Chain – staple – and horseshoe making – Chains – Conduit
Reexamination Certificate
2000-11-27
2002-11-19
Jones, David (Department: 3725)
Chain, staple, and horseshoe making
Chains
Conduit
C248S049000, C248S051000
Reexamination Certificate
active
06481195
ABSTRACT:
FIELD OF THE INVENTION
The invention relates to a system comprising a consumer and a supplier, each having a connecting point, where the consumer and the supplier can be traversed, thereby varying the vertical distance between the connecting points, with an energy transmission chain located between the connecting points to guide lines, such as tubes, cables or the like, where adjacent chain links can pivot in relation to each other in an articulated manner on a plane, forming a curved area. The invention further relates to an energy transmission chain for a system of the kind mentioned above, where the chain links each have two lateral parts that are interconnected by means of at least one transverse pin.
BACKGROUND OF THE INVENTION
Systems of this kind with a consumer and a supplier than can be traversed vertically in relation to each other are used for a variety of purposes in mechanical engineering, and particularly in storage and retrieval systems, e.g. for storage and retrieval systems in high-bay warehouses.
The consumer then typically consists of a gripper device which is capable of retrieving pallets or other containers from a rack or depositing them in a rack. The consumer is usually capable of vertical movement in the rack aisle for this purpose. The corresponding supplier is usually located above the racking system at a defined and fixed height in the manner of a trolley and can be moved both within the aisles and transverse to the racks above the same, meaning that the gripper device used for loading and unloading the racks can be used in different rack aisles.
If the gripper device is to switch from one rack aisle to another, it has to be moved to a position above the racks in order to be able to cross them. To this end, the supply lines for the gripper device that are guided in the energy transmission chain have had to be coiled by means of a take-up device in the form of a cable drum that is mounted at the height of, or above, the supplier, so that the energy transmission chain does not collide with the racks when passing over them. However, the arrangement and operation of such a take-up device are relatively complex and cost-intensive. An energy transmission chain hanging loose in a U shape between the connecting points usually cannot be used for these applications.
The object of the invention is to create a system, comprising a consumer and a supplier with an energy transmission chain, that is of simple design and can be operated safely and with a minimum of maintenance effort, as well as an energy transmission chain whose design is particularly tailored to a system of this kind.
SUMMARY OF THE INVENTION
According to the invention, a receiving device for depositing the energy transmission chain is provided on the device lying lower down in the system in the vertical direction, that is to say, on the lower of the consumer and the supplier. An energy transmission chain for use in such a system is also provided.
Other advantageous configurations of the system or the energy transmission chain are recited in the dependent claims.
The receiving device can, for example, consist of a platform or a box open at the top, on or in which the energy transmission chain can be deposited when the vertical distance between the consumer and the supplier is less than the full length of the energy transmission chain. This eliminates the need for a take-up device with an additional drive motor and the like. Rather, the receiving device can be mounted directly on the respective consumer or supplier device and, for example, traversable with it. If the device lying lower in the vertical direction is located on the floor in stationary fashion and, for example, only the consumer can be traversed in the vertical direction, the receiving device can also be located on the floor in stationary fashion.
In this context, the receiving device can be designed to accommodate energy transmission chains folded in zigzag fashion, for instance in the form of an oblong box. In this case, the energy transmission chain can be deposited in several layers, one above the other, these being connected by deflection zones with a deflection arc of 180° or more.
The receiving device can also be designed in such a way that an energy transmission chain can be deposited in coil fashion, with several sections in the form of circular arcs lying one on top of the other, the coils being arranged in a horizontal plane.
An energy transmission chain for use in the system according to the invention can have chain links designed and interconnected in such a way that they allow the formation of interspaced deflection zones with curves in opposite directions, there being straight, essentially rigid sections provided between the deflection zones. The term “curves in opposite directions” means curves that turn in the clockwise sense and curves that turn in the anti-clockwise sense as seen in the same direction along the length of the energy transmission chain, such that, if these are arranged in alternating fashion, the energy transmission chain is deposited in meandering or zigzag fashion.
The arcs of deflection of the deflection zones of the deposited energy transmission chain can each be 180° or more. The straight sections located between the deflection zones can rest on each other over large areas or only at specific points. As a result, the energy transmission chain has a relatively small space requirement which, in particular, does not greatly exceed the width of the energy transmission chain.
In order to prevent the straight sections of the energy transmission chain from slipping off each other when folded, the lateral parts of the chain links can each be provided with guide pins which match corresponding guides on the adjacent chain links, or on other chain links located above or below the respective chain link, meaning that the arrangement of the deposited energy transmission chain is stabilised in itself. Particularly in the deflection zones, the guides can engage each other during the folding of the energy transmission chain, the result being that the rigid section of the energy transmission chain following on from a deflection zone is precisely aligned with the previously deposited section.
The essentially rigid sections of the energy transmission chain extend over a multiple of the length of a chain link of the deflection zone, advantageously covering the entire distance between adjacent deflection zones.
In the extended state of the energy transmission chain, that is to say, when it spans its maximum length, the deflection zones can be of elongated design, in which context the deflection zones can, if appropriate, also be designed in such a way that they can be bent into curves having opposite senses.
The chain links can also be designed in such a way that, if appropriate mechanical stops are provided, the angles of the deflection zones in the extended state of the energy transmission chain are significantly less than 180°.
Means can be provided which, particularly in the case of very long energy transmission chains, predetermine the pivoting direction of a section that follows on from a section that has already been deposited horizontally. As a result, the pivoting direction of the next section of the energy transmission chain to be deposited is always defined, even in the case of long energy transmission chains and rapid traversing of the consumer or the supplier in the vertical direction. Means of this kind can be created by way of an appropriate design of the mechanical stops on the chain links, by using spring elements or the like.
The rigid sections of the energy transmission chain can be formed by special chain links that are of a different design from the chain links of the bendable sections.
The rigid sections are advantageously assembled from individual chain links, where each link has two lateral parts that articulate to the lateral parts of the adjacent link, and each articulated area between lateral parts of adjacent links can be bent in only one direction. If the laterally opposite articulated are
Drinker Biddle & Reath LLP
Igus Spritzgussteile für die Industrie GmbH
Jones David
LandOfFree
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