The invention relates to a furniture hinge having a hinge part and a fastening portion, wherein the hinge part and the fastening portion are pivotably interconnected by way of a multi-axes articulation connection, and wherein a damper element that damps in a deflection direction for damping the movement of the hinge part, and a spring for readjusting the hinge part in relation to the fastening portion are provided.
Such a furniture hinge is known from EP 1 713 996 B1. Herein, an actuator-arm drive for flaps of cupboards is described, the former having a hinge part that is configured as an actuator arm and that is fastened to a housing so as to be rotatable about an axle. The actuator arm by way of a second axle is connected to a control part that is mounted in a linear and rotatable manner, said control part on that side thereof that is opposite the control arm by way of a control curve bearing on a movable pressure part that is biased by a spring assembly. The linear mobility of the control part is achieved by the mounting on a slide, or by means of an axle that is guided in an elongate hole. The spring force is transmitted to the control arm by way of the control part in such a manner so as to support the opening and closing process of the flap.
The control-arm drive comprises a damper which damps the tilting motion of the control arm ahead of two terminal positions, not influencing said tilting motion therebetween. To this end, the control arm has a detent which during closing of the flap presses against a first end of the damper. During opening of the flap, either the slide or the pressure part presses against the second end of the damper. The damper is preferably embodied as a linear damper.
It is disadvantageous herein that the damper has to be activated from both sides and thus has to be accordingly accessible and readjustable. Furthermore, the damper acts unilaterally on the slide or on the pressure part. In order to avoid jamming of the slide or of the pressure part, said slide and the pressure part therefore have to be guided at correspondingly tight tolerances. Both requirements lead to a high effort in terms of construction and manufacturing.
It is an object of the invention to achieve a reliably operating furniture hinge that is producible in a cost-effective manner and that enables damping of a hinge arm while being outwardly and inwardly folded.
The object of the invention is achieved in that the damper element is mounted in such a manner that during a folding motion of the hinge arm from a first terminal position to a second terminal position, maximum or minimum deflection of the damper element is performed within a readjustment motion of the damper element that is caused by said folding motion. Herein, the maximum and minimum deflection corresponds to the maximum and minimum deflection that is performed within the readjustment motion of the damper element, and do not correspond to the maximum or minimum deflection possible that is defined by the construction of the damper element. However, the maximum and minimum deflections possible, and the maximum and minimum deflections performed, respectively, may be identical, given a corresponding construction of the furniture hinge.
By reversing the movement direction of the readjustment motion at the point of maximum or minimum deflection it is achieved that the hinge arm is damped in that readjustment motion of the damper element that follows the maximum or minimum deflection, respectively. The arrangement herein is chosen in such a manner that the damper element acts in a damping manner in that readjustment direction of the readjustment motion that follows the maximum or minimum deflection, while said damper element does not damp in that readjustment direction that precedes the maximum or minimum deflection. Whether or not maximum or minimum deflection is performed depends on the chosen construction and on the damping direction of the damper element used. If and when a construction in which maximum deflection is performed is chosen, damping is performed during the deflection of the damper element being decreased. By contrast, If and when a construction in which minimum deflection is performed is present, damping is performed during the deflection of the damper element being increased.
Thus, a furniture hinge that in particular is also producible in a cost-effective manner is achieved, which by way of a single damper element that acts in one direction enables damping of a hinge arm both during outward as well as inward folding, ahead of the respective terminal position being reached. Prior to the maximum or minimum deflection of the damper element being reached, respectively, no damping takes place in the case of a corresponding layout, such that the first motion range during opening or closing, respectively, a cupboard door that is fastened by way of the furniture hinge is performed in an undamped manner, for example.
It is provided that the deflection of the damper element in the first terminal position of the hinge arm deviates from the deflection in the second terminal position of the hinge arm; in this way various damping paths may be adjusted for inward and outward folding of the hinge arm and thus for closing and opening a cupboard door that is fastened to the hinge arm. Advantageously, more intense damping, using a longer damping path, may be provided for closing the cupboard door than for opening the cupboard door, for example.
According to a particularly preferred variant of design embodiment of the invention it may be provided that the damper element is mounted to as to be pivotably about a first rotation axis. Herein, a bearing of the damper element is pivoted about the first rotation axis in such a manner that an upper or lower dead center is passed during the readjustment of the damper element. Maximum or minimum deflection of the damper element is achieved during passing of the upper or lower dead center. After the upper or lower dead center has been passed, a reversal of the readjustment direction of the readjustment motion of the damper element is performed. From this point in time onward, the damper element acts in a damping manner. The reversal of the readjustment direction of the damper element is performed during each passage through the upper or lower dead center, respectively, independently of the rotation direction of the pivoting motion. It may thus be achieved that the damper element that damps only in one readjustment direction damps the movement of the hinge arm both during inward folding as well as during outward folding. The furniture hinge is conceived in such a manner that only either the upper or the lower dead center is passed during the hinge arm moving between the two terminal positions. If and when the upper dead center is passed, a damper element is preferably provided which acts in a damping manner when being collapsed. However, if and when a lower dead center is passed, the damper element advantageously acts in a damping manner when being extended. It is achieved in this manner that the movement of the hinge arm is damped prior to one of the terminal positions being reached.
On account thereof, the damper element may be operatively connected to the articulation connection and thus to the hinge arm such that an articulation element of the articulation connection forms the first rotation axis, and that the articulation element is readjustable about a first rotation axis that is formed by a first articulation. Thus, the movement of an articulation element, advantageously provided anyway, of the multi-axes articulation connection that is provided between the hinge arm and the fastening portion may be used for achieving the pivoting motion of the damper element about the first rotation axis. Depending on the construction present, it may however also be necessary for the articulation connection to be augmented by a separate articulation element in order for the damper element to be linked in a corresponding manner to the motion sequence.
A simple construction in which an upper or lower dead center is passed when readjusting the damper element may be achieved in that the damper element is mounted in the region of two support bearings, and in that during readjustment of the furniture hinge from the first terminal position to the second terminal position, a connection line that runs through the support bearings, or the extension of said connection line, crosses the first rotation axis. The upper or lower dead center, respectively, and thus the maximum or minimum deflection, respectively, of the damper element is achieved once the connection line or the extension thereof crosses the first rotation axis. Herein, an upper dead center is passed when the connection line per se crosses the rotation axis, while a lower dead center is passed when the extension of the connection line crosses the rotation axis. It is advantageous in the case of the motion sequence thus achieved that the linear readjustment of the damper element is performed by a converted pivoting motion. Herein, the readjustment direction of the damper element is always aligned in the direction of the input of force by way of the pivoted support bearing of the damper element. Transverse forces are largely avoided such that a flowing movement in which jamming of moved components is reliably avoided without any additional measures being required is achieved.
In order to achieve the pivoting motion and by way thereof the readjustment of the damper element, it is advantageous for a first support bearing of the damper element to be pivoted about the first rotation axis, and for a second support bearing to be kept at a fixed spacing from the first rotation axis. To this end, it may be provided that the damper element is connected to the articulation element, on the one hand, and is connected to a movable lever that is pivotably connected to the latter, on the other hand. The movable lever herein is advantageously connected to the articulation element so as to be pivotable about the first rotation axis about which the damper element is also pivoted. By mounting the second support bearing on the movable lever, the spacing between the second support bearing and the first rotation axis thus remains equal. This also applies when the first rotation axis per se is displaced. On account thereof, it is enabled that the pivoting motion of the damper element about the first rotation axis is achieved in that the latter per se is rotated about a further rotation axis, for example about the first articulation that has been described above. A multiplicity of constructive possibilities in which the damper element may be attached within the multi-axes articulation connection of the furniture hinge is achieved by using a movable lever of this type for attaching the second support bearing of the damper element.
The spring is provided in order to enable self-acting inward and/or outward folding of the hinge arm after activation of the latter. In order for the spring to be coupled to the hinge arm in such a manner that the former adjusts the latter both during inward folding as well as during outward folding, it may be provided that the movable lever is connected to the articulation connection, and is connected to both a connection lever as well as to a spring tensioner in such a manner that the spring that is held between the connection lever and the spring tensioner is tensionable or relaxable during readjustment between the two terminal positions.
In order to enable a readjustment of the hinge arm by the spring in the case of cupboard doors of dissimilar weight that are fitted to the hinge arm and it may be provided that the spring is connected to a tensioning element, and that the spring bias of the spring is adjustable by means of the tensioning element. In this way, a heavier spring bias may be set in the case of heavy cupboard doors than in the case of lighter cupboard doors. Furthermore, the speed of the self-acting opening and closing motion of the cupboard door may be influenced by the spring bias.
According to a variant of embodiment of the invention it may be provided that the movable lever is connected indirectly or directly to the spring that, depending on the position of the hinge arm, is variously intensely deflected in such a manner that a variable compression force, depending on the position of the hinge arm, is transmitted to the articulation element by way of the movable lever. The spring force herein is transmitted from the connection lever and the spring tensioner to the movable lever. The tensile force of the spring herein is converted to a compression force that acts on the movable lever and thus on the articulation connection. This compression force is transmitted to the articulation element in such a manner that the former causes a rotating motion of the articulation element about the first articulation. A cupboard that is fastened to the hinge arm therefore has first to be opened or closed counter to the spring force, prior to said cupboard door in a second movement portion, driven by the spring, completing the opening or closing motion, respectively, in a self-acting and damped manner. By way of the arrangement of the connection lever, of the spring tensioner, of the movable lever, and in particular of the articulation element that is connected to the movable lever and of the rotation axis of said articulation element about the first articulation, it may be achieved that the spring during outward folding of the hinge arm is predominantly relaxed, and during inward folding is predominantly tensioned. Thus, opening of a cupboard door, which may optionally be performed counter to the weight of the cupboard door, is more intensely supported by the spring that closing of the cupboard door, the spring in the case of the latter being relaxed and thus acting in the movement direction of the hinge arm only in the last movement portion.
Apart from adapting the spring force to the fitted cupboard door, it is desirable that damping may also be adapted to the conditions present. This may be achieved in that an adjustment device by way of which the damping stroke and/or the damping force of the damper element is adjustable prior to the first and/or the second terminal position being reached is provided. Damping may thus be adjusted in such a manner that a cupboard door may be closed rapidly, but nevertheless in the last movement portion thereof bears slowly and quietly on a cupboard unit, for example.
In order for damping to be adjustable it may be provided that the damper element is indirectly or directly coupled to the multi-axes articulation connection by way of a guide element, and in that the guide element for adjusting the damping stroke of the damper element is adjustable by means of an adjustment element of the adjustment device on a guide. The position at which the damper element is pivoted about the first rotation axis is established by the guide and the guide element. The chosen position determines the path that the guide element and thus the movable support bearing of the damper element, during being pivoted, performs about the first rotation axis. On account thereof, the readjustment motion of the damper element and the damping stroke are defined. The position, in which the guide element is pivoted about the first rotation axis, and thus the damping stroke, are established by the adjustment element.
Simple adjustment of the damping stroke may be achieved in that a maximum movement of the guide element is adjustable by way of a movable detent at a variable end of the guide. Herein, for example, the guide element bears on the variable end of the guide only in the case of one movement direction of the hinge arm, for example during inward folding. The adjustment of the detent on account thereof only modifies damping during inward folding of the hinge arm in the case of a cupboard door that is fitted to the hinge arm being closed.
Fixedly defined and non-adjustable damping during opening of a cupboard door is sufficient for most application cases. In order to minimize the adjustment effort during fitting of the furniture hinge, it may thus be provided that the guide element during outward folding of the hinge arm, after passing the maximum or the minimum deflection of the damper element, bears on one end of the guide. Damping during opening of the cupboard door is fixedly defined if and when this end is not variably adjustable. A furniture hinge which during inward folding of the hinge arm has adjustable damping, and during outward folding has fixedly defined damping may thus be provided.
Simple coupling of the damper element to the articulation connection of the furniture hinge may be achieved in that the guide is disposed on the articulation element.
Herein, the adjustment of the damping stroke may be performed in that the detent is formed by an eccentric that is rotatably mounted on the articulation element and that, depending on the rotation thereof, keeps the guide element at a variable spacing from the rotation axis thereof.
In one potential variant of design embodiment of the invention it is provided that the first terminal position of the hinge arm is assigned to an inwardly folded hinge arm, and the second terminal position is assigned to an outwardly folded hinge arm, and that the readjustment of the damper element between the minimum or the maximum deflection and the deflection in the first terminal position of the hinge arm is larger than the readjustment of the damper element between the minimum or the maximum deflection and the deflection in the second terminal position of the hinge arm. On account thereof, a larger damping stroke is present during inward folding of the hinge arm and thus during closing of a connected cupboard door than during outward folding of the hinge arm during opening of the cupboard door.
Advantageously and cost-effectively, a linear damper is provided as the damper element.
The invention will be explained in more detail hereunder by means of an exemplary embodiment which is illustrated in the drawings. In the drawings:
The hinge housing 31 forms a fastening portion 30 of the furniture hinge 10, having three fastening receptacles 32.1, 32.2, 32.3. The hinge housing 31 in the illustration is closed off by a housing lid 33. A linear guide 34 and an adjustment opening 35 are provided as passage openings in the housing lid 33. Fastening points of a first articulation 41.1, of a second articulation 41.2, and of a rotary joint 81 are sunk into the housing lid 33.
The hinge arm 20 is pivotably connected to the fastening portion 30 by way of a multi-axes articulation connection 40. A first and a second set screw 22.1, 22.2 are disposed along a rear web 24 of the hinge arm 20. Lateral legs 23 adjoin the rear web 24 on either side. The hinge arm 20 engages in a connection element 21 which has connection hooks 21.1, 21.2. Toward the articulation, the lateral legs 23 transition to an articulation guide 26 by way of an expansion region 25 that is reinforced by an embossing 25.1. A sixth articulation 41.6 and a seventh articulation 41.7 of the multi-axes articulation connection 40 are disposed on the articulation guide 26.
The multi-axes articulation connection 40 is connected to the fastening portion 30 by way of the first and the second articulation 41.1, 41.2, and is connected to the hinge arm by way of the sixth and seventh articulation 41.6, 41.7.
A spring tensioner 80 is attached to the fastening portion 30 by way of the rotary joint 81, so as to be opposite the articulation connection 40. The spring tensioner 80 is assigned a tensioning element 84 that is composed of a knurled screw 84.1 having a knurled head 84.2 and a slide 84.3 having a spring eyelet 84.4 attached thereto. The slide 84.3 is mounted so as to be displaceable on a slider bar 83. The slider bar 83 and the knurled screw 84.1 at the end side are fixed to a common base 82 which establishes the connection to the fastening portion 30 of the furniture hinge 10.
A spring 76 is hooked to the spring eyelet 84.4, the former by way of the opposite end thereof being fastened to a spring holder 75. The spring holder 75 at the end side is connected to an approximately S-shaped connection lever 72 by way of a pin 74. The connection lever 72 by way of a guide pin 73 is guided in the linear guide 34 that is attached to the housing lid 33.
In the fitted state, the hinge arm 20 is assigned to a cupboard door or to a flap, and the fastening portion 30 is assigned to a base unit of an item of furniture (not illustrated). Herein, the connection element 21 by way of the connection hooks 21.1, 21.2 engages in a connection piece (not illustrated) which is fastened to the cupboard door or to the flap. The cupboard door or the flap may be aligned in relation to the base unit by way of the set screws 22.1, 22.2. The fastening portion 30 by means of fastening means (not illustrated) which are routed through the fastening receptacles 32.1, 32.2, 32.3, is fastened to the base unit.
The hinge arm 20, during opening of the cupboard door or of the flap, is pivoted from the closed first terminal position shown to an opened second terminal position shown in
The hinge housing 31 at the rear side is closed off by way of a rear housing wall 36 which has the same passages, articulation receptacles, and fastening receptacles 32.1, 32.2, 32.3 as the housing lid 33 that is shown in
A first articulation lever 42.1 of the multiple-axes articulation connection 40 is disposed between the seventh articulation 41.7 on the articulation guide 26 of the hinge arm 20, and a fifth articulation 41.5 that is displaceable in the position thereof. A second articulation lever 42.2 that is shown in
An approximately triangular articulation element 43 at one corner is rotatably connected to the hinge housing 31 by way of the first articulation 41.1. The articulation element 43 at an opposite corner is rotatably connected to the second articulation lever 42.2 by way of the third articulation 41.3. A first rotation axle 44 in the form of a further articulation axle is disposed on a third corner of the articulation element 43 that faces away from the multiple-axle articulation connection 40. The articulation element 43 herein is rotatably connected to one end of a bent movable lever 70.
The articulation element 43 is formed from two mutually opposite articulation plates 43.1, 43.2 that are disposed so as to be spaced apart, wherein the forward first articulation plate 43.1 can be seen in the illustration chosen in
A damper element 60, damping in a linear manner, by way of a guide element 45 is mounted so as to be rotatable and displaceable in the elongate holes of the guide 46. The damper element 60, at the opposite end thereof, by way of a counter bearing 61 is rotatably fastened to the movable lever 70.
The movable lever 70, the base 82 of the spring tensioner 80, and the connection lever 72 each are interconnected at the end side by way of an articulation axle 71.
The multiple-axle articulation connection 40, by way of the seven articulations 41.1, 41.2, 41.3, 41.4, 41.5, 41.6, 41.7 thereof, configures a known seven-way articulation connection between the hinge arm 40 and the fastening portion 30. During outward folding of the hinge arm 20 to an opened second terminal position that is shown in
The damper element 60 used acts in a damping manner only in one readjustment direction, during collapsing of the damper element 60. No damping of the movement of the articulation element 43 and of the hinge arm 20 is thus performed in the motion sequence described, until the maximum deflection of the damper element 60 is achieved. After the maximum deflection, the damper element 60 by contrast acts in a damping manner on the movement of the articulation element 43 and thus, transmitted by the multi-axle articulation connection 40, on the movement of the hinge arm 20. Since the readjustment direction of the damper element 60 is reversed both during inward folding as well as during outward folding of the hinge arm 20, damping of the movement of latter is in each case performed prior to achieving one of the terminal positions of the hinge arm 20. On account thereof, both damped opening as well as damped closing of a cupboard door or flap that is fastened to the hinge arm 20 is achieved by way of only one damper element that damps in a linear manner in one direction.
By way of the spring 72 that is tensioned between the spring tensioner 80 and the connection lever 72, the spring tensioner 80 is rotated about the rotary joint 81, and the connection lever 72 is rotated counter thereto about the guide pin 73. On account thereof, a compression force is transmitted by way of the common articulation axle 71 to the movable lever 70, and from the latter on the first rotation axle 44 to the articulation element 43. In this manner, a torque which in the alignment of the articulation element 43 during the inwardly folded terminal position of the hinge arm 20 shown in
The bias of the spring 76 may be adapted by the tensioning element 84 of the spring tensioner 80 in such a manner that a self-acting movement of the hinge arm in the case of cupboard doors or flaps of dissimilar weight that are guided by the hinge arm 20 is enabled. To this end, the position of the slide 84.3 is displaced along the slider bar 83 with the aid of the knurled screw 84.1.
By mounting the damper element 60 by way of the counter bearing 61 thereof on the movable lever 70 it is achieved that the spacing between the counter bearing 61 and the first rotation axle 44 remains the same, independently of the position of the articulation element 43 and of the movable lever 70. The readjustment of the damper element 60, and thus the damping stroke thereof, is thus defined by the position at which the guide element 45 is held on the articulation element 43 and is rotated about the first rotation axle 44, and by the rotation angle between the articulation element 43 and the movable lever 70.
The damping stroke of the damper element during outward and inward folding of the hinge arm 20 may be variably embodied by the position of the guide element 45 on the articulation element 43 and by the pivoting range of the guide element 45 about the first rotation axle 44. In this way, it is provided in the exemplary embodiment shown that during outward folding of the hinge arm 20, from the first terminal position shown in
By contrast, it is provided during the introduction of the spring force that the first rotation axle 44 as the coupling-in point for the spring force into the articulation element 43 during outward folding of the hinge arm 20 crosses the connection line between the first articulation 41.1 and the articulation axle 71 already after a short rotating motion about the first articulation 41.1. The spring force counteracts the movement of the articulation element 43 and thus of the hinge arm 20 only in a first small movement range, so as to subsequently act across a large movement range in the movement direction of the articulation element 43 and thus of the hinge arm 20. Here too, the motion sequence is reversed during inward folding of the hinge arm 20. Thus, the spring 76 acts across a large movement range of the hinge arm 20 in the direction of an opening position of a cupboard door or a flap that is fastened to the hinge arm 20, acting to close the cupboard door or the flap only in the direct proximity of the closing position.
By way of this asymmetrical effect of both the damper element 60 as well as of the spring 76 during outward and inward folding of the hinge arm 20 it is achieved that opening of a cupboard door or a flap, counter to the force of gravity acting thereon, with the support of the spring 76 is performed in a smooth-running manner or, in a last movement portion, in a self-acting manner. The movement herein is dampened just before the end of the opening procedure. By contrast, a significantly longer damping stroke is provided during closing of the cupboard door or the flap, so as to avoid an impact of the cupboard door or the flap on a cupboard base unit. Herein, the cupboard door or the flap, respectively, in the last movement range thereof is pulled into the closing position thereof in a self-acting manner.
The furniture hinge 10 may be adapted to cupboard doors and flaps of dissimilar weight by adjusting the spring bias.
The guide element 45 as the support bearing of the damper element 60 is mounted in the guide 46 on the articulation element 43. The guide 46 herein is embodied by elongate holes which are attached so as to be congruent, both in the first articulation plate 43.1 as well as in the second articulation plate 43.2 that is disposed in an obscured manner. The guide 46 thus enables a rotating motion as well as a linear readjustment of the guide element 45 that is mounted in the former. The elongate holes are aligned toward the first articulation 41.1, so as to be spaced apart from the first rotation axle 44. The adjustment element 50 is disposed between the guide 46 and the first articulation 41.1. As is also shown in the context of
As can be seen from
When inwardly folding the hinge arm 20 to the closed position illustrated, the guide element 45, is pushed against the variable end 46.1 of the guide by the damper element 60, counteracting the movement. The detent for the guide element 45 may be displaced according to the latching curves 52.3, 52.4 by rotating the adjustment element 50. The position of the guide element 45 in the inwardly folded position of the hinge arm 20 shown, in the effective direction of the damper element 60 is thus defined by the adjustment element 50. The readjustment path of the damper element 60, and thus the damping stroke, during inward folding of the hinge arm 20 may thus be adjusted by the adjustment element 50. Herein, a damping stroke that can be set as small as possible results in the adjustment of the adjustment element 50 shown in
In the inwardly folded terminal position of the hinge arm 20, shown in
A piston rod 63, shown in
The piston rod 63 of the damper element 60, the former being partially enveloped by the cover 62, at the end thereof has a guide-element receptacle 64 in which the guide element 45 that is embodied as a transverse pin is held. A setting element 65 in the form of an appendage is configured on the guide-element receptacle 64. The setting element 65, in the position of the hinge arm illustrated, is aligned toward the axle 53 of the adjustment element 50 and bears on the latter.
By way of the setting element 65 the guide element 45 is displaced in relation to the fixed end 46.2 of the guide 46, independently of the adjustment of the adjustment element 50. During outward folding of the hinge arm 20, from the closed terminal position thereof to the opened terminal expediently thereof, the guide element 45 is therefore expediently moved from the variable end 46.1 of the guide 46 to the fixed end 46.2 of the latter, and held there. The position of the guide element 45 during opening of the hinge arm 20 is fixedly defined on account thereof. The damping stroke of the damper element 60 during outward folding of the hinge arm 20 is thus also fixedly defined, while the damping stroke during inward folding of the hinge arm 20 can be adjusted by the adjustment element 50.
In the maximum adjustment of the adjustment element 50 illustrated, the guide element 45 is also held by the eccentric 52 on the side of the fixed end 46.2 of the guide 46. A maximum damping stroke is thus adjusted during inward folding of the hinge arm 20 and thus during closing of a cupboard door or a flap that is fastened to the hinge arm 20.
In order for the intermediate position illustrated to be achieved, the guide 46, by way of the guide element 45, during the outward folding of the hinge arm 20, commencing in the closing position shown in
The second articulation plate 43.2 of the articulation element 43 is pivoted about the first articulation 41.1 by outwardly folding the hinge arm 20. By way of the movement of the articulation element 43 the first rotation axle 44 in relation to the position of the latter in
The setting element 65 is routed past the axle 53 of the adjustment element 50, but still bears thereon in such a manner that the guide element 45 is held on the fixed end 46.2 of the guide 45.
During outward folding of the hinge arm 20 the articulation axle 71 as the connection point between the movable lever 70, the connection lever 72, and the base 82 of the spring tensioner 80, pivots about the rotary joint 81 shown in
The movable lever 70 and the connection lever 72 are disposed and shaped in such a manner that both of former during the movement thereof between the two terminal positions do not cross the positions of the fastening receptacles 52.1, 52.2, 52.3, independently of the adjustment of the spring tensioner 80 or of the adjustment element 50. Fastening elements may thus be routed through the fastening receptacles 52.1, 52.2, 52.3 without blocking the movement of the hinge arm 20.
The position of the articulation element 63 in the case of a hinge arm 20 that is outwardly pivoted to the second terminal position thereof is shown. In this position, the tool engagement feature 51 of the adjustment element 50 is positioned so as to be opposite the adjustment opening 35 in the housing lid 33, the former thus being accessible from the outside.
The guide element 45 is held at the fixed end 46.2 of the guide 46, on account of which the deflection of the damper element 60 is established in this position of the articulation element 63 and thus of the hinge arm 20.
Number | Date | Country | Kind |
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10 2014 113 970.4 | Sep 2014 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2015/070263 | 9/4/2015 | WO | 00 |