JP2020057054A - Baggage picking-up device, method for picking up baggage, and program - Google Patents

Abstract

To provide a baggage picking-up device which can automatically acquire information necessary to pick up baggage automatically.SOLUTION: The baggage picking-up device includes: a picking-up unit for picking up baggage; a weight acquiring unit for automatically acquiring the weight of the baggage if the baggage is arranged in the picking-up unit; an address acquiring unit for automatically acquiring the address of the baggage when the baggage is arranged in the picking-up unit; a size acquiring unit for automatically acquiring the size of the baggage when the baggage is arranged in the picking-up unit; and a determination unit for determining whether the baggage is to be picked up on the basis of the weight, the address, and the size.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a baggage acceptance device, a baggage acceptance method, and a program.

  Patent Literature 1 discloses a fare calculation device that calculates a fare in the transportation industry. The fare calculation device is based on the weight of the baggage measured by the weighing unit, the external dimensions of the baggage measured using the tape measure of the length measuring unit, and the destination input to the key switch of the destination setting unit. Calculate the fare. This reduces the amount of work for calculating the fare.

JP-A-2-269917

  Acquisition of information necessary for calculating the freight transportation cost using the fare calculation device of Patent Document 1 includes a manual operation. Therefore, the technology described in Patent Document 1 has room for improvement in automation of information acquisition.

  SUMMARY OF THE INVENTION It is an object of the present invention to provide a luggage acceptance device, a luggage acceptance method, and a program that can automatically acquire information required for automatic acceptance of luggage.

  According to one aspect of the present invention, an undertaking unit that accepts a package, a weight acquisition unit that automatically acquires the weight of the package when the package is placed in the underwriting unit, When arranged in, a destination acquisition unit that automatically acquires the destination of the package, and a dimension acquisition unit that automatically acquires the dimensions of the package when the package is arranged in the underwriting unit, And a determining unit for determining whether or not to accept the package based on the weight, the destination, and the size.

  According to another aspect of the present invention, there is provided a luggage pick-up method that is performed by a luggage pick-up device including a pick-up unit that picks up luggage, wherein when the luggage is arranged in the pick-up unit, the weight of the luggage is reduced. Automatically acquiring, when the package is placed in the underwriting section, automatically acquiring the destination of the package, and when the package is placed in the underwriting section, There is provided a baggage acceptance method, comprising: automatically acquiring a size; and determining whether the package can be accepted based on the weight, the destination, and the size.

  According to another aspect of the present invention, in a baggage undertaking device having a undertaking unit for undertaking a package, when the package is arranged in the underwriting unit, the step of automatically acquiring the weight of the package, Automatically obtaining the address of the package when the package is placed in the underwriting unit; and automatically acquiring the dimensions of the package when the package is placed in the underwriting unit. Determining whether or not to accept the package based on the weight, the destination, and the dimensions. A program for executing a package acceptance method is provided.

  According to the present invention, it is possible to provide a luggage acceptance device, a luggage acceptance method, and a program that can automatically acquire information necessary for automatic acceptance of luggage.

It is a block diagram showing the schematic structure of the baggage undertaking device concerning a 1st embodiment. FIG. 2 is a block diagram illustrating a hardware configuration example of a control device according to the first embodiment. 1 is an overall perspective view of a baggage acceptance device according to a first embodiment. FIG. 3 is an overall perspective view of the baggage acceptance device when a shutter is in a closed state. It is a schematic diagram which shows conveyance of the baggage in the baggage acceptance device according to the first embodiment. It is sectional drawing which shows the structure of the mounting part in the baggage acceptance apparatus which concerns on 1st Embodiment. 1 is a schematic diagram illustrating a configuration of a dimension measuring device according to a first embodiment. It is a schematic diagram which shows the structure of the 1st floodlight which concerns on 1st Embodiment. It is a flowchart which shows operation | movement of the baggage undertaking apparatus which concerns on 1st Embodiment. It is an example of a table used for calculation of a transportation fee. It is a figure showing typically the network composition where the baggage undertaking device concerning a 2nd embodiment is used. It is an example of a registration screen for pre-registration. It is an example of a completion screen of pre-registration. It is a flow chart which shows operation of a baggage undertaking device concerning a 2nd embodiment. It is a flow chart which shows operation of a baggage undertaking device concerning a 2nd embodiment. It is a block diagram showing the schematic structure of the baggage undertaking device concerning a 3rd embodiment. It is a block diagram showing the schematic structure of the baggage undertaking device concerning a 4th embodiment.

  Hereinafter, exemplary embodiments of the present invention will be described with reference to the drawings. In the drawings, similar or corresponding elements are denoted by the same reference numerals, and description thereof may be omitted or simplified.

[First Embodiment]
The luggage acceptance device 10 of the present embodiment is a device that automatically accepts luggage brought by a transportation requester who requests transportation of luggage. The luggage acceptance device 10 can be installed in a store of a carrier such as a post office or a home delivery company or a store of a retailer such as a convenience store or a supermarket. The luggage acceptance device 10 of the present embodiment can automatically acquire the weight, size, and destination of the luggage and accept the luggage, so that the above-described store can be labor-saving.

  FIG. 1 is a block diagram illustrating a schematic configuration of a baggage undertaking device 10 according to the present embodiment. The luggage acceptance device 10 includes an underwriting unit 110, a touch panel 120, a two-dimensional code reader 122, a card reader 124, a deposit slip ejection unit 126, a main display 130, an interphone 140, a shutter 150, a label sticking device 160, and an ejection unit 170. Further, the baggage undertaking device 10 includes a human sensor 190, a control device 200, a weight measuring device 210, a dimension measuring device 220, an imaging device 230, a character recognition device 240, a transport device 250, and a communication device 260.

  The communication device 260 includes a communication module or the like that supports a wired or wireless communication standard such as Ethernet (registered trademark) and Wi-Fi (registered trademark). The communication device 260 is a device for performing communication between the baggage acceptance device 10 and another device such as a pre-registration server. Details of other components will be described later.

  FIG. 2 is a block diagram illustrating a hardware configuration example of the control device 200 according to the present embodiment. The control device 200 is a computer having functions of calculation, control, and storage, and mainly controls the baggage acceptance device 10. The control device 200 may be a server, a PC (Personal Computer), a microcomputer, a PLC (Programmable Logic Controller), or the like. Further, the control device 200 may be constituted by a plurality of hardware such as a combination of a PC that controls the entire package acceptance device 10 and a PLC that controls the mechanism.

  The control device 200 includes a CPU (Central Processing Unit) 201, a RAM (Random Access Memory) 202, a ROM (Read Only Memory) 203, a flash memory 204, and an I / F (Interface) 205. The CPU 201, the RAM 202, the ROM 203, the flash memory 204, and the I / F 205 are interconnected via a bus 206. The control device 200 may include a drive device (not shown) for driving each unit of the baggage acceptance device 10.

  In FIG. 2, each unit configuring the control device 200 is illustrated as an integrated device, but a part of these functions may be provided by an external device.

  The CPU 201 is a processor that performs a predetermined operation according to a program stored in the ROM 203, the flash memory 204, or the like, and also has a function of controlling each unit of the baggage acceptance device 10. The RAM 202 is configured from a volatile storage medium, and provides a temporary memory area required for the operation of the CPU 201. The ROM 203 is formed of a nonvolatile storage medium, and stores necessary information such as a program used for the operation of the control device 200. The flash memory 204 is a storage device that is configured from a nonvolatile storage medium and stores acquired information, an operation program of the control device 200, and the like.

  The I / F 205 is a communication interface based on standards such as Ethernet, Wi-Fi, Bluetooth (registered trademark), USB (Universal Serial Bus), and RS-232C (Recommended Standard 232 version C). The I / F 205 includes a communication module or the like that supports various communication standards. The I / F 205 is used for communication between the control device 200 and each unit in the baggage acceptance device 10.

  Note that the hardware configuration shown in FIG. 2 is merely an example, and other devices may be added, or some devices may not be provided. For example, the control device 200 may have a display device such as a display, or may have an input device that receives an operation from a user. In addition, some devices may be replaced with another device having a similar function. For example, the flash memory 204 may be replaced with an HDD (Hard Disk Drive) or the like. Furthermore, some functions of the present embodiment may be provided by another device via a network, and the functions of the present embodiment may be realized by being distributed to a plurality of devices. For example, the flash memory 204 may be replaced with a cloud storage.

  FIG. 3 is an overall perspective view of the baggage acceptance device 10 according to the present embodiment. The coordinate axes shown in the figure are provided for convenience of explanation. In the drawings after FIG. 3, the directions of the coordinate axes are unified.

  The accepting unit 110 is a part that accepts the baggage brought by the transport requester, and includes an opening of the baggage accepting device 10 and a placement unit 111 provided inside the opening. The transport requester places the package 20 on the placement unit 111 in the underwriting unit 110. FIG. 3 shows a state immediately after the transport requester places the package 20 on the placement unit 111. In addition, the undertaking section 110 is provided with a guide 112 arranged at a height close to the mounting section 111. The transport requester first places the luggage 20 on the guide 112, and then moves the luggage 20 to the placement unit 111 so as to slide the luggage 20, so that the luggage 20 can be placed smoothly. The placement unit 111 is provided with a belt conveyor, which is a transport device 250. The load 20 placed on the placement unit 111 moves in the depth direction (the positive direction of the y-axis) of the load acceptance device 10. Conveyed. The transport device 250 may be a device other than a belt conveyor as long as it can transport the load 20, and may be, for example, a roller conveyor, a chain conveyor, or the like.

  The touch panel 120 is a liquid crystal display, an OLED (Organic Light Emitting Diode) display, or the like, and is used for displaying a GUI (Graphical User Interface) or the like for operation input. Further, the touch panel 120 is provided with a touch sensor corresponding to a touch operation on a display surface. Thus, the touch panel 120 has both a display function and a function of receiving an input. By operating the touch panel 120, the transport requester can input information necessary for the transport request, such as the name of the transport requester, the address of the transport requester, the name of the transport target, and the destination. The input method to the touch panel 120 may be a method of inputting the above-mentioned information by characters, but is extracted from the ID of the transport requester, information read from the package 20, the past history of the transport requester, and the like. Alternatively, a plurality of candidates may be displayed to allow the user to select.

  The two-dimensional code reader 122 is a device that reads a two-dimensional code such as a QR code (registered trademark) distributed from the pre-registration server to the terminal when information such as a destination is pre-registered in the pre-registration server. The transport requester can cause the two-dimensional code reader 122 to read the information stored in the two-dimensional code by displaying the two-dimensional code on a terminal owned by the user and holding the two-dimensional code over the two-dimensional code reader 122. Processing utilizing the two-dimensional code will be described later.

  The card reader 124 is a device that reads a card compatible with electronic payment, such as a credit card, a debit card, a prepaid card, and an electronic money card. The card reader 124 is, for example, a device corresponding to reading of information stored in a magnetic stripe card, an IC card, or the like, and a reading method may be a contact type or a non-contact type. As described above, the card reader 124 functions as a settlement unit of the baggage acceptance device 10, and realizes unattended settlement.

  The custody slip discharging unit 126 is a printing device that prints and discharges a custody slip after the baggage acceptance device 10 accepts a package. The baggage slip includes a message that the baggage 20 has been accepted, the type of the baggage 20, the size of the baggage 20, the weight of the baggage 20, the tracking number of the baggage 20, the date and time of receipt, the identification number of the baggage acceptance device 10, the issue number of the baggage slip, Contact information etc. are described. The issue number of the storage slip, the tracking number of the package 20, and the like are associated with the package 20, and the carrier requests the package 20 by accessing the pre-registration server and inputting these numbers. be able to.

  The main display 130 is a display larger than the touch panel 120, such as a liquid crystal display or an OLED display. The main display 130 is used for notifying information to the transport requester, such as displaying a message to the transport requester.

  The intercom 140 is a telephone for making an inquiry to a person in charge of managing the baggage acceptance device 10 or a person in charge of the call center. Since the baggage acceptance device 10 is configured so that, in principle, the transport requester can independently perform the delivery work of the baggage 20, it is not usually necessary to notify a staff member or the like. However, if an unclear point arises in the operation, an inquiry may be required at the time of occurrence of a malfunction or the like. Therefore, the luggage acceptance device 10 is provided with the intercom 140.

  The label sticking device 160 is a device for creating a label on which predetermined information is printed on an adhesive paper or the like, and sticking the label to the baggage conveyed inside the baggage pick-up device 10. The label is printed with information such as an address required for delivery to the destination, identification information such as a barcode required for automatic sorting of the packages 20 at the baggage collection point, and the like. The label attaching apparatus 160 includes a right-angle transfer mechanism, a positioning plate, a label attaching arm, and the like. The label pasting device 160 moves the package 20 in the x-direction by the right-angle transfer mechanism and positions it along the positioning plate, and then presses the label on the package 20 with the label pasting arm to perform label pasting.

  The discharge unit 170 has an opening of the baggage acceptance device 10 for discharging the baggage 20 to which the label has been attached. Although not shown, the opening of the discharge unit 170 has the same form as that of the underwriting unit 110. In addition, a belt conveyor for further transporting the baggage 20 discharged from the discharge unit 170 may be provided. In this case, the baggage 20 discharged from the discharge unit 170 is automatically transferred onto the belt conveyor. Then, it is conveyed to the back yard of the store by the belt conveyor. The belt conveyor may be a device other than the belt conveyor as long as the baggage 20 can be transported, and may be, for example, a roller conveyor, a chain conveyor, or the like.

  The human sensor 190 is provided on the front of the baggage acceptance device 10 and detects whether a person such as a transport requester is on the front of the baggage acceptance device 10. The human sensor 190 may be, for example, an infrared sensor, an optical sensor, a capacitance sensor, or the like.

  Below the undertaking unit 110, the label affixing device 160, and the discharging unit 170, a support unit 180 that supports these units is provided. The support portion 180 is covered by a housing of the baggage acceptance device 10, and devices (not shown) such as a control device 200, a communication device 260, and a driving device of each device can be arranged in a space inside the housing.

  In addition, a caster may be provided below the support unit 180, and in this case, the baggage acceptance device 10 can be made portable. This configuration is effective when the installation location of the baggage acceptance device 10 is sometimes moved.

  The shutter 150 is a shielding member movably provided on the front surface of the undertaking unit 110 (first shutter position) or between the undertaking unit 110 and the label attaching device 160 (second shutter position). The shutter 150 can move between a first shutter position and a second shutter position under the control of the control device 200. Hereinafter, the state in which the shutter 150 is at the second shutter position may be referred to as an open state, and the state in which the shutter 150 is at the first shutter position may be referred to as a closed state. Moving the shutter 150 to the second shutter position may be referred to as "opening the shutter 150", and moving the shutter 150 to the first shutter position may be referred to as "closing the shutter 150". .

  The height of the luggage acceptance device 10 in the z direction is about 150 cm. The height of the support portion 180 in the z direction is about 50 cm.

  FIG. 3 is an overall perspective view of the baggage acceptance device 10 when the shutter 150 is in an open state. On the other hand, FIG. 4 is an overall perspective view of the baggage acceptance device 10 when the shutter 150 is in the closed state. When the baggage undertaking device 10 is not in use, as shown in FIG. 4, the shutter 150 protects the inside of the device by covering the undertaking unit 110. In addition, even when the driving unit of the baggage pick-up device 10 is moving, such as during the transfer of the transfer device 250, the shutter 150 is closed so that the transport requester cannot touch the inside of the baggage pick-up device 10. Therefore, safety is improved. When the shutter 150 is in the open state, the shutter 150 is disposed in front of the label sticking device 160 and has a function of protecting the inside of the label sticking device 160 while allowing access to the underwriting unit 110. .

  FIG. 5 is a schematic diagram illustrating the conveyance of the package 20 in the package acceptance device 10 according to the present embodiment. In order to show the internal mechanism, in FIG. 5, members that are not necessary for the description of the transport of the load 20 such as the housing of the load acceptance device 10 are not shown.

  The transport device 250 is a belt conveyor that transports the load 20 in the positive or negative y-axis direction. FIG. 5 shows a state where the load 20 is being conveyed in the positive direction of the y-axis. The dashed line E in the figure indicates the position of the inner wall of the housing. The broken line in the drawing indicates the position of the shutter 150 in the open state.

  FIG. 6 is a cross-sectional view illustrating a configuration of the placement unit 111 in the baggage acceptance device 10 according to the present embodiment. FIG. 6 shows a yz cross section in the vicinity of the mounting portion 111. The configuration of the weight measuring device 210 will be described with reference to FIGS.

  The weight measuring device 210 includes a weight sensor that generates a signal according to the load. The weight measuring device 210 is attached below the placing portion 111 so that the load received from the package 20 and the placing portion 111 can be measured when the load 20 is placed on the placing portion 111. The signal generated by the weight measuring device 210 is transmitted from the weight measuring device 210 to the control device 200, and stored in a storage device such as the flash memory 204 as data indicating the weight of the package 20. Thus, the weight measuring device 210 functions as a weight obtaining unit of the baggage undertaking device 10. In the process of obtaining the weight, the control device 200 or the weight measuring device 210 performs a process of subtracting the weight of the mounting portion 111 to obtain the net weight of the package 20.

  FIG. 7 is a schematic diagram illustrating a configuration of the dimension measuring device 220 according to the present embodiment. FIG. 8 is a schematic diagram illustrating a configuration of the first projector 221 according to the present embodiment. The configuration of the dimension measuring device 220 will be described with reference to FIGS. The dimension measuring device 220 includes a first light emitter 221, a first light receiver 222, a second light emitter 223, a second light receiver 224, and a dimension calculator 225. The first light emitter 221, the first light receiver 222, the second light emitter 223, and the second light receiver 224 are controlled by the control device 200. The control device 200 functions as the dimension calculation unit 225 by executing the program. Alternatively, the dimension calculation unit 225 may be configured by hardware different from the control device 200.

  As shown in FIG. 8, the first projector 221 includes a plurality of light emitting elements 226 arranged in the x direction. The light emitting element 226 is, for example, an LED (Light Emitting Diode) that emits infrared light. The light emitting elements 226 are arranged in a staggered arrangement, whereby the pitch in the x direction can be reduced as compared with the case where the light emitting elements 226 are arranged in a straight line, and the resolution of dimension measurement can be improved. The pitch of the light emitting elements 226 in the x direction is, for example, 5 mm, which makes it possible to measure the size of the package 20 with a resolution of about 5 mm.

  Each of the plurality of light emitting elements 226 of the first projector 221 emits light in parallel with the positive direction of the z-axis. The first light receiver 222 has light receiving elements corresponding to the respective light emitting elements 226. The light receiving element is, for example, a photodiode that receives an infrared ray and generates an electric signal. Since the light receiving elements are also arranged in the same manner as in FIG. 8, a detailed description of the arrangement of the light receiving elements of the first light receiver 222 will be omitted.

  Each of the plurality of light emitting elements 226 of the second projector 223 emits light in parallel to the negative direction of the x-axis. The second light receiver 224 has a light receiving element corresponding to each of the light emitting elements 226. The structures of the second light projector 223 and the second light receiver 224 are the same as those of the first light projector 221 and the first light receiver 222, respectively.

  When the package 20 passes through the detection area surrounded by the first projector 221, the first light receiver 222, the second projector 223, and the second light receiver 224, the amount of light detected by the light receiving elements in the range blocked by the package 20 is reduced. The state is lowered. The dimension calculation unit 225 can measure the width (dimension in the x direction) and the height (dimension in the z direction) of the package 20 by counting the number of light receiving elements whose detected light amount has decreased.

  In addition, the dimension calculating unit 225 can measure the length (dimension in the y direction) of the package 20 by multiplying the time during which the amount of light detected by the light receiving element is reduced by the transport speed of the transport device 250. . As described above, the dimension calculation unit 225 can acquire the dimensions of the three sides of the width, the length, and the height. The dimensions of the package 20 are stored in a storage device such as the flash memory 204. Thus, the dimension measuring device 220 functions as a dimension acquiring unit of the baggage undertaking device 10.

  Referring back to FIG. 5, the imaging device 230 will be described. The imaging device 230 is a device for acquiring an image of the package 20 such as a camera. The imaging device 230 is arranged so as to be able to take an image of the invoice 21 attached to the top surface of the package 20 transported by the transport device 250. The invoice 21 is a label in which information necessary for a transportation request, such as the name of the transportation requester, the address of the transportation requester, the name of the person to be transported, the destination, etc., is entered in a predetermined format. The transportation requester prepares the invoice 21 in advance and affixes it to the top surface of the package 20.

  The image of the invoice 21 captured by the imaging device 230 is stored in a storage device such as the flash memory 204. Thereafter, the character recognition device 240 recognizes characters described on the invoice 21 from the image of the invoice 21. The character recognition device 240 is a computer having an OCR (Optical Character Recognition) function. The character recognition device 240 may be a computer different from the control device 200, but may have a configuration in which the control device 200 functions as the character recognition device 240 by executing an OCR program. The function of the character recognition device 240 may be included inside the baggage undertaking device 10, and the character recognition device 240 may be provided outside the baggage underwriting device 10. The character recognition device 240 acquires, as text data, information necessary for a transport request such as the name of the transport requester, the address of the transport requester, the name of the person to be transported, and the destination, and stores the information in a storage device such as the flash memory 204. . Thus, the imaging device 230 and the character recognition device 240 function as a destination acquisition unit of the baggage underwriting device 10.

  FIG. 9 is a flowchart showing the operation of the baggage undertaking device 10 according to the present embodiment. With reference to FIG. 9, the luggage acceptance processing executed by the luggage acceptance device 10 will be described.

  The process in FIG. 9 is started when it is necessary to accept a package, for example, when the human sensor 190 detects the approach of a carrier. Other examples of when it is necessary to accept the package include a case where the transport requester touches the touch panel 120, a case where the transport requester brings the package 20 closer to the underwriting unit 110, and the like.

  Note that the shutter 150 may be in a closed state during a period before the necessity of taking over the luggage occurs. In that case, the control device 200 performs control to open the shutter 150 when it becomes necessary to accept the luggage. In addition, during a period before the necessity of taking over the luggage occurs, the luggage undertaking apparatus 10 may be in a sleep state in which some functions are restricted. In that case, the control device 200 performs control to return the luggage acceptance device 10 from the sleep state when it becomes necessary to accept the luggage.

  In step S101, the weight measurement device 210, the imaging device 230, and the like detect placement of the baggage 20 based on the control of the control device 200. After the placement of the package 20 has been detected, the process proceeds to step S102. This detection may be performed, for example, by the weight measuring device 210 detecting the weight of the baggage 20, or may be performed by analyzing an image captured by the imaging device 230. Further, a luggage detection sensor may be further provided. In this case, by setting the detection area of the luggage detection sensor near the placement unit 111, the placement of the luggage 20 can be detected.

  In step S102, the control device 200 controls the shutter 150 to perform a process of closing the shutter 150. Thereby, the transport requester is prevented from touching the inside of the luggage acceptance device 10 when the drive unit of the luggage acceptance device 10 is moving, so that the safety is improved. Further, it is possible to prevent the transport requester from carrying the package 20 during the processing.

  In step S103, the weight measuring device 210 acquires the weight of the baggage 20 based on the control of the control device 200. The acquired weight is transmitted to the control device 200 and stored in the flash memory 204.

  In step S104, based on the control of the control device 200, the imaging device 230 and the character recognition device 240 acquire information necessary for a transportation request including the destination of the package 20 from the invoice 21 attached to the package 20. The obtained information such as the destination is transmitted to the control device 200 and stored in the flash memory 204.

  In step S105, the transport device 250 starts transporting the package 20 under the control of the control device 200.

  In step S106, the dimension measuring device 220 acquires the width, length, and height dimensions of the package 20 based on the control of the control device 200. The acquired dimensions are transmitted to the control device 200 and stored in the flash memory 204.

  In step S107, the control device 200 calculates the transportation fee of the package 20 based on the weight, destination, and size of the package 20. A method of calculating the transportation fee will be described with reference to FIG.

  FIG. 10 is an example of a table used for calculating a transportation fee. As shown in FIG. 10, the shipping fee is determined based on the location of the shipping source, the destination, the total value of the three sides of the width, length, and height of the package 20, and the weight of the package 20. A table as shown in FIG. 10 is stored in the flash memory 204 in advance. Further, since the sender is the same as the installation location of the baggage acceptance device 10, it is determined in advance and stored in the flash memory 204. Therefore, the control device 200 calculates the total value of the width, the length, and the height from the acquired information of the destination, the weight, the width, the length, and the height, and performs a process of referring to the table in FIG. , You can get the shipping fee automatically. As described above, the control device 200 functions as a transportation fee calculation unit of the baggage underwriting device 10, and automatic calculation of the transportation fee is realized.

  The method of calculating the transportation fee based on the reference to the table is an example, and the transportation fee may be calculated by another method. For example, the transportation fee may be calculated by a function defined in advance, or may be acquired by transmitting information to another server and making an inquiry.

  In step S108, the touch panel 120 or the main display 130 displays the calculated transportation fee based on the control of the control device 200, and prompts the transportation requester to settle the transportation fee. Further, the card reader 124 enters a state in which electronic payment can be accepted based on the control of the control device 200. When the carrier requests the card reader 124 to read the card and performs electronic payment, the control device 200 determines whether or not the transportation fee calculated from the obtained destination, weight, width, length, and height has been correctly settled. It is determined whether or not payment has been made, and the process proceeds to step S109. That is, the control device 200 functions as a determination unit that determines whether the package 20 can be accepted. The touch panel 120 or the main display 130 may further display that the electronic payment has been completed.

  In step S109, the custody slip discharge unit 126 prints and discharges the custody slip under the control of the control device 200.

  In step S110, the label attaching device 160 prints a label and attaches the label to the package 20 under the control of the control device 200. In this process, under the control of the control device 200, the transport device 250 guides the luggage 20 to a position appropriate for attaching a label.

  In step S111, the transport device 250 further moves the package 20 in the positive y-axis direction based on the control of the control device 200, and causes the discharge unit 170 to distribute the package 20. The packages discharged from the discharge unit 170 may be directly accumulated near the discharge unit 170 or may be moved to another place by a staff member. When a belt conveyor for further transporting the baggage 20 discharged from the discharge unit 170 is installed, the baggage 20 is automatically transferred onto the belt conveyor, and the backyard of the store is moved by the belt conveyor. Or the like.

  The luggage acceptance device 10 according to the present embodiment can automatically receive the weight, destination, and dimensions of the luggage 20 required for calculation of a transportation fee, while accepting the luggage 20 brought by the transport requester. Therefore, according to the present embodiment, there is provided a baggage undertaking apparatus 10 capable of automatically acquiring information necessary for automatic undertaking of a package.

  In addition, the baggage acceptance device 10 of the present embodiment can automatically acquire the weight, the destination, and the size when the baggage 20 is accepted. As a result, the actual weight and destination of the package 20 are compared with the case where these information is acquired at a timing other than the time of acceptance, such as when the weight, destination, and dimensions registered before acceptance of the package 20 are used as they are. And dimensions can be reliably obtained.

[Second embodiment]
In the first embodiment, a case has been described in which the baggage acceptance device 10 acquires the weight, destination, and size of the baggage 20 and receives the baggage 20. On the other hand, in the present embodiment, a description will be given of the processing in the baggage undertaking apparatus 10 in the case where the transport requester pre-registers the weight, destination, and dimensions of the package 20. Hereinafter, differences from the first embodiment will be mainly described, and description of common portions will be omitted or simplified.

  FIG. 11 is a diagram schematically illustrating a network configuration in a system using the baggage undertaking device 10 according to the second embodiment. In the present embodiment, the baggage acceptance device 10 is communicably connected to the pre-registration server 30 using the communication device 260. Also, a terminal 40 such as a smartphone owned by the transport requester is communicably connected to the pre-registration server 30 via a wireless communication line.

  The pre-registration server 30 stores information necessary for determining a transportation fee such as the weight, destination, and dimensions of the package 20 to be requested by the transport requester, and the name, address, destination, and address of the transport requester. It is a server for pre-registering information necessary for transportation such as. The pre-registration may be performed using registration application software distributed by a carrier, or may be performed by accessing a pre-registration website.

  FIG. 12 is an example of a registration screen of the application software for pre-registration. When the transport requester operates the terminal 40 and logs in to the pre-registration screen with his / her ID (user ID AAA), a screen as shown in FIG. 12 is displayed on the screen of the terminal 40. When the transportation requester inputs the address and name of the transportation destination and the weight and dimensions (total of three sides) of the package 20, the transportation fee is automatically calculated and displayed on the screen. Here, the weight and dimensions input by the transport requester are not those measured by the baggage acceptance device 10, but are the weights and dimensions measured by the transport requester using a weighing scale, a tape measure, or the like.

  When the operation requester presses the confirm button, the input information is transmitted from the terminal 40 to the pre-registration server 30, and the pre-registration is completed. It should be noted that when the confirm button is pressed, electronic payment is performed by a credit card or the like of the transport requester. The name, address, and settlement information (credit card number, etc.) of the transport requester are assumed to be registered in advance in the pre-registration server 30 at the time of registration of the user ID, and an input area for inputting these is further registered. It may be added to the screen.

  FIG. 13 is an example of a registration completion screen of the pre-registration application software. When the transport requester presses the confirm button to complete the registration, the pre-registration server 30 generates a reception number and a two-dimensional code, and transmits data of a registration completion screen including the reception number and the two-dimensional code to the terminal 40. . The reception number is identification information uniquely associated with the package 20 to be transported. Further, the two-dimensional code includes a reception number or information corresponding thereto. The two-dimensional code may further include information such as an address and a postal code necessary for carrying the package 20 or sorting the package 20.

  FIG. 14 and FIG. 15 are flowcharts showing the operation of the luggage acceptance device 10 according to the present embodiment. With reference to FIG. 14 and FIG. 15, the luggage acceptance processing executed by the luggage acceptance device 10 will be described. Note that, in each step of the flowcharts of FIGS. 14 and 15, the steps denoted by the same reference numerals as those in the flowchart of FIG. 9 perform the same processing as in the first embodiment, and a description thereof will be omitted. Or simplify it.

  Similar to the first embodiment, the processes in FIGS. 14 and 15 are started when it becomes necessary to accept a package, for example, when a transport requester approaches. The process in step S101 is the same as in the first embodiment, and a description thereof will not be repeated.

  In step S121, the two-dimensional code reader 122 performs a process of reading the two-dimensional code displayed on the terminal 40 brought by the transport requester under the control of the control device 200. Prior to this processing, a message urging the transport requester to hold the two-dimensional code over the two-dimensional code reader 122 may be displayed on the touch panel 120 or the main display 130. This message may be, for example, “display a two-dimensional code on a smartphone and hold it over the reading unit”.

  Note that the order of step S101 and step S121 may be reversed, or both may be accepted so that the carrier can select the order.

  In step S122, the two-dimensional code reader 122 acquires information such as a destination from the acquired two-dimensional code. The acquired information is transmitted to the control device 200 and stored in the flash memory 204. Thus, the two-dimensional code reader 122 functions as a destination acquisition unit of the baggage acceptance device 10. Note that the two-dimensional code reader 122 may have only a photographing function. In this case, the control device 200 executes a two-dimensional code decoding program, and executes Information can be obtained. Further, the acquisition of information in this step may be to acquire information included in the two-dimensional code, but the reception number included in the two-dimensional code is transmitted to the pre-registration server 30 and the reception number is transmitted. The information may be obtained by requesting information corresponding to.

  The processing in steps S102 and S103 is the same as that in the first embodiment, and a description thereof will not be repeated.

  In step S123, control device 200 determines whether or not the acquired weight of baggage 20 is within a predetermined range. If the weight is within the predetermined range (YES in step S123), the process proceeds to step S104. If the weight is not within the predetermined range (NO in step S123), the process proceeds to step S125.

  In the present process, the “predetermined range” with respect to the weight means that the weight registered in advance by the transport requester and the weight acquired by the weight measuring device 210 are substantially the same. possible. For example, the “predetermined range” may be within a range of a measurement error from a pre-registered weight. Alternatively, the “predetermined range” may be a range in which the transport fee does not change or a range in which the transport fee does not increase, with respect to the transport fee calculated based on the weight registered in advance.

  The processing in step S104 is the same as in the first embodiment, and a description thereof will not be repeated.

  In step S124, control device 200 determines whether or not the acquired destination of package 20 is appropriate. If the destination is appropriate (YES in step S124), the process proceeds to step S105 in FIG. If the destination is not appropriate (NO in step S124), the process proceeds to step S125.

  Note that the case where the destination is “appropriate” in this processing may be the case where the destination registered in advance by the transport requester and the destination acquired by the character recognition device 240 are the same. On the other hand, the case where the destination is not “appropriate” in the present process means that the predetermined destination pre-registered by the transport requester is different from the destination obtained by the character recognition device 240, or This may be the case when the destination could not be read.

  In step S125, control device 200 causes touch panel 120 or main display 130 to display a message warning the transportation requester that the weight is outside the predetermined range or the destination is not appropriate. This message may be, for example, "I cannot accept the package because the weight of the package is different from the pre-registration", "I cannot accept the package because the address of the package is different from the pre-registration", "I cannot read the address of the package" . In addition, when the luggage acceptance device 10 includes a speaker, the warning may be issued by voice.

  In step S126, the control device 200 controls the shutter 150 to perform a process of opening the shutter 150. As a result, the baggage 20 can be taken out of the baggage acceptance device 10 and returned to the transport requester. As described above, the control device 200 controls the transport device 250 so as not to start transporting the package 20 when the weight is out of the predetermined range or when the destination is not appropriate.

  The processing in steps S105 and S106 is the same as in the first embodiment, and a description thereof will not be repeated.

  In step S127, control device 200 determines whether or not the acquired size of package 20 is within a predetermined range. If the size is within the predetermined range (YES in step S127), the process proceeds to step S109. If the size is not within the predetermined range (NO in step S127), the process proceeds to step S128.

  In the present process, the dimension is “predetermined range” in a range in which the dimension pre-registered by the carrier and the dimension acquired by the dimension measuring device 220 can be said to be substantially the same. possible. For example, the “predetermined range” may be within a range of about a measurement error from the dimension registered in advance. Alternatively, the “predetermined range” may be a range in which the transportation fee does not change or a range in which the transportation fee does not increase with respect to the transportation fee calculated based on the dimensions registered in advance. In comparison between the dimensions registered in advance and the dimensions acquired by the dimension measuring device 220, the width, length, and height of the dimensions may be compared. A comparison may be made to the sum of the width, length, and height.

  The processing in steps S109, S110, and S111 is the same as in the first embodiment, and a description thereof will not be repeated.

  In step S128, the transport device 250 reverses the transport direction based on the control of the control device 200 and transports the package 20 in the reverse direction (negative direction of the y-axis), thereby determining the position of the package 20. Return to the vicinity of 110.

  In step S129, the control device 200 controls the shutter 150 to perform a process of opening the shutter 150. As a result, the baggage 20 can be taken out of the baggage acceptance device 10 and returned to the transport requester.

  In the above-described process, the control device 200 determines whether the acquired weight, size, and destination are appropriate by comparing with the pre-registered information, and determines whether the baggage 20 can be accepted according to the comparison result. Has been determined. That is, control device 200 functions as a determination unit that makes this determination. When the weight and dimensions are outside the predetermined ranges or when the destination is not appropriate, the drive of the transport device 250 is controlled so as to reject the acceptance of the package 20.

  The baggage acceptance device 10 of the present embodiment accepts the baggage 20 brought by the carrier, and automatically determines the weight, destination, and size of the baggage 20 necessary for verifying information of the baggage 20 registered in advance. Can be obtained. Therefore, according to the present embodiment, there is provided a baggage undertaking apparatus 10 capable of automatically acquiring information necessary for automatic undertaking of a package.

  Further, the baggage acceptance device 10 of the present embodiment includes a transport device 250. The luggage acceptance device 10 receives the luggage 20 brought by the carrier, automatically acquires the weight, dimensions, and the like of the luggage 20, and controls the drive of the transport device 250 based on the information. As a result, it is possible to prevent the luggage 20 having an inappropriate weight, size, or the like from being transported. Therefore, according to the present embodiment, there is provided the baggage undertaking device 10 capable of appropriately performing automatic transportation of the baggage.

  In step S121 and step S122 of the present embodiment, necessary information is obtained by obtaining a two-dimensional code. However, if similar information can be obtained, other methods may be used. Good. For example, the information may be obtained by having the transport requester input identification information such as a user ID and a reception number on the touch panel 120. In addition, by associating the identification information such as the user ID and the reception number with the biometric information such as the face image of the transport requester in advance, the luggage acceptance device 10 can request the transport using biometric authentication such as face authentication. It is also possible to specify a user and obtain information from the pre-registration server 30.

  In the present embodiment, an example in which a two-dimensional code is used has been described, but a one-dimensional code may be used instead of a two-dimensional code as long as a necessary amount of information can be secured. One-dimensional codes and two-dimensional codes may be more generally referred to as codes.

  Further, the processing of the first embodiment and the processing of the second embodiment may be switchable according to the operation of the transport requester, the operation of the administrator of the baggage acceptance device 10, and the like. Thus, the baggage undertaking device 10 may automatically switch.

  The device described in the above embodiment can also be configured as in the following third embodiment and fourth embodiment.

[Third embodiment]
FIG. 16 is a functional block diagram of a baggage acceptance device 50 according to the third embodiment. The baggage underwriting device 50 includes an underwriting unit 501, a weight obtaining unit 502, a destination obtaining unit 503, a dimension obtaining unit 504, and a determining unit 505. Underwriting section 501 accepts a package. The weight obtaining unit 502 automatically obtains the weight of the package when the package is placed in the underwriting unit 501. The destination acquisition unit 503 automatically acquires the destination of the package when the package is placed in the underwriting unit 501. The dimension acquisition unit 504 automatically acquires the dimensions of the package when the package is placed in the underwriting unit 501. The determination unit 505 determines whether to accept the package based on the weight, the destination, and the size.

  According to the present embodiment, there is provided a baggage undertaking device 50 capable of automatically acquiring information necessary for automatic undertaking of a package.

[Fourth embodiment]
FIG. 17 is a functional block diagram of a baggage acceptance device 60 according to the fourth embodiment. The luggage acceptance device 50 includes an undertaking unit 601, a transport unit 602, a weight acquisition unit 603, a dimension acquisition unit 604, and a control unit 605. Underwriting section 601 accepts a package. The transport unit 602 transports the load. The weight obtaining unit 603 automatically obtains the weight of the package. The dimension acquisition unit 604 automatically acquires the dimensions of the package. The control unit 605 controls the driving of the transport unit 602 based on the weight and the size.

  According to the present embodiment, there is provided a baggage undertaking device 60 capable of appropriately performing automatic conveyance of a baggage.

[Modified embodiment]
The present invention is not limited to the above-described embodiment, and can be appropriately modified without departing from the spirit of the present invention.

  In the above-described embodiment, it is assumed that the label attaching device 160 attaches a label made of adhesive paper or the like on which information is printed, but a label attached with an RFID (Radio Frequency Identifier) tag. May be attached. In this case, the labels of a plurality of packages 20 can be read at once in the sorting operation, the transporting operation, and the like at the baggage collection point, so that the sorting and transporting efficiency is improved. In addition, since the label with the RFID tag can be automatically attached by using the label attaching device 160, the efficiency of the attaching operation is improved as compared with the manual operation.

  In the above-described embodiment, it is assumed that the baggage underwriting device 10 has a payment function, and that the baggage underwriting device 10 automatically performs payment. Alternatively, it is assumed that settlement is completed before bringing the baggage 20 to the baggage acceptance device 10. However, the luggage acceptance device 10 is also applicable to a store that performs settlement after acceptance of the luggage 20.

  For example, when the luggage acceptance device 10 is installed in a convenience store, the transport requester first brings the luggage 20 to the luggage acceptance device 10 and performs a delivery operation. After that, the transport requester brings the checkout slip discharged from the baggage acceptance device 10 to the counter where the clerk is located, and performs settlement using the register of the counter. Thus, the luggage acceptance device 10 of the above-described embodiment may be used not only in unmanned stores but also in manned stores. Also, when the luggage acceptance device 10 is installed in a store where a member can be registered, such as a clothing store, the information acquired by the luggage acceptance device 10 when the luggage 20 is accepted is linked to the member registration information, At the time of picking up the baggage 20, a process such as giving a member point may be performed.

  In the above-described embodiment, it is assumed that the transportation fee is settled electronically, but the configuration of the baggage underwriting device 10 may be modified so as to be compatible with cash settlement. For example, by adding a mechanism required to transfer cash, such as a cash slot, a change return port, a cash storage, and a change calculator, to the luggage acceptance device 10, it is possible to cope with cash settlement. In addition, a configuration in which a cash settlement machine used for transfer of cash is externally attached to the baggage acceptance device 10 may be employed. In this case, it is possible to share the structure of the baggage undertaking device 10 that can handle cash settlement and the structure of the baggage underwriting device 10 that does not support cash settlement.

  The installation location of the baggage acceptance device 10 is not limited to the location exemplified in the above-described embodiment. For example, it is also conceivable to install the product in a store where there is a need to immediately send purchased products, such as a souvenir store, a spot sale site, an apparel shop, a store for foreign tourists, and the like. In such a case, a vending machine for packing materials may be installed near the baggage acceptance device 10. Further, communication between the baggage undertaking apparatus 10 and the vending machine for packing materials may be performed by performing communication between the apparatuses, such as sharing information. For example, an automatic packing machine may be installed in front of the baggage undertaking apparatus 10. The processing from packing to shipping may be performed collectively.

  The packing material of the luggage 20 that can be accepted by the above-described luggage acceptance device 10 is typically a cardboard box, but may be other than this. Another example of the packing material may be a reusable box made of plastic or the like. Since the reusable box can be used repeatedly, the cost of the packaging material is reduced. In addition, since the reusable box has a fixed shape, the efficiency of sorting, transporting, and the like of the package 20 is improved. As described above, since the reusable box has a cost advantage, the shipping fee differs between the case where the reusable box and other packing materials are used in order to encourage the use of the reusable box. You may. In that case, the baggage undertaking apparatus 10 may determine the type of the packing material at the time of calculating the transportation fee by calculating the transportation fee by analyzing the image acquired by the imaging device 230 or the like.

  An RFID tag may be attached to the packing material of the package 20 accepted by the package acceptance device 10 described above. The RFID tag may include transportation-related information such as the ID of the package 20 and the destination. The destination of the package 20 may be automatically acquired by reading the RFID tag with the RFID reader provided in the package acceptance device 10. Note that the above-mentioned reusable box may be provided with an RFID. In this case, since the reusable box can be used repeatedly, a disadvantage in cost due to a high unit price of the RFID tag is absorbed.

  In the above-described embodiment, it is assumed that the baggage acceptance device 10 is used for accepting parcels, but may be used for accepting postcards such as postcards and envelopes. That is, the package 20 may include not only parcels but also postcards, envelopes, and the like. The postage transportation fee is determined by the category of mail, the presence or absence of options, and the like. Mail items are classified into categories such as fixed-size mail items and non-standard-size mail items according to weight and size, and a basic fee is determined. In addition, types of options include express delivery, general registered mail, simplified registered mail, delivery proof, content proof, and the like, and additional charges are incurred depending on the presence or absence of each option. Usually, when an option such as general registered mail is used, the fact is described on the surface of the envelope, so that the presence or absence of the option can be determined from the characters on the surface. The baggage acceptance device 10 obtains the weight and size of the mail by the weight measuring device 210 and the size measuring device 220, and determines the category of the mail. In addition, the baggage underwriting device 10 uses the imaging device 230 and the character recognition device 240 to determine whether or not there is an option described in the mail. As a result, the same underwriting process as when the package 20 is a parcel is realized.

  A processing method for operating the configuration of the embodiment to realize the functions of the above-described embodiment is recorded on a storage medium, the program recorded on the storage medium is read out as a code, and a processing method executed by a computer is also described in each embodiment. It is included in the category. That is, a computer-readable storage medium is also included in the scope of each embodiment. In addition, not only a storage medium on which the above-described program is recorded, but also the program itself is included in each embodiment. One or more components included in the above-described embodiment are circuits such as an ASIC (Application Specific Integrated Circuit) and an FPGA (Field Programmable Gate Array) configured to realize the function of each component. There may be.

  As the storage medium, for example, a floppy (registered trademark) disk, hard disk, optical disk, magneto-optical disk, CD (Compact Disk) -ROM, magnetic tape, nonvolatile memory card, and ROM can be used. In addition, the program is not limited to the one that executes the processing by the program recorded in the storage medium alone, but also executes the processing by operating on an OS (Operating System) in cooperation with other software and functions of an extension board. Is also included in the category of each embodiment.

  The service realized by the function of each of the above embodiments can be provided to the user in the form of SaaS (Software as a Service).

  It should be noted that each of the above-described embodiments is merely an example of an embodiment for carrying out the present invention, and the technical scope of the present invention should not be interpreted in a limited manner. That is, the present invention can be implemented in various forms without departing from the technical idea or the main features.

  Some or all of the above-described embodiments can be described as in the following supplementary notes, but are not limited thereto.

(Appendix 1)
An underwriting unit that accepts luggage,
When the package is placed in the underwriting unit, a weight acquisition unit that automatically acquires the weight of the package,
When the package is placed in the underwriting unit, a destination acquisition unit that automatically acquires the destination of the package,
When the package is placed in the underwriting unit, a dimension acquisition unit that automatically acquires the dimensions of the package,
A determining unit that determines whether to accept the package based on the weight, the destination, and the dimensions;
A luggage acceptance device comprising:

(Appendix 2)
The destination obtaining unit obtains the destination by recognizing a character included in the image of the package.
A luggage acceptance device according to attachment 1.

(Appendix 3)
The destination obtaining unit obtains the destination by reading a code including information on the destination,
A luggage acceptance device according to claim 1 or 2.

(Appendix 4)
The code includes identification information for identifying the package.
A luggage acceptance device according to attachment 3.

(Appendix 5)
The identification information is associated with a weight, a size, and a destination registered in advance by a carrier.
A luggage acceptance device according to attachment 4.

(Appendix 6)
The determination unit is configured such that the transport requester registers in advance at least one of the weight acquired by the weight acquisition unit, the dimension acquired by the dimension acquisition unit, and the destination acquired by the destination acquisition unit. Determining whether to accept the package based on a result of comparison with at least one of weight, size, and destination;
A luggage acceptance device according to attachment 5.

(Appendix 7)
The apparatus further includes a freight charge calculation unit that calculates a freight charge of the package based on the weight, the size, and the destination.
The luggage acceptance device according to any one of supplementary notes 1 to 6.

(Appendix 8)
Further comprising a settlement unit that settles the transportation fee calculated by the transportation fee calculation unit,
A luggage acceptance device according to attachment 7.

(Appendix 9)
A luggage acceptance method performed by a luggage acceptance device having an acceptance unit for accepting luggage,
Automatically obtaining the weight of the package when the package is placed in the underwriting unit;
Automatically obtaining the address of the package when the package is placed in the underwriting unit;
Automatically obtaining the dimensions of the package when the package is placed in the underwriting unit;
Determining whether to accept the package based on the weight, the destination, and the dimensions;
A luggage acceptance method comprising:

(Appendix 10)
In a luggage acceptance device equipped with an acceptance unit for accepting luggage,
Automatically obtaining the weight of the package when the package is placed in the underwriting unit;
Automatically obtaining the address of the package when the package is placed in the underwriting unit;
Automatically obtaining the dimensions of the package when the package is placed in the underwriting unit;
Determining whether to accept the package based on the weight, the destination, and the dimensions;
A program for executing a luggage acceptance method comprising:

10, 50, 60 Luggage acceptance device 20 Luggage 21 Invoice 30 Pre-registration server 40 Terminal 110, 501, 601 Underwriting unit 111 Placement unit 112 Guide 120 Touch panel 122 Two-dimensional code reader 124 Card reader 126 Storage slip ejection unit 130 Main display 140 Interphone 150 Shutter 160 Label sticking device 170 Discharge unit 180 Support unit 190 Human sensor 200 Control device 201 CPU
202 RAM
203 ROM
204 Flash memory 205 I / F
206 Bus 210 Weight measuring device 220 Dimension measuring device 221 First light emitter 222 First light receiver 223 Second light emitter 224 Second light receiver 225 Dimension calculator 226 Light emitting element 230 Imaging device 240 Character recognition device 250 Transport device 260 Communication device 502, 603 Weight acquisition unit 503 Destination acquisition unit 504, 604 Dimension acquisition unit 505 Judgment unit 602 Transport unit 604 Dimension acquisition unit 605 Control unit

Claims (10)

An underwriting unit that accepts luggage,
When the package is placed in the underwriting unit, a weight acquisition unit that automatically acquires the weight of the package,
When the package is placed in the underwriting unit, a destination acquisition unit that automatically acquires the destination of the package,
When the package is placed in the underwriting unit, a dimension acquisition unit that automatically acquires the dimensions of the package,
A determining unit that determines whether to accept the package based on the weight, the destination, and the dimensions;
A luggage acceptance device comprising: The destination obtaining unit obtains the destination by recognizing a character included in the image of the package.
The luggage acceptance device according to claim 1. The destination obtaining unit obtains the destination by reading a code including information on the destination,
The luggage acceptance device according to claim 1 or 2. The code includes identification information for identifying the package.
The luggage acceptance device according to claim 3. The identification information is associated with a weight, a size, and a destination registered in advance by a carrier.
The luggage acceptance device according to claim 4. The determination unit is configured such that the transport requester registers in advance at least one of the weight acquired by the weight acquisition unit, the dimension acquired by the dimension acquisition unit, and the destination acquired by the destination acquisition unit. Determining whether to accept the package based on a result of comparison with at least one of weight, size, and destination;
The luggage acceptance device according to claim 5. The apparatus further includes a freight charge calculation unit that calculates a freight charge of the package based on the weight, the size, and the destination.
The luggage acceptance device according to any one of claims 1 to 6. Further comprising a settlement unit that settles the transportation fee calculated by the transportation fee calculation unit,
A luggage acceptance device according to claim 7. A luggage acceptance method performed by a luggage acceptance device having an acceptance unit for accepting luggage,
Automatically obtaining the weight of the package when the package is placed in the underwriting unit;
Automatically obtaining the address of the package when the package is placed in the underwriting unit;
Automatically obtaining the dimensions of the package when the package is placed in the underwriting unit;
Determining whether to accept the package based on the weight, the destination, and the dimensions;
A luggage acceptance method comprising: In a luggage acceptance device that has an underwriting unit that accepts luggage,
Automatically obtaining the weight of the package when the package is placed in the underwriting unit;
Automatically obtaining the address of the package when the package is placed in the underwriting unit;
Automatically obtaining the dimensions of the package when the package is placed in the underwriting unit;
Determining whether to accept the package based on the weight, the destination, and the dimensions;
A program for executing a luggage acceptance method comprising:

Images