SYNCHRONIZATION DEVICE FOR MOVING FURNITURE PARTS

专利摘要:
Synchronization device (6) with at least two adjusting devices (100, 200) for moving a movable furniture part (3) and with a synchronization rod (5) for synchronizing the movement of the at least two adjusting devices (100, 200), wherein a first end region of the synchronization rod (5 ) with a first rotary part (102) of the first adjusting device (100) and a second end portion of the synchronization rod (5) with a second rotary part (202) of the second adjusting device (200) is connectable, characterized in that at least one rotary part (202) of Actuators (100, 200) has a sprung, on the front side of the synchronization rod (5) fitting, pressing part (207).
公开号:AT511335A4
申请号:T1356/2011
申请日:2011-09-20
公开日:2012-11-15
发明作者:
申请人:Blum Gmbh Julius；
IPC主号:

专利说明:

69694-21 / hn
The present invention relates to a synchronization device with at least two adjusting devices for moving a movable Möbeiteiis and with a synchronization rod for synchronizing the movement of the at least two actuators, wherein a first end portion of the synchronization rod with a first rotary part of the first actuator and a second end portion of the synchronization rod with a second rotary part of the second adjusting device is connectable.
Furthermore, the invention relates to a piece of furniture with at least one synchronization device of the type to be described and to a method for mounting a synchronization rod which is provided for synchronizing a movement of two adjusting devices to be mounted in or on a piece of furniture.
In WO 2006/113953 A1 of the Applicant a generic synchronization device is described, wherein two adjusting devices each have a rotatably mounted part, which are rotatably connected to one another via a synchronization rod. In a first assembly step, the two adjusting devices are pre-assembled in a piece of furniture, in a subsequent assembly step, the synchronization rod can be connected to the preassembled rotatable parts of the adjusting devices. By synchronizing rod, a synchronous rotational movement of the two adjusting devices and thus a harmonious movement of a movable furniture part can be brought about. The synchronization rod has a non-circular cross-section for rotationally fixed connection with the rotatable parts, which is received in a corresponding recess of the rotatable parts. This requires additional processing of the synchronization rod.
Object of the present invention is to provide a synchronization device of the type mentioned above while avoiding the above drawback, with a simple assembly and a backlash-free connection of the synchronization rod is to be made possible relative to the two rotary parts.
This is inventively achieved by the features of claim 1. Further advantageous embodiments of the invention are specified in the subclaims.
According to the invention, it is therefore provided that at least one rotary part of the adjusting devices has a spring-loaded, pressing part resting against the end face of the synchronization rod.
By the sprung Anpressteil a contact force is generated to keep the synchronization rod between the two opposite rotary parts of the two actuators with a predetermined holding force biased in a direction extending in the longitudinal direction of the synchronization rod play, for which basically a relatively weak spring is sufficient.
To transmit the torque between the two rotary parts of the furniture opposite actuating devices can be provided that the pressing part engages positively in a deviating from the circular recess in the end face of the synchronization rod. In this case, it can be provided that the synchronization rod has a non-circular cross-section at at least one end region and that the rotary part of the adjustment device has a receiving sleeve adapted at least in sections to the outer contour of the end region of the synchronization rod.
In a possible embodiment of the invention can be provided that the receiving sleeve or at least the voltage applied to the end face of the synchronization rod bottom of the receiving sleeve is designed as a spring-loaded Anpressteil. In principle, it may be sufficient if the pressing part is formed integrally from the end of a spring.
The arrangement of a sprung Anpressteiles on a rotary part of the actuator has several advantages. It can namely be provided that the synchronization rod is designed to be unalterable in length, wherein preferably 3 is provided that the synchronization rod over the entire length has the same cross section and wherein it is particularly preferred that the synchronization rod over the entire length formed as a hollow profile with the same inner diameter is.
In other words, the synchronization rod, for example, from a simple, extruded profile made of metal - for example, aluminum - be formed, which is cut to length individually on site to the appropriate length. In this way, therefore, the occurring tolerances can be optimally compensated. On an additional processing of this profile can be completely dispensed with.
The furniture according to the invention is characterized by at least one synchronization device of the type in question. The two adjusting devices can be provided for moving a furniture flap, which is mounted hochbewegbar relative to a furniture body. But it is also possible that the two adjusting devices for moving a drawer, which is movably mounted relative to a furniture body, are formed, for example, to stabilize the running behavior to prevent lateral tilting of the drawer relative to a Möbeikorpus.
In principle, the synchronization device can be used wherever a rotational movement of two adjusting devices is to be synchronized, for example also for synchronous triggering of so-called touch-latch devices for ejecting movable furniture parts from the closed end position. This touch-latch function enables the ejection of movable furniture parts by applying a manual pressure or tensile load to the movable furniture part.
The inventive method for mounting a synchronization rod, which is provided for synchronizing a movement of two to be mounted in or on a furniture actuators and wherein the adjusting devices 4 each have a rotating part for moving a movable furniture part, characterized in that - the two adjusting devices in or be mounted on a furniture, and that - the synchronization rod is pressed obliquely to an imaginary connecting line (X) between the rotary parts of the adjusting devices against a sprung Anpressteil a rotating part, and in that - the synchronization rod is pivoted into the imaginary connecting line (X), and that - Is then pushed under spring action, the sprung Anpressteil to the opposite rotary member and rotatably connected thereto via the synchronization rod.
Further details and advantages of the invention will be explained with reference to the following description of the figures. It shows or show:
Fig.la, 1b
Fig. 2a, 2b
3a-3c Fig. 4-7 Fig.8a-8d Fig. 9a-9d a furniture with a hochbewegbaren Möbelkiappe and the furniture to be mounted on the synchronization device in perspective views, an embodiment of a synchronization device in a perspective view and a representation of a Anpressteiles with an end portion of the synchronization rod, the rotary part of an actuator in various representations, the assembly of the synchronization rod in successive
Mounting steps, the mounting of the synchronization rod relative to the rotary parts of the adjusting devices in schematic representations, the mounting of the synchronization rod to rotary parts in a simplified embodiment.
Fig. 1a shows a piece of furniture 1 with a furniture body 2 and with a flap 3, which is mounted via actuators 100, 200 movable relative to the furniture body 2 hochbewegbar. In Fig. 1b, the flap 3 is hidden, so that at opposite 5
Side walls mounted adjusting devices 100, 200 can be seen. The two adjusting devices 100, 200 together with a synchronization rod 5 form a synchronization device 6 for moving the flap 3. In the exemplary embodiment shown, the two adjusting devices 100, 200 each have at least one actuating arm 101, 201 which can be pivoted, preferably about a horizontal axis, and which are each to be connected to the flap 3. With the actuating arms 101,201 each a Drehteii 102, 202 is coupled for movement, wherein the rotary member 102 of the left adjusting device 100 does not emerge from the representation shown in Fig. 1b. The synchronization rod 5 designed as a torsion shaft is provided for the synchronization of the movement of the two actuating devices 100, 200, so that a coupled, synchronous rotational movement of the two rotary parts 102, 202 is also brought about. Preferably, the synchronization rod 5 extends substantially horizontally in the position of use.
FIG. 2 a shows the synchronization device 6 in a perspective view, wherein the two adjusting devices 100, 200 are to be fastened on opposite sides in or on a piece of furniture 1. The adjusting devices 100, 200 each have (not shown here) spring devices which are provided for acting on the actuating arms 101,201 in the opening direction and thus for balancing the weight of the flap 3. At least one of the adjusting devices 100, 200 may alternatively or in addition to a spring device also have an electric motor for driving an actuating arm 101, 201. The pivoting movement of the two actuating arms 101, 201 can be synchronized by the synchronization rod 5. At the actuator arms 101, 201 each have a fitting 103, 203 are arranged, which are each to be connected to the flap 3.
Fig. 2a shows a Anpressteil 107, 207 with an end portion of the synchronization rod 5 in a perspective view. The Anpressteil 107, 207 engages in mounting position with the projections 111,211 in deviating from the circular shape recesses 7, 8 in the end face of the synchronization rod 5 a. Due to the construction shown, a reliable positive connection for transmitting the torque is possible. 6
3a shows a partial section of the adjusting device 200 with the actuating arm 201 mounted pivotably on it in an exploded view. With the actuating arm 201, a rotary member 202 is connected, so that during a pivoting movement of the actuating arm 201 and the rotary member 202 rotates. The rotating part 202 comprises a receiving sleeve 204 with a non-circular opening 205, which is provided for receiving a corresponding thereto shaft 206 of a sprung Anpressteiles 207. The Anpressteil 207 is biased relative to the receiving sleeve 204 by a spring 208, so that the Anpressteil 207 is limited in a direction extending in the longitudinal direction of the synchronization rod 5 direction between two end positions displaced. The Anpressteil 207 protrudes in rest position on the receiving sleeve 204 and can be pressed against the resilient action axially into the receiving sleeve 204. Between the Anpressteil 207 and the receiving sleeve 204, a holding element 209 is effective, which limits the extension movement of the Anpressteiles 207 relative to the receiving sleeve 204, so that the Anpressteil 207 is not completely pushed out of the receiving sleeve 204 by the force of the spring 208. The holding element 209 is arranged in a groove 210 of the receiving sleeve 204 and has at its end portions on projections which engage on the one hand between the actuating arm 201 and the receiving sleeve 204 and on the other hand on the sprung Anpressteil 207. The Anpressteil 207 is provided with projections 211, which engage in an assembly position in a deviating from the circular shape recess 7, 8 (Fig. 2b) in the end face of the synchronization rod 5.
FIG. 3b shows the partial section according to FIG. 3a in another perspective view, wherein the pressing part 207 is connected to the holding element 209.
Fig. 3c shows the mounting position of the rotary member 202, wherein the shaft 206 of the Anpressteiles 207 is slidably mounted in the receiving sleeve 204 and protrudes beyond this. Starting from this position, the pressing part 207 can be pressed against the action of the spring 208 in the receiving sleeve 204. FIG. 3 c shows the delivery state of the rotary part 202 ex works.
4 shows the synchronization device 6 with the two adjusting devices 100, 200, which are to be fastened to a piece of furniture 1 in a first assembly step. In the enlarged illustration 7, the two rotary parts 102, 202 of the adjusting devices 100, 200 are respectively shown. An assembly of the synchronization rod 5 is also possible if the two adjusting devices 100, 200 with the rotary parts 102, 202 are already pre-assembled on the furniture 1. The rotary member 102 of the left adjusting device 100 has in the illustrated embodiment, a non-spring-loaded pressing member 107, while the rotary member 202 of the right adjusting device 200 is provided with a spring-loaded on pressing part 207 which is pressed with the shaft 206 in the direction of the receiving sleeve 204, so the clear distance between the two rotary parts 102, 202 is temporarily increased by pressing the spring-loaded Anpressteiles 207. On the synchronization rod 5 covers 112, 212 are slidably mounted, which can be positioned after the assembly of the synchronization rod 5 on the pressing parts 107, 207.
Fig. 5 shows the further assembly process of the synchronization rod 5, which is slightly obliquely pushed onto the two projections 211 of the sprung Anpressteiles 207 with the right end portion. The left end portion of the synchronization rod 5 is not yet connected to the non-sprung Anpressteii 107 for the time being.
Fig. 6 shows a subsequent assembly step, wherein by manual pressure on the synchronization rod 5, the right sprung Anpressteil 207 against the action of the spring 208 can be pressed by a predetermined distance in the receiving sleeve 204. The synchronization rod 5 is now located on an imaginary connecting line between the two rotary parts 102, 202 of the two actuating devices 100, 200.
7 shows the synchronization bar 5 connected to the pressing parts 107, 207. Starting from FIG. 6, pressure is no longer exerted on the synchronization bar 5 by the fitter, whereupon the sprung pressing part 207 engages the shaft 206 by the expanding spring 208 extends again, so that the left end face of the synchronization rod 5 are pushed onto the projections 111 of the right, non-sprung Anpressteiles 107. The movement of the two steep arms 101, 201 is now synchronized by positive locking. The two covers 112, 212 can then be pushed onto the two pressing parts 107 and 207.
8a-8c show in a highly schematic manner the assembly of the synchronization rod 5 relative to the two rotary dividers 102, 202 of the two opposing adjusting devices 100, 200. According to FIG. 8a, the two adjusting devices 100, 200 with their turned parts 102, 202 on a furniture 1 preassembled, whereupon the synchronization rod 5 is pressed obliquely to an imaginary connecting line (X) between the rotating parts 102, 202 against the spring-loaded Anpressteil 207 of the right rotary member 202, wherein the projections 211 of the sprung Anpressteiles 207 in the hollow profile of the synchronization rod 5 recording, in Fig 8b, the synchronization rod 5 is manually pressed in the direction of the arrow, wherein the pressing part 207 with the shaft 206 is pressed against the resilient action in the direction of the receiving sleeve 204. According to FIG. 8c, the synchronization rod 5 is pivoted into the imaginary connecting line (X) between the two turned parts 102, 202. According to FIG. 8 d, the synchronization rod 5 is displaced to the left in the direction of the arrow by the expanding spring 208 (FIG. 3 a), with the projections 111 of the left non-springed pressing part 107 engaging in the end face of the synchronization rod 5.
9a-9d also show in highly schematic form a simplified embodiment of the rotating parts 102, 202 of the adjusting devices 100, 200. The left-hand rotating part 102 has an opening 105, preferably of non-circular cross-section, while in the opening 205 of the right-hand rotating part 202 a spring 208 is mounted. According to FIG. 9 a, the rotary parts 102, 202 are already preassembled on a piece of furniture 1, whereupon the synchronization rod 5 is pressed obliquely to an imaginary connecting line (X) between the two rotary parts 102, 202 against a sprung pressing part 207 of the rotary part 202. The sprung Anpressteil 207 of the rotary member 202 is integrally formed in the illustrated embodiment of the end of the spring 208, wherein the synchronization rod 5 is inserted by manual pressure in the opening 205 (Fig. 9b). According to FIG. 9 c, the synchronization rod 5 has been pivoted into the imaginary connecting line (X), the spring 208 being under 9
Maintaining the manual force is compressed. The manual pressure is now taken from the synchronization rod 5, so that the left end portion of the synchronization rod 5 can retract by the expansion of the spring 208 in the intended opening 105 of the left rotary member 102 and the synchronization rod 5 between the two rotary members 102, 202 is held backlash. The transmission of the torque can - as already described - via positive locking.
The present invention is not limited to the embodiments shown, but covers all variants and technical equivalents, which may fall within the scope of the following claims. Also, the location information chosen in the description, such as above, below, left, right, etc. related to the directly described or illustrated figure and are to be transferred to a new position analogously to the new situation.
Innsbruck, 19 September 2011

权利要求:
Claims (15)
[1]
1 69694-21 / hn claims 1. Synchronization device (6) with at least two adjusting devices (100, 200) for moving a movable furniture part (3) and with a synchronization rod (5) for synchronizing the movement of the at least two adjusting devices (100, 200) wherein a first end portion of the synchronization rod (5) with a first rotary part (102) of the first actuator (100) and a second end portion of the synchronization rod (5) with a second rotary member (202) of the second actuator (200) is connectable, characterized characterized in that at least one rotary part (202) of the adjusting devices (100, 200) has a spring-loaded, on the end face of the synchronization rod (5) fitting, Anpressteil (207).
[2]
2. Synchronizing device according to claim 1, characterized in that the pressing part (207) engages positively in a deviating from the circular recess (7, 8) in the end face of the synchronization rod (5).
[3]
3. Synchronization device according to claim 2, characterized in that the synchronization rod (5) has a non-circular cross-section on at least one end region and that the rotary part (202) of the adjusting device (200) one of the outer contour of the end portion of the synchronization rod (5) at least partially adapted receiving sleeve (204).
[4]
4. Synchronizing device according to claim 3, characterized in that the receiving sleeve (204) or at least the voltage applied to the end face of the synchronization rod (5) bottom of the receiving sleeve (204) as a sprung Anpressteil (207) is formed
[5]
5. Synchronizing device according to one of claims 1 to 4, characterized in that the pressing part (207) is integrally formed by the end of a spring (208). 2
[6]
6. Synchronizing device according to one of claims 1 to 5, characterized in that the synchronization rod (5) is formed variable in length, wherein it is preferably provided that the synchronization rod (5) over the entire length has the same cross-section and wherein particularly preferably provided that the synchronization rod (5) over the entire length is designed as a hollow profile with the same inner diameter.
[7]
7. Synchronizing device according to one of claims 1 to 6, characterized in that the Anpressteil (207) relative to the rotary member (202) of the adjusting device (200) in a longitudinal direction of the synchronization rod (5) extending direction between two end positions is slidably mounted movable.
[8]
8. Synchronizing device according to one of claims 1 to 7, characterized in that the rotary part (202) of the adjusting device (200) has a receiving sleeve (204), wherein the pressing part (207) is mounted in the receiving sleeve (204) and protrudes beyond this ,
[9]
9. Synchronizing device according to claim 8, characterized in that the pressing part (207) against the receiving sleeve (204) is biased by a spring (208)
[10]
10. Synchronizing device according to one of claims 1 to 9, characterized in that between the Anpressteil (207) and the receiving sleeve (204), a holding element (209) is effective soft limits the extension movement of the Anpressteiles (207) relative to the receiving sleeve (204) ,
[11]
11. Synchronizing device according to one of claims 1 to 10, characterized in that the synchronization rod (5) with the rotary parts (102, 202) of the adjusting devices (100, 200) is also connectable when the rotary parts (102, 202) already at or pre-assembled in a piece of furniture (1). 3
[12]
12. Synchronizing device according to one of claims 1 to 11, characterized in that the synchronization rod (5) in the assembled state with the rotary parts (102, 202) of the adjusting devices (100, 200) rotatably connected.
[13]
13. Furniture with at least one synchronization device according to one of claims 1 to 12.
[14]
14. Furniture according to claim 12, characterized in that the movable furniture part (3) is a furniture flap which by the adjusting devices (100) relative to a furniture body (2) is hochbewegbar, or that the movable furniture part (3) is a drawer, which by the adjusting devices (100, 200) relative to a furniture body (2) is movably mounted.
[15]
15. A method for mounting a synchronization rod (5), which is provided for synchronizing a movement of two in or on a piece of furniture (1) to be mounted adjusting devices (100, 200), wherein the adjusting devices (100, 200) each have a rotary part (102, 202) for moving a movable furniture part (3), characterized in that - the two adjusting devices (100, 200) are mounted in or on a piece of furniture (1), and that - the synchronization rod (5) obliquely to an imaginary connecting line ( X) between the rotating parts (102, 202) of the adjusting devices (100, 200) is pressed against a spring-loaded pressing part (207) of a rotating part (202), and that - the synchronization bar (5) is pivoted into the imaginary connecting line (X), and that - then the spring-loaded Anpressteil (207) is pushed to the opposite rotary member (102) under spring action and is rotatably connected thereto via the synchronization rod (5). Innsbruck, 19 September 2011

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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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ATA1356/2011A|AT511335B1|2011-09-20|2011-09-20|SYNCHRONIZATION DEVICE FOR MOVING FURNITURE PARTS|ATA1356/2011A| AT511335B1|2011-09-20|2011-09-20|SYNCHRONIZATION DEVICE FOR MOVING FURNITURE PARTS|

---

ES12761874T| ES2841060T3|2011-09-20|2012-08-24|Synchronization device for moving furniture parts|

---

PCT/AT2012/000221| WO2013040611A1|2011-09-20|2012-08-24|Synchronization apparatus for moving furniture parts|

---

HUE12761874A| HUE052629T2|2011-09-20|2012-08-24|Synchronization apparatus for moving furniture parts|

---

CN201280045684.6A| CN103827428B|2011-09-20|2012-08-24|For the synchronizer making furniture parts move|

---

AU2012313368A| AU2012313368B2|2011-09-20|2012-08-24|Synchronization apparatus for moving furniture parts|

---

EP20199340.9A| EP3779111A1|2011-09-20|2012-08-24|Synchronisation device for moving furniture parts|

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EP12761874.2A| EP2758619B1|2011-09-20|2012-08-24|Synchronization apparatus for moving furniture parts|

---

JP2014530052A| JP5902303B2|2011-09-20|2012-08-24|Synchronizer for moving furniture parts|

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RU2014115700/12A| RU2568092C1|2011-09-20|2012-08-24|Synchroniser of furniture parts displacement|

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US14/205,515| US9085925B2|2011-09-20|2014-03-12|Synchronization apparatus for moving furniture parts|