The invention relates to a door setting device which allows parallel settings of a door of a cupboard or wherein the door can be pivoted over the body of the cupboard.
Prior art door setting devices of said type comprise a setting arm and a control arm which are each, at one end, fixed at a side wall of a cupboard body so as to be pivotable between an open position and a closed position. At their other ends they are each fixed at a door so as to be pivotable around parallel spaced axes. The setting arm is loaded towards the open position by a gas pressure store or by a pressure spring for example. Via a short pivot path between an intermediate position and the closed position, the setting arm is loaded towards the closed position. Therefore, when opening the door, it is first necessary to overcome a pulling force which ensures that the door is held firmly in the closed position. After the intermediate position has been passed, the door then, on its own, moves into the open position. When closing the door, it is necessary to overcome the force which transfers the door into the open position.
The disadvantage of this embodiment is that the door is always transferred into the open position and that, when closing the door, it is necessary to overcome a relatively high force in order to close the door against the force loading it towards the open position.
It is therefore the object of the present invention to provide a door setting device which allows parallel settings of a door or wherein the door can be pivoted over the body of a cupboard and wherein the door can be held in any position.
In accordance with the invention, the objective is achieved by a door setting device for a cupboard comprising
It is thus ensured that the door can be held in any position. As, additionally, the force for holding the door is calculated to be such that the door cannot move into the open position on its own, the force required for closing the door is lower.
In order to ensure that the force in any position is such that the door is held in any position, the setting arm can comprise a setting contour which is arranged around the first setting axis in the shape of a curve, wherein there is provided a setting slide which can be guided so as to be linearly displaceable and is loaded into contact with the setting contour. The radial distance of the setting contour from the first setting axis in the region of contact between the setting slide and the setting contour decreases towards the open position at least over the first part of the pivot path, starting from an intermediate position of the setting arm, which intermediate position is located between the open position and the closed position.
The setting contour can be adapted to any application, i.e. to any door weight and to any geometry of the articulation of the setting arm and of the control arm.
To ensure that over a short pivot path between an intermediate position and the closed position, the door is not loaded towards the open position, but that there is provided a pulling force which pushes the door into its closed position, the radial distance of the setting contour and the first setting axis in the region of contact between the setting slide and the setting contour increases towards the intermediate position via a second part of the pivot path, starting from the closed position of the setting arm.
Because the friction forces vary as a result of wear and dirt, a sliding contact between the setting slide and the setting contour would also vary considerably. In order to avoid this, the setting slide can be supported against the setting contour by a roller which is rotatably supported at the setting slide.
The setting slide can be loaded against the setting contour by spring means. Satisfactory support of the spring means can be achieved by providing a supporting bearing which is held at a variable distance from the first setting axis and by supporting the spring means against the setting slide on the one hand and against the supporting bearing on the other hand.
In order to hold the supporting bearing at a variable distance from the first setting axis, it is proposed according to a first embodiment that the supporting bearing is supported against a bearing face of an abutment which is rotatably supported around an axis of rotation, wherein, in the circumferential direction, the bearing face comprises a variable distance from the axis of rotation. The bearing face can be worm-shaped for example. In the bearing face, there can additionally be provided indentations in order to achieve defined rotational positions of the abutment.
A preferred embodiment of the door setting device comprises a housing which can be fixed to a side wall of the cupboard body and to which the setting arm is fixed so as to be pivotable around the first setting axis and the control arm around the first control axis.
Furthermore, it is possible to provide a fixing element to which the setting arm can be fixed so as to be pivotable around the second setting axis and to which the control arm can be fixed so as to be pivotable around the second control axis, which fixing element can be fixed to the door.
In order to permit a parallel door setting, the distance between the first setting axis and the first control axis and the distance between the second setting axis and the second control axis are identical, and the distance between the first setting axis and the second setting axis and the distance between the first control axis and the second control axis are identical.
Preferred embodiments will be explained below with reference to the drawings wherein
At its end arranged so as to be remote from the first setting axis 13, the setting arm 10 is connected to a fixing element 15 so as to be pivotable around a second setting axis 16. The fixing element 15 is fixed to the door 8 at the inner face 22 of same. The second setting axis 16 is arranged so as to extend parallel to, and at a distance from, the first setting axis 13.
The control arm 11 is fixed to the fixing element 15 so as to be pivotable around a second control axis 17, with the second control axis 17 extending parallel to, and at a distance from, the first control axis 14.
The imaginary line between the first setting axis 13 and the second setting axis 16 and that between the first control axis 14 and the second control axis 17 are identical in length and extend parallel relative to one another, so that there is obtained a parallelogram. There is thus achieved a parallel setting movement of the door 8 from the closed position shown in
The control arm 10 comprises a setting contour 18, with a setting slide 19 being radially supported against same by a roller 20. The roller 20 is rotatably fixed to the setting slide 19. The setting slide 19 is loaded by spring means 21 against the setting contour 18.
The radial distance between the setting contour 18 and the first setting axis 13 in the region of contact between the setting slide 19 and the setting contour 18 decreases towards the open position, at least via a first part of the pivot path of the setting arm 10, starting from an intermediate position of the setting arm 10, which intermediate position is located between the open position and the closed position. The way in which the setting contour 18 extends is adjusted equally to the dead weight of the door 8, the setting arm 10 and the control arm 11, so that the door 8 is held in any position. The torque which is generated by the setting slide 19 supported against the setting contour 18 thus changes along the pivot path of the setting arm 10, depending on the amount of torque required for holding the door 8.
In order to ensure that the door 108 pivots over the cupboard body 101, the distance between the first setting axis 113 and the second setting axis 116 is smaller than the distance between the first control axis 114 and the second control axis 117. Furthermore, an imaginary straight line through the two setting axes 113, 116 and a straight line through the two control axes 114, 117 intersect one another above the door setting device 109, with the first control axis 114, furthermore, being arranged below the first setting axis 113, whereas the first control axis 14, in a door setting device according to
Below, the door setting device 9 according to
The setting arm 10 is supported in the housing 12 of the door setting device 9 so as to be pivotable around the first setting axis 13, with the housing 12 being firmly connected to the side wall of the cupboard body. The setting arm 10 comprises a setting contour 18 which is shown in the form of a curve extending around the first setting axis 13.
The setting slide 19 is guided in the housing 12 so as to be linearly displaceable. The setting slide 19 comprises a roller 20 which is supported at the setting slide 19 so as to be rotatable around an axis of rotation 23 extending parallel to the first setting axis 13. The roller 20 contacts the setting contour 18 by means of an outer circumferential face. Spring means 21 in the form of pressure springs load the setting slide 19 and thus the roller 20 against the setting contour 18. The spring means 21 are supported against the setting slide 19 on the one hand and against a supporting bearing 24 on the other hand which is linearly displaceably supported in the housing 12. The supporting bearing 24 is supported against a bearing face 25 of an abutment 26, with the abutment 26 being supported in the housing 12 so as to be rotatable around an axis of rotation 27 and with the bearing face 25 being arranged at a variable distance from the axis of rotation 27 of the abutment 26, so that the supporting bearing 24 is held at a variable distance from the first setting axis 13 in the housing 12. The bearing face 25 is worm-shaped and comprises radial indentations which are engaged by an engaging lug 29 of the supporting bearing 24 in order to prevent the abutment 26 from being rotated unintentionally.
The setting contour 18 of the setting arm 10 is designed in such a way that the radial distance between the setting contour 18 and the first setting axis 13 in the region of contact between the setting slide 19, i.e. the roller 20, and the setting contour 18 decreases towards the open position along a pivot path, starting from the intermediate position of the setting arm 10. It is thus ensured that, along the longest angular path, the setting arm 10 is loaded by a force which generates a moment towards the upper position corresponding to the open position of the door 8. Along the angular path starting from the intermediate position to the closed position, the setting contour 18 comprises a flat portion along which the radial distance from the first setting axis 13 decreases. Via said pivot path, there is thus generated a torque which loads the setting arm 10 towards the closed position. The setting contour 18 is designed in such a way that, in every pivot position of the setting arm 10, the torque as generated corresponds to the counter torque generated by the weight force of the door 8 as a whole, so that the door 8 is held in every position between the open position and the intermediate position.
Number | Date | Country | Kind |
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102 23 026.9 | May 2002 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP03/05317 | 5/21/2003 | WO | 3/22/2005 |