JP2005330056A - Article delivery system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an article delivery system capable of preventing dew condensation of an article to be delivered. <P>SOLUTION: A packing case 13 loaded in a cargo chamber of a delivery vehicle 12 is provided with an information management device in the case. The information management device in the case is provided with a temperature sensor, a humidity sensor, and a short distance radio communication device to transmit temperature and humidity in the packing case 13 to a dew condensation prevention device 12a of the delivery vehicle 12. The dew condensation prevention device 12a computes dew point temperature in the case from temperature and humidity in the packing case 13. The dew condensation prevention device 12a computes dew point temperature at delivery destination from temperature and humidity at the delivery destination. Non-dew condensation temperature is determined from both dew point temperature to control temperature of the cargo chamber so that temperature in the packing case 13 is not reduced below the non-dew condensation temperature. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an article delivery system.

2. Description of the Related Art Conventionally, it is known as an article delivery service to deliver an article to a delivery destination while maintaining a predetermined temperature. For example, fresh foods and the like are stored in a freezer or refrigerator provided in a delivery vehicle, and delivered to a delivery destination while monitoring the temperature in the freezer or refrigerator so as not to reduce the freshness (Patent Document 1).
JP 2002-333263 A

  However, the article delivery system is a system for delivering an article stored in a freezer or a refrigerator provided in a delivery vehicle while keeping it at a low temperature, and is an article delivery system in consideration of freshness. Therefore, for items other than food, such as fresh food, for example, electronic devices, it is not necessary to consider the freshness and the like, so the above delivery has not been made in consideration of the delivery cost. Therefore, articles such as electronic devices that are not required for freshness are loaded on a carrier bed of a normal delivery vehicle that does not include a refrigerator or the like and are delivered without temperature control.

  By the way, when the delivery destination is a cold district, the article may condense when delivered to the delivery destination house. This is because when the article to be delivered is cooled during delivery and unpacked in a warm room at the delivery destination, the cooled surface of the article reaches the saturated water vapor pressure, resulting in condensation. In the case of an article such as an electronic device, this dew condensation is not preferable because it causes a short circuit of the electronic circuit or a malfunction of the drive mechanism.

  An object of the present invention is to provide an article delivery system capable of preventing the condensation of articles to be delivered, which has been made to solve the above problems.

  The article delivery system of the present invention is an article delivery system for delivering an article housed in a packaging case at a predetermined temperature to a delivery destination by a delivery vehicle, and detects temperature and humidity in the packaging case. Means, temperature / humidity storage means for storing the temperature and humidity in the packing case detected by the temperature / humidity detection means for each time of detection, and temperature detected by the temperature / humidity detection means In-case information transmission means for transmitting humidity as temperature / humidity information, and a period set in advance based on the temperature and humidity in the packing case stored in the temperature / humidity storage means for the temperature in the packing case Acquired by the temperature adjusting means for adjusting to be held, the in-case information receiving means for receiving the temperature / humidity information in the case from the in-case information transmitting means, and the in-case information receiving means Based on the temperature / humidity information, the non-condensing temperature at which the article does not condense is calculated, and the temperature in the packing case is set to the non-condensing temperature via the temperature adjusting means for a predetermined time with respect to the non-condensing temperature. Arithmetic control means for controlling.

  According to this, temperature / humidity information in the packaging case during delivery is acquired, the dew point is calculated, and the temperature in the packaging case is maintained at a non-condensing temperature at which the article does not condense for a predetermined period. Condensation can be prevented.

The article delivery system of the present invention is an article delivery system for delivering an article accommodated in a packaging case at a predetermined temperature to a delivery destination by a delivery vehicle, wherein the temperature / humidity detecting means detects the temperature and humidity in the packaging case. And temperature / humidity storage means for storing the temperature and humidity in the packing case detected by the temperature / humidity detection means at each detection time, and the temperature and humidity detected by the temperature / humidity detection means In-case information transmitting means for transmitting temperature / humidity information, temperature adjusting means for adjusting the temperature in the packaging case, and in-case information receiving for receiving in-case temperature / humidity information from the in-case information transmitting means Means, delivery destination information acquisition means for acquiring the temperature and humidity of the delivery destination as delivery destination temperature / humidity information, based on the in-case temperature / humidity information and the delivery destination temperature / humidity information A non-condensing temperature at which the article does not condense is calculated during delivery and at the delivery destination, and the temperature in the packing case is controlled to the non-condensing temperature via the temperature adjusting means for a predetermined time with respect to the non-condensing temperature. And an arithmetic control means for performing.

  According to this, the temperature / humidity information in the packaging case during delivery is acquired, the dew point is calculated, and the temperature in the packaging case is adjusted. Condensation of the article can be prevented.

In the present invention, the delivery vehicle includes in-case temperature / humidity history information generating means for generating temperature / humidity history information at that time based on in-case temperature / humidity information acquired by the in-case information receiving means, and in-case temperature. In-case temperature / humidity history information storage means for storing the non-condensing temperature at that time calculated by the calculation control means together with the current temperature / humidity history information created by the humidity history information generation means, The temperature / humidity history information storage means may store temperature / humidity history information and non-condensing temperature at that time and display means for displaying the temperature, humidity and non-condensing temperature.
According to this, since it is known whether or not the temperature and humidity in the packing case are non-condensing temperatures, it is possible to estimate whether or not the article is condensed.

In the present invention, the delivery vehicle includes condensation notification means for outputting an abnormality report when the temperature in the case temperature / humidity information acquired by the case information receiving means reaches the condensation temperature calculated by the calculation control means. Also good.
According to this, since the abnormality notification is made when the temperature of the article in the case reaches the temperature at which condensation occurs, it is possible to quickly cope with the condensation of the article.

In the present invention, the delivery vehicle includes a delivery vehicle side wireless device that transmits and receives information to and from the management center via a wireless communication network. The case temperature / humidity information received from the internal information transmission means is transmitted to the management center, and the management center transmits / receives information to / from the delivery vehicle via the wireless communication network, and the center side management storage means A case in which the management server requests the temperature / humidity information in the case from the delivery vehicle, receives the temperature / humidity information in the case from the wireless device on the delivery vehicle side, and receives the received information in the center-side management storage means. The internal temperature / humidity information may be stored.
According to this, since the management center can acquire information on delivery items, centralized management for dew condensation on the items can be performed.

  In the present invention, the management center includes delivery destination information storage means for storing the delivery destination temperature and humidity as delivery destination temperature / humidity information, and transmits the delivery destination temperature / humidity information from the management server to the delivery vehicle. Is provided with storage means for storing delivery destination temperature / humidity information for storing delivery destination temperature / humidity information, and the delivery destination temperature / humidity information transmitted from the management center is stored in the storage means. It may be.

  According to this, the temperature / humidity of the delivery destination is acquired from the management center, the dew point is calculated based on this, and the temperature in the packaging case is adjusted, so that the state of the goods being delivered can be monitored, Condensation of goods at the delivery destination can be prevented.

In the present invention, the management server may acquire the temperature and humidity of the delivery destination from the delivery destination terminal.
According to this, since the user (customer) can check the temperature and humidity from the terminal, it is possible to know how the service is actually performed at all times, and there is an effect that leads to improvement in safety and satisfaction.

Hereinafter, an embodiment embodying the present invention will be described with reference to FIGS. FIG. 1 is a system configuration diagram for explaining the configuration of an article delivery system.
1, an article delivery system 10 includes a delivery destination terminal 11, a delivery car 12, a packing case 13 containing an article M (see FIG. 2) loaded in a luggage compartment of the delivery car 12, and a management center 14. Yes. The delivery destination terminal 11 and the management center 14 are connected via the Internet N1 so that data can be exchanged between them. The delivery vehicle 12 and the management center 14 are connected via a mobile phone network N2 so that data can be exchanged between them. The delivery vehicle 12 and the packing case 13 are connected by wireless communication so that data can be exchanged between them.

  The delivery destination terminal 11 is a personal computer, for example, and is provided in the delivery destination house of the article M. The customer of the delivery destination operates the keyboard or mouse while looking at the monitor of the delivery destination terminal 11, and various information such as the delivery status of the article M delivered to the management server 14a of the management center 14 via the Internet N1. To get. Further, the customer can operate the keyboard or mouse while looking at the monitor of the delivery destination terminal 11 to transmit the temperature / humidity information of the delivery destination house to the management server 14a of the management center 14 via the Internet N1. it can.

  The delivery vehicle 12 is, for example, a vehicle that loads an article M from a delivery center and delivers it to a delivery destination. The delivery vehicle 12 is provided with a dew condensation prevention device 12 a and the dew condensation prevention device 12 a is provided inside the packing case 13. Data is exchanged with the device 13a (see FIG. 2) and the management server 14a of the management center 14 respectively.

  Further, the delivery vehicle 12 is equipped with an arrival time calculation device (not shown) that can calculate the expected arrival time of each delivery destination. This arrival time calculation device may be, for example, a known navigation device. That is, the arrival time calculation device may calculate the arrival time of the delivery destination based on the route to the delivery destination and the operating state of the delivery vehicle 12 by registering the address of the delivery destination. . Then, the arrival time calculation device outputs the calculated expected arrival time to the dew condensation prevention device 12a.

FIG. 3 is a diagram illustrating an electrical configuration of the in-case information management device 13 a provided in the packing case 13.
3, the in-case information management device 13a includes a central processing unit (CPU) 21, a ROM 22, a RAM 23, a temperature sensor 24, a humidity sensor 25, an article information storage unit 26, and a short-range wireless communication device 27. The CPU 21 operates according to the control program and the dew condensation prevention management program stored in the ROM 22, and stores the arithmetic processing results at that time in the RAM 23. The temperature sensor 24 constituting the temperature / humidity detecting means detects the temperature in the packaging case 13 at that time and outputs it to the CPU 21. The humidity sensor 25 constituting the temperature / humidity detecting means detects the humidity in the packaging case 13 at that time and outputs it to the CPU 21. The article information storage unit 26 stores information for delivery such as an article name of an article accommodated in the packing case 13, a customer name of a delivery destination, and an address. Further, the article information storage unit 26 stores information on whether or not the article M is a dew condensation prevention target item, and information on the delivery destination temperature and humidity.

The short-range wireless communication device 27 as in-case information transmission means is a wireless communication device capable of short-range communication, and includes, for example, specific low-power wireless, Bluetooth, home RF,
IEEE802.11B, UBW, etc. can be adopted. The CPU 21 transmits the temperature and humidity detected by the temperature sensor 24 and the humidity sensor 25 according to the temperature / humidity program to the dew condensation prevention device 12a via the short-range wireless communication device 27.

  Next, the electrical configuration of the dew condensation prevention device 12a provided in the delivery vehicle 12 will be described with reference to FIG. In FIG. 4, the dew condensation prevention device 12a includes a central processing unit (CPU) 31, a ROM 32, a RAM 33, a heater device 34, a display device 35, an alarm device 36, a temperature / humidity storage unit R, a temperature / humidity history information storage unit 37, An article information storage unit 38, a short-range wireless communication device 39, and a wide-area wireless communication device 40 are provided.

  The CPU 31 as the calculation control means and the in-case temperature / humidity history information generation means operates in accordance with the control program and the dew condensation prevention management program stored in the ROM 32, and stores the calculation processing results at that time in the RAM 33. . The RAM 33 stores the expected arrival time of each delivery destination calculated by the arrival time calculation device.

  The temperature / humidity storage unit R as temperature / humidity storage means stores the temperature and humidity in the packaging case 13 detected by the temperature sensor 24 and the humidity sensor 25 for each detected time.

  The heater device 34 as temperature adjusting means is a heater device that adjusts the temperature of the cargo compartment loaded on the delivery vehicle 12, and is based on a control signal from the CPU 31, that is, the temperature inside the packaging case 13. To control.

  The display device 35 as a display means is a liquid crystal display device, for example, and displays various information based on a display control signal from the CPU 31. The alarm device 36 as a dew condensation notification means is, for example, a speaker, and notifies the driver of the delivery vehicle 12 with a sound based on a notification control signal from the CPU 31 with a sound. The temperature / humidity history information storage unit 37 serving as the in-case temperature / humidity history information storage unit stores information on the condensation temperature calculated by the CPU 31 from time to time. The article information storage unit 38 as a storage means stores the article name, delivery destination customer name, address, and article M stored in each packing case 13 stacked in the cargo compartment as to whether or not the article M is an object to prevent condensation. Article information such as information, delivery destination temperature and humidity information is stored.

The short-range wireless communication device 39 as in-case information receiving means is a wireless communication device capable of short-range communication that is the same as the short-range wireless communication device 27 of the in-case information management device 13a. (Bluetooth), Home RF, IEEE802.11B,
UBW or the like can be employed. The short-range wireless communication device 39 can exchange data with the short-range wireless communication device 27, and receives the temperature and humidity information of the packaging case 13 transmitted from the short-range wireless communication device 27.

  The wide area wireless communication device 40 as a delivery destination information acquisition means or a delivery vehicle side wireless device is a mobile communication device having a mobile phone function, and is connected to the management server 14a of the management center 14 via the mobile phone network N2. The The CPU 31 exchanges data with the management server 14a through the wide area wireless communication device 40 and the mobile phone network N2.

Then, the CPU 31 executes a condensation prevention process according to the temperature / humidity management program. Based on the information on the temperature and humidity of the packaging case 13 and the information on the temperature and humidity of the delivery destination, the CPU 31 does not condense in the packaging case 13 and the temperature at which the article M does not condense when handed over to the delivery destination (non-condensing). Temperature). The CPU 31 drives and controls the heater device 34 and the alarm device 36 based on the non-condensing temperature obtained by calculation. At this time, the CPU 31 drives and controls the heater device 34 so that the inside of the packing case 13 maintains a non-condensing temperature for a predetermined period. This predetermined period is a period set in advance according to the temperature and humidity in the packaging case 13 stored in the temperature / humidity storage unit R. For example, if the temperature in the packaging case 13 is 20 ° C., the temperature in the packaging case 13 is maintained at a non-condensing temperature for 1 hour or longer, if it is 25 ° C., 40 minutes or longer, and if 30 ° C., 20 minutes or longer. To drive.

  Further, when it is predicted that the CPU 31 will arrive at each delivery destination earlier than the predetermined period based on the expected arrival time calculated by the arrival time calculating device, the CPU 31 drives the heater device 34 more strongly.

  Further, the CPU 31 stores the condensation temperature at that time in the temperature / humidity history information storage unit 37 as history information together with the temperature and humidity of the packing case 13 at that time in the temperature / humidity history information storage unit 37.

Next, the electrical configuration of the management server 14a of the management center 14 will be described with reference to FIG.
The management server 14a includes a central processing unit (CPU) 41, a ROM 42, a RAM 43, a communication device 44, an article information storage unit 45, and a history information storage unit 46. The management server 14a manages all the delivery vehicles 12 and manages the articles M in the packing case 13 delivered by the delivery vehicles 12.

  The CPU 41 operates according to the control program and the article degree management program stored in the ROM 42, and exchanges information regarding the article M in each packing case 13 loaded on the delivery vehicle 12 with the dew condensation prevention device 12a. The communication device 44 exchanges data with the wide area wireless communication device 40 of the dew condensation prevention device 12a via the mobile phone network N2, and also exchanges data with the delivery destination terminal 11 via the Internet N1. A communication device for performing.

  The article information storage unit 45 serving as a delivery destination information storage unit stores various information regarding the article M as article information for every article M to be delivered managed by the management center 14. The article information includes the reception number, the name of the delivery source, the address and telephone number, the name of the delivery destination, the address and telephone number, the name and product number of the article M, the delivery date and time, the presence or absence of anti-condensation products, the temperature of the delivery destination Consists of data such as humidity.

  The history information storage unit 46 as center management storage means stores temperature / humidity history information from the start of delivery to the delivery destination for each article M. Then, the management server 14 a (CPU 41) receives the dew condensation temperature of the article M to be delivered and the temperature and humidity in the packaging case 13 transmitted from the dew condensation prevention device 12 a of each delivery vehicle 12 and stores them in the history information storage unit 46. It is supposed to be.

  Further, the management server 14a (CPU 41) connects to each delivery destination terminal 11 via the Internet N1, and transmits temperature / humidity history information of the delivered item M requested by the delivery destination terminal 11. In addition, the management server 14a receives the temperature and humidity of the delivery destination requested to the delivery destination terminal 11 via the Internet N1. Furthermore, the management server 14a transmits the temperature and humidity of the delivery destination of each corresponding article M to the dew condensation prevention device 12a of each delivery vehicle 12 via the mobile phone network N2.

Next, the operation of the article delivery system 10 configured as described above will be described according to a flowchart showing the operation of the dew condensation prevention device 12a.
FIG. 6 is a flowchart showing the operation of the dew condensation prevention device 12a.

  In the packing case 13 loaded on the dew condensation prevention device 12a of the delivery vehicle 12 from the management server 14a of the delivery center 12 before the packing case 13 containing the article M in the delivery vehicle 12 is loaded and departed from the loading room. Article information on the article M is transmitted (step S1). When the dew condensation prevention device 12a acquires this item information, it stores it in the item information storage unit 38 (step S2). At this time, the dew condensation prevention device 12a determines whether or not the article M in the article information is a dew condensation prevention target product. In the present embodiment, the following description will be made on the assumption that the article M in the packed packing case 13 is a dew condensation prevention target product. In addition, similar article information is stored before being loaded on the article information storage unit 26 of the in-case information management device 13a provided in the packing case 13. The article information stored in the article information storage unit 26 of the in-case information management apparatus 13a may be the article information received by the condensation prevention apparatus 12a from the management server 14a via the condensation prevention apparatus 12a. Good.

  In addition, before the packing case 13 in which the article M is stored in the delivery vehicle 12 is loaded and departed from the luggage compartment, for example, a driver who operates the delivery vehicle 12 sends a delivery destination to the arrival time calculation device mounted on the delivery vehicle 12. Register your address, etc.

  When the article information is acquired, the delivery vehicle 12 moves toward the delivery destination. During the movement, the dew condensation prevention device 12a (CPU 31) acquires the expected arrival time of each delivery destination from the arrival time calculation device mounted on the delivery vehicle 12.

  Further, during movement, the dew condensation prevention device 12a (CPU 31) operates in accordance with the dew condensation prevention management program, communicates with the in-case information management device 13a of the packing case 13, and temperature and humidity data (temperature / humidity data in the packing case 13). Humidity information) is acquired (step S3). When the CPU 31 acquires the data, it calculates a temperature at which the article M in the packing case 13 is not condensed during delivery and is delivered at the delivery destination (non-condensing temperature) based on the temperature / humidity information. To do. More specifically, first, the dew point temperature in the packaging case 13 is calculated based on the received temperature / humidity information (step S4). Next, the dew point temperature of the delivery destination is calculated (step S5). The delivery destination outdoor temperature is calculated based on the delivery destination temperature and humidity information in the article information stored in the article information storage unit 38.

  When the dew point temperature in the packing case 13 and the dew point temperature of the delivery destination are calculated, the CPU 31 compares both dew point temperatures and determines a high dew point temperature as a non-condensing temperature (step S6). The CPU 31 calculates the temperature / humidity history information by using the temperature and humidity of the inside of the packaging case 13 and the delivery destination, the dew point temperature of the delivery case 13 and the delivery destination, and the non-condensing temperature as history information. It memorize | stores in the memory | storage part 37 (step S7). Based on this history information, the CPU 31 displays the display device 35 together with the previous history information. That is, the history from the start of delivery to the present is displayed on the display device 35.

Subsequently, the CPU 31 compares the non-condensing temperature with the temperature in the packaging case 13 (in-case temperature) from the acquired temperature / humidity information (step S8). If the temperature in the packing case 13 (temperature in the case) is lower than the non-condensing temperature (YES in step S8), the CPU 31 determines that condensation is occurring during delivery and at the delivery destination, and operates the heater device 34 to load The temperature in the room is raised to raise the temperature in the case (step S9). At this time, the CPU 31 also activates the alarm device 36 to warn the driver of an abnormality (step S10). The heater device 34 continues to operate for the predetermined period according to the temperature in the packing case 13 (in-case temperature). At this time, the CPU 31 compares the expected arrival time of the delivery destination with the predetermined period, and if the CPU 31 is predicted to arrive at the delivery destination earlier than the predetermined period (YES in step S11), the CPU 31 moves the heater device 34 over. Further, the operation is switched to a stronger mode (step S12), and the temperature in the cargo compartment is further increased. Thereby, the temperature in the packaging case 13 (in-case temperature) can reach the non-condensing temperature in a short time.

If it is predicted that the delivery destination will be reached later than the predetermined period (NO in step S11), heater device 34 is operated in the normal mode.
On the other hand, when the temperature in the case becomes equal to or higher than the non-condensing temperature (NO in step S8), the CPU 31 stops the operation of the heater device 34 and keeps the temperature in the case at the non-condensing temperature (step S13). Then, it is determined whether or not a dew condensation prevention operation stop operation has been performed (step S14), and the process proceeds to step S3 again to perform dew condensation prevention control.

Thereafter, the dew condensation prevention device 12a performs the operations from step S3 to step S14 until the article M arrives at the delivery destination (YES in step S14).
In this way, the temperature of the article M is held for the predetermined period set in advance according to the temperature and humidity in the packaging case 13. As a result, the temperature of the entire article M can be made uniformly non-condensing until reaching the inside. Therefore, the article M delivered by the delivery vehicle 12 is not condensed during delivery and at the delivery destination.

  Further, the dew condensation prevention device 12a of the delivery vehicle 12 exchanges data from the management server 14a at any time during delivery. When there is a request for history information stored in the temperature / humidity history information storage unit 37 of the dew condensation prevention device 12a from the management server 14a, the dew condensation prevention device 12a responds to this request to the management server 14a. Send. The management server 14a stores the history information in the history information storage unit 46. For example, when the management server 14a has a request from the delivery destination terminal 11 to know the history information about the article M delivered to the user, the management server 14a is stored in the history information storage unit 46. The history information of the received article M is transmitted to the delivery destination terminal 11. Therefore, the user can be relieved or satisfied because he / she knows how the service is actually performed at all times. Further, the user can check how the delivered article M is subjected to condensation management.

  Using the delivery destination terminal 11, the user can transmit the delivery destination temperature and humidity to the dew condensation prevention device 12a via the management server 14a. Further, the management center 14 can transmit the temperature and humidity of the delivery destination to the dew condensation prevention device 12a from time to time regardless of the delivery destination terminal 11. When the delivery destination temperature and humidity are transmitted, the dew condensation prevention device 12a (CPU 31) rewrites the delivery destination temperature and humidity contents of the article information stored in the article information storage unit 38. Accordingly, the dew point temperature of the delivery destination is calculated based on the rewritten delivery destination temperature and humidity.

Next, effects of the article delivery system 10 configured as described above will be described below.
(1) In this embodiment, the dew condensation prevention device 12a uses the temperature / humidity information detected by the in-case information management device 13a (sensors 24, 25) to determine the dew point temperature in the packing case 13 as the delivery destination temperature. The dew point temperature of the delivery destination was calculated based on the humidity. And the dew condensation prevention apparatus 12a made the dew point temperature high among both dew point temperatures into the non-condensation temperature, and controlled the heater apparatus 34 so that the temperature in the packaging case 13 might not become lower than this non-condensation temperature. Accordingly, the article M delivered by the delivery vehicle 12 is not condensed during delivery and at the delivery destination.

  (2) In the present embodiment, the heater device 34 is driven and controlled so that the inside of the packing case 13 maintains a non-condensing temperature for a predetermined period. Therefore, not only the surface of the article M but also the inside of the article M can be uniformly brought to a desired non-condensing temperature. Therefore, the article M delivered by the delivery vehicle 12 is not condensed during delivery and at the delivery destination until it reaches the inside.

(3) In the present embodiment, when it is determined that the estimated arrival time of the delivery destination arrives earlier than a predetermined period in which the non-condensing temperature is maintained, the CPU 31 drives and controls the heater device 34 to operate strongly. As a result, the non-condensing temperature can be reached in a short time, and the article M can be held at the non-condensing temperature for a predetermined period within the expected arrival time. Accordingly, it is possible to reliably prevent condensation on the article M delivered by the delivery vehicle 12.

  (4) In this embodiment, based on the history information stored in the temperature / humidity history information storage unit 37, the CPU 31 displays the display device 35 together with the previous history information. That is, the display device 35 indicates the temperature and humidity of the case and the delivery destination from the start of delivery to the present. Each dew point temperature, non-condensing temperature, and history are displayed. Therefore, the driver can easily estimate whether condensation occurs.

When the temperature in the case falls below the non-condensing temperature, the alarm device 36 is activated to notify the driver, so that the driver can respond quickly.
(5) In the present embodiment, since the temperature and humidity of the delivery destination can be acquired from the delivery destination terminal 11 of the delivery destination, a highly accurate non-condensing temperature can be set.

  (6) In this embodiment, since the user (customer) can check the temperature and humidity even from the delivery destination terminal 11 via the management server 14a, it is understood how the regular service is actually implemented. Can improve safety and satisfaction.

  (7) In the present embodiment, the history information of the article M stored in the history information storage unit 46 can be acquired from the delivery destination terminal 11 via the management server 14a. Therefore, the user can confirm how the delivered article M is subjected to condensation management.

The present invention is not limited to the above embodiment, and may be implemented as follows.
In the above embodiment, when it is determined that the expected arrival time of the delivery destination arrives earlier than a predetermined period in which the non-condensation temperature is maintained, the heater device 34 is driven and controlled to operate strongly, so that the non-condensation temperature is shortened. So that the article M can be kept at the non-condensing temperature for a predetermined period within the expected arrival time. Instead of activating the heater device 34 strongly, the delivery order of the delivery destination may be changed to delay the arrival time of the delivery destination.

-You may carry out by attaching the case information management apparatus 13a directly to the article | item M. FIG.
In the above embodiment, the non-condensation temperature is defined as the higher of the dew point temperature in the case and the dew point temperature of the delivery destination. In this case, the dew point temperature of the delivery destination may not be calculated, and the dew point temperature in the case may be set to the non-condensing temperature to control the dew condensation. In this case, it is possible to reliably prevent dew condensation on the article during delivery.

In the above embodiment, the article M is not particularly limited, but an electronic device that dislikes condensation such as an ink jet printer may be implemented as the article.
In the above embodiment, the temperature and humidity of the delivery destination can be rewritten. However, it may be implemented so that it cannot be rewritten.

The block diagram of an article delivery system. The block diagram of a packaging case. The block circuit diagram which shows the electric constitution of the information management apparatus in a case. The block circuit diagram which shows the electric constitution of a dew condensation prevention apparatus. The block circuit diagram which shows the electric constitution of a management server. The flowchart for demonstrating operation | movement of a dew condensation prevention apparatus.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 11 ... Delivery destination terminal, 12 ... Delivery vehicle, 12a ... Condensation prevention apparatus, 13 ... Packing case, 13a ... In-case information management apparatus, 14 ... Management center, 14a ... Management server, 24 ... Temperature / humidity detection means Temperature sensor 25... Humidity sensor constituting temperature / humidity detection means 31. In-case temperature / humidity history information generation means and CPU as calculation control means 34. Heater device as temperature adjustment means 35. 36 ... Alarm device as dew condensation reporting means, 39 ... Short-range wireless communication device as in-case information receiving means, M ... Article, N1 ... Internet, N2 ... Mobile phone network.

Claims (7)

An article delivery system for delivering an article stored in a packaging case at a predetermined temperature to a delivery destination by a delivery car,
Temperature / humidity detecting means for detecting the temperature and humidity in the packing case;
Temperature / humidity storage means for storing the temperature and humidity in the packing case detected by the temperature / humidity detection means for each detected time;
In-case information transmitting means for transmitting the temperature and humidity detected by the temperature / humidity detecting means as temperature / humidity information;
Temperature adjusting means for adjusting the temperature in the packing case;
In-case information receiving means for receiving temperature / humidity information in the case from the in-case information transmitting means,
Based on the temperature / humidity information acquired by the in-case information receiving means, a non-condensing temperature at which the article does not condense is calculated, and the packing case is passed through the temperature adjusting means for a predetermined time with respect to the non-condensing temperature. An article delivery system comprising an operation control means for controlling the temperature inside the apparatus to a non-condensing temperature. An article delivery system for delivering an article stored in a packaging case at a predetermined temperature to a delivery destination by a delivery car,
Temperature / humidity detecting means for detecting temperature and humidity in the packing case;
Temperature / humidity storage means for storing the temperature and humidity in the packing case detected by the temperature / humidity detection means for each detected time;
In-case information transmitting means for transmitting the temperature and humidity detected by the temperature / humidity detecting means as temperature / humidity information;
Temperature adjusting means for adjusting the temperature in the packing case;
In-case information receiving means for receiving in-case temperature / humidity information from the in-case information transmitting means,
Delivery destination information acquisition means for acquiring the temperature and humidity of the delivery destination as delivery destination temperature / humidity information;
Based on the temperature / humidity information in the case and the delivery destination temperature / humidity information, a non-condensing temperature at which the article does not condense during delivery and at the delivery destination is calculated, and a predetermined time for the non-condensing temperature An article delivery system comprising: an arithmetic control means for controlling the temperature in the packing case to a non-condensing temperature via a temperature adjusting means. In the article delivery system according to claim 1 or 2,
The delivery vehicle is
In-case temperature / humidity history information generating means for generating temperature / humidity history information at that time based on in-case temperature / humidity information acquired by the in-case information receiving means,
In-case temperature / humidity history information storage means for storing the non-condensing temperature at that time calculated by the calculation control means together with the current temperature / humidity history information created by the in-case temperature / humidity history information generating means. When,
An article comprising: display means for reading temperature / humidity history information and non-condensing temperature at that time stored in the case temperature / humidity history information storage means and displaying the temperature, humidity and non-condensing temperature Delivery system. In the article delivery system according to any one of claims 1 to 3,
The delivery vehicle is
When the temperature of the in-case temperature / humidity information acquired by the in-case information receiving unit is lower than the non-condensing temperature calculated by the calculation control unit, the dew condensation reporting unit outputs an abnormality notification. Goods delivery system. In the article delivery system according to any one of claims 1 to 4,
The delivery vehicle is
A delivery vehicle side wireless device that exchanges information with a management center via a wireless communication network, wherein the in-case information receiving means receives from the in-case information transmission means at the delivery vehicle side wireless device; Send the temperature and humidity information in the case to the management center,
The management center
A management server that exchanges information with the delivery vehicle via the wireless communication network, and a center-side management storage unit,
The management server requests the delivery vehicle temperature / humidity information from the delivery vehicle, receives the in-case temperature / humidity information from the delivery vehicle wireless device, and stores it in the center management storage means. The article delivery system characterized in that the received case temperature / humidity information is stored. In the article delivery system according to any one of claims 2 to 5,
The management center
Delivery destination information storage means for storing the temperature and humidity of the delivery destination as delivery destination temperature / humidity information, and transmitting the delivery destination temperature / humidity information from the management server to the delivery vehicle,
The delivery vehicle is
Delivery destination temperature / humidity information is stored in the delivery destination temperature / humidity information, and the delivery destination temperature / humidity information transmitted from the management server is stored in the storage means. An article delivery system characterized by memorizing. The article delivery system according to claim 6,
The article delivery system, wherein the management server acquires the temperature and humidity of the delivery destination from a delivery destination terminal.

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