WO2022208634A1

WO2022208634A1 - Conveyance system and method

Info

Publication number: WO2022208634A1
Application number: PCT/JP2021/013411
Authority: WO
Inventors: 拓磨本谷; 暁治池田; 篤志杉藤
Original assignee: 株式会社日立製作所
Priority date: 2021-03-29
Filing date: 2021-03-29
Publication date: 2022-10-06
Also published as: JPWO2022208634A1; JP7454746B2

Abstract

This conveyance system comprises: a conveyance device that conveys a to-be-conveyed object disposed in a first area; an inter-area conveyor that conveys a first to-be-conveyed object in the first area from a second area positioned at a different height from the first area; and a control device that preferentially assigns, to the conveyance device, a second conveyance task for using the inter-area conveyor to convey the first to-be-conveyed object to the first area, in comparison to a first conveyance task for conveying a second to-be-conveyed object disposed in the first area.

Description

Conveying system and method

The present invention generally relates to a technique of transporting an object by running a transport device.

As background art in this technical field, there is a technology related to an AGV (Automatic Guided Vehicle) that transports a shelf to a destination, such as the technology disclosed in Patent Document 1.

WO2015/097736

　In order to improve the storage efficiency of the transported goods (or for other purposes), there are cases where multiple transported goods are arranged in multiple areas located at different heights. The “plurality of areas” may be multiple floors or multiple stages of areas provided in one space (for example, one floor).

In such a plurality of areas, typically, the area where the picking station for the goods to be transported is the main area (an example of the first area) in which the transport device travels, and the areas other than the main area are sub-areas. area. In order to transport an object in the sub-area to the picking station, a vertical transporter (an example of an inter-area transporter) transports the object to be transported from the sub-area to the main area.

Here, if the transport by the vertical transport machine is delayed, there is a risk that transported objects will be in a standby state in the sub-area, resulting in a decrease in transport efficiency of the transport system as a whole.

Therefore, an object of the present invention is to suppress a reduction in the efficiency of conveying a plurality of objects arranged in a plurality of areas located at different heights.

A transport system comprises a transport device that transports an object placed in a first area, and transports the first object from a second area located at a height different from that of the first area to the first area. and a first transport task that transports a second transported object arranged in the first area. and a control device that preferentially assigns the second transport task to the transport device.

According to the present invention, it is possible to suppress a reduction in the efficiency of conveying a plurality of objects arranged in a plurality of areas located at different heights. Problems, configurations, and effects other than those described above will be clarified by the following description of the mode for carrying out the invention.

1 is a diagram showing a schematic configuration of a transport system according to a first embodiment; FIG. FIG. 4 is an explanatory diagram of the configuration of a first stage area; FIG. 11 is an explanatory diagram of the configuration of a second stage area; It is a perspective view which shows the external appearance structure of a conveying apparatus. It is a top view which shows the bottom surface structure of a conveying apparatus. It is a figure where it uses for description of conveyance of the shelf in a 1st stage area. FIG. 10 is a diagram for explaining how a shelf is transported from a second stage area to a first stage area; FIG. 4 is a diagram showing a part of a specific configuration example of elements in the transport system; FIG. 11 shows the rest of the illustrative configuration of the elements in the transport system; It is a figure which shows the structural example of an order table. It is a figure which shows the structural example of an inventory table. It is a figure which shows the structural example of a shelf table. It is a figure which shows the structural example of an apparatus conveyance table. It is a figure which shows the structural example of a shelf conveyance table. It is a figure which shows the structural example of a vertical conveyance table. It is a figure which shows the structural example of a picking table. 4 is a flowchart showing the flow of transport control processing; It is a flowchart which shows the flow of a traffic congestion determination process. 4 is a flowchart showing the flow of priority control processing; It is a figure which shows the outline|summary of 2nd Embodiment. It is a figure which shows a part of flow of a priority control process in 3rd Embodiment. It is a figure which shows the outline|summary of 4th Embodiment.

In the following description, an "interface device" may be one or more interface devices. The one or more interface devices may be at least one of the following:
- One or more I/O (Input/Output) interface devices. An I/O (Input/Output) interface device is an interface device for at least one of an I/O device and a remote display computer. The I/O interface device to the display computer may be a communications interface device. The at least one I/O device may be any of a user interface device, eg, an input device such as a keyboard and pointing device, and an output device such as a display device.
- One or more communication interface devices. The one or more communication interface devices may be one or more of the same type of communication interface device (e.g., one or more NICs (Network Interface Cards)) or two or more different types of communication interface devices (e.g., NIC and It may be an HBA (Host Bus Adapter).

Also, in the following description, "memory" is one or more memory devices, which are examples of one or more storage devices, and may typically be main memory devices. At least one memory device in the memory may be a volatile memory device or a non-volatile memory device.

Also, in the following description, a "persistent storage device" may be one or more persistent storage devices, which is an example of one or more storage devices. A persistent storage device may typically be a non-volatile storage device (e.g., auxiliary storage device), specifically, for example, HDD (Hard Disk Drive), SSD (Solid State Drive), NVME (Non-Volatile Memory Express) drive or SCM (Storage Class Memory).

Also, in the following description, the "storage device" may be at least the memory of the memory and the permanent storage device.

Also, in the following description, a "processor" may be one or more processor devices. The at least one processor device may typically be a microprocessor device such as a CPU (Central Processing Unit), but may be another type of processor device such as a GPU (Graphics Processing Unit). At least one processor device may be single-core or multi-core. At least one processor device may be a processor core. At least one processor device is a circuit (for example, FPGA (Field-Programmable Gate Array), CPLD (Complex Programmable Logic Device) or ASIC (Application Specific Integrated
Circuit)) in a broad sense may be used.

In the following description, the expression "xxx table" may be used to describe information that provides an output for an input. It may be structured data or unstructured data), or it may be a learning model represented by a neural network, genetic algorithm, or random forest that generates an output in response to an input. Therefore, the "xxx table" can be called "xxx information". Also, in the following description, the configuration of each table is an example, and one table may be divided into two or more tables, or all or part of two or more tables may be one table. may

Further, in the following description, the processing may be described with the subject of "program", but the program is executed by the processor to perform the predetermined processing as appropriate using the storage device and / or the interface device. The subject of processing may be a processor (or a device or system having the processor). A program may be installed on a device, such as a computer, from a program source. The program source may be, for example, a program distribution server or a computer-readable recording medium (eg, non-temporary recording medium). Also, in the following description, two or more programs may be implemented as one program, and one program may be implemented as two or more programs.

Any information (for example, at least one of "ID", "name", and "number") may be adopted as the information for identifying the element.

Further, in the following description, common reference numerals are used when similar elements are described without distinguishing between them, and reference symbols are used when similar elements are described separately. be.

Also, in the following description, the unit of "date and time" may be a coarser unit or a finer unit than year, month, day, hour, minute.
[First embodiment]

FIG. 1 is a diagram showing a schematic configuration of a transport system according to the first embodiment.

The transportation system includes a plurality of (or one) transportation devices 3 that travel within the warehouse 2 and a control device 4 that remotely controls the movement of each transportation device 3 . In the present embodiment, “moving” of the conveying device 3 represents general movement of the conveying device 3 regardless of the presence or absence of the shelf 5 . “Movement” of the conveying device 3 may be rephrased as “running” of the conveying device 3 . "Movement" in the state in which the transport device 3 has the shelf 5 is particularly called "transportation". Shelf 5 is an example of an object that can be transported by transport device 3 . Instead of or in addition to the shelf 5, objects such as trays, pallets or containers may be examples of conveyed objects.

The warehouse 2 is, for example, a warehouse used by a company such as an online shopping company to store goods. The articles stored in the warehouse 2 may be commodities or parts. In this embodiment, an example of a product will be described as an example of an article stored in the warehouse 2. FIG. The warehouse 2 is provided with a multistage area 122 and a vertical conveyor 202 .

The multistage area 122 is an example of multiple areas located at different heights. The multistage area 122 has a first stage area 200A and a second stage area 200B. A plurality of shelves 5 are installed in a movable state in a plurality of areas 200</b>A and 200</b>B that constitute the multistage area 122 . It should be noted that the same type of article need not be arranged in all areas 200 . For example, the shelf 5 may be arranged in the first stage area 200A and the pallet may be arranged in the second stage area 200B. Each shelf 5 stores one or a plurality of articles (for example, each article to be sold) at a predetermined position. The shelf 5 is sometimes called a mobile shelf.

The first stage area 200A is an example of a first area, and an example of a main area in which the conveying device 3 travels. The shelf 5 can be transported to the picking station 6 by the transport device 3 running in the first stage area 200A. The first stage area 200A is an area as the entire floor surface of the warehouse 2 or a part thereof.

The second area 200B is an example of an area other than the first area, and an example of a sub-area in which shelves are arranged. In the second stage area 200B, there is a conveyor 203 as an example of a transport machine that transports the shelf 5 arranged in the second stage area 200B to the vertical transport machine 202 .

The vertical carrier 202 is an example of an inter-area carrier. The vertical carrier 202 is a carrier that moves up and down in the vertical direction. Specifically, the vertical conveying machine 202 descends to convey the shelf 5 from the second area 200B to the first area 200A (or to convey the shelf 5 from the first area 200A to the second area 200A). in the first stage area 200A). In addition, the vertical conveying machine 202 conveys the shelf 5 from the first stage area 200A to the second stage area 200B by going up (or two stages of the shelf conveyed from the second stage area 200B to the first stage area 200B). Wait in eye area 200B). Vertical transport 202 may be, for example, an elevator or a car in an elevator. Also, the vertical transfer machine 202 can be replaced by another inter-area transfer machine such as a forklift capable of transporting the shelf 5 in the vertical direction.

When each transport device 3 receives a movement instruction associated with a transport task assigned to the transport device 3, each transport device 3 transports the shelf 5 existing in the first stage area 200A according to the movement instruction. According to the example shown in FIG. 1, it is as follows.
- The conveying device 3A that has finished conveying the shelf 5A to the picking station 6 is waiting for the completion of picking the products on the shelf 5A.
The transport device 3B that transports the shelf 5B to the picking station 6 is waiting for the transport device 3A to move. When the transport device 3 moves, the transport device 3B can transport the shelf 5B to the picking station 6. FIG.
- The transport device 3C is moving to transport the shelf 5C transported to the first stage area 200A by the vertical transport machine 202 .
- The transport device 3D is moving in order to transport the shelf 5D whose arrangement position is the first stage area 200A.

FIG. 2A is an explanatory diagram of the configuration of the first stage area 200A. FIG. 2B is an explanatory diagram of the configuration of the second stage area 200B. According to the example shown in FIGS. 1, 2A, and 2B, the first-stage area 200A and the second-stage area 200B overlap in plan view, but they do not necessarily have to overlap. Also, FIGS. 2A and 2B schematically illustrate

areas

200A and 200B, and the

areas

200A and 200B illustrated in FIGS. 2A and 2B are completely different from the

areas

200A and 200B illustrated in FIG. do not match.

The first-stage area 200A is divided into a plurality of rectangular divisions (areas) 201 of a predetermined size and managed. A marker (not shown) indicating the position of the section 201 may be written in each section 201 . The marker may contain information for specifying the position of the section, for example, the position information of the section, or information associated with the position information of the section (for example, identification information of section 2A, etc.). ). The marker is information that can be read by the sensor 14 of the transport device 3, and may be information such as a one-dimensional code, a two-dimensional code such as a QR code (registered trademark), or an RFID (radio frequency identifier) tag. In this embodiment, a QR code (registered trademark) will be described as an example of the marker. For example, the transport device 3 reads the markers in each section as it passes through that section. Each conveying device 3 transmits the identification information of the conveying device 3 and the information of the read marker to the control device 4 . The control device 4 identifies the position of each transport device 3 based on the identification information of the transport device 3 and the marker information received from each transport device 3 . The position of each partition 201 may be identified from coordinates as a combination of column number and row number, for example. For example, the coordinates of two sections 201A are (6, 13) and (13, 13), and the coordinates of the position of one section 201D are (1, 1).

The first stage area 200A includes a section 201A in which the vertical transfer machine 202 exists in a plan view, a section 201B in which the shelf 5 conveyed by the vertical transfer machine 202 is temporarily arranged, a section 201C in which the shelf 5 is arranged, a battery It has a section 201D where the station exists and a section 201E where the picking station 6 exists. According to the example shown in FIG. 2A, each of the sections 201A-201E is marked with the same pattern for each section 201. FIG. That is, according to the example shown in FIG. 2A, there are 2

partitions

201A, 2

partitions

201B, 90

partitions

201C, 1

partition

201D, and 2 partitions 201E. Hereinafter, the section 201B in which the shelf 5 is temporarily arranged may be referred to as a "buffer section 201B". In this embodiment, each vertical transporter 202 has one buffer section 201B, but at least one vertical transporter 202 may have two or more buffer sections 201B. In other words, for each vertical conveyor 202, the number of buffer sections 201B (the number of shelves 5 that can be buffered (temporarily arranged) in the first stage area 200A) may be a predetermined number M (M is a natural number). The shelf 5 may be, for example, approximately the same size as one compartment 201, or may be smaller than one compartment 2A. Note that there may be various modifications of how to set the partitions.

The second-stage area 200B is divided into a plurality of rectangular sections 251 of a predetermined size and managed. The position of each section 251 may be identified from coordinates as a combination of column number and row number, for example.

In the second stage area 200B, a section 251A in which the vertical conveying machine 202 exists in plan view, a section 251B as an element of the range occupied by the conveyor path (the conveying path of the shelf 5 by the conveyor 203), and the shelf 5 are arranged. It has a section 251C. According to the example shown in FIG. 2B, each of the sections 251A-251C has the same pattern for each section 251. As shown in FIG. That is, according to the example shown in FIG. 2B, there are 2

partitions

251A, 24 partitions 251B, and 124 partitions 251C. According to the example shown in FIG. 2B, the shelves 5 in the left and right sections 251C of three columns on each side of the conveyor path (12 sections 251B serially connected along the column direction) are conveyed to the conveyor path, It is conveyed to the section 251A along the direction, and is conveyed by the vertical conveying machine 202 from the second stage area 200B to the first stage area 200A. Transportation from compartment 251C to compartment 251B (a compartment on a conveyor path) may be performed by a predetermined device (eg, a conveyor or a robot with an arm). For example, as shown in FIG. 2B, there are multiple blocks 292 in section 251C, but in each block 292 some sections are empty. As a result, by appropriately moving the shelf 5 to an empty section for each block 292 one or more times, the shelf 5 in any section 251C in the block 292 can be conveyed to the conveyor path. Further, for transporting the shelf 5 in the second stage area 200B, instead of the conveyor 203, a transport device that stacks and transports the shelf may be used. In this case, the shelf 5 is arranged on a pedestal in the compartment 251C so that the transport device can slip under the shelf 5 .

Refer to Figure 1 again. The transport device 3 is a device that moves according to a movement instruction from the control device 4, and typically may be an AGV (Automatic Guided Vehicle). The object to be transported is, for example, the shelf 5 or a pallet. If the object to be transported is an object (for example, the shelf 5 or a pallet) on which one or more articles can be loaded, the object to be transported may be called a storage unit (storage device) or a loading platform. In this embodiment, the case of the shelf 5 will be described as an example of an object to be transported by the transport device 3 . An object to be conveyed is sometimes called an article to be conveyed. For example, in accordance with the movement instruction from the control device 4, the transport device 3 lifts the shelf 5 specified in the movement instruction, and picks the shelf 5 specified in the movement instruction (or closest to the current position of the transport device 3). The shelf 5 is transported to station 6. The shelves 5 conveyed to the picking station 6 are returned to the original section (or another section) by the conveying device 3 after the necessary commodities are taken out by the worker at the picking station 6 (that is, after picking). . The transport route to the picking station 6 and the movement route from the picking station 6 to the original arrangement section (or another arrangement section) of the shelf 5 may be specified in one movement instruction, or may be specified in separate movement instructions. May be specified. As an example of this other location, a shelf that stores products that are frequently picked and that is frequently transported to the picking station 6 may be a shelf arrangement section near the picking station 6 or a shelf arrangement section near the picking station 6. It may be installed in the first stage area 200A, which is the area where it is arranged. Shelves that are not frequently transported to the picking station 6 are installed in a shelf arrangement section far from the picking station 6 or in an area other than the area where the picking station 6 is arranged (for example, the second area 200B). may In this way, by changing the installation location of the shelf according to the frequency of transportation to the picking station 6, transportation efficiency can be improved.

As shown in FIG. 3A, the conveying device 3 is formed in a rectangular parallelepiped shape as a whole. As shown in FIG. 3B, drive wheels 20 are provided on the lower surface (bottom surface) of the conveying device 3 so that the conveying device 3 can turn and move forward. A ring 21 is provided. A columnar elevating body 22 is provided at the center of the upper surface of the conveying device 3 so as to be vertically and rotatably movable.

Then, as shown in FIG. 4, the conveying device 3 rotates the drive wheels 20 to move to the lower side of the shelf 5 to be conveyed, and then raises the elevating body 22 to lift the shelf 5. The shelf 5 is conveyed by running in the warehouse 2 in the state. At this time, the conveying device 3 can also change the direction of the lifted shelf 5 by rotating the lifting body 22 . By rotating (swinging) the body other than the lifting/rotating body 22 with respect to the lifting/rotating body 22, the conveying device 3 can be rotated (turned) without rotating the lifted shelf 5. is. Note that the shelf 5 arranged in the first stage area 200 may have legs for allowing the conveying device 3 to enter under the body of the shelf 5 . In addition, since a space is provided below the shelf 5 in the buffer section 201B so that the transport device 3 can enter, the shelf 5 arranged in the second stage area 200B may have no legs. In other words, the configuration of the shelf 5 may differ depending on whether the shelf 5 is arranged in the first stage area 200A or the second stage area 200B. Specifically, for example, the transport of the shelf 5 from the second stage area 200B to the first stage area 200A is as shown in FIG. That is, the shelf 5 waiting in the section just before the vertical conveyor 202 (section 251A) enters the vertical conveyor 202, and the vertical conveyor 202 containing the shelf 5 moves from the second stage area 200B to the first stage area 200A. The shelf 5 moves from the vertical transfer machine 202 (section 201A) that descends and reaches the first stage area 200A to the buffer section 201B. The shelf 5 temporarily placed in the buffer section 201 B is transported by the transport device 3 .

The conveying device 3 is equipped with an automatic charging function, and when the remaining amount of the mounted battery (not shown) falls below a predetermined value, the conveying device 3 moves to the battery station and automatically charges the battery. It has become.

The control device 4 is wirelessly connected to each transport device 3 in the warehouse 2 via a wireless communication line such as Wi-Fi (registered trademark). In response to an order from a customer, the control device 4 identifies the shelf 5 storing the ordered product, and instructs the transport device 3 to move the shelf 5 to the picking station 6 (hereinafter referred to as Such a transport instruction is called a movement instruction). When the specified shelf 5 is the shelf 5 arranged in the second stage area 200B, the control device 4 causes the conveyor 203 to transport the shelf 5 to the vertical conveyor 202, or causes the vertical conveyor 202 to transport the shelf 5 to the vertical conveyor 202. 5 is transported from the second stage area 200B to the first stage area 200A to place the shelf 5 in the buffer section 201B, or a movement instruction to transport the shelf 5 to the picking station 6 is transmitted to the transport device 3. or

The "movement instruction" transmitted to the transport device 3 is associated with information representing the transport task assigned to the transport device 3. The transport task is a task according to which shelf 5 is to be transported to which compartment, and the information representing the transport task is, for example, the shelf ID of the shelf 5 to be transported and the path along which the transport device 3 moves. and a travel route. The movement route may include a route from the current section (the section to which the current position belongs) of the transport device 3 to the shelf section (the section where the shelf 5 to be transported exists) and a route from the shelf section to the picking station 6. . Also, after the worker picks up the product from the shelf 5 at the picking station 6, the control device 4 gives a "movement instruction" to the transfer device 3 to the specified position in order to return the shelf to the specified position. This movement path may further include the path from the picking station 6 to the designated location. A section adjacent to the picking station 6 and at least a section of the battery station 7 adjacent to the picking station 6 may be an example of a target section (a section to which the target position belongs).

6 and 7 are diagrams showing specific configuration examples of elements of the transport system according to the present embodiment.

Each of the transport device 3, the control device 4, the vertical transport machine 202, the conveyor 203, and the picking terminal 710 can communicate via the network 551. A plurality of each of the vertical transfer machines 202, the conveyors 203, and the picking terminals 710 may exist.

The transport device 3 includes a drive device 11, a storage device 12, an interface device 13, multiple types of sensors 14, and a controller 10 connected thereto.

The controller 10 is a controller that controls the operation of the conveying device 3 according to a movement instruction from the control device 4, the state of charge of the built-in battery, and the like. The driving device 11 includes a drive wheel 20, an auxiliary wheel 21, and an elevating body 22, an actuator (not shown) such as a motor for rotationally driving the driving wheel 20, and a motor for elevating and rotating the elevating body 22. and actuators (not shown).

The interface device 13 is a device for communicating with the control device 4 by a predetermined wireless communication method, and may be composed of, for example, a Wi-Fi (registered trademark) wireless LAN (Local Area Network) card.

The sensor 14 is a device for collecting information on the floor on which the conveying device 3 travels and various information related to the conveying device 3 . For example, the multiple types of sensors 14 can read, for example, information from markers on the floor section 201 . The conveying device 3 includes, as the sensor 14, a camera for capturing an image of the state of the section 201, a vibration sensor for detecting vibration received by the conveying device 3 during movement, a speed sensor for measuring the speed of the conveying device 3, Sensors such as an acceleration sensor that measures the acceleration of the transport device 3, a weight sensor that measures the weight of the load, and a gyro sensor that measures the direction of the transport device 3 may be provided.

The storage device 12 stores, for example, a route table 23, a device table 24, a map table 25, a measurement table 27, and a performance table 28. The controller 10 stores a communication program 29 , a movement control program 30 , a measurement program 31 and a position estimation program 32 . By executing the communication program 29, the movement control program 30, the measurement program 31, and the position estimation program 32 by the controller 10, a communication section, a travel control section, a measurement section, and a position estimation section are realized.

The route table 23 is a table that stores information representing the movement route specified by the above-described movement instruction received from the control device 4 (the information representing the movement route includes the arrangement of the storage positions of the partitions and the movement route. date and time located in that compartment for each compartment it belongs to). The device table 24 is a table that stores the ID of the transport device 3, the storage position of the current section, and the status (for example, "waiting", "moving", or "transporting"). The map table 25 is a table that stores information representing the storage location and attributes (for example, which area it belongs to) for each section. The measurement table 27 stores values measured by multiple types of sensors 14 (for example, speed, acceleration, turning, weight, storage position (value read from a two-dimensional barcode), captured image of a section, etc.). is a table. The track record table 28 is a table that stores information representing the track record of movement, including the route and date and time of movement of the conveying device 3 .

The communication program 29 is a program having a function of exchanging commands and information with the control device 4 via the interface device 13. For example, the communication program 29 transmits at least part of the information of the tables 23 to 25, 27 and 28 to the control device 4 in response to a request from the control device 4 (or without a request). The communication program of each transport device 3 may transmit each of these pieces of information to the control device 4 at regular or irregular timings.

The movement control program 30 is a program that controls the movement of the carrier device 3 according to movement instructions received from the control device 4 through the communication program 29 . For example, the movement control program 30, according to movement instructions from the control device 4, controls the drive device 11 to lift the designated shelf 5 and move it to the picking station 6 along the designated movement route, or The drive device 11 is controlled so as to return the shelf 5 to its original position (or another position) through the moving path.

The measurement program 31 registers the output (measurement result) of each sensor 14 in the measurement table 27. The position estimation program 32 estimates the position of the transport device 3 based on the markers detected through the sensor 14 of the transport device 3 (markers attached to each section 201 of the first stage area 200A).

The control device 4 may be one or more physical computers having hardware such as a processor 40, a memory 41, a storage device 42, an input device 43, an output device 44 and an interface device 45, or may be one or more physical computers (for example, A system (for example, a cloud computing system) implemented on a cloud platform) may also be used. Further, each device included in the control device 4 may be arranged in one physical computer, or may be arranged in a plurality of physical computers so as to be distributed. Each program and each information that the storage device 42 has may be stored in one storage device, or may be divided and stored in a plurality of storage devices so as to be distributed. Instead of the input device 43 and the output device 44, information may be input/output via a client system capable of communicating through the interface device 45. FIG.

The processor 40 is a device that controls the operation of the control device 4 as a whole. A memory 41 is used as a work memory for the processor 40 . The storage device 42 stores programs and tables. The input device 43 is composed of, for example, a mouse and a keyboard, and is used by the operator to input necessary information and instructions to the control device 4 . The output device 44 may be a display device such as a liquid crystal display or an organic EL (Electro Luminescence) display. The interface device 45 is a device for communicating with the transport device 3, the vertical transport machine 202, the conveyor 203, and the picking terminal 710 by a predetermined wireless communication system, and may be composed of, for example, a Wi-Fi card.

The storage device 42 stores, for example, a device transfer table 53, an inventory table 54, a shelf table 57, a map table 56, a vertical transfer table 61, an order table 55, a picking table 58, a shelf transfer table 59, and OTHERS 60. Tables 53-55, 57-59 and 61 will be described later. The map table 56 contains information representing the maps of the first area 200A and the second area 200B (for example, storage positions (coordinates) and attributes (for example, shelf 5, picking station 6, battery station, vertical conveying machine 202, or buffer) is stored (this table 56 is distributed to each conveying device 3 and is a map table in each conveying device 3). 25). The OTHERS 60 may include, for example, at least one of a measurement table that stores measured values from each transport device 3 and a track record table that stores information representing movement track records from each transport device 3 . The device transport table 53, the shelf transport table 59, and the vertical transport table 61 may be examples of transport management information. Specifically, for example, the device transport table 53 and a part of the shelf transport table 59 (information related to the shelf in the first stage area) may be an example of information related to transport by one or a plurality of transport devices. A part of the shelf transfer table 59 (information about the shelf in the second stage area) and the vertical transfer table 61 may be an example of information about transfer by the inter-area transfer machine.

A storage program 50 and a processing program 51 are stored in the storage device 42 . A storage unit and a processing unit are implemented by the storage program 50 and the processing program 51 being executed by the processor 40 . A storage program 50 stores these tables 53 to 61 in the storage device 42 .

A vertical transporter 202 has an interface device 711, a storage device 713, a drive device 714, a sensor 715 and a processor 712 connected thereto.

The interface device 711 is a device for communicating with the control device 4 by a predetermined wireless communication method, and may be configured by, for example, a Wi-Fi (registered trademark) wireless LAN (Local Area Network) card. The driving device 714 is a device that drives the vertical conveying machine 202 to move up and down and stand by. The sensor 715 may be a sensor that detects the position of the vertical conveyor 202 or the like.

A vertical transport table 760 is stored in the storage device 713 . The vertical transfer table 760 may be a table containing at least part of the same information as the vertical transfer table 61 of the control device 4 . The processor 712 controls the overall operation of the vertical transfer machine 202 based on, for example, the vertical transfer table 760 by executing the program in the storage device 713 .

A conveyor 203 has an interface device 721, a storage device 723, a drive device 724, a sensor 725 and a processor 722 connected thereto.

The interface device 721 is a device for communicating with the control device 4 by a predetermined wireless communication method, and may be composed of, for example, a Wi-Fi (registered trademark) wireless LAN (Local Area Network) card. The driving device 724 is a device for transporting a transported object by driving a member (for example, belt or roller) on which the shelf 5 is placed. The sensor 725 is, for example, a weight sensor, and detects that the shelf 5 is placed on the conveyor 203 at a certain position. The processor 722 controls the operation of the conveyor 203 as a whole by executing programs in the storage device 723 .

The picking terminal 710 is an information processing terminal for managing picking work at the picking station 6 . A picking terminal 710 has an interface device 731, a storage device 732 and a processor 733 connected thereto.

The interface device 731 is a device for communicating with the control device 4 by a predetermined wireless communication method, and may be composed of, for example, a Wi-Fi (registered trademark) wireless LAN (Local Area Network) card. A picking table 770 is stored in the storage device 732 . The picking table 770 is a table containing at least part of the same information as the picking table 58 of the control device 4 (for example, information for specifying orders to be processed, scheduled work time, and actual progress). table) is fine. The processor 733 controls the overall operation of the picking terminal 710 based on, for example, the picking table 770 by executing the program in the storage device 732 .

The picking terminal 710 may have an input device and an output device. The input device may receive input of information about the picking work by the operator, such as completion of the picking work. The output device may output instructions and the like regarding the picking work to the worker.

FIG. 8 is a diagram showing a configuration example of the order table 55. As shown in FIG.

The order table 55 is a table that stores various information related to orders from customers. The order table 55 has a record for each order. Each record holds information such as a processing ID 601 , slip number 602 , store name 603 , store code 604 , product name 605 , product ID 606 , quantity 607 , delivery date 608 , reception date/time 609 and work date/time 610 . Take one order as an example (“notable order” in the description of FIG. 8). According to the example shown in FIG. 8, even if the slip number 602 is the same, if the product type (for example, the product name 605 and the product ID 606) are different, they are treated as separate orders. One order may be divided into two or more orders and managed, or two or more orders may be managed as one order.

The processing ID 601 represents the ID of the order of interest. The slip number 602 represents a so-called slip number.

The store name 603 represents the name of the store to which the product specified in the order of interest is shipped, and the store code 604 represents the code of the store.

The product name 605 represents the name of the product specified in the order of interest, the product ID 606 represents the ID of the product, and the quantity 607 represents the number of products.

The delivery date 608 represents the deadline for delivering the product specified in the order of interest to the order recipient (typically the customer). It should be noted that the processing program 51 may calculate the deadline for the actual picking at the picking station by calculating backward from the delivery date 608 . The processing program 51 may determine the timing of transmitting the movement instruction to the transport device 3 based on the calculated deadline, or specify the date and time when the transport device 3 should arrive at the picking station in the movement instruction. good too.

The reception date and time 609 represents the date and time when the order of interest was received. The date and time of work 610 represents the date and time when the work of transporting the shelf 5 on which the product specified in the order of interest is placed to the picking station 6 is performed.

FIG. 9 is a diagram showing a configuration example of the inventory table 54. As shown in FIG.

The inventory table 54 is a table that stores information about products. The inventory table 54 has a record for each product. Each record holds information such as product name 701 , product ID 702 , stock quantity 703 , shelf ID 704 and product position 705 . Take one product as an example (“notable product” in the description of FIG. 9). Note that when the same product is stored on different shelves, there are multiple records for the same product. Similarly, multiple records exist for the same product when the same product is stored in different product positions on the same shelf.

The product name 701 represents the name of the product of interest. The product ID 702 represents the ID of the product of interest. The stock quantity 703 represents the stock quantity of the product of interest. The shelf ID 704 represents the ID of the shelf 5 on which the product of interest is arranged. A product position 705 represents the position of the target product on the shelf 5 . For example, "U3R2" means "third from top (U), second from right (R)".

FIG. 10 is a diagram showing a configuration example of the shelf table 57. FIG.

The shelf table 57 is a table in which information about the shelf 5 is stored. The shelf table 57 has records for each shelf 5 . Each record holds a shelf ID 801, a storage position 802, a shelf weight 803 (unit: [Kg], for example), and a product weight 804 (unit: [Kg], for example). Take one shelf 5 as an example (“notable shelf 5” in the description of FIG. 10).

The shelf ID 801 represents the ID of the shelf 5 of interest. The storage position 802 represents the section and area height where the noted shelf 5 is arranged. Specifically, the storage position 802 is represented by "(column number, row number, column number)". For example, (3,3,1) means section (3,3) in the first stage area 200A. If shelf of interest 5 resides in buffer section 201B (see FIG. 2A), storage location 802 represents the location of that buffer section 201B. If the shelf of interest 5 is being transported, the storage position 802 may indicate the status of the shelf of interest 5 being transported. If the shelf of interest 5 is in the process of being picked, the storage location 802 may represent the status "picking" of the shelf of interest 5 .

The shelf weight 803 represents the weight of the shelf 5 of interest. The commodity weight 804 represents the total weight of all the commodities arranged on the noted shelf 5 . The product weight 804 may be calculated by the processing program 51 based on, for example, the stock quantity 703 of the product corresponding to the shelf ID 704 of the shelf of interest 5 and the weight of the product itself.

FIG. 11 is a diagram showing a configuration example of the apparatus transport table 53. As shown in FIG.

The device transport table 53 is a table in which information acquired from each transport device 3 is stored. The device transport table 53 has a record for each transport device 3 . Each record holds information such as device ID 1101 , shelf flag 1102 , position 1103 , remaining battery capacity 1104 , device status 1105 , shelf ID 1106 , picking station ID 1107 and estimated arrival date and time 1108 . Take one transport device 3 as an example (“focused transport device 3” in the description of FIG. 11).

The device ID 1101 represents the ID of the transport device 3 of interest. The shelf flag 1102 indicates whether or not the transport device 3 of interest has a shelf. A position 1103 represents the coordinates (column number, row number) of the section (that is, the current section) where the transport device 3 of interest is located. The remaining battery capacity 1104 represents the remaining capacity of the battery of the transport apparatus 3 of interest.

The device state 1105 represents the state of the transport device 3 of interest. "Moving" means that the transport device 3 of interest is moving. “Empty” means that a shelf ID (specifically, a transport task including a shelf ID) is not assigned to the transport device 3 of interest. The shelf ID 1106 represents the shelf ID included in the transport task assigned to the transport device 3 of interest (that is, the ID of the transport target shelf specified in the transport task). The picking station ID 1107 represents the ID of the picking station (which may be the position (coordinates) corresponding to the picking station) to which the shelf transported by the transport apparatus 3 of interest is to be transported.

The scheduled arrival date and time 1108 is the scheduled date and time when the transport device 3 of interest will arrive at the picking station. The scheduled arrival date and time 1108 may be, for example, the date and time calculated by the processing program 51 based on the movement route of the transport apparatus 3 of interest to the picking station.

According to the table 53 illustrated in FIG. 11, for example, the following can be found.
The transport device 3 with the shelf flag 1102 "present" and the device status 1105 "moving" is transporting the shelf represented by the shelf ID 1106 to the picking station.
The transport device 3 with the shelf flag 1102 of "absent" and the device status 1105 of "moving" is moving to acquire the shelf indicated by the shelf ID 1106 (for example, to load). After picking up the shelf, the shelf flag 1102 is updated to "present", and the transport device 3 transports the shelf to the picking station.

FIG. 12 is a diagram showing a configuration example of the shelf transfer table 59. As shown in FIG.

The shelf transport table 59 is a table in which information related to the transport of the shelf 5 is stored. The shelf transfer table 59 has a record for each shelf 5 . Each record holds information such as shelf ID 1101 , storage position 1202 , stage 1203 , shelf status 1204 , device ID 1205 , device status 1206 and scheduled transfer start date and time 1207 . Take one shelf 5 as an example (“notable shelf 5” in the description of FIG. 12).

The shelf ID 1201 represents the ID of the shelf 5 of interest. A storage position 1202 represents a storage position (column number, row number, and stage number) before the noted shelf 5 is transported. When the noted shelf 5 moves from the storage position, the storage position 1202 becomes blank "-". A row 1203 indicates in which row the shelf of interest 5 is located.

The shelf state 1204 represents the state of the shelf arranged in the second stage area 200B. "Waiting" means that the shelf of interest 5 is transported to the first stage area 200A and is waiting in the buffer section 201B. "Moving" means that the shelf of interest 5 is being moved from the vertical transfer machine 202 that has reached the first stage area 200A to the buffer section 201B. “Before moving” means that the shelf of interest 5 is waiting to be transported by the vertical transporter 202 in the second area 200A before the shelf of interest 5 is transported to the first area 200A by the vertical transporter 202. do.

The device ID 1205 represents the ID of the transport device 3 to which the noted shelf 5 is assigned, and the device status 1206 represents the status of the transport device 3. "Loading" means that the shelf of interest 5 is already loaded on the conveying device 3 and is moving (that is, the shelf of interest 5 is being conveyed). “Moving” means that the transport device 3 is moving to the storage position of the shelf of interest 5 in order to load the shelf of interest 5 .

The scheduled transport start date and time 1207 represents the scheduled date and time when transport of the shelf 5 of interest is to be started by the transport device 3 . The scheduled transportation start date and time 1207 is, for example, when the movement route is determined by the processing program 51 from the storage position 802 of the shelf of interest 5 and the position 1103 of the transport apparatus 3 to which the shelf of interest 5 is assigned. It may be calculated by the processing program 51 based on the information represented and the standard moving speed of the transport device 3 . Instead of or in addition to this method, the calculation of the scheduled transportation start date and time 1207 may take into consideration the average transportation speed estimated from the past transportation history.

FIG. 13 is a diagram showing a configuration example of the vertical transfer table 61. As shown in FIG.

The vertical transport table 61 is a table in which information related to transport by the vertical transport machine 202 is stored. The vertical transfer table 61 has a record for each vertical transfer. Each record holds information such as vertical ID 1301 , transport mode 1302 , shelf ID 1303 , shelf status 1304 , transport start date/time 1305 and buffering start date/time 1306 . Take a single vertical transport as an example (“vertical transport of interest” in the description of FIG. 13). Note that "vertical transport" is an example of inter-area transport. either to or from When the plurality of areas is three or more areas, the transportation from the transportation source area to the transportation destination area may be "vertical transportation" (an example of inter-area transportation). There are 0 or more areas between the transfer source area and the transfer destination area.

The vertical ID 1301 represents the ID of the vertical transport machine 202 that performs the vertical transport of interest. Note that the vertical ID 1301 may be omitted, and the vertical transfer table 61 may exist for each vertical transfer machine 202 .

The transport mode 1302 represents the transport direction of the vertical transporter 202 on which the shelf 5 is placed. "Upper" means that the vertical conveyer 202 conveys the shelf 5 from the first stage area 200A to the second stage area 200B. "Lower" means that the vertical conveyer 202 conveys the shelf 5 from the second stage area 200B to the first stage area 200A. The vertical conveying machine 202 moves to the first stage area 200A or the second stage area 200B without having the shelf 5 (for example, the shelf 5 to be transported is received in the first stage area 200A or the second stage area 200B). ) may not exist in this table 61 .

The shelf ID 1303 represents the ID of the shelf 5 transported by the vertical transport of interest. The shelf status 1304 represents the status of the shelf 5 to be vertically transported. “Elevating” means that the shelf 5 is being transported by the vertical transporter 202 . “Waiting” means that the shelf 5 is waiting for vertical transport at a standby position in front of the vertical transporter 202 . “Moving” means that the shelf 5 is being moved to the vertical conveyor 202 .

The transport start date and time 1305 represents the date and time when the vertical transport of interest started or is scheduled to start. For example, the transfer start date and time 1305 may be calculated by the processing program 51 based on information on the transfer status of the vertical transfer machine 202 and information on the date and time when the shelf 5 arrives at the vertical transfer machine 202 . The date and time when the shelf 5 arrives at the vertical transfer machine 202 depends on the storage position of the shelf 5, the standard transfer time (or standard transfer speed) of the conveyor 203 (or the transfer device 3), and the number of other shelves 5 to be transferred first. It may be calculated by the processing program 51 on the basis of the information related to transportation. Further, the processing program 51 calculates the date and time of completion of the transportation (date and time when the vertical transportation is scheduled to be completed) based on the transportation start date and time 1305 and the standard transportation time (or standard transportation speed) of the vertical transportation machine 202. good.

The buffering start date and time 1306 represents the date and time when the shelf 5 targeted for vertical transport of interest starts moving to the buffer section 201B. Specifically, for example, the shelf 5 that has reached the first stage area 200A by the vertical conveyor 202 is placed on a pedestal conveyor (not shown), and is transported to the buffer section 201B by the pedestal conveyor. 1306 is the date and time when the shelf 5 is conveyed to the buffer section 201B by the gantry conveyor. For example, the transfer start date and time 1305, the standard transfer time (or standard transfer speed) of the vertical transfer machine 202, the time required for delivery from the vertical transfer machine 202 to the gantry conveyor, and the time required for the gantry conveyor to start carrying are stored. Based on this, the processing program 51 may calculate the buffering start date and time 1306 .

FIG. 14 is a diagram showing a configuration example of the picking table 58. As shown in FIG.

The picking table 58 is a table related to picking work. The picking table 58 has a record for each picking operation. Each record holds information such as picking station ID 1401, process ID 1402, device ID 1403, shelf ID 1404, product ID 1405, quantity 1406, scheduled start date and time 1407, scheduled end date and time 1408, and picking status 1409. Take one picking work as an example (“notable picking work” in the description of FIG. 14).

The picking station ID 1401 represents the ID of the picking station where the picking work of interest is performed. The picking station ID 1401 may be omitted, and a picking table 58 may be provided for each picking station 6 .

The processing ID 1402 is the processing ID of the order corresponding to the picking work of interest.

The device ID 1403 represents the ID of the shelf having the product to be picked in the picking task of interest, the product ID 1405 represents the ID of the product, and the quantity 1406 represents the number of products to be picked. According to the table 58 in which the records are arranged in ascending order of the scheduled start date and time 1407, when the same shelf ID 1404 is consecutive, different products corresponding to different process IDs can be picked from one shelf 5.

The scheduled start date and time 1407 represents the scheduled start date and time of the picking work of interest. The scheduled end date and time 1408 represents the scheduled end date and time of the picking work of interest. The scheduled start date and time 1407 may be calculated by the processing program 51 based on the scheduled date and time when the transport device 3 arrives at the picking station 6 along the movement route. The scheduled end date and time 1408 may be calculated by the processing program 51 based on the scheduled start date and time 1407 and the estimated length of time required for the picking work. The estimated length of time required for picking work is based on at least one of the quantity of products to be picked, the average time required for picking work, and the past picking work history of the picking work worker, It may be calculated by the processing program 51 . Note that the picking work may be performed by a robot instead of or in addition to the worker.

The picking state 1409 represents the state of the picking work of interest. "Before work" means before the transport device 3 with the rack 5 arrives at the picking station 6 and the picking work is started. "Working" means that the picking work has started but has not been completed. "Completed" means that the picking operation has been completed. Note that the picking state 1409 may be changed based on an input from the picking worker, or may be automatically based on values automatically detected regarding the picking work. For example, when the transport device 3 on standby transports the shelf 5 after the completion of the picking work of interest, the picking status 1409 corresponding to the picking work following the picking work of interest changes from "before work" to "in work". may be changed to

An example of processing performed in this embodiment will be described below. Note that the tables 53 to 61 are stored in the storage device 42 by the storage program 50 in this embodiment. Based on information (for example, information including sensor measurement values) that the control device 4 periodically or irregularly receives from each transport device 3, each vertical transport machine 202, each picking terminal 710 and each conveyor 203, The storage program 50 appropriately updates the relevant portions of the tables 53-61.

FIG. 15 is a flowchart showing the flow of transport control processing. The transport control process is repeatedly (for example, periodically) performed.

At S1501, the processing program 51 arranges the orders (records of the order table 55) in ascending order of the work date/time 610. The orders may be sorted in an order other than the ascending order of work date/time 610 . S1502 to S1504 are performed for each sorted order. Alternatively, the processing program 51 may combine a plurality of orders into one order, and S1502 to S1504 may be performed for such a combined order. A plurality of orders grouped into one order may be orders that share a predetermined type of element, such as orders for products contained in the same shelf. Here, one order is taken as an example (order of interest in the description of FIG. 15).

At S1502, the processing program 51 identifies the shelf 5 on which the product to be picked is mounted and the position of the shelf 5 based on the order of interest. Specifically, for example, the following processing is performed. Based on the order table 55, the inventory table 54, and the shelf table 57, the processing program 51 adds the shelf ID 704 corresponding to the product name 701 and product ID 702 that match the product name 605 and product ID 606 specified in the order of interest to the inventory table. 54. The processing program 51 identifies from the shelf table 57 the storage position 802 corresponding to the shelf ID 801 that matches the identified shelf ID 704 .

In S1503, the processing program 51 performs transport for transporting the shelf at the shelf position specified in S1502 (storage position 802 of shelf 5) based on the map table 56, device transport table 53, and shelf table 57 for the order of interest. A device 3 is selected, and a movement route for transportation by the transportation device 3 is created. That is, in S1503, the transport device 3 to which the transport task according to the order of interest is to be assigned is determined. The transport task may be a task of transporting the shelf 5 to be transported along the created movement route. Specifically, in S1503, for example, the processing program 51 may perform at least one of the following.
- The processing program 51 selects one carrier device 3 from one or more carrier devices 3 that meet a predetermined condition. The “predetermined condition” referred to here may be that at least the shelf flag 1102 is “absent”. The transport device 3 is selected based on the device status 1105, the shelf flag 1102, the position 1103, and the storage position 802 of the shelf 5 to be transported (the distance between the storage position 802 and the position of the target section) of each transport device 3. can be broken
The processing program 51 determines the movement route based on the selected position 1103 of the transport device 3, the storage position 802 of the shelf 5 to be transported, and the position of the target section (typically the position of the picking station 6). create. When the storage position 802 of the shelf 5 to be transported is a position in the second stage area 200B, based on the position of the buffer section 201B according to which vertical conveyor 202 the shelf 5 is transported to the first stage area 200A, A travel route is created.
When the storage position 802 of the shelf 5 to be transported is in the second stage area 200B, the processing program 51 performs the congestion determination process shown in FIG.
- The processing program 51 may refer to the picking table 58 . For example, the processing program 51 identifies a relatively empty picking station (for example, a picking station with a relatively small number of corresponding records in the picking table 58), and designates the empty picking station as the target section. You can decide.

At S1504, the processing program 51 transmits to the transport device 3 selected at S1503 a movement instruction associated with the transport task assigned to the transport device 3 (transport task according to the order of interest).

In this transport control process, the transport task determined and assigned to each order is a task that meets the delivery date 608 of the order. As will be described later, the processing program 51 gives priority to the execution of the transport task for the shelf 5 existing in the buffer section 201B in the priority control executed when the occurrence of congestion on the shelf 5 is predicted for vertical transport. Although determined, such a change in the transport task processing order may be made to the extent that the delivery date 608 can be met.

FIG. 16 is a flow chart showing the flow of congestion determination processing.

The trigger for starting the traffic congestion determination process may be, for example, any of the following.
- The shelf position specified in S1502 is the second stage area 200B.
- The transport task associated with the movement instruction transmitted in S1504 is the shelf transport task that needs to be transported from the second level area 200B to the first level area 200A.

At S1601, the processing program 51 refers to the device transport table 53, the shelf transport table 59 and the vertical transport table 61. In S1602, the processing program 51 simulates vertical transport of the shelf 5 to be transported in the second area 200B based on the device transport table 53, shelf transport table 59, and vertical transport table 61. FIG.

At S1603, the processing program 51 determines whether or not traffic congestion is predicted based on the result of the simulation at S1602. Here, the "congestion" referred to in the present embodiment means that the number of shelves 5 in the standby state that have been transported from the second stage area 200B to the first stage area 200A by the vertical transport machine 202 but have not been transported by the transport apparatus 3 Since the number has reached the predetermined number M for the vertical conveying machine 202, N or more shelves 5 (N is a natural number) from the second stage area 200B to the first stage area 200A are either outside or inside the vertical conveying machine 202. or both are in a standby state.

Regarding the determination of S1603, for example, any of the following may be adopted.
When the vertical transporter 202 is predetermined according to the storage position of the shelf 5 to be transported, the predetermined number M is a value prepared for each vertical transporter 202 (for example, all buffer partitions corresponding to the vertical transporter 202). 201B, or, instead of or in addition to the maximum number, the maximum number of shelves 5 that can exist within the vertical transfer machine 202 in the first stage area 200A).
If the vertical transporter 202 is determined according to the transport status of each vertical transporter 202 regardless of the storage position of the shelf 5 to be transported, the predetermined number M is a value common to the entire system (for example, the first stage area 200A in all buffer compartments 201B, or alternatively or in addition to the maximum number of shelves 5 in the vertical conveyor 202 in the first tier area 200A). good.
"The number of shelves 5 in the standby state that have been transported from the second area 200B to the first area 200A by the vertical transport machine 202 but not transported by the transport device 3" may be X or Y. , X+Y. "X" is the number of shelves 5 existing outside the vertical conveyor 202 in the first stage area 200A. number is fine. "Y" is the number of shelves 5 existing in the vertical conveyor 202. Specifically, for example, the vertical conveyor 202 cannot be moved from the vertical conveyor 202 to the buffer section 201B because there is no space in the buffer section 201B. It may be the number of shelves 5 that remain within. In this embodiment, Y=1 (the number of shelves 5 mounted on one vertical transfer machine 202 is always 1), but Y is an integer of 2 or more (the number of shelves mounted on one vertical transfer machine 202 5 may be 2 or more).

If the determination result of S1603 is false (S1603: No), the congestion determination process ends. If the determination result of S1603 is true (S1604: Yes), the processing program 51 performs priority control processing in S1604.

A detailed example of the definition of "congestion" is "by the time the shelf 5 to be transported moves from the vertical conveyor 202 to the buffer section 201B, another shelf 5 exists in the buffer section 201B." do. That is, the definition of "congestion" is that "the number of shelves 5 in the standby state that have been transported from the second stage area 200B to the first stage area 200A by the vertical transport machine 202 but not transported by the transport apparatus 3 is Since the predetermined number M has been reached, N or more shelves 5 (N is a natural number) from the second stage area 200B to the first stage area 200A are in a standby state either or both outside and inside the vertical conveyor 202. , assume that both the value of M and the value of N are 1. In this case, S1602 and S1603 are, for example, as follows.

In S1602, the processing program 51 calculates the following.
(P) Scheduled transport start date and time 1207 for shelf 5-1 which has already been transported from the second stage area 200B to the first stage area 200A by the vertical transporter 202 and is waiting in the buffer section 201B. As a method for specifying the shelf 5-1, the section represented by the storage position 1202 is a shelf that is a buffer section corresponding to the vertical transport machine 202 that vertically transports the shelf 5 to be transported. 1204 identifies the shelf with "Waiting".
(Q) The buffering start date and time 1306 of the shelf 5-2 to be transported from the second stage area 200B to the first stage area 200A by the vertical transporter 202 from now on.

In S1603, the processing program 51 determines whether (P) is slower than (Q). If (P) is earlier than (Q) (or (P) and (Q) are on the same date), no traffic congestion is predicted. On the other hand, if (P) is slower than (Q), the occurrence of congestion is predicted. In other words, it is predicted that the shelf 5-2 to be transported cannot be moved from the vertical transporter 202 to the buffer section 201B and waits in the vertical transporter 202. FIG.

FIG. 17 is a flowchart showing the flow of priority control processing.

In S<b>1701 , the processing program 51 refers to the device transport table 53 . In S1702, the processing program 51 determines whether the following (a1) and (a2) are satisfied. If "traffic jam" means that the above (P) is later than the above (Q), the predicted date and time of "congestion occurrence" is the above (Q) that is earlier than the above (P). Also, the determination in S1701 may be a determination as to whether or not at least (a1) is satisfied.
(a1) There is a transport apparatus A whose apparatus status 1105 is "idle".
(a2) Before the occurrence of traffic congestion (for example, before the buffering start date and time 1306 of the shelf 5-2 to be transported), the transport apparatus A moves the target buffer section 201B (vertical transport of the shelf 5-2 to be transported). The shelf 5-1 can be transported from the buffer section 201B) corresponding to the vertical transporter 202 to be processed.

Note that (a2) is satisfied when the predicted date and time when the transport apparatus A can start transporting the shelf 5-1 from the target buffer section 201B is earlier than the predicted date and time of the occurrence of traffic congestion. The predicted date and time when the transport device A can start transporting the shelf 5-1 from the target buffer section 201B is the date and time when the transport device A can arrive at the target buffer section 201B (or the date and time obtained by adding a predetermined length of time to the date and time). OK. The date and time when the transport device A can arrive at the target buffer section 201B are determined by The date and time calculated by the processing program 51 based on the standard moving speed may be used.

If the determination result of S1702 is true (S1702: Yes), the processing program 51 assigns the transport task of the shelf 5-1 of the target buffer section 201B to the transport device A in S1703. As a result, the movement instruction associated with the transport task is transmitted to the transport apparatus A by the processing program 51 in S1504 of FIG. 15, for example. Then, in response to the movement instruction, the transport apparatus A executes the transport task associated with the movement instruction. As a result, it is expected that the transport device A will start transporting the shelf 5-1 from the target buffer section 201B before the congestion occurs, that is, the congestion will be avoided.

If the determination result of S1702 is false (S1702: No), the processing program 51 refers to the picking table 58 in S1704. In S1705, the processing program 51 determines whether the following (b1) and (b2) are satisfied. The determination in S1705 may be a determination as to whether or not at least (b1) is satisfied.
(b1) Before the congestion occurs (for example, before the buffering start date and time 1306 of the shelf 5-2 to be transported), transport the shelf 5-3 to the picking station according to the assigned transport task, and The shelf 5-3 is returned to the corresponding section (for example, the original placement section in the first stage area 200A or another specified placement position, or the shelf 5-3 is returned to the second stage area 200B). There is a transporter B that completes transporting to the compartment immediately preceding the position of the vertical transporter 202 .
(b2) The transport device B can transport the shelf 5-1 from the target buffer section 201B before the congestion occurs.

According to (b1), in the present embodiment, the timing at which the transport device 3 to which a transport task is assigned can execute another transport task depends on the assigned transport task. is transported and the shelf 5-3 for which the picking operation is completed is transported to the original placement position (or another specified placement position). When (b1) is satisfied, the scheduled end date and time 1408 of the picking work is before the predicted date and time of occurrence of traffic congestion, and the date and time when the shelf 5-3 can arrive from the picking station to the corresponding section is the predicted date and time of occurrence of traffic congestion. is expected to be earlier. The possible arrival date and time of the shelf 5-3 from the picking station to the corresponding section may be calculated by the processing program 51 based on the moving route from the picking station to the corresponding section and the standard moving speed of the transport device 3.

(b2) is satisfied when the predicted date and time when the transport device B can start transporting the shelf 5-1 from the target buffer section 201B is earlier than the predicted date and time of the occurrence of traffic congestion. The predicted date and time when the transport device B can start transporting the shelf 5-1 from the target buffer section 201B is the date and time when the transport device B can arrive at the target buffer section 201B (or the date and time obtained by adding a predetermined length of time to the date and time). OK. The date and time when the transport device B can arrive at the target buffer section 201B is determined by the movement route of the transport device B (the movement route including the route from the position of the relevant section to the position of the target buffer section 201B) and the standard movement of the transport device 3. It may be the date and time calculated by the processing program 51 based on the speed.

If the determination result of S1705 is true (S1705: Yes), the processing program 51 assigns the transport task of the shelf 5-1 of the target buffer section 201B to the transport device B in S1706. As a result, the movement instruction associated with the transport task is transmitted to the transport apparatus B by the processing program 51 in S1504 of FIG. 15, for example. Then, in response to the movement instruction, the transport apparatus B transfers the transport task associated with the movement instruction from the picking station to the corresponding section according to the transport task already assigned to the transport apparatus B. Execute after transfer. As a result, it is expected that the transport device B will start transporting the shelf 5-1 from the target buffer section 201B before the congestion occurs, that is, the congestion will be avoided.

If the determination result in S1705 is false (S1705: No), in S1707, the processing program 51 instructs the transport apparatus C, which has not yet loaded the shelf 5-4 according to the assigned transport task, A transport task for the shelf 5-1 existing in the target buffer section 201B is assigned. As a result, the movement instruction associated with the transport task is transmitted to the transport apparatus C by the processing program 51 in S1504 of FIG. 15, for example. Then, in response to the movement instruction, the transport apparatus C executes the transport task associated with the movement instruction instead of the transport task according to the movement instruction received before the movement instruction is received. . As a result, it is expected that the transport device C will start transporting the shelf 5-1 from the target buffer section 201B before the congestion occurs, that is, the congestion will be avoided. In addition, the “transport device C” may be, for example, a transport device that satisfies (c1) or both of the following (c1) and (c2).
(c1) The shelf 5 corresponding to the device status 1206 "moving" is assigned (or, for example, it corresponds to the shelf flag 1102 "absent" and the device status 1105 "moving").
(c2) It is expected to arrive at the target buffer section 201B from the section represented by the position 1103 and transport the shelf 5-1 from the target buffer section 201B before the congestion occurs.
[Second embodiment]

A second embodiment will be described. At that time, the points of difference from the first embodiment will be mainly explained, and the explanations of the points in common with the first embodiment will be omitted or simplified.

FIG. 18 is a diagram showing an overview of the second embodiment.

In the second embodiment, the processing program 1851 performs vertical transport for the purpose of further improving transport efficiency of the shelf 5 based on at least one of the device transport table 53, the shelf transport table 59, and the vertical transport table 61. control.

As a first example of vertical transfer control, the processing program 1851 causes the vertical transfer machine 202 to wait in advance. The “preliminary standby” of the vertical conveyor 202 means that the vertical conveyor 202 waits in the second area 200 before the shelf 5 to be conveyed reaches the conveyance start section in the second area 200 . be. The “transport start zone” is the zone where the shelf 5 to the vertical conveyor 202 begins, and typically may be the zone immediately preceding the vertical conveyor 202 .

As a second example of vertical transfer control, when the processing program 1851 moves the vertical transfer machine 202 from the second area 200B to the first area 200A, Also in the case of movement to , the rack 5 is moved while being loaded. That is, the "top" and "bottom" of the transport mode 1302 are alternated. In other words, the vertical conveyor 202 moves between the areas 200 with the shelves 5 always loaded. Thereby, the further improvement of the conveyance efficiency of the shelf 5 can be expected.
[Third embodiment]

A third embodiment will be described. At that time, the points of difference from the first and second embodiments will be mainly explained, and the explanations of the points in common with the first and second embodiments will be omitted or simplified.

FIG. 19 is a diagram showing part of the flow of priority control processing in the third embodiment.

After S1704, in S1900, the processing program 1951 determines whether or not there is a transport device C (a transport device that has not yet loaded the shelf 5 according to the assigned transport task) to the device transport table 53 and the shelf transport table 59. Determined based on at least one of If the determination result of S1900 is true (S1900: Yes), S1707 is performed.

If the determination result in S1900 is false (S1900: No), in S1901, the processing program 1951 performs transport postponement processing. The transport postponement process is a process for moving down the processing order of transporting the shelf 5 to be transported arranged in the second stage area 200B to the vertical transport machine 202 . As a result, when a suitable transport device is not found as the assignment destination of the transport task for transporting the shelf 5 from the buffer section 201B, the transport of the shelf 5 to be transported to the vertical transporter 202 is postponed, causing congestion. forecast date and time is postponed. During the time from before the postponement to after the postponement, there is a possibility that a transport device suitable for assignment of the transport task to transport the shelf 5 from the buffer section 201B may occur. Therefore, it can be expected to reduce the possibility of traffic congestion.
[Fourth Embodiment]

A fourth embodiment will be described. At that time, the points of difference from the first to third embodiments will be mainly explained, and the explanations of the points in common with the first to third embodiments will be omitted or simplified.

FIG. 20 is a diagram showing an overview of the fourth embodiment.

Each record in the shelf table 2057 holds the transportation frequency 805. The transport frequency 805 is information representing the execution frequency of the task of transporting the rack 5 (the frequency with which the rack 5 is transported to the picking station per unit time). Every time the transport task for the shelf 5 is executed, the storage program 2050 updates the transport frequency 805 corresponding to the shelf 5 .

Based on the transport frequency 805 in the shelf table 2057 (for example, the statistics of the transport frequency 80 of all the shelves 5), the processing program 2051 designates the area where the arrangement position of the shelf 5 exists as the first stage area 200A. and the second stage area 200B. Thereby, it is expected that the area 200 where the shelves 5 are arranged is maintained at the optimum area 200 according to the transportation frequency 805 . For example, the processing program 2051 determines the area 200 in which the placement positions of the shelves 5 with a relatively low transportation frequency 805 exist as the second-stage area 200B. This is expected to maintain high transport efficiency.

Although several embodiments have been described above, these are examples for explaining the present invention, and are not intended to limit the scope of the present invention only to these embodiments. The present invention can also be implemented in various other forms.

Also, for example, the shape of the partition is not limited to a square, and may be another shape. Also, compartments of different sizes or shapes may be mixed. Also, the position of the section may be identified by other types of methods instead of being identified from the two-dimensional barcode on the section.

Also, for example, the storage program 50 and the processing program 51 may be executed by the transport device 3 instead of or in addition to the control device 4 . Further, the conveying device 3 may also serve as the control device 4 .

Further, for example, in the first to fourth embodiments, an example of using the vertical conveying machine 202 as the inter-area conveying machine was shown, but the vertical conveying machine 202 is a forklift or the like capable of conveying the shelf 5 in the vertical direction. can be replaced by other inter-area transfer machines. In this case, the controller 4 may also determine the position at which the forklift will carry the shelf 5 vertically.

An object transported from an area other than the first-level area 200A to the first-level area 200A by a forklift may be directly transferred to the transport device 3. Further, as an alternative configuration of the buffer section 201B in the first to fourth embodiments, a temporary storage place for temporarily placing the shelf 5 transported from an area other than the first-stage area 200A to the first-stage area 200A by a forklift. A place may be provided so that the transport device 3 can load and transport the shelf 5 arranged at the temporary storage place by a forklift. In this case, the transport device 3 transports the shelf 5 for which the picking operation has been completed after being transported from an area other than the first stage area 200A to the temporary storage location, and the shelf 5 is transported from the temporary storage location to the storage position 802 by a forklift. may be transported to an area where

Further, for example, in the first to fourth embodiments, the conveyor 203 conveys the shelf 5 in the second area 200B, but the method of conveying the shelf 5 in the second area 200B is limited to this. can't For example, instead of the conveyor 203, a transport device that loads and transports shelves may be used. Moreover, in this case, the shelf 5 may be arranged on a platform in the section 251C so that the transport device can be slipped under the shelf 5 .

Further, in the first to fourth embodiments described above, the present invention is applied to a transport system for picking work in a storeroom used by companies such as online shopping companies to store products. Although the case has been described, the present invention is not limited to this, and the present invention can also be applied to a transport system for transporting articles in factories, workshops, and the like other than such storages.

Specifically, the object to be transported by the transport device 3 (hereinafter referred to as the object to be transported) may be an object other than the shelf 5, such as a tray, box, pallet, or article. In this case, the trays, boxes, and pallets may or may not contain articles (for example, when the trays, boxes, and pallets themselves are objects to be conveyed). In this case, it is only necessary to replace the "shelf" with the "conveying object" in the above-described first to fourth embodiments, so detailed description will be omitted.

In addition, the work for such transported objects may be work other than picking, such as processing, assembly, packing, or inspection. In this case, it is only necessary to replace "picking" and "picking work" with "work" in the above-described first to fourth embodiments, so detailed description will be omitted.

The above explanation can be summarized, for example, as follows. The following summary may include supplementary explanations of the above explanations and explanations of variations of the above embodiments.

A transport system 1 includes a transport device 3 , a vertical transport machine 202 (an example of an inter-area transport machine), and a control device 4 . The conveying device 3 conveys the goods arranged in the first area. The vertical conveyor 202 moves the first shelf from the second area 200B (an example of the second area) located at a different height from the first area 200A (an example of the first area) to the first area 200A. 5 (an example of the first conveyed object) is conveyed. The control device 4 selects the first shelf 5 transported to the first stage area 200A by the vertical transport machine 202 from the first transport task for transporting the second shelf 5 arranged in the first stage area 200A. The second transport task to transport is preferentially assigned to the transport device 3 .

This is expected to reduce the possibility of traffic jams and, as a result, maintain high transportation efficiency. In the embodiment, S1604 is performed when S1603: YES in FIG. S1604 may be performed after referring to a portion of the table described in S1601 of FIG. 16, without S1602 and S1603.

The control device 4 is arranged in the first stage area 200A based on the transport management information, which is information including information related to transport by one or more transport devices 3 and information related to transport by the vertical transport machine 202. The second transport task of transporting the first shelf 5 transported to the first stage area 200A by the vertical transport machine 202 is preferentially transferred to the transport device 3 from the first transport task of transporting the second shelf 5. may be assigned.

Each of the one or more transport devices 3 is a device that travels in the first stage area 200A of the multistage area 122 (an example of a plurality of areas respectively located at different heights), and according to the assigned transport task. It is a device for transporting the shelf 5 in the first stage area 200A. Shelf 5 is an example of an object that can be transported by transport device 3 . A plurality of shelves 5 are arranged in a plurality of

areas

200A and 200B. The shelves 5 arranged in the second area 200B (an example of the second area) are conveyed from the second area 200B to the first area 200 by the vertical transfer machine 202 . The control device 4 determines whether or not the occurrence of congestion is predicted based on the transport management information. When the result of the determination is true, the control device 4 performs priority control as control of one or a plurality of transport devices 3 .

"Conveyance management information" is information containing information on conveyance by one or a plurality of conveyance devices 3 and information on conveyance by the vertical conveyance machine 202. For example, the device conveyance table 53, the shelf conveyance table 59, and the vertical conveyance Table 61. "Congestion" means that the number of shelves 5 in the standby state that have been transported from the second stage area 200B to the first stage area 200A by the vertical transport machine 202 but not transported by the transport apparatus 3 is a predetermined number for the vertical transport machine 202. N or more shelves 5 (N is a natural number) from the second-stage area 200B to the first-stage area 200A are in a standby state either or both outside and inside the vertical transfer machine 202 because M has been reached. is. "Priority control" refers to at least one shelf being transported from the second-level area 200B to the first-level area 200A and waiting in the first-level area 200A rather than transporting the shelf 5 arranged in the first-level area 200A. This control gives priority to the transportation of one shelf 5 .

This is expected to reduce the possibility of traffic jams and, as a result, maintain high transportation efficiency.

The vertical transfer machine 202 can transfer the shelf 5 arranged in an area other than the first stage area 200A among the multiple areas located at different heights from the area to the first stage area 200A. The control device 4 determines whether or not the occurrence of traffic congestion is predicted based on the transportation management information, which is information including information on transportation by one or a plurality of transportation devices 3 and information on transportation by the vertical conveyor 202. can be determined. When the result of the determination is true, the control device 4 may perform priority control as control of one or a plurality of transport devices. "Congestion" refers to a state in which the vertical conveyor 202 transports the goods 3 from an area other than the first stage area 200A to the first stage area 200A but the transport apparatus 3 does not transport the goods 3 in the first waiting state. has reached a predetermined number, one or more other shelves 3 transported from areas other than the first stage area 200A to the first stage area 200A by the vertical transport machine 202 The standby state may be set until the vertical transporter 202 starts transporting outside the vertical transporter 202 or until the vertical transporter 202 completes transporting inside the vertical transporter 202 . The “priority control” may be control that prioritizes transport of at least one shelf 5 in the first standby state over transport of other shelves 5 arranged in the first stage area 200A.

Based on the transport management information, which is information containing information related to transport by one or a plurality of transport devices 3 and information related to transport by the vertical transport machine 202, the control device 4 moves from the area other than the first stage area 200A to one It is determined whether or not the number of waiting items transported to the tier area 200A by the vertical transport machine 202 but not transported by the transport apparatus 3 reaches the first number for the vertical transport machine 202, and the result of the determination is true. In the case of , from the first transport task of transporting the second shelf arranged in the first stage area 200A, the first transport task of transporting the first shelf 5 transported to the first stage area 200A by the vertical transport machine 202 is executed. 2 transport tasks may be preferentially assigned to the transport device 3 .

The transport management information includes, for example, which shelf 5 is to be transported by which transport device 3, when to start transporting the shelf 5 to the first stage area 200A by the vertical transport machine 202, and the first stage from the second stage area 200B. Information indicating the number of shelves 5 that have been transported to the eye area 200A but are waiting to be transported may be included. For example, transport management information may include information representing: As a result, it is expected that the prediction accuracy of the occurrence of traffic congestion will be improved and the possibility of traffic congestion will be reduced.
- Allocation relationship between transport tasks and transport devices 3 .
The number or number of shelves 5 that are on standby in the first stage area 200A because they have been transported to the first stage area 200A by the vertical transport machine 202 but have not been transported by the transport device 3;
- For at least one transport task, the shelf 5 according to the transport task and the date and time when transport is scheduled to start according to the transport task.
The date and time when the vertical conveyor 202 is scheduled to transport the shelf 5 from the second area 200B to the first area 200A.

Priority control may include: Since the transport task of the shelf 5 which is transported from the second stage area 200B to the first stage area 200A and is in a standby state in the first stage area 200A is assigned to the following target transport apparatus, the possibility of occurrence of congestion is reduced. There is expected.
Conditions for the transport device 3 that can preferentially execute the task of transporting the shelf 5 in the waiting state in the first-stage area 200A after being transported from the second-stage area 200B to the first-stage area 200A based on the transport management information. is determined as the optimum transport device.
Assigning the transport task of the shelf 5 in the standby state in the first stage area 200A to the determined optimal transport device.

In the priority control, when the transport device A (an example of the first target transport device), which is the transport device 3 that satisfies the first condition, is identified based on the transport management information, the transport device A is designated as the optimum transport device. You can decide. In response to the controller 4 assigning the transport apparatus A to the first area 200A from the second area 200B and the task of transporting the shelf 5 waiting in the first area 200A, can perform the task. As a result, it is expected that the shelf 5 will be quickly transported from the buffer section 201B by the so-called empty transport device A, and that the possibility of traffic congestion will be reduced. The first condition is a condition including:
・Transport task is not assigned.
- It is possible to transport the shelf 5 in the waiting state in the first stage area 200A from the second stage area 200B to the first stage area 200A before the congestion occurs.

Any transport device to which a transport task is not assigned may be regarded as the transport device A, and even in this case, it is expected that the possibility of traffic congestion will be reduced.

In the priority control, if the transport device A is not specified, but the transport device B (an example of the second target transport device) that is the transport device 3 that satisfies the second condition is specified based on the transport management information, the transport Device B may be determined as the optimal transport device. In response to the controller 4 assigning the conveying task of the shelf 5 waiting in the first stage area 200A after the conveying apparatus B is conveyed from the second stage area 200B to the first stage area 200A, the following corresponding After transporting the shelf 5 to the position, the transport task may be executed. As a result, it is expected that the shelf 5 will be quickly transported from the buffer section 201B by the transport device B after the completion of the transport task, thereby reducing the possibility of traffic congestion. A second condition is a condition that includes:
・Before the traffic jam occurs, the shelf 5 is transported to the picking station (an example of the target position) according to the assigned transport task, and the shelf 5 is transported from the picking station to the relevant position of the shelf 5 in the first stage area 200A. transportation to is completed.
Before the traffic jam occurs, after the shelf 5 is transported to the relevant position, the shelf 5 is transported from the second stage area 200B to the first stage area 200A and transported in the first stage area 200A in the standby state. is possible.

Any transport device that completes transporting the shelf 5 to the picking station in accordance with the assigned transport task may be the transport device B, and even in this case, a reduction in the possibility of traffic congestion is expected.

In the priority control, if the transport device B is not specified, but the transport device C (an example of the third target transport device) that is the transport device 3 that satisfies the third condition is specified based on the transport management information, the transport Device C may be determined as the optimal transport device. In response to the controller 4 assigning the transport apparatus C to the first stage area 200A from the second stage area 200B to the first stage area 200A, the task of transporting the shelf 5 waiting in the first stage area 200A is performed. The assigned transport task may be executed instead of the transport task for the shelf 5 arranged in the eye area 200A. As a result, it can be expected that the transport apparatus C, which has not started transporting the shelf 5 according to the transport task, will quickly transport the shelf 5 from the buffer section 201B, thereby reducing the possibility of traffic congestion. . A third condition is a condition that includes:
- A transport task for the shelf 5 arranged in the first stage area 200A has been assigned, but the transport of the shelf 5 has not started.
- It is possible to transport the shelf 5 in the waiting state in the first stage area 200A from the second stage area 200B to the first stage area 200A before the congestion occurs.

It should be noted that any transport apparatus to which the task of transporting the shelf 5 arranged in the first stage area 200A has been assigned but which has not yet started transporting the shelf 5 may be the transport apparatus C. Even in this case, traffic congestion occurs. is expected to reduce the possibility of

The shelf 5 arranged in the second stage area 200B is conveyed from the arrangement position of the shelf 5 to the vertical conveying machine 202, and conveyed by the vertical conveying machine 202 from this area to the first stage area 200A. you can In the priority control, when the target transport device 3 is not specified, the control device 4 may move down the processing order of transporting the shelf 5 arranged in the second stage area 200B to the vertical transport device 202 . This reduces the possibility of congestion even if a suitable transport device 3 for transporting the shelf 5 from the buffer section 201B cannot be found.

Based on a plurality of transport frequencies respectively corresponding to the plurality of shelves 5, the control device 4 determines which of the plurality of areas the area in which the arrangement position of the shelf 5 exists for each of the plurality of shelves 5. may be determined. For each of the plurality of shelves 5, the transport frequency may be the frequency of transporting the shelf 5 to the picking station in the first stage area 200A per unit time. As a result, frequent transportation between areas is avoided for the shelf 5, which is frequently transported, and an improvement in transportation efficiency is expected. Specifically, for example, the control device 4 may determine, as the second-stage area 200B, an area in which the arrangement positions of the shelves 5 with a relatively low transportation frequency exist. As a result, shelves 5 with low transportation frequency (order frequency) are arranged in the second stage area 200B, and as a result, it is expected that the frequency of transportation by the vertical conveyor is reduced and the probability of occurrence of traffic congestion is reduced.

The shelf 5 arranged in the second stage area 200B is transported from the arrangement position of the shelf 5 to the loading start position by the vertical transport machine 202, and the vertical transport machine 202 transports the goods transported to the loading start position. may be loaded and the transported article may be transported from the area to the first stage area 200A. Based on the transport management information, the control device 4 may cause the vertical transport machine 202 to wait in the area before the shelf 5 in the second stage area 200B reaches the loading start position in the area. As a result, the shelf 5 waits for the vertical transfer machine 202 for less time, which is expected to improve the transfer efficiency.

The controller 4 may control the vertical conveyor 202 to alternately perform (x) and (y) below. As a result, when the shelf 5 unloaded from the second-stage area 200B to the first-stage area 200A is returned to the second-stage area 200B after the picking operation, it is suppressed from remaining in front of the vertical conveyor in the first-stage area 200A. In addition, it is possible to suppress the vertical movement of the vertical conveyor 202 without loading a conveyed product, thereby improving the operating rate of the vertical conveyor 202 .
(x) Transport the shelf 5 in the second stage area 200B to the first stage area 200A.
(y) Transport the shelf 5 in the first stage area 200A to the second stage area 200B.

　3: transport device, 4: control device

Claims

a conveying device that conveys an article placed in the first area;
an inter-area conveyor that conveys a first article to the first area from a second area located at a height different from that of the first area;
From a first transport task of transporting a second transported object arranged in the first area, a first transporting task of transporting the first transported object transported to the first area by the inter-area transporter is performed. a control device that preferentially allocates the transport task No. 2 to the transport device;
A transport system comprising:
one or more transport devices comprising the transport device;
The control device is arranged in the first area based on transportation management information including information on transportation by the one or more transportation devices and information on transportation by the inter-area transportation machine. the second transport task transporting the first transported object transported to the first area by the inter-area transporter is given priority over the first transport task transporting the second transported object transported to the first area assigning to said transport device;
A transport system according to claim 1 .
The control device
Determining whether or not the occurrence of congestion is predicted based on transportation management information that is information including information on transportation by the one or more transportation devices and information on transportation by the inter-area transportation machine,
If the result of the determination is true, priority control is performed as control of the one or more transport devices,
The congestion means that the number of objects in a standby state that have been transported from an area other than the first area to the first area by the inter-area transport machine but are not transported by the transport apparatus is a predetermined number for the inter-area transport machine. N or more items (N is a natural number) to be conveyed from areas other than the first area to the first area because the number has been reached are waiting outside and/or inside the inter-area carrier. is to be in the state of
The priority control means that, rather than transporting a transported object placed in the first area, a transported object transported from an area other than the first area to the first area and placed in a standby state in the first area is transported. A control that gives priority to the transportation of at least one transported object,
3. The transport system according to claim 2.
The inter-area carrier transports the article placed in an area other than the first area among a plurality of areas each located at different heights, including the first area, from the area to the first area. 1 area can be transported,
The control device is
Determining whether or not the occurrence of congestion is predicted based on transportation management information that is information including information on transportation by the one or more transportation devices and information on transportation by the inter-area transportation machine,
If the result of the determination is true, priority control is performed as control of the one or more transport devices,
The congestion refers to the number of objects in a first standby state, which is a state in which the inter-area carrier transported from an area other than the first area to the first area but not transported by the transport device. has reached a predetermined number, one or more of the other objects transported from an area other than the first area to the first area by the inter-area transport machine a standby state until the inter-area carrier starts to transport outside the machine or until the inter-area carrier completes the transport inside the inter-area carrier;
The priority control is a control that prioritizes transportation of at least one of the objects in the first standby state over transportation of other objects placed in the first area.
3. A transport system according to claim 2.
one or more transport devices comprising the transport device;
The control device, based on the transport management information, which is information including information related to transport by the one or more transport devices and information related to transport by the inter-area transport machine, from areas other than the first area Determining whether the number of objects in a standby state that have been transported to the first area by the inter-area transport machine but are not transported by the transport device has reached a first number for the inter-area transport machine, and the result of the determination is true, the first transport transported to the first area by the inter-area transport machine is selected from the first transport task for transporting the second transport placed in the first area. Preferentially assigning a second transport task of transporting an object to the transport device;
3. The transport system according to claim 2.
The transport management information includes information representing:
an assignment relationship between the transport task and the transport device;
- Conveyed items or the number thereof that are in a standby state in the first area because they have been transported to the first area by the inter-area transport machine but have not been transported by the transport device;
- For at least one of the transport tasks, the goods to be transported according to the transport task and the date and time when transport is scheduled to start according to the transport task, and
the date and time when the transported product is scheduled to be transported from an area other than the first area to the first area by the inter-area transporter;
4. The transport system according to claim 3.
The priority control includes:
- Based on the transport management information, the transport task of the object transported from an area other than the first area to the first area and waiting in the first area can be preferentially executed. Determining a target transport device, which is the transport device that satisfies the conditions as the transport device, as the optimum transport device;
- assigning the transport task of the transported object in a standby state in the first area to the determined optimal transport device;
4. The transport system according to claim 3.
The control device is
In the priority control, when a first target transport device that is the transport device that satisfies the first condition is specified based on the transport management information, the first target transport device is determined as the optimum transport device. death,
The first condition is
・The transport task is not assigned,
- Before the traffic jam occurs, it is possible to transport an object that is transported from an area other than the first area to the first area and is in a standby state in the first area.
is that
The first target transport device is assigned by the control device a task of transporting an object that has been transported from an area other than the first area to the first area and is in a standby state in the first area. perform the transport task in response to
A transport system according to claim 7 .
The control device is
In the priority control, if the first target transport device is not specified, but the second target transport device that satisfies the second condition is specified based on the transport management information, the second target transport device is specified. determining the target conveying device of 2 as the optimum conveying device;
The second condition is
・Before the traffic jam occurs, it is possible to transport an article to a target position according to an assigned transport task, and then transport the article from the target position to a corresponding position for the article in the first area. Completed,
・Before the congestion occurs, after the transported object is transported to the relevant position, the transported object is transported from an area other than the first area to the first area and is in a standby state in the first area. is capable of transporting
The second target transport device,
in response to the transfer task being assigned by the control device to the transfer task of the transfer object which has been transferred from an area other than the first area to the first area and is in a standby state in the first area; executing the transport task after transporting the transport to a location;
A transport system according to claim 8 .
The control device is
In the priority control, the first target transport device and the second target transport device are not specified, but based on the transport management information, the third target transport device is the transport device that satisfies the third condition. is identified, determine the third target transport device as the optimum transport device;
The third condition is
- the transport task for the other transported object placed in the first area has been assigned, but transport of the transported object has not started;
- Before the traffic jam occurs, it is possible to transport an object that has been transported from an area other than the first area to the first area and is in a waiting state in the first area. The third target transport device is
in response to assignment by the control device of the transport task of the transport object transported from an area other than the first area to the first area and standing by in the first area, executing the assigned transport task instead of the transport task of the other transported object arranged in one area;
10. A transport system according to claim 9.
In the priority control, the target transport device is the transport device to which the transport task is not assigned.
A transport system according to claim 7 .
In the priority control, the target transport device is a transport device that completes transporting the object to a target position according to the assigned transport task.
A transport system according to claim 7 .
In the priority control, the target transport apparatus is a transport apparatus that is assigned the transport task of the other transport object placed in the first area but has not started transport of the transport object. ,
A transport system according to claim 7 .
The conveyed article arranged in an area other than the first area,
The conveyed article is conveyed from the arrangement position of the conveyed article to the inter-area conveying machine, and is conveyed from the area to the first area by the inter-area conveying machine,
The control device is
In the priority control, when the target transport device is not specified, the processing order of transporting the transported object placed in an area other than the first area to the inter-area transporter is moved down.
A transport system according to claim 7 .
The control device is
Based on a plurality of transportation frequencies respectively corresponding to a plurality of articles to be conveyed, for each of the plurality of articles to be conveyed, it is determined which one of the plurality of areas is to be an area in which the arrangement position of the article to be conveyed is located. ,
The transport frequency is the frequency of transporting each of the plurality of transported objects to a target position in the first area per unit time.
A transport system according to claim 1 .
The control device determines an area other than the first area as an area where the arrangement position of the transported object with the relatively low transportation frequency exists.
16. The transport system of claim 15.
The conveyed article arranged in an area other than the first area,
Conveyed from the arrangement position of the conveyed object to the loading start position by the inter-area conveying machine,
The inter-area conveying machine loads the conveyed article conveyed to the loading start position, and conveys the conveyed article from the area to the first area,
The control device is
In areas other than the first area, the 2. The transport system according to claim 1, wherein the inter-area transport machine is made to wait in the area before the object to be transported reaches the loading start position in the area.
The control device is
Controlling the inter-area transport machine to alternately perform (x) and (y) below;
(x) transporting the goods in an area other than the first area to the first area;
(y) transporting the goods in the first area to an area other than the first area;
A transport system according to claim 1 .
a first transport task of transporting a second transported object arranged in the first area, a second transport of transporting the first transported object transported to the first area by the inter-area transporter; assigning tasks to transport devices with priority,
The conveying device is a device for conveying an article placed in the first area,
The inter-area conveying machine is a device for conveying the first article to the first area from a second area located at a height different from that of the first area.
Conveyance control method.
an interface device that communicates with a conveying device that conveys a conveyed object arranged in the first area;
A first conveying task that is connected to the interface device and that conveys a second conveyed object arranged in the first area conveys the first conveying object conveyed to the first area by an inter-area conveying machine. a processor that preferentially assigns a second transport task for transporting the transported object to the transport device,
The inter-area conveying machine is a device for conveying the first article to the first area from a second area located at a height different from that of the first area.
Control device.