The present invention relates to a pullout guide, in particular for a dishwasher, another domestic appliance, or a piece of furniture, having a stationary guide rail and a slide rail supported on the guide rail so it is movable, wherein a damping device having a linear damper which acts on one side is provided on the guide rail, which has a damper housing and a piston rod, which can be pushed into and drawn out of the damper housing, wherein during a closing movement of the slide rail, a first activator acts on the damping device shortly before reaching a closed position to decelerate the movement of the slide rail, and a dishwasher or another domestic appliance having a rail-guided drawer element.
EP 2 422 682 B1 discloses a dishwasher having a damping device for damping a movement of a dish rack, wherein the damping device has a cylindrical housing and a piston, which divides the housing. The piston can be moved in this case during the pulling out via a first plate in a first direction and can be moved via a second plate in a direction opposite to the first direction during the pushing in of the dish rack, in order to provide damping forces. The damper housing is formed open on opposing sides, and therefore the sealing of the damper housing is problematic, in particular if larger damping forces are to be provided by pressure differences. Moreover, the damper is only active when the dish rack has been moved into the maximally open position, in order to displace the piston rod in relation to the housing.
Furthermore, DE 20 3013 114 309 A1 discloses a retraction and damping unit, which is installable on a middle rail of a pullout guide. A first activator is provided on the slide rail and a second activator is provided on the stationary guide rail for damping in the maximally open position and in the closed position. A comparatively large installation space is required due to the movement of the pullout and damping unit together with the middle rail.
Furthermore, DE 10 2013 222 576 A1 discloses a pullout guide for a domestic appliance, in which a retraction assembly is provided, via which a wash item receptacle is movable into a closed position. The retraction device has a spring element and a damping element in this case, in order to decelerate the wash item receptacle and hold it in the closed position. Damping in the opening direction is not provided, and therefore an abrupt standstill with impact noises on the dishes occurs during an opening movement of the wash item receptacle.
It is therefore the object of the present invention to provide a pullout guide, in particular for a dishwasher, which is constructed compactly and ensures deceleration of the slide rail before reaching an end position both in the closing direction and also in the opening direction.
This object is achieved by a pullout guide having the features of claim 1.
The pullout guide according to the invention has a linear damper which acts on one side, which is fixed on the guide rail, i.e., is arranged so it is stationary. The damping device can become active via a first activator during a closing movement of the slide rail shortly before reaching a closed position, while during an opening movement of the slide rail, a second activator acts on the damping device shortly before reaching the maximally open position in order to decelerate the movement of the slide rail. The damping device can thus become active both in the opening direction and also in the closing direction using the linear damper which acts on one side.
A redirection mechanism is preferably provided to cause a movement of the second activator in the opening direction into the movement of a stop acting on the linear damper in the closing direction. The terms “opening direction” and “closing direction” relate in this case to the movement of the slide rail of the pullout guide which is moved from the respective end positions in the opening or closing directions. Since the linear damper acts on one side, a movement of the second activator in the opposing direction can be effectuated via the redirection mechanism. For this purpose, a rotatably supported redirection lever is preferably provided. The rotatably supported redirection lever can have in this case a first arm, which can be engaged with the second activator, and a second arm arranged on the opposite side of the axis of rotation, which acts directly or indirectly on the linear damper via a stop. To be able to move the redirection lever back into a starting position after an actuation of the linear damper, it can be coupled to the stop. For example, the redirection lever can engage with the second arm in a receptacle of a linearly guided stop, which acts on the linear damper, and therefore the redirection lever is pivoted in the one direction or the opposing other direction during a movement of the stop.
In a further embodiment, the linear damper is designed as a compression damper, in which damping forces are only generated as the piston rod is pushed into the damper housing. Alternatively, the linear damper can also be designed as a traction damper, in which damping forces are only generated as the piston rod is pulled out of the damper housing. In the case of a linear damper which acts on one side, a damping force is provided in a first movement direction of the piston rod, while smooth movement of the piston rod in relation to the damper housing is possible in the opposing movement direction. If the linear damper is designed as a compression damper in this case, the damper housing can be made cup-shaped, i.e., it can be closed on the side opposite to the piston rod, and therefore no problems occur upon sealing, even if high pressures are present in the region of the cup-shaped housing as the piston rod is pushed in. Only the region around the piston then has to be sealed, which is possible more easily because of the protected arrangement of the piston inside the damper housing.
The damping device preferably has a spring, in order to draw or press the piston rod out of the damper housing in the unloaded state. The spring can be arranged both in the damper housing and also outside the damper housing in this case, in order to move the linear damper into a starting position in the unloaded state.
The linear damper can be designed, for example, as a fluid, air, or gas damper in this case, in which the respective medium flows through constricted overflow channels during movement of the piston rod in the damping direction and exerts a damping or decelerating effect at the same time, and wherein during the movement of the piston rod opposite to the damping direction, the overflow channels are widened and thus a damping or decelerating effect does not occur or is reduced.
In a further embodiment, the first activator is fixed on the slide rail. This activator then ensures the damping in the closing direction. A second activator is preferably arranged on a middle rail, which is provided between the guide rail and the slide rail of the pullout guide. The second activator is then active in the opening direction, shortly before the slide rail has reached the maximally open position.
The damping device is preferably fixed via a housing on the guide rail, for example, a housing made of plastic, on which the damper housing is locked. Vice versa, of course, the piston rod can also be fixed via the housing on the guide rail, and therefore the first or second activator acts on the damper housing and causes its movement in relation to the guide rail.
In a further embodiment, a self-retractor is provided, by means of which the slide rail is movable in the closing direction shortly before reaching the closed position. The self-retractor can have a driver movable along a housing in this case, which is pre-tensioned by a force accumulator in the closing direction. The self-retractor is preferably only active in the movement range shortly before the closing position in this case, but not before reaching the maximally open position. To ensure that the self-retractor is only active in the region of the closed position, the driver of the self-retractor can act on a movable stop, by means of which the linear damper is actuable. This stop can also be actuated in this case by the second activator in the opening direction, while the driver of the self-retractor remains functionless during a movement of the slide rail in the opening direction.
The pullout guide according to the invention is preferably used in a domestic appliance, particularly preferably in a dishwasher, in particular if two pullout guides are fixed on opposing sides of an interior. Drawer elements, which can be designed as dish racks in dishwashers, can then be movably supported via the pullout guide. A use in furniture or other domestic appliances having rail-guided food supports or containers is also possible.
It is also possible not to attach the pullout guides directly on the side walls of a dishwasher or furniture body, but rather on variable-position lever mechanisms, which are in turn linked on the side walls. Such a lever mechanism is disclosed, for example, in DE 202009004771 U1. In this manner, the functionality of this invention may also be transferred to dish racks or movable furniture parts, which can change not only the horizontal position, but rather also the vertical position in relation to the dishwasher housing or furniture body.
The invention will be explained in greater detail hereafter on the basis of two exemplary embodiments with reference to the appended drawings. In the figures:
A pullout guide 1 comprises a stationary guide rail 2, on which a middle rail 3 is movably supported via roller bodies. A slide rail 4 is movably supported via further roller bodies on the middle rail 3. A web-shaped activator 5, which can be engaged with a damping device 6, which is arranged behind a cover 7 in
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The slide rail 4 can be moved according to
The damping device 6 is shown in detail in
In order to move the linear damper into a starting position, in which the piston rod 10 protrudes from the damper housing 9, a spring 14 is provided, which is supported on one side on the housing 12 and is supported on the opposing side on a stop 19 of the plunger 16.
To cause damping, when the slide rail 4 moves in the closing direction, the first activator 5 presses against the plunger 16, which acts via the connecting section 15 on the piston rod 10 and pushes it into the damper housing 9. The movement of the slide rail 4 in the closing direction is thus decelerated in order to avoid loud impact noises.
If the slide rail 4 is moved in the opening direction, the middle rail 3 moves at approximately half of the speed of the slide rail 4, and therefore the second activator 8 strikes against the redirection lever 20 shortly before reaching the maximally open position. The arm 21 of the redirection lever 20 is thus rotated about the axis 22, and the second arm 23 presses the plunger 16 in the closing direction again, and therefore the piston rod 10 is retracted back into the damper housing 9.
It can occur that the redirection lever 20 is in contact with the second activator 8 not only shortly before the maximally open position, but rather even before this. This takes place, for example, if the middle rail 3 and the slide rail 4 extend together until the middle rail 3 has reached its maximum extension position. In this case as well, the arm 21 of the redirection lever 20 is only rotated and the damping is activated when the slide rail 4 is also located shortly before reaching the maximal extension position.
Independently of whether the first activator 5 or the second activator 8 has caused a damping procedure, the piston rod 10 moves back out of the damper housing 9 as a result of the force of the spring 14 as soon as the slide rail 4 leaves the closed position or the maximally open position.
In the exemplary embodiment of
The pullout guide 1 with the slide rail 4, the middle rail 3, and the stationary guide rail 2 corresponds in this case to the preceding exemplary embodiment, wherein a modified damping device 6′ is fixed on the guide rail 2. In order to actuate the damping device 6′, a first web-shaped activator 5′ is provided on the slide rail 4, and a second activator 8 is fixed on the middle rail 3.
The pullout guide 1 is shown in a closed position in
If the slide rail 4 is moved slightly in the opening direction, as shown in
The modified damping device 6′ having the self-retractor is shown in detail in
Furthermore, a driver 40 is movable on the housing 12′ along a guide path 60, which has an angled end section 61. The driver 40 is guided via pin 42 in the guide path 60, wherein two side walls of the housing 12′ enclose the driver 40. A receptacle 41, which can be engaged with a portion of the first activator 5′, is provided on the driver 40. The activator 5′ can be introduced at a slotted receptacle 62 of the housing 12′ in order to be engaged with the driver 40.
The driver 40 is pre-tensioned using a spring 30 in the closing direction, wherein the spring 30 is fixed with a first end 31 on the damper housing 9 and at a second end 32 on the driver 40. Alternatively, the spring can also be fixed on another component or on the inner wall of a domestic appliance or on a body of a piece of furniture. If the driver 40 is located with a pin 42 on the angled end section 61, it is in a parked position. By retracting the activator 5′ into the receptacle 41 on the driver 40, it can be disengaged or unlocked from the parked position, in order to then be moved by the force of the spring 30 along the guide path 60 in the closing direction. During the movement of the driver 40 in the closing direction, it encounters the linearly guided stop 50, which is guided in the guide path 63, and therefore the movement of the driver 40 is braked via the linear damper.
The movable stop 50 is located in this case between the driver 40 and the connecting element 11 on the piston rod 10. The movable stop 50 can thus be activated both during a closing movement of the slide rail 4 and also during an opening movement of the slide rail 4, while the driver 40 of the self-retractor is only actuated via the activator 5′ during a closing movement of the slide rail 4.
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In the exemplary embodiment, the pullout guide 1 is installed in a dishwasher. The pullout guide according to the invention can be used in pieces of furniture or in other domestic appliances, such as refrigerators, freezers, ovens, microwave ovens, or warming drawers.
The pullout guide 1 in the exemplary embodiment consists of a guide rail 2, a middle rail 3, and a slide rail 4. It is also possible to use the damping device 6 in a so-called partial pullout without middle rail, wherein in this case the second activator 8 would also be arranged on the slide rail 4.
In a further variant (not shown), the driver 40 and the stop 50 are moved in a common guide path.
In the illustrated exemplary embodiment, the redirection mechanism comprises a rotatably supported redirection lever. It is also possible to use a displaceably supported redirection element instead of a redirection lever, which is displaceable, for example, along a bent curve guide.
Instead of a compression spring, a traction spring can also be applied to the damper. The traction spring can be fixed, for example, on one side on the housing and on the other side on the movable stop, in order to be able to move the damper back into the starting position.
Number | Date | Country | Kind |
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10 2016 105 231.0 | Mar 2016 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2017/055252 | 3/7/2017 | WO | 00 |