EP2366463A1 - Sorting method and sorting device for objects of different kinds - Google Patents

Abstract

The method involves using a sorting system with two output groups, where each output group has multiple output devices (AE1-AE8). The sorting system determines a value for each object to be sorted, which accepts the value of a predetermined sorting attribute for the object. The sorting system discharges the object into the output device depending on the determined sorting attribute-value. An independent claim is also included for a sorting system with data storage for sorting objects according to a predetermined sorting attribute.

Description

The invention relates to a method and an apparatus for sorting various objects according to a sorting attribute, in particular of different sized flat postal items.

A method having the features of the preamble of claim 1 and an apparatus having the features of the preamble of claim 8 are made WO 02/00362 A2 known.

In WO 02/00362 A2 For example, a sorting arrangement and a sorting method for sorting mailpieces in a single pass are described. In each case an area with possible delivery points is associated with a sorting system with several output devices ("bins") and a reader. Several such sorting plants are connected to the sorting arrangement.

In an embodiment of WO 02/00362 A2 has a sorting next to the output devices ("bins") still buffer ("cells 402"), the latches 402 are arranged in a "cell rack", see. Fig. 4. Each buffer 402 are assigned possible delivery points and a maximum level. If a buffer 402 is filled to the maximum fill level, then another mail item that should actually reach this buffer 402 is directed into an overflow buffer ("overflow cell 402a"). This overflow buffer 402a is logically connected to the actually provided pocket 402. A controller ("control unit 112") then allocates an overflow buffer 402a to a buffer 402 during sorting if, during the sorting run, the buffer 402 is filled and another mail item should actually arrive in this buffer 402. A plant operator is signaled in which buffer 402, 402a mail items have been discharged for a particular delivery point area.

In US 2006/0259186 A1 a method of sorting flat mail is described. A sorting system ("postal sorting machine 1") transports mailpieces into the compartments ("bins 5") of a conveying device ("carrousel 6"), cf. Fig. 1 , Each bin 5 transports a single mail item to a sorting outlet. The destination address of each mail item is read, and an output unit is automatically selected depending on the destination address as well as on a given sorting plan. It also measures how thick the mailpiece is. After a mail item has been discharged in an output device, the achieved filling level ("filling level") of this output device is determined after the discharge. For this purpose, the current fill level and the measured thickness of the mailpiece are added

(Step 35 of FIG. 3). In each dispenser is a container ("sort outlet tray 8"). The current level in the container of the dispenser selected for a mail item E1 is compared to a first threshold S1 (step 36 of FIG. 3). If the level is greater than S1, the container in the dispenser is replaced by an empty container before the mail item E1 is discharged into the dispenser. Otherwise, the current level is compared with a second barrier S2, where S2 <S1 (step 83). If the current level is above S2, the next item of mail E2 is searched for the same output device, and it is counted how many postal items are between E1 and E2. If this number is large enough, so the container is replaced, because there is still enough time available. In further decisions, a subsequent mail item E3 is included, cf. Steps 39-42 to decide whether or not the container in the output device selected for E1 is changed before it is discharged. FIG. 5 shows a variant of the method of FIG. 3. Fig. 1 from DE 10 2008 006753 A1 shows a sorting system 2 with 128 output devices ("fan 4"), which are divided into two levels. The sorting system 2 sorts mailpieces and deciphers the respective delivery address on each mailpiece. Each mail item is discharged into an output device 4 depending on its delivery address. The current level of each output device 4 is monitored continuously, z. B. by means of a sensor 44 at the bottom of the output device 4 and a camera 28 which receives images of the filling output device 4, see. Section [0041]. An emptying indicator 18 indicates that an emitter 4 must be emptied because the dispenser 4 is filled, see FIG. Fig. 2 , An emptier 46 returns a path 48 to empty the dispenser 4. The emptying 46 is z. B. a plant operator or a handling machine, see. Fig. 4. To reduce this path 48, not only the current level of each output device 4a-4p is continuously measured but also predicted which level of each output device 4a-4p will have at a particular future time. A computing unit ("processing means 8") determines at which output device the emptier 46 is currently located, and calculates a future route 48 according to a predetermined optimization criterion. The predicted fill levels and the respective path from the current location of the emptier 46 to an output device 4 flow into the calculation.

In EP 785828 B1 Two embodiments are described how a sorting system sorts flat postal items according to predetermined sorting classes into different output devices.

In the first embodiment of EP 785828 B1 All output devices are arranged in one strand. If a sorting class is assigned a plurality of output devices, objects of this sorting class are first discharged into a first assigned output device until this output device reaches a predetermined fill level. Subsequently Items are dumped into a second dedicated dispenser and so on. Thereafter, all dispensers are emptied.

In the second embodiment of EP 785828 B1 the dispensers are split into two strands. Each sorting class is assigned in each case an output device of the first and the second string. The objects of a sorting class are alternately discharged into the first and the second strand.

In the EP 785828 B1 The sorting methods described do not take into account the fact that output rows of a sorting system often have different accessibility.

In US 2008/0000817 A1 For example, a method and apparatus for sorting flat mail is described. A sorting system is used with two groups of mail bins, namely a group with larger capacity bins and a group with smaller capacity bins, cf. Fig. 2 and Fig. 4. A reader ("reader device 112") reads the ZIP code on each mailpiece. A "reader database 120" contains the delivery point identifiers on a mailpiece. A "bin configuration database 128" contains the respective dimension of each output unit ("bin dimensional data"). A sort scheme determines which output devices are larger and which small capacity output devices are available in a sort run.

To sort a lot of mailpieces, these mailpieces are divided into groups. The mailings of a group are all addressed to the same area of destination, e.g. Depending on the ZIP code, cf. Fig. 4. It counts how many postal items are in each group. The sorting run for sorting is now carried out, and for this purpose a sorting plan is generated in advance ("step 308"). The available output devices high capacity, the number of which is called "highCapacityCount", is assigned to groups of mailpieces. If the available high-capacity dispensers are not sufficient for all groups, then further groups are split into low-capacity dispensers (step 318).

The configuration of counting the groups of mailpieces and then dividing them onto output devices of different capacities reduces the number of "mail sweeps", which are the return of mailpieces from an output device to a feed device. Because the groups are counted before splitting, it is ensured that a group fits completely within the selected output device ("bin").

In US 6,749,194 B2 For example, a sorting system 10 with an output device ("drop pocket 16"), a measuring device ("thickness measurement device 18") and a transport device ("conveyor 20") are described, cf. Fig. 2 , The transport device 20 transports flat postal items 22 to the dispensing device 16, so that a stack of flat postal consignments is formed in the dispensing device 16, cf. FIG. 4. The measuring device 18 measures the thickness of the mailpieces 22, cf. FIG. 3. In one embodiment, it is decided on the basis of three criteria whether or not the mail item is discharged in a specific output device 16: the height of the already formed stack in the output device 16, the number of mailpieces in the output device 16 and a combination of Amount of number. A mailpiece is then ejected in an output device 16 when the height is below a first barrier, the number below a second barrier, or the combination above a third barrier. If the dispenser 16 is full, the stack is transferred in the dispenser 16 into a container ("output receptacle 24"), which may be e.g. B. is located under the output device 16.

In US 2007/0119757 A1 a sorting system with several rows of output devices will be described. In one embodiment, two rows of dispensers adjoin one another "back to back", cf. Fig. 7 and Fig. 7a. In a further development, the rows of output devices are arranged in several superimposed planes, cf. Fig. 8 and Fig. 8a. The output devices may be divided into groups of output devices having different capacities. In the embodiment of Figs. 3 to 3C, an assembly 310 having up to 16 output devices ("bins or pockets 210") is shown. A "tray management system" is able to transport containers to these output devices and to transport them away from there, cf. FIG. 4 also distinguishes two types of output devices, namely "bins of low capacity 210A" and "bins of high capacity 210".

In WO 2005/051556 A2 For example, a method and apparatus are described for accurately sorting mail items in two sorting runs in sequence. A sorting plan is used for each sorting run.

In US 6,501,041 B2 a sorting system for mail items with two rows of sorting end points is described. Between the two rows of sorting end points extends a sorting mechanism.

In DE 10303979 B3 also a sorting system is described with two parallel rows of Sortiertstellen.

The sorting system of US 7,080,739 B2 has two superimposed rows of sorting end points, wherein the rows are offset at an angle to each other.

In US 7,182,339 B2 For example, a device is described to measure the thickness of a flat article while this article is being transported on a conveyor.

The invention is based on the object, a method having the features of the preamble of claim 1 and a device having the features of the preamble of claim 8 to provide ergonomic removal of large or heavy objects.

The object is achieved by a method having the features of claim 1 and an apparatus having the features of claim 8. Advantageous embodiments are specified in the subclaims.

By the method according to the solution and the sorting system according to the solution, objects are sorted according to a predetermined sorting attribute.

Predetermined are still

• at least one physical parameter, each of which assumes a value for each item to be sorted,
• a standard range of values as a subset of the total value range of this physical parameter as well
• a computer-available sorting plan.

• mehrere Ausgabeeinrichtungen, die jeweils mindestens einen zu sortierenden Gegenstand aufnehmen können,
• für jede Ausgabeeinrichtung jeweils einen Füllstands-Sensor, der den aktuellen Füllstand in dieser Ausgabeeinrichtung mit einer vorgegebenen Füllstands-Schranke zu vergleichen vermag,
• ein Messgerät für das Sortierattribut,
• eine Auswahleinheit, die für jeden zu sortierenden Gegenstand jeweils eine Ausgabeeinrichtung auswählt, und
• einen Datenspeicher, in dem der rechnerverfügbare Sortierplan abgespeichert ist.

The sorting system used comprises the following components:

• a plurality of dispensers, each of which can receive at least one item to be sorted,
• for each output device in each case one fill level sensor which is able to compare the current fill level in this output device with a predetermined fill level limit,
• a measuring device for the sorting attribute,
• a selection unit that selects an output device for each item to be sorted, and
• a data store in which the computer-available sorting plan is stored.

The output devices used are divided into at least two output groups. Each output device used belongs either to a first output group or to a second output group.

For each output device, a first fill level barrier is predetermined in each case. For each output device of the first output group, in each case a second level limit is also given. The second level limit for an output device is greater than the first level limit for the same output device. The first level limits and / or the second level limits for different output devices may coincide or differ from one another.

The computer-available sorting plan assigns at least each occurring value of the sorting attribute to at least one output device. It is possible that the sorting plan even assigns an output device to each possible sort attribute value. It is possible that different sort attribute values are assigned the same output device. At least one occurring sorting attribute value, the sorting plan assigns both at least one output device of the first output group and at least one output device of the second output group. It is possible for the sorting plan to associate, in each case, an output device of the first output group and an output device of the second output group to multiple or even all occurring sort attribute values.

• Das Sortierattribut-Messgerät misst, welchen Wert das Sortierattribut für diesen Gegenstand annimmt.
• Die Auswahleinheit wählt eine solche Ausgabeeinrichtung aus, welche der Sortierplan diesem Sortierattribut-Wert zuordnet, oder stellt fest, dass keine zugeordnete Ausgabeeinrichtung zum Ausschleusen zur Verfügung steht.
• Die Sortieranlage schleust den Gegenstand in die ausgewählte Ausgabeeinrichtung aus - oder in einer anderen Ausgabeeinrichtung, falls keine zugeordnete Ausgabeeinrichtung zur Verfügung steht.

For each item to be sorted, the following steps are performed:

• The sort attribute meter measures what value the sort attribute for that item assumes.
• The selection unit selects such an output device which the sorting plan assigns to this sorting attribute value, or determines that no associated output device is available for discharging.
• The sorting system discharges the item into the selected output device - or in another output device if no associated output device is available.

• Eine zugeordnete Ausgabeeinrichtung der ersten Ausgabe-Gruppe wird ermittelt.
• Geprüft wird, ob der Füllstand diese ermittelten Ausgabeeinrichtung dann, wenn der Gegenstand in dieser Ausgabeeinrichtung ausgeschleust wird, nachdem Ausschleusen über der ersten Füllstands-Schranke liegen wird oder nicht.
• Wird der Füllstand nicht über der ersten Füllstands-Schranke liegen, so wird der Gegenstand in diese ermittelte Ausgabeeinrichtung der ersten Ausgabe-Gruppe ausgeschleust. Denn die Ausgabeeinrichtung bietet noch genug Platz für den Gegenstand.

To select an associated selector for an item, the following steps are performed:

• An associated output device of the first output group is determined.
• It is checked whether the fill level of this determined output device, if the object is discharged in this output device after the rejection is above the first level limit or not.
• If the fill level does not lie above the first fill level barrier, then the article is ejected into this determined output device of the first output group. Because the output device still offers enough space for the object.

• Geprüft wird, ob der Füllstand in der Ausgabeeinrichtung nach dem Ausschleusen des Gegenstands über der vorgegebenen zweiten Füllstands-Schranke liegen wird, die größer als die vorgegebene erste Füllstands-Schranke ist.
• Geprüft wird, ob der zuvor gemessene Wert, den der vorgegebene physikalische Parameter für diesen Gegenstand annimmt, in den vorgegebenen Standard-Wertebereich fällt oder nicht.
• Falls der Füllstand nach dem Ausschleusen des Gegenstands nicht über der zweiten Füllstands-Schranke liegen wird und falls der Parameter-Wert in den Standard-Wertebereich fällt, so wird der Gegenstand in die ermittelte Ausgabeeinrichtung der ersten Ausgabe-Gruppe ausgeschleust.
• Ansonsten wird eine andere zugeordnete Ausgabeeinrichtung ermittelt. In der Regel gehört diese andere zugeordnete Ausgabeeinrichtung zur zweiten Ausgabe-Gruppe.

However, if the level is above the first level limit, the following steps are carried out:

• It is checked whether the level in the output device will lie after the ejection of the article above the predetermined second level limit, which is greater than the predetermined first level barrier.
• It is checked whether or not the previously measured value, which the given physical parameter assumes for this object, falls within the predetermined standard value range.
• If, after the item has been removed, the level does not exceed the second level limit, and if the parameter value falls within the standard value range, the item is ejected into the determined output device of the first output group.
• Otherwise, another assigned output device is determined. Typically, this other associated output device belongs to the second output group.

The output devices of the first output group are privileged, ie these output devices are preferably used for purging, because an object is preferably ejected into an associated output device of the first output group. This embodiment makes it possible to ergonomically install the output devices of the first output group so that a plant operator or automated handling machine can easily remove the articles from the output devices of the first output group. For example, all the output devices of the first output group are in a plane that is at a good grip height for only one adult human.

The first level barrier is smaller than the second level barrier and thus smaller than the maximum capacity of the output devices. The second level barrier, on the other hand, can be equal to the maximum absorption capacity. In each output device of the first output group, one free space each remains after the first level limit is reached. This free space is then used for objects whose respective parameters fall within the given standard value range. These are z. B. large or heavy objects. This ensures that articles that are large or heavy continue to enter an output device of the first output group and only other articles in an output device of the less favorably arranged second output group.

Space is kept in reserve in the dispensers of the first edition group for large or heavy items. This is effected by means of the first level barrier, which is below the maximum capacity of the dispenser. Before sorting, it is not necessary to know how many large or heavy objects have which sorting feature value.

The physical parameter is not equal to the sort attribute. After sorting, objects with different parameter values may be located in an output device. Conversely, items with the same parameter value can be split into several different dispensers during sorting.

The method according to the solution does not require any prior knowledge of how many objects each have which value of the sorting attribute. Furthermore, no previously determined knowledge is required as to how many objects have a parameter value in the given standard value range.

The invention does not require that the path from one output device to another output device be known and taken into account in deciding in which output device an object is ejected. Furthermore, the invention does not require that it be calculated in advance how much time is required for emptying an output device when the level in this output device has reached the first fill level barrier.

The invention eliminates the need to eject an article into an overflow bin when the level of the selected dispenser of the first dispensing group has reached the first level barrier. In such an overflow compartment items will be discharged unsorted. In a subsequent sorting run, the items would then have to be sorted. Thanks to the invention, the need is avoided to provide an overflow compartment. Instead, objects can also be sorted if individual output devices of the first output group are already filled to the first fill level barrier.

The invention does not require that the value of the predetermined physical parameter be measured accurately. It is sufficient to check whether the value falls within the given standard value range or not.

The invention does not require that the current level of an output device of the first output group or the level that is reached after the discharge, is measured exactly. It is sufficient that the sorting system evaluates a signal - or the absence of a signal - and decides whether the first level limit and the second level limit are exceeded or not. In one embodiment of the sorting system, the output devices of the first output group are arranged in a first plane, z. B. in a row. The output devices of the second output group are arranged in a second plane, which is perpendicular or obliquely above the first plane.

In one embodiment, objects are ejected into an output device of the first output group until the first fill level barrier is reached, without measuring the actual parameter for these objects. The parameter value is measured in this embodiment only when needed. This requirement occurs when, for a further item, this output device of the first output group has been selected and it has been determined that, after the discharge of this further item, the output device will reach a fill level which is above the first fill level barrier.

In one embodiment, first the parameter value is measured and then it is checked whether the fill level will not be above the second fill level barrier after the removal. In another embodiment, it is first checked whether the level will lie after the discharge over the second level barrier or not. Then, if this level is above the first level limit, but not above the second level limit, the parameter value is additionally measured.

In a third embodiment, it is measured for each item what value the physical parameter assumes for that item.

In a further development of this embodiment, the measured parameter values are used to determine what level the output device will have after being discharged. This training is applied when the level in an output device is also evaluated using this parameter, namely as the sum or other aggregation of the parameter values of all objects in this Output device. The parameter is z. A dimension or the weight or volume of an article. The level sensor measures the current level in an output device by adding the parameter values that were previously dumped to that output device. The filling level, which the dispensing device will reach after the removal of another object, the level sensor measures by the fact that he the parameter value for this further object to the current level, ie to the sum of the parameter values of all actually already discharged items, added.

In one embodiment, it is automatically predicted how large the current fill level of an assigned output device will be if another object is ejected in this output device. It is checked whether the predicted current fill level will be above the respective fill level barrier or not.

In another embodiment, it is determined whether the current level of an output device, which was reached by the previous rejection of objects, already above the respective level limit. If the current level is still below the level limit, then another object is discharged into this output device. The current level after discharge can be above the respective level limit. This can be taken into account when specifying the fill level barrier, in particular if the objects are approximately the same thickness.

This other configuration does not require measuring the thickness of an article. Rather, it is sufficient to measure the respective level reached so far, or at least determine whether a level barrier has already been reached. For this z. B. a mechanical sensor with a rocker arm or a light barrier.

The sorting attribute according to which the sorting system sorts the items is e.g. B. a destination address where the item is to be transported. Measuring the sorting attribute includes the step of deciphering the target point with which the item is provided. The attribute may also be an optically detectable property of the object, e.g. B. color, shape, contour or surface finish of the object.

The at least one physical parameter is z. As the weight, a dimension, a covered area, the volume or even a surface finish of an object. It is possible to specify several physical parameters and one standard value range for each parameter. It is checked whether for each given parameter the value measured in each case falls within the respectively specified standard value range. If the level is between the first and the second level barrier, the object is discharged into the output device of the first output group only if each parameter value is in the respective standard value range.

The object is z. As a mail piece, a piece of luggage of a traveler or a freight item, which are to be transported to a specific destination, or a workpiece or component in a manufacturing plant or goods in a plant for recycling.

Fig. 1

schematisch eine Sortieranlage des Ausführungsbeispiels von oben;

Fig. 2

schematisch die beiden Reihen R1, R2 von Ausgabeeinrichtungen der Sortieranlage von Fig. 1 von vorne.

In the following the invention will be described with reference to an embodiment. Showing:

Fig. 1

schematically a sorting system of the embodiment from above;

Fig. 2

schematically the two rows R1, R2 of output devices of the sorting of Fig. 1 from the front.

In the exemplary embodiment, the invention is used to sort flat mail items (standard letters, large letters, postcards, catalogs, ...). Each mail item is provided with details of a destination address to which this mailing to or is provided with such destination address information during sorting. The mail item is to be transported to this destination address - or forwarded to a predetermined forwarding address.

In the exemplary embodiment, the mailpieces are thus flat objects that can be stacked. Each mail item extends in an object plane and has a front side and a back side.

The mail items are sorted using a sorting system. Fig. 1 schematically shows a sorting system of the embodiment from above. Fig. 2 schematically shows the two rows R1, R2 of output devices of the sorting of Fig. 1 from the front.

• eine Zuführ-Einrichtung ZE mit einer Ausrichtvorrichtung und einem Vereinzeler ("singulator"),
• eine Leseeinrichtung LE für Zieladressen,
• eine Messeinrichtung,
• eine Ausschleuseinrichtung (SG),
• eine Steuerungseinrichtung (SE), die zugleich aus Auswahleinheit fungiert, und
• eine Menge von Ausgabeeinrichtungen AE1, ...,AE4, ....

The sorting system includes in the embodiment

• a feeder ZE with an alignment device and a singulator,
• a reading device LE for destination addresses,
• a measuring device,
• a discharge device (SG),
• a control device (SE), which also acts as a selection unit, and
• a set of output devices AE1, ..., AE4, ....

The output devices AE1, ..., AE4, ... are arranged in the embodiment in two superimposed planes. The output devices AE4, AE5,... Of the first, lower level form the first output group and are arranged in a first row R1. The output devices AE1, AE2,... Of the second, upper level are arranged in a second row R2. The first row R1 acts as the privileged first edition group and is mounted in an ergonomic handle height of about 1 m to 1.5 m above the ground. The second row R2 acts as the second edition group.

In the exemplary embodiment, the first row R1 has five output devices AE4,..., AE8, and the second row R2 has three Output devices AE1, AE2, AE3. The two rows R1, R2 are arranged vertically or obliquely one above the other. It is possible that the first row R1 protrudes in comparison to the second row R2 in order to be more accessible.

The first output group may also consist of two rows of dispensers accessible from two different sides, or a carousel with dispensers. The same applies to the second edition group.

Each dispenser AE1, ..., AE4, ... has a bottom and preferably side walls and is adapted to receive a stack of upright mailpieces. During sorting, this stack grows in a stacking direction because the sorting system discharges further mailpieces into this output device AE1,..., AE4,.

In one embodiment, the stack is directly on the ground and rests on at least one side wall of the output device. In another embodiment, a container is on the floor in such a way that the container is open on one side. The mailpieces for this dispenser are stacked in the container through the opened sidewall. It is also possible that the mail items are stacked from above into the container.

Each output device AE1, ..., AE4, ... has a maximum recording capacity, namely the dimension in the stacking direction reduced by the dimension of an unusable space and possibly a space reserve. The output devices AE4, AE5,... Of the first row R1 preferably have a larger recording capacity than the output devices AE1, AE2,... Of the second row R2. For example, all output devices AE4, AE5,... Of the first row R1 are 450 mm deep - seen in the stacking direction. With an average thickness of a mail piece of 1.5 mm, each output device of the first row R1 is capable of receiving on average 300 mail items. On the other hand, each output device AE1, AE2,... Of the second, upper row R2 is only 350 mm deep and is capable of accommodating approximately 220 mailpieces.

Each output device AE1, ..., AE4, ... is equipped in the embodiment with a level sensor FS1, FS2, .... The fill level sensor FSx (x = 1, 2,...) Of the output device AEx measures the current fill level, in the exemplary embodiment thus the thickness of the stack formed so far in the output device AEx. The level sensor FSx generates a message as soon as the current level has reached or exceeded a specified level limit. For example, a message is generated when the growing stack has reached a rocker arm and turns. Or the stack grows towards a photocell, and the photocell issues a message as soon as the stack breaks the photocell. The level sensor may also include both the rocker arm and the light barrier.

Preferably, the level sensor FSx sets a free message when the current level is still below the level limit. As a result, a central control SE of the sorting system "knows" that the level sensor is intact.

For each output device AE4, AE5,... Of the first row R1, a first fill level barrier and a second fill level barrier are specified. The second fill level barrier is larger than the first fill level barrier and can be the same size as the maximum absorption capacity of the recording device AE4, AE4, .... The level sensor FS4, FS5, ... is able to monitor both fill level barriers , For each output device AE1, AE2,... Of the second row R2, at least one fill level barrier is preset, which is smaller than or equal to the maximum absorption capacity of this output device.

For example, a value between 380 mm and 400 mm is specified as the first fill level barrier for each output device AE4, AE4,... Of the first row R1, and a value between 430 mm and 450 mm as the second fill level barrier. The level limit for each output device AE1, AE2,... Of the second row R2 is set to a value between 300 mm and 330 mm.

If the level sensor FS4, FS5,... Has measured that the current fill level, an output device AE4, AE5,... Of the first row R1 has reached the second, ie larger fill level limit, then the fill level sensor FS4 generates , FS5, ... a filled message. An assigned message component informs a system operator, for example B. by means of a signal light that this output device AE4, AE5, ... is now filled. The corresponding applies if the level sensor FS1, FS2, ... an output device AE1, AE2, ... the second row R2 has reported that the level of this output device AE1, AE2, ... has reached the level limit ,

Preferably, the sorting system additionally comprises a thickness sensor Dg, which measures the thickness of each mail item. Thickness is the maximum dimension of the flat mail item perpendicular to its object plane. The thickness sensor Dg is arranged so that the thickness sensor Dg measures the thickness of a mailpiece before the control device SE has decided in which output device the mail item is ejected. The level sensor FS4, FS5, ... transmits z. B. then a corresponding message to the controller SE, when the current level has almost reached a predetermined limit. The control device SE decides whether there is still room for this mail item in the output device without the current fill level after discharging exceeding the respective fill level barrier. In an alternative embodiment, the control device SE sums, for each output device AE1,..., AE4,..., The thicknesses of the mail item that were previously discharged into this output device. In this way, the controller SE determines the current level and decides whether there is still room for an additional mail item in this output device.

In a third embodiment, the thickness sensor Dg is saved, and a reference thickness, z. B. an average thickness of a mail item is measured in advance and specified. For each output device AE1, ..., AE4, ... counts the control device SE, how many mail items have been discharged in this output device so far. The current fill level is the product of the reference thickness and the number of pieces of mail.

It is also possible to combine several embodiments of the thickness sensor Dg, z. B. to create a redundancy.

The control device SE has read access to a data memory DS. At least one computer-available sorting plan Spl is stored in this data storage DS. This sorting plan Spl assigns every possible sorting attribute value, in this case each possible destination address, in each case at least one output device AE1,..., AE4,... In a modification, it is determined in advance which destination addresses actually occur, and the sorting plan Spl assigns only one output device to each actually occurring destination address. Because the sorting system has substantially fewer output devices than destination points for mailings, the sorting plan Spl assigns to each output device - or at least most output devices - a group of destination addresses, rather than just a single destination address. In the exemplary embodiment, the assignment of output devices AE1,..., AE4,... To destination addresses, which the sorting plan specifies, remains unchanged during the entire sorting run.

In the exemplary embodiment, the possible destination addresses are subdivided into five groups of destination addresses. From statistical evaluations of previous sorting operations, it is known that as a rule more mail items for destination addresses of the first three groups are to be sorted than mail items for destination addresses of the last two groups. Therefore, the sorting plan Spl assigns, to each of the first three destination address groups, an output device of the first row R1 and an output device of the second row R2. For each of the first three target address groups, a logical sorting endpoint with a total capacity of 450 mm + 330 mm = 780 mm is thus available.

The two output devices, which are assigned to the same destination address group, form a logical sorting end point for this destination address group.

The two output devices of a logical sorting end point are preferably arranged one above the other in the two rows R1, R2. This configuration makes it easier for a plant operator or an automatic handling machine to find and empty all output devices which are assigned to the same group of destination addresses and therefore form a logical sorting end point.

The last two groups are assigned to the sorting plan Spl exclusively by an output device AE7, AE8 of the first row R1.

The second row R2 also has an overflow compartment. The sorting plan Spl assigns no destination address to this overflow compartment.

The mail items pass through the sorting system in at least one sorting pass. Before this first sorting run, there is no need to have any prior information about how many mailpieces each have which destination address. Therefore, it is also not known before the first sorting run how many mailpieces are actually to be ejected into which output device. Therefore, the sorting system is not completely filled by the first sorting, but only with a degree of filling of z. 70% to 80%. The mail items that are sorted in the first sorting run are only so large and so thick that they occupy the output devices AE1,..., AE4,... With an average fill level of approximately 70% to 80%.

• Die Postsendungen werden stapelweise der Zuführ-Einrichtung ZE zugeführt.
• Die Ausrichtvorrichtung richtet die Postsendungen auf eine Kante aus.
• Der Vereinzeler ("singulator") vereinzelt die aufrecht stehenden und ausgerichteten Postsendungen.
• Die vereinzelten Postsendungen durchlaufen die Sortieranlage.
• Die Leseeinrichtung LE umfasst eine Kamera Ka und eine Bildauswerteeinheit Bae und ermittelt die jeweilige Zieladresse jeder Postsendung.
• Um die jeweilige Zieladresse zu ermitteln, erzeugt eine Kamera ein rechnerverfügbares Abbild der Postsendung, welches die Angaben zur Zieladresse zeigt. Eine OCR-Einheit der Bildauswerteeinheit Bae versucht, die Zielpunkt-Angaben im Abbild zu entziffern. Gelingt dies nicht, so wird das Abbild an eine Videocodierstation übermittelt und dort auf einem Bildschirm dargestellt. Ein Bearbeiter gibt die Zieladress-Angaben ein.
• Die Steuerungseinrichtung SE ermittelt für jede Postsendung eine Ausgabeeinrichtung AE1, ..., AE4, ..., die der gelesenen Zieladresse der Postsendung zugeordnet ist. Hierfür wertet die Steuerungseinrichtung SE den Sortierplan Spl in Datenspeicher DS aus.
• Die Steuerungseinrichtung SE steuert die Ausschleuseinrichtung SG so an, dass die Ausschleuseinrichtung SG die Postsendungen in diejenige Ausgabeeinrichtung AE1, ..., AE4, ... ausschleust, welche die Steuerungseinrichtung SE für diese Postsendung ausgewählt hat.
• In jeder Ausgabeeinrichtung AE1, ..., AE4, ... entsteht durch das Ausschleusen von Postsendungen jeweils ein Stapel aufrecht stehender flacher Postsendungen, der in eine Stapelrichtung wächst. Diese Stapelrichtung steht senkrecht auf den Gegenstandsebenen der flachen Postsendungen.

The following steps are performed in or during the first sorting run:

• The mail items are fed in batches to the feeder ZE.
• The alignment device aligns the mail pieces on an edge.
• The singulator separates the upright and aligned mailpieces.
• The scattered mail items pass through the sorting system.
• The reading device LE comprises a camera Ka and an image evaluation unit Bae and determines the respective destination address of each mailpiece.
• In order to determine the respective destination address, a camera generates a computer-accessible image of the mailpiece which shows the details of the destination address. An OCR unit of the image evaluation unit Bae tries to decipher the destination information in the image. If this is not successful, the image is transmitted to a video coding station and displayed there on a screen. An editor enters the destination address information.
• The control device SE determines for each mail item an output device AE1,..., AE4,..., Which is assigned to the read destination address of the mailpiece. For this purpose, the control device SE evaluates the sorting plan Spl in the data storage DS.
• The control device SE activates the discharge device SG in such a way that the discharge device SG ejects the mailpieces into that output device AE1,..., AE4,... Which the control device SE has selected for this mail item.
• In each output device AE1,..., AE4,..., A stack of upright flat postal items, which grows in a stacking direction, is created by the removal of mailpieces. This stacking direction is perpendicular to the object levels of the flat mail items.

In the exemplary embodiment, a distinction is made between two classes of flat postal items, namely standard letters (in the USA: "letters") and large letters ("flats"). A mail item is treated as a large letter if a dimension (length, height or thickness) of this mail item is greater than a predetermined one Barrier is, and otherwise as a standard letter. This at least one dimension acts as a physical parameter, the values above the barrier as the value range in the sense of the claims. Preferably, a mail item is treated as a large letter if at least one dimension lies above the predetermined barrier.

The sorting system has a length sensor and a height sensor, which at least approximately measures the length or the height of a mailpiece. In one embodiment, an image of the mail item is measured, for. B. that image, which is also evaluated to decipher the destination address.

In another embodiment, the length is measured by measuring the transport speed with which the sorting system transports a mail item through a light barrier. It also measures how long the mailpiece interrupts the light barrier. The product of transport speed and time provides the length of the mailing. The height is measured, for example, with a photocell line.

In one embodiment, it is additionally determined whether the weight of a mail item is above or below a predetermined weight limit. The weight acts as another physical parameter. The sorting device has a scale Waa, which measures the weight of each mail item. The mail item does not need to be weighed exactly by the scale Waa, but it is preferably only decided whether the mail piece is heavier than the weight barrier or not. A mailing is treated as a large letter even if its weight is above the weight barrier. Preferably, the scale Waa measures the weight of a mail piece without stopping the mail piece.

In one embodiment, a mail item is first measured before the controller SE selects an output device AE1,..., AE4,... For the mail item. The control device SE decides on the basis of the dimensions and in one embodiment additionally by weight, whether the mailpiece is a large letter or a standard letter.

• Die Steuerungseinrichtung SE ermittelt durch Auswertung des Sortierplans Spl eine Ausgabeeinrichtung AE4, AE5, ... der ersten Reihe R1, die der Zieladresse des Großbriefs zugeordnet ist. Im Ausführungsbeispiel gibt es nur eine solche Ausgabeeinrichtung AE-x in der Reihe R1.
• Die Steuerungseinrichtung SE ermittelt so wie oben beschrieben näherungsweise den aktuellen Füllstand der zugeordneten Ausgabeeinrichtung AE-x und in einer Ausführungsform die Dicke des aktuell auszuschleusenden Großbriefs.
• Die Steuerungseinrichtung SE entscheidet, ob der aktuelle Füllstand der Ausgabeeinrichtung AE-x auch nach dem Ausschleusen des Großbriefs in AE-x noch unter der zweiten Füllstands-Schranke liegen wird oder aber die zweite Füllstands-Schranke übersteigen würde.
• Falls der aktuelle Füllstand von AE-x auch nach dem Ausschleusen des Großbriefs noch unter der zweiten Füllstands-Schranke liegen wird, so wählt die Steuerungseinrichtung SE die Ausgabeeinrichtung AE-x aus und steuert die Ausschleuseinrichtung SG so an, dass die Ausschleuseinrichtung SG den Großbrief in AE-x ausschleust.
• Falls der aktuelle Füllstand von AE-x nach dem Ausschleusen des Großbriefs hingegen oberhalb der zweiten Füllstands-Schranke liegen würde, so ermittelt die Steuerungseinrichtung SE eine Ausgabeeinrichtung AE1, AE2, ... der zweiten Reihe R2, die der Sortierplan Spl der Zieladresse des Großbriefs zuordnet. Im Ausführungsbeispiel gibt es nur eine solche Ausgabeeinrichtung AE-y im R2.
• Die Steuerungseinrichtung SE ermittelt den aktuellen Füllstand von AE-y.
• Falls in AE-y noch Platz für den Großbrief ist, so wird der Großbrief in AE-y ausgeschleust, ansonsten in ein Überlauffach.

For a large letter, the control device SE additionally performs the following steps:

• By evaluating the sorting plan Spl, the control device SE determines an output device AE4, AE5,... Of the first row R1, which is assigned to the destination address of the large letter. In the exemplary embodiment, there is only one such output device AE-x in the row R1.
• The control device SE determined as described above approximately the current level of the associated output device AE-x and in one embodiment, the thickness of the current auszuschleusenden large letter.
• The control device SE decides whether the current fill level of the output device AE-x will still be below the second fill level barrier even after the large letter has been removed in AE-x or would exceed the second fill level barrier.
• If the current fill level of AE-x is still below the second fill level limit even after the large letter has been removed, the control device SE selects the output device AE-x and controls the ejection device SG such that the ejection device SG stores the large letter in Eject AE-x.
• On the other hand, if the current level of AE-x after the removal of the large letter would be above the second level limit, the control device SE determines an output device AE1, AE2,... Of the second row R2, the sorting plan Spl of the destination address of the large letter assigns. In the exemplary embodiment, there is only one such output device AE-y in the R2.
• The control device SE determines the current level of AE-y.
• If there is still room for the large letter in AE-y, then the large letter is rejected in AE-y, otherwise in an overflow compartment.

• Die Steuerungseinrichtung SE ermittelt eine zugeordnete Ausgabeeinrichtung AE4, AE5, ... der ersten Reihe R1. Im Ausführungsbeispiel gibt es wiederum eine solche Ausgabeeinrichtung AE-x.
• Die Steuerungseinrichtung SE ermittelt den aktuellen Füllstand von AE-x und die Dicke des Standardbriefs.
• Die Steuerungseinrichtung SE entscheidet, ob der aktuelle Füllstand der Ausgabeeinrichtung AE-x auch nach dem Ausschleusen des Standardbriefs in AE-x noch unter der ersten Füllstands-Schranke liegen wird, oder aber die Füllstands-Schranke übersteigen würde.
• Falls der aktuelle Füllstand von AE-x auch nach dem Ausschleusen des Standardbriefs noch unter der ersten Füllstands-Schranke liegen wird, so schleust die Ausschleuseinrichtung SG den Standardbrief in AE-x aus.
• Falls der aktuelle Füllstand von AE-x nach dem Ausschleusen des Standardbriefs hingegen oberhalb der ersten Füllstands-Schranke liegen würde, so ermittelt die Steuerungseinrichtung SE eine zugeordnete Ausgabeeinrichtung AE1, AE2, ... der zweiten Reihe R2. Im Ausführungsbeispiel ist dies die Ausgabeeinrichtung AE-y in R2.
• Die Steuerungseinrichtung SE ermittelt den aktuellen Füllstand von AE-y.
• Falls in AE-y noch Platz für den Standardbrief ist, so wird der Standardbrief in AE-y ausgeschleust.
• Falls in AE-y hingegen kein Platz mehr für den Standardbrief ist, so prüft die Steuerungseinrichtung SE, ob der aktuelle Füllstand der Ausgabeeinrichtung AE-x in der bevorzugten Reihe R1 zwar über der ersten Füllstands-Schranke, aber unter der zweiten Füllstands-Schranke liegen würde.
• Falls der aktuelle Füllstand von AE-x unter der zweiten Füllstands-Schranke liegt, so wird der Standardbrief in AE-x ausgeschleust, ansonsten in ein Überlauffach.

For a standard letter, the control device SE additionally performs the following steps:

• The control device SE determines an assigned output device AE4, AE5,... Of the first row R1. In the exemplary embodiment, there is again such an output device AE-x.
• The control device SE determines the current level of AE-x and the thickness of the standard letter.
• The control device SE decides whether the current fill level of the output device AE-x will still be below the first fill level barrier even after the standard letter has been rejected in AE-x, or if it would exceed the fill level barrier.
• If the current fill level of AE-x is still below the first fill level limit even after the standard letter has been removed, then the ejection device SG rejects the standard letter in AE-x.
• If the current fill level of AE-x after the removal of the standard letter, however, would be above the first fill level barrier, the control device SE determines an assigned output device AE1, AE2,... Of the second row R2. In the exemplary embodiment, this is the output device AE-y in R2.
• The control device SE determines the current level of AE-y.
• If there is still room for the standard letter in AE-y, the standard letter is rejected in AE-y.
• If there is no more room for the standard letter in AE-y, however, the control device SE checks whether the current fill level of the output device AE-x in the preferred row R1 exceeds the first fill level barrier, but would be below the second level limit.
• If the current level of AE-x is below the second level limit, the standard letter is rejected in AE-x, otherwise in an overflow compartment.

After this sorting run are usually in many output devices AE1, ..., AE4, ... the sorting system both standard letters and large letters.

In one embodiment, the sorting system continuously sorts mailpieces, with each mailing going through the sorting system in a single sorting pass. This sorting in a single sorting run is z. B. in the so-called departure sorting, are sorted at the mailings according to those sorting centers to which these mail items are to be transported. A departure sort can be performed in a single sort run if there are no more sorting centers (sorting destinations) than the first row R1 has dispensers.

In another embodiment, the sorting system sorts a certain amount of mailpieces in several sorting runs. Such sorting is z. B. performed in the incoming sorting to sort incoming mail to the respective sequence of deliverers. Multiple sort runs are required because there are many more possible destination addresses than first row R1 output devices. The first sorting pass is performed as described above. The output devices AE1,..., AE4,... Are emptied under the output devices in accordance with a predetermined feed order, and the mailpieces are successively returned to the feed device in accordance with the feed sequence. The mail items pass through the sorting system again in at least one subsequent second sorting pass.

LIST OF REFERENCE NUMBERS

reference numeral importance AE1, AE2, ... Output devices of the second row R2 AE4, AE5, ... Output devices of the privileged first row R1 dg thickness gauge DS Data storage with at least one computer-compatible sorting plan Spl FS1, FS2, ... Level sensors of the output devices AE1, AE2, ... LE Reading device for destination addresses R1 privileged first row with the output devices AE4, AE5, ... R2 second row with the output devices AE1, AE2, ... SE control device SG discharge device Spl Sorting plan assigns at least one output device to each sorting feature value Waa Libra ZE Feeding device with alignment device and separator

Claims (10)

Method for sorting articles according to at least one predetermined sorting attribute,
wherein a sorting system having a first output group (R1) and a second output group (R2) is used,
each output group (R1, R2) comprises a plurality of output devices (AE1, ..., AE4, ...),
the sorting system for each item to be sorted, determines what value the at least one predetermined sorting attribute for that item will take, and - expel the object into an output device (AE1, ..., ..., AE4) depending on the respectively determined sorting attribute value, wherein the sorting system uses a computer-available sorting plan (Spl) for deciding into which output device (AE1, ..., AE4, ...) an object is to be rejected
whereby the computer-available sorting plan (Spl) - each occurring sorting attribute value at least one output device (AE1, ..., AE4, ...) assigns and at least one occurring sorting attribute value both an output device (AE4, AE5,...) of the first output group (R1) and also an output device (AE1, AE2,..., ...) of the second output group ( R2), and the sorting system each item to be sorted - in such an output device (AE1, ..., AE4, ...) that assigns the sorting plan (Spl) to the sorting attribute value of this counterpart, - or determines that there is currently no associated output device (AE1, ..., AE4, ...) available for discharging the object, the sorting system for each item to be sorted - checks before the removal of the object, whether the current level of an associated output device (AE4, AE5, ....) of the first output group (R1) when the object in this output device (AE4, AE5, ..., ...) is discharged, above a predetermined for this output device (AE4, AE5, ...) first fill level barrier will lie, - The object always then in this output device (AE4, AE5, ...) of the first output group (R1) ausschleust, if the current level after the discharge will not be above the first level limit, characterized in that
a physical parameter is given,
before the removal of an object, the steps are carried out that
at least when the current level of each associated output device (AE4, AE5, ...) of the first output group (R1) after the removal of the object in this output device (AE4, AE5, ...) above the first level limit will lie
is measured, which value the given parameter assumes for this object,
the sorting system additionally decides whether or not the measured value, which the given parameter for this object assumes, falls within a predetermined value range, and
the sorting system, if the parameter value falls within the predetermined value range, additionally checks whether the current fill level of an assigned output device (AE4, AE5,...) of the first output group (R1) after discharging the object into this output device via one for the output device (AE4, AE5,. predetermined second level barrier would be greater than the first level barrier, and - The object then also in this output device (AE4, AE5, ...) of the first output group (R1) ausschleust, if the current level after the removal will be above the first, but below the second level barrier. Method according to claim 1,
characterized in that
the sorting system for each item first of all makes the decision as to whether or not the value assumed by the parameter for the object falls within the given value range, and - Then the current level of an associated output device (AE4, AE5, ...) of the first output group (R1), which is assigned to the sorting attribute value of this item checks. A method according to claim 1 or claim 2,
characterized in that
the sorting system before the discharge of an item whose parameter value is outside the range of values, when the current level of each associated output device (AE4, AE5, ...) of the first output group (R1) after the rejection over the first level limit would lie
In addition, checks whether the current level of an associated output device (AE1, AE2, ...) of the second output group (R2) after the removal of the object in this output device (AE1, AE2, ...) above a predetermined for this output device Level limit will be, and
then dump the object into this output device (AE1, AE2,...) of the second output group (R2) if the current fill level after the ejection will be below the predetermined fill level barrier. Method according to claim 3,
characterized in that
the sorting system before the article is removed with the parameter value outside the value range
when the current level of each associated output device (AE4, AE5, ...) of the first output group (R1) above the respective first level limit and the current level of each associated output device (AE1, AE2, ...) the second output group (R2) would be above the respective fill level barrier,
additionally checks whether the current fill level of an assigned output device (AE4, AE5,...) of the first output group (R1) will be below the second fill level barrier after the object has been removed
the object then also in this output device (AE4, AE5, ...) of the first output group (R1) ausschleust, if the current level after the rejection will be above the first, but below the second level barrier. Method according to one of claims 1 to 4,
characterized in that
before sorting out an object, the sorting system first checks the current fill level of an output device (AE4, AE5,...) of the first output group (R1) assigned to this object, and
the decision as to whether the parameter for this item falls in the range of values will only be made if the current level after discharge would be above the first level limit. Method according to one of claims 1 to 5,
characterized in that
the allocations of output devices (AE1, ..., AE4, ...) to sort attribute values which the sorting plan (Spl) specifies,
remain unchanged during the entire sorting run. Method according to one of claims 1 to 6,
characterized in that
before the item is removed with the parameter value outside the value range
checking whether the current fill level of an assigned output device (AE4, AE5,...) of the first output group (R1) would lie above the fill level barrier,
including the step of verifying that the current level is below the first level limit prior to discharge, and
the sorting system ejects the object into this output device of the first output group (R1),
if their current fill level is below the first fill level barrier prior to removal. Sorting system for sorting articles according to at least one predetermined sorting attribute,
the sorting system a sorting attribute measuring device (LG), a data store (DS) with a computer-available sorting plan (Spl), a first edition group (R1) and - a second output group (R2) includes,
each output group (R1, R2) comprises a plurality of output devices (AE1, ..., AE4, ...),
the sorting installation has a fill level sensor (FS1, FS2,...) for each output device (AE1,..., AE4),
the computer-available sorting plan (Spl) - each occurring sorting attribute value at least one output device (AE1, ..., AE4, ...) assigns and assigning at least one occurring sorting attribute value both to an output device (AE4, AE5,...) of the first output group (R1) and also to an output device (AE1, AE2,...) of the second output group (R2), the sorting attribute measuring device is designed to determine, for each item to be sorted, which value the at least one predetermined sorting attribute for this item assumes,
the sorting system is designed to discharge each object into an output device (AE1,..., AE4,...) depending on the respectively determined sorting attribute value,
the sorting system to eject each object to be sorted into such an output device (AE1,..., AE4,...) which the sorting plan (Spl) assigns to the ascertained sorting attribute value of this object, - or determines that there is currently no associated output device (AE1, ..., AE4, ...) available for discharging the object, and
the sorting system is designed to - to check using the respective level sensor (FS1, FS2, ...) before the discharge of an object in an output device, whether the current level of an associated output device (AE4, AE5, ...) of the first output group ( R1) after the article has been discharged in this output device (AE4, AE5, ...) above a first fill level barrier specified for this output device, and - The object always then auszuschleusen in this output device (AE4, AE5, ...) of the first output group (R1), if the current level would not be above the first fill level barrier after the discharge, characterized in that
the sorting system additionally has at least one parameter measuring device (Dg, Waa),
the parameter measuring device (Dg, Waa) is designed to decide, for each object, whether or not the value that a given physical parameter assumes for this object falls within a predetermined value range or not,
the sorting system is designed to
when the parameter value of an item to be sorted falls within the predetermined value range, - additionally check whether the current level of an associated output device (AE4, AE5, ...) of the first output group (R1) after the removal of the object in this output device (AE4, AE5, ...) via one for this Output device (AE4, AE5, ...) predetermined second level barrier would be greater than the first level barrier, and - The object also then auszuschleusen in this output device (AE4, AE5, ...) of the first output group (R1), if the current level after the removal will be above the first, but below the second level barrier. Device according to claim 8,
characterized in that
the output devices (AE4, AE5, ...) of the first output group (R1) in a first level and
the output devices (AE1, AE2,...) of the second output group (R2) lie in a second plane,
the second level is above the first level. Apparatus according to claim 8 or claim 9,
characterized in that
the respective absorption capacity of each output device (AE4, AE5,...) of the first output group (R1) is greater than
the respective recording capacity of each output device (AE1, AE2, ...) of the second output group (R2).

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