JP2007099440A - Article delivery system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a delivery system for an article suitable for delivering the article requiring emergency by shortening a required time for delivery. <P>SOLUTION: The article is delivered to an order side positioned at an arbitrary position using a delivery means of a vehicle mounted with the article and the vehicle after delivering is moved to a plurality of storage places of the article built at different places from each other. The route is displayed on a delivery scheduling display means as a delivery schedule so as to replenish the article at the storage position of the shortest required time obtained by a route retrieval means. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an article delivery system.

  In an article delivery system that delivers a predetermined article to a predetermined place, a delivery vehicle loads the article stocked in a warehouse and delivers the article to a predetermined place. In general, in a system that loads packages from a single warehouse called a single depot and transports them to multiple delivery destinations, the transport route and time are set to be the shortest. A system for setting a vehicle allocation is known.

  Such a single depot system delivers packages via a specific single warehouse at all destinations. Therefore, depending on the location of the delivery destination, the delivery vehicle moves to the warehouse located in the opposite direction to the delivery destination, and after the delivery article is loaded on the vehicle, it moves to the delivery destination located in the opposite direction from the direction where it came again. As a result, the delivery time becomes longer, which increases the delivery cost.

In order to suppress such an increase in delivery cost due to a single depot, Patent Document 1 discloses a delivery plan system applied to a plurality of warehouses called a multi-depot. In the delivery planning system disclosed in Patent Document 1, it is shown that a route with the shortest delivery route is selected from a plurality of storage warehouses and a vehicle dispatch plan on the day of delivery is created.
JP 2004-59231 A

  According to the delivery planning system disclosed in Patent Document 1, the delivery time can be further reduced as compared with a delivery system using a conventional single deposit.

  On the other hand, there is a case where a shortening of the delivery time is further required due to a request from the delivery destination. For example, repair parts for automobiles, particularly lead-acid batteries for automobiles are examples. If the vehicle becomes unable to travel on the road due to a failure of the lead-acid battery, the driver cannot reach the destination and may cause unexpected situations such as traffic jams and accidents. Therefore, it is necessary to promptly send such articles to the shipping destination (ordering party).

  In the multi-depot delivery system as described in Patent Document 1, when delivering an article that meets the requirements of the delivery destination, an empty transport vehicle is dispatched to the warehouse, the article is loaded from the warehouse, and then the delivery destination. Dispatch to Thus, the delivery time includes the time until the transport vehicle is dispatched to the warehouse and the time when the article is delivered and loaded from the warehouse. Furthermore, since the shipping route passes through the warehouse, the transportation vehicle cannot travel on the shortest route from the current position to the shipping destination, and always detours. Therefore, it may not be suitable for delivery of urgent items. In addition, when an article stock at the storage location runs out at the stage where the article is delivered, the storage location for the article decreases. Therefore, since the storage location cannot be used for the next order, the delivery time may be long.

  The present invention provides an article delivery system suitable for delivering an urgent article by shortening the delivery time.

  In order to solve the above-mentioned problem, the invention according to claim 1 of the present invention is directed to an orderer located at an arbitrary place using delivery means such as a vehicle mounted on the article at an arbitrary place. In an article delivery system in which a vehicle after delivery is moved to a storage location for a plurality of articles set at different locations and replenished to the delivery means from the storage location, from an ordering source located at an arbitrary location Order information storage means for storing the ordered product number information issued, position information of the ordering source, and inventory information storage means for storing the stock information for each product number in a plurality of storage locations, the inventory information and the ordered product number information And a specific inventory storage location extraction means for extracting the storage location that stocks the article with the order part number as a specified inventory storage location, and when there is a single specified inventory storage location, the ordering source from the delivery means The There is a route search means to search the shortest route among the routes to the specified inventory storage location as the shortest route, and the location information of the specified inventory storage location, the shortest route, the order part number information and the ordering source It has a delivery plan display means for displaying delivery plan information composed of position information, and when there are a plurality of specific stock storage locations, the route search means leads from the delivery means to the specific stock storage location via the ordering source. Route selection means that searches the shortest route among the routes for each specified stock storage location as the shortest route and selects the shortest route with the shortest required time from multiple shortest routes as the specified shortest route. It has delivery plan display means for displaying delivery plan information composed of location information of inventory storage locations, a specific shortest route, ordering part number information and ordering location information It illustrates an article delivery system.

  Further, the invention according to claim 2 of the present invention is to deliver an article to an ordering source located at an arbitrary place by using a delivery means such as a vehicle which is located at an arbitrary place and carries the article. In an article delivery system that moves a vehicle to a storage location for a plurality of articles set in different locations and replenishes the delivery means to the delivery means from the storage location, ordering part number information issued from an ordering source located at an arbitrary location, and , Having an order information storage acquisition means for storing the location information of the ordering source, and an inventory information storage means for storing inventory information for each product number in a plurality of storage locations, collating the inventory information with the order part number information, If there is a specific inventory storage location extraction means for extracting the storage location that stocks the goods with the specified inventory storage location, and there is a single specific inventory storage location, the specified inventory storage location via the ordering source from the delivery means It has a route search means that searches the shortest route among the shortest routes as the shortest route, and consists of the location information of the specified inventory storage location, the shortest route, the order part number information, and the location information of the ordering source. A delivery plan display means for displaying the plan information, and when there are a plurality of specific inventory storage locations, the route search means uses the route search means to pass the ordering source to the specific inventory storage location with the most time required The shortest route is searched for each specified stock storage location as the shortest route, the shortest required time is the shortest required time among the required times of multiple shortest routes, and the shortest route whose required time is within the predetermined time from this shortest required time A route selection means for selecting a route to a specified stock storage location having a larger number of article stocks having an ordered product number as a specified shortest route when the number is 2 or more; An article delivery system comprising delivery plan display means for displaying delivery plan information comprising pipe location information, a specific shortest route, ordering part number information and ordering source location information is shown. .

  According to the invention of claim 1 of the present invention, an article can be quickly delivered to an orderer without going through a warehouse by loading the article in advance on a delivery means (for example, a truck). After that, by identifying the warehouse that can be reached in the shortest required time among the warehouse group that has the inventory of goods, and replenishing the goods to the delivery means in this warehouse, it is possible to send out the next order quickly. It becomes.

  The invention of claim 2 of the present invention can obtain the following effects in addition to the effects of the invention of claim 1. That is, since the article is carried out from a storage location with a large number of stocks while considering the shortest path, it is possible to avoid the stock at a certain storage location becoming zero. Since the storage location where the stock is zero does not function as a storage location, the delivery means must detour and move to another storage location. Therefore, it takes time to replenish the goods, and it is not possible to respond quickly to the next order. In the structure of Claim 2 of this invention, the malfunction by the stock in such a storage location becoming zero can be suppressed.

(1) 1st Embodiment Hereinafter, the delivery system by the 1st Embodiment of this invention is demonstrated, referring drawings. The first embodiment corresponds to the configuration of claim 1 of the present invention. FIG. 1 is a diagram showing a delivery system of the present invention, and FIGS. 2 and 3 are diagrams showing delivery routes by the delivery system of the present invention.

  The delivery system 101 of the present invention is a delivery system that delivers a delivery means B such as a vehicle loaded with an article to an ordering source A located at an arbitrary place. Then, the delivery means B is moved to the storage locations C1 to Cn of a plurality of articles set in different locations, the specific articles are taken out from a certain storage location, and the delivery means B is replenished with the articles, so that the next time Prepare for shipping.

  The delivery system 101 of the present invention includes an ordering part number information issued from an orderer located at an arbitrary place (corresponding to the ordering party A), ordering information storage means 102 for storing the ordering party position information, and a plurality of storages. It has inventory information storage means 103 that stores inventory information for each product number at the location.

  The order information storage means 102 is stored on the server by inputting the corresponding product number, the location information of the orderer, and the orderer name from a home page published on the Web server from an information terminal such as a computer or a mobile phone. be able to. Alternatively, the person in charge of the order receiving the telephone / FAX communication from the orderer may input the information into the order receiving computer and store it in the order receiving server.

  Further, as the stock information storage means 103, information storage means such as a server may be used. When inventory information is managed by a server, it is advantageous in that the inventory information on the server can be updated to the latest by connecting the inventory information management terminal at each storage location and the server. As the article item number information, information that can identify a desired article C, such as “an article C suitable for a product B manufactured by Company A”, may be used instead of a specific item number.

  Then, the specific stock storage location extraction means 104 collates the inventory information with the ordered product number information, and extracts the storage location that stocks the article having the ordered product number as the specific stock storage location. The specific stock storage location extraction means 104 only needs to perform two types of information collation processing on the computer, and the function is in either one of the server storing the stock information and the server storing the order source information. Just run it.

  In the present invention, when there is a single specific stock storage location, for example, when the storage location Ck is the only specific stock storage location in FIG. 2, the delivery means B passes this ordering source A to the storage location Ck. A route search means 105 for searching the shortest route among the shortest routes among the routes is provided.

  As the route search means 105, the shortest route search means mounted in a conventional car navigation system can be used. The location information of the delivery means B specified by GPS or the like, and the location information of the orderer A and the storage location Ck. Thus, it is possible to obtain position information of three points of a departure point, a transit point, and an arrival point necessary for route search. Similarly to the car navigation system, information such as traffic congestion and traffic regulation may be acquired from the VICS, and the route with the shortest required time may be searched as a shortest route after taking the information into consideration. This route search means 105 has distance / required time information of each road, and can be constituted by a route search server that executes a route search program.

  Also, if a toll road is included in the searched shortest route, the toll will be evaluated as part of the required time, taking into account whether the toll is commensurate with the time reduction, and added to the actual required time. May be.

  Thereafter, the shipping plan display means 106 uses the location information of the specific stock storage location, the orderer information including the order part number and the order source location information, and the shortest path information to reach the specific stock storage location from the delivery means via the order source. Display delivery plan information consisting of As a display method, a display such as an LCD is generally used, but an audio display can be used together.

  Then, the driver of the delivery means B such as a truck delivers the article to the ordering party A through a predetermined route according to the delivery plan information displayed by the delivery plan display means 106, and then moves to a specific storage location to specify a specific location. What is necessary is just to replenish goods to the delivery means B.

  Note that the configuration of the present invention can realize its functions on computers and servers that are network-connected to each other. However, since the delivery means B is located at an arbitrary place, the shipping plan display means 106 should always be installed in the delivery means B where the driver can confirm the display.

  Note that other order receiving servers, inventory information storage servers, and route search servers can perform their functions as long as they are connected to the network, and therefore do not need to be fixed at a specific location.

  In the invention of claim 1 of the present invention, when there are a plurality of specific stock storage locations, the route search means 105 causes the route search means 105 to send the most time required among the routes from the delivery means B to the specific stock storage location via the ordering source A. The route search is performed for each specified stock storage location with the short route as the shortest route.

  This will be described with reference to FIG. Among the storage locations C1, C2, C4, C5, Ck, and Cn, the storage locations C1, C3, C5, and Ck indicated by black circles are assumed to be specific stock storage locations that stock items ordered by the ordering source. In the present invention, the route search unit 105 is used to search, as the shortest route, the route with the shortest required time among the routes from the delivery unit B via the ordering party A to the storage location for each storage location.

  According to such a delivery system of claim 1 of the present invention, after the article is delivered to the orderer by the delivery means, the article can be replenished at the inventory storage location with the shortest required time. However, since the delivery means can go directly to the orderer, the delivery time of the goods can be shortened.

(2) Second Embodiment Hereinafter, a delivery system 201 according to a second embodiment of the present invention will be described with reference to the drawings. The second embodiment corresponds to the configuration of claim 2 of the present invention. FIG. 4 is a diagram showing a delivery system of the present invention, and FIGS. 2 and 3 are diagrams showing delivery routes by the delivery system of claim 2 of the present invention.

  The delivery system 201 of the present invention is a delivery system that delivers an article to an orderer A located at an arbitrary location by delivery means B such as a vehicle loaded with the article located at an arbitrary location. Then, the delivery means B is moved to the storage locations C1 to Cn of a plurality of articles set in different places, the specific articles are taken out from the storage locations C, and the delivery means B is replenished with the articles next time. Prepare for shipping.

  The delivery system 201 of the present invention includes an ordering information storage unit 202 that stores ordering part number information issued from an orderer (corresponding to the ordering party A) located at an arbitrary place, ordering party location information, and a plurality of storages. The inventory information storage unit 203 stores the inventory information for each product number at the location.

  The order information storage unit 202 is stored on the server by inputting the corresponding product number, the location information of the orderer, and the name of the orderer from a home page published on the Web server from an information terminal such as a computer or a mobile phone. be able to. Alternatively, the person in charge of the order receiving the telephone / FAX communication from the orderer may input the information into the order receiving computer and store it in the order receiving server.

  Further, as the stock information storage means 203, information storage means such as a server may be used. When inventory information is managed by a server, it is advantageous in that the inventory information on the server can be updated to the latest by connecting the inventory information management terminal at each storage location and the server. As the article item number information, information that can identify a desired article C, such as “an article C suitable for a product B manufactured by Company A”, may be used instead of a specific item number.

  Then, the specific stock storage location extracting means 204 compares the inventory information with the ordered product number information, and extracts the storage location for stocking the article having the ordered product number as the specific stock storage location. The specific stock storage location extraction means 204 only needs to perform the two types of information collation processing on the computer, and the function is in either one of the server storing the stock information and the server storing the order source information. Just run it.

  In the present invention, when there is a single specific stock storage location, for example, when the storage location Ck is the only specific stock storage location in FIG. 2, the delivery means B passes this ordering source A to the storage location Ck. A route search means 205 is provided for searching a route having the shortest required time among the shortest routes as the shortest route.

  As the route search means 205, the shortest route search means mounted in a conventional car navigation system can be used. The location information of the delivery means B specified by GPS or the like, and the location information of the orderer A and the storage location Ck. Thus, it is possible to obtain position information of three points of a departure point, a transit point, and an arrival point necessary for route search. Similarly to the car navigation system, information such as traffic congestion and traffic regulation may be acquired from the VICS, and the route with the shortest required time may be searched as a shortest route after taking the information into consideration. This route search means 205 has distance / required time information of each road, and can be constituted by a route search server that executes a route search program.

  Also, if a toll road is included in the searched shortest route, the toll will be evaluated as part of the required time, taking into account whether the toll is commensurate with the time reduction, and added to the actual required time. May be.

  After that, the shipping plan display means 206 uses the dispatch plan display means 206 to provide the location information of the specific stock storage location, the orderer information including the order part number and the order source location information, and the shortest path information to reach the specific stock storage location from the delivery means via the order source. Display delivery plan information consisting of As a display method, a display such as an LCD is generally used, but an audio display can be used together.

  Then, the driver of the delivery means B such as a truck delivers the article to the ordering party A through a predetermined route in accordance with the delivery plan information displayed by the delivery plan display means 206, and then sends the specified article at the specified inventory storage location. Replenishment may be performed.

  Note that the configuration of the present invention can realize its functions on computers and servers that are network-connected to each other. However, since the delivery means B is located at an arbitrary place, the shipping plan display means 206 should always be installed in the delivery means B where the driver can confirm the display.

  Note that other order receiving servers, inventory information storage servers, and route search servers can perform their functions as long as they are connected to the network, and therefore do not need to be fixed at a specific location.

  Next, in the invention of claim 2 of the present invention, when there are a plurality of specific stock storage locations, the route search means 205 causes the route search means 205 to take the most necessary route from the delivery means B to the specific stock storage location via the ordering source. The route search is performed for each specified stock storage location with the shortest route as the shortest route.

  This will be described with reference to FIG. Among the storage locations C1, C2, C4, C5, Ck, and Cn, the storage locations C1, C3, C5, and Ck indicated by black circles are assumed to be specific stock storage locations that stock items ordered by the ordering source. In the present invention, the route search unit 205 is used to search, for each storage location, the route having the shortest required time among the routes from the delivery unit B to the storage location via the orderer A as the shortest route.

  For example, the required time on the shortest route to reach Ck via the orderer A is Tk, and similarly, the required time on the shortest route to reach C1 via the orderer A is T1 and the orderer A It is assumed that the time required for the shortest route to reach C3 via T3 is T3 and the time required for the shortest route to reach C5 via T5 is T5. For example, Tk <T3 <T5 <T1. For example, the shortest required time is set as the shortest required time Tk, and the shortest route whose required time is within the predetermined time t (t> 0) from the shortest required time Tk is obtained.

  The predetermined time t is set so that the article supply to the delivery means is completed when the next article order is received. Therefore, when the shortest storage location is relatively long and it takes a long time to move, the predetermined time t is set to be relatively short. On the other hand, when the shortest storage location is relatively close and the movement is completed in a short time, the predetermined time t can be set longer.

  Further, as the ordering frequency increases, the predetermined time t should be shortened. When the ordering frequency is low, the predetermined time t may be shortened. The predetermined time t should be determined according to the actual order frequency of goods.

  Then, when the predetermined time t is set as described above, for example, Tk <(Tk + t) <T3 <T5 <T1, and the required time is within the predetermined time t from the shortest required time Tk. Assuming that, the delivery plan display means 206 displays the delivery plan including the shortest path information to the storage location Ck via the ordering source A, the ordering part number information and the ordering source location information.

  Further, when Tk <T3 <(Tk + t) <T5 <T1 and the required time is within the predetermined time t from the shortest required time Tk, a plurality of Tk and T3, the storage location Ck and the storage location C3 The delivery plan including this information is displayed on the delivery plan display means 206, with the shortest route that reaches the larger one of the ordered goods inventory as the specified shortest route. By setting the predetermined time t that does not greatly affect the delivery time, it becomes possible to select a plurality of warehouses, and as a result, it is possible to select warehouses depending on the amount of goods stock between these warehouses.

  If the parts inventory is the same, the route that reaches Ck with the shortest required time is set as the specified shortest route, and the delivery plan including the information is displayed on the delivery plan display means 206. Hereinafter, similarly, when T5 or T1 enters Tk to (Tk + t), the number of stocks in each storage location is compared, and the shortest route that reaches the storage location having the maximum stock count is selected as the specific shortest route. That's fine.

  Such route selection is performed using the route selection unit 207 from the inventory information and the route obtained by the inventory information storage unit 203 and the route search unit 205, respectively. The route selection means 207 is specifically constituted by a programmed computer. Of course, the program may be installed in a computer that functions as an inventory information storage server or a route search server.

  According to the delivery system of claim 2 of the present invention as described above, it is possible to suppress the stock of each storage location from becoming zero. As a result, since a substantial reduction in the number of storage locations can be avoided, it is possible to quickly replenish articles after shipping is completed, and as a result, the shipping time for the next order can be shortened.

  The present invention can be applied to delivery of various articles. In particular, it is suitable for the delivery of articles that require urgent delivery, such as automobile batteries.

The figure which shows the delivery system by the 1st Embodiment of this invention. The figure which shows the delivery route by the delivery system of this invention Another figure which shows the delivery route by the delivery system of this invention The figure which shows the delivery system by the 2nd Embodiment of this invention.

Explanation of symbols

A Order source B Delivery means C1, C2, C4, C5, Ck, Cn Storage location 101 Delivery system 102 Order information storage means 103 Inventory information storage means 104 Specific inventory storage location extraction means 105 Route search means 106 Shipping plan display means 107 Route Selection means 201 Delivery system 202 Order information storage means 203 Inventory information storage means 204 Specific stock storage location extraction means 205 Route search means 206 Shipping plan display means 207 Route selection means

Claims (2)

Articles that are located at an arbitrary place and deliver the article to an orderer located at an arbitrary place using delivery means such as a vehicle on which the article is mounted, and a plurality of the vehicles after delivery are set at different places. In the article delivery system for moving the article to the storage location and replenishing the article from the storage location to the delivery means,
Ordered product number information issued from an ordering source located at an arbitrary location, ordering information storage acquisition means for storing the ordering source location information, and inventory information storage means for storing stock information for each product number at the plurality of storage locations Have
The inventory information and the ordered part number information are collated,
A specific inventory storage location extracting means for extracting a storage location for stocking the article having the ordered product number as a specific inventory storage location;
When the specific stock storage location is single, route search means for searching the shortest route among the routes from the delivery means to the specific stock storage location via the ordering source as the shortest route is provided. And
A delivery plan display means for displaying delivery plan information including the location information of the specific stock storage location, the shortest path, the ordering product number information and the location information of the ordering source;
When there are a plurality of specific stock storage locations, the route search means uses the route having the shortest required time among the routes from the delivery means to the specific stock storage location via the ordering source as the shortest route. Route search for each inventory storage location,
Route selection means for selecting the shortest route having the shortest required time from the plurality of shortest routes as the specific shortest route;
Item delivery comprising: delivery plan display means for displaying delivery plan information including location information of the specified stock storage location, the specified shortest path, the ordered item number information and the location information of the ordering source system. Articles that are located at an arbitrary place and deliver the article to an orderer located at an arbitrary place using delivery means such as a vehicle on which the article is mounted, and a plurality of the vehicles after delivery are set at different places. In the article delivery system for moving the article to the storage location and replenishing the article from the storage location to the delivery means,
Ordered product number information issued from an ordering source located at an arbitrary location, ordering information storage acquisition means for storing the ordering source location information, and inventory information storage means for storing stock information for each product number at the plurality of storage locations Have
The inventory information and the ordered part number information are collated,
A specific inventory storage location extracting means for extracting a storage location for stocking the article having the ordered product number as a specific inventory storage location;
When the specific stock storage location is single, route search means for searching the shortest route among the routes from the delivery means to the specific stock storage location via the ordering source as the shortest route is provided. And
A delivery plan display means for displaying delivery plan information including the location information of the specific stock storage location, the shortest path, the ordering product number information and the location information of the ordering source;
When there are a plurality of specific stock storage locations, the route search means uses the route having the shortest required time among the routes from the delivery means to the specific stock storage location via the ordering source as the shortest route. Route search for each inventory storage location,
When the shortest required time of a plurality of shortest routes is set as the shortest required time, and the shortest route within the predetermined time from the shortest required time is 2 or more, the number of article stocks having the order item number is A route selection means for selecting the route to the specified stock storage location that is larger as the specified shortest route,
Item delivery comprising: delivery plan display means for displaying delivery plan information including location information of the specified stock storage location, the specified shortest path, the ordered item number information and the location information of the ordering source system.

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