JP2019182561A - Program and picking system - Google Patents

Abstract

To provide a program and a picking system capable of effectively performing picking.SOLUTION: According to the embodiment, in the program performed by a processor, the processor is caused: to acquire an order showing items to be picked; to specify first items to be picked by a robot out of items shown by the order by using a first tool; to specify first containers for storing the first items; to specify second items to be picked by the robot out of the items shown by the order by using a second tool; to specify second containers for storing the second items; and to cause a storage part for storing a plurality of containers for storing items to continuously deliver the first containers from the storage part and then continuously deliver the second containers.SELECTED DRAWING: Figure 1

Description

  Embodiments described herein relate generally to a program and a picking system.

  Some picking systems use a robot to pick a predetermined item from a tray dispensed from an automatic warehouse. In such a picking system, the robot picks an item using a tool such as an end effector.

  In order to use a tool suitable for the item, the robot changes the tool according to the item to be picked.

  Conventionally, in the picking system, there is a possibility that the picking may be delayed depending on the time for changing the tool.

Japanese Patent Application No. 2016-145115

  In order to solve the above-described problems, a program and a picking system that effectively perform picking are provided.

  According to the embodiment, the program executed by the processor causes the processor to acquire an order indicating an item to be picked, and the robot picks the first tool from the items indicated by the order using the first tool. The first container for storing the first item, and the second item picked up by the robot using the second tool from the items indicated by the order. After the second container for storing the second item is specified and the storage unit for storing a plurality of containers for storing the items is continuously discharged from the storage unit. The second container is continuously dispensed to the storage unit.

FIG. 1 is a block diagram illustrating a configuration example of a picking system according to an embodiment. FIG. 2 is a diagram illustrating a configuration example of a tool table according to the embodiment. FIG. 3 is a block diagram illustrating a configuration example of the warehouse control unit according to the embodiment. FIG. 4 is a flowchart illustrating an operation example of the warehouse control unit according to the embodiment.

Hereinafter, embodiments will be described in detail with reference to the drawings.
The picking system according to the embodiment picks a predetermined number of items from a tray using a robot. The picking system pays out a predetermined tray from the automatic warehouse. The picking system picks items from the dispensed tray using a robot. The picking system inputs the picked item into a predetermined tote.

  For example, the picking system is installed in a building of a distribution center that delivers items. The picking system picks, for example, a part, a product, or a packaging box as an item. Items picked by the picking system are not limited to a specific configuration.

  FIG. 1 is a block diagram illustrating a configuration example of a picking system 1000 according to the embodiment. As shown in FIG. 1, the picking system 1000 includes an automatic warehouse 100, a robot 200, a storage unit 300, and the like. The automatic warehouse 100 and the robot 200 are electrically connected to each other. The automatic warehouse 100 and the robot 200 are electrically connected to the storage unit 300. Here, the picking system 1000 inputs items to the tote 500 according to the order 600.

  The automatic warehouse 100 pays out bins according to the order 600. The order 600 indicates items to be taken out from the automatic warehouse 100. For example, the order 600 indicates items to be taken out and the number of items to be taken out. The automatic warehouse 100 may acquire the order 600 from an external device. Further, the automatic warehouse 100 may receive an input of the order 600 from an operator through an operation unit or the like. The automatic warehouse 100 pays out the bin storing the item indicated by the order 600.

As shown in FIG. 1, the automatic warehouse 100 includes a warehouse control unit 110 and a storage unit 120.
The warehouse control unit 110 controls the entire automatic warehouse 100. The warehouse control unit 110 acquires the order 600. The warehouse control unit 110 pays out bins from the storage unit 120 according to the order 600. The warehouse control unit 110 will be described in detail later.

  The storage unit 120 stores a plurality of bins (first container and second container). The bin is a tray (container) for storing items (first item, second item). A bin may store a plurality of items. The bin stores items that can be picked with the same tool (first tool, second tool). The tool will be described later.

The storage unit 120 stores a bin that stores an item and a tool for picking the item.
The storage unit 120 may store one bin for storing tools for each tool. The storage unit 120 may store a plurality of bins for storing tools for each tool.

The storage unit 120 stores a plurality of bins storing items in advance.
The storage unit 120 pays out bins based on the control from the warehouse control unit 110. The storage unit 120 includes a transport unit such as a conveyor or a robot that transports bins.

  In the example illustrated in FIG. 1, it is assumed that the automatic warehouse 100 has paid out the bin 400.

  Bin 400 stores tool A and two items 1 and the like.

  The item 1 is an item indicated by the order 600 (or at least one item indicated by the order 600).

  Tool A is a tool for picking item 1 by robot 200.

  Robot 200 picks an item from the dispensed bin (eg, bin 400). The robot 200 is installed at a position where items can be picked from the tray paid out by the automatic warehouse 100. The robot 200 puts the picked item into the tote 500. A tote 500 is a tray for storing picked items.

  The robot 200 picks the item 1 from the bin 400 and puts it into the tote 500.

  As shown in FIG. 1, the robot 200 includes a robot control unit 201, an arm 202, a tool B, and the like.

  The robot control unit 201 controls the operation of the entire robot 200. For example, the robot control unit 201 operates the arm 202 and the tool B based on a sensor signal or the like. The robot control unit 201 includes, for example, a processor, RAM, ROM, NVM, and the like.

  The arm 202 is a manipulator that is driven by the control of the robot control unit 201. The arm 202 includes a rod-shaped frame and a motor that drives the frame.

  Tool B is installed at the tip of arm 202. Tool B is one of a plurality of types of tools. The tool is an end effector that traps a predetermined item. The tool is driven based on control from the robot control unit 201. For example, the tool is a gripper, a multi-fingered hand or a suction device.

The storage unit 300 stores a tool table indicating tools corresponding to items.
FIG. 2 shows a configuration example of the tool table. As FIG. 2 shows, the tool table shows a tool used by the robot 200 to pick up an item for each item. The tool table may show one tool for a given item. The tool table may indicate a plurality of tools for a predetermined item.

  Here, the tool table indicates which of tools A to Z corresponds to items 1 to k. For example, the tool table indicates that tool A and tool B can be used to pick item 1.

  The picking system 1000 may include a configuration as necessary in addition to the configuration illustrated in FIG. 1, or a specific configuration may be excluded from the picking system 1000.

Next, the warehouse control unit 110 will be described.
FIG. 3 is a block diagram illustrating a configuration example of the warehouse control unit 110. As illustrated in FIG. 3, the warehouse control unit 110 includes a processor 11, a ROM 12, a RAM 13, an NVM 14, an order input unit 15, a robot interface 16, a display unit 17, and the like. The processor 11, the ROM 12, the RAM 13, the NVM 14, the order input unit 15, the robot interface 16, and the display unit 17 are connected to each other via a data bus or the like. Note that the warehouse control unit 110 may include a configuration as necessary in addition to the configuration illustrated in FIG. 3, or a specific configuration may be excluded from the warehouse control unit 110.

  The processor 11 has a function of controlling the overall operation of the warehouse control unit 110. The processor 11 may include an internal memory and various interfaces. The processor 11 implements various processes by executing a program stored in advance in the internal memory, the ROM 12 or the NVM 14.

  Note that some of various functions realized by the processor 11 executing a program may be realized by a hardware circuit. In this case, the processor 11 controls a function executed by the hardware circuit.

  The ROM 12 is a non-volatile memory that stores a control program and control data in advance. The ROM 12 is incorporated in the warehouse control unit 110 in a state where a control program, control data, and the like are stored at the manufacturing stage. That is, the control program and control data stored in the ROM 12 are incorporated according to the specifications of the warehouse control unit 110 in advance.

  The RAM 13 is a volatile memory. The RAM 13 temporarily stores data being processed by the processor 11. The RAM 13 stores various application programs based on instructions from the processor 11. The RAM 13 may store data necessary for executing the application program, an execution result of the application program, and the like.

  The NVM 14 is a nonvolatile memory capable of writing and rewriting data. The NVM 14 includes, for example, an HDD (Hard Disk Drive), an SSD (Solid State Drive), an EEPROM (registered trademark) (Electrically Erasable Programmable Read-Only Memory), or a flash memory. The NVM 14 stores a control program, applications, various data, and the like according to the operation usage of the warehouse control unit 110.

  The order input unit 15 is an interface that receives an input of the order 600. For example, the order input unit 15 is a communication unit that transmits / receives data to / from an external device that transmits the order 600. The order input unit 15 is an operation unit that receives an input of the order 600 from the operator. Note that the order input unit 15 may include a communication unit and an operation unit.

  The robot interface 16 is an interface for transmitting and receiving data to and from the robot control unit 201 of the robot 200. The robot interface 16 transmits a signal from the processor 11 to the robot control unit 201. For example, the robot interface 16 is an interface that supports USB (Universal Serial Bus) connection.

  The display unit 17 displays various information under the control of the processor 11. For example, the display unit 17 includes a liquid crystal monitor.

  Next, functions realized by the processor 11 of the warehouse control unit 110 will be described. The processor 11 implements the following functions by executing a program stored in the ROM 12 or the NVM 14.

First, the processor 11 has a function of acquiring the order 600 through the order input unit 15.
For example, the processor 11 acquires the order 600 from an external device through the order input unit 15. Further, the processor 11 may receive an input of the order 600 from the operator through the order input unit 15.

  Further, the processor 11 has a function of specifying a tool corresponding to each item indicated by the order 600.

  The processor 11 acquires a tool table from the storage unit 300. When the tool table is acquired, the processor 11 specifies a tool for picking the item for each item indicated by the order 600 based on the tool table.

  Note that the processor 11 may associate any tool with an item regarding items corresponding to a plurality of tools. For example, in the example illustrated in FIG. 2, the processor 11 may specify the tool A as the tool corresponding to the item 1 or the tool B.

Further, the processor 11 has a function of specifying a bin in which each item indicated by the order 600 is stored.
For example, the NVM 14 stores in advance a database indicating items stored in each bin. The processor 11 refers to the database and specifies a bin in which each item indicated by the order 600 is stored.

Further, the processor 11 has a function of grouping bins storing items indicated by the order 600 for each tool corresponding to the items.
That is, the processor 11 groups bins according to the tool corresponding to the item stored in the bin.
For example, processor 11 generates a group of bins (group A) that stores items that can be picked with tool A. For example, in the example shown in FIG. 2, the group A is composed of bins that store items 1, 2, or 4.
Similarly, the processor 11 generates a group of bins for each tool.

Further, the processor 11 has a function of specifying one bin for storing a tool from each group in each group.
For example, the NVM 14 stores in advance a database indicating bins that store tools. The processor 11 refers to the database and specifies a bin for storing the tool.

  For example, the processor 11 specifies one bin that stores the tool A among the bins belonging to the group A. Similarly, the processor 11 specifies one bin that stores the tool B among the bins belonging to the group B.

  In addition, when there is no bin for storing the tool in the group, the processor 11 may specify the bin for storing the tool from the bins for storing other items.

In addition, the processor 11 has a function of setting a payout order for each bin of each group so that bins belonging to the group are continuous with the bin storing the tool at the top.
That is, the processor 11 sets the order in the bin in order for each group.

  For example, the processor 11 sets the order of bins of group A, bins of group B, and so on. That is, the processor 11 sets the order for each bin in the order of bins belonging to group A and storing tool A, bins belonging to group A, bins belonging to group B and storing tool B, bins belonging to group B, and so on. .

  If there is no bin for storing the tool in the group, the processor 11 sets the order so that the bin storing the tool is paid out in advance and the group of the tool is subsequently paid out.

  Further, the processor 11 may determine the order of the groups and the order of the bins in the group in consideration of the payout efficiency of the storage unit 120. For example, the processor 11 sets the order so that the time required for payout is reduced based on the order of bins in the storage unit 120.

Further, the processor 11 has a function of paying out bins from the storage unit 120 according to the order set for the bins.
For example, the processor 11 controls the conveyance unit and the like included in the storage unit 120 to cause the storage unit 120 to pay out bins in which the youngest order is set among bins that have not yet been paid out.

  Further, the processor 11 has a function of causing the robot 200 to attach a tool stored in a bin when the tool needs to be replaced.

  If the processor 11 cannot pick the item with the tool attached to the arm 202, the processor 11 determines that the tool needs to be replaced. For example, when the processor 11 causes the storage unit 120 to pay out a bin for storing the tool, the processor 11 transmits a signal instructing to attach the tool stored in the bin to the robot control unit 201 through the robot interface 16.

  Further, the processor 11 has a function of causing the robot 200 to pick an item indicated by the order 600 from the dispensed bin.

  The processor 11 transmits to the robot control unit 201 a signal for acquiring the item indicated by the order 600 from the bin through the robot interface 16. For example, the processor 11 transmits a signal indicating the item to be picked and the number to be picked to the robot control unit 201.

  In addition, when the picking of the robot 200 is completed, the processor 11 collects the bin in the storage unit 120.

  Further, the processor 11 has a function of collecting the tool when the picking from the last bin of the group is completed.

  For example, the processor 11 causes the robot 200 to input a tool into the bin before collecting the bin. That is, the processor 11 transmits a signal instructing the robot 200 to insert a tool into the bin.

  Further, the processor 11 may cause the storage unit 120 to discharge the bin from which the tool has been taken out, and cause the robot 200 to insert the tool into the bin.

Next, functions realized by the robot control unit 201 will be described.
Further, the robot control unit 201 attaches or removes the tool according to the control from the warehouse control unit 110.

  For example, the robot control unit 201 removes the tool B by controlling the arm 202 and the like according to the control from the warehouse control unit 110. In addition, the robot control unit 201 inputs the tool B into a predetermined bin in accordance with control from the warehouse control unit 110. The robot control unit 201 controls the arm 202 and the like, and attaches the tool stored in the bin to the tip of the arm 202.

  In the example illustrated in FIG. 1, the robot control unit 201 controls the arm 202 to attach the tool A stored in the bin 400 to the tip of the arm 202.

  In addition, the robot control unit 201 inputs items from the dispensed bins to the tote 500 according to the control from the warehouse control unit 110. That is, the robot control unit 201 controls the arm 202 and the tool, picks an item from the paid-out bin, and inputs it to the tote 500. In the example shown in FIG. 1, the robot control unit 201 controls the arm 202 and the tool A to pick the item 1 from the bin 400 and put it into the tote 500.

Next, an operation example of the processor 11 will be described.
FIG. 4 is a flowchart for explaining an operation example of the processor 11.

  First, the processor 11 acquires the order 600 through the order input unit 15 (S11). Upon obtaining the order 600, the processor 11 specifies a tool corresponding to each item indicated by the order 600 (S12).

  When the tool corresponding to each item indicated by the order 600 is specified, the processor 11 specifies a bin storing each item (S13). When the bin for storing each item is specified, the processor 11 groups bins for each tool (S14). When bins are grouped, the processor 11 specifies bins for storing tools in each group (S15).

  When the bin storing the tool is specified, the processor 11 sets the order of paying out to the bin (S16). When the order of paying out to the bin is set, the processor 11 causes the storage unit 120 to pay out the bin according to the set order (S17).

  When the bin 120 is paid out to the storage unit 120, the processor 11 determines whether the tool needs to be replaced (S18). If it is determined that the tool needs to be replaced (S18, YES), the processor 11 causes the robot 200 to attach the tool (S19).

  When it is determined that the tool needs not be replaced (S18, NO), or when the tool is attached to the robot 200 (S19), the processor 11 causes the robot 200 to pick an item from the bin (S20).

  When the robot 200 is caused to pick an item from the bin, the processor 11 determines whether or not the bin dispensed in S17 is the last bin in the group (S21). If it is determined that the bin that has been paid out in S17 is the last bin of the group (S21, YES), the processor 11 causes the robot 200 to input a tool into the bin (S22).

  When it is determined that the bin that has been paid out in S17 is not the last bin in the group (S21, NO), or when the robot 200 has been loaded with a tool (S22), the processor 11 Is collected in the storage unit 120 (S23).

  When the bins that have been paid out are collected in the storage unit 120, the processor 11 determines whether or not the bins have been paid out (S24). If it is determined that the bin payout has not been completed (S24, NO), the processor 11 returns the operation to S17.

  When it is determined that the bin has been dispensed (S24, YES), the processor 11 ends the operation.

  If there is no bin for storing the tool in the group, the processor 11 may cause the robot 200 to attach the tool from the bin for storing the tool and not perform picking from the bin.

  Further, the processor 11 may set the order from the bin that stores items that can be picked with the tool A provided in advance in the robot 200. In this case, the processor 11 does not need to have the bin storing the tool at the top. In this case, the processor 11 does not have to let out the bin storing the tool in the storage unit 120.

In addition, the robot 200 may not include a tool in the initial state.
Further, the robot 200 may not acquire a tool from the bin. For example, the picking system 1000 includes a tool storage unit that stores a plurality of types of tools around the robot 200. The robot control unit 201 takes out and attaches the tool from the tool storage unit based on the control from the processor 11. Further, the robot control unit 201 stores the removed tool in the tool storage unit. Further, the robot control unit 201 may identify a tool corresponding to an item to be picked with reference to the tool table and attach it to the tip of the arm 202.

Further, when the robot control unit 201 detects that a tool is stored in the bin, the robot control unit 201 may attach the tool.
The tool may be attached and detached by an operator.

  Further, the robot control unit 201 may realize functions (or some functions) realized by the processor 11.

  The picking system configured as described above continuously pays out bins that store items that can be picked with a predetermined tool. The picking system attaches the tool to the tip of a robot arm and picks an item from a bin to be dispensed. As a result, the picking system can pick items continuously using the same tool. Therefore, the picking system can reduce the frequency of exchanging tools, and can quickly complete the picking process.

  Also, the picking system pays out bins for storing tools from the automatic warehouse. The picking system picks an item by attaching a tool stored in a bin to the tip of a robot arm. As a result, the picking system can pick an item using an appropriate tool without arranging a plurality of types of arms around the robot.

  Although several embodiments of the present invention have been described, these embodiments are presented by way of example and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

  DESCRIPTION OF SYMBOLS 1 and 2 ... Item, 11 ... Processor, 14 ... NVM, 15 ... Order input part, 16 ... Robot interface, 100 ... Automatic warehouse, 110 ... Warehouse control part, 120 ... Storage part, 200 ... Robot, 201 ... Robot control part , 202 ... arm, 300 ... storage unit, 400 ... bin, 500 ... tote, 600 ... order, 1000 ... picking system.

Claims (6)

A program executed by a processor,
In the processor,
Get an order that shows the item to pick,
The first item to be picked by the robot using the first tool is specified from the items indicated by the order,
Identifying a first container for storing the first item;
From the items indicated by the order, the robot uses the second tool to specify the second item picked by the robot,
Identifying a second container for storing the second item;
After the first container is continuously discharged from the storage section to a storage section that stores a plurality of containers for storing items, the second container is continuously discharged to the storage section. Let
program. Based on a tool table that stores the item and a tool for picking the item in association with each other, the processor identifies the first item,
Based on the tool table, the second item is specified.
The program according to claim 1. Causing the processor to identify the first container for storing the first tool from the first container;
From the storage unit, the first container for storing the first tool is continuously discharged from the first container,
Identifying the second container storing the second tool from the second container;
From the storage unit, the second container for storing the second tool is continuously discharged with the second container at the top.
The program according to claim 1 or 2. In the processor,
From the storage unit, the container for storing the first tool is dispensed in advance of the first container,
From the storage unit, the container for storing the second tool is discharged before the second container.
The program according to claim 1 or 2. In the processor,
Causing the robot to transmit a signal instructing to put the first tool into the first container;
Let the storage part collect the first container in which the first tool is charged;
Causing the robot to transmit a signal instructing to put the second tool into the second container;
Causing the storage unit to collect the second container in which the second tool is charged;
The program according to claim 3. A picking system composed of an automatic warehouse and a robot,
The automatic warehouse is
A storage section for storing a plurality of containers for storing items;
Get an order that shows the item to pick,
The first item that the robot picks using the first tool is identified from among the items indicated by the order,
Identifying a first container for storing the first item;
From the items indicated by the order, a second item to be picked by the robot is identified using a second tool,
Identifying a second container for storing the second item;
Causing the storage unit to continuously discharge the second container from the storage unit after the first container is continuously discharged from the storage unit;
A processor;
With
The robot is
An arm for attaching the first tool or the second tool;
Picking the first item from the first container using the first tool and the arm;
Picking the second item from the second container using the second tool and the arm;
A control unit;
Comprising
Picking system.