EP1468631A1 - Damping device for movable furniture parts - Google Patents

Abstract

The damper system for a drawer comprises a pivoting slide (13) attached to the drawer. The inner end of this forms part of a rack and pinion system. The teeth (17, 30) of the rack and pinion slope in opposite directions so that a toothed sleeve on the outside of the pinion is pressed on to its core and moves with it while the drawer is closing but is raised from it and acts as a freewheel mechanism during opening.

Description

The present invention relates to a damping device for movable furniture parts, with an engageable with the furniture part operating part, the corresponding a furniture part movement is mounted back and forth, a damper as well a gear stage for the implementation of movements of the operating part in movements of the damper.

From EP 1 188 397 is a spring-loaded locking device for drawers Known in the case of an axially displaceable slide at the initial opening a spring loaded a drawer and locked in the tensioned state. At the Pushing back the drawer, the operating part is caught by the drawer and released so that the spring completely retracts the drawer. There is one on the operating part fixed flange guided in a sliding guide with highly viscous fat is filled. Due to the highly viscous fat is a damping of Movement achieved.

From EP 1 120 066 a closing device for drawers is also known, in which a slidably guided actuating slide with the drawer can be coupled is. About a toothed actuation of the actuating slide via a gear pinion a rotary damper, which ensures a smooth closing of the drawer.

Although such damping devices cause a gentle closing of the drawer. However, the damping effect when opening the drawer is undesirable. To avoid the damping effect when opening the drawer, It has already been proposed to use single direction rotary dampers use. These rotary dampers cause damping only in one direction. In the opposite direction, which corresponds to the extension of the drawer is the damping effect negligible. However, such rotary dampers are very expensive and thus for the mass production of appropriate furniture fittings little suitable.

The present invention is therefore based on the object, an improved Damping device of the type mentioned, the disadvantages of Prevented prior art and the latter develops in an advantageous manner. Preferably, the damping device should by simple means a damping effect achieve only in one direction of movement, while in the opposite direction Direction a largely damping-free movement is possible.

According to the invention this object is achieved by a damping device according to Claim 1 solved. Preferred embodiments of the invention are the subject of Dependent claims.

According to the transmission stage between the actuating part and the Damper thus designed so that they only movements of the operating part in a direction in damper movements, while they movements of the operating part in the opposite direction does not translate into damper movements. The gear stage includes this purpose an overrunning clutch, which is in movements of the Actuator engages in a first direction and movements of the operating part disengages in a second direction opposite to the first direction. Advantageously, this can be cheap, effective in two directions Damper find use without actually moving in two directions a damping effect occurs. In particular, there are only closing movements of the operating part implemented in damper movements, while opening the Furniture part of the damper experiences no movement.

In a further development of the invention, the overrunning clutch is a force-transmitting Gear element of the gear stage formed, the driving forces in a force flow direction transmits to a second transmission element, transverse to the direction of force flow the driving forces is movably supported and by movement in one direction disconnects from the second transmission element and by an opposite Movement in the second transmission element engages force-transmitting.

In particular, the overrunning clutch of a gear of the gear stage be formed, which sits axially displaceable on a transmission axis and by axial Movement in a first direction with the transmission axis in rotationally fixed engagement and by axial movement in the opposite direction from the transmission axis can be disengaged. A particularly compact arrangement is achieved when the gear directly on the trained in this case as a rotary damper Damper sits. Passed by corresponding axial movement of the gear this from the housing of the rotary damper disengaged or with this in Intervention.

To couple the two freewheeling property causing gear elements easy and be able to disengage, the two transmission elements advantageously have wedge-shaped, i. acute angle to the direction of the transmission element inclined, arranged coupling engagement surfaces by the relative movement of the both transmission elements are engaged and disengageable. The wedge-shaped arranged clutch engagement surfaces allow it, with small actuating movements to create a secure lock as well as to solve.

The freewheel clutch can be designed to be positively frictionally coupled. In the case of on the transmission axis axially slidably seated gear, the gear can and / or the transmission axis respectively conical coupling engagement surfaces exhibit. The conical inner surface of the gear sits at appropriate Axial movement of the gear non-positively on the conical outer surface the transmission axis formed by the housing of the rotary damper can be. If the gear is moved axially, the conical inner surface is lifted off the conical outer surface of the transmission axis. By The conicity of the clutch engagement surfaces can be large pressing forces with only small generated axial actuating forces and thus large driving forces are transmitted.

According to a further preferred embodiment of the invention, the one-way clutch also be formed positively coupling. In case of on the transmission axle axially displaceable gear sitting on the gear and / or wedge-shaped on the transmission axis, i. at an acute angle to the axis of rotation inclined mating surfaces are provided, with which the gear and the Tighten gear axle. In particular, can conically lateral surfaces be provided on the gear and / or the transmission axis, the faceted Have flats, which form the mating surfaces and with complementary Flattening on the other part into engagement. As well can at the wedge-shaped coupling engagement surfaces grooves, grooves or other form-fitting mating surfaces may be provided to the corresponding axial movement of the gear a rotationally fixed positive connection with the To achieve transmission axis.

The adjusting movement of the axially displaceable gear element for switching the Freewheel is in development of the invention automatically by movement of the gear causes. The gear stage can this intervention means, in particular a Helical teeth possess, depending on the direction of movement of the gear stage differently directed resulting forces on the axially displaceable transmission element cause. The engagement and disengagement forces on the one-way clutch become So formed by resulting lateral forces of the gear mesh. The direction of travel the gear stage causes an automatic switching of the one-way clutch.

Advantageously, the damper is designed as a rotary damper, which in both Turning directions can be effective. By the integrated in the gear stage one-way clutch the damper may be formed free of return means. The rotary damper does not need to be turned back to a starting position every time. If the gear unit runs free when opening the movable furniture part remains the rotary damper simply stand in the appropriate position. Couples the Gear stage when re-closing the furniture part again, is the rotary damper simply further rotated accordingly. This process is repeated, without a reset of the rotary damper would take place. The rotary damper So it is always pressed in one direction only. Return springs can be omitted.

In a further development of the invention, the actuating part as axially displaceable Rack be formed with the gear sitting on the damper gear combs. The gear stage can be a translation of the movements of the Provide operating parts to a sufficient even with small furniture part movements To achieve damper movement.

In a particularly advantageous manner, the damping device is in a closing device integrated. The actuating part or an associated transmission part can be acted upon by a spring in the closing direction. In particular, can be provided be that the spring is tensioned when opening the furniture part, this being preferred when the furniture part is initially opened, then the spring is locked is and uncouples the actuating part of the furniture part to an unhindered To ensure movement over the remaining excursion path. Will the furniture part then closed again, the operating part comes back with the furniture part Engaging, the spring is unlocked and the furniture part of the spring in the closed Position driven. In this case, the damping effect of the damping device on.

Fig. 1

eine perspektivische Ansicht eines Schubladenführungsbeschlages mit einer Schließvorrichtung, die mit einer Dämpfungsvorrichtung nach einer bevorzugten Ausführung der Erfindung versehen ist,

Fig. 2

eine perspektivische Ansicht der Schließvorrichtung aus Fig. 1, wobei die Schließvorrichtung von dem Führungsbeschlag abgebaut ist,

Fig. 3

eine Seitenansicht der Schließvorrichtung aus Fig. 2,

Fig. 4

einen Längsschnitt durch die Schließvorrichtung aus den vorhergehenden Figuren entlang der Linie B-B in Fig. 3,

Fig. 5

einen Querschnitt durch die Dämpfungsvorrichtung und die diese antreibende Getriebestufe der Schließvorrichtung aus den vorhergehenden Figuren entlang der Linie A-A in Fig. 4,

Fig. 6

eine Seitenansicht auf die Schließvorrichtung aus den vorhergehenden Figuren, wobei eine Gehäusehälfte weggeschnitten ist und eine Schrägverzahnung der Getriebestufe zu sehen ist,

Fig. 7

eine Explosionsdarstellung des Rotationsdämpfers der Dämpfungsvorrichtung aus den vorhergehenden Figuren und des diesen antreibenden Getrieberitzels, und

Fig. 8

eine Explosionsdarstellung ähnlich Fig. 7 eines Rotationsdämpfers und des diesen antreibenden Getrieberitzels nach einer zu Fig. 7 alternativen Ausführung der Erfindung, bei der die den Eingriff zwischen Getrieberitzel und Rotationsdämpfer sicherstellenden Mantelflächen facettenförmige Abflachungen aufweisen.

The invention will be explained in more detail below with reference to a preferred embodiment and associated drawings. In the drawings show:

Fig. 1

a perspective view of a drawer guide fitting with a closing device, which is provided with a damping device according to a preferred embodiment of the invention,

Fig. 2

1 is a perspective view of the locking device of FIG. 1, wherein the locking device is dismantled from the guide fitting,

Fig. 3

a side view of the locking device of Fig. 2,

Fig. 4

a longitudinal section through the locking device of the preceding figures along the line BB in Fig. 3,

Fig. 5

a cross section through the damping device and the driving this gear stage of the locking device of the preceding figures taken along the line AA in Fig. 4,

Fig. 6

a side view of the locking device of the preceding figures, wherein a half of the housing is cut away and a helical gear of the gear stage can be seen,

Fig. 7

an exploded view of the rotary damper of the damping device from the preceding figures and the driving this pinion, and

Fig. 8

an exploded view similar to FIG. 7 of a rotary damper and the driving pinion driving this according to an alternative to FIG. 7 embodiment of the invention, in which the engagement between gear and rotational damper ensuring lateral surfaces have faceted flats.

Figure 1 shows a furniture fitting in the form of a drawer guide 1. A in essential L-shaped mounting rail 2 can with its vertical web 3 via suitable Fixing means, for example in the form of holes 4 on a furniture body be attached. On the horizontal web 5 of the support rail 2 is not in shown in more detail, known manner a drawer slidably mounted.

As Figure 1 shows, a locking device 6 is mounted on the support rail 2, which with a driver 7 in a conventional manner not shown, on the running rail or the drawer frame captures attached pin and cooperates with this.

The attached to the support rail 2 closing device 6 comprises an elongated Support plate 8 which is fixed to the horizontal web 5 of the support rail 2, as well as a lid 9, with the support plate 8 of the closing device 6 via holes 10th and suitable fastening pins 11 is connected. From the of the support plate. 8 and the cover 9 formed housing the locking device 6 projects the driver 7 out, on the one hand has a transverse axis 12, with which he on an operating part pivoted in the form of a carriage 13, wherein the carriage 13 is longitudinally displaceably guided between the cover 9 and the support plate 8. on the other hand is the driver 7 with a guide member in the form of a guide pin 14 guided in a backdrop-like guideway 15, both in the Cover 9 as well as in the support plate 8 is formed. As Figure 3 shows, the Driver 7 biased by a spring 16 in one direction, the closed Position of the drawer corresponds. The spring 16 is on the one hand to a mounting arm mounted on the driver 7 and on the other hand on the support plate 8.

Figures 3 to 6 show the driver 7 in a middle position between an open and a closed position.

The carriage 13, which is only uniaxially movable, is with a rack profile 17th provided, which faces the support plate 8. In the area of the rack profile 17 the support plate 8 has a recess and a fixed to the support plate 8 Damper housing 18 which projects downwardly from the support plate 8 and a Damper 19 receives, which is designed as a rotary damper. The rotation axis 20 of the rotary damper 19 extends transversely to the direction of the carriage 13, wherein the rotary damper 19 offset transversely from the rack profile 17 is. The damper 19 may be attached to the damper housing 18.

Figures 5 and 7 show the structure of the damper 19 in more detail. The damper 19 has a rotationally symmetrical middle part 21, on both sides of two projecting axially extending and concentric cylinders 21 ', 21 ", 41', 41" connect. The space between these cylinders is complementary, also axial extending cylinders 42, 43 of both anchoring parts 22 filled, between the facing surfaces remains a small gap in which a high viscosity grease the damping or braking force exerts.

The lateral discs 22 have radially inwardly projecting stop members 23rd on, with which they in upwardly free-running recesses 24 of the damper housing 18 are anchored positively.

The gear 26 is seated on the outer wall of the central part 21 and is mounted in the State in a lower recess 44 of the housing 18, whose Wall 44 'limits its axial movement when it is disengaged.

On the outer wall 27 of the central part 21 may annular grooves 45 for Storage of O-rings 48 or the like may be provided, which have the task on the one hand the friction between the gear 26 and the wall 27th to improve the middle part and on the other hand, a preliminary, stepped Counter-stop 46 to form such that the gear until then intervened in his Position is held firmly, if no new release force to this by the helical gearing is applied.

It is understood that differently shaped rotary damper find use can.

Immediately on the rotatable part of the damper 19, in the illustrated embodiment is formed by the outer wall of the central part 21, sits a gear pinion 26. The outer wall of the central part 21 forms a transmission axis, on the the gear 26 is seated with an inner recess. As Figure 7 shows, the Outer lateral surface 27 of the rotatable damper part and the inner circumferential surface 28th of the gear 26 each formed conically. If the gear 26 is axially pushed onto the conical outer surface 27 of the damper 19, creates a frictional, rotatably engaged, so that a rotational movement of the gear 26th rotates the rotary damper. If, however, the gear 26 in entgegensetzter moves the axial direction, the conical inner surface 28 of the lifted conical outer surface 27, so that the gear 26 no Turning more with the damper 19 has. The wedge-shaped formation of the outer circumferential surface the rotatable part of the damper 19 and the complementary wedge-shaped Formation of the inner circumferential surface 28 of the gear 26 allow a Coupling and uncoupling by very small axial movements of the gear 26th

The axial coupling movement of the gear 26 of the gear stage 29 is caused by a helical gear 30, by means of which the gear 26 with the Rack profile 17 of the carriage 13 meshes. As Figure 6 shows, both the Gear 26 and the rack profile 17 helically toothed, in such a way that during movements of the gear stage 29, an axial movement on the gear pinion 26 is effected when closing the drawer, the gear 26th presses on the damper 19 and locked with the rotatable part. At opposite Movement, i. when opening the drawer causes the helical toothing 30, however, an opposite movement of the gear 26, the this lifts off the damper 19 and unlocked from the rotatable part. That with the Damper 19 lockable and unlockable gear member 26 forms a in the Gear stage 29 integrated overrunning clutch 31.

If the purely non-positive coupling between the gear 26 and the rotatable portion of the rotary damper 19 may not be sufficient, the transmission gear 26 and the rotatable middle part 21 of the damper 19 each complementary have mutually trained, mating mating mating surfaces. As Figure 8 shows, the overall conical outer surface 27 of the rotatable central portion 21 of the damper 19 facet-like or wedge-shaped Have flats 32. The inner circumferential surface 28 of the gear 26 can corresponding to a total of approximately conical and thereby flattening 33rd which are complementary to the flats 32 of the central portion 21 and also are wedge-shaped employed. We the gear 26 on the outer circumferential surface 27th pushed the central portion 21, reach the flats 32 and 33 with each other in positive engagement. With opposite axial movement of the gear pinion 26, the flats 33 are lifted from the flats 32, so that no rotational interference between the rotatable damper part and the gear pinion 26 more exists.

Claims (17)

Damping device for movable furniture parts, with a detachable with the respective furniture part operating part (13), which is mounted reciprocally movable according to a furniture part movement, a damper (19) and a gear stage (29) for implementing movements of the actuating part (13) in movements the damper (19), characterized in that the gear stage (29) includes a one-way clutch (31) which engages in movements of the actuating part (13) in a first direction and in movements of the actuating part (13) in a second, opposite to the first Disengages direction. Damping device according to the preceding claim, wherein the overrunning clutch (31) by a transmission element (26) of the gear stage (29) is that in a power flow direction (34, 35) driving forces to another Transmission element transmits, transverse to the power flow direction (34, 35) of the driving forces is movably mounted and disengages by moving in one direction and engages by moving in the opposite direction. Damping device according to the preceding claim, wherein the two Gear elements wedge-shaped coupling engagement surfaces (27, 28), the each other by relative movement of the two gear elements in engagement and are disengaged from each other. Damping device according to one of the preceding claims, wherein the One-way clutch (31) formed by a gear (26) of the gear stage (29) is that sits axially displaceable on a transmission axis and by axial Movement in a first direction with the transmission axis in a rotationally fixed engagement and by axial movement in the opposite direction from the transmission axis can be disengaged. Damping device according to the preceding claim, wherein the transmission axis from the outer wall of a rotatable part (21) of the damper (19) is formed. Damping device according to one of the preceding claims, wherein the One-way clutch (31) is formed positively coupled coupling. Damping device according to the preceding claim, wherein the gear wheel (26) and / or the transmission axis a conical coupling engagement surface (27, 28). Damping device according to one of the preceding claims, wherein the Overrunning clutch (31) is formed positively coupling. Damping device according to the preceding claim, wherein the gear wheel (26) and the transmission axis wedge-shaped mating surfaces (32, 33) having. Damping device according to one of the preceding claims, wherein the Gear stage (29) engaging means, in particular a helical toothing (30), has, depending on the direction of movement of the gear stage (29) different directed engagement and disengagement forces on the one-way clutch (31) exercise. Damping device according to one of the preceding claims, wherein the the one-way clutch (31) forming the transmission element (26) directly on the Damper (19) sits. Damping device according to one of the preceding claims, wherein a Rotary damper (19) is provided, wherein the rotary damper preferably is formed damping effect in two directions. Damping device according to one of the preceding claims, wherein the Damper (19) is formed free of return means. Damping device according to one of the preceding claims, wherein the Actuating part is guided axially displaceable and a rack profile (17) which meshes with a gear pinion (26). Damping device according to the preceding claim, wherein the rack profile and the gear teeth are helically toothed. Damping device according to one of the preceding claims, wherein the Gear stage (29) a translation of the movements of the operating part (13) causes. Damping device according to one of the preceding claims, wherein it is integrated in a closing device (6) and / or the actuating part (13) or an associated transmission part with a spring (16) in the closing direction is charged.

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