JP2007290803A - Sorting system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a sorting system capable of accompanying a product storage container with precise information of a consignee. <P>SOLUTION: A plurality of sorting sections 5 respectively related to stores are formed in this sorting system, and a number display 2 to transmit an infrared signal to the inside of the sorting section 5 is provided in each of the sorting sections 5. Cage cars 6 on which consignee display devices 3 free to receive the infrared signal are mounted are arranged in these sorting sections 5. The number display 2 transmits the infrared signal showing information of the store concerning the sorting section 5 in which a self device is provided. This infrared signal is received by the consignee display device 3 accompanied by the cage car 6 arranged in the sorting section 5 as the infrared signal is transmitted with directivity to the inside of the sorting section 5. Consequently, precise information of the store is distributed to the consignee display device 3, and it is possible to accompany the cage car 6 with the precise information of the store as the consignee display device 3 displays its information. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a sorting system that performs sorting by putting products into a plurality of product containers.

  In distribution centers (distribution centers, shipping centers, etc.) for retail stores such as supermarkets and convenience stores, it is common to use a sorting system to sort various products according to the number of orders received from stores. It has become. A sorting system is typically known as such a sorting system.

  In the sorting system, a plurality of sorting sections are provided so as to correspond to a plurality of stores as delivery destinations of products, and a number indicator for displaying the number of sorting is arranged in each of the plurality of sorting sections. . The operator, while transporting the same type of product to be sorted, puts the number of products displayed on the number indicator into the product container such as a cart or container placed in each sorting section. . By repeating such an operation for each type of product, each type of product for the number of orders received from the store can be correctly arranged.

  The sorted products are transported to the store in a state of being stored in the product container. Since this merchandise container is used for general purposes, it may not be possible to determine which store the merchandise container after the sorting operation corresponds to. For this reason, the label which described the store name used as a delivery destination is stuck on each goods container (for example, refer patent document 1).

  As prior art documents disclosing techniques related to the present invention, there are the following documents.

JP-A-8-310620 JP 2005-301030 A

  However, since the operation of applying the label with the store name as described above is an artificial operation, labor is required, and an operation error in which the label is erroneously applied to a different product container may occur. There is sex. If there is such an operation mistake, a situation occurs in which the product container is delivered to another store according to the label.

  Also, in recent years, the correspondence between sorting sections and stores is changed as needed according to market trends and the like, so there is a high possibility that such work errors will occur.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide a sorting system capable of attaching accurate delivery destination information to a product container.

  In order to solve the above-mentioned problem, the invention of claim 1 is a sorting system that performs sorting by putting products into a plurality of product containers, wherein the product containers can be arranged, and the delivery destination of the products A plurality of sorting sections respectively associated with each of the plurality of sorting sections, each of which is attached to each of the plurality of merchandise containers, and a transmitting device that transmits a radio signal with directivity into the sorting sections, And the display device capable of receiving the wireless signal, the transmission device transmits the wireless signal indicating the information of the delivery destination related to the sorting section in which the device itself is provided, the display device, The delivery destination information indicated by the received wireless signal can be displayed.

  Further, the invention of claim 2 is the sorting system according to claim 1, wherein for each of the sorting sections, a means for obtaining a notification of a change of the product container placed in the sorting section, and a change of the product container And a means for acquiring the usage order of the commodity containers in the sorting section, the transmitting device transmits a wireless signal indicating the usage order, and the display device receives The usage order indicated by the wireless signal can be displayed.

  Further, the invention of claim 3 is the sorting system according to claim 1, wherein for each of the sorting sections, a means for obtaining a notification of a change in a product container placed in the sorting section, and for each of the sorting sections, Based on the means for storing the sorting information in which the information on the product to be entered is registered, the change in the product container, and the sorting information, the information on the product put in each sorting container in the sorting section And the transmission device transmits a radio signal indicating the information of the inserted product, and the display device displays the information of the input product indicated by the received wireless signal. It can be displayed.

  The invention according to claim 4 is the sorting system according to claim 3, wherein the display device includes means for accepting an operation to change display contents, and the display device responds to the operation, and It is possible to switch between the information of the delivery destination and the information of the introduced product.

  Further, the invention according to claim 5 is the sorting system according to any one of claims 1 to 4, wherein the display device is capable of rewriting the display content and the display content is in a non-supply state of driving power. A display device,

  According to the first to fifth aspects of the present invention, since the wireless signal indicating the delivery destination information related to the sorting section is transmitted from the transmitting device with directivity into the sorting section, the wireless signal is stored in the sorting section. Is received by the display device associated with the commodity container placed in the box. For this reason, accurate delivery destination information can be distributed to the display device, and the display device can display the delivery destination information, so that accurate delivery destination information can be attached to the product container.

  In particular, according to the invention of claim 2, since the order of use of the product containers is displayed on the display device, it is possible to easily grasp the order in which the product containers are used.

  In particular, according to the invention of claim 3, since the information on the product put in the product container is displayed on the display device, the contents of the product container can be easily grasped.

  In particular, according to the invention of claim 4, it is possible to confirm the delivery destination of the commodity container and the contents of the commodity container as necessary.

  In particular, according to the invention of claim 5, the power consumption can be greatly suppressed.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

<1. Configuration>
FIG. 1 is a top view showing an outline of a sorting system 100 according to the first embodiment of the present invention. The sorting system 100 is configured such that the worker P performs sorting by feeding the goods to the cart 6 in the sorting section 5 that is fixedly arranged while conveying the goods to be sorted by the cart 7 or the like. It is a sorting system. The area shown in FIG. 1 is a unit as a work area and is called a “zone” Z. A plurality of similar zones Z are formed in the work space.

  In each zone Z, one operation terminal 4 is provided. The operation terminal 4 includes a display 41, a function switch 42, a barcode reader 43, and the like, and can display and input various types of information.

  Further, in one zone Z, one passage 8 for the worker P to perform sorting work is formed. A plurality of sorting sections 5 are linearly provided in two rows so as to sandwich this passage 8. On the floor surface of the work space, a frame line 51 for clarifying the boundaries of the sorting sections 5 is formed. That is, the space immediately above each rectangular frame defined by the frame line 51 functions as the sorting section 5. Each of the sorting sections 5 is associated with a store serving as a delivery destination in advance.

  FIG. 2 is a perspective view showing three sorting sections 5 arranged side by side. As shown in FIGS. 1 and 2, each sorting compartment 5 is provided with one basket car 6 that is a portable commodity container capable of accommodating a commodity. The car 6 is a movable carriage that includes a car whose one side is also called a “roll box pallet”. The car 6 is arranged with the open face that faces the front facing the passage 8. During the sorting operation, products to be shipped to the store associated with the sorting section 5 are put into these basket cars 6. Then, after the sorting operation is completed, the car 6 is delivered to the store as it is in a state where the goods are accommodated.

  When the basket car 6 placed in the sorting section 5 is filled with commodities during the sorting operation, it is replaced at the judgment of the worker P. That is, the full cart 6 is removed from the sorting compartment 5, a new empty cart 6 is placed in the sorting compartment 5, and then the product is continuously input to the new cart 6. Therefore, a plurality of carts 6 may be delivered to one store. Such a car 6 is not used exclusively for each store, but is used for general purposes.

  Further, as shown in FIGS. 1 and 2, a number indicator 2 is provided in each of the plurality of sorting sections 5. These number indicators 2 are fixed to a frame 50 that traverses the upper part of the row of the plurality of sorting sections 5. The number display unit 2 displays the number of products that are the number of products to be sorted with respect to the arranged sorting section 5 (that is, the number of products ordered from the store corresponding to the sorting section 5).

  FIG. 3 is a front view showing the configuration of the number indicator 2. The number display 2 includes a segment type display 21 that displays a numerical value as the number of sorting, a work lamp 25 that indicates that work is required, and a completion button 22 and a full button 23 that accept the operation of the worker P. ing. The completion button 22 is for receiving from the worker P that the introduction of one type of product has been completed, and the full button 23 is for receiving from the worker P that the car 6 is full. As another configuration of the number indicator 2, the display 21 and the work lamp 25 may have a function as a completion switch.

  The number display device 2 includes a control unit 24 configured by a computer having a CPU, a memory, and the like. The control unit 24 controls the display operation of the number display 2 and the like. Further, the memory of the control unit 24 stores a section code related to the sorting section 5 in which the number indicator 2 is arranged. The section code is an identification code for identifying each sorting section 5. Since the sorting section 5 and the number indicator 2 correspond in a one-to-one relationship, this section code is also used as an identification code for identifying the number indicator 2.

  The right side of the number indicator 2 is a communication unit 26 that transmits and receives an infrared signal that is a radio signal. Thereby, the number indicator 2 also functions as a transmitting device that transmits an infrared signal and a receiving device that receives the infrared signal. An infrared signal transmission / reception surface 27 in the communication unit 26 is provided on the lower surface of the number display 2. That is, the communication unit 26 performs communication with directivity downward from the number display 2. As shown in FIG. 2, since the number indicator 2 is arranged at the upper part of the sorting section 5, it transmits and receives infrared signals with directivity into the sorting section 5 in which the device itself is placed. Become.

  Further, as shown in FIG. 2, one delivery destination display device 3 having a function of electronically displaying various information is attached to one basket car 6. The delivery destination display device 3 is attached to the car 6 and is moved together with the car 6 and mainly displays information on a store serving as a delivery destination of the car 6 as a destination.

  FIG. 4 is a diagram illustrating a configuration of the delivery destination display device 3. The delivery destination display device 3 includes a display 31 for displaying information and a display changeover switch 35 on the front surface thereof. The display 31 is composed of a liquid crystal display device of a dot matrix system, and can display various information using various character fonts and figures. The display changeover switch 35 receives an operation for changing the display content of the display 31 and is operated by the user as necessary.

  In addition, the delivery destination display device 3 includes a communication unit 32 that receives and transmits infrared signals. The communication unit 32 can transmit and receive infrared signals to and from the communication unit 26 of the number display 2 via a transmission / reception surface provided on the upper surface of the delivery destination display device 3.

  As shown in FIG. 2, the delivery destination display device 3 is attached to the right side surface toward the front (open surface) of the car 6. For this reason, when the car 6 is arranged in the sorting section 5, the delivery destination display device 3 of the car 6 is arranged almost directly below the communication unit 26 of the number display 2. It becomes possible to communicate between.

  Since the infrared signal has a relatively strong directivity (communicable range is relatively narrow), the delivery destination display device 3 is connected to the number display 2 in the sorting section 5 different from the sorting section 5 in which the own apparatus is placed. There is no communication between them. Further, when the car 6 is moved out of the sorting section 5, the delivery destination display device 3 cannot communicate with the number display 2.

  Returning to FIG. 4, the delivery destination display device 3 includes a control unit 33 for controlling the entire device and a battery 34 for supplying power to the entire device. The control unit 33 is configured by a computer including a CPU, a memory, and the like. Information included in the infrared signal received by the communication unit 32 is stored in the memory and displayed on the display 31 under the control of the control unit 33.

  The sorting system 100 also includes a host computer that controls the entire system in an integrated manner. FIG. 5 is a block diagram showing the overall configuration of the sorting system 100 including the host computer 1.

  As shown in the drawing, the operation terminal 4 of each zone Z is wired to the host computer 1 via a communication cable 101. In each zone Z, a display controller 20 for controlling the display of the number display unit 2 to the operation terminal 4 is wired through a communication cable 102, and each number display unit is connected to the display controller 20. 2 are wired via a communication cable 103. With this configuration, the host computer 1 transmits various information and control signals to the number display 2 in each zone Z by wired communication.

  The control unit 24 of each number indicator 2 also functions as a communication unit. When displaying the number of sorting on a certain number display 2, a control signal including a division code and the number of sorting for the number display 2 is transmitted from the host computer 1. This control signal is input to the display controller 20 via the operation terminal 4. Upon receiving this control signal, the display controller 20 specifies the number indicator 2 related to the division code included in the control signal, and transmits the control signal to the control unit 24 of the number indicator 2. As a result, the number of sorting is displayed on the display 21 of the number display 2.

  On the contrary, when the completion button 22 or the full button 23 is pressed on the number display 2, the control unit 24 responds to this and displays an operation signal indicating that together with the section code stored in the memory. Send to. The operation signal is input to the host computer 1 via the operation terminal 4. As a result, the host computer 1 can recognize which operation is performed on which number display 2. Information operated on the operation terminal 4 is also input to the host computer 1.

  Further, the host computer 1 can also transmit various information and control signals to the delivery destination display device 3 of the car 6 arranged in the specific sorting section 5. In the case of transmitting information to be displayed on the delivery destination display device 3 existing in a certain sorting section 5, as in the case of displaying the sorting number on the number display 2 of the sorting section 5, A control signal including information to be displayed is transmitted. In response to this, the control unit 24 of the number display unit 2 converts the received control signal into an infrared signal and transmits it from the communication unit 26. At this time, if the delivery destination display device 3 exists below the number display 2, the delivery destination display device 3 receives an infrared signal. Whether or not the infrared signal is normally received by the delivery destination display device 3 is confirmed by a response signal returned from the delivery destination display device 3.

  As described above, when information is transmitted from the host computer 1 to the delivery destination display device 3, the host computer 1 to the number display 2 are performed by wired communication using the communication cables 101 to 103, and the number display is performed. From the device 2 to the delivery destination display device 3 is performed by wireless communication using an infrared signal.

  The configuration of the host computer 1 as hardware is the same as that of a general computer. FIG. 6 is a diagram showing a basic configuration of the host computer 1. As shown in the figure, the host computer 1 includes a CPU 11 that performs various arithmetic processes, a ROM 12 that stores basic programs, a RAM 13 that serves as a work area for arithmetic processes, a hard disk 14 that stores programs and various data files, and various displays. A display 15 to be performed, an input unit 16 including a keyboard and a mouse, and a communication unit 17 for communicating with the number display 2 and the like are provided.

  A dedicated program is stored in advance in the hard disk 14 of the host computer 1, and various functions as the host computer 1 are realized by the CPU 11 performing arithmetic processing according to this program. The hard disk 14 of the host computer 1 further stores a work table T1 which is table data necessary for the operation of the sorting system 100.

  The work table T1 mainly shows sorting information indicating how many products should be sorted into each sorting section 5, and sorting work is performed based on the registered contents of the work table T1. The work table T1 is created based on orders received from each store before sorting work.

  FIG. 7 is a diagram illustrating an example of the work table T1. As shown in the figure, the work table T1 is data in a table format composed of a plurality of records R1. One record R1 corresponds to one store and indicates the number of products ordered from the store. That is, one record R1 indicates the amount of work required for one sorting section 5 (the number of products to be input).

  Each record R1 is composed of a “compartment code” of the sorting section 5, store data Da relating to the store corresponding to the sorting section 5, and product data Db regarding the product to be put into the sorting section 5. . The store data Da includes information for specifying a store such as “store name”, “store code”, and “contact”. “Store name” is the name of the store that is the delivery destination, and “Store code” is an identification code for identifying the store.

  In the product data Db, information related to one type of product is registered as one sub-record R2. Each of the sub-records R2 includes “product code”, “product name”, “sort quantity”, and “car number”. The “product code” is an identification code for identifying the product, the “product name” is the name of the product, and the “sort quantity” is the number to which the product is to be input. Further, the “car car number” is information indicating in what order the product has been placed in the car 6 placed in the sorting operation. This “car car number” is blank before the sorting operation, and the contents are sequentially registered during the sorting operation.

<2. Sorting work>
Next, sorting work using the sorting system 100 will be described. In the following, for simplification of description, attention is focused on a certain sorting section 5, and the flow of work and processing related to the focused sorting section 5 will be mainly described. Hereinafter, the noticed sorting section 5 is referred to as a “target section” and is distinguished from other sorting sections 5. FIG. 8 is a diagram showing a flow of work and processing related to the target section. Actually, operations and processes similar to those in FIG. 8 are performed in parallel for all the sorting sections 5.

  First, as an initialization process of the host computer 1, the “order variable” that is a variable handled by the CPU 11 is set to “1”. The “order variable” indicates the use order of the car car 6 that is placed in the target section at that point in time. The CPU 11 of the host computer 1 manages the “order variable” for each of the plurality of sorting sections 5 (step S1).

  Next, an empty car 6 is placed in the attention section by the worker P. A delivery destination display device 3 is attached to the car 6 in advance. At this time, no information is displayed on the delivery destination display device 3 (step S2).

  Next, actual sorting work is performed. That is, first, the worker P transports one type of merchandise to be sorted by the carriage 7 and causes the bar code reader 43 of the operation terminal 4 to read the bar code indicating the merchandise code attached to the merchandise.

  The read product code is transmitted to the host computer 1. In response to this, the CPU 11 of the host computer 1 refers to the record R1 related to the target section in the work table T1, and the “sort quantity” of the sub-record R2 corresponding to the product code is the number display section 2 of the target section. Sent to. As a result, “sorted quantity” is displayed on the display 21 of the number indicator 2 of the noticed section, and the work lamp 25 is turned on. At this time, the “order variable” at that time is registered in the “car number” of the sub-record R2 (step S3).

  In practice, the operation in step S3 is performed in parallel for all the sorting sections 5 included in one zone Z. That is, by reading the bar code of one type of product, the number of sorting is displayed all at once on the number display 2 of all the sorting zones 5 included in the same zone Z as the target zone.

  In accordance with the displayed “sorted quantity”, the worker P puts that number of products into the basket car 6 arranged in the target section. When the insertion is completed, the completion button 22 of the number display 2 is pressed. Accordingly, the host computer 1 accepts that the insertion related to the attention section of one type of product is completed, and the number display section 2 and the work lamp 25 of the attention section are turned off (step S4).

  Thereafter, the worker P repeats the operations in steps S3 and S4 for each type of product to be sorted. By repeating this, the “order variable” at that time is sequentially registered in the “car number” of each sub-record R2 of the record R1 related to the target section of the work table T1.

  Further, when the car 6 is filled with goods while repeating such operations, the worker P needs to replace the car 6. At this time, the operator P depresses the full button 23 of the number display 2 before exchanging the car 6 (Yes in step S6). As a result, a predetermined signal is transmitted to the host computer 1 and the CPU 11 is notified that the car 6 is to be changed.

  In response to this, first, the CPU 11 refers to the record R1 related to the target section of the work table T1, and stores the store data (“store name”, “store code”, “contact”, etc.) of the record R1). The This store data will show the information of the store linked | related with the attention area (step S7).

  Next, the CPU 11 identifies all the products that have been put into the car 6 before replacement. That is, among the sub-records R2 of the record R1, the one in which the “order variable” at that time is stored in the “car number” is extracted. The sub-record R2 extracted at this time is for a product that has been put into the car 6 before replacement. Then, the CPU 11 extracts the contents of the sub-record R2 extracted (“product code”, “product name”, “sort quantity”, etc.), that is, product data only about the product put into the car 6 before replacement ( Hereinafter, “specific product data” is acquired (step S8).

  Next, the acquired store data and specific product data, and the “order variable” at that time are transmitted from the host computer 1 to the number display unit 2 of the target section by wired communication. Further, the number display 2 transmits the store data, the specific product data, and the infrared signal indicating the “order variable” toward the attention section. In other words, the number indicator 2 is input to the information on the delivery destination related to the sorting section in which the device is provided, the order of use of the car 6 disposed at that time in the sorting section, and the car 6. An infrared signal indicating product information is transmitted (step S9).

  This infrared signal is received by the delivery destination display device 3 of the car 6 before replacement placed in the target section, and store data, specific product data, and “order variable” indicated by the infrared signal are stored in the memory of the control unit 33. Is remembered. Then, under the control of the control unit 33, display contents based on the received store data and “order variable” are displayed on the display 31.

  FIG. 9 is a diagram showing an example of display on the display 31 at this time. As shown in the figure, the display 31 displays various types of information about the store serving as the delivery destination, such as “Store Name” 3a, “Store Code” 3b, and “Contact” 3c, based on the received store data. The In addition, on the upper right side of the display 31, the usage order 3d of the car 6 is also displayed based on the received “order variable”. The worker P can clearly grasp to which store the cart 6 should be delivered and can also easily grasp the order of use of the cart 6 by the display of the delivery destination display device 3. .

  In addition, when the display changeover switch 35 is operated in the state of FIG. 9, the display contents of the display 31 are switched in response to the operation, and as shown in FIG. 10, the received product data and the “order variable” are displayed. The display content based on this is displayed on the display 31.

  As shown in FIG. 10, the display 31 displays information 3e on all the products introduced into the car 6 such as “product name” and “sort quantity” based on the received product data. . Also in this case, the usage order 3d of the car 6 is also displayed on the upper right of the display 31. The worker P can easily grasp the specific contents of the commodity accommodated in the car 6 by confirming the display on the delivery destination display device 3. When the display changeover switch 35 is operated in the state shown in FIG. 10, the display content on the display 31 is switched again to that shown in FIG.

  When various pieces of information are transmitted to the delivery destination display device 3 in this way, the “order variable” is then incremented (+1) by the CPU 11 (FIG. 8: step S10). This “order variable” is the use order of the car 6 to be placed next. As described above, by incrementing the “order variable” in response to the change of the car 6, the order of use of the car 6 in the target section can be acquired.

  Thereafter, the new car 6 is placed in the attention zone (step S2), and the product is introduced into the new car 6 in the same manner as described above (steps S3 and S4). .

  In this process, the full button 23 is pressed even when the new car 6 is full of products, and the operations of steps S7 to S10 are performed. That is, in the same manner as described above, store data of a store associated with the target section is acquired (step S7), and all products that have been put into the car 6 are specified, and specific product data about the product is obtained. Obtained (step S8). And store data, specific merchandise data, and "order variable" are transmitted with respect to the delivery destination display apparatus 3 of the said cart 6 (step S9).

  Thereby, also in the delivery destination display device 3 of the car 6, the same display as in FIGS. 9 and 10 can be performed. However, if the car 6 is used second, “2” is displayed as the use order 3d on the delivery destination display device 3 attached to the car 6 and the product information 3e Information about the product put into the car 6 is displayed. Thereafter, the “order variable” is incremented (step S10).

  As described above, the product introduced into the car 6 is specified based on the “order variable” described in “car number” in the work table T1. The “order variable” is incremented every time it is accepted that the car 6 is changed (step S10). That is, the product introduced between the two changes of the car 6 in the latest two times is specified as the product introduced into the car 6. In other words, the information on the product introduced for each car 6 is acquired based on the change of the car 6 and the work table T1.

  Such processing (steps S3, S4, S6 to S10) is performed until all the types of products to be sorted are put into the target section (during No in step S5). When all types of products have been introduced, when the worker P presses the completion button 22, there is no sub-record R2 in which the “car number” is blank in the record R1 related to the target section of the work table T1. It is judged with.

  When the input for all types of products is completed (Yes in step S5), first, store data of stores associated with the target section is acquired in the same manner as in step S7 (step S11). Next, in the same manner as in step S8, all the products put into the car 6 are specified, and specific product data for the products is acquired (step S12). And store data, specific merchandise data, and "order variable" are transmitted with respect to the delivery destination display apparatus 3 of the said cart 6 (step S13). As a result, the same display as in FIGS. 9 and 10 can be performed also on the delivery destination display device 3 of the car 6 used last.

  Thus, the work and processing related to the attention partition are completed. The cart 6 in which the product is accommodated is then loaded on a truck or the like and delivered to a store in the attention zone. Since the delivery destination display device 3 attached to each car 6 is driven by the battery 34, the display of the store information as the delivery destination as shown in FIG. 9 is maintained during and after delivery. Therefore, the worker in charge of delivery can easily grasp the delivery destination of the car 6 by visually checking the display on the delivery destination display device 3. Moreover, since the product information 3e as shown in FIG. 10 can be displayed on the delivery destination display device 3 as required, the product accommodated for each car 6 can be easily grasped.

  As described above, in the sorting system 100 of the present embodiment, a plurality of sorting sections 5 for arranging the carts 6 are formed, and the plurality of sorting sections 5 are respectively associated with a plurality of stores. Each sorting section 5 is provided with a number indicator 2 that transmits an infrared signal with directivity into the sorting section 5. On the other hand, a delivery destination display device 3 capable of receiving an infrared signal is attached to the car 6. And the number indicator 2 transmits the infrared signal which shows the information of the shop which concerns on the sorting division 5 in which the own apparatus was provided. Since the infrared signal is transmitted with directivity into the sorting section 5, the infrared signal is received by the delivery destination display device 3 associated with the car 6 disposed in the sorting section 5. As a result, accurate store information is distributed to the delivery destination display device 3, and the delivery destination display device 3 displays the information, whereby the cart 6 can be accompanied with accurate store information. . For this reason, the worker who handles the cart 6 can easily grasp the correct store to which the cart 6 is delivered, and can prevent erroneous delivery of the cart 6.

  Further, when information is transmitted from the host computer 1 to the delivery destination display device 3, the host computer 1 to the number display device 2 is performed by wired communication, and the number display device 2 to the delivery destination display device 3 is used. It is performed by infrared communication. That is, infrared communication is performed for each number indicator 2 provided in each sorting section 5. Therefore, since the infrared signal has a relatively strong directivity, infrared communication can be performed in parallel in the plurality of sorting sections 5.

  Here, it is assumed that an infrared signal is transmitted to all the delivery destination display devices 3 at the same time by using one signal transmission device. In this case, in order to avoid communication failure due to interference between infrared signals, infrared signals related to all the delivery destination display devices 3 must be transmitted in series. In general, since a certain amount of time is required for transmission of infrared signals, in this case, it takes an enormous amount of time to transmit all infrared signals. On the other hand, in the sorting system 100 according to the present embodiment, infrared communication can be performed in parallel in the plurality of sorting sections 5, and therefore infrared signals are transmitted to all the delivery destination display devices 3. Even so, it is possible to transmit all infrared signals only in the time width necessary for one transmission, and it is possible to greatly reduce the transmission time.

  In addition to the store information, the delivery destination display device 3 attached to the cart 6 can also display the order of use of the cart 6 and the information of the products put into the cart 6. The worker who handles the vehicle 6 can also check the contents as necessary.

<3. Second Embodiment>
In the first embodiment, the display 31 of the delivery destination display device 3 is composed of a liquid crystal display device. However, the display contents can be rewritten, which is also referred to as “electronic paper”, and the driving power is not reduced. You may comprise by the non-volatile display device which maintains the display content in a supply state.

  As the non-volatile display device, for example, the one disclosed in Patent Document 2 can be used. Hereinafter, such a nonvolatile display device will be briefly described.

  FIG. 11 is a cross-sectional view of a display 31 composed of a nonvolatile display device. As shown in the figure, the display 31 includes two substrates 91 and 92 made of a transparent material such as glass in parallel at a predetermined interval. A partition wall 93 is formed between the two substrates 91 and 92 at predetermined intervals so as to partition the space. Each of the spaces partitioned by the partition wall 93 functions as one pixel 90. When the display 31 is viewed from the display surface side (the side indicated by the arrow Ar in the figure), such pixels 90 are arranged in a matrix.

  In each pixel 90, electrodes 94 and 95 made of ITO or the like are provided on the inner surfaces of the substrate 91 and the substrate 92, respectively. Further, in the space surrounded by the electrodes 94 and 95 and the partition wall 93, two kinds of particles 96 and 97 composed of a substance in an intermediate state having both fluid and particle characteristics are enclosed. . One of these two kinds of particles is a colored particle 96 colored with a predetermined color, and the other is a white white particle 97. The colored particles 96 are charged at a relatively high potential, and the white particles 97 are charged at a relatively low potential.

  In the pixel 90 having such a configuration, when a potential difference is applied between the electrodes 94 and 95 so that the potential of the electrode 95 on the back side opposite to the display surface side becomes higher as shown in FIG. The colored particles 96 charged to the potential move to the display surface side, and the white particles 97 charged to the low potential move to the back side. Therefore, when the pixel 90 is viewed from the display surface side, the pixel looks like the color of the colored particles 96.

  On the other hand, as shown in FIG. 13, when a potential difference is applied between the electrodes 94 and 95 so that the potential of the electrode 94 on the display surface side becomes high, the colored particles 96 charged at a high potential move to the back side due to the Coulomb force. The white particles 97 charged at a low potential move to the display surface side. Therefore, when the pixel 90 is viewed from the display surface side, the pixel looks white.

  In this way, by controlling the potential difference applied to the electrodes 94 and 95 for each pixel, the coloration / non-coloration state of each pixel can be switched. Thereby, the display 31 can display various images, and the display contents can be rewritten. Further, the positions of the particles 96 and 97 are maintained even in the state where the driving power is not supplied due to the properties of the particles 96 and 97. For this reason, the display content is maintained even when the drive power is not supplied to the display 31.

  The display 31 of the delivery destination display device 3 basically displays information on a store as a delivery destination at all times. For this reason, if a non-volatile display device is employed as the display 31, power is not consumed except when the display content is rewritten. Therefore, the amount of drive power consumed is greater than when a liquid crystal display device is employed. Can be greatly suppressed.

<4. Other variations>
Although the embodiments of the present invention have been described above, the present invention is not limited to the above-described embodiments, and various modifications are possible. Of course, you may combine the form demonstrated below suitably.

  In the above embodiment, infrared communication is used for wireless communication between the number display 2 and the delivery destination display device 3, but the number display 2 enters the sorting section 5 in which the own device is arranged. Other radio communication schemes may be adopted as long as radio signals can be transmitted with directivity. For example, you may employ | adopt the radio | wireless communication system used for RFID technology.

  In the embodiment described above, the delivery destination display device 3 is attached to the car 6. However, the delivery destination display device 3 is accommodated in the car 6 by accommodating the delivery destination display device 3 together with the product. 3 may be attached.

  In the above embodiment, the delivery destination display device 3 displays the delivery destination information and the information of the introduced product by switching them. However, these may be displayed simultaneously on the same screen. .

  In any of the above embodiments, the portable commodity container is not limited to the cart 6 and may be, for example, a container or a pallet table. When a container is used as a product container, the internal space of the product rack on which the product is placed is divided into a plurality of regions, and each of the plurality of regions functions as a sorting section associated with each product delivery destination. Also good. Moreover, a partition plate etc. may be arrange | positioned in the boundary of a sorting division, and the adjacent sorting division may be physically divided.

It is a top view showing the outline | summary of a sorting system. It is a perspective view which shows a sorting division. It is a figure which shows the structure of a number indicator. It is a figure which shows the structure of a delivery destination display apparatus. It is a block diagram which shows the whole structure of a sorting system. It is a figure which shows the basic composition of a host computer. It is a figure which shows an example of a work table. It is a figure which shows the flow of work and a process. It is a figure which shows an example of a display of a delivery destination display apparatus. It is a figure which shows an example of a display of a delivery destination display apparatus. It is sectional drawing of the display part comprised with a non-volatile display device. It is a figure which shows an example of the state of the pixel of a non-volatile display device. It is a figure which shows an example of the state of the pixel of a non-volatile display device.

Explanation of symbols

2 Number display device 3 Delivery destination display device 5 Sorting section 6 Basket car 26 Communication unit 31 Display 32 Communication unit 35 Display changeover switch

Claims (5)

A sorting system that performs sorting by putting products into a plurality of product containers,
A plurality of sorting sections each capable of arranging the product container and associated with a delivery destination of the product;
A transmitter that is provided in each of the plurality of sorting sections and transmits a radio signal with directivity into the sorting sections;
A display device attached to each of the plurality of commodity containers and capable of receiving the wireless signal;
With
The transmitting device transmits the wireless signal indicating the information of the delivery destination related to the sorting section in which the own device is provided,
The sorting system, wherein the display device is capable of displaying the information on the delivery destination indicated by the received wireless signal. The sorting system according to claim 1,
Means for obtaining a notification of a change in the product container to be placed in the sorting section for each sorting section;
Based on the change of the product container, means for obtaining the order of use of the product container in the sorting section;
Further comprising
The transmitting device transmits a wireless signal indicating the use order,
The sorting system, wherein the display device is capable of displaying the use order indicated by the received wireless signal. The sorting system according to claim 1,
Means for obtaining a notification of a change in the product container to be placed in the sorting section for each sorting section;
Means for storing sorting information in which information on products to be input is registered for each sorting section;
Based on the change of the product container and the sorting information, means for acquiring information on the product put in for each of the product containers in the sorting section;
Further comprising
The transmitting device transmits a radio signal indicating information of the introduced product,
The sorting system according to claim 1, wherein the display device is capable of displaying information on the introduced product indicated by the received wireless signal. The sorting system according to claim 3,
The display device is configured to receive an operation for changing display content;
With
The sorting system is capable of switching and displaying the information on the delivery destination and the information on the introduced product in response to the operation. The sorting system according to any one of claims 1 to 4,
The display device is a display device capable of rewriting display content and maintaining the display content in a non-supply state of drive power,
A sorting system characterized by comprising:

Images