CN112668961A - Automatic feeding system, method and medium - Google Patents

Abstract

The invention discloses an automatic feeding system, comprising: the system comprises an order processing module, a platform binding module, an inventory analysis module and a material transportation module; the order processing module is used for acquiring order information and sending the order information to the platform binding module; the platform binding module is used for selecting a platform and binding platform information of the platform with the order information to obtain binding information; the inventory analysis module is used for distributing the materials corresponding to the binding information to the platform; the material transportation module is used for collecting materials at the station and executing corresponding cyclic collection measures; the invention can automatically collect the material order of the server, and improves the accuracy of the material, the safety of the material and the efficiency of material transmission.

Description

Automatic feeding system, method and medium

Technical Field

The invention relates to the technical field of server production, in particular to an automatic feeding system, method and medium.

Background

In the current server production process, the materials of the server are transmitted in a batch packaging transmission mode, after a production order is received, a worker waits for a plurality of production orders to form batches, a corresponding material table is established, the materials are collected in a centralized mode, after the collection is finished, the materials are delivered to a production line at one time, and the materials are distributed and retrieved through the production line.

The above method is mainly manual processing, and during the manual processing, the following defects can occur: on the first hand, the material is lost or damaged due to artificial uncertainty; on the second hand, the conveying efficiency of the materials is low due to artificial uncertainty factors; in the third aspect, the material is not matched with the order due to artificial uncertainty.

Disclosure of Invention

The invention mainly solves the problems of material loss or damage, low material transmission efficiency and unmatched material and order form caused by artificial uncertainty factors in the material transmission process of the server.

In order to solve the technical problems, the invention adopts a technical scheme that: the utility model provides an automatic feed system sets up between material storehouse and platform, includes:

the system comprises an order processing module, a platform binding module, an inventory analysis module and a material transportation module;

the order processing module is used for acquiring order information and sending the order information to the platform binding module;

the platform binding module is used for selecting a platform and binding platform information of the platform with the order information to obtain binding information;

the inventory analysis module is used for distributing the materials corresponding to the binding information to the platform;

the material transportation module is used for collecting materials at the station and executing corresponding circulating collection measures.

As an improved scheme, the inventory analysis module is configured to determine whether the materials in the material library meet the binding information, and if so, the inventory analysis module allocates the materials corresponding to the binding information to the station.

As an improved scheme, the material transportation module is configured to determine whether a material at the station meets a requirement of the whole machine, if so, the material transportation module collects the material and determines whether the material is matched with the binding information, and if so, the material transportation module executes a corresponding cyclic collection measure.

As an improved scheme, an order receiving module and an order collecting module are arranged on the order processing module, the order processing module collects order detail data and material information in order information through the mutual matching of the order receiving module and the order collecting module, and sends the order detail data and the material information to the platform binding module;

the platform binding module is provided with a platform distribution module and an information binding module, selects a platform through the mutual matching of the platform distribution module and the information binding module, binds the order detail data, the material information and the platform information of the platform to obtain binding information, and sends an inventory detection signal corresponding to the binding information to the inventory analysis module;

the inventory analysis module is provided with an inventory detection module and an inventory distribution module, receives the inventory detection signal through the mutual matching of the inventory detection module and the inventory distribution module, judges whether the materials in the material library meet the binding information, if so, the inventory analysis module executes distribution measures, distributes the materials corresponding to the binding information to the platform through the distribution measures, and sends the distribution signal corresponding to the binding information to the material transportation module;

the material transportation module is provided with a transportation distribution module and a sorting module, the material transportation module receives the distribution signal through the transportation distribution module and judges whether the material in the platform meets the requirements of the whole machine, if so, the material transportation module collects the material through the sorting module and judges whether the material is matched with the binding information, and if so, the material transportation module marks the material through the sorting module and takes a cyclic collection measure corresponding to the mark.

As an improved scheme, the inventory detection module is used for receiving the inventory detection signal and executing a corresponding detection measure;

the detection measures include: the inventory detection module identifies the material demand quantity of the material information corresponding to the binding information corresponding to the inventory detection signal, the inventory detection module detects whether the material inventory quantity corresponding to the material information in the material library is larger than the material demand quantity, if so, the inventory detection module judges that the material in the material library meets the binding information, and executes allocation measures;

the allocation measures include: the inventory detection module sends a distribution signal corresponding to the binding information to the material transportation module, and the inventory detection module sends a configuration signal corresponding to the binding information to the inventory distribution module;

the inventory allocation module is used for receiving the configuration signal and executing corresponding configuration measures;

the configuration measures include: the inventory allocation module calculates the allocable quantity of the materials corresponding to the material information in the binding information corresponding to the configuration signal, and allocates the materials corresponding to the material information in the binding information corresponding to the configuration signal in the material library to the station corresponding to the station information in the binding information according to the allocable quantity.

As an improvement, the transportation distribution module comprises: the device comprises a storage module, a moving module and a material detection module;

the storage module is used for placing materials;

the mobile module is used for receiving the distribution signal and executing corresponding distribution measures; the allocation measures include: the moving module moves the material transportation module to a station corresponding to station information in binding information corresponding to the distribution signal, and sends a detection signal corresponding to the binding information to the material detection module;

the material detection module is used for detecting the platform information of the platform where the material transportation module is located, judging whether materials corresponding to the material information corresponding to the platform information exist in the binding information or not at the platform, and if so, sending a picking signal corresponding to the binding information to the picking module by the material detection module.

As an improvement, the picking module comprises: the device comprises a material quantity calculation module, a material acquisition module, a calibration module and an error processing module, wherein the material quantity calculation module is provided with a complete machine material threshold;

the picking module is used for receiving the picking signal and executing a corresponding picking measure;

the sorting measures include:

the material quantity calculating module calculates the quantity of the materials corresponding to the material information in the binding information at the platform, and compares whether the quantity is greater than or equal to the material threshold value of the whole machine, if so, the material quantity calculating module judges that the materials at the platform meet the requirements of the whole machine and sends an acquisition signal corresponding to the binding information to the material acquisition module, the material acquisition module acquires the materials with the material information in the binding information in the platform to the storage module and sends a check signal to the checking module, the checking module checks whether the material information of the materials in the storage module is the same as the material information in the binding information, if so, the checking module judges that the materials are matched with the binding information, marks the material information as the acquired materials in the binding information, and then sends a cyclic acquisition signal to the mobile module, if not, the checking module marks the material corresponding to the material information as a wrong material in the storage module and sends an error processing signal to the error processing module;

the error processing module is used for receiving the error processing signal and executing corresponding error processing measures; the error handling measures include: the error processing module moves the materials marked as error materials out of the storage module;

the mobile module is used for receiving the cyclic acquisition signal and executing a corresponding cyclic acquisition measure; the cyclic collection measures comprise: and the moving module moves the material transportation module to a platform corresponding to the platform information corresponding to the material information which is not marked as the collected material in the binding information.

As an improved scheme, the order receiving module is configured to receive the order information and send the order information to the order collecting module;

the order collecting module is used for collecting order detail data and material information in the order information and sending the order detail data and the material information to the platform binding module;

the platform distribution module is used for selecting a platform, collecting platform information of the platform and sending the platform information to the information binding module;

the information binding module is used for receiving the platform information, the order detail data and the material information, binding the platform information, the order detail data and the material information to obtain binding information, storing the binding information by the information binding module, and sending an inventory detection signal corresponding to the binding information to the inventory analysis module.

The invention also provides an automatic feeding method, which comprises the following steps:

acquiring order information;

selecting a platform, and binding platform information of the platform with the order information to obtain binding information;

distributing the materials corresponding to the binding information to the platform;

and collecting the materials at the station and executing corresponding circulating collection measures.

The invention also provides a computer-readable storage medium having stored thereon a computer program which, when being executed by a processor, carries out the steps of the automatic feeding method.

The invention has the beneficial effects that:

1. the automatic feeding system can realize that the order processing module automatically collects the material orders of the server, the platform binding module distributes a platform for the orders and binds the platform and the information of the orders, the stock analysis module automatically distributes the materials corresponding to the orders to the platform bound with the orders, and the material transportation module verifies the matching degree of the materials at the platform and the orders and collects and transmits the materials according to the matching degree, so that the manual processing mode is replaced, and the accuracy of the materials and the safety of the materials are improved.

2. The automatic feeding system method can realize automatic acquisition of a material order of the server, allocate a platform for the order, bind information of the platform and the order, automatically allocate the material corresponding to the order to the platform bound with the order, check the matching degree of the material at the platform and the order, acquire and transmit the material according to the matching degree, replace a manual processing mode, and improve the accuracy of the material and the safety of the material.

3. The computer-readable storage medium can realize that the order processing module is guided to automatically collect the material order of the server, the platform binding module is guided to distribute the platform for the order, the platform and the information of the order are bound, the stock analysis module is guided to automatically distribute the material corresponding to the order to the platform bound with the order, the material transportation module is guided to check the matching degree of the material at the platform and the order, and the material is collected and transmitted according to the matching degree, so that the operability of the automatic feeding system method is effectively improved.

Drawings

FIG. 1 is a schematic structural diagram of an automatic feeding system according to embodiment 1 of the present invention;

fig. 2 is a flowchart of an automatic feeding method according to embodiment 2 of the present invention.

Detailed Description

The following detailed description of the preferred embodiments of the present invention, taken in conjunction with the accompanying drawings, will make the advantages and features of the invention easier to understand by those skilled in the art, and thus will clearly and clearly define the scope of the invention.

In the description of the present invention, it should be noted that the WMS System (the Warehouse Management System) is a real-time Warehouse Management System based on computer software, the WCS System (the Warehouse communications System) is a Warehouse device scheduling System, the EPR System (Electronic Public relationship System) is a network Public System, and the cpu (central Processing unit) is a central Processing unit.

Example 1

The present embodiment provides an automatic feeding system, as shown in fig. 1, including:

the system comprises an order processing module, a platform binding module, an inventory analysis module and a material transportation module;

in this embodiment, the automatic feeding system is arranged between the material warehouse and the platform, the material warehouse is provided with an EPR system, the system is provided with a WMS system on a processing module for receiving an order form, the WMS system is provided with a corresponding control interface, and the WMS system realizes the operation of the whole automatic feeding system through the operation of a code instruction and the control interface; the platform binding module, the inventory analysis module and the material transportation module are provided with a WCS system, and the WCS system drives each module to realize corresponding functions;

the order processing module comprises an order receiving module and an order collecting module;

the order receiving module is used for receiving the production orders in the EPR system and sending the production orders to the order acquisition module; the order collecting module collects order information in a production order, displays the order information in the production order in a bill of material window of a control interface of the order collecting module, and sends the order information to the platform binding module;

the platform binding module selects a platform and binds platform information corresponding to the platform with the order information to obtain binding information, wherein the platform information comprises a platform number; the order information comprises an order number (namely order detail data) and material information, and the material information comprises the material number and the material demand quantity corresponding to the material number; the binding information is the binding information among the station number, the order number, the material number and the material demand quantity of the material number, wherein one material number corresponds to one material; for example: material may be CPU, then material number is xxxxxx, where "XXXXX" is independently present and represents only one corresponding material; several different types of material will constitute one complete machine.

The specific steps of the platform binding module for executing the operations are as follows:

the station binding module comprises: the platform distribution module and the information binding module; the WMS system controls the platform distribution module through the platform selection interface; the platform distribution module selects any platform for material output, and sends the platform number of the corresponding platform to the information binding module;

the information binding module binds the production order number, the material demand quantity corresponding to the material number and the platform number corresponding to the platform to obtain binding information, stores the binding information in a data table of the information binding module, and sends an inventory detection signal corresponding to the binding information to the platform analysis module after the binding is finished, wherein the bound material information is emphatically displayed as blue in the data table of the information binding module to indicate that the binding is finished;

when the material number is bound with the platform number of the corresponding platform, the following operations can be selected:

A. the platform is provided with a material output threshold in advance, the number of the material numbers of the platform is checked before the material numbers are bound with the platform numbers of the corresponding platform, if the number of the material numbers is equal to the material output threshold, a full load signal is sent to a control system, and the platform numbers of the platform cannot be bound;

B. after the material number is bound with the platform number of the corresponding platform, the platform bound with the material number can be replaced according to the requirement, if the platform is replaced, the updating information corresponding to the replaced material number and the platform number is sent to the information binding module, and the information binding module updates the corresponding binding information in the data table; if the material number is bound with other stations, a control interface of the WMS system prompts which station is bound and inquires whether to continue the current operation, and after the material number is clicked to continue, the system moves the material number out of the original station and binds the material number to the currently operated station again.

The inventory analysis module comprises an inventory detection module and an inventory distribution module;

after receiving the inventory detection signal, the inventory detection module identifies the material demand quantity corresponding to the material number in the binding information corresponding to the inventory detection signal, detects whether the existing material quantity of the material corresponding to the material number in the inventory is larger than the material demand quantity, if so, sends a distribution signal corresponding to the platform number in the binding information to the material transportation module, pops up the window in the control interface to prompt the execution success, locks the inventory and sends a configuration signal corresponding to the binding information to the inventory distribution module; if not, sending a missing signal, failing to select the materials, and displaying the shortage number and the shortage quantity of the materials by a popup window;

after receiving the configuration signal, the inventory allocation module calculates the allocable quantity of each material to be produced by the station according to the material information corresponding to the binding information corresponding to the configuration signal, and after calculating the allocable quantity, the WCS system of the inventory allocation module allocates the material corresponding to the allocable quantity in the material library to the station corresponding to the station number corresponding to the binding information; the specific calculation method is as follows: the output quantity of each material to be output by the platform is the total quantity of the order orders of the material/the total quantity of the complete machine required by the material; for example: the material is CPU1, 8 orders all need CPU1, and 4 complete machines of the CPU1 are needed finally, 2 CPUs 1 are allocated to the platform corresponding to the binding information; after the steps are executed, the inventory distribution module analyzes whether other materials exist on the platform, if so, the interface of the WMS system pops up and fails to issue, and meanwhile, the platform number and the excessive materials corresponding to the platform are prompted and can be manually moved; the material transport module includes: the device comprises a storage module, a moving module, a material detection module and a sorting module;

the mobile module is used for receiving the distribution signal and executing corresponding distribution measures; the allocation measures include: the moving module moves the material transportation module to a platform corresponding to the platform number corresponding to the distribution signal and sends a detection signal to the material detection module;

in this embodiment, the turnover box is a storage module in the automatic feeding system;

when the material transportation module enters a certain station, the following steps are carried out:

a turnover box number reading module is arranged on the turnover box, and a line body end code reader of the turnover box number reading module reads the box number information of the turnover box and the station number of the station where the material detection module is located and returns the box number information and the station number to the information binding module; the information binding module updates the box number to binding information corresponding to the platform number; the moving process of each turnover box can be recorded by the WMS system through the material identification chip;

the material detection module detects whether the platform has the material corresponding to the material number corresponding to the platform in the binding information, and if so, the material detection module sends a picking signal to the picking module.

The picking module includes: the device comprises a material quantity calculation module, a material acquisition module, a calibration module and an error processing module, wherein the material quantity calculation module is provided with a complete machine material threshold;

the picking module executes a picking measure after receiving the picking signal;

the sorting measures include:

the material quantity calculation module calculates the quantity of the materials with the material numbers in the binding information in the platform, and compares whether the quantity is larger than or equal to the material threshold value of the whole machine, if so, the material quantity calculation module judges that the materials in the platform meet the requirements of the whole machine and sends an acquisition signal corresponding to the binding information to the material acquisition module, and if not, a withdrawal signal is sent to withdraw the material transportation module;

the material collecting module collects materials with the material numbers in the binding information in the platform to the storage module and sends a checking signal to the checking module;

after receiving a check signal, a check module checks whether the material in the turnover box corresponds to the binding information corresponding to the turnover box, if so, the check module judges that the material is matched with the binding information, marks the material number in the binding information as the acquired material, a WMS system issues a movement instruction to a WCS system of the check module, the WCS system of the check module sends a cyclic acquisition signal to the mobile module, if not, the check module marks the material corresponding to the material number in the turnover box as the wrong material, a red light on a control interface of the WMS system is lightened, and an error processing signal is sent to the error processing module;

after receiving the error processing signal, the error processing module moves the material marked as the wrong material out of the turnover box;

and after receiving the cyclic acquisition signal, the moving module moves the material transportation module to a station corresponding to the station number which is not marked as the material number of the acquired material in the binding information.

The automatic feeding system also comprises a backup module, and the backup module is provided with a residual material detection module and a residual material recovery module;

the backup module detects whether excess materials exist in the platform or not through the excess material detection module, if yes, the backup module collects the excess materials through the excess material recovery module, and the backup module transmits the collected excess materials to the material warehouse; wherein, the backup module selects an idle goods position in the stock and establishes a warehousing task from the platform to the goods position; the backup module executes the task through the excess material recovery module, a material box number acquisition frame is arranged on the excess material recovery module, the excess material recovery module scans the material box number through a stacking gun, collects excess materials of the platform into the acquisition frame of the material box number, and sends the material box to a target cargo space;

specifically, the control interface of the WMS system includes the following steps: after a code gun scans a material box number, clicking and confirming, automatically retrieving idle goods positions of a material warehouse by a WMS system, establishing a warehousing task from a current platform to the goods position after selecting one of the idle goods positions, issuing the warehousing task to a backup module, after the backup module finishes collecting excess materials, sending the material box to a target goods position, clicking a return confirmation button, and then checking whether the scanned box number contains inventory information or not by the system, and if not, prompting that the material box has no inventory by a popup window.

Example 2

Based on the same inventive concept as the automatic feeding system described in embodiment 1, this embodiment further provides an automatic feeding method, as shown in fig. 2, including:

acquiring order information; selecting a platform, and binding the order information with platform information corresponding to the platform to obtain binding information; judging whether the materials in the material library meet the binding information, if so, distributing the materials corresponding to the binding information to the platform; and judging whether the materials in the platform meet the requirements of the whole machine, if so, collecting the materials, judging whether the materials are matched with the binding information, and if so, executing corresponding cyclic collection measures.

Based on the same inventive concept as the automatic feeding method in the foregoing embodiments, embodiments of the present specification further provide a computer-readable storage medium having a computer program stored thereon, where the computer program, when executed by a processor, implements the steps of the automatic feeding method.

Different from the prior art, the automatic feeding system, the automatic feeding method and the automatic feeding medium can automatically collect a material order of the server, manage and distribute the materials of the server, automatically distribute and transmit the materials according to the material order, replace a manual processing mode, and improve the accuracy of the materials, the safety of the materials and the efficiency of material transmission.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. The utility model provides an automatic feed system, sets up between material storehouse and platform, its characterized in that includes:

the system comprises an order processing module, a platform binding module, an inventory analysis module and a material transportation module;

the order processing module is used for acquiring order information and sending the order information to the platform binding module;

the platform binding module is used for selecting a platform and binding platform information of the platform with the order information to obtain binding information;

the inventory analysis module is used for distributing the materials corresponding to the binding information to the platform;

the material transportation module is used for collecting materials at the station and executing corresponding circulating collection measures.

2. The automatic feed system of claim 1, wherein:

the inventory analysis module is used for judging whether the materials in the material library meet the binding information, and if so, the inventory analysis module distributes the materials corresponding to the binding information to the platform.

3. The automatic feed system according to claim 1 or 2, wherein:

the material transportation module is used for judging whether the material at the platform meets the requirements of the whole machine, if so, the material transportation module collects the material and judges whether the material is matched with the binding information, and if so, the material transportation module executes corresponding cyclic collection measures.

4. The automatic feeding system according to any one of claims 1 to 3, wherein:

the order processing module is provided with an order receiving module and an order collecting module, acquires order detail data and material information in order information through the mutual matching of the order receiving module and the order collecting module, and sends the order detail data and the material information to the platform binding module;

the platform binding module is provided with a platform distribution module and an information binding module, selects a platform through the mutual matching of the platform distribution module and the information binding module, binds the order detail data, the material information and the platform information of the platform to obtain binding information, and sends an inventory detection signal corresponding to the binding information to the inventory analysis module;

the inventory analysis module is provided with an inventory detection module and an inventory distribution module, receives the inventory detection signal through the mutual matching of the inventory detection module and the inventory distribution module, judges whether the materials in the material library meet the binding information, if so, the inventory analysis module executes distribution measures, distributes the materials corresponding to the binding information to the platform through the distribution measures, and sends the distribution signal corresponding to the binding information to the material transportation module;

the material transportation module is provided with a transportation distribution module and a sorting module, the material transportation module receives the distribution signal through the transportation distribution module and judges whether the material in the platform meets the requirements of the whole machine, if so, the material transportation module collects the material through the sorting module and judges whether the material is matched with the binding information, and if so, the material transportation module marks the material through the sorting module and takes a cyclic collection measure corresponding to the mark.

5. The automatic feed system of claim 4, wherein:

the inventory detection module is used for receiving the inventory detection signal and executing corresponding detection measures;

the detection measures include: the inventory detection module identifies the material demand quantity of the material information corresponding to the binding information corresponding to the inventory detection signal, the inventory detection module detects whether the material inventory quantity corresponding to the material information in the material library is larger than the material demand quantity, if so, the inventory detection module judges that the material in the material library meets the binding information, and executes allocation measures;

the allocation measures include: the inventory detection module sends a distribution signal corresponding to the binding information to the material transportation module, and the inventory detection module sends a configuration signal corresponding to the binding information to the inventory distribution module;

the inventory allocation module is used for receiving the configuration signal and executing corresponding configuration measures;

the configuration measures include: the inventory allocation module calculates the allocable quantity of the materials corresponding to the material information in the binding information corresponding to the configuration signal, and allocates the materials corresponding to the material information in the binding information corresponding to the configuration signal in the material library to the station corresponding to the station information in the binding information according to the allocable quantity.

6. The automatic feed system of claim 4, wherein:

the transport distribution module includes: the device comprises a storage module, a moving module and a material detection module;

the storage module is used for placing materials;

the mobile module is used for receiving the distribution signal and executing corresponding distribution measures; the allocation measures include: the moving module moves the material transportation module to a station corresponding to station information in binding information corresponding to the distribution signal, and sends a detection signal corresponding to the binding information to the material detection module;

the material detection module is used for detecting the platform information of the platform where the material transportation module is located, judging whether materials corresponding to the material information corresponding to the platform information exist in the binding information or not at the platform, and if so, sending a picking signal corresponding to the binding information to the picking module by the material detection module.

7. The automatic feed system of claim 6, wherein:

the picking module includes: the device comprises a material quantity calculation module, a material acquisition module, a calibration module and an error processing module, wherein the material quantity calculation module is provided with a complete machine material threshold;

the picking module is used for receiving the picking signal and executing a corresponding picking measure;

the sorting measures include:

the material quantity calculating module calculates the quantity of the materials corresponding to the material information in the binding information at the platform, and compares whether the quantity is greater than or equal to the material threshold value of the whole machine, if so, the material quantity calculating module judges that the materials at the platform meet the requirements of the whole machine and sends an acquisition signal corresponding to the binding information to the material acquisition module, the material acquisition module acquires the materials with the material information in the binding information in the platform to the storage module and sends a check signal to the checking module, the checking module checks whether the material information of the materials in the storage module is the same as the material information in the binding information, if so, the checking module judges that the materials are matched with the binding information, marks the material information as the acquired materials in the binding information, and then sends a cyclic acquisition signal to the mobile module, if not, the checking module marks the material corresponding to the material information as a wrong material in the storage module and sends an error processing signal to the error processing module;

the error processing module is used for receiving the error processing signal and executing corresponding error processing measures; the error handling measures include: the error processing module moves the materials marked as error materials out of the storage module;

the mobile module is used for receiving the cyclic acquisition signal and executing a corresponding cyclic acquisition measure; the cyclic collection measures comprise: and the moving module moves the material transportation module to a platform corresponding to the platform information corresponding to the material information which is not marked as the collected material in the binding information.

8. The automatic feed system of claim 4, wherein:

the order receiving module is used for receiving the order information and sending the order information to the order collecting module;

the order collecting module is used for collecting order detail data and material information in the order information and sending the order detail data and the material information to the platform binding module;

the platform distribution module is used for selecting a platform, collecting platform information of the platform and sending the platform information to the information binding module;

the information binding module is used for receiving the platform information, the order detail data and the material information, binding the platform information, the order detail data and the material information to obtain binding information, storing the binding information by the information binding module, and sending an inventory detection signal corresponding to the binding information to the inventory analysis module.

9. An automatic feeding method, characterized by comprising:

acquiring order information;

selecting a platform, and binding platform information of the platform with the order information to obtain binding information;

distributing the materials corresponding to the binding information to the platform;

and collecting the materials at the station and executing corresponding circulating collection measures.

10. A computer-readable storage medium, characterized in that a computer program is stored on the computer-readable storage medium, which computer program, when being executed by a processor, carries out the steps of the automatic feeding method as claimed in claim 9.

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