JP7480794B2 - Delivery System - Google Patents

Description

The present invention relates to a delivery system for delivering items that require temperature control.

In a delivery system that delivers items that require temperature control, it is necessary to adjust the temperature of the items stored in the delivery boxes. Known methods for adjusting the temperature of such items include passive cooling, which uses insulation and a cooling agent, as shown in Patent Document 1, and active cooling, which uses a cooling device that operates with power supplied from a power source, as shown in Patent Document 2.

Japanese Utility Model Application Publication No. 59-97376 JP 2017-150700 A

However, with passive cooling, temperature control is not possible, and the temperature control capacity is determined by the capacity of the cooling material, etc., so there is a limit to the temperature control capacity. For this reason, with passive cooling, the delivery item cannot be maintained at a specified temperature during delivery, and there is a risk of the quality of the delivery item declining. In passive cooling, the temperature control capacity can be improved by using a large amount of cooling material, etc., but in this case the amount of delivery items that can be stored in the delivery box is greatly reduced, and delivery efficiency declines.

Although active cooling allows for temperature control, the amount of power that can be supplied by the power source decreases with use, reducing temperature control capabilities. As a result, even with active cooling, it may not be possible to maintain the specified temperature of the delivery item during delivery, which could result in a decline in the quality of the delivery item. Furthermore, active cooling has a complex configuration, which increases the likelihood of operational errors, malfunctions, or breakdowns. Active cooling can avoid power shortages by using a large amount of power source, but in this case the amount of delivery items that can be stored in the delivery box is greatly reduced, reducing delivery efficiency.

In addition, once delivery has begun, if the delivery item is improperly handled, the delivery box is frequently opened and closed, delivery is delayed due to unforeseen circumstances such as traffic congestion, or there are environmental changes such as rising outside temperatures, it can become difficult to maintain the delivery item at the specified temperature. These negative factors that affect temperature control can occur as issues common to both passive and active cooling.

In view of the above, the present invention aims to provide an appropriate temperature control for delivery items in a delivery system in which delivery items that require temperature control are stored in delivery boxes and delivered.

To achieve the above object, the delivery system described in claim 1 includes a delivery box (200) that stores delivery items (201) and can be moved to a delivery destination, and a management server (100) that manages the delivery of the delivery items using the delivery box.

The delivery box is provided with at least a power source (207), a temperature adjustment unit (206) that adjusts the temperature of the delivery item by power supply from the power source, and a transmission/reception unit (203) that transmits and receives information to and from the management server via a communication network (300). The transmission/reception unit transmits power source information including at least the amount of power that the power source can supply to the management server. The management server has a delivery feasibility determination unit (101a) that performs a delivery feasibility determination that determines whether the temperature of the delivery item can be maintained at a predetermined temperature by the temperature adjustment unit until the delivery item is delivered to the delivery destination. The delivery feasibility determination unit performs the delivery feasibility determination based on at least the power source information regarding the amount of power that the power source can supply obtained from the delivery box.

This allows deliveries to be made according to the amount of power that the power source can supply, and the delivered items can be kept at a specified temperature until delivery is complete, maintaining the quality of the delivered items. This eliminates the need to equip the delivery box with a large amount of power sources, and makes it possible to maintain the quality of the delivered items until delivery is complete while also improving the delivery efficiency of the delivered items.

The reference symbols in parentheses for each of the above components indicate the corresponding relationship with the specific means described in the embodiments described below.

1 is a block diagram showing a configuration of a delivery system according to a first embodiment. FIG. FIG. 2 is a block diagram showing a movement route of a delivery box in the first embodiment. FIG. 2 is a block diagram showing a configuration of a management server. FIG. 2 is a block diagram showing the configuration of a delivery box. 4 is a flowchart showing a delivery process according to the first embodiment. 4 is a flowchart showing a delivery process according to the first embodiment. FIG. 11 is a block diagram showing a movement path of a delivery box in the second embodiment. FIG. 13 is a block diagram showing a movement route of a delivery box in the third embodiment. FIG. 13 is a block diagram showing a movement path of a delivery box in the fourth embodiment. FIG. 13 is a block diagram showing the configuration of a delivery system according to a fifth embodiment. A block diagram showing the movement route of a delivery box in the fifth embodiment. A block diagram showing the movement route of a delivery box in the sixth embodiment. FIG. 23 is a block diagram showing the configuration of a delivery system according to a seventh embodiment. A block diagram showing the configuration of a delivery box in the seventh embodiment. FIG. 23 is a block diagram showing a configuration of a mobile terminal according to a seventh embodiment. 23 is a flowchart showing a delivery process according to the seventh embodiment. 23 is a flowchart showing a delivery process according to the seventh embodiment. 23 is a flowchart showing a delivery process according to the eighth embodiment.

Below, several embodiments for implementing the present disclosure will be described with reference to the drawings. In each embodiment, parts corresponding to matters described in the preceding embodiment may be given the same reference numerals, and duplicated descriptions may be omitted. In each embodiment, when only a part of the configuration is described, other previously described embodiments may be applied to the other parts of the configuration. In addition to combinations of parts that are specifically specified as being possible in each embodiment, it is also possible to partially combine embodiments even if not specified, as long as there is no particular problem with the combination.

First Embodiment
A first embodiment of the present invention will now be described with reference to the drawings. As shown in FIG. 1, the delivery system of this embodiment includes a management server 100 and a delivery box 200.

The management server 100 is an information processing device that manages the delivery of delivery items using the delivery box 200. The delivery box 200 is configured as a container in which delivery items are stored. The delivery box 200 has an openable lid, and delivery items can be stored and removed by opening and closing the lid.

As shown in FIG. 2, the delivery box 200 moves from the delivery source 10 to the delivery destination 20 with the delivery item 201 stored therein. In this embodiment, delivery is made to one delivery destination 20 in one delivery. The delivery box 200 is moved by the delivery person carrying the delivery box 200. The delivery person can deliver the delivery item 201 using the delivery box 200 by any means of transportation, such as a car, motorcycle, bicycle, public transportation, or on foot.

The delivery item 201 is an item that requires temperature control to maintain quality. The delivery item 201 may be any item that requires temperature control at a specified temperature, such as food, beverages, or medicines. The specified temperature is the required temperature required to maintain the quality of the delivery item 201, and is set in advance for each type of delivery item 201. The specified temperature may be a specific temperature or a temperature range with a certain degree of width.

As shown in FIG. 1, the management server 100 and the delivery box 200 are connected via a communication network 300. The communication network 300 may be a wide area network such as the Internet. The management server 100 and the delivery box 200 are capable of communicating with each other via the communication network 300, and can transmit and receive information in both directions.

Although not shown in FIG. 1, the delivery system of this embodiment is provided with a delivery processing center that processes delivery requests for delivery items 201 from delivery requesters. The delivery processing center transmits delivery request information to the management server 100 based on an order for the delivery item 201 from the delivery requester. The delivery request information includes information on the type, quantity, delivery origin, delivery destination, delivery date and time, etc. of the delivery item 201. Upon receiving the delivery request information, the management server 100 performs delivery management of the delivery item 201 using the delivery box 200.

As shown in FIG. 3, the management server 100 is provided with a control unit 101, a transmission/reception unit 102, and a storage unit 103. The control unit 101 is composed of a well-known microcomputer including a CPU, ROM, RAM, etc., and its peripheral circuits. The control unit 101 performs various calculations and processing based on a control program stored in the ROM, and controls the operation of various controlled devices.

The control unit 101 includes a delivery feasibility determination unit 101a, a delivery prediction time acquisition unit 101b, and a temperature adjustment possible time acquisition unit 101c. The delivery feasibility determination unit 101a, the delivery prediction time acquisition unit 101b, and the temperature adjustment possible time acquisition unit 101c are configured by control processing executed by the control unit 101.

The delivery feasibility determination unit 101a executes a delivery feasibility determination process to determine whether the delivery item 201 can be delivered by the delivery box 200. The estimated delivery time acquisition unit 101b executes an estimated delivery time acquisition process to acquire an estimated delivery time required to deliver the delivery item 201 using the delivery box 200. The temperature adjustment time acquisition unit 101c executes a temperature adjustment time acquisition process to acquire a temperature adjustment time during which the temperature of the delivery item 201 can be adjusted by the delivery box 200.

The transmission/reception unit 102 is connected to the communication network 300 via a wired or wireless connection. The transmission/reception unit 102 includes a transmission unit that transmits data to the outside and a reception unit that receives data from the outside.

The storage unit 103 is a non-volatile storage medium (e.g., a magnetic disk, flash memory, etc.) that can be written to and read from. The storage unit 103 stores criteria information, history information, delivery item information, road information, weather information, date and time information, etc.

The judgment criteria information is information that serves as a criterion for judging whether or not the delivery item 201 can be delivered by the delivery box 200. The history information is information about past deliveries of the delivery item 201 using the delivery box 200, and includes the history of the delivery judgment results, the delivery history by the delivery box 200, the operation history of the temperature adjustment unit 206 of the delivery box 200 (e.g., failure history, power consumption history, etc.), the operation history of the power source 207 (e.g., failure history, charge/discharge history, etc.), the delivery history of the deliverer, etc. The delivery item information is information about the delivery item 201, and includes the type of delivery item 201, the required temperature of the delivery item 201, the delivery origin, the delivery destination, etc.

Road information is information about roads, and includes map information, traffic information, traffic regulation information, etc. Weather information includes weather and temperature. Road information and weather information are acquired from the outside by the control unit 101 and stored in the memory unit 103. Road information and weather information include current real-time information and future prediction information. Date and time information includes the date, time period, day of the week, etc., and can be used to predict traffic volume, for example.

As shown in FIG. 4, the delivery box 200 is provided with a control unit 202, a transmission/reception unit 203, a position identification unit 204, a display unit 205, a temperature adjustment unit 206, a power source 207, a backup power source 208, an identification unit 209, and various sensors 210. The interior of the delivery box 200 is partitioned into an area in which the delivery item 201 is stored and an area in which components other than the delivery item 201 are stored. The area in which the delivery item 201 is stored is an air-conditioned space in which air conditioning is performed by the temperature adjustment unit 206.

The control unit 202 is composed of a well-known microcomputer including a CPU, ROM, RAM, etc., and its peripheral circuits. The control unit 202 performs various calculations and processing based on a control program stored in the ROM, and controls the operation of various controlled devices. The control unit 202 performs control processing of the temperature adjustment unit 206. The control unit 202 has a fault diagnosis function for the various controlled devices and a protection function for the temperature adjustment unit 206. It obtains a signal from the temperature adjustment unit 206, and protects the temperature adjustment unit 206 if it is diagnosed that protection is necessary based on the fault diagnosis judgment value and protection program stored in the ROM.

The transmitting/receiving unit 203 is wirelessly connected to the communication network 300. The transmitting/receiving unit 203 includes a transmitting unit that transmits data to the outside and a receiving unit that receives data from the outside. The position identifying unit 204 is a device that identifies the current position of the delivery box 200, and a GPS can be used, for example. The control unit 202 can obtain the position information of the delivery box 200 from the position identifying unit 204. The display unit 205 displays various information so that the delivery person can see it. The transmitting/receiving unit 203, the position identifying unit 204, and the display unit 205 may be provided integrally with the delivery box 200, or may be separate from the delivery box 200 and used as a mobile terminal such as a smartphone.

The temperature adjustment unit 206 is a device that adjusts the temperature of the delivery item 201 stored in the delivery box 200. The temperature adjustment unit 206 is operated by power supply from the power source 207. In this embodiment, the temperature adjustment unit 206 is a cooling device that cools the delivery item 201, and active cooling is performed using the power source 207. The power source 207 is capable of cooling the cooling device independently of the power source of the vehicle used for delivery. The power source 207 is mounted on the delivery box 200 so that it can be carried together with the delivery box 200 when the delivery box 200 is transported away from the vehicle.

For example, a refrigeration cycle device or a Peltier element can be used as the temperature adjustment unit 206. In this embodiment, a refrigeration cycle device is used as the temperature adjustment unit 206. The refrigeration cycle device constituting the temperature adjustment unit 206 has a well-known configuration in which a compressor, a condenser, an expansion valve, and an evaporator are connected by refrigerant piping, and can blow conditioned air whose temperature has been adjusted to a set temperature into the air-conditioned space in which the delivery item 201 is stored.

The temperature adjustment unit 206 adjusts the temperature of the delivery item 201 so that it is at a predetermined temperature. The temperature of the air blown out by the temperature adjustment unit 206 is set based on the required temperature of the delivery item 201.

The control unit 202 can obtain operation information related to the operating state of the temperature adjustment unit 206 from the temperature adjustment unit 206. The operation information of the temperature adjustment unit 206 includes the power consumption per unit time of the temperature adjustment unit 206, the high pressure of the refrigeration cycle device, the blown air temperature, the blown air volume, the power supply state of the devices controlled by the control unit 202, the communication state between the controlled devices and the control unit 202, whether or not the self-protection function is activated, etc.

The power source 207 is a battery that supplies power to the electrical equipment including the temperature adjustment unit 206. A secondary battery that can be repeatedly charged and discharged can be used as the power source 207. The power source 207 is provided so as to be detachable from the delivery box 200. The amount of power that the power source 207 can supply decreases with use. When charging the power source 207, it may be left attached to the delivery box 200, or it may be charged while removed from the delivery box 200. The control unit 202 can obtain power source information related to the power source 207 from the power source 207. The power source information includes the amount of power that the power source 207 can supply.

The standby power source 208 can use a battery of the same configuration as the power source 207. The power source 207 is replaceable with the standby power source 208. When the power source 207 and the standby power source 208 are replaced, the standby power source 208 becomes the new power source 207. Note that the delivery box 200 may not be provided with a standby power source 208.

The identification unit 209 is an interface for inputting information such as delivery person information for identifying the delivery person of the delivery box 200 and backup power source information regarding the backup power source 208 to the control unit 202. The backup power source information includes whether or not the backup power source 208 is present in the delivery box 200 and the amount of power that the backup power source 208 can supply.

The various sensors 210 include a delivery temperature sensor that detects the temperature of the delivery item 201, an outside air temperature sensor that detects the outside air temperature, and an opening/closing sensor that detects whether the lid of the delivery box 200 is open or closed. The delivery temperature sensor may be configured to directly detect the temperature of the delivery item 201, or may be configured to indirectly detect the temperature of the delivery item 201. To indirectly detect the temperature of the delivery item 201, the delivery temperature sensor may detect the internal temperature of the part of the delivery box 200 where the delivery item 201 is stored, and the temperature of the delivery item 201 may be indirectly detected from this internal temperature.

Delivery box information is sent from the delivery box 200 to the management server 100 before the start of delivery of the delivery item 201 and during delivery. The delivery box information includes operation information of the temperature adjustment unit 206, location information of the delivery box 200, power supply information regarding the power source 207, deliverer information regarding the deliverer, backup power supply information regarding the backup power supply 208, sensor information of the various sensors 210, etc. The sensor information of the various sensors 210 includes temperature information of the delivery item 201, outside air temperature information, etc.

The management server 100 transmits to the delivery box 200 instruction information such as delivery start instruction information, power recovery instruction information, delivery stop instruction information, temperature recovery instruction information, and adjustment instruction information. This instruction information includes information instructing the deliverer to perform a specified operation and information instructing the delivery box 200 to perform a specified process.

The delivery start instruction information is information that instructs the start of delivery of the delivery item 201 using the delivery box 200, and includes information regarding the type of delivery item 201, information regarding the required temperature of the delivery item 201, information regarding the delivery origin, and information regarding the delivery destination. The power recovery instruction is information that instructs the restoration of the power supply 207, and includes information that instructs the charging of the power supply 207 and information that instructs replacement with the backup power supply 208. The delivery stop instruction information is information that instructs the cancellation of delivery of the delivery item 201 using the delivery box 200.

The temperature recovery instruction information is information that instructs the delivery item 201 to be restored to a specified temperature. For example, if the temperature of the delivery item 201 is rising, the temperature recovery instruction information can be information that instructs the temperature adjustment unit 206 to lower the set temperature or increase the airflow. Also, if the temperature of the delivery item 201 is rising because the lid of the delivery box 200 is open, the temperature recovery instruction information can be information that instructs the delivery box 200 to close the lid.

The adjustment instruction information includes information instructing an adjustment process to extend the time during which the temperature of the delivery item 201 can be adjusted using the delivery box 200, and information instructing an adjustment process to shorten the estimated delivery time required to deliver the delivery item 201 using the delivery box 200.

The adjustment process to extend the temperature adjustment possible time includes switching the delivery box 200 to a power saving mode, adjusting the set temperature of the temperature adjustment unit 206, adjusting the air volume of the temperature adjustment unit 206, adjusting the blowing mode of the temperature adjustment unit 206, adjusting the air-conditioned space of the delivery box 200, replacing the power supply 207 with a backup power supply 208, etc. The adjustment process to shorten the estimated delivery time includes adjusting the delivery route, etc.

The power saving mode of the delivery box 200 can be realized by suppressing the power consumption of devices other than the temperature adjustment unit 206, for example, by turning off the display unit 205 or reducing the frequency of communication by the transmission/reception unit 203. The temperature setting of the temperature adjustment unit 206 can be adjusted, for example, by increasing the temperature setting when the temperature setting of the temperature adjustment unit 206 is lower than necessary. The air volume of the temperature adjustment unit 206 can be adjusted, for example, by reducing the air volume when the air volume of the temperature adjustment unit 206 is larger than necessary. The blowing mode of the temperature adjustment unit 206 can be adjusted, for example, by blowing air concentrated on the delivery item 201. The air-conditioned space of the delivery box 200 can be adjusted, for example, by reducing the air-conditioned space using a partition when the air-conditioned space of the delivery box 200 is too large for the delivery item 201. The delivery route can be adjusted by changing the delivery route when there is a delivery route that shortens the travel time to the delivery destination 20.

Here, the delivery process of the delivery item 201 by the delivery system of this embodiment will be described with reference to the flowcharts of Figures 5 and 6. Figure 5 shows the flow of the delivery process before delivery starts. Figure 6 shows the flow of the delivery process after delivery starts.

First, the delivery process before delivery begins will be described with reference to FIG. 5. As shown in FIG. 5, the management server 100 determines in S100 whether or not a delivery request has been made. If it is determined as a result of the determination process in S100 that there is no delivery request, the determination process in S100 is repeated until a delivery request is made. On the other hand, if it is determined as a result of the determination process in S100 that there is a delivery request, delivery box information is acquired from the delivery box 200 in S101, and stored information is acquired from the storage unit 103 in S102.

The delivery box information is sent from the delivery box 200 to the management server 100 in S200. The delivery box information may be sent from the delivery box 200 to the management server 100 periodically, or in response to a request from the management server 100. The delivery box information sent from the delivery box 200 to the management server 100 in S200 includes operation information of the temperature adjustment unit 206, location information of the delivery box 200, power source information related to the power source 207, deliverer information related to the deliverer, and backup power source information related to the backup power source 208.

The stored information that the management server 100 acquires from the memory unit 103 in S102 includes criteria information, history information, delivery item information, road information, weather information, and date and time information. The road information and weather information include both real-time information and forecast information.

Next, in S103, the management server 100 performs a delivery feasibility determination to determine whether or not the delivery item 201 can be delivered by the delivery box 200 based on the delivery box information and the stored information. The delivery feasibility determination in S103 is performed by the delivery feasibility determination unit 101a of the management server 100.

In the determination of whether delivery is possible in S103, if the predicted delivery time required to deliver the delivery item 201 using the delivery box 200 is equal to or less than the temperature control time during which the temperature of the delivery item 201 can be adjusted by the delivery box 200, it can be determined that delivery is possible. In the determination of whether delivery is possible, it is sufficient to determine whether the amount of power that can be supplied by the power source 207 is sufficient for the delivery of the delivery item 201 using the delivery box 200, and the delivery possibility determination process can be performed based on power source information that includes at least the amount of power that can be supplied by the power source 207 of the delivery box 200.

In the delivery possibility determination process, in addition to the amount of power that can be supplied by the power source 207, information related to the operating state of the temperature adjustment unit 206 is used to determine that delivery is possible if the refrigeration cycle operating state of the temperature adjustment unit 206 is within a reference range, the controlled device and the control unit 202 can communicate, and an error signal (protection function activation signal) is not being output. Information related to the operating state of the temperature adjustment unit 206 includes, for example, the high pressure of the refrigeration cycle device, the blown air temperature, the power supply state of the controlled device, the communication state between the controlled device and the control unit 202, information acquired from the temperature adjustment unit 206 such as whether or not the self-protection function has been activated, and diagnosis and protection information of the temperature adjustment unit 206 acquired from the control unit 202. Whether or not the refrigeration cycle operating state of the temperature adjustment unit 206 is within the reference range can be determined using the determination criteria information and history information stored in the memory unit 103. Furthermore, by performing the delivery possibility determination process using other information, a more accurate determination result can be obtained.

The predicted delivery time is acquired by the predicted delivery time acquisition unit 101b of the management server 100. The predicted delivery time can be acquired based on at least the distance between the delivery box 200 and the delivery destination 20 and the moving speed of the delivery box 200. Furthermore, by using at least any of the information that affects the predicted delivery time, such as road information, weather information, history information, date and time information, etc., a more accurate predicted delivery time can be acquired.

The temperature control available time is acquired by the temperature control available time acquisition unit 101c of the management server 100. The temperature control available time can be acquired based on at least the amount of power that can be supplied by the power source 207. It is desirable to acquire the temperature control available time based on the power consumption per unit time of the temperature adjustment unit 206 in addition to the amount of power that can be supplied by the power source 207. Furthermore, by using at least any of the information that affects the temperature control available time, such as the outside air temperature, the operating state of the temperature adjustment unit 206 (e.g., the high pressure of the refrigeration cycle device, the blown air temperature), the history information of the temperature adjustment unit 206, the history information of the power source 207, the open/closed state of the lid of the delivery box 200, etc., a more accurate temperature control available time can be acquired.

If it is determined in step S103 that delivery is not possible, then in step S104 it is determined whether the power source 207 is insufficient, i.e., whether the amount of power that the power source 207 can supply is sufficient to deliver the delivery item 201.

If it is determined that there is no shortage of power supply 207, it is determined that there is some abnormality in the delivery box 200 or the refrigeration cycle device, and a decision is made to replace the delivery box 200 in S105, and processing returns to S101. On the other hand, if it is determined that there is a shortage of power supply 207, power restoration instruction information is sent to the delivery box 200 in S106, and processing returns to S101.

When it is determined in S201 that the delivery box 200 has received the power restoration instruction information, it performs a power restoration process in S202. At the same time, the delivery person may be notified of the power shortage by a display device such as an indicator lamp provided on the delivery box 200 or the power source 207, or the information may be displayed on the screen of a mobile terminal. The power restoration process can be performed by charging the power source 207 from an external power source, or by replacing the power source 207 with a backup power source 208. The power source 207 may be installed in the delivery box 200, or multiple power sources 207 may be prepared at the delivery source 10 before installation and replaced with another power source 207. In this case, which power source 207 is installed in the delivery box 200 is set in advance, and the above determination is performed.

If the management server determines in the determination process of S103 that delivery is possible, it sends delivery start instruction information to the delivery box 200 in S107. The delivery start instruction information includes information regarding the type of delivery item 201, the required temperature, the delivery origin, the delivery destination, and the delivery route.

When it is determined in S203 that the delivery start instruction information has been received, the delivery box 200 performs a delivery start process in S204. The delivery start process can be performed by the deliverer storing the delivery item 201 in the delivery box 200 at the delivery source 10 and starting to move toward the delivery destination 20. In the delivery box 200, the temperature is adjusted by the temperature adjustment unit 206 so as to maintain the delivery item 201 at a predetermined temperature.

Next, we will use Figure 6 to explain the processing that occurs after delivery begins.

After starting delivery of the delivery item 201 by the delivery box 200 in S204, there is a risk of an unforeseen event occurring that will affect the delivery of the delivery item 201. Unforeseen events that occur after the start of delivery include, for example, a change in the operating status of the temperature adjustment unit 206, a change in road information, a change in weather information, frequent opening and closing of the lid of the delivery item 201, improper handling of the delivery item 201 by the deliverer, the deliverer getting lost, or negligence by the deliverer. Changes in road information include, for example, new congestion or the occurrence of traffic restrictions. Changes in weather information include, for example, rising outside temperature or worsening weather.

For this reason, the management server 100 of this embodiment performs a delivery feasibility determination to determine whether or not the delivery of the delivery item 201 using the delivery box 200 is possible even after delivery has started. The delivery feasibility determination also includes a delivery item temperature determination to determine whether or not the delivery item 201 is maintaining an appropriate temperature.

As shown in FIG. 6, the management server 100 acquires delivery box information from the delivery box 200 in S108, and acquires stored information from the memory unit 103 in S109.

The delivery box information is sent from the delivery box 200 to the management server 100 in S205. The delivery box information may be sent from the delivery box 200 to the management server 100 periodically, or in response to a request from the management server 100. The delivery box information sent from the delivery box 200 to the management server 100 in S205 includes delivery item temperature information relating to the temperature of the delivery item 201, outside air temperature information relating to the outside air temperature, operation information of the temperature adjustment unit 206, location information of the delivery box 200, power source information relating to the power source 207, and backup power source information relating to the backup power source 208.

The stored information that the management server 100 acquires from the memory unit 103 in S109 includes history information, road information, and weather information. The road information and weather information include both real-time information and forecast information.

Next, in S110, the management server 100 performs a delivery temperature determination to determine whether the temperature of the delivery item 201 is a predetermined temperature. The delivery temperature determination is performed as part of the delivery feasibility determination. For example, if the temperature of the delivery item 201 rises after delivery has begun, it may be determined in S110 that the delivery item 201 is not at the predetermined temperature. For example, the temperature of the delivery item 201 may rise if the outside air temperature rises, the lid of the delivery box 200 is frequently opened and closed, or the temperature adjustment unit 206 is not functioning properly.

If it is determined in step S110 that the delivery item 201 is not at the specified temperature, then in step S111 it is determined whether the temperature of the delivery item 201 can be restored. In step S111, it is determined whether the delivery item 201 can be restored to the specified temperature by adjusting the temperature adjustment unit 206, etc.

If it is determined that the temperature of the delivery item 201 cannot be restored, the management server 100 sends delivery cancellation instruction information to the delivery box 200 in S112. If it is determined in S206 that the delivery cancellation information has been received, the delivery box 200 performs a delivery cancellation process in S207 to cancel the delivery of the delivery item 201 using the delivery box 200. In the delivery cancellation process, the deliverer may move the delivery box 200 in which the delivery item 201 is stored to the delivery source 10.

If it is determined in S111 that the temperature of the delivery item 201 can be restored, the management server 100 sends temperature restoration instruction information to the delivery box 200 in S113, and the process returns to S108. If it is determined in S208 that the delivery box 200 has received temperature restoration instruction information, the delivery box 200 performs temperature restoration processing in S209 to restore the delivery item 201 to a predetermined temperature. In the temperature restoration processing, processing such as lowering the blown air temperature or increasing the air volume of the temperature adjustment unit 206, or closing the lid of the delivery box 200 if the lid is open, can be performed.

If it is determined that the delivery item 201 is at the specified temperature as a result of the determination process in S110, in S114 the management server 100 performs a delivery feasibility determination to determine whether or not the delivery item 201 can be delivered using the delivery box 200 based on the delivery box information and stored information.

S114 can be the same as S103 described above. In other words, if the predicted delivery time required to deliver the delivery item 201 using the delivery box 200 is equal to or less than the temperature control time during which the delivery box 200 can control the temperature of the delivery item 201, it can be determined that delivery is possible.

In the determination of whether delivery is possible in S114, the process of determining whether delivery is possible can be performed based on at least the amount of power that can be supplied by the power source 207 of the delivery box 200. By performing the process of determining whether delivery is possible using other information in addition to the amount of power that can be supplied by the power source 207, a more accurate determination result can be obtained.

If it is determined in S114 that delivery of the delivery item 201 is not possible, in S115 it is determined whether or not delivery of the delivery item 201 using the delivery box 200 is possible by adjusting at least one of the temperature control possible time and the predicted delivery time. Adjusting the temperature control possible time is a process for extending the temperature control possible time, and adjusting the predicted delivery time is a process for shortening the predicted delivery time.

The adjustment process to extend the temperature adjustment possible time includes switching the delivery box 200 to a power saving mode, adjusting the set temperature of the temperature adjustment unit 206, adjusting the air volume of the temperature adjustment unit 206, adjusting the blowing mode of the temperature adjustment unit 206, adjusting the air-conditioned space of the delivery box 200, and replacing the power supply 207 with a backup power supply 208. The adjustment process to shorten the estimated delivery time includes adjusting the delivery route.

If it is determined in S115 that neither the temperature control time nor the delivery forecast time will enable delivery, the management server 100 sends delivery cancellation instruction information to the delivery box 200 in S112. If it is determined in S206 that delivery cancellation information has been received, the delivery box 200 performs delivery cancellation processing in S207 to cancel delivery of the delivery item 201 using the delivery box 200.

On the other hand, if it is determined that delivery is possible by adjusting at least one of the temperature adjustment possible time and the predicted delivery time as a result of the determination process in S115, adjustment instruction information is sent from the management server 100 to the delivery box 200 in S116, and the process returns to S108. If it is determined in S210 that the adjustment instruction information has been received, the delivery box 200 performs adjustment processing based on the adjustment instruction information in S211.

Next, in S212, the delivery box 200 determines whether or not delivery of the delivery item 201 has been completed. If it is determined that delivery of the delivery item 201 has not been completed, the process returns to S205, and the processes of S205 to S212 are repeated until delivery of the delivery item 201 is completed. On the other hand, if it is determined that delivery of the delivery item 201 has been completed, delivery completion information indicating that delivery of the delivery item 201 has been completed is sent from the delivery box 200 to the management server 100 in S213, and delivery processing of the delivery item 201 is terminated. With the completion of delivery processing of the delivery item 201, the power supply 207 of the delivery box 200 is turned off.

If the management server 100 determines in S117 that the delivery completion information has not been received, it returns to the process of S108 and repeats the processes of S108 to S117 until the delivery completion information is received. On the other hand, if the management server 100 determines in S117 that the delivery completion information has been received, it ends the delivery process of the delivery item 201.

According to the present embodiment described above, the process of determining whether or not delivery is possible is performed based at least on the amount of power that can be supplied by the power source 207 of the delivery box 200. As a result, delivery can be performed according to the amount of power that can be supplied by the power source 207, and the delivery item 201 can be maintained at a predetermined temperature until delivery is completed, thereby maintaining the quality of the delivery item 201. This eliminates the need to provide a large amount of power source 207 in the delivery box 200, and makes it possible to maintain the quality of the delivery item 201 until delivery is completed while also improving the delivery efficiency of the delivery item 201.

In addition, in this embodiment, even after delivery has started, the management server 100 constantly collects delivery box information from the delivery box 200 and stored information from the memory unit 103 to determine whether delivery is possible. This allows for early detection of any situation that may affect the maintenance of the temperature of the delivery item 201 after delivery has started, and makes it possible to respond by issuing instructions to restore the temperature, stop delivery, or make adjustments. Even if a malfunction such as an operational error, malfunction, or breakdown occurs in the delivery box 200, deterioration in the quality of the delivery item 201 caused by these malfunctions can be suppressed.

The management server 100 can obtain more accurate results by performing the delivery feasibility determination process using other information in addition to the available power supply of the power source 207. For example, road information, weather information, history information, outside air temperature, the operating status of the temperature adjustment unit 206, the open/closed status of the lid of the delivery box 200, date and time information, etc. can be used for the delivery feasibility determination process.

In addition, in this embodiment, the management server 100 determines whether delivery is possible or not based on the delivery box information and stored information. This reduces the processing load on the delivery box 200, which adjusts the temperature of the delivery item 201.

Second Embodiment
Next, a second embodiment of the present invention will be described below, focusing only on the differences from the first embodiment.

As shown in FIG. 7, in this second embodiment, multiple delivery items 201 are stored in a delivery box 200 at the delivery source 10 and are delivered consecutively to multiple delivery destinations 20. The multiple delivery items 201 may all be of the same type, or may be of different types. In this second embodiment, the delivery order to the multiple delivery destinations 20 is determined at the start of delivery, and the multiple delivery items 201 are delivered in a planned manner.

In the second embodiment, the delivery feasibility determination determines whether or not multiple delivery items 201 can be delivered to their respective delivery destinations 20 using the delivery box 200. Based on the delivery box information acquired from the delivery box 200 and the stored information acquired from the storage unit 103, the management server 100 minimizes the power consumption of the temperature adjustment unit 206 and maximizes the number of deliveries of the delivery items 201 when multiple deliveries are made. Specifically, it optimizes the delivery route, optimizes the control of the temperature adjustment unit 206, optimizes the control of the power source 207, and determines the optimal timing for switching to the backup power source 208.

In the second embodiment described above, in the delivery feasibility determination, a determination is made as to whether or not the multiple delivery items 201 can be delivered to each of the delivery destinations 20. Therefore, the multiple delivery items 201 can be delivered efficiently according to the amount of power that can be supplied by the power source 207. This makes it possible to maintain each of the multiple delivery items 201 at a predetermined temperature until delivery is completed, and to maintain the quality of each of the multiple delivery items 201.

Third Embodiment
Next, a third embodiment of the present invention will be described. Only the differences from the above embodiments will be described below.

As shown in FIG. 8, in the third embodiment, delivery requests are made from multiple delivery requesters, and multiple deliveries of delivery items 201 are made from the delivery source 10 to the delivery destination 20. Each of the multiple deliveries is independent and made consecutively.

The management server 100 determines whether or not delivery is possible for the delivery box 200 to which delivery of the delivery item 201 has been completed, based on the delivery request information from the delivery requester. After delivery of the delivery item 201 is completed, the delivery box 200 receives new delivery start instruction information from the management server 100. Based on the new delivery start instruction information, the deliverer stores the delivery item 201 in the delivery box 200 at the next delivery source 10 and starts a new delivery.

In the third embodiment described above, a delivery feasibility determination is made each time a delivery is completed, and multiple deliveries are made consecutively. This makes it possible to respond to each of the difficult-to-predict delivery requests from multiple delivery requesters, and to perform efficient deliveries while maintaining the quality of the multiple delivery items 201.

Fourth Embodiment
Next, a fourth embodiment of the present invention will be described. Only the differences from the above-mentioned embodiments will be described below.

As shown in FIG. 9, in the fourth embodiment, similar to the third embodiment, multiple delivery requesters make delivery requests, and multiple deliveries of delivery items 201 are made from the delivery source 10 to the delivery destination 20.

The multiple delivery items 201 include delivery items 201 with different required temperatures. Figure 9 shows an example of delivering five delivery items 201, and the required temperatures of the delivery items 201 are -20°C, 5°C, 5°C, 5°C, and 10°C, respectively.

In the fourth embodiment, a delivery possibility determination is performed for multiple delivery items 201 based on multiple delivery requests before delivery begins, and the delivery order of the multiple delivery items 201 is determined based on the required temperatures of the multiple delivery items 201. Specifically, the delivery order of the delivery items 201 with lower required temperatures is set to be earlier, and the delivery order of the delivery items 201 with higher required temperatures is set to be later. If the delivery order based on the required temperatures of the delivery items 201 would result in a longer delivery distance and reduced delivery efficiency, the delivery order may be determined by prioritizing the delivery distance over the required temperatures of the delivery items 201.

According to the fourth embodiment described above, by determining the delivery order of the multiple delivery items 201 based on the required temperatures of the multiple delivery items 201, it is possible to minimize the adjustment range of the set temperature of the temperature adjustment unit 206 and minimize temperature fluctuations in the air-conditioned space of the delivery box 200. This allows efficient delivery while maintaining the quality of the multiple delivery items 201.

Fifth Embodiment
Next, a fifth embodiment of the present invention will be described. Only the differences from the above-mentioned embodiments will be described below.

As shown in Figures 10 and 11, the delivery system of the fifth embodiment is provided with multiple delivery boxes 200. As shown in Figure 11, in the fifth embodiment, different delivery requests are made by multiple delivery requesters, and multiple deliveries of the delivery item 201 are made.

The management server 100 of this fifth embodiment acquires delivery box information from multiple delivery boxes 200 and performs a delivery feasibility determination for each delivery box 200. The management server 100 selects a specific delivery box 200 from the multiple delivery boxes 200 based on the result of the delivery feasibility determination, and transmits delivery start instruction information to the selected delivery box 200.

The management server 100 can select a delivery box 200 based on the distance from the delivery box 200 to the delivery source 10, the power that the power source 207 can supply, the operation history of the temperature adjustment unit 206, the delivery history of the delivery person, etc. When the management server 100 selects a delivery box 200, it can also be designed to minimize delivery costs based on the labor costs of the delivery person and the operating costs of the delivery box 200, etc.

In addition, in a delivery system that includes multiple delivery boxes 200, it is desirable to efficiently use the amount of power that can be supplied by the power sources 207 of the multiple delivery boxes 200. Specifically, it is desirable to have the amount of power that can be supplied by the power sources 207 of the multiple delivery boxes 200 be consumed as evenly as possible.

According to the fifth embodiment described above, by managing the delivery of multiple delivery boxes 200 using the management server 100, the optimal delivery box 200 can be selected from the multiple delivery boxes 200 in response to delivery requests from multiple delivery requesters. This allows efficient delivery using multiple delivery boxes 200 while maintaining the quality of the multiple delivery items 201.

Sixth Embodiment
Next, a sixth embodiment of the present invention will be described. Only the differences from the above-mentioned embodiments will be described below.

As shown in FIG. 12, in the delivery system of the sixth embodiment, multiple delivery boxes 200 are provided, as in the fifth embodiment. In addition, different delivery requests are made from multiple delivery requesters, and multiple deliveries of delivery items 201 are made. The multiple delivery items 201 include delivery items 201 with different required temperatures.

The management server 100 of this sixth embodiment acquires delivery box information from multiple delivery boxes 200 and performs a delivery feasibility determination for each delivery box 200. In this sixth embodiment, the delivery feasibility determination determines whether multiple delivery items 201 can be delivered based on multiple delivery requests.

The management server 100 selects a specific delivery box 200 from among the multiple delivery boxes 200 based on the result of the delivery feasibility determination, and determines the delivery order of the multiple delivery items 201 based on the required temperatures of the multiple delivery items 201.

According to the sixth embodiment described above, by managing the delivery of multiple delivery boxes 200 using the management server 100, the optimal delivery box 200 can be selected from the multiple delivery boxes 200 in response to delivery requests from multiple delivery requesters. Furthermore, by determining the delivery order of the multiple delivery items 201 based on the requested temperatures of the multiple delivery items 201, it is possible to minimize the adjustment range of the set temperature of the temperature adjustment unit 206 and minimize temperature fluctuations in the air-conditioned space of the delivery box 200. This allows efficient delivery while maintaining the quality of the multiple delivery items 201.

Seventh Embodiment
Next, a seventh embodiment of the present invention will be described. Only the differences from the above-mentioned embodiments will be described below.

In the seventh embodiment, the mobile terminal 250 carried by the delivery person substitutes for some of the functions of the delivery box 200. Some of the functions of the delivery box 200 that are substituted by the mobile terminal 250 include, for example, a communication connection function with the communication network 300, a location identification function, a display function, etc. The communication connection function with the communication network 300 can also be said to be a communication function with the management server 100. The mobile terminal 250, which substitutes for some of the functions of the delivery box 200, constitutes part of the delivery box 200.

As shown in FIG. 13, in the seventh embodiment, the delivery box 200 and the mobile terminal 250 are connected for communication by wire or wirelessly. The mobile terminal 250 is wirelessly connected to the communication network 300. The mobile terminal 250 is capable of communicating with the management server 100 via the communication network 300. The delivery box 200 is connected to the communication network 300 via the mobile terminal 250.

As shown in FIG. 14, the delivery box 200 of the seventh embodiment does not have a location identification unit 204 or a display unit 205. In addition, the transmission/reception unit 203 of the delivery box 200 has a short-range communication function with the mobile terminal 250, and is indirectly connected to the communication network 300 via the mobile terminal 250.

As shown in FIG. 15, the mobile terminal 250 includes a control unit 251, a transmission/reception unit 252, a storage unit 253, a position identification unit 254, and a display unit 255. Any mobile device including these components can be used as the mobile terminal 250, and a smartphone, for example, can be suitably used.

The control unit 251 is composed of a well-known microcomputer including a CPU, ROM, RAM, etc., and its peripheral circuits. The control unit 251 performs various calculations and processes based on a control program stored in the ROM, and controls the operation of various controlled devices. In the seventh embodiment, the control unit 251 of the mobile terminal 250 is capable of making a delivery feasibility determination to determine whether or not the delivery item 201 can be delivered by the delivery box 200.

The transmitting/receiving unit 252 has a function of short-distance communication via a wired or wireless connection with the delivery box 200, and a network connection function of wirelessly connecting with the communication network 300. The transmitting/receiving unit 252 can wirelessly connect with the communication network 300 using, for example, a mobile phone line. The transmitting/receiving unit 252 includes a transmitting unit that transmits data to the outside and a receiving unit that receives data from the outside.

The storage unit 253 is a writable and readable non-volatile storage medium (e.g., a magnetic disk, flash memory, etc.). The storage unit 253 stores a delivery app, which is dedicated software for using the mobile terminal 250 in the delivery process of the delivery item 201. The delivery app is started by the delivery person's operation.

The position identification unit 254 is a device that identifies the current position of the mobile terminal 250, and can use a GPS, for example. Since the mobile terminal 250 is carried by the deliverer who delivers the delivery box 200, the current position identified by the position identification unit 254 of the mobile terminal 250 can be the current position of the delivery box 200.

The display unit 255 is capable of displaying various types of information. The display unit 255 may function as a touch panel that can be operated by the delivery person, and as an input unit that allows the delivery person to input information.

Next, the delivery process of the delivery item 201 by the delivery system of the seventh embodiment will be explained using the flowcharts of Figures 16 and 17. Figure 16 shows the flow of the delivery process before delivery starts. Figure 17 shows the flow of the delivery process after delivery starts. Figure 16 corresponds to Figure 5 of the first embodiment, and Figure 17 corresponds to Figure 6 of the first embodiment. In Figures 16 and 17, the processes with the same reference numerals as Figures 5 and 6 are the same processes as Figures 5 and 6.

First, we will use Figure 16 to explain the delivery process before delivery begins.

The management server 100 determines whether or not a delivery request has been made in S100. If it is determined in the determination process of S100 that no delivery request has been made, it waits until a delivery request is made. If it is determined in the determination process of S100 that a delivery request has been made, it performs a process of acquiring delivery box information in S101.

At S300, the delivery app is started by the delivery person's operation on the mobile terminal 250. Next, at S214, a synchronization signal is sent from the delivery box 200 to the mobile terminal 250. For example, a synchronization switch may be provided on the delivery box 200, and the delivery person may operate the synchronization switch on the delivery box 200 to send a synchronization signal from the delivery box 200 to the mobile terminal 250.

In S301, the mobile terminal 250 determines whether or not a synchronization signal has been received from the delivery box 200, and waits until the synchronization signal is received. If the determination process in S301 determines that the mobile terminal 250 has received a synchronization signal from the delivery box 200, the communication connection between the mobile terminal 250 and the delivery box 200 is completed. At this time, a connection completion signal may be transmitted from the mobile terminal 250 to the delivery box 200.

The delivery box 200, which has completed the connection with the mobile terminal 250, transmits delivery box information to the mobile terminal 250 in S200. The mobile terminal 250 acquires the delivery box information transmitted from the delivery box 200 in S302 and transmits it to the management server 100.

The management server 100 acquires the delivery box information sent from the mobile terminal 250 in S101, and acquires the stored information from the memory unit 103 in S102.

Next, in S103, the management server 100 performs a delivery feasibility determination based on the delivery box information and stored information to determine whether delivery of the delivery item 201 is possible using the delivery box 200.

If the determination process in S103 determines that delivery is not possible, in S104 it is determined whether the power source 207 is insufficient, that is, whether the amount of power that the power source 207 can supply is sufficient to deliver the delivery item 201.

If it is determined in the determination process of S104 that there is no shortage of power source 207, a decision is made to replace delivery box 200 in S105, and processing returns to S101. If it is determined in the determination process of S104 that there is a shortage of power source 207, power restoration instruction information is sent to mobile terminal 250 in S106, and processing returns to S101.

If the mobile terminal 250 determines in the determination process of S303 that it has received power restoration instruction information, it transmits the power restoration instruction information to the delivery box 200 in S304. If the delivery box 200 determines in the determination process of S201 that it has received power restoration instruction information, it performs power restoration processing in S202.

If the management server determines in the determination process of S103 that delivery is possible, it sends delivery start instruction information to the mobile terminal 250 in S107.

If the mobile terminal 250 determines in the determination process of S305 that it has received the delivery start instruction information, it transmits the delivery start instruction information to the delivery box 200 in S306 and performs the delivery start process. If the mobile terminal 250 determines in the determination process of S305 that it has not received the delivery start instruction information, it returns to the process of S302.

If the delivery box 200 determines in the determination process of S203 that it has received the delivery start instruction information, it performs the delivery start process in S204. If the delivery box 200 determines in the determination process of S203 that it has not received the delivery start instruction information, it returns to the process of S200.

Next, we will use Figure 17 to explain the processing that occurs after delivery begins.

In S205, the delivery box 200 transmits the delivery box information to the mobile terminal 250. In S307, the mobile terminal 250 acquires the delivery box information transmitted from the delivery box 200 in S302 and transmits it to the management server 100.

The management server 100 determines in S118 whether or not delivery box information has been received, and waits until delivery box information is received.

If the mobile terminal 250 is located in an area with few mobile phone company base stations, such as a mountainous region, the mobile terminal 250 may not be able to connect to the communication network 300, and a communication failure may occur between the management server 100 and the mobile terminal 250. If such a communication failure occurs, the management server 100 will not be able to receive the delivery box information from the mobile terminal 250. For this reason, in S118, if the management server 100 cannot receive the delivery box information from the mobile terminal 250, it determines that a communication failure has occurred with the mobile terminal 250, and goes into a standby state until the delivery box information is received.

If the management server 100 determines in the determination process of S118 that delivery box information has been received, it acquires the delivery box information from the mobile terminal 250 in S108, and acquires the stored information from the memory unit 103 in S109.

Next, in S119, the management server 100 transmits the judgment criteria information to the mobile terminal 250. The judgment criteria information is information contained in the stored information, and is information that serves as a criterion for judging whether or not the delivery item 201 can be delivered by the delivery box 200. The judgment criteria information can include a formula that uses various information contained in the delivery box information and various information contained in the stored information as variables to judge whether or not delivery is possible. Since the content of the various information contained in the stored information changes over time, in S119, the latest information is transmitted from the management server 100 to the mobile terminal 250.

The mobile terminal 250 determines whether or not the judgment criteria information has been received in S308. If it is determined in the judgment process of S308 that the judgment criteria information has been received, the mobile terminal 250 acquires the judgment criteria information in S309. At this time, the mobile terminal 250 starts a timer, and begins measuring the elapsed time since the judgment criteria information was received. This timer is reset each time the mobile terminal 250 receives the judgment criteria information.

After sending the judgment criteria information in S119, the management server 100 performs a delivery temperature judgment in S110 to judge whether the temperature of the delivery 201 is a predetermined temperature. If it is judged in the judgment process of S110 that the delivery 201 is not at the predetermined temperature, it judges whether the temperature of the delivery 201 can be restored in S111.

If it is determined in the determination process of S111 that the temperature of the delivery item 201 cannot be restored, then in S112, the management server 100 transmits delivery cancellation instruction information to the mobile terminal 250. If it is determined in the determination process of S111 that the temperature of the delivery item 201 can be restored, then in S113, the management server 100 transmits temperature restoration instruction information to the mobile terminal 250, and the process returns to S118.

If the determination process of S110 determines that the delivery item 201 is at the specified temperature, in S114 the management server 100 performs a delivery feasibility determination to determine whether or not the delivery item 201 can be delivered using the delivery box 200 based on the delivery box information and stored information.

If the determination process in S114 determines that delivery of the delivery item 201 is not possible, in S115 it is determined whether or not delivery of the delivery item 201 using the delivery box 200 is possible by adjusting at least one of the temperature control possible time and the predicted delivery time.

If the judgment process of S115 determines that delivery is not possible by adjusting either the temperature control time or the estimated delivery time, then in S112, the management server 100 sends a delivery cancellation instruction to the mobile terminal 250.

If it is determined in the determination process of S115 that delivery is possible by adjusting at least one of the temperature adjustment possible time and the delivery forecast time, adjustment instruction information is sent from the management server 100 to the mobile terminal 250 in S116, and the process returns to S118.

The mobile terminal 250 determines in S310 whether it has received any of the following instruction information from the management server 100: recovery instruction information, adjustment instruction information, or stop instruction information. If it is determined in S310 that instruction information has been received, the mobile terminal 250 transmits the received instruction information to the delivery box 200 in S311.

If the delivery box 200 determines in the determination process of S206 that it has received delivery cancellation information, it performs a delivery cancellation process to cancel the delivery of the delivery item 201 using the delivery box 200 in S207. If the delivery box 200 determines in S208 that it has received temperature recovery instruction information, it performs a temperature recovery process to restore the delivery item 201 to a predetermined temperature in S209. If the delivery box 200 determines in the determination process of S210 that it has received adjustment instruction information, it performs an adjustment process based on the adjustment instruction information in S211.

Next, if it is determined in S308 that the mobile terminal 250 has not received the judgment criteria information, it is determined in S312 whether or not a predetermined time has elapsed since the judgment criteria information was last received. In S312, the determination is made using the timer that started measuring in S309. The "predetermined time" in S312 is the time for determining that a communication failure has occurred between the management server 100 and the mobile terminal 250. The predetermined time can be set to any value, for example, 10 minutes.

If it is determined in the determination process of S312 that the predetermined time has not elapsed, the process returns to S308. If it is determined in the determination process of S312 that the predetermined time has elapsed, it can be determined that a communication failure has occurred between the management server 100 and the mobile terminal 250. If the transmission/reception unit 252 of the mobile terminal 250 cannot receive the result of the delivery feasibility determination from the management server 100 due to the occurrence of a communication failure, the control unit 251 executes the delivery feasibility determination.

The mobile terminal 250 performs a delivery feasibility determination using the criteria information and delivery box information acquired from the management server 100 in S309. The delivery feasibility determination performed by the mobile terminal 250 cannot use history information stored in the memory unit 103 of the management server 100. For this reason, the delivery feasibility determination performed by the mobile terminal 250 has less available information than the delivery feasibility determination performed by the management server 100. In this case, the number of variables available in the formula included in the criteria information is reduced. In other words, the delivery feasibility determination performed by the mobile terminal 250 can be said to be a simplified delivery feasibility determination compared to the delivery feasibility determination performed by the management server 100.

In S313, the mobile terminal 250 performs a delivery temperature determination to determine whether the temperature of the delivery item 201 is a predetermined temperature. If the determination process in S313 determines that the delivery item 201 is not at the predetermined temperature, in S314, it determines whether the temperature of the delivery item 201 can be restored.

If it is determined in the determination process of S314 that the temperature of the delivery item 201 cannot be restored, then in S315, delivery cancellation instruction information is sent from the mobile terminal 250 to the delivery box 200. If it is determined in the determination process of S314 that the temperature of the delivery item 201 can be restored, then in S316, temperature restoration instruction information is sent from the mobile terminal 250 to the delivery box 200, and processing returns to S308. Thereafter, if it is determined in S308 that the mobile terminal 250 has received the determination criteria information, then it can be determined that the communication failure with the management server 100 has been resolved.

If the determination process of S313 determines that the delivery item 201 is at the specified temperature, the mobile terminal 250 performs a delivery feasibility determination in S317 to determine whether the delivery item 201 can be delivered using the delivery box 200.

If the determination process of S317 determines that delivery of the delivery item 201 is possible, the process returns to S308. If it is then determined in S308 that the mobile terminal 250 has received the determination criteria information, it can be determined that the communication failure with the management server 100 has been resolved.

If the determination process of S317 determines that delivery of the delivery item 201 is not possible, S318 determines whether delivery of the delivery item 201 using the delivery box 200 is possible by adjusting at least one of the temperature control possible time and the predicted delivery time.

If the judgment process of S318 determines that delivery is not possible by adjusting either the temperature control time or the estimated delivery time, then in S315, delivery cancellation instruction information is sent from the mobile terminal 250 to the delivery box 200.

If it is determined in the determination process of S318 that delivery is possible by adjusting at least one of the temperature adjustment possible time and the delivery forecast time, adjustment instruction information is sent from the mobile terminal 250 to the delivery box 200 in S319, and the process returns to S308. Thereafter, if it is determined in S308 that the mobile terminal 250 has received the determination criteria information, it can be determined that the communication failure with the management server 100 has been resolved.

Next, the mobile terminal 250 determines in S320 whether or not delivery of the delivery item 201 has been completed. If it is determined in the determination process of S320 that delivery of the delivery item 201 has not been completed, the process returns to S307. If it is determined in the determination process of S320 that delivery of the delivery item 201 has been completed, delivery completion information is sent to the management server 100 and the delivery box 200 in S321, and the delivery process ends.

The management server 100 determines in S117 whether or not delivery completion information has been received from the mobile device 250. If it is determined in the determination process of S117 that delivery completion information has not been received, the process returns to S118. If it is determined in the determination process of S117 that delivery completion information has been received, the delivery process is terminated.

The delivery box 200 determines in S215 whether delivery completion information has been received from the mobile terminal 250. If it is determined in the determination process of S215 that delivery completion information has not been received, the process returns to S205. If it is determined in the determination process of S215 that delivery completion information has been received, the delivery process ends.

In the seventh embodiment described above, the mobile terminal 250 substitutes for some of the functions of the delivery box 200, such as the communication function with the management server 100, the location identification function, and the display function. This eliminates the need for the delivery box 200 to have these functions, and the configuration of the delivery box 200 can be simplified.

In addition, in the seventh embodiment, if a communication failure occurs between the management server 100 and the mobile terminal 250, the mobile terminal 250 determines whether delivery is possible. This allows the determination of whether delivery is possible to be continued even if a communication failure occurs while the delivery item is being delivered to the delivery destination. As a result, temperature management in the delivery box 200 can be continued and appropriately performed, and the quality of the delivery item 201 can be maintained.

In addition, if a communication failure occurs between the management server 100 and the mobile terminal 250 and the mobile terminal 250 is used to determine whether delivery is possible, no communication takes place between the management server 100 and the mobile terminal 250, which results in reduced communication costs.

In the seventh embodiment, in a configuration in which some of the functions of the delivery box 200 are substituted by the mobile terminal 250, if a communication failure occurs with the management server 100, the control unit 202 of the delivery box 200 determines whether delivery is possible. In contrast, in a configuration in which communication is performed directly between the management server 100 and the delivery box 200 without using the mobile terminal 250, if a communication failure occurs between the management server 100 and the delivery box 200, the control unit 202 of the delivery box 200 may determine whether delivery is possible.

In the seventh embodiment, the functions of the delivery box 200 in the first to sixth embodiments are replaced by the mobile terminal 250, including the communication connection function with the communication network 300, the location identification function, the display function, and the calculation processing function. However, at least one or more of the communication connection function, location identification function, display function, and calculation processing function may be replaced by the mobile terminal 250.

Eighth embodiment
Next, an eighth embodiment of the present invention will be described. Only the differences from the above-mentioned embodiments will be described below.

The eighth embodiment differs from the seventh embodiment in the content of the delivery process after delivery starts. Specifically, in the eighth embodiment, after delivery starts, the management server 100 does not determine whether delivery is possible, but the mobile terminal 250 does.

The delivery process before the start of delivery in this eighth embodiment is the same as that described in the seventh embodiment above using FIG. 16, so a description thereof will be omitted. Below, the delivery process after the start of delivery by the delivery system of this eighth embodiment will be described using the flowchart of FIG. 18, focusing on the differences from the seventh embodiment above.

As shown in FIG. 18, in this eighth embodiment, the management server 100 transmits the judgment criteria information to the mobile terminal 250 in S119, and then judges whether or not delivery completion information has been received from the mobile terminal 250 in S117. In other words, in this eighth embodiment, the processes of S110 to S116 are not performed, and the management server 100 does not judge whether or not delivery is possible after delivery has started.

The mobile device 250 transmits the delivery box information to the management server 100 in S307, and then acquires the criteria information transmitted from the management server 100 in S309. Then, the mobile device 250 performs the processes of S313 to S319 using the criteria information transmitted from the management server.

After transmitting temperature restoration instruction information from the mobile terminal 250 to the delivery box 200 in S316, the process returns to S313. Similarly, after transmitting adjustment instruction information from the mobile terminal 250 to the delivery box 200 in S319, the process returns to S313.

If the determination process of S317 determines that delivery of the delivery item 201 is possible, the determination process of S320 determines whether delivery of the delivery item 201 has been completed.

In the eighth embodiment described above, after delivery starts, the management server 100 does not determine whether delivery is possible, but the mobile terminal 250 determines whether delivery is possible. This makes it possible to reduce the frequency of communication between the management server 100 and the mobile terminal 250 after delivery starts. As a result, it is possible to reduce the communication cost between the management server 100 and the mobile terminal 250.

Other Embodiments
The present invention is not limited to the above-described embodiment, and various modifications can be made without departing from the spirit of the present invention. Furthermore, the means disclosed in each of the above-described embodiments may be appropriately combined within the scope of feasibility.

For example, in each of the above embodiments, an example has been described in which the delivery feasibility determination unit is configured by the control unit 101 of the management server 100, but the delivery feasibility determination unit may be configured differently. For example, the delivery feasibility determination unit may be configured by the control unit 202 of the delivery box 200. Alternatively, the delivery feasibility determination unit may be configured by both the control unit 101 of the management server 100 and the control unit 202 of the delivery box 200.

In addition, in each of the above embodiments, an example was described in which a cooling device that cools the delivery item 201 is used as the temperature adjustment unit 206, but a heating device that heats the delivery item 201 may also be used as the temperature adjustment unit 206.

In addition, in the configurations of each of the above embodiments, the various sensors 210 of the delivery box 200 may include at least one of an odor sensor that detects odors in the air-conditioned space of the delivery box 200, a humidity sensor that detects humidity in the air-conditioned space of the delivery box 200, and a vibration sensor that detects vibrations of the delivery box 200. A decrease in the quality of the delivery item 201 may also occur due to factors other than temperature, such as odor transfer, condensation, and damage due to vibration. Therefore, by including at least one of an odor sensor, humidity sensor, and vibration sensor in the various sensors 210, the management server 100 can determine whether or not delivery is possible, taking into account factors other than temperature that affect the quality of the delivery item 201.

100 Management server 101a Delivery possibility determination unit 200 Delivery box 201 Delivery item 202 Control unit 206 Temperature adjustment unit 207 Power source 250 Mobile terminal

Claims (13)

A delivery box (200) that stores a delivery item (201) and can be moved to a delivery destination;
A management server (100) that manages the delivery of the delivery item using the delivery box;
Equipped with
The delivery box is provided with at least a power source (207), a temperature adjustment unit (206) that adjusts the temperature of the delivery item by using power supplied from the power source, and a transmission/reception unit (203) that transmits and receives information to and from the management server via a communication network (300),
The transmitting/receiving unit transmits power source information including at least an available power supply amount of the power source to the management server;
The management server has a delivery possibility determination unit (101a) that executes a delivery possibility determination to determine whether or not the temperature of the delivery item can be maintained at a predetermined temperature by the temperature adjustment unit until the delivery item is delivered to the delivery destination,
The delivery system is configured so that the delivery possibility determination unit executes the delivery possibility determination based on at least the power source information. The delivery box includes a control unit (202) that performs control processing of the temperature adjustment unit,
The transmitting/receiving unit receives a result of the delivery possibility determination from the management server,
The delivery system according to claim 1 , wherein the control unit performs control processing of the temperature adjustment unit based on the result of the delivery feasibility determination received by the transmitting/receiving unit. A delivery system capable of communicating with a management server (100) having a delivery feasibility determination unit (101a) for determining whether a delivery item (201) can be delivered, and comprising a delivery box (200) capable of storing the delivery item and moving it to a delivery destination,
The delivery box includes at least a power source (207), a temperature adjustment unit (206) that adjusts the temperature of the delivery item by power supply from the power source, a transmission/reception unit (203) that transmits and receives information to and from the management server via a communication network (300), and a control unit (202) that performs control processing of the temperature adjustment unit;
The transmitting/receiving unit transmits power source information including at least an available power supply amount of the power source to the management server;
the transmitting/receiving unit receives from the management server a result of the delivery possibility determination unit's determination as to whether or not the temperature of the delivery item can be maintained at a predetermined temperature by the temperature adjustment unit based on at least the power supply information until the delivery item is delivered to the delivery destination;
The control unit performs control processing of the temperature adjustment unit based on the result of the delivery feasibility determination received by the transmitting/receiving unit. The delivery system according to claim 2 or 3, wherein the control unit performs the delivery feasibility determination when the transmission/reception unit cannot receive the result of the delivery feasibility determination from the management server. The delivery system according to any one of claims 1 to 4, wherein the delivery feasibility determination unit performs the delivery feasibility determination based on delivery item temperature information relating to the temperature of the delivery item. The delivery system according to claim 5, wherein the delivery possibility determination unit acquires the delivery item temperature information based on the temperature of the portion of the delivery box in which the delivery item is stored. The delivery system according to any one of claims 1 to 6, wherein the delivery feasibility determination unit performs the delivery feasibility determination before the delivery of the delivery item is started. The delivery system according to any one of claims 1 to 7, wherein the delivery feasibility determination unit performs the delivery feasibility determination from the start of delivery of the delivery item to the completion of delivery. The delivery system according to any one of claims 1 to 8, wherein the delivery possibility determination unit includes a delivery prediction time acquisition unit (101b) that acquires a delivery prediction time required for the delivery item to be delivered to the delivery destination, and a temperature control time acquisition unit (101c) that acquires a temperature control time during which the temperature adjustment unit can adjust the temperature of the delivery item to a predetermined temperature by power supply from the power source. The delivery system according to claim 9, wherein the delivery prediction time acquisition unit acquires the delivery prediction time based on at least the distance between the delivery box and the delivery destination and the moving speed of the delivery box. The delivery system according to claim 9 or 10, wherein the temperature adjustment possible time acquisition unit acquires the temperature adjustment possible time based on at least the amount of power that can be supplied by the power source. The delivery system according to claim 11, wherein the temperature adjustment possible time acquisition unit further acquires the temperature adjustment possible time based on the power consumption per unit time of the temperature adjustment unit. The delivery system according to any one of claims 1 to 12, wherein the delivery possibility determination unit performs the delivery possibility determination based on operation information regarding the operating state of the temperature adjustment unit.

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