The present invention relates to a transport drive, in particular for stage elements, fork-lift trucks and movable platforms, having at least one element which is driven or can be driven and which is integrated in a base area of the stage element.
Transport drives of this type are known and familiar in many forms and designs. Normally, a motor element or the like is connected to one edge of a stage element in order to move or drive the stage element. The disadvantage with this is that conventional wheels or balls have a point contact with a stage, in particular with an arbitrary base. A stage element of this type supported by wheels is not stable and wobbles as it is moved on a base or on a stage.
The conventional transport drives for stage elements in addition permit only restricted movement of the stage element in one direction or the other, which is disadvantageous. Moving the stage elements during a performance is therefore not possible.
DE 30 15 384 A1 shows a theater stage having a stage The chassis of the stage wagon can be driven via an electric motor, it being possible for the chassis to be raised and lowered by means of a lifting cylinder via a complicated construction.
U.S. Pat. No. 4,127,182 discloses an automatically controlled motor-operated transport car, two of the wheels of the transport car being provided with their own steering and drive elements within the transport car.
U.S. Pat. No. 5,823,884 describes a similar transport wagon, which has its own driven and steerable rollers.
DE 298 13 512 U1 discloses a chassis for a displaceable stand, in which the rollers are mounted in a resilient and prestressed manner by means of a gas spring.
The present invention is therefore based on the object of providing a transport drive for a stage element which eliminates the aforementioned disadvantages and with which the stability of the stage element is to be increased substantially, even during movement, in a simple and cost-effective manner. In addition, independent movement of the stage element on a base, in particular on a stage, is to be ensured.
In the present invention, a stage element, a fork-lift truck or a movable platform is assigned at least one transport drive, preferably a plurality of transport drives. The transport drives are preferably arranged in corner regions of a base region. The transport drive itself has an element which is preferably formed in the manner of a roll. This element can be driven actively by a motor element and can be moved with respect to a base in order to raise the stage element or to set the latter down on the base again.
At the same time, this element or its housing is mounted such that it can be rotated about a vertical axis by means of a further motor element, so that the stage element can be moved in any desired directions and movement sequences on a base by means of appropriate positioning of the element and of the transport drive.
When the stage element or the fork-lift truck or a movable platform is moved with respect to the base, the elements are extended, so that the base region of the stage element is lifted off the base. As a result of forming the elements as a roll element, there is linear contact between element and base, so that in this way the stability during movement is increased.
After the stage element has been moved to a desired location, the element is retracted and the stage element is let down and rests securely with its base region on a stage or the base. It is possible for appropriate rubber elements, rubber supports or the like to be provided in the base region in order to increase the stability.
Brakes or the like are not necessary, so that the stage element stands in a stable manner on the base. This has the advantage that the stage element can also be moved during a performance, it being possible for the movement of the stage element to be controlled and regulated in a preferably wire-free manner. For this purpose, each stage element is assigned its own power sources and control devices, which feed the corresponding motor elements and the control device.
In this way, the possible applications of appropriate stage elements are increased considerably, so that a plurality of stage elements with a plurality of integrated transport drives can be moved simultaneously, aligned with respect to one another and can be controlled, even during a performance, in the region of the stage or of a base and can be set down stably at any desired points. In this case, the stage elements, the fork-lift trucks or moving platforms can be pivoted or moved about their own axes, about any desired points or moved in linear or circulating movements with respect to the base, depending on the position in the individual transport drive. The individual transport drives are preferably arranged in corner regions of the stage element, the at least one power source preferably being provided in a central region, close to the base region, in order to optimize the centre of gravity. However, the present invention is not restricted to this arrangement.
Further advantages, features and details of the invention emerge from the following description of preferred exemplary embodiments and by using the drawing, in which:
According to
The element 2 is seated in a housing 4, in which an additional drive element 5 having a lever arm 6 is provided, in order to pivot the element 2, in particular the roll, which is pivotably mounted in the housing 4 at least by a crossmember 7, out of the housing 4 and against a base 8. The drive element 5 drives the lever arm 6 and pivots the element 2 in the Z direction illustrated. In this way, the stage element R can be raised slightly off the base 8, so that a small gap S is produced between a base region 9 and the base 8. In this position, the stage element R can be moved, driven by the element 2.
Furthermore, the housing 4 is mounted such that it can be rotated about an axis A with respect to the stage element R by a shaft 19 and bearing 10, at least one gear element 11 being seated on the shaft 19. An output gear 12 of a further motor element 13 assigned to the recess 1 or to the stage element R engages in said gear element 11.
In this way, the element 2 can be rotated exactly and precisely about the axis A such that it can be controlled and regulated, so that any desired direction for movement, in particular for driving the stage element R in the X or Y direction, is possible.
Furthermore, at least one rechargeable power source 14, which is connected to a control device 15, is assigned to the stage element R. Via the power source 14, the control device 15, motor elements 3 and 13 and also the drive element 5 are supplied. Here, motor elements 3 and 13 and drive element 5 are connected to one another via bus systems, merely indicated here, and can be driven by the control device 15. The control device 15 receives the appropriate control signals, preferably in a wire-free manner, from the outside from a central station, not numbered, in order to drive the individual transport drives F in an individual stage element R individually, also differently and also separately.
If the stage element R is to be moved, then, as indicated in the rest position according to
Furthermore, in the present invention it is advantageous that, by regulating the drive element 5 by means of the lever arm 6, the crossmember 7 and therefore the element 2 can be moved into the housing 4, so that the stage element R can be set down on the base 8. As a result, the stage element R rests completely on the base 8, in particular in the base region 9, and in this way is set up safely and precisely. Appropriate rubber bearings or the like, not illustrated here, can be provided in the base region 9, in order to ensure high stability of the stage element R on the base 8, in particular on the stage.
Furthermore, in the present invention, it has proven to be advantageous to construct the elements 2 as roll elements, so that there is high linear contact with respect to the base 8; this likewise leads to high stability, even during operation, in particular even during the movement of the stage element R or during a performance.
In particular as a result of lowering the stage element R onto the base 8, a large contact area or standing area of the stage element R is implemented, so that stability is increased. No additional brakes are needed on the stage element, there being no play, for example, to move the stage element R or to set it oscillating.
In the present invention, it has also proven to be advantageous if a plurality of transport drives F, as illustrated in particular in
Number | Date | Country | Kind |
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102 41 537 | Sep 2002 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP02/11246 | 10/8/2002 | WO | 00 | 2/16/2005 |
Publishing Document | Publishing Date | Country | Kind |
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WO2004/022882 | 3/18/2004 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
4044853 | Melke | Aug 1977 | A |
4127182 | Thole | Nov 1978 | A |
5199524 | Ivancic | Apr 1993 | A |
5219412 | Kubo | Jun 1993 | A |
5526890 | Kadowaki | Jun 1996 | A |
5823884 | Ager | Oct 1998 | A |
Number | Date | Country |
---|---|---|
30 15 384 | Oct 1981 | DE |
3015384 | Oct 1981 | DE |
298 13 512 | Jan 2000 | DE |
Number | Date | Country | |
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20050230189 A1 | Oct 2005 | US |