Patent Grant
9759002
The invention relates to a closing device for a movably mounted furniture part which, proceeding from a closed position in which a contact face of the movable furniture part abuts against a body part, is openable in an opening direction into an open position, and is closable in a closing direction, which is opposite to the opening direction, from the open position into the closed position, having a carrier which is connectable to the movable furniture part or to the body part and having a closing lever which is acted upon by a closing spring and comprises a guide track for the carrier and is pivotable by the carrier when the movable furniture part is opened between a hold-closed position, which the closing lever assumes in the closed position of the movable furniture part and in which the carrier is situated in a closed position in the guide track, and a standby position, in which the carrier uncouples from the closing lever, about a pivot axis which is stationary in relation to the body part when the carrier is connected to the movable furniture part, or in relation to the movable furniture part when the carrier is connected to the body part, wherein when the movable furniture part is closed, a closing force is exertable by the closing lever onto the carrier from a start-of-operation position assumed by the carrier in the guide track.
Different embodiments of closing devices (also called self-closing devices or pull-in mechanisms) for pull-out furniture parts, for example drawers or cupboard pull-outs, are known, which, when the pull-out furniture part is pushed in, automatically retract said pull-out furniture part over a last portion of the insert track and thus secure the completely retracted state of the pull-out furniture part. For example, AT 401334 B describes a pull-in mechanism where there is a tilt-slide device which can be displaced against the force of a spring. The tilt-slide device includes a slide which can be displaced in the pull-out direction of the drawer against the force of the spring and a tilt part which is arranged so as to be tiltable about a tilt axis. In the case of the pull-in device known from AT 393948 B there is also a tilt-slide device which can be displaced along a guide track against the force of a spring. The guide track has a straight portion and a curved portion which causes the tilt-slide device to pivot about an imaginary tilt axis into its tilted end position.
Nowadays closing devices are usually provided with slide-in dampers in order to damp the retraction movement of the pull-out furniture part in the last portion of the retraction path. Such a damped closing device where the tilt-slide device interacts with a slide-in damper is known, for example, from EP 1 532 892 A1. The spring-loaded tilt-slide device, in this case, acts with a linear damper in the form of a piston-cylinder unit which operates in particularly in a pneumatic manner. Self-closing devices which are damped by means of rotary dampers are also known.
EP 2 129 260 A1 makes known a damped closing device where a support unit which mounts the tilt-slide device is attached to a body rail of the pull-out guide of the pull-out furniture part and the carrier is incorporated into a pull-out rail of the pull-out guide which is attached to the pull-out furniture part.
In the case of pivotably mounted furniture parts, for example, cupboard doors, spring elements, which are incorporated in the hinges, automatically close the pivotable furniture part over a last portion of its closing movement and thus secure the completely closed state of the furniture part, are known. Dampers are used here too in the majority of cases to damp the closing movement.
Dampers which are realized in the form of piston-cylinder units to damp the closing of movably mounted furniture parts proceed, for example, from DE 20 2005 020 820 U1 and DE 10 213 726 A1. Rotary dampers where a highly viscous damping medium is arranged in a gap between a fixed damper part and a rotatably mounted damper part are also known. The braking force is produced from said damping medium which is stressed with shear. Dampers of this type proceed, for example, from DE 10 210 917 C1, U.S. Pat. No. 5,277,282 A, JP 59-222631 A, and U.S. Pat. No. 5,143,432 A. It is known to realize dampers for damping the closing of movably mounted furniture parts in such a manner that the damping force exerted by the damper occurs substantially only in the closing direction or is substantially greater in the closing direction than in the opening direction (such that the damper comprises a type of “free running”). DE 10 313 659 B3, DE 10 214 596 A1, DE 19 717 937 A1, AT 503 877 B1 and EP 1 260 159 A2 describe piston-cylinder units where an air pressure difference realized between the two piston ends acts on an elastically deformable piston part such that the exerted friction force depends on the air pressure difference and consequently on the speed of the component to be damped.
A damped closing device with a tilt-slide device which is mounted so as to be pivotable about a tilt axis on a slide which is mounted so as to be displaceable in a straight line proceeds from US 2011/0101839 A1. The slide is acted upon by a closing spring which cooperates with a toothed gear segment which meshes with a gear-rack-like toothing of the slide.
EP 1 384 420 B1 describes a closing lever which is realized in a bent manner, is rotatably mounted about a stationary horizontal pivot axis and is acted upon by a closing spring which is incorporated into a piston-cylinder unit which forms a damper. A carrier, which interacts with the closing lever and comprises a sliding track, is arranged on the rear side of the pull-out furniture part, for example a pantry unit pull-out. When the pull-out furniture part is pulled out, proceeding from a hold-closed position the closing lever is pivoted by the carrier about the pivot axis into a standby position in which the carrier uncouples from the closing lever. When the closing lever is pivoted from the hold-closed position into the standby position, a dead point of the closing spring is crossed such that the closing lever is held by the closing spring in the standby position. When the pull-out furniture part is pushed in, a projection of the closing lever moves into the sliding track of the carrier, the closing lever coupling with the carrier and being pivoted over the dead point of the closing spring. As a result, the closing lever pulls the pull-out furniture part into its completely retracted position. The closing spring is tensioned the strongest in the dead point position of the closing lever in which the closing spring is situated at its dead point. When the pull-out furniture part is pulled out, the closing force exerted onto the pull-out furniture part by the closing lever and acting in the closing direction increases, proceeding from the closed position of the pull-out furniture part, until the closing lever reaches its dead point position.
A closing device of the type mentioned in the introduction proceeds from GB 1,117,071. A spring-loaded closing lever which is mounted so as to be pivotable about an axis which is stationary in relation to the furniture body, and is pivoted by a carrier, which is mounted on the pull-out furniture part, between a hold-closed position, which the closing lever assumes in the closed state of the pull-out furniture part, and a standby position. The spring, in this connection, is moved over a dead point. Here too, the force to be overcome when the pull-out furniture part is pulled out until the dead point of the spring is reached is relatively high compared to the closing force exerted onto the pull-out furniture part in the closing position.
It is the object of the invention to provide a closing device of the type mentioned in the introduction where, in the closed position of the furniture part, a relative high closing force is able to be exerted onto the movable furniture part, with which said movable furniture part is pressed in the closing direction against the body part, relatively easy opening of the moveable furniture part nevertheless having to be possible. This is achieved as a result of a closing device with one or more features of the invention.
In the case of the closing device according to the invention, a distance between the carrier in its start-of-operation position, from which when the movable furniture part is closed a closing force is exertable by the closing lever onto the carrier, and the pivot axis of the closing lever is at least 1.5 times, preferably at least 2 times as great as the distance between the carrier in its closed position and the pivot axis of the closing lever.
As a result, it is possible to bring about a relatively large closing force which acts in the closing direction and is exerted on the movable furniture part which is situated in the closed position, the force which is required for pivoting the closing lever from its hold-closed position as far as into its standby position, being able to be kept relatively small.
In particular, as a result, in the closed position of the movable furniture part a pressing force can be brought about which is sufficient for a seal which is arranged between the body part and the movable furniture part. As a result, reliable sealing can be achieved. For example, this can be a question of a refrigeration appliance or another item of furniture which has a different climate compared to the atmosphere, e.g. a different temperature, in the interior. The seal can be mounted on the body part or on the movable furniture part.
The closing force exerted on the carrier by the closing lever acts on the carrier by means of a closing lever arm. The closing lever arm, with the carrier in the start-of-operation position, is preferably at least 1.5 times as long, in a particularly preferred manner at least twice as long as in the closed position of the carrier. In a favorable manner, the closing lever arm, in this connection, reduces continually from the start-of-operation position of the carrier up to the closed position of the carrier or reduces continually up to a minimum which is present at an intermediate position of the closing lever and after running through the minimum increases again by a maximum of 30%, preferably by a maximum of 15%, in relation to the value present at the minimum. In the latter case, the closing lever, in the intermediate position in which the closing lever is at its minimum size, has already run through at least two thirds of its overall pivot angle between the standby position and the hold-closed position.
In order to achieve a high closing force acting in the closing direction onto the furniture part situated in the closed position, it is preferred that the angle between the closing force exerted by the closing lever onto the carrier and the closing direction in the hold-closed position of the closing lever is less than 45°, in a particularly preferred manner less than 40°.
In an advantageous embodiment of the invention, the guide track of the closing lever has a curved development, by means of which the closing force exerted onto the movable furniture part is able to be influenced. If we look at the position of the closing lever which said closing lever assumes when the carrier is in its start-of-operation position, the guide track, in this connection, has a first part portion which proceeds from the start of the guide track, at which the carrier runs into the guide track when the moveable furniture part is closed, and a second part portion which adjoins to the first part portion. The guide track extends over the first part portion in a direction which, with the closing direction of the movable furniture part, encloses an angle which is greater than the angle which a direction, which points from the center of the carrier situated in the start-of-operation position to the pivot axis of the closing lever, encloses with the closing direction. The second part portion extends in a direction which encloses with the closing direction an angle which is smaller than the angle which the direction, which in the start-of-operation position of the carrier points from the center of the carrier to the pivot axis of the closing lever, encloses with the closing direction. As a result of this realization, the closing force, which is exerted by the closing lever onto the movable furniture part and acts in the closing direction, is able to be increased over a first phase of the pulling-closed of the movable furniture part by the closing lever compared to the closing force occurring in the case of a straight line development of the guide track and can be lowered in a second phase of the retracting, it nevertheless being possible to achieve a high closing force in the closed position of the movable furniture part.
In an advantageous manner, the residual tension which the closing spring comprises in the closed position of the carrier compared to the non-tensioned state of the closing spring, is greater than the difference between the tension of the closing spring which said closing spring has in the start-of-operation position of the carrier, and the tension of the closing spring which said closing spring comprises in the closed position of the carrier. In the event of the realization of the closing spring in the form of a helical spring, this is achieved in that the difference between the length of the closing spring in the closed position of the carrier and the length of the closing spring in its non-tensioned state is greater than the difference between the length of the closing spring which said closing spring comprises in the start-of-operation position of the carrier, and the length of the closing spring which said closing spring comprises in the closed position of the carrier. This is achieved by a sufficiently long closing spring.
Since as a result of such a realization of the closing spring, the utilized characteristic region is relatively flat, this also contributes to the fact that a relatively high closing force is achieved in the closed state of the movable furniture part and it is nevertheless relatively easy to open the movable furniture part.
In a preferred embodiment of the invention, the pivoting of the closing lever from the standby position into the hold-closed position is damped by at least one damper, in particular a linear damper. The at least one damper is favorably connected at one end to a push rod which is pivotably connected to the closing lever, at the other end to the support unit. In order to achieve as linear a displacement as possible of the end of the push rod to which the at least one damper is connected, the push rod is advantageously guided by a curved sliding track. In addition, in a favorable manner there is a linear guide for the push rod which is situated closer to the end of the push rod connected to the at least one damper than the sliding guide.
In order to absorb forces or force components exerted onto the carrier which act at right angles to the opening or closing direction, the support unit on which the closing lever is pivotably mounted preferably comprises a lateral guide for the carrier which extends in the closing direction.
Further advantages and details of the invention are explained below by way of the accompanying drawing, in which:
A first exemplary embodiment of the invention is shown in
A respective closing device includes a closing unit 1, which is fastened on a body part 2 of the item of furniture, and a carrier unit 3 which is fastened on the respective movable furniture part 4.
In the exemplary embodiment the movable furniture parts 4 are displaceable in a straight line from a closed position (in which the bottom movable furniture part 4 shown in
The carrier unit 3 includes a support plate 7 which is fastened on the furniture part 4, for example by means of spot welding, and a carrier 8 which stands out from the support plate 7. A flap is punched out of the support plate and bent around realizing a self-heal journal 32, the function of which is explained in more detail below. The carrier 8 can be formed from a rigid journal or can comprise a roller which interacts with the guide track 18 described below.
The closing unit 1 includes a support unit 9 which is rigidly connected to the body part 2 and, for example as shown, is form by a curved plate. The support unit 9, in the exemplary embodiment, is mounted with the body part 2 by means of a mounting rail 10 which is fastened on the body part 2, for example by means of screw connection. Fastening screws 11 which penetrate elongated holes in the mounting rail 10 and an adjusting screw 12 serve for fastening on the mounting rail 10. A head 13 of the adjusting screw 12 penetrates slots in oppositely located lateral portions of the support unit 9 and as a result is held so as to be rotatable, but axially non-displaceable in the support unit 9. The shaft 14 of the adjusting screw is screwed into a thread of the mounting rail 10.
A closing lever 15 is mounted on the support unit 9 so as to be pivotable about a pivot axis 16, the pivot axis 16 being stationary with respect to the support unit 9 and consequently in the exemplary embodiment stationary with respect to the body part 2. The pivot axis 16 is at right angles to the opening and closing direction 5, 6.
The closing lever 15 is acted upon by a closing spring 17 which cooperates at the one end with the support unit 9 and at the other and with the closing lever 15.
The closing lever 15 has a slot-shaped guide track 18 for the carrier 8. When the movable furniture part is closed, the carrier 8 runs along a start 19 of the guide track 18 into said guide track and is increasingly distanced from the start 19 of the guide track 18 until achieving the closed position of the movable furniture part 4. Over the region of the movement of the movable furniture part 4 over which the carrier 8 is situated in the guide track 18, each position of the movable furniture part corresponds to a clear position of the carrier 8 in the guide track 18 and a clear pivot position of the closing lever 15 about the pivot axis 16.
As soon as the carrier 8 has moved into the guide track 18 by a small distance (said distance corresponding to less than a fifth of the entire distance between the start of the guide track and the closed position of the carrier 8), the carrier 8 advantageously comprises a relatively small amount of play in relation to the guide track 18. This is preferably smaller than 25% of the diameter of the carrier 8, in a particularly preferred manner smaller than 10% of the diameter of the carrier 8.
In the closed position of the furniture part 4, the carrier 8 is situated in a closing position in the guide track 18. The closing lever 15 is situated then in a hold-closed position with reference to its pivoting about the pivot axis 16. When the movable furniture part 4 is opened, proceeding from its closed position, the carrier 8 is moved in the guide track 18 in the direction of the start 19 of the guide track 18, pivoting the closing lever 15 about the pivot axis 16. The closing spring 17, in this connection, is increasingly tensioned until toward the end of the pivoting of the closing lever 15 a dead point of the closing spring 17 is crossed. The closing lever 15 is pivoted a little further when the furniture is opened further, the closing spring 17 being relieved a little again (preferably by less than a fifth of the preceding increase in tension) and thereupon the carrier 8 uncouples from the closing lever 15 by coming out of the guide track 18 at the start 19 thereof. The closing lever 15 is situated then in its standby position in which it is held by the closing spring 17 (it being blocked against further pivoting by a corresponding stop).
When the movable furniture part 4 is closed, proceeding from an open position, the carrier 8 runs up to the closing lever 15 which is situated in the standby position, the carrier 8 running into the guide track 18 at the start 19 thereof. When the movable furniture part 4 is closed further, the closing lever 15 is initially pivoted by the carrier 8 up to into a dead point position in which the closing spring 17 is situated at its dead point. As soon as the dead point has been exceeded, the closing lever 15 is acted upon by the closing spring 17 in the direction of its hold-closed position about the pivot axis 16. The closing lever 15 then exerts a closing force FZ onto the carrier 8. In this connection, the starting point is a speed of closing of the movable furniture part 4 of close to zero. In other words, each point of the closing path to be observed is approached and the movable furniture part 4 is then released. The position of the carrier 8 in the guide track 18, in which, as a result when the movable furniture part 4 is closed, the closing force exerted onto the carrier 8 by the closing lever 15 is set, is designated in this document as the start-of-operation position of the carrier 8 in the guide track 18. Irrespective of friction forces, the start-of-operation position lies only infinitesimally spaced apart from the position which the carrier assumes at the dead point position of the closing lever 15 in the guide track 18.
The state shown in
The closing force FZ which is exerted onto the carrier 8 by the closing lever acts on the carrier by means of a closing lever arm which has a length ZH. This closing lever arm length ZH is the perpendicular distance between the normal N (wherein the normal N is the “effective line” of the closing force FZ) and the pivot axis 16.
The carrier 8 is situated in its closed position in the guide track 18. In
In the closing position of the carrier 8, the distance a of the carrier 8 from the pivot axis 16 is substantially smaller than in the start-of-operation position of the carrier 8. In the start-of-operation position of the carrier 8, the distance a of the carrier 8 from the pivot axis 16 is at least 1.5 times as large as in the closed position of the carrier. In the exemplary embodiment shown it is more than 3 times as large.
The closing lever arm ZH, in the closed position of the carrier 8, is also substantially smaller than in the start-of-operation position of the carrier 8, in the exemplary embodiment shown approximately a third as large. In the exemplary embodiment the closing lever arm ZH reduces continually from the start-of-operation position of the carrier 8 up to the closed position of the carrier 8.
So that the component of the closing force FZ which acts in the closing direction 6 is sufficiently large, in the closed position of the carrier 8 the angle α between the closing force FZ exerted onto the carrier 8 and the closing direction 6 is favorably less than 45°, in a preferred arrangement less than 40°.
The closing spring 17 in the exemplary embodiment is in the form of a helical spring which is subject to tensile stress, therefore providing a tension spring. The closing spring 17 is shown in the hold-closed position of the closing lever in
In order to influence, in a favorable manner, the development of the closing force FS which acts on the movable furniture part 4 in the closing direction, the guide track 18 has a curved development and could consequently also be called a sliding track. The curved development is to be defined by way of the position of the closing lever 15 which the latter assumes in the start-of-operation position of the carrier 8, that is substantially in the dead point position of the closing lever 15. Reference is made in this connection to
The development of the closing force FS is influenced as a result of the curved development of the guide track 18. If the guide track 19 were to extend in a straight line from its start 19 up to its end, the increase subsequently at s1 would be substantially flatter (so that sufficient closing force would only be achieved at a greater distance from the start-of-operation position of the carrier 8 in order to retract the furniture part 4 automatically) and would then increase quicker above the value FS1.
It can therefore be seen from the force/distance diagram that a high closing force FS2 is reached in the closed position and when the furniture part 4 is opened this drops quickly to a substantially lower value FS1. When the furniture part 4 is opened, a relatively high closing force has consequently only to be overcome just at the start of the opening process. The face under the curve for the closing force, which corresponds to the energy to be applied for opening, is relatively small. This energy to be applied is substantially for the subjective impression of the user, as to how “difficult” it is to open the furniture part 4.
Several effects are utilized in order to over-compensate for the decreasing spring force of the closing spring 17 from the start-of-operation position of the carrier 8 up to the closed position of the carrier 8. In particular, as described, the closing lever arm ZH is reduced in size. In addition, the lever arm, by means of which the closing spring 17 acts on the closing lever 15, is increased in size (this is automatically the case when the closing spring 17 in the start-of-operation position of the carrier 8 is situated substantially at its dead point). In addition, the closing spring 17, as described, is realized in a relatively long manner or with the corresponding tension differences between the start-of-operation position and the closed position of the carrier 8 and the non-tensioned state. The development of the guide track 18 is also realized in a corresponding manner, it being possible to influence the force/distance characteristic additionally in a favorable manner by the development of the guide track 18.
The pivoting of the closing lever 15 from the standby position into the hold-closed position is damped by the dampers 21, 22. Consequently, it is possible to achieve, on the one hand, a damping of a rapid running of the carrier 8 against the closing lever 15 and, on the other hand, a damped pulling closed of the movable furniture part 4 by the closing device. In the exemplary embodiment this is a question of linear dampers which are formed by hydraulically or pneumatically acting piston-cylinder units. The coupling of the dampers 21, 22 to the closing lever 15 is effected by means of a push rod 23 which is connected to the closing lever 15 so as to be pivotable. The dampers 21, 22 cooperate at the one end with the push rod 23, in the exemplary embodiment by means of their piston rods, at the other end with the support unit 9, in the exemplary embodiment shown by means of their cylinders. To support the cylinders of the dampers 21, 22 in relation to the support unit 9, the cylinders of the dampers 21, 22 comprise constrictions 24, for example as shown, into which projections of the support unit 9 engage. The bases of the cylinders of the dampers 21, 22 each have an indentation 25 into which a further projection of the support unit 9 engages. The piston rods of the dampers 21, 22 are connected to the push rod 23 so as to be pivotable in each case. The push rod has a yoke which stands in a T-shaped manner with respect to a longitudinally extending portion for connecting to the piston rods.
The push rod 23 is guided so as to be movable in relation to the support unit 9 by means of an elongated hole guide and a sliding guide. To realize the elongated hole guide, a guide journal of the push rod 23 engages in an elongated hole 27 of the support unit 9. The elongated hole 27 has a keyhole-like extension through which the enlarged head of the guide journal 26 can be inserted when mounting the closing unit 1 into the elongated hole 27. To realize the sliding guide, the push rod comprises sliding journals 28 which engage in sliding tracks 29 of the support unit 9. Oppositely situated sliding journals 28 of the push rod 23 are provided in the exemplary embodiment and two arcuately extending sliding tracks, between which the push rod 23 is guided. Just one sliding journal 28 and one arcuately extending sliding track 29 could also be provided.
The elongated hole guide lies closer to the end of the push rod which is connected to the dampers 21, 22 than the at least one sliding guide. The achievement of the correspondingly curved development of the sliding guide in conjunction with the straight-lined elongated hole guide is that when the closing lever 15 is pivoted, the end of the push rod 23 connected to the dampers 21, 22 is displaced extensively in a straight line and without a great deal of pivoting.
The dampers 21, 22 are realized in such a manner that they comprise a substantially smaller damping force or practically no damping force in the opening direction 5. Dampers with such a “free running” are known.
As, during the movement through the guide track 18, more or less large lateral forces which are aligned at right angles to the closing direction 6 act on the carrier 8, it is advantageous when the carrier 8 is guided in the closing direction 6 or in the opening direction 5 by the support unit 9. To realize such lateral guiding for the carrier 8, the support unit 9 has a slot 30 which extends in the closing direction 6 and into which the carrier 8 moves when the furniture part 4 is closed. In a favorable manner, the carrier 8 is already situated in said slot 30 of the support unit 9 when the carrier 8 runs against the closing lever 15.
The closing lever 15 should normally be situated in its standby position when the associated moveable furniture part 4 is opened. However, it is conceivable for the closing lever 15 to be pivoted over its dead point position in the open state of the furniture part 4. The closing lever 15 then snaps into an end position which lies at an end of the pivotability of the closing lever 15 opposite the standby position, that is in the vicinity of the hold-closed position. A corresponding stop is provided to define the pivoting of the closing lever 15 in said direction. In order then to put the closing device in such a case back into regular operation, the closing lever 15 comprises a self-heal arm 31 which stands out from the closing lever 15 and the carrier unit 3 comprises a self-heal journal 32.
The closing of the furniture part 4 against the closing lever 15 which is situated in its end position is shown in
Various further or other modifications of a closing device according to the invention are conceivable and possible. Thus, for example, a compression spring formed by a helical spring could also be used for the closing spring 17. If necessary, a support against lateral buckling can be provided, for example in the form of a sleeve which surrounds the helical spring. Different types of closing springs can also be used as helical springs, for example leg springs.
In order to hold the closing lever 15 in it standby position, the described traveling over a dead point of the closing spring 17 is a particularly simple possibility. However, other types of latching of the closing lever 15 in its standby position can also be provided. Thus, adjustable latching elements which are actuated by the incoming carrier 8 could be provided. The start-of-operation position of the carrier would then be situated at the point where the carrier has actuated such a latching element and the closing lever 15 has been released such that it is able to be pivoted by the closing spring 17.
The Figures show the use of a closing device in conjunction with a furniture part 4 which can be pulled out and retracted in a straight line. A closing device according to the invention could also be provided for a pivotably mounted furniture part, for example a door or a flap could be provided with a closing device according to the invention. If the carrier is mounted at the end face on said pivotable furniture part, the sequences corresponding to
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| Filing Document | Filing Date | Country | Kind |
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| PCT/AT2013/000022 | 2/8/2013 | WO | 00 |
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| 2013110100 | Aug 2013 | WO |
| 2013110101 | Aug 2013 | WO |
| 2013110102 | Sep 2013 | WO |
| Entry |
|---|
| Hettich translation, as provided by WIPO. |
| Number | Date | Country | |
|---|---|---|---|
| 20150047149 A1 | Feb 2015 | US |
