ENTRY-BZW. EJECTION DEVICE WITH FIXED SPRINGS

专利摘要:
Pulling device (4) for pulling a movable furniture part (5) from an open position (OS) into a closed position (SS), with a first, by moving the movable furniture part (5) in the opening direction (OR) tensionable energy storage device (1), wherein the movable furniture part (5) by relaxation of the first energy accumulator (1) in the closed position (SS) can be brought, wherein at least a second energy storage (2) offset away from the first power storage (1) when moving the movable furniture part (5) in the opening direction can be tensioned and wherein the movable furniture part (5) can be brought into the closed position (SS) by substantially simultaneous relaxation of the first energy accumulator (1) and second energy accumulator (2).
公开号:AT511042A1
申请号:T113/2011
申请日:2011-01-27
公开日:2012-08-15
发明作者:
申请人:Blum Gmbh Julius；
IPC主号:

专利说明:

• ·· ·· * ·
The invention relates firstly to a retraction device for drawing a movable furniture part from an open position into a closed position, with a first, by moving the movable furniture part in the opening direction tensionable power storage, wherein the movable Möbettei! can be brought into the closed position by relaxation of the first energy storage. On the other hand, the invention also relates to a lockable ejection device for ejecting a movable Möbelteifs from a closed position to an open position, with a first, by moving the movable furniture part in the closing direction tensionable energy storage, said movable furniture part by relaxation of the first energy storage of the closed position to the open position can be brought
Retractors or closing devices are basically used to automatically bring a movable furniture part, in particular a drawer, at least on the last few centimeters of the closing path in the closed position. Examples of such devices can be found in EP 0 391 221 B1 and EP 0 548 706 B1.
In known retractors essentially the same force that attracts the drawer when closing, the same usually flow into the power storage by tensioning the same draw in the most manual. Depending on the size and design of the energy storage or the spring while a considerable effort in manual opening is necessary to tension the pull-in spring. Even with smaller drawers and thus small necessary springs a clearly noticeable resistance is given during the usually relatively short clamping path. A disadvantage is thus that the application of force during the opening path is relatively irregular, since in a short section, the relatively high clamping force must be brought into the draw-in, while running on the remaining opening path, the drawer essentially without resistance. This can lead to unwanted, jerky movements before old with the end of the tensioning process, because suddenly with the same effort the drawer is much easier to move.
Lockable ejection devices serve to bring a movable furniture part, in particular a drawer, from a closed position into an open position. Here is the so-called touch-latch principle, according to which by pressing the drawer, preferably by overpressing the drawer in the closing direction, the lock is released and ejected by the relaxation of a previously charged energy storage movable furniture part in the opening direction. Regarding the expenditure of energy when tensioning the 68958 22 / hn
Force accumulator in an ejector arise in reverse to the retracting device comparable disadvantages.
The object of the present invention is therefore to provide an improved over the prior art Einzieh- or ejection device. In particular, the noticeable resistance when clamping the Einzieh- or ejection spring should be as low as possible. In addition, the clamping movement should be relatively uniform over as long a clamping path as possible.
This is for a retraction device with the features of the preamble of claim 1 with at least a second energy storage, which is offset away from the first power storage when moving the movable furniture part in the opening direction and the movable furniture part by substantially simultaneous relaxation of the first energy storage and second energy storage in Closed position can be brought, solved. For a lockable ejection device with the features of the preamble of claim 2, this is achieved by at least a second energy storage, which is offset away from the first power storage when moving the movable furniture part in the closing direction and wherein the movable furniture part by substantially simultaneous relaxation of the first energy storage and second energy storage can be brought into open position, solved.
By this design, two relatively small power storage can be tensioned one after the other when opening or closing, while they relax when pulling or ejecting simultaneously and thus bring the common pull-in force or ejection force on the movable furniture part. The main advantage lies in the fact that the pulling-in force or ejection force is introduced into at least two, preferably several, smaller, consecutively performed clamping operations during the opening or closing in the energy storage of the Einzieh- or ejection device.
Accordingly, a third energy accumulator may be provided which is displaceable away from the first and the second energy accumulator when the movable furniture part is moved in the opening direction or closing direction and where the movable furniture component is in the closed position or substantially simultaneously relaxation of the first, second and third energy accumulators Open position can be brought. Of course, it is also possible to provide a plurality of sequentially connected energy stores.
In principle, it should not be ruled out that the energy accumulators are designed, for example, in the form of magnets, but it is preferably provided that each energy accumulator is designed in the form of a single spring or a spring assembly. The size of the individual springs or the number of individual springs in the spring packs is essentially dependent on the size and in particular the weight of the furniture part to be moved.
When staggered clamping of the individual energy storage should not be ruled out that overlap the clamping paths of the individual energy storage at least partially. Preferably, however, it is provided that the tensioning movement of the individual force accumulators takes place sequentially one after the other. That is, immediately after the end of the tensioning of the first energy accumulator, the tensioning of the second energy accumulator is triggered. This guarantees a uniform clamping movement over a longer section.
In order to guarantee the simplest possible production, it can preferably be provided that each of the at least two force accumulators is part of at least two mutually separate and essentially identically designed intake or ejection automatics. For a space-saving arrangement on the furniture may preferably be provided that the energy storage or the intake or ejection are arranged parallel to each other.
According to a particularly preferred embodiment of the present invention, it can be provided that each of the at least two intake or ejection automatic mechanisms comprises a housing, a carriage movable in or on the housing, a driver connected to the carriage, preferably tiltable, and in each case one of the energy accumulators, wherein the respective force accumulator is connected at one end to a furniture body associated, preferably via a magnetic plate with the carcass rail of a pull-out, holding part and at the other end with the carriage movable in the housing, wherein the carriage arranged on the carrier with a movable furniture part, preferably the drawer rail, associated, preferably bolt-shaped, entrainment is releasably koppeibar. Thus, the Einzieh- or ejection device on the one hand from the furniture body associated with the intake or ejection and on the other hand connected to the movable furniture parts entrainment elements. However, it should not be ruled out that the collection or. Ejection controls including power storage are associated with the movable furniture part, which can be stretched over, the Möbeikorpus stationarily assigned, Mitnahmeeiemente and retract or repel these stationary Mitnahmeeiementen or -bolzen.
Particularly preferred may be provided for the intake or ejection of the Einzieh- or ejection device that the Möbeltei! a plurality of driving elements are assigned, each with a driver of one of the mutually separate intake or. Ausstoßautomatiken are coupled, wherein the furniture part on the one hand entrainment elements are associated in the form of clamping bolts which are coupled along staggered path sections during movement of the movable furniture part in ÖfFnungsrichtung or closing direction successively with drivers different intake or ejection automatic, and on the other hand driving elements in the form of Einziehbolzen or ejection pins are assigned, which can be coupled during the closing movement or the opening movement simultaneously with the drivers of mutually separate intake or discharge automatic. The differing clamping bolts and Einzieh- or ejection bolts are necessary so that the clamping paths and Einziehwege or ejection paths differ at least one feeder or ejection.
In order to guarantee a simple manufacture and mounting of the entrainment elements, it can preferably be provided that the, preferably all, clamping bolts and retracting or ejection bolts are connected to a common frame arranged on the movable furniture part, preferably on its drawer rail.
In order to enable the wegversetzte clamping and the simultaneous relaxation, it is preferably provided that two automatic feeders one of these two automatic feeders associated clamping bolt and Einziehbolzen are resiliently connected to the frame and three automatic feeders the two automatic feeders associated Spannboizen and Einziehbolzen resiliently to the frame are connected. Depending on the design, such resilient mounting may also be necessary in the ejection devices.
Since the energy storage devices during clamping and relaxing and the driving elements are moved linearly by the movement of the drawer, it is necessary to guarantee a deflection of the draw-in bolts or clamping bolts in certain areas of the clamping path. For this purpose, it may be provided that the at least one resiliently connected to the frame
Clamping bolt during movement of the movable furniture part in the closing direction by a run-on slope of the driver or the carriage wegdrückbar and thereby the driver of the respective automatic retraction is umfahrbar. The same starting bevel can also be used so that the at least one resiliently connected to the frame Einziehbolzen in the closed position of the movable furniture part from the driver or the carriage is wegdrückbar.
In order to allow the movement of the clamping bolt despite the run-in slope in the opening direction, it is preferably provided that the at least one run-up slope is resiliently connected (spring elastic or articulated) to the housing of a automatic retraction, wherein the clamping bolt associated with this automatic retraction when moving the movable furniture part in the opening direction the starting slope wegdrückbar and a linear opening path for the clamping bolt is releasable. For an ejection device according to the invention can be provided in this regard that the clamping bolts are released at the end of the clamping path of the carriers of Ausstoßautomatlken. This can be done, for example, by tilting the drivers into a locked position and thereby detaching them from the clamping bolt, so that the latter can continue in the closing direction. When unlocking the driver but then engage with the ejector pin and thus eject the movable furniture part in the opening direction. When ejecting must then be taken to ensure that the clamping bolt can drive around the drivers. But it is also possible that movably mounted on the frame clamping bolts are rejected by a run-on slope.
Protection is on the one hand also desired for a piece of furniture with a furniture body, a mounted in or on the furniture body via a pull-out movable furniture part, a viewing device according to one of claims 1 to 15 and optionally a lockable ejection device for locking the movable furniture part in the closed position and the Ejecting the movable furniture part from the closed position into an open position. The optionally present lockable ejection device can be arranged completely separately in the region of the movable furniture part. It should also not be ruled out that the ejection device is not lockable, but merely provided as a pulse generator when opening. It can also be provided that the retraction device also has a damping mechanism for damping the retraction movement. This can be formed, for example, in the region of the at least two energy accumulators or also act separately on the movable furniture part.
On the other hand, protection is also desired for a piece of furniture with a furniture body, a movable furniture part mounted in or on the furniture body, a lockable ejection device according to one of claims 2 to 11 and optionally a pull-in device with which the movable furniture part is moved in the last few centimeters the closing path can be brought into the closed position.
Further details and advantages of the present invention will become apparent from the
Description of the figures with reference to the embodiments illustrated in the drawings explained in more detail below. Show:
1 shows schematically a piece of furniture with a pull-in device for the movable furniture part,
1a is an exploded view of the main components of the retraction device together with the detail H,
1 b is a view of an automatic retraction,
1c is a plan view of an automatic retraction with the detail D,
2 is a plan view of the retraction device in the closed position,
Fig. 3 is a plan view of the retractor after tensioning the first
Energy accumulator,
4 is a plan view of the retractor after tensioning the second energy storage,
Fig. 5 is a plan view of the retraction device during clamping of the third
Energy accumulator,
5a is a perspective view of FIG. 5 with the detail G,
Fig. 6 is a plan view of the retractor after tensioning the third
Energy accumulator,
6a is a perspective view of FIG. 6 with the detail A,
7 is a plan view of the retraction device in the open position,
8 is a plan view of the retractor shortly before the beginning of the Einziehvorganges,
8a is a perspective view of FIG. 8 with the detail B,
8b is another perspective view of FIG. 8,
9 is a plan view of the retractor while pulling through the three automatic feeders,
9a is a perspective view of FIG. 9 with the detail C,
10 is a force-displacement diagram of the three energy storage when opening,
11 is a force-displacement diagram of the three energy storage when closing,
12 shows schematically a piece of furniture with an ejection device for the movable furniture part, FIG. 12a shows schematically an ejection device when closing,
12b schematically shows an ejection device when closing and clamping an ejection spring,
Fig. 12c schematically shows an ejection device in the closed position and
Fig. 12d schematically shows an ejection device with relaxed ejection springs.
First, it should be noted that the following description of Figs. 1 to 11 refers to the variant of the present invention, which relates to the retraction device. However, all of the advantages and properties mentioned should also, insofar as is technically feasible, apply conversely to the variant of the present invention which relates to the lockable ejection device.
In Fig. 1 is schematically a furniture 22 consisting of a furniture body 12 and two movable furniture parts 5, each with a front panel 24 can be seen. The lower movable furniture part 5 (drawer) is doing in the closed position SS, while the upper movable furniture part 5 is in the open position OS. This upper movable furniture part 5 is attached via a pull-out guide 15 (not shown in the lower furniture part 5) on both sides of the furniture body 12. The pull-out 15 consists of a furniture body mounted on the carcass rail 14 and connected to the movable furniture part 5 drawer rail 25 may also be between These two rails 14 and 25, a middle rail 28 (see, for example, Fig. 4) are provided. Schematically, a (normal) lockable ejection device 23 is shown at the rear end of the carcass rail 14, but will not be discussed in detail. Rather, for the first variant of the invention, reference is made to the retraction device 4, which on the one hand consists of the automatic feed devices 6, 7 and 8 assigned to the furniture carcass 12 and on the other hand of the entrainment elements 17 associated with the furniture part 5. The individual (in side view one behind the other) automatic feed 6, 7 and 8 are connected via a, preferably common, mounting plate 13 with the carcass rail 14. Each individual automatic retraction 6, 7 and 8 in this case has a holding part 16, on which the respective force accumulators 1, 2 and 3 (shown in Fig. 1 in a cocked position) are held with one end, while at the other end with a in the housing 9 of the individual automatic feed 6, 7 and 8 linearly movable carriage 10 are connected. This carriage 10 is in turn connected via a tilting segment 30 with a driver 11. In contrast, the driving elements 17 in the form of clamping bolts 18 and 18 'and 19 and 19' connected via a common frame 20 with the drawer rail 25 and • · * · · · · «· · · · ·« · · * Depending on the direction of movement during clamping (clamping bolts 18 and 18 ') or when closing (threaded bolts 19 and 19'), the driver 11 is in force-transmitting connection with the driver 11.
FIG. 1a again shows the most important components of the pull-in device 4, which can be fastened to a pull-out guide 15. The pull-out device 15 has a fastening device 16, via which the drawer or the movable furniture part 5 can be fixed to the drawer rail 15. The individual automatic feeders 6, 7 and 8 are mounted on the mounting plate 13 attached to the underside of the carcass rail 14. In detail H it can be seen that the tilting segment 30 projects laterally from the housing 9 of the automatic retraction mechanism 8, wherein on the tilting segment (preferably integrally therewith) the driver 11 and on the other hand a tilting stop 29 are arranged. The automatic feeders 6, 7 and 8 are essentially identical, but only the automatic feeders 7 and 8 additionally have a run-on slope 21 connected to the housing 9. In comparison between the automatic 7 and 8 is thereby recognizable that the run-on slope 21 of the automatic retraction 8 is stretched or pushed away by the clamping bolt 18 ', not shown here and that the run-on slope 21 of the automatic retraction 7 is relaxed and with a tip on the housing. 9 is applied.
In Fig. 1b, the automatic feeders 7 and 8 are again shown in greater resolution, it can be seen that the run-on slope 21 is flush with the housing 9 and thus serves as a deflection surface for the Einziehbolzen 19 '. Matching is still in Fig. 1c and in detail D is a plan view of the automatic feed 7 and 8 with the Kulspeichem 2 and 3 can be seen.
Fig. 2 shows in plan view arranged parallel to each other on the mounting plate 13 retracting 6, 7 and 8 with the respective Kraftspeichem 1, 2 and 3. In this closed position SS, the two Einziehbolzen 19 'by the chamfers 21 of the automatic feeders 7 and 8 laterally pushed away so that they can not engage with the drivers 11 of the automatic feed 7 and 8. In contrast, the first automatic retraction 6 associated clamping bolt 18 and Einziehbolzen 19 fixed or immovably connected to the frame 20 and is thus in the closed position SS at least almost on the driver 11 of the automatic retraction 6.
If now - for example, by unlocking the ejection device 23 or by moving manually the movable furniture part 5 in the opening direction OR - the • * # «*« ·· · «« t · · · · t 9 · ♦ + 9 9 9 • 9 9 9 9 9 9 9 9 9 9 ...... 9 .......
Store rail 25 together with the mounted frame 20 is moved in the opening direction OR, takes the driving element 17 of the automatic retraction 6 in its function as a clamping bolt 18, the driver 11 of the automatic retraction 6 in the opening direction OR of the position shown in FIG. 2 in the position shown in FIG with and clamps dabet the first power storage 1. After the complete tensioning of the first energy storage 1 tilts the driver 11 together with the tilting segment 30 about the axis of rotation D with the contact between the clamping bolt 18 and the driver 11 dissolves and the unrestricted locomotion of the first automatic retraction 6 associated driver 11 allows. The axis of rotation D can be formed by the carriage 10 itself, said carriage 10 is linearly movable in the housing 9 of each automatic retraction 6, 7 and 8. For the tilting movement, a corresponding guide track can be formed on the inside of the housing. In this Fuhrungsbahn or slide track is not discussed in detail, but it should be made in this respect to the already mentioned in the entry fonts EP 0 391 221 B1 and EP 0 548 706 B1. From Fig. 3 is further seen that the second automatic retraction 7 associated clamping bolt 18 'is already in contact with the driver 11 of the second automatic retraction 7.
As can be seen in FIG. 4, the second force accumulator 2 has already been tensioned by said clamping bolt 18 ', immediately after completion of this clamping operation the clamping bolt 18' of the third automatic retraction 8 comes into contact with the corresponding driver 11.
After a short further movement in the opening direction OR presses this clamping bolt 18 'shown in FIG. 5, both the driver 11 in Öffhungsrichtung OR and the run-on slope 21 laterally away so that it can pass linearly in the opening direction OR.
It can be seen in detail G of Fig. 5a that the clamping bolt 18 'of the third automatic retraction 8 is still "caught" so to speak between the driver 11 and the run-on slope 21, wherein the tilting pad 30 together with the tilt stop 29 and the driver 11 is not in motion-inhibited and the energy storage 3 strained position.
This position is rather achieved in Fig. 6 wherein now the frame 20 and thus the drawer rail 25 and the movable furniture part 5 is completely free of the automatic feed 6, 7 and 8 is movable. For this purpose, the position of the tilting segment 30 after reaching the movement-inhibited position is shown in this Fig. 6, in which the clamping bolt 18 'can no longer get into direct contact with the driver 11. Basically • 9 ft ft ft * t ft ft ft ft *······················································································· is preferably provided that the frame 20 is made of an injection-molded plastic part, wherein the individual bolts 18 'and 19' are formed by the elasticity of the relatively narrow connections to the main plate of the frame 20 with respect to this resilient. Of course, the bolts 18 'and 19' but could also be connected via a hinge to the frame 20 and be biased for example by a spring.
After further movement in the opening direction OR is the movable furniture part 5 and with this the frame 20 in the complete open position OS, as can be seen in Fig. 7.
When the movable furniture part 5 is then moved again in the closing direction SR (see FIG. 8), the two clamping bolts 18 'are first pushed away one after the other by the run-on bevels 21, thus bypassing them. Since all three tilting segments 30 are in their movement-inhibited position, the individual clamping bolts 18 'as well as the Einziehbolzen 19 and 19' between the respective drivers 11 and the Kippanschläge 29 pass unhindered in the closing direction SR. During the passage through this gap in the tilting segment 30 but reach the - lying on a line transverse to the direction of opening OR - from the frame 20 vertically downward release bolt 27 simultaneously with the Kippanschläge 29 of the individual tilting segments 30 in contact. This is particularly clear from Fig. 8 and the detail H of Fig. 8a. Also in Fig. 8b is a perspective plan view of this position shortly before the beginning of the Einziehvorganges visible.
If the release bolts 27 simultaneously move or abut the tilting stops 29 in the sliding direction SR, the individual tilting segments 30 simultaneously rotate in a clockwise direction about the rotation axis D, as a result of which the individual tilting segments 30 move from the movement-inhibited position according to FIG. 8 into the release position according to FIG. 9, wherein the driver 11 of the three automatic feeders 6, 7 and 8 at the same time take the Einziehbolzen 19 'and 19 by jointly relaxing the three power storage 1, 2 and 3 in the closing direction SR.
For this purpose, in Fig. 9a, the contact between the driver 11 and the Einziehbolzen 19 'is shown during retraction.
With completion of the retraction process, the individual energy storage 1, 2 and 3 are relaxed again and the two Einziehbolzen 19 'of the automatic feed 7 and 8 are through the
As a result of the fact that the two retracting pins 19 'are already pushed away from the run-on slope 21 shortly before the final closing position SS is reached, the very last part of the retracting operation is only achieved by the first automatic retraction mechanism 6 associated Einziehbolzen 19 on the frame 20, the drawer rail 25 and thus passed on to the movable furniture part 5. In this regard, it should again be pointed out that the first automatic retraction 6 associated clamping bolt 18 (at the same time the Einziehbolzen 19) never deviates from the linear movement. In contrast, the clamping bolts 18 'when driving over the chamfers 21 in the closing direction SR pushed by the chamfers 21, while these clamping bolts 18' in turn move the opening bevels 21 in the opening direction - since they come from the rear side - laterally. Furthermore, the Einziehbolzen 19 'far away in the absolute closed position SS by the chamfers 21 so far pushed by the drivers 11 that they can not take the driver 11 at the start of the opening movement, but these are only subsequently taken by the clamping bolt 18' ,
FIGS. 10 and 11 again clearly illustrate the essential concept of the invention, wherein a force-displacement diagram is shown in each case. In this case, the vertical axis shows the spring force F of the energy storage 1, 2 and 3 while the horizontal axis represents the opening path W of the movable furniture part 5. When opening the spring force Fi of the first energy accumulator 1 is charged or tensioned during the first path section Wi. After completion or simultaneously with the completion of the clamping operation, the tensioning of the spring force F2 of the second energy accumulator 2 begins. The dashed representation shows the summed total spring force F and F2 of the two tensioned energy accumulators 1 and 2. After completion of the tensioning of the second energy accumulator 2, the clamping of the third energy accumulator 3 begins immediately, the spring forces Fi, F2 and F3 summing up. It is essential that along the individual path sections Wt, W2 and W3 always only about one third of the total spring force F must be introduced by moving in the opening direction OR in the individual power storage 1, 2 and 3.
If, according to FIG. 11, the movable furniture part 5 is moved in the closing direction SR, the individual energy accumulators 1, 2 and 3 are still fully tensioned even when the path sections W3 and W2 are reached. Only when reaching the last path section Wi, the individual energy storage 1, 2 and 3 begin to relax simultaneously (see comparison between
Fig. 8 and Fig. 9) whereby the individual energy storage 1, 2 and 3 at the same time the joint or added spring force Fi + F2 + F3 deliver to the movable Möbetteil 5.
By means of the invention described herein, a pulling device 4 that is very easily and uniformly tensioned during opening is thus shown, wherein upon closing, the spring forces Ft, F2 and F3 of the successively tensioned energy accumulators 1, 2, 3 are delivered simultaneously and thus summed up. Thus, a much easier opening movement can be achieved at the same Gesamteinziehkraft. Conversely, with the same force application during the opening movement, a doubled or tripled pull-in force can be achieved.
12 schematically shows a second variant of the invention in which the advantages according to the invention of successively tensioning at least two energy accumulators 1a, 2a for jointly relaxing these energy accumulators 1a, 2a in a lockable ejection device 4a for a movable furniture part 5 are used. The force accumulators 1a, 2a, 3a are shown in FIG. 12 in a relaxed position after the ejection or before clamping. The individual force accumulators 1a, 2a and 3a are in each case part of essentially identical ejection mechanisms 6a, 7a and 8a, which are each connected to the furniture carcass 12, preferably via the carcass rail 14. On the frame 20, the driving elements 17 (clamping bolts 18a and 18'a and ejector pin 19a) are arranged. In principle, it should also not be ruled out that the ejection mechanism 6a, 7a, 8a is assigned to the movable furniture part 5 and repels itself during ejection at corresponding elements associated with the furniture body 12.
Fig. 12a shows schematically parallel to each other arranged ejection 6a, 7a, 8a with each relaxed ejection springs 1a, 2a, 3a. The frame 20 is located on the open furniture part. 5
In Fig. 12b, the movable furniture part 5 was moved together with the frame 20 in the closing direction SR, which is the first of the clamping bolt 18'a with the carriage 10 of the ejection mechanism 6a engages and the energy storage 1a (ejection spring) tensioned.
After further movement of the movable furniture part 5 in the closing direction SR, the further force accumulators 2a and 3a are tensioned one after the other (sequentially) and thus reach the stop position SS shown in FIG. 12c. The individual carriages 10, preferably in a heart-shaped guideway, not shown, locked in the housing 9.
Ourch pressing (override) of the movable furniture part 5 in the closing direction SR, the individual locks are released and all power storage 1a, 2a and 3a simultaneously start their stored power on the carriage 10 on the arranged on the frame Ausstoßboizen 19a and further to the movable Möbeiteii 5 and thus to open the moving furniture part 5.
Innsbruck, on the 26th of January 2011

权利要求:
Claims (16)
[1]
• · · · · · · · · · I I I I § § § § § § § § § § § § § § § · · · · · · · · · · · · · · · · · · ·. 1. Pulling device (4) for drawing a movable furniture part (5) from an open division (OS) in a closed position (SS), with a first, by moving the movable furniture part (5) in the opening direction (OR) tensionable energy accumulator (1), wherein the movable furniture part (5) by relaxation of the first energy accumulator (1) in the closed position (SS) can be brought, characterized by at least a second energy storage (2) offset away from the first energy storage (1) when moving the movable Möbefteils (5) in the opening direction (OR) can be tensioned and wherein the movable furniture part (5) by substantially simultaneous relaxation of the first energy accumulator (1) and second energy accumulator (2) in the closed position (SS) can be brought.
[2]
2. Lockable ejection device (4a) for ejecting a movable Möbefteils (5) from a closed position (SS) in an open position (OS), with a first, by moving the movable furniture part (5) in the closing direction (SR) tensionable energy storage device (1a) , wherein the movable furniture part (5) by relaxation of the first energy accumulator (1) from the closed position (SS) in the open position (OS) can be brought, characterized by at least a second energy storage device (2a) offset away from the first energy storage device (1a) Moving the movable furniture part (5) in the closing direction (SR) can be tensioned and wherein the movable furniture part (5) can be brought into the open position (OS) by essentially simultaneous relaxation of the first energy accumulator (1a) and second energy accumulator (2a).
[3]
3. Einzieh- or ejection device according to claim 1 or 2, characterized by a third energy storage (3, 3a) offset away from the first and the second energy storage device (2, 2a) when moving the movable furniture part (5) in the opening direction (OR) or closing direction (SR) can be tensioned and wherein the movable furniture part (5) by substantially simultaneous relaxation of the first (1, 1a), second (2, 2a) and third (3, 3a) force accumulator in the closed position (SS) or Open position (OS) can be brought.
[4]
4. Einzieh- or ejection device according to one of claims 1 to 3, characterized in that each energy accumulator (1, 2, 3, 1a, 2a, 3a) is formed in the form of a single spring or a spring assembly. 68958 22 / eh
[5]
5. Einzieh- or ejection device according to one of claims 1 to 4, characterized in that the clamping movement of the individual force memory (1, 2, 3, 1a, 2a, 3a) takes place sequentially one after the other.
[6]
6. Einzieh- or ejection device according to one of claims 1 to 5, characterized in that each of the at least two energy accumulators (1,2, 3,1a, 2a, 3a) part of at least two, mutually separate and substantially identical trained intake - or ejection automatic (6, 7, 8,6a, 7a, 8a).
[7]
7. Einzieh- or ejection device according to one of claims 1 to 6, characterized in that the energy storage device (1, 2, 3, 1a, 2a, 3a) or the intake or discharge automatic (6, 7,8, 6a , 7a, 8a) are arranged parallel to each other.
[8]
8. Einzieh- or ejection device according to claim 6 or 7, characterized in that each of the at least two intake or discharge automatic (6, 7, 8, 6a, 7a, 8a) - a housing (9), - an im or on the housing (9) movable carriage (10), - one with the carriage (10), preferably tiltable, connected driver (11) and - each one of the energy storage device (1, 2, 3, 1a, 2a, 3a), wherein the respective energy accumulator (1, 2, 3, 1a, 2a, 3a) having one end connected to the furniture body (12), preferably via a mounting plate (13) with a carcass rail (14) of a pull-out guide (15), holding part ( 16) and at the other end with the in the housing (9) movable carriage (10) is connected to the carriage (10) arranged driver (11) with a movable Möbelteii (5), preferably its drawer rail (25) associated , Preferably bolt-shaped, driving element (17) is releasably coupled.
[9]
9. Einzieh- or ejection device according to claim 8, characterized in that the Möbelteii (5) are assigned a plurality of entrainment elements (17), each with a driver (11) one of the mutually separate intake or ejection automatic (6, 7, 8, 6a, 7a, 8a) can be coupled.
[10]
10. Einzieh- or ejection device according to claim 8 or 9, characterized in that the furniture part (5) on the one hand entrainment elements (17) in the form of Spannbotzen (18, 18a) are assigned along staggered path sections (Wt, W2, • 9 «· § ** 491 · · · · · · · * *« 4 4 • 4 «* 4 4 · · ·· 4 ...... 3 ....... W3) while moving the movable furniture part (5) in the opening direction (OR) or closing direction (SR) successively with carriers (11) of different feeder or ejection automatic (6, 7, 6, 6a, 7a, 6a) are coupled, and on the other hand driving elements (17 ) in the form of Einziehboizen (19) or ejection pin (19a) are associated, during the closing movement or the opening movement simultaneously with the drivers (11) of mutually separate automatic feeders (6, 7, 8,6a, 7a, 8a) coupled are.
[11]
11. Einzieh- or ejection device according to claim 10, characterized in that the, preferably all, clamping bolts (18, 18a) and Einziehbolzen (19) or ejector pin (19a) with a common, on the movable furniture part (5), preferably at the drawer rail (25), arranged frame (20) are connected.
[12]
12. Einzieh- or ejection device according to claim 11, characterized in that in two automatic feeders (6, 7) one of these two automatic feeders (7) associated clamping bolt (18 ') and Einziehbolzen (19') resiliently with the frame (20) are connected and in three automatic feeders (6, 7, 8) the two automatic feeders (7, 8) associated clamping bolt (18 ') and Einziehbolzen (19 *) are resiliently connected to the frame (20).
[13]
13. Einzieh- or ejection device according to claim 12, characterized in that the at least one with the frame (20) resiliently connected clamping bolt (18 ') during movement of the movable furniture part (5) in the closing direction (SR) by a run-on slope (21) wegnehmbar by the driver (11) and the carriage (10) and thereby the driver (11) of the respective automatic retraction (7, 8) is umfahrbar.
[14]
14. Einzieh- or ejection device according to claim 12 or 13, characterized in that the at least one with the frame (20) resiliently connected Einziehbolzen (19 ') in the closing pitch (SS) of the movable furniture part (5), preferably by the run-on slope ( 21), the driver (11) and the carriage (10) wegdrückbar is.
[15]
15. Einzieh- or ejection device according to claim 13 or 14, characterized in that the at least one run-on slope (21) is resiliently connected to the housing (9) of an automatic retraction (7, 8), by which this • * * * * When the movable furniture part (5) is moved in the opening direction (OR), the run-on slope (21) can be pushed away and pushed in. The clamping bolt (18 ') associated with the automatic pull-in mechanism (7, 8) linear opening path for the clamping bolt (18 ') is releasable.
[16]
16. furniture (22) with - a furniture body (12), - a in or on the furniture body (12) via a pull-out guide (15) mounted movable furniture part (5) and - a retraction device (4) according to one of claims 1 to 15 or an ejection device (4a) according to any one of claims 2 to 11. Innsbruck, 26 January 2011

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同族专利:

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公开号 | 公开日

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DE202012000684U1|2012-03-01|

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AT511042B1|2015-10-15|

引用文献:

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公开号 | 申请日 | 公开日 | 申请人 | 专利标题

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WO2009132634A1|2008-05-02|2009-11-05|Friedrich Fischer|Arrangement|

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DE102008027541A1|2008-06-10|2009-12-17|Zimmer, Günther|Actuating device for pieces of furniture with at least one shape memory element|

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DE102008030933A1|2008-07-02|2010-01-07|Zimmer, Günther|Actuating device for pieces of furniture with at least one detachable shape memory element|

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WO2010143352A1|2009-06-12|2010-12-16|高千穂交易株式会社|Retracting device for drawer and error recovery device|AT517012B1|2015-03-27|2017-07-15|Fulterer Gmbh|pull-out|AT393948B|1989-04-03|1992-01-10|Blum Gmbh Julius|LOCKING DEVICE FOR DRAWERS|

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AT400219B|1991-12-24|1995-11-27|Blum Gmbh Julius|LOCKING DEVICE FOR DRAWERS|AT512513B1|2012-07-10|2013-09-15|Blum Gmbh Julius|Drive device for a movable furniture part|

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DE102013109122B4|2013-08-22|2016-10-20|Nan Juen International Co., Ltd.|Device for automatic full opening of a drawer|

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DE102018206843A1|2018-05-03|2019-11-07|Grass Gmbh|Device for closing a movable furniture part|

法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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ATA113/2011A|AT511042B1|2011-01-27|2011-01-27|ENTRY-BZW. EJECTION DEVICE WITH FIXED SPRINGS|ATA113/2011A| AT511042B1|2011-01-27|2011-01-27|ENTRY-BZW. EJECTION DEVICE WITH FIXED SPRINGS|

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DE202012000684U| DE202012000684U1|2011-01-27|2012-01-25|Einzieh- and ejector with successively tensionable springs|