JP4397106B2 - Remote management system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a communication terminal used in a remote management system that connects a device-side communication terminal connected to a management target device and an administrator-side communication terminal owned by an administrator via a telephone line network.
[0002]
[Prior art]
Conventionally, for example, in order to remotely manage equipment such as a payment machine in an unmanned parking lot, a management center and equipment installed in an area separated from the management center are connected by a public telephone line network. Accordingly, a remote management system for remotely managing equipment from a management center is used.
[0003]
Such a remote management system is generally composed of a management device operated by an administrator, a facility device to be managed, and a wired public telephone line network connecting them.
[0004]
And the said management apparatus and the said installation apparatus mutually transmit / receive various data required for management, and the remote management of an installation apparatus is performed based on those data. At this time, the management device and the facility device transmit various data to a counterpart device via a device such as a modem or TA (terminal adapter) and a wired public telephone line network.
[0005]
[Problems to be solved by the invention]
In such a remote management system, a message issued from the facility device to the management device is often one of several standard messages.
[0006]
However, in the conventional remote management system, as described above, every time communication is performed between the facility device and the management device, the line is set in a call state and communication is performed in a charged state. Has the problem of being bulky.
[0007]
On the other hand, since such a conventional remote management system uses a wired public telephone line network, it is necessary to provide a wired public telephone line when a communication terminal is provided in a device. For this reason, a lot of expenses such as circuit installation work costs are required until a terminal is installed in the device. Furthermore, it may not be easy to install a public telephone line depending on the distance from the grounding point of the public telephone line terminal to the device, or depending on the situation of the installation location of the device.
[0008]
In view of the above problems, an object of the present invention is to provide a remote management system that can reduce communication costs when data is transmitted and received between devices and costs when installing a terminal on the devices.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, a remote management system of the present invention performs communication based on a first interface connected to a first device, a first control unit that performs various controls, and control of the first control unit. A first communication terminal comprising a first communication unit;
A second communication terminal including a second interface connected to the second device, a second control unit that performs various controls, and a second communication unit that performs communication based on the control of the second control unit;
A telephone line network connecting the first communication terminal and the second communication terminal;
In the remote management system with
When data is input from the first interface, the first communication terminal determines the type of the input data by the first control unit, and calls the preset number of times according to the type of data. A signal is transmitted to the second communication unit via the first communication unit and the telephone line network, and data from the first interface is transmitted to the first communication unit and the telephone when the line is in a call state. transmits to the second communication unit via a line network, said first control unit, upon determination of the kind of data the input, the input data whether communicable with the number of times of the paging signal data If the data is communicable by the number of call signals, set the call signal a preset number of times according to the type of data, and the data that cannot be communicated by the number of call signals. Re if being adapted to set a call signal of a preset predetermined number of times,
When the second communication unit receives a call from the first communication terminal, the second communication terminal detects the number of call signals by the second control unit, and detects the detected call signal. When the number of times is less than the predetermined number, the control is performed in accordance with the number of times of the detected call signal while the line is not in a call state and various preset control is performed for each number of the number of the call signal. When the number of received call signals reaches a predetermined number, the line is put into a call state, and data transmitted from the first communication unit to the second communication unit via the telephone line network is received. It is characterized by becoming.
[0010]
According to the configuration as described above, it is possible to communicate a standard message issued by a device according to the number of ringing signals on the telephone line, thus realizing a remote management system capable of minimizing communication costs. To do.
[0012]
In addition, when the number of call signals from the first communication terminal is less than a predetermined number, the second control unit generates a reception confirmation call by a predetermined number of call signals after a predetermined time has elapsed since the reception of the call signal. Call is made to the first communication unit via the second communication unit and the telephone line network, and the first communication terminal determines the number of call signals of the reception confirmation call and the second communication terminal. By setting the same number of times as the number of call signals transmitted to, more accurate communication can be performed.
[0013]
On the other hand, in the configuration described above, the number of ringing signals is preset according to the type of data. Instead of the number of ringing signals, the length of time for calling the ringing signal is set according to the type of data. In this case, the same effect as that of the above-described configuration can be obtained.
[0014]
In addition, the first device is, for example, a facility device to be managed, and the second device is, for example, a management device for managing the facility device, or the first device is The management device may be used, and the second device may be the facility device.
[0015]
Moreover, in this remote management system, it is preferable that the first communication terminal and the second communication terminal each have a memory for storing various data necessary for communication.
[0016]
In addition, by configuring the first communication terminal and the second communication terminal with wireless communication terminals, it is not necessary to install a wired public telephone line, and a communication terminal with a low installation cost to a device is realized. To do.
[0017]
Other objects, operations, and effects of the present invention will become more apparent from the following description of embodiments with reference to the drawings.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of a remote management system of the present invention will be described with reference to the drawings. In the present embodiment, the unmanned parking lot adjustment device is described as an example of the equipment device 2, but the equipment device 2 is used in various devices such as a vending machine in addition to the unmanned parking lot adjustment machine. It is possible to apply.
[0019]
FIG. 1 is a block diagram showing the overall configuration of a remote management system for a settlement machine for an unmanned parking lot according to an embodiment of the present invention, and FIG. 2 is a flowchart showing the operation of the remote management system.
[0020]
The remote management system 1 of the present invention includes a first communication terminal 5 connected to a facility device 2 to be managed, a second communication terminal 6 connected to a management device 3 that manages the facility device 2, The telephone line network 4 connects the first communication terminal 5 and the second communication terminal 6. In the present embodiment, the facility device 2 and the management device 3 form the first device and the second device of the present invention. The telephone line network 4 of the present embodiment includes a wired public telephone line network and a wireless telephone line network.
[0021]
The equipment 2 is a settlement device for a parking lot that requires remote control, and when a malfunction, out of change, out of recording paper, full of safe, etc. occurs in the device, a failure that issues a status signal from each contact point Various sensors such as sensors, out-of-change sensors, out-of-recording-sheet sensors, safe-full sensors, and other data such as character string data such as sales and parking conditions, image data, and voice data are sent to the management device 3 at a predetermined time. And a data transmission device for transmitting.
[0022]
As shown in FIG. 1, the first communication terminal 5 includes a first control unit 51, a first interface connected to the first control unit 51, a first memory 53, and a first communication unit 54. The data obtained from the equipment 2 is transmitted to the second communication terminal 6 via the telephone line network 4 and based on the data transmitted from the second communication terminal 6 via the telephone line network 4. A control signal or the like is transmitted to the equipment 2.
[0023]
The first interface 52 is provided between the equipment 2 and the first control unit 51, and status signals from various contacts of the various sensors attached to the equipment 2 and character string data from the data transmission device. , Image data, audio data, and the like are converted into digital data that can be processed by the first control unit 51, sent to the first control unit 51, and a control signal from the first control unit 51 is sent to the equipment 2. It is an element that has the function to transmit to.
[0024]
The first memory 53 is an element for storing data from the first interface 52, a telephone number of the second communication terminal 6, a communication program necessary for communication, and the like. Here, the communication program is a program for causing the first control unit 51 to execute various processes necessary for communication, and is a table (required when determining various data input to the first interface 52). 4). When this remote management system is used as a remote management system for a vending machine, the table shown in FIG. 5 may be used instead of the table shown in FIG. These tables are merely examples for explanation, and it goes without saying that the number of calls and the type of data corresponding to each number of calls can be changed as needed.
[0025]
The first communication unit 54 makes a call to the second communication terminal 6 based on the control of the first control unit 51 and transmits data from the first interface 52 to the second communication terminal 6. Is an element. The first communication unit 54 incorporates a wireless communication module such as a modem, a TA, a PHS module, and a mobile phone module for converting data from the first control unit 51 into data communicable through the telephone line network 4. is doing.
[0026]
The first control unit 51 is connected to the first interface 52, the first memory 53, and the first communication unit 54, and executes various processes necessary for communication using a communication program stored in the first memory 53. . The various processes will be described in detail later.
[0027]
As shown in FIG. 1, the second communication terminal 6 includes a second control unit 61, a second interface 62 connected to the second control unit 61, a second memory 63, and a second communication unit 64. The data transmitted from the first communication terminal 5 via the telephone line network 4 is transmitted to the management device 3 and the data from the management device 3 is transmitted via the telephone line network 4 to the first communication terminal 5. Send to.
[0028]
The functions of the second control unit 61, the second interface 62, the second memory 63, and the second communication unit 64 in the second communication terminal 6 are the same as the first control unit 51 and the first interface of the first communication terminal 5 described above. 52, the first memory 53, and the function of the first communication unit 54, the communication program stored in the second memory 63 is a counter that measures the number of call signals from the first communication terminal 5. And a table (see FIG. 4) for determining the type of data based on the number of call signals measured by the counter.
[0029]
It should be noted that the second control unit 61 of the second communication terminal 6 can display the operation state of the second communication terminal 6, display means such as a monitor for displaying data transmitted from the equipment 2, and the equipment 2. By providing input means such as a keyboard for inputting the control command, it is possible to perform remote management of the equipment 2 only by the second communication terminal 6.
[0030]
The first communication terminal 5 and the second communication terminal 6 are wireless terminals such as PHS and mobile phones. In this way, by using a wireless terminal for each communication terminal, it is possible to significantly reduce the installation cost when installing a communication terminal in equipment or management equipment than when using a conventional wired public telephone line. Furthermore, it is possible to easily install a communication terminal in a place where it is difficult to draw a wired public telephone line or in equipment installed in a moving body such as an automobile. Note that these communication terminals are not necessarily wireless communication terminals, and may be terminals using a wired public telephone line.
[0031]
The operation of the remote management system 1 according to this embodiment will be described below with reference to the block diagram of FIG. 1 and the flowcharts of FIGS.
[0032]
First, operation | movement of the 1st communication terminal 5 at the time of data being input from the equipment 2 is demonstrated with reference to FIG.1, FIG2 and FIG.4.
[0033]
When the input of data from the facility device 2 to the first interface 52 is confirmed in step 701, the first control unit 51 executes the communication program stored in the first memory 53 in step 702 to store the data. The type is determined, and data that needs to be stored is stored in the first memory 53.
[0034]
At this time, the data input from the facility device 2 to the first interface 52 includes status signals generated by various sensors such as the failure sensor, the change-out sensor, the recording sheet-out sensor, and the safeness sensor attached to the facility device 2. In addition, data such as character string data, image data, and voice data transmitted from the data transmission device is included.
[0035]
When the first control unit 51 determines in step 702 that the input data is data that can be communicated only by a call signal, that is, data such as status signals from various sensors, or typical data. In step 703, a table (see FIG. 4) in the communication program stored in the first memory 53 is referred to, and the number of call signals is set according to the type of data.
[0036]
In step 704, based on the control of the first control unit 51, the first communication unit 54 makes a call to the second communication terminal 6 by the number of call signals set in step 703. At this time, the telephone number of the second communication terminal 6 stored in the first memory 53 is referred to make a call. At that time, the telephone number of the first communication terminal 5 using the calling telephone number notification service is also transmitted.
[0037]
After the call in step 704 is completed, the first communication terminal 5 confirms whether or not a reception confirmation call from the second communication terminal 6 has been received in step 705. The reception confirmation call from the second communication terminal 6 will be described in detail later.
[0038]
When reception of the reception confirmation call is confirmed in step 705, the first control unit 51 ends the communication process. On the other hand, if reception of the call is not confirmed in step 705, the first control unit 51 returns to step 704 and makes a call to the second communication terminal 6 again.
[0039]
In step 702, the first control unit 51 determines that the input data is data that cannot be communicated only by a call signal, that is, data such as character string data, image data, and voice data from the data transmission device. If it is discriminated, the process proceeds to step 706, the table in the communication program recorded in the first memory 53 (see FIG. 4) is referenced, and the number of call signals is set to five.
[0040]
In step 707, based on the control of the first control unit 51, the first communication unit 54 makes a call to the second communication terminal 6 five times for the call signal set in step 706. In the present embodiment, the second communication terminal 6 is set so that the line is put into a call state when receiving five calls from the first communication terminal 5.
[0041]
When the connection of the line with the second communication terminal 6 is confirmed in step 708, the first communication unit 54 is stored in the first memory 53 in step 709 based on the control of the first control unit 51. Data such as character string data, image data, and voice data from the data transmission device is transmitted to the second communication terminal 6. When the transmission is completed, the line is disconnected and the communication process is terminated. On the other hand, when the connection of the line with the second communication terminal 6 is not confirmed in step 708, the first control unit 51 returns to step 707 and makes a call to the second communication terminal 6 again. If the connection of the line is not confirmed even after performing step 707 a predetermined number of times, it is preferable to end the process.
[0042]
Next, the operation of the second communication terminal 6 when receiving a call from the first communication terminal 5 will be described with reference to FIG. 1, FIG. 3, and FIG.
[0043]
When the call from the first communication terminal 5 to the second communication unit is confirmed in step 801, the second control unit executes the communication program stored in the second memory 63, and in step 802, the call signal Measure the number of times. Here, the determination of the first communication terminal 5 is performed by referring to the telephone number notified by the calling telephone number notification service and the telephone number of the first communication terminal 5 registered in the second memory 63.
[0044]
If the number of call signals measured in step 802 is less than 5, the second control unit 61 refers to the table in the communication program (see FIG. 4), and in step 804, the data type Make a decision. Then, according to the type of data determined in step 804, various processes such as transmission of data to the management device 3 are performed in step 805.
[0045]
After the completion of the various processes in step 805, the second control unit 61 makes a reception confirmation call with a predetermined number of call signals set in advance to the first communication terminal 5 in step 806, and performs the communication process. finish. Here, the reception confirmation call is a call for notifying the first communication terminal 5 that the call from the first communication terminal 5 is received by the second communication terminal 6. In the remote management system 1 according to the present embodiment, the reason why the second communication terminal 6 that has received a call from the first communication terminal 5 makes a reception confirmation call will be described in detail later. Note that the order of steps 804 to 806 described above can be changed as appropriate.
[0046]
When the number of ringing signals measured in step 802 reaches 5, the second control unit 61 proceeds to step 807 and connects the line. In step 808, data is received from the second communication unit 64. The data received in step 808 is temporarily stored in the second memory 63 and then transmitted to the management device 3 or is transmitted to the management device 3 via the second interface 62 as it is. It has become.
[0047]
When the reception of data is completed in step 808, the second communication terminal 6 disconnects the line in step 809, and transmits the data stored in the second memory 63 in step 810 to the management device 3. The communication process is terminated.
[0048]
In addition, since the equipment device 2 is controlled by the management device 3, in contrast to the above-described operation, when it is necessary to transmit data from the second communication terminal 6 to the first communication terminal 5, the above-described operation is performed. Data may be transmitted from the second communication terminal 6 to the first communication terminal 5 by the reverse procedure. Also in this case, for example, the number of call signals is set according to the type of routine command such as opening and closing of a parking lot gate, and a table showing the correspondence between the command and the number of call signals is provided for each communication terminal. By referring to the communication program, it is possible to perform various controls only by calling signal communication.
[0049]
Hereinafter, in the remote management system 1 of this embodiment, the reason why the second communication terminal 6 that has received a call from the first communication terminal 5 makes a reception confirmation call will be described in detail.
[0050]
In the present embodiment, as described above, as the first communication terminal 5 and the second communication terminal 6, wireless communication terminals using wireless communication modules such as PHS modules and mobile phone modules are used.
[0051]
Unlike a wired public telephone line, a radio communication terminal uses radio waves for communication, and therefore communication may not be performed accurately due to movement of devices or radio wave interference.
[0052]
Therefore, when the first communication terminal 5 and the second communication terminal 6 perform communication based on the number of call signals, if communication is terminated only by transmission of the call signal of the first communication terminal 5, Since the first communication terminal 5 ends the communication without confirming that the second communication terminal 6 has received the information, there is a possibility that the communication ends even though the information is not transmitted. is there.
[0053]
The reception confirmation call is a call made by the second communication terminal 6 in order to prevent such a situation due to the use of a wireless terminal. Specifically, after a predetermined time has elapsed since the first communication terminal 5 received the call, the second communication terminal 6 makes a call to the first communication terminal 5 by a predetermined number of call signals set in advance. By this call, the first communication terminal 5 can confirm that the second communication terminal 6 has received the call.
[0054]
Furthermore, when using a wireless terminal, the line may be disconnected due to a failure that occurs during communication, which may result in inaccurate communication.
[0055]
In other words, if the line is interrupted due to radio wave interference or the like while making a call based on the number of calls from the first communication terminal 5 to the second communication terminal 6, the first communication terminal 5 is scheduled to send out. The line is disconnected before the completion of the transmission of the number of paging signals, i.e., when the number of paging signals less than the number of times of the paging signal transmission is transmitted. At this time, the second communication terminal 6 that has received this call signal determines that the received call signal for a small number of times has been transmitted from the first communication terminal 5, and performs various controls based on the determination. .
[0056]
In order to prevent such a situation, the first communication terminal 5 transmits the first communication terminal 5 after performing communication from the first communication terminal 5 to the second communication terminal 6 according to the number of call signals. The reception confirmation call having the same number of times as the number of call signals may be transmitted to the first communication terminal 5. Here, when the number of the paging signals transmitted from the first communication terminal 5 and the number of the paging signals transmitted from the second communication terminal 6 are different from each other, the first communication terminal 5 returns to the second communication terminal 6 again. It is sufficient to make a call to.
[0057]
By the way, in the said embodiment, when the 1st communication terminal 5 and the 2nd communication terminal 6 communicate in the stage of the telephone call state, it communicates based on the frequency | count of the call signal preset according to the kind of data. However, instead of the number of call signals used in the above-described embodiment, communication can be performed according to the length of the call time. Here, “calling time” refers to the time when one terminal is sending a calling signal to the other terminal when the telephone line is not in a call state.
[0058]
More specifically, in the above-described embodiment, instead of a counter for measuring the number of call signals provided in the first communication terminal 5 and the second communication terminal 6, a call time such as a timer for measuring a call time. In addition to providing measurement means, the number of call signals preset in accordance with the type of data in the table of FIG. 4 used in the above embodiment is replaced with the length of the call time.
[0059]
At that time, for example, in the above-described embodiment, it is conceivable to change the unit length of the call time corresponding to one call signal, which is the number of unit times of the call signal, to the call time of 1 second. Note that the unit length of the calling time can be changed as appropriate. The unit time of the calling time may be any time as long as the unit length is distinguishable by each terminal, for example, 0.1 seconds or less. It is also possible to set the time.
[0060]
Thus, when communication is performed based on the length of the call time, it is possible to significantly reduce the communication time compared to the case where communication is performed with the number of call signals as in the above embodiment. is there.
[0061]
Finally, the present invention is not limited to the above-described embodiments, and it goes without saying that various changes and improvements can be made within the scope described in the claims.
[0062]
In the description of the present embodiment, the invention mainly applied by the present inventor is applied to a remote management system of a parking lot settlement apparatus, which is the field of use behind the invention. Is not limited to the field of use of the present embodiment, and can be used for a remote management system and a communication system in general using a telephone line network.
[0063]
【The invention's effect】
As described above, according to the present invention, since communication terminals can transmit and receive data depending on the number of call signals, a remote management system capable of minimizing communication costs is realized. To do. In addition, since the present invention uses a wireless communication terminal as the communication terminal, it is possible to reduce the installation cost when installing the communication terminal in the device, and remote management regardless of the installation location of the terminal It is a system.
[Brief description of the drawings]
FIG. 1 is a block diagram showing the overall configuration of an embodiment of a remote management system of the present invention.
FIG. 2 is a flowchart showing the operation of the first communication terminal of the remote management system of the present invention.
FIG. 3 is a flowchart showing the operation of the second communication terminal of the remote management system of the present invention.
FIG. 4 is a table referred to by a communication program used in the remote management system of the present invention.
FIG. 5 is a table that is referred to by a communication program used in a remote management system when the remote management system of the present invention is used as a remote management system for a vending machine.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Remote management system 2 Facility apparatus 3 Management apparatus 4 Telephone line network 5 1st communication terminal 51 1st control part 52 1st interface 53 1st memory 54 1st communication part 6 2nd communication terminal 61 2nd control part 62 2nd Interface 63 Second memory 64 Second communication unit

Claims (10)

A first communication terminal including a first interface connected to the first device, a first control unit that performs various controls, and a first communication unit that performs communication based on the control of the first control unit;
A second communication terminal including a second interface connected to the second device, a second control unit that performs various controls, and a second communication unit that performs communication based on the control of the second control unit;
A telephone line network connecting the first communication terminal and the second communication terminal;
In the remote management system with
When data is input from the first interface, the first communication terminal determines the type of the input data by the first control unit, and calls the preset number of times according to the type of data. A signal is transmitted to the second communication unit via the first communication unit and the telephone line network, and data from the first interface is transmitted to the first communication unit and the telephone when the line is in a call state. transmits to the second communication unit via a line network, said first control unit, upon determination of the kind of data the input, the input data whether communicable with the number of times of the paging signal data If the data is communicable by the number of call signals, set the call signal a preset number of times according to the type of data, and the data that cannot be communicated by the number of call signals. Re if being adapted to set a call signal of a preset predetermined number of times,
When the second communication unit receives a call from the first communication terminal, the second communication terminal detects the number of call signals by the second control unit, and detects the detected call signal. When the number of times is less than the predetermined number, the control is performed in accordance with the number of times of the detected call signal while the line is not in a call state and various preset control is performed for each number of the number of the call signal. When the number of received call signals reaches a predetermined number, the line is put into a call state, and data transmitted from the first communication unit to the second communication unit via the telephone line network is received. Remote management system characterized by becoming. When the number of call signals from the first communication terminal is less than a predetermined number, the second control unit performs a reception confirmation call by a predetermined number of call signals after a predetermined time has elapsed since the reception of the call signal. The remote management system according to claim 1 , wherein a call is made to the first communication unit via the second communication unit and the telephone line network. 3. The remote management system according to claim 2 , wherein the number of call signals for the reception confirmation call is the same as the number of call signals transmitted from the first communication terminal to the second communication terminal. . A first communication terminal including a first interface connected to the first device, a first control unit that performs various controls, and a first communication unit that performs communication based on the control of the first control unit;
A second communication terminal including a second interface connected to the second device, a second control unit that performs various controls, and a second communication unit that performs communication based on the control of the second control unit;
A telephone line network connecting the first communication terminal and the second communication terminal;
In the remote management system with
When data is input from the first interface, the first communication terminal determines the type of input data by the first control unit, and has a length set in advance according to the type of data. Calling a call signal to the second communication unit via the first communication unit and the telephone line network during a call time, and when the line enters a call state, the data from the first interface is sent to the second communication unit. first send a communication unit and via the telephone line network to the second communication unit, the first control unit, upon determination of the kind of data the input, the input data is call duration Whether the data is communicable or not, if the data is communicable by the length of the call time, set a call time of a preset length according to the type of data, and set the length of the call time. Through A predetermined set in advance if the data can not adapted to set a call time length,
When the second communication unit receives a call from the first communication terminal, the second communication terminal detects the length of the call time by the second control unit, and the detected call time If the time is shorter than the predetermined time, the control unit performs various controls set in advance based on the length of the ringing time while the line is not in a call state according to the length of the detected ringing signal. If the length of the detected ringing time reaches a predetermined length, the line is put into a call state and transmitted from the first communication unit to the second communication unit via the telephone line network. A remote management system characterized by receiving data. When the length of the call time from the first communication terminal is shorter than a predetermined length, the second control unit may wait for a predetermined length of the call time after the predetermined time has elapsed since the reception of the call signal. 5. The remote management system according to claim 4 , wherein a reception confirmation call by a call signal is transmitted to the first communication unit via the second communication unit and the telephone line network. The length of the call time of the acknowledgment call, the first communication terminal according to claim 5, characterized in that the length same length as the transmitted call time to the second communication terminal Remote management system. Said first device is a facility device to be managed object, said second device, according to any one of claims 1 to 6, characterized in that a management apparatus that manages the facility device Remote management system. Said first device is a management device, the second device, remote management according to any one of claims 1 to 6, characterized in that a facility device to be managed object of the management device system. The first communication terminal and the second communication terminal, the remote management system according to any one of claims 1 to 8, characterized in that each have a memory for storing various data necessary for communication . The first communication terminal and the second communication terminal, the remote management system according to any one of claims 1 to 9, characterized in that a wireless communication terminal.

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