JP2002042283A - Monitoring system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a monitoring system capable of monitoring an operating state of a machine. SOLUTION: This monitoring system comprises a control device 4 adapted to acquire state data indicating the operating state of the machine 3, a monitoring server 1 and an information terminal 2 capable of receiving/sending the data from/to the control device 4 and the monitoring server 1. The monitoring server 1 acquires the state data from the control device 4 via the information terminal 2.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a monitoring system, and more particularly, to a monitoring system capable of monitoring an operation state of a machine.

[0002]

2. Description of the Related Art Machines and equipment are widely used. It is desirable that the operation state of such mechanical equipment is periodically monitored to confirm the operation state. A conventional monitoring method for machinery and equipment is described below. First, the inspector of the mechanical equipment goes to the location where the mechanical equipment is arranged, and acquires a plurality of measurement values necessary for inspecting the mechanical equipment. Next, the plurality of measurement values obtained by the inspector are input to the monitoring device. The observer of the machinery and equipment
By using a display device provided in the monitoring device to display the obtained plurality of measured values, or by comparing those measured values with previously measured values, the operating state of the mechanical device You can know.

In the above-described monitoring method for mechanical equipment, when the mechanical equipment is located far from the monitoring apparatus, it is difficult for a person monitoring the mechanical equipment to know the operating state of the mechanical equipment in real time. Was.

Further, another method of monitoring a machine and equipment which has been conventionally performed will be described below. A dedicated line is provided between the mechanical equipment and the monitoring device. The monitoring device receives the status data indicating the operation status of the mechanical equipment using the dedicated line. The monitoring device stores the notified status data. For this reason, the observer of the mechanical equipment can know the operating state of the mechanical equipment by displaying the stored state data using the display device provided in the monitoring apparatus.

In another embodiment of the above-described method of monitoring the machinery and equipment, even if the machinery is located far from the monitoring device, a supervisor of the machinery and equipment monitors the operating state of the machinery in real time. It is possible to know. Instead, the cost of laying and maintaining the dedicated line is incurred.

[0006]

SUMMARY OF THE INVENTION An object of the present invention is to provide a monitoring system capable of remotely monitoring mechanical equipment.

Another object of the present invention is to provide a monitoring system capable of remotely monitoring mechanical equipment at low cost.

[0008]

Means for solving the problem are described as follows. The technical matters corresponding to the claims in the expression are appended with numbers, symbols, etc. in parentheses (). The numbers, symbols, etc. clarify the correspondence / correspondence between the technical matters corresponding to the claims and at least one of the plural / forms of implementation.
It is not intended to show that the technical matters corresponding to the claims are limited to the technical matters of the embodiment.

In order to solve the above-mentioned problems, according to the present invention, a control device (4) for acquiring state data indicating an operation state of a mechanical device (3), a monitoring server (1), and the control device (4) 4) and an information communication terminal (2) capable of transmitting and receiving data to and from the monitoring server (1). The monitoring server (1) is connected to the control device (4) via the information communication terminal (2). ) To provide a monitoring system for acquiring the status data from the monitoring system.

In the above monitoring system, the control device (4) transmits the status data to the information communication terminal (2) using the communication means (41) corresponding to the short-distance data communication standard, and The communication terminal (2) connects to the network (X) connected to the monitoring server (1),
The transmitted status data can be transmitted to the monitoring server (1) via the connected network (X).

In the above monitoring system, the monitoring server (1) creates operation change data for changing the operation of the mechanical device (3) based on the transmitted state data, and creates the created operation change data. Is transmitted to the control device (4) via the information communication terminal (2), and the control device (4) can change the operation of the mechanical device (3) with reference to the operation change data.

According to another aspect of the present invention, there is provided a monitoring method in a monitoring system including a monitoring server, a control device, and an information communication terminal. And (a) the control device obtains status data indicating an operation state of the mechanical device, and (b) the control device transmits and receives the data via the information communication terminal. Transmitting the status data to the monitoring server.

In the above monitoring method, step (b) comprises: (c) the control device transmitting the status data to the information communication terminal using communication means corresponding to the short-distance data communication standard; (D) connecting the information communication terminal to the network connected to the monitoring server; and (e) allowing the information communication terminal to transmit the transmitted status data to the monitoring server via the connected network. Transmitting.

In the above monitoring method, (f) the monitoring server establishes a connection with the control device via the information communication terminal; and (g) the monitoring server controls the control device with the established connection. And controlling the operation of the mechanical device.

In the above monitoring method, (h) a step in which the monitoring server creates operation change data for changing the operation of the machine device based on the transmitted state data; Transmitting the created operation change data to the information communication terminal; and (j) changing the operation of the mechanical device based on the operation change data transmitted from the monitoring server to the information communication terminal. It is also possible to provide.

In the above monitoring method, (k) the monitoring server creates maintenance data indicating a check item to be checked for the mechanical device based on the transmitted status data; The server is
Transmitting the created maintenance data to the information communication terminal; and (m) performing maintenance of the mechanical device based on the maintenance data transmitted from the monitoring server to the information communication terminal. Is also possible.

[0017]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A remote monitoring system according to the present invention will be described below with reference to the drawings. Here, in the present embodiment,
It performs remote monitoring of the operation state of the refrigerator 3 which is a chilled water generator used for air conditioners in buildings and factories.
The target to be remotely monitored is not limited to the refrigerator 3.

First, a first embodiment of the remote monitoring system according to the present invention will be described. FIG. 1 is a block diagram showing the configuration of the first embodiment of the remote monitoring system of the present invention.

Referring to FIG. 1, a remote monitoring system according to a first embodiment of the present invention comprises a monitoring server 1 connected to a network X such as the Internet or a public line network, and information connectable to the network X. It comprises a communication terminal 2, a refrigerator 3, and a control device 4 connected to the refrigerator 3 and controlling the operation of the refrigerator 3.

The refrigerator 3 comprises a chilled water generator used for air conditioners in buildings and factories. The control device 4 has a transmission / reception unit 41. The transmission / reception unit 41 has a function of performing data communication with a second transmission / reception unit 22 of the information communication terminal 2 described later in accordance with the short-distance data communication standard.

The control device 4 has a function of acquiring sensor value data indicating sensor values measured by a plurality of sensors (not shown) provided in the refrigerator 3. In response to receiving the sensor value data transmission request signal transmitted from information communication terminal 2, control device 4 transmits the obtained sensor value data to information communication terminal 2 via transmission / reception unit 41.

The information communication terminal 2 has a first transmission / reception unit 21 for transmitting / receiving data to / from the monitoring server 1 via the network X. In addition, the information communication terminal 2 has a second transmitting / receiving unit 22 for performing data communication with the transmitting / receiving unit 41 in accordance with the short-distance data communication standard. Further, the information communication terminal 2 has a display device 23 and has a function of displaying data transmitted from the monitoring server 1. The information communication terminal 2 transmits a sensor value data transmission request signal to the control device 4 via the transmission / reception unit 41, and transmits the sensor value data transmitted from the control device 4 which has received the transmitted sensor value data transmission request signal. It has a function of transmitting to the monitoring server 1.

The monitoring server 1 has a display device 11 and a recording device 12. The display device 11 includes a display like a conventionally used display. The recording device 12
A device capable of storing data, such as a conventionally used memory and a hard disk.

The monitoring server 1 stores the sensor value data transmitted from the control device 4 via the information communication terminal 2 in the storage device 1
2 is provided. Further, the monitoring server 1 has a function of acquiring the operation state of the refrigerator 3 based on the sensor value data transmitted from the control device 4 via the information communication terminal 2. Further, the information communication terminal 2 has a function of transmitting repair data instructing maintenance and repair of the refrigerator 3 obtained from the acquired operation state to the information communication terminal 2. further,
The monitoring server 1 has a function of displaying sensor value data transmitted from the control device 4 via the information communication terminal 2 on the display device 11. In addition, the monitoring server 1 includes the storage device 12
Has a function of displaying the sensor value data stored in the display device 11 on the display device 11.

Next, a remote monitoring method according to the first embodiment of the remote monitoring system of the present invention will be described below. here,
In this remote monitoring method, the network X connectable between the monitoring server 1 and the information communication terminal 2 is a public line network.

FIGS. 2, 3 and 4 are flowcharts showing a remote monitoring method in the first embodiment of the remote monitoring system of the present invention. First, referring to FIG.
The operation of is described below.

In step A11, when the monitoring server 1 receives a connection request signal D1 described later transmitted from the information communication terminal 2 via the network X, the monitoring server 1 transmits the connection request signal D1. A connection establishment operation for establishing a connection with the server is executed.

In step A12, when the connection with the information communication terminal 2 that has transmitted the connection request signal D1 has been successfully established, the monitoring server 1 executes step A13. Further, if the connection with the information communication terminal 2 that has transmitted the connection request signal D1 has failed to be established, the monitoring server 1 executes Step A11 again.

In step A13, the monitoring server 1 transmits a data transmission request signal D2 requesting transmission of the sensor value data D7 of the refrigerator 3 to the information communication terminal 2 connected in step A12.

In step A14, upon receiving the sensor value data D7 transmitted from the information communication terminal 2 connected in step A12, the monitoring server 1 stores the received sensor value data D7 in a storage device. Execute A15. If the monitoring server 1 fails to receive the sensor value data D7 transmitted from the information communication terminal 2 connected in step A12, the monitoring server 1 repeatedly executes step A13.

At step A15, the monitoring server 1 transmits a connection disconnection request signal D3 requesting disconnection of the connection to the information communication terminal 2 connected at step A12.

At step A16, the monitoring server 1 executes a connection disconnection operation for disconnecting the connection with the information communication terminal 2 connected at step A12.

Next, the operation of the information communication terminal 2 will be described with reference to FIG. In step B21, the information communication terminal 2
Transmits to the control device 4 a connection request signal D4 for requesting connection with the control device 4.

In step B22, when a connection is established between the information communication terminal 2 and the control device 4 which has received the transmission of the connection request signal D4, step B23 is executed. Also,
When a connection is not established between the information communication terminal 2 and the control device 4 that has received the transmission of the connection request signal D4, step B21 is executed again.

In step B23, the information communication terminal 2 transmits a connection request signal D1 for requesting a connection with the monitoring server 1.
Is transmitted to the monitoring server 1.

At step B24, the information communication terminal 2 establishes a connection with the monitoring server 1 to which the connection request signal D1 is transmitted. When the information communication terminal 2 fails to establish a connection with the monitoring server 1 to which the connection request signal D1 is transmitted, the information communication terminal 2 executes Step B23 again.

In step B25, the information communication terminal 2 waits for reception of a signal notified from the monitoring server 1 connected in step B24.

In step B26, when the information communication terminal 2 receives the data request signal D2 in step B25, it executes step B27. When the information communication terminal 2 receives a signal other than the data request signal D2 in step B25, it executes step B30.

In step B27, the information communication terminal 2 transmits a data transmission request signal D5 for requesting the control device 4 connected in step B22 to transmit the sensor value data D7.
Send

In step B28, if the information communication terminal 2 succeeds in receiving the sensor value data D7 transmitted from the control device 4 connected in step B22, the process proceeds to step B2.
9 is executed. Also, the information communication terminal 2 performs step B2
If the reception of the sensor value data D7 transmitted from the control device 4 connected in step 2 fails, step B27 is repeatedly executed.

In step B29, the information communication terminal 2 transmits the sensor value data D7 received in step B28 to the monitoring server 1 connected in step B24. Thereafter, step B25 is executed again.

In step B30, when the information communication terminal 2 receives the disconnection request signal D5 transmitted from the monitoring server 1, the information communication terminal 2 executes step S31 and subsequent steps. Here, the signal transmitted from the monitoring server 1 is a disconnection request signal D5.
If not, the information communication terminal 2 executes step B25 again.

In step B31, the information communication terminal 2 executes a connection disconnection operation for disconnecting the connection with the monitoring server 1 connected in step B24.

In step B32, the information communication terminal 2 transmits a connection disconnection request signal D6 requesting disconnection of the connection to the control device 4 connected in step B22.

In step B33, the information communication terminal 2 executes a disconnection operation for disconnecting the connection with the control device 4 connected in step B22.

Next, with reference to FIG. 4, the operation of control device 4 will be described below. At step C31, control device 4 waits for a connection request signal D4 transmitted from information communication terminal 2.
When receiving the connection request signal D4, the control device 4 executes a connection establishment operation for establishing a connection with the information communication terminal 2 that has transmitted the received connection request signal D4.

In step C32, when the connection with the information communication terminal 2 that has transmitted the connection request signal D4 has been successfully established, the control device 4 executes step C33. Also,
When the control device 4 fails to establish a connection with the information communication terminal 2 that has transmitted the connection request signal D4, the control device 4 executes Step C31 again.

At step C33, control device 4 waits for reception of a signal notified from information communication terminal 2 connected at step C31.

In step C34, when receiving the data transmission request signal D5 in step C33, the control device 4 executes step C35. When receiving a signal different from the data transmission request signal D5 in step C33, the control device 4 executes step C36.

At step C35, the control device 4 transmits the sensor value data D7 to the information communication terminal 2 connected at step C31. Thereafter, step C33 is executed again.

At step C36, when receiving the disconnection request signal D6 at step C33, the control device 4 executes step C37. When receiving a signal different from the disconnection request signal D6 in step C33, the control device 4 executes step C33 again.

At step C37, the control device 4 executes a connection disconnection operation for disconnecting the connection with the information communication terminal 2 connected at step C31.

As described above, according to the first embodiment of the remote monitoring system of the present invention, by using the portable information communication terminal 2, the owner of the information communication terminal 2 can be distant from the monitoring server 1. The monitoring server 1 can acquire the data immediately after the data indicating the operation state of the mechanical device provided in the server is acquired.

A first modification of the remote monitoring method in the first embodiment of the remote monitoring system of the present invention will be described below. First, the information communication terminal 2 is arranged at a position where short-range communication with the control device 4 is possible. Information communication terminal 2
Are always located at a position where they can be connected to the network X.

In the first modified example of the remote monitoring method in the first embodiment of the remote monitoring system of the present invention, the information communication terminal 2 periodically repeats steps B21 to B32.
By executing the above, the monitoring server 1 can periodically acquire the sensor value data D7 of the refrigerator 3.

A second modified example of the remote monitoring method in the first embodiment of the remote monitoring system of the present invention will be described below. The information communication terminal 2 is arranged at a position where short-range communication with the control device 4 is possible. The connection between the monitoring server 1 and the information communication terminal 2 and the connection between the information communication terminal 2 and the control device 4
The connection with is always established.

FIGS. 5 and 6 are flowcharts showing a second modified example of the remote monitoring method in the first embodiment of the remote monitoring system of the present invention.

Referring to FIG. 5, the operation of the monitoring server 1 in the second modification of the remote monitoring method in the first embodiment of the remote monitoring system of the present invention will be described below.

In step A11 ', the monitoring server 1 waits for input of request data from an administrator of the monitoring server 1 via an input device (not shown).

In step A12 ', if the request data input in step A11' is transmission request data indicating a request to transmit sensor value data D7 of the refrigerator 3, the monitoring server 1 executes step A13 '. . When the request data input in step A11 ′ is different from the transmission request data indicating the transmission request of the sensor value data D7 of the refrigerator 3, the monitoring server 1 repeatedly executes step A12 ′.

In step A13 ', a data transmission request signal D2 requesting transmission of the sensor value data D7 of the refrigerator 3 is transmitted to the connected information communication terminal 2.

In step A14 ', when the monitoring server 1 receives the sensor value data D7 transmitted from the connected information communication terminal 2, the monitoring server 1 stores the received sensor value data D7 in the storage device, and proceeds to step A11. 'Again. Further, the monitoring server 1 transmits the sensor value data D7 transmitted from the information communication terminal 2 connected in step A12.
If the reception of the request fails, step A13 'is repeatedly executed.

Referring to FIG. 6, the second embodiment of the remote monitoring method according to the first embodiment of the remote monitoring system of the present invention will be described.
The operation of the information communication terminal 2 in the modification of the above is shown below.

In step B21 ′, the information communication terminal 2
It waits for the signal notified from the connected monitoring server 1 to be received.

In step B22 ', the information communication terminal 2
The signal notified in step B21 'is the data request signal D
In the case of 2, step B23 'is executed. If the signal notified in step B21 'is different from the data request signal D2, the information communication terminal 2 executes step B21' again.

In step B23 ', the information communication terminal 2
A data transmission request signal D5 for requesting transmission of the sensor value data D7 is transmitted to the connected control device 4.

At step B24 ', the information communication terminal 2
If the sensor value data D7 transmitted from the connected control device 4 has been successfully received, step B25 'is executed. If the information communication terminal 2 fails to receive the sensor value data D7 transmitted from the connected control device 4, the information communication terminal 2 repeatedly executes Step B23 '.

In step B25 ', the information communication terminal 2
The sensor value data D7 received in step B24 ′ is
It transmits to the connected monitoring server 1. Thereafter, step B21 'is executed again.

Referring to FIG. 6, a second embodiment of the remote monitoring method according to the first embodiment of the remote monitoring system of the present invention will be described.
The operation of the control device 4 in the modification of the above is shown below.

At step C 31 ′, control device 4 waits for reception of a signal notified from information communication terminal 2 connected thereto.

At step C32 ', the control device 4 determines that the signal notified at step C31' is the data transmission request signal D
If it is 5, step C33 'is executed. If the signal notified in step C31 ′ is different from the data transmission request signal D5, the control device 4 proceeds to step C31 ′.
Again.

In step C33 ', the control device 4 transmits the sensor value data D7 to the connected information communication terminal 2. Thereafter, step C31 'is executed again.

In a second modification of the remote monitoring method according to the first embodiment of the remote monitoring system of the present invention, when the control device 4 periodically measures the sensor value data D7,
The control device 4 can also transmit the measured sensor value data D7 to the monitoring server 1 via the information communication terminal 2 every time the sensor value data D7 is measured.

As described above, according to the first embodiment of the remote monitoring system of the present invention, the monitoring server 1 is located at a distance from the monitoring server 1 via the portable information communication terminal 2. It is possible to acquire data indicating the operation state of the device.

Further, according to the first embodiment of the remote monitoring system of the present invention, it is possible to execute remote monitoring without laying a line for remote monitoring. Therefore, the remote monitoring system of the present invention enables remote monitoring of machine equipment at a lower cost than laying a line for remote monitoring.

Next, a second embodiment of the remote monitoring system of the present invention will be described below. FIG. 7 shows the configuration of a second embodiment of the remote monitoring system of the present invention. Referring to FIG. 7, the configuration of the second embodiment of the remote monitoring system of the present invention is the same as that of the first embodiment of the remote monitoring system of the present invention, except that the monitoring server 1 further includes a control command creating unit 13. This is the same as the configuration of the embodiment.

Next, in the second embodiment of the remote monitoring system of the present invention, except for the monitoring server 1, the control command creating unit 13, the information communication terminal 2, and the control device 4, the remote monitoring system of the present invention will be described. It has the same function as the function of each unit in the first embodiment.

The control device 4 has the same function as the control device 4 in the first embodiment of the remote monitoring system of the present invention.
Further, the control device 4 is operated by a user of the information communication terminal 2 to operate the operation unit 4 for changing the operation of the refrigerator 3.
2

The control command creating section 13 acquires the sensor value data D7 transmitted from the control device 4 via the information communication terminal 2 and the network X. Control instruction creation unit 13
Creates operation change instruction data for changing the operation of the refrigerator 3 with reference to the acquired sensor value data D7.

The monitoring server 1 has the same function as the monitoring server 1 in the first embodiment of the remote monitoring system of the present invention. The monitoring server 1 further creates an electronic mail D10 addressed to the information communication terminal 2 that has transmitted the sensor value data D7, with the change instruction data created by the control instruction creating unit 13 attached to the mail text. The created e-mail D10 is transmitted to the corresponding information communication terminal 2 via the network X.

The information communication terminal 2 has the same function as the information communication terminal 2 in the first embodiment of the remote monitoring system of the present invention. Further, the information communication terminal 2 that has received the e-mail D10 can display the change command data attached to the received e-mail D10 on the display device 23. The user of the information communication terminal 2 is
The user operates the operation unit 42 of the control device 4 as indicated by the change instruction data displayed in the control unit 4.

As described above, according to the second embodiment of the remote monitoring system of the present invention, the same effects as those of the first embodiment of the remote monitoring system of the present invention are obtained. Further, according to the second embodiment of the remote monitoring system of the present invention, the monitoring server 1 located far from the mechanical device has the portable information communication terminal 2 and performs an inspection for inspecting the mechanical device. It is possible to instruct the user to change the operation of the mechanical device.

As a first modification of the second embodiment of the remote monitoring system of the present invention, the administrator of the monitoring server 1 creates change command data with reference to the acquired sensor value data D7. It is also possible. In this case, the control command creation unit 13 is not provided, and the sensor value data D7 is input to the monitoring server 1 by an administrator of the monitoring server 1 via an input device (not shown).

According to the first modification of the second embodiment of the remote monitoring system of the present invention, the same effects as those of the first embodiment of the remote monitoring system of the present invention are obtained. Further, in the first modified example of the second embodiment of the remote monitoring system of the present invention, similarly to the second embodiment of the remote monitoring system of the present invention, the monitoring server 1 located far from the mechanical device. Can instruct an inspector who carries the portable information communication terminal 2 and inspects the mechanical device to change the operation of the mechanical device.

Further, in the remote monitoring system of the present invention,
As a second modification of the embodiment, the administrator of the monitoring server 1 refers to the acquired sensor value data D7 to
Determine what changes to the behavior of. The decided changes are
The administrator of the monitoring server 1 transmits the sensor value data D7 to the user of the information communication terminal 2 that is the transmission source of the sensor value data D7 by voice via a public line network.

According to the second modification of the second embodiment of the remote monitoring system of the present invention, the same effects as those of the first embodiment of the remote monitoring system of the present invention are obtained. Further, in a second modified example of the second embodiment of the remote monitoring system of the present invention, the administrator of the monitoring server 1 located far from the mechanical device has a portable information communication terminal 2, It is possible to instruct an inspector who inspects the mechanical device to change the operation of the mechanical device.

Next, a third modification of the second embodiment of the remote monitoring system of the present invention will be described below. The configuration of a third modified example of the second embodiment of the remote monitoring system of the present invention is as follows.
The configuration is the same as that of the second embodiment of the remote monitoring system of the present invention.

In the third modification of the second embodiment of the remote monitoring system according to the present invention, except for the monitoring server 1, the control command creating unit 13, the information communication terminal 2, and the control device 4, This has the same functions as the functions of each unit in the first embodiment of the remote monitoring system.

The control command creator 13 acquires the sensor value data D7 transmitted from the controller 4 via the information communication terminal 2 and the network X. Control instruction creation unit 13
Creates operation change instruction data for changing the operation of the refrigerator 3 with reference to the acquired sensor value data D7.

The monitoring server 1 has the same function as the monitoring server 1 in the first embodiment of the remote monitoring system of the present invention. The monitoring server 1 further has a function of transmitting the change command data created by the control command creation unit 13 to the information communication terminal 2 that has transmitted the sensor value data D7.

The information communication terminal 2 has the same function as the information communication terminal 2 in the first embodiment of the remote monitoring system of the present invention. Further, the information communication terminal 2 that has received the change command data has a function of transmitting the received change command data to the control device 4 via the transmission / reception unit 41 of the control device 4.

The control device 4 has the same function as the control device 4 in the first embodiment of the remote monitoring system of the present invention.
Further, the control device 4 has a function of changing the operation of the refrigerator 3 as indicated by the change command data transmitted from the information communication terminal 2.

As described above, according to the third modification of the second embodiment of the remote monitoring system of the present invention, the same effects as those of the first embodiment of the remote monitoring system of the present invention are obtained. Furthermore, according to a third modification of the second embodiment of the remote monitoring system of the present invention, the monitoring server 1 is a machine located far from the monitoring server 1 via the portable information communication terminal 2. The operation of the device can be changed.

Next, a fourth modification of the second embodiment of the remote monitoring system of the present invention will be described below. The configuration of a fourth modified example of the second embodiment of the remote monitoring system of the present invention is as follows.
Except for the absence of the control command creation unit 13, the configuration of the remote monitoring system of the second embodiment of the present invention is the same as that of the second embodiment.

Further, in a fourth modification of the second embodiment of the remote monitoring system of the present invention, except for the monitoring server 1, the information communication terminal 2, and the control device 4, the remote monitoring system of the present invention It has the same function as the function of each unit in the first embodiment.

The control device 4 has the same function as the control device 4 in the first embodiment of the remote monitoring system of the present invention.
Further, the control device 4 has an operation unit 42 for changing the operation of the refrigerator 3.

The monitoring server 1 has the same function as the monitoring server 1 in the first embodiment of the remote monitoring system of the present invention. The monitoring server 1 further has a function of establishing a connection with the control device 4 that has transmitted the sensor value data D7 via the information communication terminal 2. The monitoring server 1 has a function of controlling the operation unit 42 of the connected control device 4 to control the operation of the corresponding refrigerator 3.

The information communication terminal 2 has the same function as the information communication terminal 2 in the first embodiment of the remote monitoring system of the present invention. Further, when the monitoring server 1 controls the operation unit 42 of the control device 4, the information communication terminal 2
And a function for relaying between the control device 4 and the control device 4.

Here, an example of the connection establishing operation between the monitoring server 1 and the control device 4 described above will be described below. The monitoring server 1 first transmits a connection request signal for requesting the information communication terminal 2 to connect. The information communication terminal 2 receives the connection request signal and establishes a connection with the monitoring server 1. Next, the information communication terminal 2 transmits a connection request signal for requesting a connection to the control device 4. Control device 4
Receives the connection request signal and establishes a connection with the information communication terminal 2.

As described above, according to the fourth modification of the second embodiment of the remote monitoring system of the present invention, the same effects as those of the first embodiment of the remote monitoring system of the present invention are obtained. Further, according to a fourth modified example of the second embodiment of the remote monitoring system of the present invention, the monitoring server 1 is a machine located far from the monitoring server 1 via the portable information communication terminal 2. The operation of the device can be controlled.

Next, a third embodiment of the remote monitoring system according to the present invention will be described below. The configuration of the third embodiment of the remote monitoring system of the present invention is the same as the configuration of the second embodiment of the remote monitoring system of the present invention shown in FIG.

Further, in the third embodiment of the remote monitoring system of the present invention, except for the monitoring server 1, the information communication terminal 2, and the control command creation unit 13, the second embodiment of the remote monitoring system of the present invention. It has the same function as the function of each part in.

The control command creating section 13 acquires the sensor value data D7 transmitted from the control device 4 via the information communication terminal 2 and the network X. Control instruction creation unit 13
Creates maintenance data indicating check items for checking the states of a plurality of mechanical parts constituting the refrigerator 3 with reference to the acquired sensor value data D7.

The monitoring server 1 has the same function as the monitoring server 1 in the first embodiment of the remote monitoring system of the present invention. The monitoring server 1 further attaches the maintenance data created by the control instruction creation unit 13 to the mail body.
An e-mail D10 is created for the information communication terminal 2 that is the source of the sensor value data D7. The created e-mail D1
0 is the corresponding information communication terminal 2 via the network X
Sent to

The information communication terminal 2 has the same function as the information communication terminal 2 in the first embodiment of the remote monitoring system of the present invention. Further, the information communication terminal 2 that has received the email D10 can display the maintenance data attached to the received email D10 on the display device 23. The user of the information communication terminal 2 performs the maintenance of the refrigerator 3 according to the check items indicated by the maintenance data displayed on the display device 23.

As described above, the third embodiment of the remote monitoring system according to the present invention has the same effects as the first embodiment of the remote monitoring system according to the present invention. Furthermore, according to the third embodiment of the remote monitoring system of the present invention, the monitoring server 1 located far from the mechanical device performs the check items performed on the mechanical device based on the operation state of the mechanical device. Can be created. In addition, according to the third embodiment of the remote monitoring system of the present invention, the monitoring server 1 located far from the mechanical device has a portable information communication terminal and performs an inspection for inspecting the mechanical device. By transmitting the maintenance data to the inspector, it is possible to instruct the inspector on the maintenance to be performed on the mechanical device.

As a first modification of the third embodiment of the remote monitoring system of the present invention, the administrator of the monitoring server 1 creates maintenance data with reference to the acquired sensor value data D7. Is also possible. In this case, the control command creating unit 13 is not provided, and the sensor value data D7 is sent to the monitoring server 1 via an input device (not shown).
Is input to the monitoring server 1 by the administrator.

According to the first modification of the third embodiment of the remote monitoring system of the present invention, the same effects as those of the first embodiment of the remote monitoring system of the present invention are obtained. Further, a first modified example of the third embodiment of the remote monitoring system of the present invention is a monitoring server 1 that is located far from a mechanical device.
It is possible to instruct an inspector who has a portable information communication terminal and inspects the mechanical device about maintenance to be performed on the mechanical device.

Further, the third aspect of the remote monitoring system of the present invention
As a second modification of the embodiment, the administrator of the monitoring server 1 refers to the acquired sensor value data D7 to
The check items for checking the states of the plurality of mechanical parts constituting the above are determined. The determined check items are
The administrator of the monitoring server 1 transmits the sensor value data D7 to the user of the information communication terminal 2 that is the transmission source of the sensor value data D7 by voice via a public line network.

According to the second modification of the third embodiment of the remote monitoring system of the present invention, the same effects as those of the first embodiment of the remote monitoring system of the present invention are obtained. Furthermore, in a second modification of the third embodiment of the remote monitoring system of the present invention, the administrator of the monitoring server 1 located far from the mechanical device has a portable information communication terminal 2, It is possible to instruct an inspector who inspects the mechanical device to perform maintenance on the mechanical device determined based on the operation state of the mechanical device.

[0111]

As described above, according to the present invention, the monitoring server can acquire the data indicating the operation state of the mechanical device located far from the monitoring server. Further, according to the present invention, it is possible to remotely monitor mechanical equipment at low cost.
Further, the present invention can instruct an inspector who has an information terminal and inspects a mechanical device to change the operation of the mechanical device. In addition, the present invention allows the machinery to be directly controlled by a monitoring server located remotely from the machinery. In addition, the present invention provides an administrator of a monitoring server located far from a mechanical device to an inspector who has an information terminal and inspects the mechanical device based on an operation state of the mechanical device. The maintenance to be performed for the defined mechanical device can be indicated.

[Brief description of the drawings]

FIG. 1 is a block diagram showing the configuration of a first embodiment of the remote monitoring system of the present invention.

FIG. 2 is a flowchart showing a remote monitoring method in the remote monitoring system according to the first embodiment of the present invention, showing an operation of a monitoring server.

FIG. 3 is a flowchart showing a remote monitoring method in the first embodiment of the remote monitoring system of the present invention, showing an operation of the information communication terminal.

FIG. 4 is a flowchart showing a remote monitoring method in the remote monitoring system according to the first embodiment of the present invention, showing an operation of a control device.

FIG. 5 is a flowchart showing a second modification of the remote monitoring method in the first embodiment of the remote monitoring system of the present invention, showing the operation of the monitoring server.

FIG. 6 is a flowchart showing a second modified example of the remote monitoring method in the first embodiment of the remote monitoring system of the present invention, showing the operation of the information communication terminal and the control device.

FIG. 7 is a block diagram showing a configuration of a second embodiment of the remote monitoring system of the present invention.

[Explanation of symbols]

 X network 1 monitoring server 11 display device 12 recording device 13 control command creation unit 2 information communication terminal 21 first transmission / reception unit 22 second transmission / reception unit 23 display device 3 refrigerator 4 control device 41 transmission / reception unit 42 operation unit D1 connection request Signal D2 Data transmission request signal D3 Disconnection request signal D4 Connection request signal D5 Data transmission request signal D6 Disconnection request signal D7 Sensor value data

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) // G06F 13/00 351 G06F 13/00 351N F term (Reference) 5B089 GA12 GA21 GB02 HA01 JA35 JB15 JB16 JB22 KA02 KA11 KB04 LB12 LB14 5C087 AA02 AA03 AA22 AA24 AA25 BB12 BB46 BB74 DD08 DD33 EE05 EE11 FF01 FF02 FF04 FF19 FF20 GG12 GG21 GG23 GG30 GG42 GG66 GG67 GG70 GG71 A08 DC08 A08 A08 DCA FB09 FC01 GB08 HA01 HA02 HA05 HA07 HA13 HA21

Claims (8)

[Claims] 1. A monitoring device, comprising: a control device for acquiring status data indicating an operation state of a mechanical device; a monitoring server; the control device; and an information communication terminal capable of transmitting and receiving data to and from the monitoring server. A monitoring system for acquiring the status data from the control device via the information communication terminal. 2. The monitoring system according to claim 1, wherein the control device transmits the status data to the information communication terminal by using a communication unit corresponding to a short-distance data communication standard. A monitoring system that connects to a network connected to the monitoring server and transmits the transmitted status data to the monitoring server via the connected network. 3. The monitoring system according to claim 1, wherein the monitoring server creates operation change data for changing an operation of the mechanical device based on the transmitted state data, A monitoring system, wherein the created operation change data is transmitted to the control device via the information communication terminal, and the control device changes the operation of the mechanical device with reference to the operation change data. 4. A monitoring method in a monitoring system comprising a monitoring server, a control device, and an information communication terminal, wherein the information communication terminal is capable of transmitting and receiving data to and from the monitoring server and the control device. a) the control device acquiring status data indicating an operation state of a mechanical device; and (b) the control device transmitting the status data to the monitoring server via the information communication terminal. Monitoring method. 5. The monitoring method according to claim 4, wherein in the step (b), (c) the control device sends the status to the information communication terminal using a communication unit corresponding to a short-distance data communication standard. Transmitting data; (d) connecting the information communication terminal to the network connected to the monitoring server; and (e) transmitting the information communication terminal via the connected network. Transmitting status data to the monitoring server. 6. The monitoring method according to claim 4 or 5, wherein: (f) the monitoring server, via the information communication terminal,
A monitoring method further comprising: establishing a connection with the control device; and (g) controlling the operation of the mechanical device by the monitoring server controlling the control device to which the connection is established. . 7. The monitoring method according to claim 4, wherein (h) the monitoring server creates operation change data for changing an operation of the mechanical device based on the transmitted state data. (I) the monitoring server transmitting the created operation change data to the information communication terminal; and (j) the operation change data transmitted from the monitoring server to the information communication terminal. A step of changing an operation of the mechanical device based on the monitoring method. 8. The monitoring method according to claim 4, wherein (k) the monitoring server indicates a check item to be checked for the mechanical device based on the transmitted status data. Creating data; (l) the monitoring server transmitting the created maintenance data to the information communication terminal; and (m) the maintenance transmitted from the monitoring server to the information communication terminal. Performing a maintenance of the mechanical device based on the data.