JPH07101884B2 - Line connection method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Outline] A line connection method for connecting and disconnecting a line when a center device uses a general leased line to perform data communication with a plurality of terminal devices, and relates to a plurality of terminals of the center device. For the purpose of shortening the response time to the equipment, communication dedicated input / output that performs communication and detects the status of the terminal equipment corresponding to each of the multiple terminal equipment that constantly outputs the status of its own equipment in the center equipment A circuit is provided, and based on the result of detecting the state of each terminal device by the communication-dedicated input / output circuit, the use / unuse of a plurality of general leased lines is registered in advance in the storage unit of the center device, and communication is performed at any time. The general private line registered in the storage unit when the registration is updated according to the detection result of the state of each terminal device by the dedicated input / output circuit and the communication dedicated input / output circuit is initialized. Check the used / unused state, a structure in which by the a corresponding terminal device only for conventional leased lines that are registered as the use condition and the communication-dedicated output circuits to the connection state for data communication.

[Industrial application field]

The present invention relates to a line connection system for switching a line between connected and disconnected when a center device uses a general leased line to perform data communication with a plurality of terminal devices.

There is known a security system in which a plurality of terminal devices connected with a disaster prevention sensor, a crime prevention sensor, etc. and a center device are connected by a general dedicated line, and the center device periodically monitors the plurality of terminal devices. In such a security system, there is a demand for shortening the response time for each terminal device in the center device in response to a demand for faster accident handling such as fire. For this,
It is necessary to provide a communication-dedicated IC for each terminal device so that the center device and each terminal device can be processed on a one-to-one basis.

[Conventional technology]

The conventional security system is a communication-only IC that uses a set of dedicated lines for multiple terminal devices in the terminal line interface in the center device.
(SIO: Serial input / output circuit) is provided to perform data processing. Therefore, while processing a dedicated line of one terminal device, it is dedicated to another terminal device. The line goes into a waiting state. Further, the switching for bringing the center device and the lines of a plurality of terminal devices into the connected state or the unconnected state is performed manually.

[Problems to be Solved by the Invention]

In the conventional example, the center apparatus has a configuration in which one set of a plurality of dedicated lines is provided with one communication-dedicated IC to perform data processing, and therefore while the dedicated line of one terminal is being processed, the dedicated lines of other terminal devices are not waiting. However, there is a problem that the processing time becomes longer by that amount.

Further, since connection / disconnection to the dedicated line is manually performed, even if there is a line failure or the like, it cannot be automatically set to the unconnected state. Therefore, it is necessary to repeatedly perform abnormal detection processing on an abnormal line that could not be brought into the unconnected state at a certain cycle, and it is sufficient to perform abnormal detection processing once for a line with a line failure or the like. As a result, the processing is delayed with respect to other lines, and from this point also the processing time becomes long.

It is an object of the present invention to provide a line connection system that can shorten the response time of a center device with respect to a plurality of terminal devices.

[Means for Solving the Problems]

FIG. 1 shows the principle of the present invention. In the figure, reference numeral 30 denotes a center device, which is provided with communication-dedicated input / output circuits 33 ₁ , 33 ₂ , ... Corresponding to the plurality of terminal devices 31 ₁ , 31 ₂ ,. A control unit 35 uses a plurality of general leased lines 32 ₁ , 32 ₂ , ... In the storage unit 34.
The unused state is registered in advance, and at any time, the registration is updated according to the detection result of the state of each terminal device by the communication dedicated input / output circuit, and the communication dedicated input / output circuit 33 ₁ , 33 ₂ , ... Is initialized. General leased line 32 ₁ registered when
32 ₂ .., the unused / used state is checked, and the terminal device and the communication dedicated input / output circuit corresponding only to the general leased line in the used state are connected to perform data communication.

[Action]

In the present invention, the communication-dedicated input / output circuits 33 ₁ , 33 of the center device 30
_2, ... and the terminal device 31 _1, 31 _2, ... and a previously registered in the storage unit 34 the line status of the terminal device (used / unused) connected one to one, data for only using the line Processing is not performed, and no data processing is performed thereafter on an unused line or a line for which a line error or a data error has occurred and which has been set as "unused". For this reason, once an abnormal line such as a line failure is detected, it is automatically disconnected from that line. Therefore, the abnormal line is repeatedly detected at a certain cycle. The response time can be shortened compared to the conventional example.

〔Example〕

FIG. 2 shows a circuit system diagram of an embodiment of the present invention. In the figure, 1 _1, 1 _2, ... in the terminal device, respectively communication-dedicated IC (SIO) 2 _1,
2 _2, ... and the interface 3 _1, 3 _2, are composed of .... A sensor group 4 ₁ , 4 ₂ , ... such as a disaster prevention sensor and a crime prevention sensor is connected to each of these terminal devices, and the terminal devices 1 ₁ , 1 ₂ , ...
Are each sensor group 4 _1, 4 _2, are monitoring the ... all the time. Further, the interfaces 3 ₁ , 3 ₂ , ... Are set to zero V while the sensor groups 4 ₁ , 4 ₂ , ... Are not operating yet or when the terminal devices 1 ₁ , 1 ₂ , ... Are normal.
Check pulse having a maximum amplitude level to + 48v and -48V mainly while the terminal abnormality or sensors 4 _1, 4 _2, a -48V If ... is activated, so as to output from the respective terminals L ₁ . 5 is a center device, the terminal device 1 _1, 1 _2, ... interface ₆₁ in response to each, 6 _2, ... and SIO7 _1, 7 _2, ... are provided, also, SIO7 _1, 7 _2, ... to control the CPU8, SIO7 _1, 7 _2,
A RAM 9 or the like for storing the line use / unused state of each terminal device 1 ₁ , 1 ₂ , ... Which can be seen from the level of the DSR terminal of is provided.

CPU8 is controlled by the control program stored in ROM10
It is configured to operate in accordance with the respective flowcharts shown in FIG. (Used / unused registration flowchart) and FIG. 4 (incoming / polling process flowchart). The interfaces 6 ₁ , 6 ₂ , ... Of the center device 5 and the terminal devices 1 ₁ , 1 ₂ , ... Are connected by dedicated circuits 11a, 11b, 12a, 12b ,.

Next, the operation of the present invention will be described with reference to FIGS.

First, when the center device 5 enters a terminal connection state with respect to each terminal device 1 ₁ , 1 ₂ , ... (Step 50 in FIG. 3), each terminal device
RAs provided corresponding to the lines for 1 ₁ , 1 ₂ , ...
Set the line status register in M9 to "1" for all lines.
(Indicates the usage state) is initialized (step 51). Next, it is judged whether or not the level of the DSR terminal of SIO7 ₁ , 7 ₂ , ... Is "0" (step 52). If it is "0", the line of the terminal device is in use, If it is "1", it is in an unused state.

In this case, the terminal device 1 _1, 1 _2, ... is normal or sensors 4 _1, 4 _2,
While is not operating, the photocouplers 13b and 14b are operated by the control signals from the SD and DTR terminals of SIO2 ₁ , 2 ₂ , ..., and the above-mentioned check pulse is output from the line 11b.
Also, when the terminal devices 1 ₁ , 1 ₂ , ...
When 4 ₁ , 4 ₂ , ... Are operated, the check pulse is stopped and the photocoupler 14b is operated to output −48V. Therefore,
If the lines of the terminal devices 1 ₁ , 1 ₂ , ... are used and the check pulse is supplied to the interfaces 6 ₁ , 6 ₂ , ..., the photocouplers 15b, 16b operate together and the output of the AND gate 17 is output. Is "0" while the lines of the terminal devices 1 ₁ , 1 ₂ , ... are used and -48V is supplied to the interfaces 6 ₁ , 6 ₂ , ..., the photocoupler 16b operates. Also in this case, the output of the AND gate 17 is "0". On the other hand, the terminal device
If 1 ₁ , 1 ₂ , ... Are unused, no signal is output to the line 11b, the photocouplers 15b and 16b are always off, and the output of the AND gate 17 is "1".

When the level of the DSR terminal of SIO7 ₁ , 7 ₂ , ... is "0" (in use) in step 52 of Fig. 3, the DTR terminal of SIO7 ₁ , 7 ₂ , ... is set to "1" (connection). (step 53), the SD terminal to "1" by operating a photocoupler 15a by (step 54), and outputs the -48V terminal L ₁ (step 55). This −4
The output signal of 8V gives an instruction to the terminal device to transmit data. For example, the photocoupler 13a of the interface 3 ₁ is operated by the output signal from the center device 5 supplied via the line 11a, and the AND gate 2
The output of ₁ is supplied to the DSR pin of SIO2 ₁ .

On the other hand, if the level of the DSR terminal of SIO7 ₁ , 7 ₂ , ... Is "1" (unused state) in step 52 of FIG. 3, D of SIO7 ₁ , 7 ₂ ,.
Set the TR terminal to "0" (not connected) (Step 5
6), and the SD terminal to "0" (step 57) photocouplers 15a, clear the 16a, and outputs the OV terminal L ₁ (step 58). Then, the line status register in the RAM 9 is set to "0" (step 59). That is, in the present invention, the registers are once initially set to "1" (used) for all lines, and the line status register is set to "0" for the lines whose DSR terminal is "1" (unused). ”(Unused) again. In this way, the line status of each line of each terminal device 1 ₁ , 12 ₂ , ... Is registered in the RAM 9 as shown in FIG.

The CPU 8 performs control according to the flow chart shown in FIG. 4 when initializing each SIO 7 ₁ , 7 ₂ , .... After entering the standby state (step 70 in FIG. 4), the line number registered in RAM9 is searched for "used" (step 7).
1) It is determined whether or not a check pulse is output from the terminal device (step 72). If the terminal is abnormal or the sensor group is operating, the check pulse is not output as described above (Y in step 72). This is detected by the check pulse detection circuit 20 shown in FIG. 2 (-48 from the terminal device).
Since V is output, the photo coupler 16b operates and the input of the check pulse detection circuit 20 becomes "0"), and the RTS of SIO7 ₁
The terminal becomes "1" (step 73). Then CTS of SIO7 ₁
It is detected that the terminal has become "0" (step 74), and here it is determined that the check pulse from the terminal device has been stopped (step 75).

Next, from the terminal device that stopped the check pulse, data indicating a terminal abnormality or data indicating a fire or theft is sent to the center device 5 and stored in an area of the RAM 9 different from the used / unused registration area. . Therefore, in the center device 5, RA
Read these data from M9 (incoming call processing) (step
76) Then, it is judged whether or not these data are normally received (step 77). If the data is normally received, the process returns to step 71 again, and the same operation is repeated. If the data from the terminal device is not normally received in step 77, it is judged to be a data error or line error (step 78), and the line status of the RAM 9 for the line processed as the "used" line is determined. The register registration is reset to "unused" (step 79). Step 71 for lines that have been reset to "unused"
No data processing is performed thereafter.

On the other hand, when it is determined in step 72 that the check pulse is output (N in step 72), the line number used is determined.
Sequentially Update performs polling only available line with data from SIO7 ₁ of the SD terminal (step 80), performs the processes in and after step 76 above.

As described above, in the present invention, the SIOs 7 ₁ , 7 ₂ , ...
, And the terminal devices 1 ₁ , 1 ₂ , ... Are connected one-to-one and the line status (used / unused) of the terminal device is registered in the RAM 9, and only used lines are shown in steps 72 to 77 in FIG. Do not process the data for the unused line or the line that was originally set as "unused" for the line that has an error or a data error. There is. For this reason, 1 for abnormal line such as line failure
Since the line is automatically disconnected after the abnormality is detected once, the response time can be shortened as compared with the conventional example in which the abnormality is repeatedly detected at a certain cycle. Further, the SIO 7 ₁ , 7 ₂ , ... Of the center device 5
, And the terminal devices 1 ₁ , 1 ₂ , ... Are connected one-to-one to perform data processing. Therefore, a line having a single SIO in a set of a plurality of lines is used for data processing as in the conventional example. The other line does not seem to be in the waiting state while processing the, and the response time can be shortened also from this point.

By the way, the SID 7 ₁ , 7 ₂ , ... Of the center device 5 is provided with a terminal (not shown) capable of detecting that the terminal device having the line abnormality is restored to the normal state, and is restored to the normal state. When this is detected, the "unused" of the line registered in RAM9 is reset to "used". In this way, the terminal device in which the line is abnormal is prevented from performing data processing as an "unused" line until it is restored to the normal state.

It should be noted that in the above-described embodiment, the use / unuse registration is registered in the CPU8 as the third register.
The configuration is such that it is registered in the line status register of the RAM 9 according to the operation of the flowchart shown in the figure, but the present invention is not limited to this. For example, a method of registering in the line status register corresponding to the line by designation from the management panel. But it's okay.

〔The invention's effect〕

As described above, according to the present invention, the data processing is performed only for the used lines, and for the lines which are originally set as "unused" for the unused line or the line having the line abnormality, etc. Since the data processing is not performed thereafter, after detecting an abnormal line such as a line failure, it is automatically disconnected to that line, and therefore On the other hand, the response time can be shortened compared to the conventional example in which the abnormality is repeatedly detected at a certain cycle, and since the center device and the communication dedicated input / output circuit are connected in a one-to-one relationship, a plurality of dedicated lines are provided. From this point as well, the response time can be shortened as compared with the conventional example in which one set of one communication dedicated input / output circuit is provided for data processing. In addition, each terminal device connected to the center device transmits the use / unused state of the continuous line to the center device, and the communication dedicated input / output circuit in the center device detects the state of each terminal device. For this reason, it is possible to make a determination as to whether the device is used or not in a short time without requiring an inquiry time and a response waiting time from the center device to the terminal device.

[Brief description of drawings]

FIG. 1 is a principle diagram of the present invention, FIG. 2 is a circuit system diagram of an embodiment of the present invention, FIGS. 3 and 4 are flowcharts for explaining the operation of the present invention, and FIG. 5 is used in the present invention. It is a figure explaining the mode of registration to a line status register. In the figure, 1 ₁ , 1 ₂ , ..., 31 ₁ , 31 ₂ , ... are terminal devices, 2 ₁ , 2 ₂ , ..., 7 ₁ , 7 ₂ , ...
SIO (Communication dedicated IC), 3 ₁ , 3 ₂ , ..., 6 ₁ , 6 ₂ , ... are interfaces, 4 ₁ , 4 ₂ , ... are sensor groups, 5, 30 are center devices, 8 is CPU, 9 is RAM , 11a, 11b, 12a, 12b, ..., 32 ₁ , 32 ₂ , ... are general leased lines, 13a, 13b, 14a, 14b, 15a, 15b, 16a, 16b are photocouplers, 17,21 are AND gates, 20 Check pulse detection circuit, 33 _1, 33 _2, ... communication dedicated input-output circuit 34 is storage means, 35 denotes a control unit.

Claims (1)

[Claims] 1. A center device (30) and a plurality of terminal devices (31 ₁ ,
31 ₂ , ...) using a general leased line (32 ₁ , 32 ₂ , ...) to periodically repeat data communication, in the center device (30) Corresponding to each of the plurality of terminal devices (31 ₁ , 31 ₂ , ...) that constantly output, communication-only input / output circuit (33 ₁ , 31 ₂ , ...) for detecting communication and the state of the terminal devices (31 ₁ , 31 ₂ , ...) 33 ₂ , ...), and based on the result of detecting the state of each terminal device (31 ₁ , 31 ₂ , ...) by the communication dedicated input / output circuit (33 ₁ , 33 ₂ , ...), the center device ( The use / unuse of the plurality of general leased lines (32 ₁ , 32 ₂ , ...) Is registered in the storage unit (34) of 30) in advance, and the communication dedicated input / output circuit (33 ₁ , 33) is added at any time. ₂ ,
...), the registration is updated according to the detection result of the state of each terminal device (31 ₁ , 31 ₂ , ...), and the memory is stored when the communication dedicated input / output circuit (33 ₁ , 33 ₂ , ...) is initialized. Check the used / unused status of the general leased lines (32 ₁ , 32 ₂ , ...) Registered in the department (34), and select a terminal device that supports only the general leased lines registered as the used state. A line connection method characterized in that data communication is performed by connecting to a dedicated input / output circuit for communication.