JP2004005136A - Remote monitoring system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a system capable of always consecutively monitoring conditions of monitoring target equipment such as a reefer container, and executing central control. <P>SOLUTION: This system has: monitoring terminal devices 10 connected to the plurality of reefer containers A, detecting each operation state of the reefer containers A; Ethernets(R) 3; a monitoring server 30 collecting operation data of the reefer containers A from the monitoring terminal devices 10 via routers 20 and the Internet 4 to monitor the reefer containers A; and user personal computers 40 capable of communicating with the monitoring server 30 via the Internet 4. When abnormality is detected in the operation state of one of the reefer containers A, the monitoring server 30 transmits the abnormal detection data to a cellphone 50 of a user managing the reefer container A wherein the abnormality occurs. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a remote monitoring system that constantly monitors the operating state of a device to be monitored, such as a refrigeration container, and notifies a user who owns the device to be monitored when an abnormality occurs.
[0002]
[Prior art]
In transporting cargo by ship or the like, if the cargo is fresh food such as meat, agricultural products, marine products, or the like, a frozen container is used in order to prevent its decay or freshness. Such a refrigeration container is integrally provided with a refrigeration device that cools the inside of the refrigerator, and based on a detection signal from a temperature sensor that detects the temperature in the refrigerator, the temperature in the refrigerator is set at a predetermined low temperature. The operation of the refrigeration system is controlled so as to maintain the state. Further, if frost is generated in the evaporator in the refrigerant circuit of the refrigeration device, the cooling effect is impaired, so that the frost removing device is operated in a timely manner to melt the frost.
[0003]
Refrigerated containers containing fresh foods may be stored in container yards within the port for a relatively long period of time at the loading port due to waiting for ships, and at the loading / unloading port due to waiting for land transport flights. Therefore, even during storage in a container yard or the like, the inside of the frozen container must be maintained at a predetermined temperature. For this reason, in the container yard, a power supply facility is provided for each refrigeration container installation space so that power can be supplied to a refrigeration device of the refrigeration container. In addition, each refrigeration container is provided with a display unit for indicating the temperature inside the refrigerator, and the management staff can visually check the temperature inside the refrigerator of each refrigerator container while periodically patrol the inside of the container yard. It has become.
[0004]
[Problems to be solved by the invention]
Conventionally, however, monitoring of the operation status of refrigerated containers is usually carried out at the container yards and other places in various locations by managers in a timely manner, and there is a system that constantly monitors and centrally manages them. Did not. Therefore, when an abnormality occurs in a certain freezing container, the response is delayed, and there is a possibility that the inside fresh food or the like may be damaged.
[0005]
The present invention has been made in view of the above-described problems, and a technical problem thereof is that the status of a device to be monitored, such as a refrigeration container, is constantly monitored continuously, and abnormality is generated by centralized management. An object of the present invention is to provide a system capable of promptly responding to times.
[0006]
[Means for Solving the Problems]
As a means for effectively solving the above-mentioned technical problem, a remote monitoring system according to the invention of claim 1 is a monitoring terminal connected to a single or a plurality of monitored devices to detect an operation state of the monitored devices. A monitoring server that collects and monitors operation data of the monitored device from the monitoring terminal device via a communication network, and a user information terminal device capable of communicating with the monitoring server via the communication network. When an abnormality is detected in the operation state of the monitored device, the abnormality detection data is transmitted from the monitoring server to a communication terminal device of a user holding the monitored device in which the abnormality has occurred.
[0007]
A remote monitoring system according to a second aspect of the present invention is the remote monitoring system according to the first aspect, wherein the monitoring terminal device can be connected to a plurality of monitoring target devices, and the identification data unique to each of the connected monitoring target devices. , The connection port number of each monitored device, its own identification data, and the address data of the transmission destination can be set.
[0008]
The remote monitoring system according to a third aspect of the present invention is the remote monitoring system according to the first aspect, wherein the connection of the monitoring terminal device to the communication network is based on a non-fixed IP connection. The IP address and the identification data are actively notified to the monitoring server for connection.
[0009]
According to a fourth aspect of the present invention, in the remote monitoring system according to the first aspect, the operation data of the monitoring target device collected by the monitoring server is displayed on a Web screen of the information terminal device of the user. .
[0010]
A remote monitoring system according to a fifth aspect of the present invention is the remote monitoring system according to the first aspect, wherein the database of the monitoring server includes an address of a first candidate communication terminal device to which abnormality detection data is to be transmitted and another communication terminal. If the device address is registered and the first candidate communication terminal device cannot communicate, the abnormality detection data is transmitted to another communication terminal device.
[0011]
In the remote monitoring system according to a sixth aspect of the present invention, in the system according to the first aspect, the monitoring target device is a refrigeration container, and the monitoring terminal device sets a drive signal of the refrigeration device and the defrosting device in the monitoring target device, The state of the refrigeration container is detected by an appropriate temperature signal output when the deviation between the temperature and the internal temperature detected by the temperature sensor is an allowable value.
[0012]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a preferred embodiment in which a remote monitoring system according to the present invention is applied to monitoring of a refrigeration container will be described with reference to the drawings. FIG. 1 is an explanatory diagram schematically showing the configuration of the remote monitoring system according to the present embodiment.
[0013]
In FIG. 1, reference numerals 1, 2,... Indicate container yards located all over the country or all over the world. In the container yard 1, a number of refrigeration containers A (A ₁ , A ₂ , ...) are stored, and a large number of frozen containers A (A _{n + 1} , A _{n + 2} , ...) are stored. Each of these freezing containers A has a built-in freezing device and defrosting device, and is operated by being connected to a power supply provided in each container yard.
[0014]
The temperature inside the refrigerator of each refrigeration container A is constantly detected by a temperature sensor, and the driving of the refrigeration apparatus and the defrosting apparatus is performed based on the detection value from the temperature sensor so that the temperature becomes a preset temperature. Is controlled by the control device. The drive / stop signals of the refrigerating device and the defrosting device are output from the control device, and when the deviation between the in-chamber temperature detected by the temperature sensor and the set temperature is within an allowable range, the control device outputs an appropriate temperature. Signals are output, and these signals can be output to the outside via the connector.
[0015]
In FIG. 1, reference numeral 10 (10a, 10b, 10c, 10d,...) Denotes a monitoring terminal device, and as will be described later, a monitoring data input port 101 of six channels. ₁ ~ 101 ₆ (See FIG. 2). Each monitoring data input port of the monitoring terminal device 10a is connected to the refrigeration container A in the container yard 1. ₁ , A ₂ , ... A ₆ The monitoring data input port of the monitoring terminal device 10b is connected to the refrigeration container A in the container yard 2. _{n + 1} , A _{n + 2} , ... A _{n + 6} , And similarly, each monitoring data input port of the monitoring terminal device 10c is connected to the refrigeration container A in the container yard 2. _{n + 7} , A _{n + 8} , ... A _{n + 12} The monitoring data input port of the monitoring terminal device 10d is connected to the refrigeration container A in the container yard 2. _{n + 13} , A _{n + 14} , ... A _{n + 18} (Not shown).
[0016]
Reference numeral 20 (20 _A , 20 _B , ...) are routers, of which router 20 _A Is Ethernet (registered trademark) 3 _A Is connected to the monitoring terminal device 10a in the container yard 1 through the _B Ethernet (registered trademark) 3 is connected to each monitoring terminal device 10b to 10d in the container yard 2. _B Via a provider (not shown), and is connected to the Internet 4 such as a wide area communication network such as a WAN (Wide Area Network).
[0017]
Reference numeral 5 denotes a monitoring center that operates the present system, and 30 denotes a monitoring server installed in the monitoring center 5, and the monitoring server 30 is connected to the Internet 4 via a provider (not shown). That is, the monitoring terminal device 10 can communicate with the monitoring server 30 via the Ethernet (registered trademark) 3, the router 20, and the Internet 4.
[0018]
Reference numeral 40 denotes a personal computer (hereinafter, referred to as a user personal computer) owned by the user. Of these, user PC 40 _A Is a frozen container A (A ₁ , A ₂ ,...) Are owned by the user who manages the _B Is a frozen container A (A _{n + 1} , A _{n + 2} ,...). Reference numeral 50 denotes a mobile phone owned by the user's management staff. _A Is a frozen container A (A ₁ , A ₂ ,...) Are possessed by the person in charge of _B Is a frozen container A (A _{n + 1} , A _{n + 2} ,...). The user personal computer 40 and the mobile phone 50 are connected to the Internet 4 via respective providers (not shown).
[0019]
A user of the system can communicate with the monitoring server 30 via the provider and the Internet 4 from the user personal computer 40. In this case, communication with the monitoring server 30 is performed by HTTP using TCP / IP, which is a standard protocol on the Internet 4, and accesses the monitoring server 30 using the URL of the monitoring server 30, a user ID and a password, and the like. By being authenticated, text data and graphic data can be obtained and displayed on the display of the user personal computer 40.
[0020]
FIG. 2 is an explanatory diagram showing the internal structure of the monitoring terminal device 10, and FIG. 3 is an external view of the same. First, as shown in FIG. 2, the monitoring terminal device 10 has a monitoring data input port 101 of six channels. ₁ ~ 101 ₆ , An FPGA (Field Programmable Gate Array) 102, a CPU (Central Processing Unit) 103 connected to the FPGA 102, a ROM (Read Only Memory) 104, a RAM (Random Access Memory) 105, and an Ethernet (registered trademark) interface 106. And a power supply circuit 107. Monitoring data input port 101 ₁ ~ 101 ₆ Have input / output circuits for one channel each with an isolation function. Further, it is possible to connect to a serial communication type refrigeration container by changing a control program (firmware) built in the ROM 104 or a channel board.
[0021]
As shown in FIG. 3, each monitoring data input port 101 is provided on a casing 100 of the monitoring terminal device 10. ₁ ~ 101 ₆ And the monitor lamp 108 composed of an LED. ₁ ~ 108 ₆ And the alarm lamp 109 ₁ ~ 109 ₆ And each monitoring data input port 101 ₁ ~ 101 ₆ Container monitoring switch 110 that opens and closes ₁ ~ 110 ₆ Is provided. Further, reference numeral 111 denotes a two-digit device number display unit using a 7-segment LED, 112 denotes a power switch, 113 denotes an Ethernet (registered trademark) cable connected to the Ethernet (registered trademark) interface 106 shown in FIG. Mode switch. Monitoring data from the monitoring terminal device 10 is transmitted through the Ethernet (registered trademark) interface 106.
[0022]
Monitor lamp 108 shown in FIG. ₁ ~ 108 ₆ And alarm lamp 109 ₁ ~ 109 ₆ Represents each monitoring data input port 101 ₁ ~ 101 ₆ Is controlled via the CPU 103 and the FPGA 102 shown in FIG. 2 based on the drive / stop signal and the appropriate temperature signal of the refrigerating device and the defrosting device of each refrigerating container inputted via the Thus, the operating state of each connected refrigeration container A is visually notified.
[0023]
The mode changeover switch 114 shown in FIG. 3 selects the processing mode of the monitoring terminal device 10 from one of a normal monitoring mode, an initial setting mode, and a service mode. Is selected, the monitoring data input port 101 ₁ ~ 101 ₆ Normal monitoring is performed based on a drive / stop signal of each refrigeration container, an appropriate temperature signal, and the like, which are input via the CPU. When the initial setting mode or the service mode is selected by the mode switch 114, parameters such as its own IP address, unique identification data, a destination IP address of monitoring data, and a unique port number of http are set. Can be set from a personal computer via a Web browser.
[0024]
Specifically, when the initial setting mode is selected by the mode switch 114, a private IP address, a netmask, a gateway address, and unique identification data that are valid only within the own Ethernet (registered trademark) 3 can be set. it can. The own unique identification data is a name used when notifying the monitoring data to the monitoring server 30, and can be set (changed) by an ASCII code composed of an 8-digit character string. Note that these initial settings are performed only in the connection state between the monitoring terminal device 10 and the personal computer before connecting to the Internet 4.
[0025]
When the service mode is selected by the mode change switch 114 in the connection state to the Internet 4, the transmission destination IP address of the monitoring data (the first designated IP address and the second designated IP address) and the decimal http You can set your own port number. The switching to the normal monitoring mode by the mode changeover switch 114 needs to be performed after setting the transmission destination IP address and the port number. The setting of the destination IP address and the port number can also be performed before connection to the Internet 4.
[0026]
The router 20 shown in FIG. 1 relays the Ethernet (registered trademark) 3 and the Internet 4, and reliably sends monitoring data from the monitoring terminal device 10 to a specified IP address of the monitoring server 30. Alternatively, data transmitted from the monitoring server 30 via the Internet 4 is reliably delivered to the designated monitoring terminal device 10. Accordingly, in order to make the port number set by the monitoring terminal device 10 effective, as shown in FIG. Are set so that the IP addresses of the monitoring terminal devices 10a, 10b,. The IP address illustrated in FIG. 4 is a private IP address used only in the Ethernet (registered trademark) 3.
[0027]
The monitoring server 30 is an information processing device using a computer, includes a database in which monitoring conditions are set for each user, and sends monitoring data reception requests to the monitoring terminal devices 10 to transmit monitoring data via the Internet 4. The data is fetched and systematically stored in a database, and data is taken out or updated according to a request from a user. Further, when an ID is issued to the user and there is access from the user personal computer 40, after performing authentication based on the user ID and the password, required data is transmitted as image data in response to the user's request. It has a function and a mail transmission function of notifying the user's mobile phone 50 of an e-mail according to the monitoring conditions set by the database (a monitoring RDB 34 described below) when data on occurrence of an abnormality is received from the monitoring terminal device 10.
[0028]
Here, the remote monitoring system of the present embodiment configured as described above uses an ADSL (Asymmetric Digital Subscriber Line), which is a high-speed data communication using NTT, without using a dedicated line, and a flat-rate call charge for Internet connection provided by NTT. The service is characterized by simple connection methods such as FLET'S (trademark) ISDN service and AirH "(trademark), which is a flat-rate data communication service provided by DDI Pocket Co., Ltd., which enables constant monitoring at low communication cost. .
[0029]
In the conventional connection method, it is necessary to set the IP address fixedly and independently for each device. Essentially, the necessary requirements for the system are limited and fixed. Since an address is required, a system equivalent to the present system is realized with a fixed IP address, and in order to maintain the system, it is inevitable that the system becomes extremely expensive.
[0030]
On the other hand, in the simple connection method such as ADSL, FLET'S ISDN, and AirH "described above, the IP address generally changes for each connection (non-fixed IP connection). The terminal device 10 notifies its own current IP address to the monitoring server 30 by a unique device name (device number) reporting procedure (device name notification by UDP). The monitoring server 30 can access the specific monitoring terminal device 10 and constantly monitor the state of the refrigeration container.
[0031]
Further, in the case of the non-fixed IP connection, only one IP address is assigned, so that only one terminal can be connected in one connection. However, the monitoring terminal device 10 in the present system uses its own port via the router 20. When the monitoring terminal 10 notifies its own current IP address in the above-described procedure, it also notifies the monitoring server 30 of this unique port number. By connecting the 10 to the Internet 4, they can be monitored independently by the monitoring server 30. That is, the monitoring server 30 detects the monitoring terminal device 10 installed at an arbitrary point on the Internet, and can dynamically add / delete a monitoring target.
[0032]
These features are realized by the function in which the monitoring terminal device 10 notifies the monitoring server 30 of its own device name, IP address, and port number by UDP.
[0033]
FIG. 5 is an explanatory diagram showing a data flow in the present system. That is, as shown in FIG. 5, when the monitoring terminal device 10 is turned on by the power switch 112 and becomes communicable in the normal mode, the 8-digit character string of UDP of port number 50000 (decimal number) The unique identification data of the monitoring terminal device 10 using the ASCII (trademark) code and the connection notification data using the port number are transmitted to the first designated IP address of the monitoring server 30 set in the initial setting mode via the router 20, for example. Transmit at 15 second intervals. Then, for example, even if the ASCII code and the port number are transmitted 20 times, if there is no monitoring data reception request by HTTP from the IP, the transmission is performed to the second designated IP address and the monitoring data reception request is waited. Then, if there is no monitoring data reception request even after transmitting 20 times, the transmission destination is switched to the first designated IP address again. In this way, the connection notification data based on the ASCII code and the port number is continuously transmitted until there is a reception request from either the first or second designated IP address.
[0034]
Also, when there is a request to receive monitoring data via http from either the first or second designated IP address, the CPU 103 of the monitoring terminal device 10 determines that a communication path has been established, and transmits the transmission frequency at one minute intervals, for example. Then, monitoring data based on the input signal from each refrigeration container A is transmitted. The monitoring data from the monitoring terminal device 10 (10a, 10b,...) Is transmitted to the designated IP address of the monitoring server 30 by using the UDP / IP protocol.
[0035]
The user can confirm the state of the frozen container owned by the user by inputting a unique ID and password on a predetermined Web screen from the user personal computer 40 and receiving authentication.
[0036]
FIG. 6 is an explanatory diagram showing processing blocks by the monitoring server 30. That is, as shown in FIG. 6, the monitoring server 30 includes a monitoring terminal device communication control unit 31, a takeover file 32, a monitoring control unit 33, a monitoring RDB 34, and a Web screen correspondence control unit 35. .
[0037]
The processing in the monitoring terminal device communication control unit 31 includes a UDP process and a TCP process. More specifically, the UDP processing is based on the connection notification data received from the monitoring terminal device 10, and includes data such as a reception time, an IP address of the monitoring terminal device 10, an ID of the monitoring terminal device 10, and a port number set in the monitoring terminal device 10. Is written to the takeover file 32. In the TCP processing, the switch information from the monitoring control unit 33 and the device number of the monitoring terminal device 10 (the number displayed on the device number display unit 111) are edited, and a monitoring data reception request is issued to the monitoring terminal device 10. Then, the response information from the monitoring terminal device 10 is written in the takeover file 32.
[0038]
The monitoring control unit 33 monitors the communication status with the monitoring terminal device 10 and the status of each refrigeration container connected to the monitoring terminal device 10 based on the data of the monitoring terminal device communication control unit 31 and the monitoring RDB 34.
[0039]
The monitoring of the communication state with the monitoring terminal device 10 is performed by the container monitoring switch 110 in the monitoring terminal device 10. ₁ ~ 110 ₆ When at least one of them is ON, that is, in the monitoring state, the elapsed time during which monitoring data cannot be obtained from the monitoring terminal device 10 is monitored. When the time during which monitoring data cannot be acquired has reached a predetermined time, an email notification is sent to the mobile phone 50 of the administrator of the monitoring terminal device 10 in question.
[0040]
Monitoring of the state of each refrigeration container connected to the monitoring terminal device 10 is performed by the monitoring data input port 101 of the monitoring terminal device 10 in the monitoring RDB 34. ₁ ~ 101 ₆ Monitoring is performed based on the data during the appropriate temperature, during defrosting, and during freezing.
[0041]
Here, abnormalities of the refrigeration container include a power-off abnormality, an abnormal temperature abnormality, and a defrosting abnormality. Among them, the power-off abnormality is an abnormality of the power supply to the refrigeration container. Therefore, when the appropriate temperature signal or the drive signal of the refrigeration apparatus and the defrosting apparatus is OFF for a predetermined time, the power-off abnormality is continued. Is determined to be a power-off abnormality. In addition, the out-of-optimum temperature abnormality is an abnormality in which the temperature inside the refrigerator of the refrigeration container is out of an allowable range with respect to the set temperature. Therefore, when the appropriate temperature signal is kept OFF for a predetermined period of time, It is determined that the temperature is outside the appropriate temperature range. Further, the defrosting abnormality is determined to be a defrosting abnormality when the ON state of the drive signal of the defrosting device continues for a predetermined time set in advance.
[0042]
When an abnormality such as the power-off abnormality, the out-of-temperature abnormality, or the defrosting abnormality described above occurs in any one of the large number of refrigeration containers A to be monitored, the person in charge of management of the user who holds the corresponding refrigeration container The user makes a call to the mobile phone 50 of the mobile phone user owned by the user, and sends a mail specifying the type of abnormality that has occurred and the corresponding frozen container. Therefore, the management person can immediately go to the refrigerated container in which the abnormality has occurred and respond quickly.
[0043]
By the way, when the power of the mobile phone 50 of the call destination is turned off, the manager in possession of the mobile phone 50 is in an area where radio waves cannot reach, or for some other reason, an e-mail notification when an abnormality occurs is immediately sent. It can be assumed that it is not performed. In such a case, an e-mail notification is sent to an emergency contact registered in a customer DB (not shown) after a predetermined time (for example, about 40 minutes) has elapsed after the call was made.
[0044]
The Web screen correspondence control unit 35 has a function of displaying, updating, and deleting the description contents of the monitoring RDB 34 when requested by the user personal computer 40 or the like via a Web browser. 7 to 9 are flowcharts showing the flow of image display by the Web screen correspondence control unit 35, and FIGS. 10 to 18 are explanatory diagrams each showing a display example of a screen. In the screens shown in FIGS. 10 to 18, "BOX" or "connection BOX" refers to the monitoring terminal device 10, and "connection port" refers to the monitoring data input port 101 shown in FIG. ₁ ~ 101 ₆ That is.
[0045]
First, in FIG. 7, the user inputs a user ID and a password on a predetermined screen and is authenticated, so that an "administrator menu" or a "customer menu" can be selected (step S101). When the "administrator menu" is selected, an "administrator menu" screen is displayed (step S102). As shown in FIG. 10, the “administrator menu” screen includes “monitoring status”, “abnormal status”, “log display”, “operation information”, “deletion”, “consistency check between BOX information and customer information”, and the like. A selection menu is displayed.
[0046]
When "monitoring status" is selected on the "administrator menu" screen shown in FIG. 10, first, a "monitoring status" screen is displayed (step S103). A "list display" screen (step S104) and a "connection BOX status display" screen (step S105) can be opened. On the “monitoring status list display” screen, as shown in FIG. 11, a list of normal / abnormal states of each refrigeration container connected to the connection port of each monitoring terminal device 10 is displayed. On the “connection BOX status display” screen, As shown in FIG. 12, for each monitoring terminal device, in addition to the installation location, the notification interval at the time of occurrence of abnormality, the name of the person in charge, etc., the operation status of each refrigeration container connected to this monitoring terminal device is displayed in a list. .
[0047]
When "abnormal situation" is selected on the "administrator menu" screen shown in FIG. 10, an "abnormal situation list" screen is opened (step S106). If any of the refrigeration containers is confirmed to be normal, the "Abnormal status list" screen will display "No unconfirmed abnormalities". The terminal device ID, the content of the abnormality, the mail notification time, the mail notification destination, the confirmation button, and the like are displayed. After pressing the confirmation button, it will not be displayed next time.
[0048]
When "log display" is selected on the "administrator menu" screen shown in FIG. 10, a "log display" screen is opened (step S107). On this "log display" screen, by inputting a user ID and a desired monitoring terminal device ID, a reception history of monitoring data from each refrigeration container in the monitoring terminal device is displayed. Screen (step S108), an "abnormal log display" screen (step S109) in which the reception history of abnormal data is displayed, or an "update log display" screen (step S110) for updating the log relating to the monitoring terminal device. Can be.
[0049]
When "operation information" is selected on the "administrator menu" screen shown in FIG. 10, the "operation information menu" screen is opened (step S111). On the “operation information menu” screen, as shown in FIG. 13, “display”, “change”, and “registration” of data relating to the user, “display”, “change”, “registration” of data relating to the monitoring terminal device, and monitoring condition data Selection menus such as "display" and "registration / change", and "display" and "registration / change" of system-related data.
[0050]
When “Registration” of user data is selected on the “Operation information menu” screen shown in FIG. 13, a “<Registration> customer information” screen is opened (step S112). On the “<Registration> Customer Information” screen, as shown in FIG. 14, the user's name, address, emergency contact information when e-mail notification is not possible when abnormality occurs, power-off abnormality, out-of-temperature abnormality, defrosting abnormality There are provided input fields such as a set time serving as a criterion for determination, an alarm interval when an abnormality occurs, a user's password, and the like. The data of each item is entered, and these data are registered by clicking a register button. be able to.
[0051]
When "change" of user data is selected on the "operation information menu" screen shown in FIG. 13, first, a "customer list" screen is opened (step S113), and registered users of the system displayed here are displayed. By selecting an arbitrary user from the list, a "<change> customer information" screen (step S114) is opened. The screen configuration of this “<change> customer information” is the same as the registration screen shown in FIG. 14, and includes the name and address of the user, the emergency contact information when an email notification cannot be made when an abnormality occurs, and an abnormality determination. The registered data, such as the set time, the alarm interval at the time of occurrence of an abnormality, and the password of the user, can be arbitrarily changed.
[0052]
When "display" of the user data is selected on the "operation information menu" screen shown in FIG. 13, first, a "customer list" screen is opened (step S115), and the registered user of the system displayed here is displayed. By selecting an arbitrary user from the list, a "<change> customer information" screen (step S116) is opened. In this “<display> customer information” screen, the name, address, and abnormality of the user registered in the above “<registration> customer information” screen or changed and registered in the above “<change> customer information” screen Emergency contact information when e-mail notification is not possible at the time of occurrence, set time as a criterion for determination of power off abnormality, abnormal temperature out of normal temperature, defrosting abnormality, etc., alarm interval when abnormality occurs, user password, issued at registration A list of user IDs and the like is displayed.
[0053]
When "registration" of data relating to the monitoring terminal device is selected on the "operation information menu" screen shown in FIG. 13, first, a "customer list" screen is opened (step S117), and the system displayed here is displayed. By selecting an arbitrary user from the registered user list, a “<Registration> Connection Box Information” screen is opened (step S118). On the “<Registration> Connection Box Information” screen, as shown in FIG. 15, the ID of the monitoring terminal device used by the user, the number of connection channels, the device number, the installation location, the notification interval when an abnormality occurs, the installation interval, An input field such as a person in charge of management at the place (e-mail notification destination at the time of occurrence of an abnormality) is provided. These data can be registered by inputting data of each item and clicking a registration button.
[0054]
When "change" of the data relating to the monitoring terminal device is selected on the "operation information menu" screen shown in FIG. 13, first, the "connection BOX list" screen is opened (step S119), and the list is displayed here. By selecting an arbitrary monitoring terminal device from the monitoring terminal device list, a "<change> connection BOX information" screen is opened (step S120). The screen configuration of this “<registration> connection BOX information” is the same as the registration screen shown in FIG. 15, and includes the number of connection channels, the device number, the installation location, and the occurrence of an abnormality when the user uses the monitoring terminal device. Registered data such as a report interval and a person in charge of management at the installation location (e-mail notification destination when an abnormality occurs) can be arbitrarily changed.
[0055]
When "display" of the data relating to the monitoring terminal device is selected on the "operation information menu" screen shown in FIG. 13, first, the "connection BOX list" screen is opened (step S121), and the list is displayed here. By selecting an arbitrary monitoring terminal device from the monitoring terminal device list, a "<display> connection BOX information" screen is opened (step S122). On this “<display> connection BOX information” screen, the user registered on the above-mentioned “<registration> connection BOX information” screen or changed and registered on the above-mentioned “<change> connection BOX information” screen is used. Registered data such as the ID of the monitoring terminal, the number of connected channels, the device number, the installation location, the alarm interval at the time of occurrence of an error, the administrator at the installation location (email notification destination at the time of the error), and the user ID Is displayed in a list.
[0056]
When "registration / change" of the monitoring condition data is selected on the "operation information menu" screen shown in FIG. 13, first, the "connection BOX list" screen is opened (step S123), and the list is displayed here. By selecting an arbitrary monitoring terminal device from the monitoring terminal device list, a "<Registration / change> connection BOX monitoring condition" screen is opened (step S124). On the “<Registration / Change> Connection Box Monitoring Condition” screen, as shown in FIG. 16, the specified value of the monitoring condition by the monitoring terminal device used by the user (in the illustrated example, “power failure: 3 minutes Abnormality: 60 minutes Defrosting abnormality: 90 minutes "), and an input field for monitoring conditions is provided for each connection channel of the refrigeration container. That is, the data of the monitoring condition defined in advance can be arbitrarily registered or changed for each connection channel by inputting these input fields and clicking the registration button.
[0057]
When "display" of the monitoring condition data is selected on the "operation information menu" screen shown in FIG. 13, first, a "connection box list" screen is opened (step S125), and the monitoring terminals listed here are displayed. By selecting an arbitrary monitoring terminal device from the device list, a "<display> connection BOX monitoring condition" screen is opened (step S126). On the “<display> connection box monitoring condition” screen, the definition data of the monitoring condition in each connection channel of the monitoring terminal device used by the user or the monitoring condition by the above “<registration / change> connection box monitoring condition” screen Is displayed in a list.
[0058]
When "registration / change" of data related to the system is selected on the "operation information menu" screen shown in FIG. 13, a "system information <registration / change>" screen is opened (step S127). On the “system information <register / change>” screen, the name of the mail server used by the present system, the e-mail address of the operation manager, and the like can be registered or changed.
[0059]
When "display" of data relating to the system is selected on the "operation information menu" screen shown in FIG. 13, a "system information <display>" screen is opened (step S128). On the “system information <display>” screen, the name of the mail server registered or changed on the above “system information <registration / change>” screen, the e-mail address of the operation manager, and the like are displayed.
[0060]
When "delete" is selected on the "administrator menu" screen shown in FIG. 10, a "delete selection" screen is opened (step S129). As shown in FIG. 17, the “deletion selection” screen is provided with a user ID deletion button, an ID deletion button of the monitoring terminal device used by the user, an input field for specifying a log deletion date and a log deletion button. I have. That is, the user ID, the ID of the monitoring terminal device, the past log, and the like can be arbitrarily deleted.
[0061]
Further, when "Check consistency between BOX information and customer information" is selected on the "Administrator menu" screen shown in FIG. 10, a "Check consistency between BOX information and customer information" screen is opened. (Step S130). If the user ID, the ID of the monitoring terminal device, and the ID of the monitoring terminal device registered in the database do not match, this screen is displayed to that effect.
[0062]
In the case where "customer menu" is selected in step S described above, a "customer menu" screen is opened (step S131). As shown in FIG. 18, on the “customer menu” screen, selection menus such as “monitoring status”, “abnormal status”, “connection box display”, “connection box change”, “monitoring condition display”, and “monitoring condition change” are displayed. Is done.
[0063]
When "monitoring status" is selected on the "customer menu" screen shown in FIG. 18, the "monitoring status list display" screen (step S132) and the "connection BOX status display" screen (step S133) are opened. Can be. The “monitoring status list display” screen is the same as in FIG. 11 described above, and the “connected BOX status display” screen is the same as in FIG. 12 described above.
[0064]
When "abnormal situation" is selected on the "customer menu" screen shown in FIG. 18, an "abnormal situation list" screen is opened (step S134). The “abnormal situation list” screen is the same as that opened from the “administrator menu” screen of FIG. 10 described above, that is, if an abnormality has occurred in any of the refrigeration containers, the abnormality occurrence time, The monitoring terminal device ID, the content of the abnormality, the mail notification time, the mail notification destination, the confirmation button, and the like are displayed. If you press the confirmation button, it will not be displayed next time.
[0065]
When "change connection box" is selected on the "customer menu" screen shown in FIG. 18, first, a "connection box list" screen is opened (step S135), and the list of the monitoring terminal devices displayed here is displayed. By selecting an arbitrary monitoring terminal device from the list, a "<change> connection BOX information" screen is opened (step S136). The “<change> connection BOX information” screen is the same as that described above, that is, the number of connection channels of the monitoring terminal device used by the user, the device number, the installation location, the notification interval when an abnormality occurs, Registered data, such as the person in charge of management at the installation location (e-mail notification destination when an error occurs), can be arbitrarily changed.
[0066]
When "connection box display" is selected on the "customer menu" screen shown in FIG. 18, first, a "connection box list" screen is opened (step S137), and the list of the monitoring terminal devices displayed here is displayed. By selecting an arbitrary monitoring terminal device from the list, a “<display> connection BOX information” screen is opened (step S138). This “<display> connection BOX information” screen is the same as that described above, that is, registered on the “<registration> connection BOX information” screen in FIG. 15 or on the “<change> connection BOX information” screen. The ID of the monitoring terminal device used by the user, the number of connected channels, the device number, the installation location, the alarm interval at the time of occurrence of an error, the person in charge of management at the installation location (the mail notification destination at the time of the error) And registered data such as a user ID are displayed.
[0067]
When "change monitoring conditions" is selected on the "customer menu" screen shown in FIG. 18, first, a "connection BOX list" screen is opened (step S139), and a single or a plurality of the list displayed here are displayed. By selecting an arbitrary monitoring terminal device from among the monitoring terminal devices, a “<Registration / change> connection BOX monitoring condition” screen is opened (step S140). This “<registration / change> connection BOX monitoring condition” screen is the same as that opened from the “operation information menu” screen of FIG. 13 described above, that is, the data of the monitoring condition defined in advance is It is possible to arbitrarily register or change each connection channel by inputting into an input field provided on the screen and clicking a registration button.
[0068]
When "monitoring condition display" is selected on the "customer menu" screen shown in FIG. 18, first, a "connection BOX list" screen is opened (step S141), and a single or a plurality of the list boxes displayed here are displayed. By selecting an arbitrary monitoring terminal device from among the monitoring terminal devices, the "<display> connection BOX monitoring condition" screen is opened (step S142). This “<display> connection BOX monitoring condition” screen is the same as that opened from the “operation information menu” screen of FIG. 13 described above, that is, in each connection channel of the monitoring terminal device used by the user. A list of the specified data of the monitoring conditions and the changed data of the monitoring conditions on the “<Registration / Change> Connection Box Monitoring Conditions” screen are displayed.
[0069]
In the above-described embodiment, a case has been described where the frozen container 10 stored in the container yard is to be monitored. However, the present invention is not limited to remote monitoring of the frozen container. The present invention can also be applied to a case where other monitoring target devices such as facilities are remotely monitored.
[0070]
【The invention's effect】
According to the remote monitoring system according to the first aspect of the present invention, a large number of devices to be monitored can always be remotely monitored and centrally monitored via the monitoring terminal device and the communication network. Is immediately notified to the user's communication terminal device, so that it is not necessary to perform monitoring by patrol. Therefore, the labor of the manager can be significantly reduced, labor can be saved, and prompt response can be made when an abnormality occurs, and the reliability of management can be significantly improved.
[0071]
According to the remote monitoring system according to the second aspect of the present invention, since the monitoring terminal device can be connected to a plurality of monitoring target devices, a large number of monitoring target devices can be remotely monitored at low communication cost.
[0072]
According to the remote monitoring system according to the third aspect of the present invention, the connection of the monitoring terminal device to the communication network is based on a non-fixed IP connection, and the monitoring terminal device transmits its own current IP address to the UDP / IP protocol. Therefore, a large number of devices to be monitored can be remotely monitored with low communication cost.
[0073]
According to the remote monitoring system according to the fourth aspect of the present invention, the user can obtain operation data and abnormal data of the monitored device collected by the monitoring server on the Web screen at any time.
[0074]
According to the remote monitoring system according to the fifth aspect of the present invention, even when a specific communication terminal device cannot communicate with the user when an abnormality occurs in the device to be monitored, the abnormality detection data is stored in another communication terminal device of the user. Transmitted to the user, it is possible to reliably report the occurrence of an abnormality.
[0075]
According to the remote monitoring system according to the sixth aspect of the present invention, the presence or absence of a power-off abnormality of the refrigeration container, an abnormality of the inside temperature of the refrigerator outside the proper temperature, and a defrosting abnormality are constantly monitored and centrally controlled, so that it is not necessary to monitor by patrol. When an abnormality occurs in the frozen container, the notification is immediately sent to the user's communication terminal device, so that a quick response can be taken so that fresh foods and the like in the refrigerator are not damaged.
[Brief description of the drawings]
FIG. 1 is an explanatory view schematically showing a preferred embodiment in which a remote monitoring system according to the present invention is applied to monitoring of a refrigeration container.
FIG. 2 is an explanatory diagram showing the internal structure of the monitoring terminal device 10 in FIG.
FIG. 3 is an external view of the monitoring terminal device 10 in FIG.
FIG. 4 is an explanatory diagram showing an example of setting parameters of the monitoring terminal device 10 and the router 20 in FIG.
FIG. 5 is an explanatory diagram showing a data flow in the mode shown in FIG. 1;
FIG. 6 is an explanatory diagram showing a processing block by a monitoring server 30 in FIG. 1;
FIG. 7 is a flowchart showing a flow of image display by a Web screen corresponding control unit 35 in FIG. 6;
8 is a flowchart showing a flow of image display by a Web screen corresponding control unit 35 in FIG. 6;
FIG. 9 is a flowchart showing a flow of image display by a Web screen corresponding control unit 35 in FIG. 6;
FIG. 10 is an explanatory diagram showing a display example of an “administrator menu” screen.
FIG. 11 is an explanatory diagram showing a display example of a “monitoring status list display” screen.
FIG. 12 is an explanatory diagram showing a display example of a “connection box status display” screen.
FIG. 13 is an explanatory diagram illustrating a display example of an “operation information menu” screen.
FIG. 14 is an explanatory diagram showing a display example of a “<registration> customer information” screen.
FIG. 15 is an explanatory diagram showing a display example of a “<registration> connection box information” screen.
FIG. 16 is an explanatory diagram showing a display example of a “<register / change> connection BOX monitoring condition” screen.
FIG. 17 is an explanatory diagram illustrating a display example of a “deletion selection” screen.
FIG. 18 is an explanatory diagram illustrating a display example of a “customer menu” screen.
[Explanation of symbols]
1,2 container yard
3 Ethernet (registered trademark)
4 Internet
5 Monitoring center
A refrigeration container
10 monitoring terminal equipment
101 ₁ ~ 101 ₆ Monitoring data input port
20 router
30 monitoring server
40 User PC
50 Mobile phone (communication terminal device)

Claims (6)

A monitoring terminal device connected to one or more monitored devices to detect an operation state of the monitored device, and a monitoring server that collects and monitors operating data of the monitored device from the monitored terminal device via a communication network And an information terminal device of a user that can communicate with the monitoring server via the communication network, and when an abnormality is detected in the operation state of the monitored device, the monitoring server A remote monitoring system for transmitting to a communication terminal device of a user holding a monitored device in which an abnormality has occurred. The monitoring terminal device can be connected to a plurality of monitored devices, and the unique identification data of each connected monitored device, the connection port number of each monitored device, its own identification data, and the transmission destination The remote monitoring system according to claim 1, wherein address data can be set. The connection of the monitoring terminal device to the communication network is based on a non-fixed IP connection, and the monitoring terminal device actively notifies its own current IP address and identification data to the monitoring server for connection. The remote monitoring system according to claim 1, wherein The remote monitoring system according to claim 1, wherein the operation data of the monitoring target device collected by the monitoring server can be displayed on a Web screen of the information terminal device of the user. In the database of the monitoring server, the address of the first candidate communication terminal device to which the abnormality detection data is to be transmitted and the address of another communication terminal device are registered, and the first candidate communication terminal device cannot communicate. 2. The remote monitoring system according to claim 1, wherein in some cases, the abnormality detection data is transmitted to another communication terminal device. When the monitoring target device is a refrigeration container, and the monitoring terminal device determines that the deviation between the drive signal of the refrigeration device and the defrosting device in the monitoring target device and the deviation between the set temperature and the internal temperature detected by the temperature sensor is an allowable value. 2. The remote monitoring system according to claim 1, wherein the state of the refrigeration container is detected based on the output appropriate temperature signal.

Images