丹麦专利DK201970079A1 A lift and tilt mechanism and a tilt system

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专利摘要:
A lift and tilt mechanism (1) is disclosed, comprising a base frame (10) and an upper lever arm (2) rotatably connected to each other by a lower lever arm (3) and a control rod (4), wherein a rotating arm (6) is rotatably connected to an upper lever arm (2), a torque arm (9) is rotatably connected to a lower lever arm (3), and the rotating arm (6) and the torque arm (9) are rotatably connected to each other, and wherein a power source (8) is rotatably connected to the upper lever arm (2) and directly or indirectly to the connection joint (19) for the rotating arm (6) and the torque arm (9), in such a way that an extension of the length of the power source (8) causes its suspension point (11) on the upper lever arm (2) to move in an substantially vertically direction, whereby the upper lever arm (2) is tilted towards a more upright position. Furthermore, a tilt system (21) comprising such a mechanism (1) is disclosed.
公开号:DK201970079A1
申请号:DKP201970079
申请日:2019-02-04
公开日:2020-09-24
发明作者:Balle Christensen Hans
申请人:Global Fabtech Shanghai Company Ltd；
IPC主号:

专利说明:

l DK 2019 70079 A1
A LIFT AND TILT MECHANISM AND A TILT SYSTEM The present invention relates to a lift and tilt mechanism and to a tilt system comprising such a lift and tilt mechanism.
Background of the invention The use of lift and tilt mechanisms is well-known in different contexts . Many of such lift and tilt mechanisms operate according to the so-called “scissor principle”, in — which two lever arms are pivotally connected in a configuration similar to the one of the two arms in a pair of scissors. Most often, there are two pairs of such "scissored" lever arms arranged in two opposite sides of the lift and tilt mechanism, respectively. At their bottom ends, these lever arms are connected to a base frame in such a way that, when the two ends of a pair of lever arms connected to the base frame are moved towards each other, the two lever arms both tilt towards a more upright position. The movements of the lever arms can be affected by an actuator such as, for instance, a hydraulic or an electric linear actuator.
— This scissor principle functions very well and provides many good solutions for many lift and tilt mechanisms. However, if a vertical lift of one end of a lever arm is desired, such lift and tilt mechanisms working according to the scissor principle are usually rather voluminous, which makes it difficult to fit in such lift and tilt mechanism in many applications. Furthermore, such lift and tilt mechanisms typically do not show a good correlation between the extension of the length of the actuator and the distance lifted.
, DK 2019 70079 A1 Brief description of the invention It is an object of the invention to provide a lift and tilt mechanism and a tilt system that overcomes at least partly the above-mentioned disadvantages of such mechanisms known in the art.
The present invention relates to a lift and tilt mechanism comprising a base frame and at least one upper lever arm, which are connected to each other by at least one lower lever arm and at least one control rod, wherein a lower lever arm is rotatably — connected at its first end to the base frame in a suspension point and at its second end to an upper lever arm in a connection joint, wherein a control rod is rotatably connected at its first end to the base frame in a suspension point and at its second end to an upper lever arm in a suspension point, wherein a rotating arm is rotatably connected at its first end to an upper lever arm in a suspension point, a torque arm is rotatably connected at its first end to a lower lever arm in a suspension point, and the rotating arm and the torque arm are rotatably connected at their respective second ends to each other in a connection joint, and wherein a power source, such as a linear actuator, is rotatably connected at its first end to the upper lever arm in a suspension point and at its second end directly or indirectly to the connection joint for the rotating arm and the torque arm, in such a way that an extension of the length of the power source causes the suspension point to move in an substantially vertically direction, whereby the upper lever arm is tilted towards a more upright position. Through a proper optimisation of the lengths of the arms and rods and of the positions of the suspension points and connection joints in a configuration like this, it is possible to obtain a lift and tilt mechanism, which is substantially more compact than known mechanisms based on the scissor principle, which provides a substantially vertical motion of the suspension point of the power source on the upper lever arm and which, at the same time, optimises the correlation between length extension of the power source and the vertical motion of the suspension point of the power source on the upper lever arm.
DK 2019 70079 A1 3 In an embodiment of the invention, the second end of the power source is rotatably connected directly to the connection joint for the rotating arm and the torque arm. Connecting the power source directly to the common connection joint for the rotating arm and the torque arm reduces the production costs of the lift and tilt mechanism. In an embodiment of the invention, the second end of the power source is rotatably connected to a first end of a connecting arm in a connection joint, the other end of — which connecting arm is rotatably connected to the rotating arm and the torque arm in their common connection joint, and a drag-and-push rod is rotatably connected at its first end to the upper lever arm in a suspension point and at its other end to the power source and the connection arm in their common connection joint.
Connecting the power source to the common connection joint of a connecting arm and a drag-and-push rod as described above allows for the use of longer power sources, which would not fit into the very compact construction if they were to be connected directly to the common connection joint for the rotating arm and the torque arm. Furthermore, the use of a connecting arm and a drag-and-push rod like — described enables for an even better adjustment of the correlation between length extension of the power source and the vertical motion of the suspension point of the power source on the upper lever arm.
In another aspect of the invention, it relates to a lift and tilt system comprising a tilt mechanism as described above.
A tilt system comprising a lift and tilt mechanism as described above can be made very compact and is, therefore suitable for being used in places, where the available space is relatively small compared to the required power of the tilt system.
DK 2019 70079 A1 4 In an embodiment of the invention, the tilt system is able to tilt the upper lever arm in an angle of at least 40°, preferably at least 60°, compared to the base frame.
The drawings
In the following, a few exemplary embodiments of the inventions are described in more detail with reference to the drawings, of which Fig. la is a principle sketch of a lift and tilt mechanism according to an embodiment of the invention in a fully collapsed configuration, Fig. 1b is a principle sketch of the same lift and tilt mechanism a partly unfolded configuration, Fig. lc is a principle sketch of the same lift and tilt mechanism in a fully unfolded configuration, Fig. 2 is a perspective view of a tilt system according to an embodiment of the invention in a fully unfolded configuration,
Fig. 3a is a side view of the same tilt system in a fully collapsed configuration, Fig. 3b is a side view of the same tilt system in a fully unfolded configuration, and
Fig. 4 is a front view of the same tilt system in a fully unfolded configuration.
. DK 2019 70079 A1 Detailed description of the invention Figs. la-1c are principle sketches of a lift and tilt mechanism 1 according to an embodiment of the invention in a fully collapsed, in a partly unfolded and in a fully unfolded configuration, respectively. A base frame 10 and an upper lever arm 2 are connected to each other by a lower lever arm 3 and a control rod 4. In practice, there is an upper lever arm 2, a lower lever arm 3 and a control rod 4 in both sides of the lift and tilt mechanism 1. For the sake of explanation, however, the following section explains the function of one such set of components 2-4 only.
As illustrated in Figs. la-1c, the lower lever arm 3 is rotatably connected at its first end to the base frame 10 in a suspension point 12 and at its second end to the upper lever arm 2 in a connection joint 15, and the control rod 4 is rotatably connected at its first end to the base frame 10 in a suspension point 13 and at its second end to the upper lever arm 2 in a suspension point 16.
A rotating arm 6 is rotatably connected at its first end to the upper lever arm 2 in a — suspension point 14, a torque arm 9 is rotatably connected at its first end to the lower lever arm 3 in a suspension point 20, and the rotating arm 6 and the torque arm 9 are rotatably connected at their respective second ends to each other in a connection joint
19.
Furthermore, a power source 8, such as a linear actuator, is rotatably connected at its first end to the upper lever arm 2 in a suspension point 11 and at its second end to a first end of a connecting arm 7 in a connection joint 18, the other end of which connecting arm 7 is rotatably connected to the rotating arm 6 and the torque arm 9 in their common connection joint 19.
i DK 2019 70079 A1 Finally, a drag-and-push rod 5 is rotatably connected at its first end to the upper lever arm 2 in a suspension point 17 and at its other end to the power source 8 and the connection arm 7 in their common connection joint 18.
As can be seen by comparing Figs. la-lc, this configuration of the lift and tilt mechanism 1 means that an extension of the length of the power source 8 causes the suspension point 11 to move in an substantially vertically direction, whereby the upper lever arm 2 is tilted towards a more upright position. The lift and tilt mechanism 1 can be constructed so that there is a very good correlation between the extension of the length of the power source 8 and the vertical distance, through which the suspension point 11 of the power source 8 on the upper lever arm 2 is moved.
In more detail, Figs. 1a-1c show that, when the length of the power source 8 is increased, the power source 8 forces the connection joint 18 away from suspension point 11, and the drag-and-push rod 5 rotates around its suspension point 17 on the upper lever arm 2.
Likewise, the rotating arm 6, the second end of which is connected to the connection joint 18 through the connecting arm 7, rotates around its suspension point 16 on the upper lever arm 2.
As is the case for the rotating arm 6, the second end of the torque arm 9 is connected to the connection joint 18 through the connecting arm 7 and, consequently, the torque arm 9 rotates around its suspension point 20 on the lower lever arm 3. Thereby, the rotating arm 6 and, in turn, the suspension point 14 on the upper lever arm 2 is pressed in an upward direction.
The result of these motions is that the upper lever arm 2 is caused to tilt towards a more upright position, the motion of the upper lever arm 2 being controlled by
DK 2019 70079 A1 7 circular motions of suspension points 15 and 16 around suspension points 12 and 13, respectively. In a simpler embodiment of the invention, which is not shown in the figures, the second end of the power source 8 is connected directly to the connection joint 19 and the drag-and-push rod 5 as well as the connecting arm 7 are omitted. Such an embodiment has lower production costs but the possibility of correlating the extension of the length of the power source 8 and the vertical distance, through which the suspension point 11 of the power source 8 on the upper lever arm 2 is moved, is somewhat reduced. Furthermore, many standard power sources are too long to fit into a very compact construction if they are to be connected directly to the connection joint 19. Fig. 2 is a perspective view of a tilt system 21 comprising a lift and tilt mechanism 1 according to an embodiment of the invention in a fully unfolded configuration. Figs. 3a and 3b are side views of the same tilt system 21 in a fully collapsed configuration and a fully unfolded configuration, respectively.
Fig. 4 is a front view of the same tilt system 21 in a fully unfolded configuration.
2 DK 2019 70079 A1 List of reference numbers
1. Lift and tilt mechanism
2. Upper lever arm
3. Lower lever arm
4. Control rod
5. Drag-and-push rod
6. Rotating arm
7. Connecting arm
8. Power source
9. Torque arm
10. Base frame
11. Suspension point for power source on upper lever arm
12. Suspension point for lower lever arm on base frame
13. Suspension point for control rod on base frame
14. Suspension point for rotating arm on upper lever arm
15. Connection joint for upper lever arm and lower lever arm
16. Suspension point for control rod on upper lever arm
17. Suspension point for drag-and-push rod on upper lever arm
18. Connection joint for drag-and-push rod, connecting arm and power source
19. Connection joint for rotating arm, connecting arm and torque arm
20. Suspension point for torque arm on lower lever arm
21. Tilt system

权利要求:
Claims (5)
[1] 1. A lift and tilt mechanism (1) comprising a base frame (10) and at least one upper lever arm (2), which are connected to each other by at least one lower lever arm (3) and at least one control rod (4), wherein a lower lever arm (3) is rotatably connected at its first end to the base frame (10) in a suspension point (12) and at its second end to an upper lever arm (2) in a connection joint (15), wherein a control rod (4) is rotatably connected at its first end to the base frame (10) in a suspension point (13) and at its second end to an upper lever arm (2) in a suspension point (16), wherein a rotating arm (6) is rotatably connected at its first end to an upper lever arm (2) in a suspension point (14), a torque arm (9) is rotatably connected at its first end to a lower lever arm (3) in a suspension point (20), and the rotating arm (6) and the torque arm (9) are rotatably connected at their respective second ends to each other in a connection joint (19), and wherein a power source (8), such as a linear actuator, is rotatably connected at its first end to the upper lever arm (2) in a suspension point (11) and at its second end directly or indirectly to the connection joint (19) for the rotating arm (6) and the torque arm (9), in such a way that an extension of the length of the power source (8) — causes the suspension point (11) to move in an substantially vertically direction, whereby the upper lever arm (2) is tilted towards a more upright position.
[2] 2. The lift and tilt mechanism (1) according to claim 1, wherein the second end of the power source (8) is rotatably connected directly to the connection joint (19) for the rotating arm (6) and the torque arm (9).
1 DK 2019 70079 A1
[3] 3. The lift and tilt mechanism (1) according to claim 1, wherein the second end of the power source (8) is rotatably connected to a first end of a connecting arm (7) in a connection joint (18), the other end of which connecting arm (7) is rotatably connected to the rotating arm (6) and the torque arm (9) in their common connection joint (19), and wherein a drag-and-push rod (5) is rotatably connected at its first end to the upper lever arm (2) in a suspension point (17) and at its other end to the power source (8) and the connection arm (7) in their common connection joint (18).
[4] 4, A tilt system (21) comprising a lift and tilt mechanism (1) according to any of the preceding claims.
[5] 5. The tilt system (21) according to claim 4, wherein the tilt system is able to tilt the upper lever arm (2) in an angle of at least 40°, preferably at least 60°, compared to the base frame (10).

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同族专利:

公开号 | 公开日

EP3921267A1|2021-12-15|

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引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US5061010A|1988-05-20|1991-10-29|La-Z-Boy Chair Co.|Cam guide drive mechanism for power-assisted chairs and the like|

US5601014A|1995-06-28|1997-02-11|Vestil Manufacturing Company|Lift and tilt table|

DK69898A|1998-05-20|1999-11-21|Hans Balle Christensen|Lifting mechanism|

US10201914B2|2015-01-20|2019-02-12|Park Industries, Inc.|Material loading apparatus|

法律状态:
2020-09-24| PAT| Application published|Effective date: 20200805 |

2020-09-24| PME| Patent granted|Effective date: 20200924 |

优先权:

申请号 | 申请日 | 专利标题

DKPA201970079A|DK180276B1|2019-02-04|2019-02-04|Lifting and tilting mechanism and a tilting system|DKPA201970079A| DK180276B1|2019-02-04|2019-02-04|Lifting and tilting mechanism and a tilting system|

EP20703682.3A| EP3921267A1|2019-02-04|2020-01-31|A lift and tilt mechanism and a tilt system|

PCT/DK2020/050029| WO2020160737A1|2019-02-04|2020-01-31|A lift and tilt mechanism and a tilt system|

AU2020217477A| AU2020217477A1|2019-02-04|2020-01-31|A lift and tilt mechanism and a tilt system|

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