Classifying – separating – and assorting solids – Sorting special items – and certain methods and apparatus for... – Condition responsive means controls separating means
Reexamination Certificate
2001-05-22
2002-09-24
Nguyen, Tuan N. (Department: 3653)
Classifying, separating, and assorting solids
Sorting special items, and certain methods and apparatus for...
Condition responsive means controls separating means
C209S707000, C209S912000, C198S357000, C198S358000, C198S370040
Reexamination Certificate
active
06455797
ABSTRACT:
BACKGROUND OF THE INVENTION
Field of the Invention
The invention relates to a device and method for sorting goods of different shapes and sizes.
Related Art
With known tilting-tray sorters, the tilting trays are not sized according to the largest goods, but such that the achievable throughput and the share of the goods occupying two tilting trays are optimally matched to each other.
Prior to the inward transfer of a good (an item) needing two tilting trays, the control must always reserve two consecutive trays. This can be achieved satisfactorily only if the inward transfer locations are positioned close to each other and the goods to be transferred inward at this location can be seen adequately ahead of time. This is explained further in FIG.
1
.
A sorter S with an inward transfer region, having 5 inward transfer locations E
1
-E
5
, is shown schematically herein. One inward transfer operation is immediately followed by another one at a distance of 2-3 tilting trays. The arrows characterize the complete inward transfer line with a corresponding transporting unit. The occupation algorithm for the tilting trays in that case can fall back on the occupation of all inward transfer lines. It is assumed that an empty tilting tray is located at position B of the sorter S at a specific point in time. That empty tilting tray is reserved for the inward transfer at inward transfer location E
1
-
5
. Moving a tilting tray from position B to the respective inward transfer position requires the same amount of time as does moving a good (item) on the respective inward transfer line from a position, fixed by the timeline Z, to the inward transfer position. All goods, which at the point in time when the tilting tray to be reserved passes the position B, are conveyed along the inward transfer lines in the direction of the inward transfer position and are closer to the inward transfer position than the positions marked by the line Z. Therefore, the goods can be included in the decision as to which goods must first be transferred outward.
Since the position and size of these goods are known, it is possible to reserve two successive, empty tilting trays for large goods by taking into consideration the flow of goods on the sorting path and the goods on all inward transfer lines. However, in many cases, the compact grouping of the inward transfer locations is not possible. The causes for this can be either structural conditions or facilities with several main sorters and presorters and a freely selectable path for the goods from one optional inward transfer location to each outward transfer location. As a result of inward transfer locations that are spaced far apart, it is no longer possible to reserve tilting trays ahead of time, especially for large goods, since the goods on the upstream positioned inward transfer lines are not known from the view of the reserving point. This is demonstrated well in FIG.
2
.
In this Figure, the inward transfer locations E
1
and E
5
with their inward transfer lines are positioned far enough apart, so that a tilting tray that passes the position B cannot yet be reserved for the inward transfer location E
5
. This is due to the fact that whether a large good for two tilting trays must be transferred inward is not known at that instant in time. In the drawing, the length of the inward transfer line represents the time from the good takeup to the inward transfer moment. Since the time line Z does not intersect the inward transfer line for the inward transfer location E
5
, a reservation is not possible. Thus, it is difficult to find two successive, empty tilting trays for large goods on the inward transfer line. Subsequent goods also cannot be transferred inward in that case. Individual tilting trays would pass by this inward transfer location E
5
while empty, which would result in a reduction of the throughput. Until now, two successive, empty tilting trays were reserved as a precaution, which could not satisfactorily solve the problem because it could not be ensured that two empty tilting trays were available at the correct moment.
SUMMARY OF THE INVENTION
It is therefore the object of the invention to improve the inward transfer of large goods requiring two tilting trays in tilting tray sorters by providing two empty, successive tilting trays at the correct time, thus avoiding throughput losses.
The invention proceeds on the assumption that if only one empty tilting tray is available, a neighboring tilting tray with a good is emptied, so that a large good can be transferred inward. The outward transferred good from the neighboring tray is then again transferred inward to an individual, empty tilting tray downstream of the inward transfer location. As a result, a view of all inward transfer lines ahead of time is no longer necessary and the inward transfer algorithm is simplified.
In one exemplary embodiment, the present invention can be a device for sorting goods which can include circulating tilting trays, inward transfer locations for loading the tilting trays, and outward transfer locations for unloading into collecting bins for correct sorting. The outward transfer locations can include sensors for determining the loading condition of the tilting trays. The device can also include means for reading and recording distribution information, and a control unit for controlling the sorting operations based on the recorded information. The control unit can include an additional outward transfer location located in front of an inward transfer location for the outward transfer of goods located on a single tilting tray onto a joint transport path, where the joint transfer path has an intermediate storage area which is operated in a start-stop mode. The control unit can also include an additional inward transfer location disposed at an end of the joint transport path. If the control unit determines that only one empty tilting tray is available for a good which requires two tilting trays in order for the two tilting tray good to be transferred inward, a second good in a tilting tray adjacent and upstream to the one empty tilting tray is transferred outward via the additional outward transfer location so that the two tilting tray good is then transferred inward on the now available, side-by-side arranged empty tilting trays. The second good which was transferred outward via the additional outward transfer location, is again transferred inward via the joint transport path, and the additional inward transfer location, to an individual, empty tilting tray.
In another exemplary embodiment, the present invention can be a method for sorting piece goods by means of tilting tray sorters, having the steps of recognizing when a large good needs two consecutive empty tilting trays in order to be transferred inwardly, locating an empty tilting tray, emptying a tilting tray occupied by a good adjacent to the empty tilting tray prior to the inward transfer of the large good, transferring the large good requiring two tilting trays to the two empty, successively following tilting trays, and transferring the additional, removed good inward to a single, empty tilting tray.
In another exemplary embodiment, the present invention can be an apparatus for sorting goods having multiple means for holding goods, multiple means for loading the goods into the holding means, multiple means for unloading the goods into collecting means for correct sorting, where the unloading means has means for determining the loading condition of the holding means, means for reading and recording distribution information, and means for controlling sorting operations based on the recorded distribution information. The controlling means can have additional unloading means located in front of at least one of the loading means for the outward transfer of goods onto a joint transport path, where the goods are located on one of the holding means, the joint transfer path has an intermediate storage area which is operated in a start-stop mode, and the transport path ends in an additional loading means. If the controlling
Kinberg Robert
Nguyen Tuan N.
Siemens Aktiengesellschaft
Venable
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