JP6650505B2 - Delivery system - Google Patents

Description

  The present invention relates to a delivery system.

  With the development of a communication environment that enables communication using various types of terminals as a whole society, e-commerce using EC (Electronic Commerce) sites built using Web technology has become active. Is coming.

  This EC site plays a role as a virtual store provided on the Web, and is also called an online shop or the like. When a product is selected on the EC site, the purchase procedure of the product becomes possible, personal authentication and payment procedures are completed on a system called a web settlement system, and then the product is delivered to the designated delivery destination. Become.

  The products at this time include "digital data" distributed online and "formal products (articles)" such as daily necessities. If the former "digital data" is purchased, sending it to a designated destination such as e-mail will complete the delivery of the product, but if the latter "formal product" is purchased, it will generally be Is delivered (delivered) to a delivery destination via a delivery company or the like. That is, a delivery process for delivering the product to the delivery destination is required.

  In the delivery process using a delivery company or the like in this delivery process, since the delivery is naturally performed by a person, costs such as labor costs are incurred, and the amount of the package (product) to be delivered is reduced. The higher the cost, the more labor costs, equipment, etc. will be incurred. Further, when the recipient of the package (goods) is absent at the delivery destination, new operations such as creation of an absent slip and notification of redelivery will occur.

  As described above, while e-commerce using the EC site is activated, the delivery of purchased goods (products) takes a lot of trouble, and the delivery cost is also increasing.

JP 2004-315116 A JP 2012-121700 A

  In the above-mentioned Patent Document 1, at least the address and name of the sender and the address and name of the destination of the application form are registered in the delivery management database as part of the delivery information as image data, and the tag data is stored based on the image data. A technology is disclosed in which a tag is printed on a tag label, and the item is delivered by referring to delivery information using the invoice number printed on the tag as a key of a delivery management database.

  Patent Document 2 discloses a technique for performing delivery using two vehicles (a vehicle on which an orderer rides and a delivery vehicle). The delivery position of a product is determined from the current location of each vehicle, and the delivery position is determined at that position. The product can be delivered.

  The conventional techniques as described in Patent Document 1 and Patent Document 2 described above merely disclose techniques for improving the work efficiency in delivery. In addition, in the conventional techniques as shown in Patent Literature 1 and Patent Literature 2, in order to complete the delivery, it is necessary to carry out the work of delivering the package to the recipient at the delivery destination.

  Therefore, an object of the present invention is to provide a delivery system that can reliably deliver a package regardless of the situation of a recipient.

To achieve the above object, the present invention according to claim 1 has a delivery vehicle loaded with a delivery box to be delivered to a delivery destination, and a mother vehicle equipped with the delivery vehicle, wherein the delivery vehicle is the mother vehicle. And a delivery box fixing device capable of fixing the delivery box, wherein the delivery box is fixed to the delivery box. The delivery box fixture has a second engagement portion corresponding to the first engagement portion, and the first engagement portion has a protrusion. The second engagement portion has a hole corresponding to the protrusion, and the delivery box is configured such that the first engagement portion is formed by inserting the protrusion into the hole . 2 is engaged with the engaging portion, secured to the shipping box fixture Characterized in that it is.

  ADVANTAGE OF THE INVENTION According to this invention, it is effective in being able to deliver a package reliably regardless of a receiver's situation.

FIG. 1 is a diagram illustrating an outline of a delivery system according to an embodiment of the present invention. FIG. 2 is another diagram showing an outline of the delivery system according to the embodiment of the present invention. The figure which shows the processing process (work process) performed in the delivery source which comprises the delivery system in embodiment of this invention. The figure which shows the block diagram of the stroller in embodiment of this invention. The figure which shows the block diagram of the stroller in embodiment of this invention. FIG. 1 is a diagram illustrating a delivery mode in a delivery system according to an embodiment of the present invention (part 1). FIG. 4 is a diagram illustrating a delivery mode in the delivery system according to the embodiment of the present invention (part 2). FIG. 4 is a diagram illustrating a delivery mode in the delivery system according to the embodiment of the present invention (part 3). FIG. 4 is a diagram illustrating a delivery mode in the delivery system according to the embodiment of the present invention (part 4). The figure which shows the detailed structure of the delivery box in embodiment of this invention. The figure which shows the detail of the delivery box fixing tool in embodiment of this invention. The figure which shows the engagement state of the delivery box and delivery box fixing tool in embodiment of this invention. The figure which shows the mail content which the receiver of a package receives. 9 is a flowchart showing a detailed flow of a BOX delivery control process performed in the mother vehicle according to the embodiment of the present invention. 5 is a flowchart showing a detailed flow of a BOX delivery control process performed in the child car according to the embodiment of the present invention. 9 is a flowchart showing a detailed flow of a lock control process performed in the BOX according to the embodiment of the present invention.

  Hereinafter, an embodiment of a delivery system according to the present invention will be described in detail with reference to the accompanying drawings.

  FIG. 1 is a diagram showing an outline of a delivery system according to an embodiment of the present invention.

  In FIG. 1, the delivery system delivers a package by moving a delivery vehicle from a delivery center (hereinafter, also referred to as a “center 10”) that is a “delivery source” of the package to a “delivery destination 20 (destination destination)”. It is.

  The center 10 manages a product management center (product management source) that manages products, a delivery center (delivery source) that performs a delivery procedure of a product ordered by a purchaser among products managed by the product management center, and other monitoring related to delivery. It is a general term for a base that plays a role of a monitoring center (monitoring source) and the like, and may also be referred to as a “delivery base”.

  The center 10 accepts an order made using an EC (Electronic Commerce) site where electronic commerce is possible. More specifically, an order is received by a server provided at the center 10 that manages and operates the EC site.

  This EC site is a store on the Web that can be accessed using electronic devices such as personal computers and tablets installed at home, etc., and those who wish to purchase products can easily access the desired products by accessing this EC site Can be ordered (purchased), and shopping can be done casually.

  This EC site can be accessed from a vending machine equipped with a liquid crystal display and connected to the Web site by network communication. For example, it is possible to purchase a product displayed on a liquid crystal display, like purchasing a beverage with a conventional vending machine.

  When purchasing a product using the EC site, the purchaser of the product specifies the product to be purchased, the payment method of the product, and the delivery destination 20 of the product.

  When the center 10 receives an order from a purchaser of a product to which the delivery destination 20 and the like are designated, the ordered product is selected from the products managed by using the delivery vehicle, and the product is delivered to the delivery destination 20. Processing is performed. The details of the delivery process (delivery process) performed in the center 10 will be described later with reference to FIG.

  From the center 10 to the delivery destination 20, goods are delivered as packages by delivery vehicles.

  The luggage at this time may be referred to as an appropriate delivery box 300 (“box”, “BOX”, “storage”) selected according to its size (size), shape, quantity, impact resistance, and the like. ) And delivered. From this, as an object to be delivered (delivery target), the package and the delivery box 300 are synonymous, and the meanings of “delivery of the package” and “delivery of the delivery box” are not different.

  The delivery vehicles to be delivered include a small delivery vehicle loaded with the delivery box 300 and a large delivery vehicle equipped with the delivery vehicle itself.

  A large delivery vehicle can carry one or more small delivery vehicles, and is also referred to as an "unmanned self-driving delivery vehicle", "mother vehicle", or "mother vehicle". Hereinafter, this large-sized delivery vehicle is referred to as “mother vehicle 100”, and details thereof will be described later with reference to FIG.

  On the other hand, a small delivery vehicle that can be mounted on the mother vehicle 100 can load the delivery box 300 that stores the luggage, and is also referred to as an “unmanned self-driving delivery child stroller” or a “child stroller”. Hereinafter, this small-sized delivery vehicle is referred to as a “child car 200”, and details thereof will be described later with reference to FIG.

  From the above relationship, it can be expressed that the mother vehicle 100 on which the child carriage 200 on which the delivery box 300 is loaded is loaded with the delivery box 300.

  In the center 10, information ("delivery information") on the delivery destination 20 of the delivery box 300 storing the luggage is set (stored) in each delivery vehicle (the mother vehicle 100 and the child vehicle 200). In other words, information regarding the delivery destination 20 of the delivery box 300 is set and stored in the stroller 200 on which the single delivery box 300 is loaded, and the delivery box 300 is loaded on the mother vehicle 100. As a result, information on the delivery destination 20 is set and stored for the number of child cars 200 to be delivered.

  The delivery information includes the address and name of the delivery destination, “fixture number” for identifying the delivery box fixture 400, “box identification information” for identifying the delivery box 300 to be delivered, and the like.

  The mother vehicle 100 has an automatic operation control mechanism (automatic operation control unit) and a delivery control mechanism (delivery control unit), and carries out delivery of luggage by interlocking with each other.

  The automatic operation control mechanism is a general term for devices necessary for moving the mother vehicle 100 to a predetermined position (point), and includes an operation control device, a storage device, an engine, driving wheels, various actuators, and a motor (servo). Motors, in-wheel motors), cylinders, various sensors (including cameras (image pickup devices)), and the like.

  The storage device includes information on the delivery destination 20, map information used to determine a delivery route to the delivery destination of the package, and roads on the road that is the moving route (moving route, delivery route) of the mother vehicle 100. Information is stored. In addition, traffic information that can be updated at any time can be stored.

  In addition, the driving control device performs not only the movement (driving) such as driving and stopping the mother vehicle 100, but also the parallel movement in a narrow place (alley or the like) or the direction change so as to perform not only the forward / backward movement but also the left / right movement. It is possible to perform parallel movement, rotation on the spot, parallel movement in an oblique direction, and the like.

  This operation control device also includes a GPS (Global Positioning System) device capable of specifying (positioning) a position on map information.

  In the mother vehicle 100, the driving control device uses the information (map information, road information, traffic information, and the like) stored in the storage device and the GPS device to provide a delivery route (current location) to the delivery destination 20 from the current position (current location). The travel route) is retrieved and stored, and the operation (movement) is performed based on the delivery route. Of course, the delivery route can be updated (changed) as appropriate based on new traffic information, road information, and the like.

  The mother vehicle 100 transmits traffic lanes, signals, and the like defined by surrounding other vehicles, pedestrians, animals, falling objects, grooves, irregularities, center lines, and the like to radars and sensors (radars, laser sensors, infrared sensors, ultrasonic sensors). , Pyroelectric sensors, etc.), as well as complex recognition based on information obtained by a face recognition system using a camera or a human body detection system. As a result, the mother vehicle 100 can safely drive (move) to the delivery destination or its vicinity while avoiding various dangers on the road.

  In addition, the delivery control mechanism allows the vehicle 100 to move from the delivery center 10 to a predetermined position (point) on the delivery route (corresponding to the following “disembarkation point”, “relay point”, etc.) by the automatic operation control mechanism. By moving on the delivery route (first movement route), the child car 200 mounted on the mother vehicle 100 is controlled to get off and leave the car. The delivery control at this time specifies the child car 200 loaded with the delivery box 300 to be delivered to the delivery destination corresponding to the predetermined position (“get off point”, “relay point”) on the delivery route, This is a control process in which opening the door causes the door to serve as an exit route and eject the child car 200.

  In other words, the first movement route from the center of the delivery source to a predetermined position (point) on the delivery route (“get-off point”, “relay point”) is a delivery in which the mother car 100 moves with the child car 200 mounted thereon. In other words, since the route is a route, it can be said that the child car 200 moves on the first movement route together with the mother vehicle (in an inseparable state) from the delivery destination to the relay point.

  Further, when the child car 200 returns to the mother car 100 (returns) after the child car 200 has delivered the delivery box 300 to the delivery destination, the child car 200 is controlled to enter the car. The entry control at this time returns to a predetermined position with respect to the mother vehicle 100 (a position specified in relation to the mother vehicle 100 so that the child vehicle 200 enters the mother vehicle 100) by mutual communication with the child vehicle 200. This is a control process in which the door of the mother vehicle 100 is opened, the door becomes an entrance path, the child vehicle 200 is entered, and the child vehicle 200 is stopped at a predetermined stop position in the mother vehicle 100.

  The delivery control mechanism further manages the delivery status of the child car 200 by performing mutual communication with the child car 200 from which the mother vehicle 100 has left.

  In addition, the mother vehicle 100 includes a microphone and a speaker in addition to a surveillance camera that can monitor the surroundings at a predetermined portion. When an emergency or trouble occurs in the mother vehicle 100, the maintenance supervisor of the monitoring center communicates with the center 10 (especially the monitoring center), and the maintenance person at the monitoring center uses the monitoring camera mounted on the mother vehicle 100 to monitor the surroundings. In addition to being able to talk with surrounding people by confirming, the maintenance and monitoring staff can operate the vehicle by remote control while confirming the safety of surrounding conditions with a camera or the like.

  Further, the child stroller 200 also has an automatic operation control mechanism (automatic operation control unit) and a delivery control mechanism (delivery control unit) as in the case of the mother vehicle 100. Will do. However, the automatic driving control mechanism of the stroller 200 is similar to, but different from, the automatic driving control mechanism of the stroller 100, and the delivery control mechanism of the stroller 200 is different from the delivery control mechanism of the stroller 100. is there.

  The automatic driving control mechanism in the stroller 200 is a general term for devices necessary for moving from the point at which the child vehicle 100 gets off (also referred to as an “alighting point” or a “relay point”) to a delivery destination. Control devices, storage devices, engines, driving wheels, various actuators, motors (servo motors, in-wheel motors), cylinders, various sensors (including cameras (imaging devices)), and the like are applicable.

  The child car 200 moves along a delivery route (second travel route) from a point where the child vehicle 200 gets off the mother vehicle 100 (also referred to as a “drop-off point” or a “relay point”) to a delivery destination by the automatic driving control mechanism.

  In other words, the second travel route from the point at which the vehicle 100 gets off the vehicle 100 (“alighting point”, “relay point”) to the delivery destination is a delivery route in which the child vehicle 200 gets off the vehicle 100 and moves. In other words, it can be said that the stroller 200 moves independently of the mother vehicle 100 along the second movement route from the relay point to the delivery destination independently.

  In the storage device of the child car 200, in addition to the information on the delivery destination 20, map information used for determining a delivery route to the delivery destination of the package and the moving route (moving route, delivery route) of the child car 200 are stored. The road information about a certain road is stored. In addition, traffic information that can be updated at any time can be stored.

  In addition, the operation control device of the stroller 200 performs not only forward and backward movement but also parallel movement to the left and right, rotation in that place, and parallel in an oblique direction to perform parallel parking and direction change in a narrow place (alley or the like). In addition to being able to move, it has a balance control function to prevent falling when climbing up and down stairs and on slopes. The balance control function is a function of detecting the position of the center of gravity based on the stroller 200 and the delivery box 300 one by one, and automatically adjusting the position of the center of gravity using a center of gravity position adjusting device (balancer).

  With this balance control function, the stroller 200 minimizes the rollover and the fall due to the collision or the contact with the obstacle.

  In addition, the operation control device includes a GPS device capable of specifying (positioning) a position on the map information.

  In the child car 200, the driving control device uses the information (map information, road information, traffic information, etc.) stored in the storage device to provide a delivery route from the current position (current location) specified by the GPS device to the delivery destination 20. (Moving route) is retrieved and stored, and it is possible to drive (move) based on this delivery route. Of course, it is also possible to appropriately update this delivery route based on new traffic information, road information, and the like.

  Similarly to the mother vehicle 100, the child vehicle 200 also transmits traffic lanes, signals, and the like defined by surrounding vehicles, pedestrians, animals, falling objects, grooves, unevenness, center lines, and the like, using radars and sensors (radar, laser, etc.). Sensors, infrared sensors, ultrasonic sensors, pyroelectric sensors, etc.) as well as information obtained by a camera's face recognition system and human body detection system. As a result, the child car 200 can safely drive (move) to the delivery destination or the vicinity thereof while avoiding various dangers on the road.

  Further, as a delivery control mechanism for the stroller 200, the stroller 200 is provided with a robot arm (also simply referred to as an "arm"), and this arm holds the delivery box 300 so that the delivery box 300 does not drop during delivery. At the same time, the delivery box 300 is moved from the held state, and the position of the delivery box fixture 400 provided at the delivery destination is confirmed by various sensors, optical devices, electromagnetic wave sensors, and the like, and then the delivery box fixture is The delivery is performed by fixing the delivery box 300 to the delivery box 400.

  The relationship between the delivery box 300 and the delivery box fixture 400 will be described later.

  For this reason, the arm is a member capable of holding, holding or holding the delivery box 300, and thus may be referred to as a “holding member” or a “holding member” or a “holding member”. In addition to being able to move the delivery box 300, it can be referred to as a "movable member".

  In the above description, the delivery box 300 is previously loaded on the stroller 200. However, the present invention is not limited to this. The delivery box 300 is placed at a predetermined position in the stroller 100 by moving the arm. The delivery box 300 may be loaded on the stroller 200.

  In addition, the stroller 200 is provided with an emergency stop button in addition to a surveillance camera, a microphone and a speaker that can monitor the surroundings at a predetermined position. When an emergency or trouble occurs in the child car 200, the maintenance supervisor of the surveillance center communicates with the center 10 (especially the surveillance center) by using the surveillance camera mounted on the mother vehicle 100 to communicate with the center 10 In addition to being able to talk with surrounding people by confirming, the maintenance and monitoring staff can operate the vehicle by remote control while confirming the safety of surrounding conditions with a camera or the like.

  Further, by pressing (or making contact with) the emergency stop button when a nearby person feels danger, the stroller 200 can stop traveling. The on-board surveillance camera allows the user to check the surrounding situation and talk with surrounding people.

  Subsequently, a flow of a process of delivering the delivery box 300 from the delivery center 10 to the delivery destination by the mother vehicle 100 and the slave vehicle 200 having the functions described above will be described below.

  The mother vehicle 100 on which the child car 200 is mounted searches for a delivery route (moving route) to a destination to which the delivery box 300 loaded on the child car 200 is delivered, based on the information on the delivery destination. In this search process, a delivery route for delivering the delivery box 300 to a delivery destination is searched using the GPS device included in the mother vehicle 100 and the stored map information and road information.

  That is, if there are a plurality of delivery boxes 300 to be delivered (if a plurality of strollers 200 loaded with the delivery boxes 300 are mounted), a delivery route that considers each delivery destination of each delivery box 300 is searched. . The carriage 100 stores the delivery route searched by the search process.

  In the example shown in FIG. 1, three delivery destinations, "delivery destination 1", "delivery destination 2", and "delivery destination 3" are specified. In this case, the delivery route is “center →“ delivery destination 1 ”→“ delivery destination 2 ”→“ delivery destination 3 ”→ center”.

  However, although “center →“ delivery destination 1 ”” is specified as a part of the delivery route, the movement route where the mother vehicle 100 moves is from the center to the relay point 1 (shown as “relay 1”). This indicates that the child car 200 moves to deliver between the relay point 1 and the “delivery destination 1”. The relay point 1 at this time is a point corresponding to the delivery destination, and may also be referred to as a point at which the stroller 200 loaded with the delivery box 300 to be delivered to the delivery destination is dropped off from the mother vehicle 100 (disembarkation point). it can.

  In the child car 200, similarly to the mother car 100, a delivery route (moving route) from the current location (a drop-off point or the like) to the delivery destination is searched based on information on the delivery destination, and the child car 200 is also delivered to the mother car 100. Search the return route from the beginning to the return. In this search processing, the GPS device provided in the child car 200 and the stored map information and road information are used to search for the child car 200 from the current location (disembarkation point and the like) to the delivery destination and from the delivery destination to the mother vehicle. The delivery route to the point where 100 is located is searched.

  If the current location is a point (alighting point, relay point) from the vehicle 100, a delivery route from this point (alighting point, relay point) to the delivery destination is searched and stored, and then the delivery is performed at the delivery destination. Is completed, the child car 200 searches for a return route to the return point where the mother vehicle 100 is located by mutual communication with the mother vehicle 100. That is, the case where the getting-off point and the return point from the mother vehicle 100 are the same (including substantially the same) is shown.

  Subsequently, in “delivery destination 1” → “delivery destination 2” which is a part of the delivery route searched by the mother vehicle 100, the movement route in which the mother vehicle 100 moves corresponds to “relay” corresponding to “delivery destination 1”. From "point 1" to "relay point 2" corresponding to "delivery destination 2". Also in this case, similarly, between the relay point 2 and “delivery destination 2”, the child car 200 searches for a delivery route and delivers. In FIG. 1, the stroller 200 that has moved from the “relay point 2” to the “delivery destination 2” is not the “relay point 2” that has exited from the mother vehicle 100, but the “relay point 3” corresponding to the delivery destination 3. ".

  That is, the case where the movement start point and the return point of the child car 200 are different is shown. This indicates that while the stroller 200 is delivering to the delivery destination 3, the mother vehicle 100 has moved from “the relay point 2” to “the relay point 3” corresponding to the “delivery destination 3”, This indicates that the child car 200 has searched for “delivery destination 2 → relay point 3” as a return route by communication with the mother car 100.

  Similarly, in “delivery destination 2” → “delivery destination 3” which is a part of the delivery route searched by the mother vehicle 100, the travel route along which the mother vehicle 100 moves corresponds to “delivery destination 2”. “Relay point 3” corresponding to “relay point 3” from “relay point 2”. Similarly, in this case, the delivery is performed by moving the stroller 200 between the relay point 3 and the “delivery destination 3”.

  “Delivery destination 3” → center, which is a part of the delivery route searched by the mother vehicle 100, is a route along which the mother vehicle 100 moves.

  According to the flow described above, the delivery box 300 (package) is delivered from the delivery center to the delivery destination.

  At this time, the delivery destination is provided with a fixture to which the delivery box 300 is fixed (hereinafter, referred to as “delivery box fixture 400”).

  The delivery box 300 fixed to the delivery box fixture 400 has one or a plurality of protrusions 310 (also referred to as “projections”) that can be fixed to the delivery box fixture 400, and also has a delivery function. The box fixing device 400 has one or a plurality of holes 410 for hooking the delivery box 300 by inserting (penetrating) the protrusion 310 of the delivery box 300. The protruding portion 310 is formed by a combination of a cylindrical portion and a conical portion, and has a constriction at a combination portion of the cylindrical portion and the conical portion.

  The projection 310 provided on the delivery box 300 and the hole 410 provided on the delivery box fixture 400 are fixing members capable of fixing the delivery box 300 to the delivery box fixture 400. In other words, since the delivery box 300 and the delivery box fixture 400 are engaged by the projection 310 and the hole 410, the projection 310 is engaged with the engagement portion (first engagement) of the delivery box 300. ), And the hole 410 can be said to be an engaging portion (second engaging portion) in the delivery box fixture 400. Therefore, the delivery box 300 is fixed to the delivery box fixture 400 by engaging the second engagement portion and the first engagement portion.

  Further, the delivery box fixing device 400 has a lock mechanism, and when the protrusion 310 of the delivery box 300 is inserted into the hole 410, the protrusion 310 is fixed to the hole 410 by the lock mechanism and cannot be removed. By controlling (locking control) to the state (including the state where it is difficult to remove), it is prevented from being removed without permission (by making the state where the retaining is effective) or being stolen .

  The lock mechanism is supported by two projections 310 among four projections 310 provided on the delivery box 300, and the remaining two projections 310 are provided on the delivery box fixture 400. A cylindrical pin without any constriction is provided as a protrusion that fits into the upper circular portion of the formed hole portion 410 so as to prevent it from jumping out of the delivery box and lifting up the delivery box.

  To remove the lock-controlled delivery box 300 from the delivery box fixture 400 (unlock), the stroller 200 authenticates the unique ID, password, and the like stored in the storage device of the delivery box 300. The stroller 200 performs an operation of unlocking the delivery box 300 with respect to the delivery box fixture 400 (an unlocking operation).

  As described above, when the delivery box 300 is fixed to the delivery box fixing device 400 by the movement of the arm of the stroller 200, the delivery of the delivery box 300 is completed.

  In addition, in the case of delivery to a delivery destination where the delivery box fixing device 400 is not installed, or when the stroller 200 cannot fix the delivery box 300 to the installed delivery box fixing device 400 due to some obstacle, It is possible to notify the arrival of the package to the contact information of the recipient registered in advance, and to deliver the package at a predetermined position (standby position) near the delivery destination where the stroller 200 is waiting.

  However, this is a case where the stroller 200 cannot fix the delivery box 300 to the delivery box fixing device 400. If there is no reply for such a reason, or if it is confirmed by telephone, e-mail, SNS, or the like that the receipt is difficult or impossible for some reason, the child car 200 returns to the mother car 100 to reduce the home time. After confirmation, redistribute.

  Subsequently, a process after the delivery is completed will be described.

  When the delivery of the delivery box 300 is completed by the processing as described above, the child car 200 sets the contact information (mail, various SNSs) included in the information on the recipient of the delivery box 300 stored in the storage device. (Social Networking Service)).

  The contents notified at this time include the fact that the package has been delivered and an unlock key code (other than “unlock information” and “unlock password”) as information for taking out the delivered package from the delivery box 300. Also called).

  The delivery box 300 has an information input unit such as a touch panel, a button, and a camera (imaging device), and can receive an unlock key code described later. When a proper unlocking key code is input from the information input unit and authenticated, the delivery box 300 performs lock control so that the door of the delivery box 300 can be opened (open state). Further, when the luggage is taken out by the recipient and the door is closed in a state where the door is controlled to be locked in the open state, the delivery box 300 sets the lock control to a state in which opening of the door of the delivery box 300 is restricted (closed state). Do.

  The receiver of the package (if the purchaser and the purchaser are the same, the purchaser) inputs predetermined information into the information input section of the delivery box 300, and the delivery box 300 is correct. When the delivery box 300 is authenticated as an unlock key code, the delivery box 300 performs lock control so that it can be opened (open state). Thus, the recipient can open the door of the delivery box 300 and take out the package.

  When the door of the delivery box 300 is closed (or the door is closed by the recipient) after the baggage is taken out, the delivery box 300 locks the door. It can be unlocked any number of times by authenticating the input.

  With the above-described processing, it is possible to take out the package whose delivery has been completed.

  The delivery box 300 transmits status information to the center 10 when it detects that a package has been taken out by a sensor or the like and that the door has been locked. At this time, the center 10 transmits a “BOX collection inquiry notification” to the mother vehicle 100 that is delivering the luggage to an arbitrary delivery destination, asking whether the delivery box 300 can be collected.

  The mother vehicle 100 that has received the “BOX collection inquiry notification” determines whether or not there is a child vehicle 200 on which the delivery box 300 can be mounted (a child vehicle 200 without the delivery box 300). To whether the delivery box 300 can be collected.

  Thereafter, the mother vehicle 100 that has received the “BOX collection instruction (recovery instruction information)” for instructing the collection of the delivery box 300 from the center 10 is the delivery destination designated by the “BOX collection instruction” (in this case, “collection destination”). (Represented as “collection information” and “collection destination information”), a route to the collection destination is searched and stored, and the user can move based on the route. The delivery box 300 will be collected.

  The collection information at this time includes, besides the address and name of the collection destination, "fixture number" for identifying the delivery box fixture 400, "box identification information" for identifying the delivery box 300 to be collected, and the like.

  In addition, the route for collecting the delivery box 300 is newly incorporated into the delivery route of the existing delivery box 300, whereby the mother vehicle 100 collects the delivery along with the delivery on the new delivery route (delivery collection route). It will be. Of course, the collection route may be searched and stored separately from the existing delivery route, and the delivery box 300 may be collected based on the collection route after the delivery of the delivery box 300 is completed. The delivery box 300 may be collected based on the collection route before delivery of the delivery box 300 by route.

  FIG. 2 shows a state in which delivery and collection of the delivery box 300 are performed by a new “delivery and collection route” in which the collection route for collecting the delivery box 300 is incorporated into an existing delivery route, and will be described later.

  With the above-described processing, the delivery box 300 that has been delivered and fixed to the delivery box fixing device 400 at the delivery destination can be collected.

  FIG. 2 is another diagram showing an outline of the delivery system according to the embodiment of the present invention.

  FIG. 2 shows a delivery system in a delivery and collection route in which a delivery route for collecting the delivery box 300 is incorporated in the delivery route in the delivery system as shown in FIG. 1 as described above.

  The delivery collection route shown in FIG. 2 is the delivery route shown in FIG. 1, “Center →“ Delivery destination 1 ”→“ Delivery destination 2 ”→“ Delivery destination 3 ”→ Center”. (Also referred to as “delivery destination”).

  Specifically, the delivery route in which the mother vehicle 100 moves from “delivery destination 3” to the center 10 is changed to “delivery destination 3 → collection destination 1 → center”.

  Upon receiving the “BOX collection instruction (collection instruction information)” from the center 10, the mother vehicle 100 that collects the delivery box 300 receives information (collection destination) related to the collection destination included in the “BOX collection instruction (collection instruction information)”. Based on the address and the box information (“box identification information”, “unlock key code”, “size”, etc., which will be described later)).

  Similarly to each delivery destination, the collection point 1 is provided with a "relay point 4", which is the stop position of the mother vehicle 100 with respect to the collection point 1. At this "relay point 4," the stroller 200 gets off. Then, the stroller 200 moves to the collection destination 1. At this time, the stroller 200 heading for collection is a delivery vehicle in which the delivery box 300 is not loaded on the carrier.

  At the collection destination 1, the stroller 200 performs a process of loading the delivery box 300 on the carrier using the arm. At this time, the stroller 200 uses the unique delivery box identification information (hereinafter also referred to as “BOX ID”, “BOX identification information”, and “box identification information”) stored in the storage device of the delivery box 300 and the unlock key. The code or the like is checked (checked), and the unlock key code or the like is the same as the “box identification information” or the “unlock key code” of the collection destination information included in the “BOX collection instruction (collection instruction information)”. As a result, the stroller 200 releases the delivery box 300 from the delivery box fixing device 400, and loads and collects the delivery box 300.

  By such a process, the delivery can be completed without the recipient directly receiving the package stored in the delivery box 300 at the delivery destination. In other words, the number of times that redelivery is required due to the absence of the recipient can be significantly reduced.

  Therefore, the delivery system according to the present invention makes it possible to significantly reduce the cost (cost) of delivery compared to conventional delivery.

  FIG. 3 is a diagram showing processing steps (work steps) performed at the delivery source constituting the delivery system according to the embodiment of the present invention.

  In FIG. 3, the center 10 is a general term for a product management center (product management source), a distribution center (delivery source), a monitoring center (monitoring source), and the like, as described above. FIG. 3 illustrates each operation process of the “BOX delivery process” and the “BOX collection process” performed in the center 10.

  First, the “BOX delivery process” for delivering the delivery box 300 to the delivery destination 20 will be described.

  The "BOX delivery process" includes an order receiving process (A1) for receiving an order for a product. The order receiving step is a step of receiving an order made using an EC (Electronic Commerce) site that enables electronic commerce.

  In the order receiving step, when the order is received, there is a storing step (A2) for storing (storing) the ordered product as a package in the delivery box 300 (also referred to as “BOX” or “storage”).

  In this storage step, a delivery box 300 suitable for delivery of a package is selected from a plurality of delivery boxes 300 in accordance with the size (size), shape, quantity, impact resistance, and the like of the package, and the selected delivery box 300 is selected. Pack your luggage and store it.

  Subsequently, in the storing step, in addition to determining the child car 200 which is a delivery vehicle on which the delivery box 300 storing the luggage is loaded, the vehicle determining step (A3) of determining the mother vehicle 100 which is the delivery vehicle on which the child car 200 is mounted. ). Note that the child car 200 may be referred to as a “first delivery vehicle”, and the mother vehicle 100 may be referred to as a “second delivery vehicle”.

  In this vehicle determination step, when the delivery vehicle is determined, there is subsequently an information setting step (A4) for setting (storing) predetermined information in the storage device of each of the delivery box 300, the child car 200, and the mother vehicle 100.

  In the information setting step, first, at least the child car identification information (child car ID) for identifying the child car 200 loaded with the delivery box 300 and the delivery destination information specifying the delivery destination are stored in the storage device of the delivery box 300 at least. I do. Second, delivery box identification information for identifying the delivery box 300 loaded on the child vehicle 200, authentication information, and mother vehicle identification information for identifying the mother vehicle 100 on which the child vehicle 200 is mounted (mother) in the storage device of the child vehicle 200. At least delivery destination information specifying a delivery destination is stored. Third, a child vehicle ID for identifying the child vehicle 200 mounted on the mother vehicle 100 and delivery destination information designating a delivery destination are set in the storage device of the mother vehicle 100.

  In this information setting step, when information is set in the storage device of each of the delivery box 300, the stroller 200, and the stroller 100, the delivery box 300 is loaded on the stroller 200, and the stroller 200 is transferred to the stroller 100. There is a departure preparation step (A5) in which departure preparation is carried out by mounting on a vehicle.

  In the departure preparation step, when the departure preparation is completed, there is a delivery instruction step (A6) for performing a “BOX delivery request” to the mother vehicle 100 to issue a delivery instruction.

  Through these steps, the mother vehicle 100 departs from the center toward the delivery destination.

  Next, a “BOX collection step” for collecting the delivery box 300 delivered to the delivery destination will be described.

  In the “BOX collection process”, first, after receiving the “unloading completion notification” indicating that the luggage has been removed from the delivery box 300 at the center, the center 10 sends a “BOX collection inquiry notification” to the predetermined mother vehicle 100. There is an inquiry step (B1) for transmission.

  In the inquiry step (B1), when the center 10 transmits a “BOX collection inquiry notification” to the predetermined mother vehicle 100, subsequently, the delivery box 300 is not loaded from the mother vehicle 100 receiving the notification. It indicates that the delivery box 300 can be collected by installing the stroller 200, or that the delivery box 300 cannot be collected because there is no stroller 200 on which the delivery box 300 is not loaded. There is a notification receiving step (B2) for receiving "BOX inquiry response notification".

  At this time, the vehicle 100 transmits information necessary for the center 10 to determine the vehicle 100 for collecting the delivery box 300, such as the current location and the remaining number of deliveries, in the “BOX inquiry response notification”. You may.

  Subsequently, in the notification receiving step (B2), when the “BOX inquiry response notification” is received from each of the vehicles 100, the delivery box 300 is collected based on the “BOX inquiry response notification” received from each of the vehicles 100. There is a carriage determination step (B3) for determining the carriage 100 to be performed.

  In this carriage determination step (B3), the distance, the movement route, and the like to the delivery destination 20 where the delivery box 300 to be collected is installed among the carriages 100 on which the carriages 200 having no delivery box 300 loaded are mounted. In consideration of the above, the mother vehicle 100 for collecting the delivery box 300 is determined.

  Subsequently, in the mother vehicle determination step (B3), when the mother vehicle 100 corresponding to collection of the delivery box 300 is determined, there is a collection instruction step (B4) for transmitting a “BOX collection instruction” to the mother vehicle 100.

  The mother vehicle 100 that has received the “BOX collection instruction” transmitted in the collection instruction step (B4) searches the collection route of the delivery box 300 on the delivery route and collects the delivery box 300.

  Through the steps described above, the center 10 instructs the delivery and collection of the delivery box 300.

  FIG. 4 is a diagram showing a configuration diagram of the mother vehicle according to the embodiment of the present invention.

  4 shows a mother vehicle drive wheel 101 for driving (running) on a road, a storage surface 102 on which a child vehicle 200 is mounted, and a door 103 serving as an entrance and exit of the child vehicle 200.

  The storage space 102 is provided with a work space 102a (work surface) for the stroller 200. The work space 102a is a standby place for the stroller 200 to be delivered to the next delivery destination, and the stroller 200 This is a work place where a delivery box is loaded on a loading platform to prepare for delivery.

  The door 103 functions as an entrance path and exit path when the child car 200 enters and exits (enter and exit).

  FIG. 5 is a diagram showing a configuration diagram of a stroller according to the embodiment of the present invention.

  5 includes an arm 201, a carrier 202, a stroller drive wheel 203, and a communication antenna 204.

  The arm 201 is an articulated arm, and includes a first articulated arm 201a and a second articulated arm 201b. An operation in which the first articulated arm 201a and the second articulated arm 201b are linked to each other is performed. The delivery box 300 is held on the carrier 202, and the delivery box 300 is fixed to the delivery box fixture 400.

  The arm 201 is a member that holds the delivery box 300 on the carrier 202 as described above, and also moves the delivery box 300 from the carrier 202 to the delivery box fixture 400 and secures the delivery box 300 to the delivery box fixture 400. And implements a “delivery control mechanism (delivery control unit)” of the stroller 200.

  The arm 201 has an initial arm state (first arm state) when the delivery box 300 is not loaded on the carrier 202, a second arm state in which the delivery box 300 is loaded on the carrier 202, and a delivery box. The third arm state when fixing 300 to delivery box fixture 400 can be at least taken.

  The loading platform 202 is a pedestal in a flat state such that the bottom surface of the delivery box 300 comes into contact with the delivery platform 300. The arm 201 holds the delivery box 300 in contact with the loading platform 202 even when the stroller 200 swings or the like. Keep state.

  The stroller drive wheel 203 is a drive mechanism related to the movement of the delivery route (second movement route), and implements an “automatic operation control mechanism (automatic operation control unit)” of the stroller 200.

  The communication antenna 204 is a communication interface for performing mutual communication with the delivery vehicle 300, the mother vehicle 100, the center 10, and the like.

  The stroller 200 has a balance control function. The balance control function manages the center of gravity of the stroller 200 and keeps the momentum at the center of gravity at a constant value, thereby avoiding a fall or the like. Function. The momentum at this time corresponds to feedback control or the like that calculates a reaction force of the amount of force applied to the traveling direction, up, down, left and right, and applies the reaction force to the stroller 200.

  In addition, although not shown, the stroller 200 is equipped with a radar and sensors (radar, laser sensor, infrared sensor, ultrasonic sensor, pyroelectric sensor, etc.) and a camera. In addition to being used for movement control, it is used when confirming the position of the hole 410 in the delivery box fixture 400.

  6 to 9 are views showing delivery modes in the delivery system according to the embodiment of the present invention.

  FIG. 6 shows a roadway, a sidewalk provided along the roadway, a delivery path that intersects the sidewalk substantially perpendicularly, and a step (stair) provided between the delivery path and the delivery box fixture 400 at the delivery destination. In order to place the delivery box 300 on the delivery box fixing device 400 beyond the step, the delivery space is a movable space in which the arm 201 can be moved. The delivery box fixture 400 provided on the wall is shown.

  In FIG. 6, a stroller 100 is stopped at an end of a roadway as a relay point (for example, "relay point 1") for a delivery destination, and a stroller 200 that gets off at the relay point is a mother vehicle. After leaving the doors of 100 as exit routes, the user moves along the delivery passage across the sidewalk.

  After moving in the delivery passage, the stroller 200 climbs over the step and arrives at the delivery destination designated position 21. By controlling the arm 201, the position of the hole 410 of the delivery box fixing device 400 is confirmed, and the delivery box is checked. Fix 300.

  FIGS. 7 to 9 are views showing a state in which the delivery box 300 is fixed to the delivery box fixing device 400 by moving the arm 201 of the stroller 200 at the delivery destination designation position 21 with respect to the delivery destination.

  The delivery destination designation position 21 is provided at a position in front of the delivery box fixing device 400, and is a work area including a fixed range in which the delivery box 300 is fixed by moving the arm 201 of the stroller 200.

  When the stroller 200 belongs to the delivery destination designation position 21 (see FIG. 7), the stroller 200 confirms (recognizes) the position of the hole 410 provided in the delivery box fixing device 400.

  Next, as shown in FIG. 8, the stroller 200 lifts the delivery box 300 from the carrier 202 by moving control of the arm 201 and moves the delivery box 300 forward of the stroller 200.

  Then, as shown in FIG. 9, the stroller 200 locks the delivery box 300 by inserting (penetrating) the protrusion 310 of the delivery box 300 into the hole 410 whose position is recognized.

  At this time, four holes 410 (first hole 410a, second hole 410b, third hole 410c, and fourth hole 410d) are provided in delivery box fixing device 400 shown in FIGS. The delivery box 300 has four protrusions 310 (first protrusion 310a, second protrusion 310b, third protrusion 310c, and fourth protrusion 310d) that are provided and inserted into each of the holes 410. are doing.

  Of course, while the delivery box fixture 400 has a plurality of holes 410, the delivery box 300 may be configured to have only a single protrusion, or vice versa. In addition, when the projection 310 is a mechanism (a mechanism that can be recessed) that can be embedded in the delivery box 300 by a spring or the like, the quantity of “the number of the holes 410” is “the quantity of the projection 310”. It may be the following.

  That is, the number of engaging portions (projections 310, holes 410) of the delivery box fixing device 400 and the delivery box 300 does not necessarily need to be the same.

  FIG. 10 is a diagram illustrating a detailed configuration of the delivery box 300 according to the embodiment of the present invention.

  In FIG. 10, the delivery box 300 includes a lid portion 301, a luggage storage portion 302, a damper 303, and a hinge 304. The lid portion 301 and the luggage storage portion 302 are joined by the hinge 304.

  With the hinge 304 as a fulcrum, the lid portion 301 is opened, and the open state can be maintained and closed slowly by the damper 303.

  FIG. 10A shows a state in which the lid portion 301 can be opened and closed in the vertical direction, and FIG. 10B shows a state in which the lid portion 301 can be opened and closed in the forward direction. These delivery boxes 300 will be selected according to the package to be delivered.

  FIG. 10C is a diagram showing the rear surface on which the protrusion 310 is provided by rotating FIG. 10A. The protrusion 310 is provided in a positional relationship corresponding to a hole 410 provided in a delivery box fixture 400 described later.

  The protrusion 310 can be referred to as a portion (first engagement portion) that engages with the hole 410 provided in the delivery box fixing device 400.

  FIG. 11 is a diagram showing details of the delivery box fixing device 400 according to the embodiment of the present invention.

  The delivery box fixing device 400 shown in FIG. 11 is provided with four holes (a first hole 410a, a second hole 410b, a third hole 410c, and a fourth hole 410d). Is a portion that can be engaged with the projection 310 provided on the front side.

  For this reason, the hole 410 can also be referred to as a portion (second engagement portion) that engages with the protrusion 310 provided on the delivery box 300.

  The hole 410 is formed by combining two circular portions, an upper circular portion 410a and a lower circular portion 410b. The protrusion 310 provided on the delivery box 300 fits (engages) with the two circular portions of the upper circular portion 410a and the lower circular portion 410b. The cylindrical portion of the projection 310 protrudes from the delivery box 300, and is provided so as to prevent the delivery box 300 from being lifted up and fixed.

  FIG. 12 is a diagram illustrating an engagement state between the delivery box 300 and the delivery box fixing device 400 according to the embodiment of the present invention.

  FIG. 12 shows a state in which the projection 310 of the delivery box 300 is inserted (hooked) into the hole 410 of the delivery box fixture 400 and fixed (engaged).

  The hole 410 provided in the delivery box fixing device 400 is formed by combining a large hole (first hole shape) with a small hole (second hole shape) compared to the large hole to form one hole. It is.

  After the projection 310 of the delivery box 300 is inserted into the large hole, the projection 310 is moved to the small hole, so that the delivery box 300 is engaged with the delivery box fixture 400 and is fixed.

  FIG. 13 is a diagram showing the contents of the mail received by the recipient of the package.

  The mail content shown in FIG. 13 is the content of the transmission means in which the child car 200 notifies the recipient of the delivery box 300.

  This mail has header information including a destination (TO: xxx@yyy.jp), a delivery source (FROM: (delivery person or package sending source)), a title (SUBJECT: notification of delivery completion), and the like. In addition, the message content, delivery box identification information (BOX number) for identifying the delivery box, and an unlock key code are included.

  The recipient of the package recognizes that the delivery of the package is completed by receiving the mail content, specifies the delivery box 300, unlocks the specified delivery box 300, and takes out the package. It becomes possible.

  FIG. 14 is a flowchart showing a detailed flow of the BOX delivery control process performed in the mother vehicle according to the embodiment of the present invention.

  In FIG. 14, the mother vehicle 100 checks at least one of “delivery information” and “collection information”, which are information received or set information through communication with the center 10 (S1401).

  The delivery information is information including “address of the delivery destination”, “fixture number” for identifying the delivery box fixture 400, “box identification information” for identifying the delivery box 300 to be delivered, and the like. Further, the collection information includes, besides the address and name of the collection destination, “fixture number” for identifying the delivery box fixture 400, “box identification information” for identifying the delivery box 300 to be collected, and the like.

  Based on these information, the mother vehicle 100 searches for a delivery route to the delivery destination based on map information and traffic information stored in advance (S1402) and sets (stores) it (S1403).

  Then, the mother vehicle 100 determines whether or not a delivery start condition, which is a condition for starting delivery from the current location (for example, the center 10), is satisfied (S1404). The delivery start condition is that the mother vehicle 100 has arrived at the departure order starting from the center 10 or that the set departure time has come.

  The carriage 100 continues the standby state until it determines that the delivery start condition has been satisfied (NO in S1404), and subsequently determines that the delivery start condition has been satisfied (YES in S1404), An operation control process related to delivery based on the set delivery route is performed (S1405).

  This operation control process is a process of moving a delivery route from a current position (current location) to a delivery destination 20 using various information (map information, road information, traffic information, etc.) and a GPS device, and includes a radar and a sensor. (Radar, laser sensor, infrared sensor, ultrasonic sensor, pyroelectric sensor, etc.), and other vehicles, pedestrians, animals, falling objects, etc. The vehicle moves while paying attention to traffic lanes, signals, and the like defined by grooves, irregularities, center lines, and the like.

  Then, through this operation control process, the mother vehicle 100 determines whether or not it has arrived at the relay point for the delivery destination indicated by “delivery information” on the delivery route or in the vicinity thereof (S1406).

  The operation control process is continued until the vehicle arrives at these points (the relay point or its vicinity) by this operation control process (NO in S1406), and the operation control process is performed at the relay point or the vicinity for the delivery destination 20 indicated by the “delivery information”. When the vehicle arrives (YES in S1406), the mother vehicle 100 controls the child vehicle 200 for delivering the delivery box 300 from the relay point to the delivery destination from the mother vehicle 100 (S1407).

  It is determined whether or not the child car 200 has exited from the mother vehicle 100 by this exit control process (S1408), and the exit control process is performed until the child vehicle 200 completes exiting from the mother vehicle 100 (NO in S1408). That is, (S1407).

  Then, when the exit control process is completed and child car 200 exits from parent vehicle 100 (YES in S1408), mother vehicle 100 continuously performs communication control processing with child vehicle 200 that has exited. This keeps managing the delivery status of the child car 200 (S1409).

  Thereby, the mother vehicle 100 and the child vehicle 200 can grasp each other's current location and delivery status one by one.

  Based on the management status, the mother vehicle 100 determines whether or not the child vehicle 200 has completed the delivery and belongs to a predetermined position (S1410). That is, after the delivery is completed by the stroller 200 fixing the delivery box 300 to the delivery destination 20, the stroller 100 is designated at a predetermined position related to the stroller 100 (designated in relation to the stroller 100 to enter the warehouse). It is determined whether or not it has returned to the position.

  Until the child vehicle 200 belongs to this predetermined position (NO in S1410), the mother vehicle 100 continues to manage the status of the child vehicle 200 by performing communication control processing with the child vehicle 200 (S1409).

  The communication control process performed between the mother vehicle 100 and the child vehicle 200 includes direct communication performed directly between the mother vehicle 100 and the child vehicle 200, and the communication control process between the mother vehicle 100 and the child vehicle 200 via the center 10. May be an indirect communication control process performed indirectly. Further, all the control processes performed in the mother vehicle 100 and the child vehicle 200 may be based on a communication control instruction from the center 10.

  On the other hand, when child car 200 belongs to the predetermined position (YES in S1410), mother vehicle 100 performs control processing for causing child car 200 to enter the parent vehicle 100 (S1411). This entry control process is a control process in which the door of the mother vehicle 100 is opened, the door becomes an entrance path, the child vehicle 200 is entered, and the child vehicle 200 is stopped at a predetermined stop position in the mother vehicle 100.

  When the child car 200 is completely stored in the mother vehicle 100 by this warehouse control process, the mother vehicle 100 updates the management information (slave car management information) of the child car 200 (S1412), and stores the child car management information in the center. (S1413). As a result, the center 10 can grasp that the stroller 200 has returned to the mother car 100 normally. Also in this case, similarly, the communication control process performed between the mother vehicle 100 and the child vehicle 200 includes direct communication performed directly between the mother vehicle 100 and the child vehicle 200, and also includes the mother vehicle via the center 10. Control processing of indirect communication performed indirectly between the vehicle 100 and the child car 200 may be performed. Further, all the control processes performed in the mother vehicle 100 and the child vehicle 200 may be based on a communication control instruction from the center 10.

  Then, the mother vehicle 100 determines whether or not the delivery control on the delivery route has been managed (S1414). If it is determined that the delivery of all the delivery boxes 300 has been completed (YES in S1414), the process ends. .

  Until it is determined that the delivery of all the delivery boxes 300 has been completed (NO in S1414), the mother vehicle 100 performs the operation control process in the delivery of the delivery boxes 300 on the set delivery route (S1405).

  FIG. 15 is a flowchart showing a detailed flow of the BOX delivery control process performed in the stroller according to the embodiment of the present invention.

  In FIG. 15, in the child car 200, at least one of “delivery information” and “collection information”, which are information received or set by communication with the center 10, is confirmed (S1501).

  This delivery information is similar to the “delivery information” set for the mother vehicle 100, in addition to the address and name of the delivery destination, a “fixture number” for identifying the delivery box fixture 400, and identifying the delivery box 300 to be delivered. The information includes “box identification information”. The collection information is similar to the “collection information” set in the mother vehicle 100, in addition to the address and name of the collection destination, a “fixture number” for identifying the delivery box fixture 400, and the collection box 300 to be collected. "Box identification information" for identification is included.

  Based on this information, the child car 200 searches for a delivery route to the delivery destination based on map information and traffic information stored in advance (S1502), and sets (stores) it (S1503).

  Then, the child car 200 determines whether or not the child car delivery start condition, which is a condition for starting delivery starting from the current location (for example, a relay point), is satisfied (S1504). The delivery start condition for the stroller is a condition in which the door of the stroller 100 is opened and the stroller 200 can be dispatched in consideration of the surrounding road conditions and the like.

  Until the child car 200 determines that the delivery start condition for the child car has been satisfied (NO in S1504), the child car 200 continues the standby state until it determines that the delivery start condition has been satisfied, and the delivery start condition is satisfied. If it is determined that the delivery has been performed (YES in S1504), an operation control process related to delivery to the delivery destination 20 is performed based on the set delivery route (S1505).

  Then, the child car 200 determines whether or not it has arrived at the delivery destination 20 indicated by “delivery information” on the delivery route by this driving control process (S1506).

  The operation control process is continued until the vehicle reaches the delivery destination 20 by this operation control process (NO in S1506), and when the vehicle arrives at the delivery destination 20 indicated by the “delivery information” (YES in S1506), the child car 200 A control process (BOX fixing control process) for hanging and fixing the loaded delivery box 300 to the delivery box fixing device 400 provided at the delivery destination is performed (S1507).

  When the delivery box 300 is fixed to the delivery box fixing device 400 by the BOX fixing control process, the child car 200 notifies the mother car 100 and the center 10 of the "attachment completion notification" (S1508).

  Then, the child car 200 acquires "position information of the mother vehicle" through communication with the mother vehicle 100 (S1509), and based on the acquired "position information of the mother vehicle", a "return route" to the mother vehicle 100. Is retrieved (S1510) and set (stored) (S1511).

  In this state, the child car 200 determines whether or not a “return start condition” for starting operation control based on the set “return route” has been satisfied (S1512).

  Until the "return start condition" is satisfied (NO in S1512), the child car 200 is on standby until the condition is satisfied, and when the "return start condition" for starting driving control is satisfied (YES in S1512). ), And performs operation control based on the set “return route” (S1513).

  Then, the child car 200 determines whether all deliveries based on the “delivery route” in the set child car 200 have been completed (S1514). By this determination process, the child car 200 continuously performs the driving control based on the “return route” until all the deliveries are completed (NO in S1514) (S1513). When it is determined that all the deliveries have been completed by this determination process, the child car 200 ends the BOX delivery control process.

  FIG. 16 is a flowchart showing a detailed flow of the lock control process performed in the delivery box according to the embodiment of the present invention.

  In FIG. 16, the delivery box 300 receives an input of “predetermined information” at an information input unit provided in the delivery box 300 by an operation of a recipient or the like of the stored luggage (S1601). This information input unit is provided in the delivery box 300, and includes a touch panel, buttons, a camera (imaging device), and the like as described above.

  Delivery box 300 transmits an authentication request including the “predetermined information” input from the information input unit to child car 200 (S1602). The child car 200 receives the authentication request including the “predetermined information” from the delivery box 300, and the “predetermined information” is a normal “unlock key code” for unlocking the delivery box 300. It is determined whether or not there is.

  The authentication request includes, in addition to the “predetermined information”, information for identifying the delivery box 300, and the “predetermined information” is the “authentication information” specified for the information for identifying the delivery box 300. Is determined as to whether or not it is an "unlock key code" corresponding to the delivery box 300 (that is, in the child car 200, the "authentication information" for the information for identifying the delivery box 300 and the "authentication information" A determination program or the like for determining whether or not the “unlock key code” corresponding to the “information” is stored.

  Then, the delivery box 300 determines whether or not the response from the stroller 200 is the authenticated “unlock key code” (S1603). When the child car 200 determines that the "predetermined information" has been authenticated as a normal "unlock key code", the delivery box 300 performs unlocking processing of the locked door (S1604).

  This allows the recipient of the package to open the door and take out the package. The recipient removes the package, and then determines whether the door has been closed (S1605).

  The process waits until the door is closed (NO in S1605), and when the closing of the door is detected by a sensor or the like (YES in S1605), the delivery box 300 performs a locking process of locking the door (S1606).

  This locking process is to prevent the recipient from unlocking the door without inputting the "unlock key code". If the recipient again inputs the normal "unlock key code", the door is opened. This is a process for making the state possible.

  When the locking process for locking the door is performed, the delivery box 300 determines whether or not a sensor (package sensor) provided in the delivery box 300 detects that the package has been taken out by the recipient ( S1607).

  When the delivery box 300 detects that the package has been taken out by the recipient (YES in S1607), the "takeout completion notification (including the BOX identification information)" indicating that the package has been taken out to the center 10. Is transmitted (S1608).

  Until it is detected that the package has been taken out by the recipient (NO in S1607), that is, when the package has not been taken out, the delivery box 300 can accept the input of “predetermined information” in the information input section. I do.

  In the above process, after the locking process is performed, it is determined whether or not the package has been taken out by the recipient. However, the present invention is not limited to this. That is, it is detected by the luggage sensor or the like that the luggage is taken out by the recipient with the door opened, and the locking process is performed. May be transmitted, indicating that the extraction has been performed (including the BOX identification information).

  The embodiment described above is an embodiment of the present invention, and the present invention is not limited to the embodiment, and can be appropriately modified and implemented without changing the gist thereof.

Reference Signs List 10 center 20 delivery destination 100 mother vehicle 101 mother vehicle drive wheel 102 storage surface 102a work space 103 door 200 child carrier 201 arm 201a first joint arm 201b second joint arm 202 carrier 203 child carriage drive wheel 204 communication antenna 300 delivery box 310 Projection 400 Delivery box fixture 410 Hole

Claims (1)

A delivery system including a delivery vehicle loaded with a delivery box to be delivered to a delivery destination, and a mother vehicle equipped with the delivery vehicle, wherein the delivery vehicle gets off the mother vehicle and delivers the delivery box to the delivery destination. And
The delivery destination is provided with a delivery box fixture capable of fixing the delivery box,
The delivery box has a first engagement portion engageable with the delivery box fixture,
The delivery box fixture has a second engagement portion corresponding to the first engagement portion,
The first engagement portion has a protrusion,
The second engagement portion has a hole corresponding to the protrusion,
The shipping box is engaged the first engaging portion with the second engagement portion by the projection portion is inserted into the hole, and characterized in that they are secured to the shipping box fixture Delivery system.

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