive and thus also the spring element rotates too quickly in one direction of rotation, the winding of the spring element preferably continues to rub against the outer surface of the output, as a result of which a limited torque is transmitted. However, the full speed is not transmitted, which can be up to 100%, so that the output is stationary when the drive is rotating. Advantageously, therefore, the output slips relative to the drive when the set or predefinable torque is exceeded, slippage occurs. This is preferably done automatically or automatically. Through this Overloading of the drive components, such as the motor or the transmission elements, can advantageously be prevented.

The advantage is that the torque at which synchronicity between input and output ends is the same in both directions of rotation.

A synchronicity between input and output preferably exists when the torque is transmitted from the input to the output by the spring element. When the torque is exceeded, the torque can no longer be fully transmitted from the input to the output, which preferably means that the synchronicity between the input and output ends. If the torque that can be transmitted from the drive to the output is the same or almost the same in both directions of rotation, the decoupling occurs or the synchronicity between the drive and the output ends. This is advantageously done in both directions of rotation when the predefinable torque is exceeded.

It is also advantageous that an angle included between the protruding ends of the spring element and the winding is the same for both protruding ends.

The spring element is preferably formed from an elongate metal component, in particular a wire, with the ends of the metal component or of the spring element being kinked or bent over by the winding. The area between the winding and the beginning section of the bend of the end of the spring element is preferably bent or curved, so that a closing edge of the end of the spring element protrudes approximately at right angles from the winding. An angle of 80° to 100°, in particular 85° to 95°, is preferably included between the protruding end of the spring element and the winding of the spring element. there is the bend is formed between the winding and the end of the spring element.

It is also advantageous that an outer surface of the output, on which the spring element rests, is of cylindrical design.

Advantageously, the winding of the spring element surrounds the cylindrical outer surface of the output. An inner side of the winding preferably rests permanently on the outer surface of the output, with the outer side of the winding being aligned in the direction of the inner contour of the drive. Advantageously, the outside of the winding is in contact with the inner contour of the drive during the synchronous movement of the output and drive. The two ends of the spring element are preferably spaced apart along the height of the cylindrical section of the output when the spring element or the coils of the spring element rest on the outer surface of the output.

It is advantageous that a torque can be transmitted from the spring element to the output by friction.

The drive can advantageously be driven by the motor in one direction of rotation, the spring element being movable with the drive in the direction of rotation since the protruding ends of the spring element are accommodated in the recesses in the drive, so that the spring element is connected to the drive. Furthermore, the winding of the spring element preferably rests on the outer surface of the output, so that the winding of the spring element rubs against the bearing surface or the transmission surface on the outer surface of the output during the rotational movement in the direction of rotation and thereby transmits a force to the output. In this case, the torque is advantageously transmitted to the output. The output can thus preferably also be rotated in the direction of rotation in which the drive is moved by the motor.

If the drive rotates too quickly in one direction of rotation, the friction of the winding of the spring element on the outer surface of the output is preferably insufficient, so that too little force is transmitted to the output and the output is not rotated in the direction of rotation. This is advantageously done automatically.

An advantageous embodiment of the invention is a fitting arrangement with a furniture fitting for moving a movable furniture part relative to the furniture body and a drive device according to one of the previously described embodiments for moving a furniture fitting in a driven manner.

The fitting arrangement preferably comprises a furniture fitting and the drive device, with the lever of the drive device preferably being connected to an arm, in particular a swivel arm, of the furniture fitting. As a result, the rotational movement of a drive shaft of the motor generated by the motor can advantageously be transmitted to the furniture fitting by the lever, as a result of which the furniture fitting can be moved in a driven manner. Preferably, the movement of the furniture fitting can be transferred to the movable furniture part in the opening and closing direction, so that the movable furniture part can be moved in the opening and closing direction in a driven manner, depending on the direction of rotation. Preferably, a gear with several transmission elements and at least one clutch is arranged between the lever and the electric motor, wherein the rotational movement of the motor can be transmitted to the lever via the transmission elements and the coupled clutch, whereby the furniture fitting can be pivoted or moved linearly.

The furniture fitting preferably has a plurality of arms or pivoting arms, with at least one pivoting arm being connected to the movable furniture part and at least one pivoting arm being connected to the furniture body. Preferably causes the Movement, such as a pivoting movement, of an arm or pivoting arm of the furniture fitting, the movement of the other arms or pivoting arms. The arms or the pivoting arms of the furniture fitting are preferably pivotably connected to one another.

It is conceivable that an operator triggers the opening and closing movement of the movable furniture part by activating the electric motor. The electric motor can be activated by triggering a switch, for example a switch can be arranged on a front side of a wall of the furniture body, the switch being activated when the operator presses the movable furniture part against the furniture body. Another possibility is that an operator activates the electric motor via a remote control.

A further advantageous embodiment of the invention is a piece of furniture with a fitting arrangement according to one of the above-described embodiments, a movable furniture part being motor-driven relative to a furniture body and being movable by the fitting arrangement.

character description

Further features and advantages of the invention are explained in more detail with reference to an exemplary embodiment shown schematically in the figures.

Figur 1

eine perspektivische Ansicht auf ein Möbel mit einem Möbelbeschlag zur Bewegung eines geöffnet dargestellten beweglichen Möbelteils des Möbels,

Figur 2

eine Seitenansicht auf eine erfindungsgemäße Beschlaganordnung ohne eine Abdeckung der Beschlaganordnung,

Figur 3

eine Explosionsdarstellung einer Kupplung der Beschlaganordnung gemäß Fig. 2,

Figur 4

eine perspektivische Ansicht von schräg oben auf eine Vorderseite der Kupplung gemäß Figur 3,

Figur 5

eine perspektivische Ansicht von schräg oben auf eine Rückseite der Kupplung gemäß Figur 4.

In detail shows:

figure 1

a perspective view of a piece of furniture with a furniture fitting for moving a movable furniture part of the piece of furniture shown open,

figure 2

a side view of a fitting assembly according to the invention without a cover of the fitting assembly,

figure 3

according to an exploded view of a coupling of the fitting arrangement 2 ,

figure 4

a perspective view obliquely from above of a front side of the clutch figure 3 ,

figure 5

a perspective view obliquely from above of a rear side of the clutch figure 4 .

1 shows a perspective view of a piece of furniture 1 with a box-shaped furniture body 2 and a movable furniture part 3 accommodated thereon, which is preferably designed as a flap or top flap and is shown in an open position relative to the furniture body 2 . The piece of furniture 1 is designed, for example, as a top flap cabinet, for example, attached to a wall so that it is suspended.

The furniture body 2, which is open at the front, comprises two opposite, upright side walls 4 and 5, which are connected to a bottom panel 6 at the bottom and to a top panel 7 at the top. The furniture body 2 is closed by a rear wall 8 at the rear. For moving the movable furniture part 3 about a horizontal pivot axis, relative to the furniture body 2 from the 1 shown open position in a to the furniture body 2 moved towards the front closed position (not shown) and back to the open position according to 1 there is a furniture fitting 9, which is preferably designed as a top flap fitting. The furniture fitting 9 has a first fitting unit 10 on the side wall 4 and a second fitting unit 11 on the side wall 5 . The fitting units 10, 11 are of the same type and constructed in relation to the side for the functionally correct arrangement on the respective side wall 4 or 5.

Each fitting unit 10 and 11 comprises a base unit 12, a swivel arm arrangement 13 and an assembly unit 14. The base unit 12 is connected to the assembly unit 14 via a plurality of articulated swivel arms 15 of the swivel arm arrangement 13, with the assembly unit 14 being fixed to an inner side of the movable furniture part 3, for example, sunk in a material recess of the movable furniture part 3 is attached. The base unit 12 is preferably embodied as a housing 19 and comprises a planar, flat or thin base plate 16 and a cover component 20 lying opposite the base plate 16. Furthermore, there is preferably a front section 17 on the front side of the base unit 12, the outer side of which is transverse to the plane of the base plate 16 is aligned. At least one relevant swivel arm 15 of the swivel arm arrangement 13 preferably extends through a rectangular recess 18 in the end section 17, for example.

In the figure 2 a fitting arrangement 21 is shown, which includes the furniture fitting 9 and a drive device 22 . The drive device 22 has a motor 23, preferably an electric motor, which preferably has a driven, rotatable drive shaft 24, with the drive shaft 24 being rotatable or rotatable in both directions of rotation when the motor 23 is in operation. A transmission contour, for example a worm shaft with a worm contour, is preferably arranged on the drive shaft 24 of the motor 23 . The transmission contour preferably comes into engagement with a transmission element 25a, 25b of a gear 26 of the drive device 22. The transmission element 25a, 25b is preferably in the form of a gear wheel, in particular a double gear wheel, formed, for example, the transmission contour of the drive shaft 24 of the motor 23 comes into engagement with a gear wheel contour of the transmission element 25a of the gear 26. The transmission 26 preferably has a plurality of transmission elements 25a, 25b, the transmission elements 25a, 25b preferably having a drive gear wheel and a driven gear wheel. Preferably, a driven gear of a first transmission member 25a meshes with a drive gear of a second transmission member 25b.

The drive device 22 also preferably has a clutch 27, with a driven gear wheel of a transmission element 25 preferably coming into engagement with a drive 28 of the clutch. The clutch 27 preferably has the drive 28 , an output 29 and a spring element 30 . In the coupled state of the clutch 27 , a torque is transmitted from the drive 28 to the output 29 by the spring element 30 . After the clutch 27, for example, a further clutch, in particular an overrunning clutch, or a further transmission element 25 can be arranged. A further gear wheel 31 is preferably arranged after the clutch 27, which is designed in particular as a partially circumferential toothed disk. A lever 32 of the drive device 22 is preferably attached to the gear wheel 31 . A rotational movement can be transmitted from the motor 23 to the gear 26, from the gear 26 to the clutch 27, and when the clutch 27 is in the coupled state, from the clutch 27 to the gear wheel 31 and from the gear wheel 31 to the lever 32. The lever 32 is preferably connected to a swivel arm 15 of the swivel arm arrangement 13 of the furniture fitting 9, so that the movement of the lever 32 moves the swivel arm 15 or the swivel arms of the swivel arm arrangement 13, whereby the movable furniture part 3 is driven in the opening and closing direction becomes. Preferably, the lever 32 is detachably connected to the pivot arm 15, so that the drive device 22 as well can be subsequently attached to a furniture fitting 9 mounted on the piece of furniture 1.

The motor 23, the gear 26, the clutch 27 are preferably arranged on a coupling element 33, wherein the coupling element 33 can preferably be connected to the base plate 16 of the base unit 12 of the furniture fitting 9, e.g. It is also preferred that the base unit 12 of the furniture fitting 9 and the coupling element 33 of the drive device 22 are covered by a cover component 20 so that the components of the furniture fitting 9 and the drive device 22 are not visible from the outside. This increases the aesthetics of the furniture. For this purpose, the base unit 12 of the furniture fitting 9 and the coupling element 33 of the drive device 22 can be covered by a single cover component 20 or the base unit 12 of the furniture fitting 9 and the coupling element 33 of the drive device 22 each have a cover component.

The base unit 12 of the furniture fitting 9 and the coupling element 33 of the drive device 22 are preferably embedded in a suitably prepared recess in the side wall 4, 5 of the furniture body 2, so that the cover element or the cover elements can be connected to the surface of the side wall 4, 5 of the furniture body 2 finish flush or at least protrude only a little. Furthermore, a switch 34 can be arranged on the base plate 16 of the base unit 12, which is preferably formed on the front section 17, so that the switch 34 can be triggered by pressing the movable furniture part 3 against the furniture body 2. An operator can press the movable furniture part 3 against the furniture body 2 . The switch 34 is preferably connected to the motor 23, in particular via a cable or radio, so that a triggering of the switch 34 activates the motor 23.

In the Figures 3 to 5 the clutch 27 is shown in different views. In the clutch 27 is the spring element 30 is preferably arranged between the drive 28 and the output 29 . The spring element 30 is preferably designed as a wrap spring with a winding 35 and ends 36a, 36b protruding towards the winding 35. The two ends 36a, 36b of the spring element 30 are preferably designed in the same way. The protruding ends 36a, 36b of the spring element 30 preferably protrude identically from the winding 35 of the spring element 30 in the direction of the drive 28. One end 36a of the spring element 30 is arranged at a start of the winding 35 and one end 36b of the spring element 30 is arranged at one end of the winding 35, so that the ends 36a, 36b of the spring element 30 are spaced apart along the winding 35. The ends 36a, 36b of the spring element 30 are preferably received in recesses 37a, 37b of the drive 28. The recesses 37a, 37b of the drive 28 are preferably spaced apart from one another by the same amount as the protruding ends 36a, 36b of the spring element 30. If the protruding ends 36a, 36b of the spring element 30 are spaced apart from one another, for example 180°, the recesses 37a, 37b in the drive 28 are spaced 180° apart. The number of recesses 37a, 37b in the drive 28 preferably corresponds to the number of ends 36a, 36b of the spring element 30. The recesses 37a, 37b in the drive 28 are preferably recessed and groove-shaped, with the cross section preferably forming a U-shape with two lateral legs or edge contours 38, on which the protruding ends 36a, 36b of the spring element 30 rest.

The drive 28 is preferably designed as a hollow cylinder, with the recesses 37a, 37b for the ends 36a, 36b of the spring element 30 preferably being designed on an inner contour 39 of the drive 28. One end 36a of the spring element 30 is positioned in the recess 37a towards an upper side 42 of the drive 28 and one end 36b of the spring element 30 is positioned in the recess 37b towards the lower side 43 of the drive 28 . The top 42 and bottom 43 preferably include circular rings, the circular rings the inner contour 39 with a Connect the outer contour 40 of the drive 28. A gear wheel contour 41 is preferably formed on the outer contour 40 of the drive 28, which preferably engages with an output gear wheel of a transmission element 25b of the gear mechanism 26.

The output 29 has a cylindrical section 44 with an outer surface 45 or lateral surface, on which the winding 35 of the spring element 30 preferably rests circumferentially. The cylindrical section 44 of the output 29 is preferably accommodated in the cavity of the drive 28 . A gear wheel 46 is also formed on a circular base surface of the cylindrical section 44 of the output 29 . The gear wheel contour 41 of the drive 28 is preferably aligned in the same radial direction as a gear wheel contour 47 of the output 29, the gear wheel contours 41, 47 lying in different planes or being spaced apart from one another along the height of the cylindrical section 44. An axis of rotation D preferably runs along the height of the cylindrical section 44 of the output 29, about which the drive 28, the spring element 30 and, in the coupled state, the output 29 are rotated. The protruding ends 36a, 36b of the spring element 30 protrude from the winding 35 radially from the axis of rotation D in the direction of the inner contour 39 of the drive 28.

The drive 28 can advantageously be driven by the motor 23 in a direction of rotation R1, R2, with the spring element 30 being movable with the drive 28 in the direction of rotation R1, R2, since the protruding ends 36a, 36b of the spring element 30 in the recesses 37a, 37b in the Drive 28 are added. The edge contour 38 of the recess 37a, 37b of the drive 28 presses on at least one protruding end 36a, 36b of the spring element 30, so that the spring element 30 is moved by the drive 28 in the direction of rotation R1, R2 specified by the motor 23. The motor 23 can rotate in both directions of rotation R1, R2, so that the drive 28 and the spring element 30 can also rotate in both directions of rotation R1, R2. Furthermore, the winding 35 of the spring element 30 preferably lies on the outer surface 45 of the output 29, so that the winding 35 of the spring element 30 rubs during the rotational movement in the direction of rotation with a contact surface or transmission surface 48 on the outer surface 45 of the output 29 and thereby transmits a force to the output 29. In this case, the torque is advantageously transmitted to the output 29 . Thus, the output 29 can preferably also be rotated with the same torque in the direction of rotation in which the drive 28 is moved by the motor 23 .

If the drive 28 rotates too quickly in one direction of rotation, then the friction of the winding 35 of the spring element 30 on the outer surface 45 of the output 29 is preferably insufficient, so that too little force is transmitted to the output 29 and the output 29 does not move at the same speed or is not rotated in the direction of rotation. The output 29 therefore advantageously slips relative to the drive 28 when the set or predefinable torque is exceeded. This is preferably done automatically or independently. As a result, overloading of the drive components, such as the motor 23 or the transmission elements 25, can advantageously be prevented.

Reference List

• 1 furniture
• 2 furniture body
• 3 furniture part
• 4 side wall
• 5 side wall
• 6 subfloor
• 7 topsoil
• 8 back panel
• 9 furniture fitting
• 10 fitting unit
• 11 fitting unit
• 12 base unit
• 13 swing arm assembly
• 14 assembly unit
• 15 swivel arm
• 16 base plate
• 17 forehead section
• 18 recess
• 19 housing
• 20 cover member
• 21 hardware arrangement
• 22 drive device
• 23 engine
• 24 drive shaft
• 25 transmission element
• 26 gears
• 27 clutch
• 28 drive
• 29 downforce
• 30 spring element
• 31 gear
• 32 levers
• 33 coupling element
• 34 switches
• 35 winding
• 36 end
• 37 recess
• 38 edge contour
• 39 inner contour
• 40 outer contour
• 41 gear contour
• 42 top
• 43 underside
• 44 section
• 45 surface
• 46 gear
• 47 gear contour
• 48 transmission surface

Claims (14)

Drive device (22) with an electric motor (23) for moving a movable furniture part (3) relative to a furniture body (2), wherein the torque of the motor (23) can be transmitted to a furniture fitting (9), the rotary movement of the motor ( 23) causes the furniture fitting (9) and thus the movable furniture part (3) to move in the opening and closing direction, the drive device (22) having a clutch (27), the clutch (27) having a drive (28) and a output (29), a spring element (30) being arranged between the input (28) and the output (29), a torque of the motor (23) being applied to the input (28) and from the input (28) to the output (29) is transferable, characterized in that the spring element (30) has a winding (35) and has two ends (36a, 36b) protruding towards the winding (35) of the spring element (30), the drive (28) having two recesses (37a, 37b), one end (36a, 36b) of the spring element (30) being received in an associated recess (37a, 37b) in the drive (28), the spring element (30) being designed in such a way that the Spring element (30), due to the position of the ends (36a, 36b) in the recesses (37a, 37b), a largely fixed positioning of the ends (36a, 36b) and due to a contact force of the spring element (30) on the output (29), specifies a torque, with the spring element (30) transmitting the specified torque from the drive (28) to the output (29). Drive device according to Claim 1, characterized in that the two ends (36a, 36b) of the spring element (30) protrude from the winding (35) radially to the axis of rotation in the direction of the drive (28). Drive device according to one of the preceding claims, characterized in that a rotation of the winding (35) of the spring element (30) in relation to the recesses (37a, 37b) is at most 4°, 3°, 2°, 1°. Drive device according to one of the preceding claims, characterized in that the predeterminable torque, which can be transmitted from the drive (28) to the output (29) when the engine is powered, is the same in both directions of rotation. Drive device according to one of the preceding claims, characterized in that the spring element (30) is designed as a wrap spring with a spiral winding (35) and two protruding ends (36a, 36b). Drive device according to one of the preceding claims, characterized in that the winding (35) of the spring element (30) surrounds an outer surface (45) of the output (29). Drive device according to one of the preceding claims, characterized in that the predefinable torque from the drive (28) to the output (29) can be adjusted by a transmission surface (48) of the spring element (30) resting on the output (29). Drive device according to one of the preceding claims, characterized in that when driven moving the movable furniture part (3) when crossing of the predeterminable torque, a rotation cannot be transmitted from the drive (28) to the output (29). Drive device according to one of the preceding claims, characterized in that the torque at which synchronization between the input (28) and output (29) ends is the same in both directions of rotation. Drive device according to one of the preceding claims, characterized in that an angle enclosed between the protruding ends (36a, 36b) of the spring element (30) and the winding (35) is the same for both protruding ends (36a, 36b). Drive device according to one of the preceding claims, characterized in that an outer surface (45) of the output (29), on which the spring element (30) rests, is of cylindrical design. Drive device according to one of the preceding claims, characterized in that a torque can be transmitted from the spring element (30) to the output (29) by friction. Fitting arrangement (21) with a furniture fitting (9) for moving a movable furniture part (3) relative to the furniture body (2) and a drive device (22) according to one of the preceding claims for driven movement of a furniture fitting (9). Furniture (1) with a fitting arrangement (21) according to claim 13, wherein a movable furniture part (3) can be moved, driven by a motor, relative to a furniture body (2) through the fitting arrangement (21).

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