JP4086672B2 - Picking equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a picking facility that picks up articles (such as merchandise) from a picking shelf in response to an order (order) or a request of a ship-to party (for example, a store) and collects articles for each ship-to destination.
[0002]
[Prior art]
In the conventional picking equipment, a plurality of replenishment shelves for storing a plurality of boxes containing articles, and a slider that allows the boxes stored from the inner side to slide to the outer side and the boxes and articles to be taken out from the outer side. A plurality of picking shelves, a replenishment shelf and a picking shelf, and a crane for loading and unloading the boxes from the inside of the shelves, and the types and number of items of boxes stored in each replenishment shelf Each time the order information consisting of the type and number of articles to be picked is input, the replenishment shelf storing the boxes containing the articles to be picked is searched from this order information. The replenishment shelf box is replenished to each shelf position of the picking shelf assigned for each type of article (see, for example, Patent Document 1).
[0003]
In another conventional picking facility, a plurality of replenishment shelves for storing boxes storing articles, and a slider that allows the boxes stored from the inner side to slide to the outer side and the boxes and articles to be taken out from the outer side. A plurality of picking shelves, a replenishment shelf and picking shelves, a crane for loading and unloading the boxes from the inside of the shelves, and detecting that the boxes have been taken out from the picking shelves. When a sensor is provided and it is detected by a detection signal from the sensor that a box has been removed from the picking shelf, the same box is replenished from the replenishment shelf to the picking shelf from which the box has been removed (for example, Patent Document 2). reference).
[0004]
[Patent Document 1]
Japanese Patent No. 2632422
[0005]
[Patent Document 2]
Japanese Patent Laid-Open No. 3-102005
[0006]
[Problems to be solved by the invention]
However, in picking equipment that replenishes boxes to the picking shelf every time order information consisting of the type and number of items to be picked is input, even if the box is removed from the slider, it is not real-time replenishment, so there is a delay in replenishment. There is a problem that it is likely to occur and a shortage is likely to occur.
[0007]
In addition, if it is detected by the detection signal from the sensor that the box has been removed from the picking shelf, the picking equipment that replenishes the box can detect that the box has run out in real time, but a sensor must be installed for each picking shelf. However, there is a problem that it takes more time to deal with sensor failure and maintenance.
[0008]
Accordingly, an object of the present invention is to provide a picking facility that can replenish a picking shelf in real time.
[0009]
[Means for Solving the Problems]
  In order to achieve the above-described object, the invention described in claim 1 of the present invention includes a picking shelf having a plurality of compartment storage spaces for storing a plurality of storage containers storing articles to be picked.Storage means for storing the storage containers to be stored in the respective compartment storage spaces, and from the storage meansA collection unit that includes replenishing means for replenishing the storage container to each compartment storage space of the picking shelf, and instructing picking information for picking the article from the compartment storage space of the picking shelf and a picked article Comprising a cart having containers, managing information specifying the quantity of storage containers stored in each compartment storage space and the articles stored in these storage containers, and according to the picking request of the articles of the sorting destination, A picking facility that forms information for identifying the compartment storage space and picking information for the article comprising the quantity of articles picked from the compartment storage space, and instructs the instruction means for picking information of the article,
  Each time a picking operation is scheduled, a storage container to be replenished for each compartment storage space is assigned to the storage means, a predetermined area is formed by the plurality of compartment storage spaces of the picking shelf, and a plurality of the predetermined areas are formed. When picking into the compartment storage space is complete,The stock quantity of the storage container in each compartment storage spaceRespectivelyUpdated,It is determined whether or not the updated inventory quantity of each storage container is small or zero, and the storage means stores the compartment storage space containing the storage containers determined to have a small or zero inventory quantity.By the replenishment meansSaidThe storage container is replenished.
[0010]
  According to the above configuration, an operator in charge of collecting goods (hereinafter referred to as a picking operator) picks an article from the compartment storage space of the picking shelf in accordance with an instruction from the instruction means while moving the carriage along the picking shelf. Articles are collected by placing them in the collection container of the carriage.
  And when picking to each compartment storage space of the picking shelf which forms a predetermined area is completed, the article inventory quantity of the storage container of each compartment storage space is updated, and the article inventory quantity of the storage container is small or zero. When it is determined, this storage container is determined to have been used, and each compartment storage is stored in the storage means at each picking operation schedule with respect to the partition storage space containing the storage containers determined to have a small or zero inventory quantity. A storage container allocated for each spaceTo supplement meansThanTo be replenished.As described above, the storage containers to be replenished for each partition storage space are assigned to the storage means, whereby the storage containers to be replenished in advance can be prepared, and the replenishment can be performed quickly.
[0011]
  The invention described in claim 2 is the invention described in claim 1,The carriage is provided with an end means that operates at the end of the picking work from each compartment storage space, and when the end of the picking work to each compartment storage space that forms the predetermined area is confirmed by an operation signal of the end means, Update the stock quantity of each storage container in the compartment storage space.It is characterized by this.
[0012]
  According to the above configuration,When it is confirmed by the operation signal of the end means that the picking operation to each compartment storage space forming a predetermined area is confirmed, the article inventory quantity of the storage container in each compartment storage space is updated.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a schematic layout diagram of a picking facility according to an embodiment of the present invention, and a worker in charge of collection (hereinafter referred to as a picking worker) moves along a picking shelf while pushing a moving vehicle, Picking that collects articles for each sorting destination by taking out articles instructed by a monitor (liquid crystal display) provided on the moving vehicle from the compartment storage space of the picking shelf and putting them into collection containers on the moving vehicle Shows equipment.
[0020]
In FIG. 1, reference numeral 1 denotes a moving vehicle (an example of a carriage) that collects articles m by sorting destination while being picked by a picking operator. A plurality of picking shelves 3 are arranged in parallel.
[0021]
The picking shelf 3 is composed of a fluidized shelf that is inclined toward the travel route 2 side. As shown in FIGS. 2 and 3, each picking shelf 3 includes a plurality of storage containers 4 that store articles m to be picked. A plurality of compartment storage spaces 5 are provided, and each compartment storage space 5 allows the storage container 4 stored from the inner side to slide to the outer side, and the storage container 4 and the article m to be taken out from the outer side. The storage container 4 is a foldable container.
[0022]
Further, as shown in FIG. 3, a “ream” is formed by the compartment storage space 5 having a total of 12 frontage at the 3 frontage along the travel route 2, and each side has a horizontal A, B, C, vertical 1, Coordinates 2, 3, and 4 are attached, and the address (shelf number) of the compartment storage space 5 is set by the row number of the picking shelf 3 along the travel route 2, the serial number, and the coordinates. 5 is specified. The partition storage space 5 whose address N is “2-8-A3” indicates the partition storage space 5 of the eighth row of coordinates A3 in the second row. For each station, a column number and a label (display means) 6 on which the station number is printed are attached.
[0023]
Further, as shown in FIG. 1, wireless communication devices (an example of information transmission means) 7 (FIG. 1) that transmit and receive data to and from the mobile vehicle 1 are installed on the ceiling. Further, as shown in FIGS. 1 and 2, inside the picking shelf 3, a ceiling rail 9 on which an automatic guided vehicle (an example of a replenishing means) 8 that replenishes each compartment storage space 5 from the inside thereof travels. Is laid. The ceiling rail 9 extends to three replenishment warehouses (an example of storage means) 11 that stores the storage containers 4, and further forms a loop so that the automatic guided vehicle 8 can move to the inside of each picking shelf 3. It is erected from the ceiling.
[0024]
The automatic guided vehicle 8 includes a self-propelled carriage 16 that is guided by the ceiling rail 9 and a drive roller conveyor device that places the storage container 4 and transfers the container 4. And a transfer device 17 that can be raised. In addition, the transfer device 17 is provided with a barcode reader 18 (FIG. 8) for reading the barcode of the barcode label attached in advance to the storage container 4 being placed. This bar code is formed from a code that identifies the article m stored, for example, a product code.
[0025]
Each of the replenishment warehouses 11 automatically travels through two storage shelves 21 that are installed so as to face each other in the direction in which the goods are put in and out, and a work path 22 that is formed between the storage shelves 21. A crane 23 is provided, and each storage shelf 21 is provided with a plurality of article storage units 24 for storing the storage containers 4 in the upper and lower stages and in the traveling direction of the crane 23.
[0026]
On one end side of the work passage 22, an unloading device (storage container unloading port) 25 composed of a pair of drive roller conveyor devices is provided so as to face the unloading device 25 from the unloading device 25. It is transferred to the transfer device 17 of the automatic guided vehicle 8 that has arrived at the position. In addition, a bar code reader 26 that reads a bar code of a bar code label attached in advance to the storage container 4 is installed in the shipping device 25. In addition, the unloading device 25 and the transfer device 17 of the automatic guided vehicle 8 are configured to be able to transfer the storage container 4 by transmitting and receiving signals to and from each other.
[0027]
As shown in FIGS. 3 and 4, the mobile vehicle 1 is composed of a cart 32 supported by a plurality of wheels 31, and the cart 32 includes two boxes each of which can be folded up and down in three stages. There is provided a mounting portion 35 on which a collection container 34 can be placed, and two push button switches with lamps (one example of termination means) 36 are provided on one side corresponding to the placement position of each collection container 34. It has been. The collection containers 34 can correspond to two blocks, that is, two sorting destinations by putting a partition. Therefore, as described above, each collection container 34 is provided with two push button switches 36.
[0028]
Further, the carriage 32 is provided with a U-shaped handle 37 that is grasped when an operator pushes the moving vehicle 1, and an upper panel 38 is provided above the U-shaped handle 37. A terminal 40 with a monitor (an example of an instruction means) 39 made of a liquid crystal display and a numeric keypad 41 are provided, and a lower panel 42 is provided below the handle 37. On the panel 42, a bar code coder is provided. 43 is provided. Further, a plate 45 on which a barcode for identifying the mobile vehicle 1 is printed is provided on the side surface of the handle 37. Each mounting portion 35 is provided with a holding member 46 that holds the collection container 34 in an inclined manner, and a pair of rollers 47 are provided to facilitate the taking-in and out of the collection container 34.
[0029]
The twelve pushbutton switches 36, the monitor 39, the numeric keypad 41, the barcode coder 43, the wireless communication device (an example of information transmission means) 48 (FIG. 8) is a controller 49 (FIG. 8) in the terminal 40. )It is connected to the.
[0030]
Examples of screens displayed on the monitor (an example of instruction means) 39 are shown in FIGS.
FIG. 5A shows a partitioning work display screen for instructing whether or not to put a partition in the collection container 34, and FIG. 6 shows an article picked up by the mobile vehicle 1 having selected the work data for each series of the picking shelf 2. FIG. 7 is an entire screen on which the quantity of m is displayed, and FIG. 7 is a picking work screen. The picking work screen includes “shelf information of traveling route 2 being picked” a, “column to be picked-sequence number” b, “data on presence / absence of picking in each compartment storage space 5 indicated by sequence coordinates” c, “ The coordinates of the continuous compartment storage space 5 and the data of the quantity of articles m to be picked "d," the quantity of articles m to be put into each collection container 4 of the mobile vehicle 1 "e," work number "f, etc. are displayed. .
[0031]
FIG. 8 shows a control configuration diagram of the above equipment.
A crane controller 51 for controlling the crane 23 provided for each replenishment warehouse 11, a cart controller 52 for controlling a plurality of automatic guided vehicles 8, a plurality of mobile vehicles 1, and transmission / reception of data via the antenna 7. A mobile vehicle picking controller 54 connected to the wireless communication device 53 to be performed, and a general controller 55 that controls the controllers 51, 52, and 54 in an integrated manner to control the picking work are provided. These controllers 51, 52, 54, 55 are constituted by a computer.
[0032]
As shown in FIG. 8, communication between each crane controller 51 and the crane 23 is performed via an optical transmitter / receiver 57 provided in the crane 23 and an optical transmitter / receiver 58 provided in the work path 22, and a cart controller. 52 and each automatic guided vehicle 8 include a modem 60 connected to a feeder line (corresponding to an antenna) 59 laid along the ceiling rail 9 and a wireless modem 61 provided in the automatic guided vehicle 8. Done through.
"General controller 55"
For each batch (one shipping schedule), the overall controller 55 receives data consisting of a code (for example, a commodity code) of an article m that has been ordered or requested from each sorting destination (for example, a store) and its quantity ( 9), the data of each shipping schedule is transmitted to the mobile vehicle picking controller 54.
"Mobile car picking controller 54"
The moving vehicle picking controller 54 stores the data of each compartment storage space 5 of the picking shelf 3 specified by the address (column-continuous-coordinate), that is, the number of storage containers 4 to be stored and the storage containers 4. The code of the item m being stored and the item inventory quantity of the first storage container 4 to be picked are stored as management data {refer to FIG. 10A}, which will be described later “formation of work data” “reservation of storage containers to be replenished” “Update of inventory quantity of first storage container 4” is executed.
[Formation of work data]
Work data to be executed by each mobile vehicle 1 is formed.
[0033]
That is, first, when shipping schedule data is input from the general controller 55, the total number of articles m to be collected is obtained for each sorting destination, and the predetermined quantity (half the space of the collection container 34 with partitions) is obtained. Whether or not there is a sorting destination of less than (a quantity corresponding to the quantity of articles m that can be stored) is confirmed, and when there is a sorting destination of less than a predetermined quantity, a group of these sorting destinations (a group of small collection items) is formed.
[0034]
Next, the coordinates of No. 1 (1A, 1B), No. 6 (6A, 6B) in a state where a partition is put in the six collection containers 34 placed on one mobile vehicle 1 are shown. The sorting destinations are assigned to the coordinates of the collection containers 34, and assignment data (see FIG. 11) is formed. At this time, sorting destinations of a predetermined quantity or more are assigned to one collection container 34, and two sorting destinations of the small quantity collection group are assigned to one collection container 34. Accordingly, a maximum of 12 sorting destinations are assigned to each collection container 34 of one mobile vehicle 1.
[0035]
Further, for each sorting destination, an address of the compartment storage space 5 in which the requested article (product) m is stored is obtained by searching the management data, and sorting data (see FIG. 11) consisting of this address and the requested quantity is obtained. Form.
[0036]
Subsequently, for each sorting destination assigned to one mobile vehicle 1 (six collection containers 34), sorting data is overlapped and the address and quantity of the compartment storage space 5 where one mobile vehicle 1 is picked. The work data consisting of is formed and given a number (work number) (see FIG. 11).
[0037]
Thus, as shown in FIG. 11, when an operation number is selected from the moving vehicle 1, all addresses of the compartment storage space 5 in which the storage container 4 storing the articles m picked by the moving vehicle 1 and the respective picking are stored. Sorting data consisting of quantities and allocation data assigned to each collection container 34 of the mobile vehicle 1 are obtained.
[0038]
Subsequently, the picking work screen data, that is, picking data for each series is formed from the work data. That is, for each ream, continuous (sorting) data is formed which includes the coordinates, the total quantity of articles m picked in the compartment storage space 5 of these coordinates, and the picking quantity for each sorting destination (collection container 34).
[Provision of storage containers to be refilled]
The allocation data of the storage containers (replenishment containers) 4 to be replenished in each compartment storage space 5 is formed.
[0039]
That is, first, when shipping schedule data is input from the general controller 55, the management data is searched to obtain the total amount of articles m picked in each shipping storage space 5 in one shipping schedule.
[0040]
Then, after execution of one shipping schedule, as shown in the equation (1), the inventory quantity of goods is obtained from the quantity before picking stocked in the compartment storage space 5 and the total quantity to be picked. The quantity of the replenishing container 4 is obtained from the maximum quantity of articles that can be stored and the quantity of articles stored in one storage container 4. And the article inventory quantity of the division storage space 5 after replenishment is calculated | required.
[0041]
Remaining goods inventory = Quantity before picking-Total picking quantity
Replenishment container quantity = (maximum storable article quantity-remaining article inventory) ÷ storage container article quantity
Item inventory quantity after replenishment = Remaining article inventory quantity + Supplement container quantity × Storage container article quantity (1)
Subsequently, as shown in Expression (2), when the stock quantity of the storage space 5 after the replenishment is insufficient for the picking quantity of the next shipping schedule (the stock quantity after the replenishment−the picking quantity of the next shipping schedule < 0), the shortage quantity is obtained, and the quantity of the storage containers 4 satisfying this shortage quantity is allocated.
[0042]
Insufficient container quantity = (Picking quantity for the next shipment schedule-article inventory quantity in the compartment storage space 5 after replenishment) / article quantity in the storage container (2)
(However, if there is a remainder, add 1 to the shortage container quantity.)
Thereby, as shown in FIG. 12 (b), for example, when the compartment storage space 5 in which the storage containers 4 of four boxes (No. 1 to No. 4) with a predetermined quantity of articles to be stored is stored, When 14 items m are picked in the shipping schedule (1), it is determined that the No. 1 storage container 4 is used, and the No. 5 storage container 4 is allocated. Subsequently, when 17 items m are picked in the shipping schedule (2), it is determined that the No. 2 and No. 3 storage containers 4 are used, and the No. 6 and No. 7 storage containers. 4 is reserved. When 53 items m are picked in the shipping schedule (3), it is determined that the No. 4 to No. 9 storage containers 4 are used, and the No. 8 and No. 9 storage containers 4 are used. To be reserved. Thus, one storage container 4 is allocated to the compartment storage space 5 during the shipping schedule (1), and one storage container 4 is allocated during the shipping schedule (2). In the schedule (3), two storage containers 4 are allocated.
[0043]
Subsequently, for each shipment schedule, a list of storage containers 4 to be allocated to each compartment storage space 5, that is, data (product outgoing data) {see FIG. 10 (b)} consisting of product codes and quantities is created, and the shipment schedule is executed. Every time, it outputs to each crane controller 51.
[Update of inventory quantity]
The article inventory quantity of the top (outside) storage container 4 in which picking stored in each compartment storage space 5 is executed is updated.
[0044]
That is, when a picking operation is executed based on the continuous data and a continuous picking end signal to be described later is input, the inventory quantity of the top storage container 4 stored in the compartment storage space 5 that has been picked with the continuous data is used. , Subtract the picking quantity in the continuous data, and when the article inventory quantity of this container 4 becomes zero or less (when used), subtract the remaining picking quantity from the article inventory quantity of the next storage container 4 and The inventory quantity of the storage container 4 is obtained and updated. When the value is less than zero, replenishment command data for the storage container 4 for the compartment storage space 5, that is, data consisting of the address of the compartment storage space 5 and the product code of the stored article m is generated and output to the crane controller 51. To do.
"Crane controller 51"
Each crane controller 51 manages inventory management, that is, the code of the article m (product code) of the storage container 4 stored in each article storage unit 24, and when the storage container 4 is received, the storage container 4 4 stores the address of the article storage unit 24 that has received the goods 4 and the code of the article m stored in the storage container 4 that has received the goods, and when the goods are delivered, the storage is issued from the address of the article storage part 24 that has delivered the storage containers 4. Inventory management is performed by erasing the code of the article m stored in the container 4.
[0045]
Then, when shipping schedule data for each shipping schedule is input from the mobile vehicle picking controller 54, it is confirmed whether or not the storage container 4 scheduled to be shipped is stored by the product code, and if confirmed, the address of the article storage unit 24 and the product code are confirmed. Creates the outgoing data consisting of the number of the outgoing planned data. Then, when the delivery of the storage container 4 at an address far from the delivery device 25 is confirmed with this delivery schedule data, an empty article storage unit 24 close to the delivery device 25 is selected, and the crane 23 is informed of the current address and The transfer instruction including the address of the empty article storage unit 24 at the transfer destination is output, and the storage container 4 is transferred to the article storage unit 24 close to the unloading device 25. Also, the shipping data is corrected.
[0046]
When the replenishment command data is input, the retrieval data is retrieved with the product code, and when confirmed, a retrieval command including the address of the article storage unit 24 is output to the crane 23 to be delivered to the delivery device 25. Subsequently, when a signal indicating completion of delivery is input from the crane 23, the product code of the storage container 4 delivered by the bar code reader 26 is confirmed. If they match, the carriage controller 52 is sent to the address of the delivery device 25. The transfer destination is set to the address of the compartment storage space 5 of the replenishment command data, and a transfer command with the product code of the storage container 4 to be transferred is output.
"Dolly Controller 52"
When the transfer command is input from the crane controller 51, the cart controller 52 selects an empty automatic guided vehicle 8 close to the transfer source, and outputs the transfer command to the automatic guided vehicle 8. When the automatic guided vehicle 8 moves to the unloading device 25 that is the transfer source and transfers the storage container 4 in response to a signal with the unloading device 25, the barcode reader 26 reads the barcode of the transferred storage container 4, After confirming whether it matches the product code of the loading command, it moves to the compartment storage space 5 of the transport destination, and the storage container 4 is transferred to the inside of the compartment storage space 5. "Controller 49 of mobile vehicle 1"
Next, the operation of the controller 49 of the moving vehicle 1 will be described together with the picking operation, according to the flowcharts of FIGS. 13 to 15 and the explanatory diagram of FIG.
[0047]
The picking operator reads the bar code on the plate 45 by the bar code reader 43 and inputs a code for identifying the moving vehicle 1 to the controller 49, and inputs the operator's code using the numeric keypad 41. It is assumed that the work preparation by the mobile vehicle 1 is performed and that the number of the work data can be selected.
[0048]
First, the picking worker selects the number of the work data with the ten key 41.
When the controller 49 inputs the operation signal (number) of the numeric keypad 41 (step-a1), the work number data is transmitted to the moving vehicle picking controller 54 (step-a2).
[0049]
When the mobile vehicle picking controller 54 confirms the data of this work number (step-b1), it determines the picking quantity for each series of the continuous data of the selected work data and forms the data of the entire screen (step-b2). ), The data of the whole screen and the allocation data of the selected work data are transmitted to the controller 49 (step-b3).
[0050]
Upon receiving these data (step-a3), the controller 49 checks whether two sorting destinations are set for the collection container 34 based on the allocation data (step-a4), and two sorting destinations are set. Then, it is determined that the collection container 34 needs to be partitioned, and as shown in FIG. 5A, a partitioning operation screen is displayed to display that the collection container 34 needs to be partitioned and displayed on the monitor 39. Then, the lamp of the push button switch 36 corresponding to the collection container 34 that needs to be partitioned is turned on (step a6).
[0051]
The picking operator determines whether or not to put a partition in each collection container 34 from this partitioning work display screen, and inserts a necessary partition and operates the corresponding pushbutton switch 36 as shown in FIG. 5 (b). To do.
[0052]
When the controller 49 confirms the operation of the pushbutton switch 36, the controller 49 determines that the partition is inserted (step-a7), turns off the lamp of the corresponding pushbutton switch 36 (step-a8), and collects the collection container 34 that requires partitioning. When the operation signals of all the pushbutton switches 36 corresponding to the above are confirmed (step-a9), it is determined that the partition is unnecessary in step-a4, and the monitor 39 according to the data of the entire screen received from the moving vehicle picking controller 54. The whole screen (see FIG. 6) is displayed (step-a10).
[0053]
The picking operator selects a column on which the picking operation is to be performed from the entire screen and inputs a column number using the numeric keypad 41.
When the controller 49 inputs the number data of this column (step-a11), the controller 49 transmits the data of this column to the moving vehicle picking controller 54 (step-a12).
[0054]
When the moving vehicle picking controller 54 confirms the data in this column (step-b4), the continuous vehicle picking data in this column is selected and transmitted to the controller 49 based on the data in this column (step-b5). ).
[0055]
When the controller 49 receives this series of data (step-a13), the controller 49 forms the data of the above-described picking work screen (FIG. 7) based on the series of data and displays it on the monitor 39 (step-a14). The lamp of the push button switch 36 corresponding to the collection container 24 into which the article m is put is blinked (Step-a15).
[0056]
The picking worker executes the picking work according to the picking work screen.
That is, according to “data of coordinate and quantity of continuous compartment storage space” d, a quantity of articles m is picked from the compartment storage space 5 of this coordinate, and subsequently “injected into each collection container 4 of the mobile vehicle 1. The picked article m is subdivided according to the quantity “e of the article m”, the subdivided article m is put into the designated collection container 34, and the pushbutton switch 36 corresponding to the inputted collection container 34 is pushed. Also, when picking an article m, if the article m in the leading storage container 4 is insufficient, the leading storage container 4 is taken out of the compartment storage space 5 and is insufficient from the next storage container 4 that has moved forward. Pick the article m.
[0057]
When the controller 49 confirms the operation of the pushbutton switch 36 (step-a16), the controller 49 determines that the collection into the corresponding collection container 24 has been completed, and turns off the lamp of the pushbutton switch 36 (step-a17). It is confirmed whether or not all the push button switches 36 corresponding to the collection container 24 that collects goods in this series have been operated (step-a18).
[0058]
Subsequently, the picking operator presses the “ENTER” key of the numeric keypad 41 when the loading into all the collection containers 34 is completed.
Upon confirming the operation of the “ENTER” key (step-a19), the controller 49 transmits a series of picking end signals to the moving vehicle picking controller 54 (step-a20).
[0059]
When the moving vehicle picking controller 54 inputs the picking end signal of the series (step-b6), the picking quantity of the series data is set to zero (step-b7), and each picking is executed based on the series data. The article inventory quantity (management data) of the top storage container 4 in the compartment storage space 5 is subtracted (updated) (step-b8), and when the inventory quantity of these storage containers 4 becomes zero or less (step-b9), The replenishment command data for the storage container 4 for the compartment storage space 5, that is, data consisting of the address of the compartment storage space 5 and the product code of the article m stored therein is formed and output to the crane controller 51 (step -b10). As described above, the container 4 is replenished by the automatic guided vehicle 8 to the compartment storage space 5 whose inventory quantity has become zero or less in response to the replenishment command data as described above by the crane controller 51 and the cart controller 52. The storage container 4 to be replenished is a storage container previously allocated in the replenishment warehouse 11, and is replenished in real time according to the picking work situation.
[0060]
Next, the moving vehicle picking controller 54 confirms whether or not there is a ream to be picked in the current row (step-b11), and if there is, transmits data of the ream to be picked next to the controller 49 (step-b12). When there is no ream to pick in the current column, check whether there is another column to be picked (step-b13), and if there is, the data on the whole screen (the picking quantity in the picked column is gone) is re-executed. (Step-b14), and the data of the entire screen is transmitted to the controller 49 (step-b15). If there is no other column to be picked, end data is transmitted to the controller 49 (step b16), and the process ends.
[0061]
The controller 49 confirms whether continuous data is received from the mobile vehicle picking controller 54 (step-a21). If confirmed, the controller 49 returns to step-a14 to display the picking work screen. Is confirmed (step-a22). If confirmed, the process returns to step-a10 to display the whole screen. If the confirmation is not confirmed, confirmation is made whether the end data is received (step-a23). Then, the end is displayed on the monitor 39 (step-a24), and the process ends.
[0062]
The picking operator performs the picking work for each series, and when the column picking is finished, selects the column again and continues the picking work for the series of the column. Then, the picking operator displays the end on the monitor 39, and when all the picking work in each row is finished, the moving vehicle 1 is moved to the shipping area, and is wholesaled for each sorting destination set for each collection container 34, A new collection container 34 is loaded, the next work data number is selected, and the next picking work is started.
[0063]
As described above, according to the present embodiment, the picking operator moves the moving vehicle 1 along the picking shelf 3 and follows the instructions displayed on the monitor 39 from the compartment storage space 5 of the picking shelf 3. Is picked up and put into the collection container 34 of the mobile vehicle 1 to collect the article m. At this time, the article inventory quantity of the top storage container 4 of each compartment storage space 5 is subtracted (updated) in accordance with the picking work situation by the mobile vehicle 1, that is, every time a series of picking ends, and is grasped in real time. Depending on the grasped inventory quantity of goods, that is, when the inventory quantity of the storage container 4 is determined to be zero, the automatic storage vehicle 4 is replenished to the compartment storage space 5 by the automatic guided vehicle 8 to store in real time. Since the container 4 can be replenished fully automatically and the replenishment delay can be eliminated, a picking operation in which no shortage occurs can be realized. In addition, it is possible to replenish the storage container 4 transported by the automatic guided vehicle 8 by grasping that the storage container 4 has been used and replenishing the compartment storage space 5 with the storage container 4 being full. It is possible to prevent the occurrence of problems that cannot be performed. Further, unlike the conventional case, it is not necessary to provide a sensor for detecting that the storage container 4 has been taken out for each of the compartment storage spaces 5, and it is possible to eliminate the necessity of handling the failure of the sensor and performing maintenance and maintenance. The burden and cost can be reduced.
[0064]
Further, according to the present embodiment, each crane controller 51 forms delivery data by receiving the storage container 4 to be replenished for each partition storage space 5 for each shipping schedule (scheduled picking work). Thus, the storage container 4 to be replenished in advance can be prepared, so that the transfer to the automatic guided vehicle 8 can be performed quickly, and the compartment storage space 5 of the picking shelf 3 can be quickly replenished.
[0065]
In the present embodiment, the article inventory quantity of the storage container 4 in each compartment storage space 5 is updated when picking to the ream (picking shelf 3 in a predetermined area) is completed. By transmitting an operation signal for operating the push button switch 36 from the controller 49 of the moving vehicle 1 to the moving vehicle picking controller 54, the inventory quantity of the storage container 4 can be updated every time the push button switch 36 is operated. . At this time, when the article inventory quantity of the storage container 4 is updated by an operation signal of the push button switch 36 and the article inventory quantity becomes zero, it is determined that the storage container has been used, and replenishment is executed. In addition, the “predetermined area” is a series, but is not limited to a series, and can be a plurality of series, columns, or a plurality of columns. The goods inventory quantity can be updated upon completion.
[0066]
Further, in the present embodiment, when the updated article inventory quantity becomes zero, this storage container is determined to be used and replenishment is executed. May be determined to be used and replenishment may be executed.
[0067]
In the present embodiment, the automatic guided vehicle 8 is used as the replenishing means. However, the automatic guided vehicle 8 is not limited to the automatic guided vehicle 8. 4 may be replenished. Further, the storage container 4 can be directly replenished by the crane 23 of the replenishment warehouse 11. At this time, the traveling path of the crane 23 is set so that it can move along the inside of the picking shelf 3.
[0068]
In the present embodiment, a fluid shelf is used as the picking shelf 3, but a general shelf in which the storage container 4 that stores the article m does not move may be used. At this time, the picking operator removes the top storage container 4 and then moves the next storage container 4 forward. In addition, a pair of flow shelves as picking shelves 3 are arranged in opposite directions so that the inside faces each other, and a ceiling rail 9 is arranged between them, but the flow shelves are arranged in the same direction, and inside each flow shelf The ceiling rail 9 may be arranged.
[0069]
In this embodiment, the replenishment warehouse 11 is provided with an automatic warehouse provided with a storage shelf 21 that can be stored for each storage container 4. However, in a state where a plurality of storage containers 4 are placed on a pallet, that is, in units of pallets. It is good also as an automatic warehouse which has a storage shelf which can be stored in. At this time, a robot that can transfer the storage containers 4 from the pallet to the delivery device 25 one by one is required. Further, instead of the replenishment warehouse 11, a storage shelf may be provided in the space above the picking shelf 3 to store the storage container 4.
[0070]
In the present embodiment, a foldable container is used as the storage container 4 and the collection container 34. However, a cardboard, bucket, case, tray, or the like may be used. Moreover, the thing with a lid | cover (thing which can be sealed) may be sufficient.
[0071]
【The invention's effect】
As described above, according to the present invention, the article inventory quantity of the storage container in each compartment storage space is updated according to the picking work situation by the carriage, and the compartment storage space is replenished by the replenishing means according to the updated article inventory quantity. By replenishing the storage container, it is possible to automatically replenish the storage container in real time and to eliminate the replenishment delay, thereby realizing a picking operation in which no shortage occurs.
[Brief description of the drawings]
FIG. 1 is a schematic layout diagram of a picking facility according to an embodiment of the present invention.
FIG. 2 is a partial front view of the picking equipment.
FIG. 3 is a perspective view of a main part of the picking equipment.
FIG. 4 is a front view and a side view of a mobile vehicle of the picking equipment.
FIG. 5 is a partition work screen image displayed on a monitor of a moving vehicle of the picking facility.
FIG. 6 is an overall screen view displayed on the monitor of the moving vehicle of the picking facility.
FIG. 7 is a picking work screen image displayed on a monitor of a moving vehicle of the picking equipment.
FIG. 8 is a control configuration diagram of the picking equipment.
FIG. 9 is a list of shipment schedule data of the picking equipment.
FIG. 10 is a list of management data and shipping schedule data of the picking equipment.
FIG. 11 is a list of work data of the picking equipment.
FIG. 12 is a drawing explaining the allocation of replenishing containers for the picking equipment.
FIG. 13 is a flowchart showing a procedure of picking work of the picking equipment.
FIG. 14 is a flowchart showing a procedure of picking work of the picking equipment.
FIG. 15 is a flowchart showing a picking work procedure of the picking equipment.
FIG. 16 is an explanatory diagram of picking work of the picking facility.
[Explanation of symbols]
1 Mobile vehicle
2 travel route
3 Picking shelf
4 storage containers
5 compartment storage space
8 Automated guided vehicles
11 Replenishment warehouse
18, 26, 43 Bar code reader
21 Storage shelf
23 crane
25 Unloading device
34 Collection container
36 Pushbutton switch
39 Monitor
40 terminal
41 Numeric keypad
48, 53 Wireless communication equipment
49 Mobile car controller
51 Crane controller
52 cart controller
54 Moving vehicle picking controller
55 General controller
m Goods

Claims (2)

A picking shelf having a plurality of compartment storage spaces for storing a plurality of storage containers storing articles to be picked;
Storage means for storing the storage containers to be stored in the respective compartment storage spaces;
Replenishing means for replenishing the storage container from the storage means to each compartment storage space of the picking shelf;
An instruction means for instructing picking information for picking the article from the compartment storage space of the picking shelf, and a carriage having a collection container for storing the picked article,
Information for identifying the number of storage containers stored in each of the partition storage spaces and information for specifying the articles stored in the storage containers, and specifying the partition storage space in response to a picking request for a sorting destination article And picking information of the article comprising the quantity of articles picked from the compartment storage space, and picking information of the article to the instruction means, picking equipment,
For each scheduled picking operation, a storage container to be replenished for each compartment storage space is assigned to the storage means,
A predetermined area is formed by a plurality of compartment storage spaces of the picking shelf,
When picking to the plurality of compartment storage spaces forming the predetermined area is completed , the article inventory quantity of the storage container in each of the compartment storage spaces is updated, respectively .
It is determined whether or not the updated inventory quantity of each storage container is small or zero, and replenishment from the storage means to the compartment storage space containing the storage container determined to be low or zero in inventory quantity Picking equipment, wherein the allocated storage container is replenished by means. The carriage is provided with an end means for operating at the end of picking work from each compartment storage space,
The article stock quantity of the storage container in each of the compartment storage spaces is updated when the end of the picking operation to each compartment storage space forming the predetermined area is confirmed by the operation signal of the end means. Item 4. The picking facility according to Item 1.

Images