JP3996725B2 - Message conversion device and data collection system using message conversion device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a message conversion device and a data collection system using the message conversion device.
[0002]
[Prior art]
Automatic meter reading and terminal call communication of meters with communication functions such as gas, water and electricity using an analog public line network or dedicated line have already been put into practical use. Here, in the center device in the meter reading center, a center device that performs transmission / reception of signals and information processing of collected data using an 8-bit code is mainly used. However, in a meter with a communication function, Both meters with a 5-bit telegraphic communication function and meters with an 8-bit telegraphic communication function are used. For example, in a LPG meter or the like, a meter with a 5-bit telegram communication function is still widely used, and a transmission device having a function of mutually converting a 5-bit telegram signal and an 8-bit telegram signal has been developed.
[0003]
First, the configuration of a conventional 5-bit / 8-bit common type transmission apparatus will be described with reference to FIGS. FIG. 8 is a list showing the main features of a 5-bit telegram signal and an 8-bit telegram signal that differ not only in the code but also in communication speed and error control method. FIG. It is a block diagram of a bit / 8 bit common type transmission apparatus.
[0004]
First, the configuration of a conventional 5 bit / 8 bit common type transmission apparatus will be described with reference to FIG.
[0005]
The center device 10 is a device installed at a meter reading center that performs transmission / reception of 8-bit telegram signals and information processing of collected data.
[0006]
The meter 17 with a 5-bit telegraphic communication function is a device provided in each house that can perform data reading and transmission / reception of a 5-bit telegram signal.
[0007]
The meter 19 with an 8-bit telegram communication function is a device provided in each house that can perform data reading and transmission / reception of an 8-bit telegram signal.
[0008]
The 5-bit / 8-bit common type transmission device 14 is a device that performs mutual conversion between a 5-bit telegram signal and an 8-bit telegram signal. The 5-bit / 8-bit common type transmission device 14 is interposed between the center device 10 and the meter 17 with a 5-bit telegraphic communication function or the meter 19 with an 8-bit telegraphic communication function provided in each door, It is connected to the analog public network 11. However, when using the meter 17 with a 5-bit message communication function, the meter 17 with a 5-bit message communication function is connected to the interface unit 16 corresponding to the 5-bit message signal, and the meter 19 with an 8-bit message communication function is connected. When used, the meter 19 with an 8-bit telegraphic communication function is connected to the interface unit 18 corresponding to the 8-bit telegram signal (in FIG. 9, the meter 17 with a 5-bit telegraphic communication function and the 8-bit telegraphic communication function) Both attached meters 19 are shown). The configuration of the 5-bit / 8-bit common type transmission device 14 will be described in detail below.
[0009]
The network control unit 12 responds to a call from the center apparatus 10 that has arrived through the analog public line network 11 or a call from the meter 17 with a 5-bit telegraphic communication function or the meter 19 with an 8-bit telegraphic communication function. A meter 17 with a 5-bit telegraphic communication function or a meter 19 with an 8-bit telegraphic communication function is connected to the analog public network 11, and the meter 17 with a 5-bit telegraphic communication function or an 8-bit telegraphic communication function Between the attached meter 19, it has a function which comprises a data communication circuit.
[0010]
The modem 13 demodulates the 8-bit telegram signal output from the network controller 12 and outputs the demodulated 8-bit telegram signal to the main controller 15 as an 8-bit digital signal, and conversely the 8-bit output from the main controller 15. It has a modulation / demodulation circuit that can modulate a telegram-type digital signal and output it to the network control unit 12 as an 8-bit telegram signal.
[0011]
The main control unit 15 controls the operation of each circuit and outputs an 8-bit telegram-type digital signal output from the modem unit 13 to the 8-bit telegram signal corresponding interface unit 18. This is a part for outputting an 8-bit telegraphic digital signal output from the corresponding interface unit 18 to the modem unit 13. The main control unit 15 converts the 8-bit telegram-type digital signal output from the modem unit 13 into a 5-bit telegram-type digital signal and outputs the 5-bit telegram-type digital signal to the interface unit 16 corresponding to the 5-bit telegram signal. This is a part that converts a 5-bit telegram-type digital signal output from the 5-bit telegram-signal-compatible interface unit 16 into an 8-bit telegram-type digital signal and outputs it to the modem unit 13.
[0012]
The interface unit 16 corresponding to a 5-bit message signal has an input / output terminal for a meter with a 5-bit message communication function, and is interposed between the meter 17 with a 5-bit message communication function and the main control unit 15 to provide a 5-bit message. This is the part that inputs and outputs digital signals.
[0013]
The interface unit 18 corresponding to the 8-bit message signal has an input / output terminal for a meter with an 8-bit message communication function, and is interposed between the meter 19 with the 8-bit message communication function and the main control unit 15 to provide an 8-bit message. This is the part that inputs and outputs digital signals.
[0014]
The operation of the conventional 5-bit / 8-bit common transmission apparatus 14 having such a configuration will be described with reference to FIG.
[0015]
First, a case where a call from the center apparatus 10 arrives through the analog public line network 11 will be described.
[0016]
In response to the incoming call from the center device 10, the network control unit 12 disconnects the telephone 20 from the analog public line network 11, and the meter 17 with the 5-bit telegraphic communication function or the 8-bit telegraphic communication function. A data communication circuit is formed between the attached meters 19. When the communication state is established, the modem unit 13 demodulates the 8-bit telegram signal transmitted from the center device 10 and input through the network control unit 12, and outputs the demodulated signal to the main control unit 15 as an 8-bit telegram type digital signal. .
[0017]
When the meter 19 with an 8-bit telegraphic communication function is connected to the interface unit 18 corresponding to the 8-bit telegram signal, the main control unit 15 receives a selection message specifying the interface unit 18 corresponding to the 8-bit telegram signal from the center device 10. Then, an activation message is transmitted to the meter 19 with an 8-bit telegram communication function to start communication. After that, the main control unit 15 outputs the 8-bit telegram-type digital signal output from the modulation / demodulation unit 13 to the meter 19 with an 8-bit telegram-type communication function as it is through the 8-bit telegram signal corresponding interface unit 18.
[0018]
When the meter 17 with a 5-bit telegram communication function is connected to the 5-bit telegram signal corresponding interface unit 16, the main control unit 15 receives a selection telegram for designating the 5-bit telegram signal-corresponding interface unit 16 from the center device 10. If it does so, a start message will be transmitted to the meter 17 with a 5-bit message type communication function, and communication will be started. Thereafter, the main control unit 15 converts the 8-bit telegram-type digital signal output from the modem unit 13 into a 5-bit telegram-type digital signal, and the 5-bit telegram-type communication function through the 5-bit telegram signal interface unit 16. Output to the attached meter 17.
[0019]
In this way, data transmission from the center device 10 to the meter 17 with a 5-bit telegraphic communication function or the meter 19 with an 8-bit telegraphic communication function is performed.
[0020]
Conversely, data transmission from the meter 17 with a 5-bit telegraphic communication function or the meter 19 with an 8-bit telegraphic communication function to the center device 10 is performed as follows.
[0021]
When the meter 19 with an 8-bit telegraphic communication function is connected, the meter 19 with an 8-bit telegraphic communication function includes an 8-bit telegraphic digital signal for the startup message from the main control unit 15 and the center device 10 thereafter. The 8-bit telegram-type digital signal corresponding to the meter transmission telegram is output to the main control unit 15 through the 8-bit telegram signal corresponding interface unit 18. Then, the main control unit 15 outputs the 8-bit telegram-type digital signal input through the 8-bit telegram signal corresponding interface unit 18 to the modulation / demodulation unit 13 as it is.
[0022]
When the meter 17 with the 5-bit telegraphic communication function is connected, the meter 17 with the 5-bit telegraphic communication function includes the 5-bit telegraphic digital signal for the start message from the main control unit 15 and the center device 10 thereafter. A 5-bit telegram-type digital signal corresponding to the meter transmission telegram is output to the main control unit 15 through the 5-bit telegram signal corresponding interface unit 16. The main control unit 15 converts the 5-bit telegram-type digital signal input through the 5-bit telegram-signal-compatible interface unit 16 into an 8-bit telegram-type digital signal and outputs the converted signal to the modem unit 13.
[0023]
At any time, the modem unit 13 modulates the 8-bit telegram-type digital signal output from the main control unit 15 and outputs it to the network control unit 12 as an 8-bit telegram signal. The network control unit 12 transmits the 8-bit telegram signal demodulated by the modem unit 13 to the center apparatus 10 through the analog public line network 11.
[0024]
In this way, data transmission from the meter 17 with a 5-bit telegraphic communication function or the meter 19 with an 8-bit telegraphic communication function to the center device 10 is performed.
[0025]
So far, the data transmission / reception when a call from the center apparatus 10 has been described has been described. However, when the meter 17 with a 5-bit telegraphic communication function or the meter 19 with an 8-bit telegraphic communication function requests a call. The same applies to data transmission / reception.
[0026]
In other words, in the case of a call from the meter 17 with a 5-bit message communication function, the network control unit 12 responds to this request after the main control unit 15 performs individual processing on the meter 17 with a 5-bit message communication function. In response, the telephone number of the center device 10 stored in advance is dialed through the analog public line network 11. In the case of a call from the meter 19 with an 8-bit telegram communication function, the network control unit 12 dials the telephone number of the center device 10 included in the call telegram through the analog public line network 11. In response to such a dial call, a data communication circuit is configured between the center device 10 and the meter 17 with a 5-bit telegraphic communication function or the meter 19 with an 8-bit telegraphic communication function. When the communication state is established, data transmission / reception is performed as described above via the 5-bit / 8-bit common type transmission device 14.
[0027]
By using the 5-bit / 8-bit common transmission device 14 as described above, the analog public line network 11 of the meter 17 with a 5-bit telegraphic communication function and the meter 19 with an 8-bit telegraphic communication function is provided. Automatic meter reading and terminal call communication can be used. In either case, the data information is transmitted as an 8-bit telegram signal that can be easily processed by a computer.
[0028]
[Problems to be solved by the invention]
By the way, by reducing the price of communication methods using a wireless public line network such as PHS and a digital public line network such as ISDN, these line networks can also be used for collecting data of meters with communication functions. It has become.
[0029]
Here, a data collection system for a meter with an 8-bit telegraphic communication function or an 8-bit telegraphic digital public network control device that uses the wireless public network via an 8-bit telegraphic radio public network control device. Therefore, a data collection system for meters with an 8-bit telegraphic communication function using a digital public network has already been put into practical use. In addition, a data collection system for meters with an 8-bit telegraphic communication function that uses radio via an 8-bit telegraphic radio device has already been put into practical use.
[0030]
However, for example, when collecting data for a meter with an 8-bit telegraphic communication function together with a meter with an 8-bit telegraphic communication function in a joint meter reading, etc., because the communication specifications are different, the above-mentioned various lines are supported. The 8-bit telegraphic communication device could not be used as it is. Therefore, it was necessary to independently develop a transmission device corresponding to each line, such as the 5-bit / 8-bit common type transmission device 14.
[0031]
In addition, in order to collect data of a meter with a communication function installed in a place where wiring is impossible, a radio system using specific low power must be used, but an 8-bit telegraphic radio device is used as it is. I could not make use of it. For this reason, it was necessary to independently develop a wireless device corresponding to 5 bits and 8 bits.
[0032]
In consideration of such problems, the present invention provides a message conversion device that can be used in common by various 8-bit message communication devices and that enables data collection of meters with a 5-bit message communication function. It is the purpose.
[0034]
[Means for Solving the Problems]
  FirstoneThe present invention (claims)1Corresponds to)A first interface unit for transmitting and receiving a first transmission signal;
A second interface for transmitting and receiving a second transmission signal;
A main control unit that performs mutual conversion between the first transmission signal and the second transmission signal;
With
The main control unit (1) converts the first transmission signal input from the first communication device through the first interface unit into the second transmission signal, and outputs the second communication device. And (2) converting the second transmission signal input from the second communication device through the second interface unit into the first transmission signal. Output to the first communication device through the first interface unit,
The main control unit responds to an activation signal for notifying the start of a call of the second communication device input from the second communication device, and sends a signal for confirming the content of the call to the second communication device. Output to the communication device and input from the second communication deviceSaidThe call of the second communication device included in the signal;SaidMemorize the contents andSaidOutput contents to the first communication device,This is a message conversion device.
[0035]
  FirsttwoThe present invention (claims)2The first interface unit is an 8-bit telegram signal compatible interface unit that transmits and receives 8-bit telegram signals.
The second interface unit is a 5-bit message signal compatible interface unit that transmits and receives a 5-bit message signal.
The main control unitSaid5-bit message signal andSaid8-bit telegram signalSaidPerform mutual conversion,firstbook ofIt is the message | telegram conversion apparatus of invention.
[0036]
  FirstthreeThe present invention (claims)3Corresponds to)A first interface unit that transmits and receives a first transmission signal; a second interface unit that transmits and receives a second transmission signal; and a main control that performs mutual conversion between the first transmission signal and the second transmission signal And equipped withA message conversion device;
SaidA first communication device for transmitting and receiving a first transmission signal;
SaidA second communication device for transmitting and receiving a second transmission signal;
SaidA center device for transmitting and receiving signals to and from the first communication device;,
With,
The main control unit (1) converts the first transmission signal input from the first communication device through the first interface unit into the second transmission signal, and converts the second transmission signal to the second transmission signal. Output to the communication device through the second interface unit. (2) The second transmission signal input from the second communication device through the second interface unit to the first transmission signal. Converted and output to the first communication device through the first interface unit,
The main control unit responds to an activation signal for notifying the start of a call of the second communication device input from the second communication device, and sends a signal for confirming the content of the call to the second communication device. Storing the content of the call of the second communication device included in the signal input to the communication device and input from the second communication device to the communication device; Output to the first communication device,It is a data collection system.
[0037]
  FirstFourThe present invention (claims)4Corresponds to the above-mentioned message conversion deviceRegardingIsThe first interface unit is an 8-bit message signal compatible interface unit that transmits and receives an 8-bit message signal, and the second interface unit is a 5-bit message signal interface unit that transmits and receives a 5-bit message signal; The main control unit performs mutual conversion between a 5-bit message signal and an 8-bit message signal.,
The first communication device is an 8-bit telegraphic communication device that transmits and receives an 8-bit telegram signal;
The second communication device is a meter with a 5-bit telegram communication function that transmits and receives a 5-bit telegram signal.,FirstthreeofBookIt is a data collection system of invention.
[0041]
  FirstFiveThe present invention (claims)5Corresponds to)A first interface unit that transmits and receives a first transmission signal; a second interface unit that transmits and receives a second transmission signal; and a main control that performs mutual conversion between the first transmission signal and the second transmission signal A message conversion device comprising:
A first communication device for transmitting and receiving the first transmission signal;
A second communication device for transmitting and receiving the second transmission signal;
A center device for transmitting and receiving signals to and from the first communication device;
With
The main control unit (1) converts the first transmission signal input from the first communication device through the first interface unit into the second transmission signal, and converts the second transmission signal to the second transmission signal. Output to the communication device through the second interface unit. (2) The second transmission signal input from the second communication device through the second interface unit to the first transmission signal. Converted and output to the first communication device through the first interface unit,
The first interface unit is an 8-bit message signal compatible interface unit that transmits and receives an 8-bit message signal, and the second interface unit is a 5-bit message signal interface unit that transmits and receives a 5-bit message signal; The main control unit performs the mutual conversion of the 5-bit message signal and the 8-bit message signal,
The first communication device is an 8-bit telegraphic communication device that transmits and receives an 8-bit telegraphic signal, and the second communication device is a meter with a 5-bit telegraphic communication function that transmits and receives a 5-bit telegraphic signal,
The 8-bit telegram communication device is an 8-bit telegram radio device A;
8-bit telegram typeThe wireless device A is wirelessly connected to a different 8-bit electronic wireless device B,
The 8-bit electronic wireless device B is connected to a public line network or a dedicated line.,It is a data collection system.
[0042]
  FirstSixThe present invention (claims)6The 8-bit telegram radio device A and the 8-bit telegram radio device B are specific low-power radio devices.,FirstFiveofBookIt is a data collection system of invention.
[0044]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the invention will be described with reference to the drawings. In addition, FIG. 1 is a block diagram of the message | telegram conversion apparatus which is one embodiment of this invention.
[0045]
First, the configuration of the message conversion device according to the present embodiment will be described with reference to FIG.
[0046]
The center apparatus 1 is an apparatus that performs transmission / reception of signals and information processing of collected data using an 8-bit code.
[0047]
The 8-bit telegraphic radio device A3 is a device that transmits and receives 8-bit telegraphic radio signals. Further, the 8-bit telegraphic radio device A3 has an input / output terminal for a meter with an 8-bit telegraphic communication function, and the telegram conversion device 5 is connected to the input / output terminal. Here, the 8-bit telegraphic radio signal is, for example, a specific low-power radio signal, and the transmission speed thereof is 7 to 8 times the transmission speed of the 8-bit telegraphic wired signal.
[0048]
The 8-bit telegram radio device A3 includes the following radio signal input / output unit, central processing unit, and 8-bit telegram radio device A side 8-bit telegram signal compatible interface unit X shown in FIG. I have.
[0049]
The wireless signal input / output unit is a part that transmits and receives 8-bit telegraphic wireless signals.
[0050]
The central processing unit transmits the 8-bit telegram-type radio signal received by the radio signal input / output unit to the 8-bit telegram-type radio device A side 8-bit telegram signal compatible interface unit X as an 8-bit telegram-type digital signal. On the contrary, the 8-bit telegram-type digital signal input from the 8-bit telegram-type radio device A side 8-bit telegram signal compatible interface unit X is output to the radio signal input / output unit as an 8-bit telegram signal.
[0051]
The 8-bit telegram radio device A side 8-bit telegram signal compatible interface unit X can transmit and receive an 8-bit telegram-type digital signal corresponding to the photocoupler coupling, and the 8-bit telegram signal (on the telegram converter 5 side). It is connected to the corresponding interface unit 4. The 8-bit telegram radio apparatus A side 8-bit telegram signal compatible interface unit X and the 8-bit telegram signal compatible interface unit 4 are connected by a signal line via a connection unit 21. , And can be freely detached from the connecting portion 21.
[0052]
The 8-bit telegraphic radio device B9 is a device that performs transmission / reception of an 8-bit telegraphic signal to / from the center device 1 through the public network 2 and transmission / reception of an 8-bit telegraphic radio signal.
[0053]
The meter 8 with a 5-bit telegraphic communication function is a device provided in each door that can perform data reading and transmission / reception of a 5-bit telegram signal.
[0054]
The message conversion device 5 includes a main control unit 6, an 8-bit message signal compatible interface unit 4, and a 5-bit message signal compatible interface unit 7 shown below. It is a device that intervenes between the meter 8 with a bit telegraphic communication function and performs mutual conversion between a 5-bit telegram signal and an 8-bit telegram signal.
[0055]
The main control unit 6 is a control circuit that performs overall control of the operation of each circuit, and has a built-in memory that temporarily stores an 8-bit message signal and a 5-bit message signal. And an 8-bit serial data input / output unit connected to the 5-bit serial signal input / output unit connected to the 5-bit telegram signal corresponding interface unit 7. As will be described in detail later, the main control unit 6 converts the 5-bit telegram-type digital signal input from the 5-bit telegram-signal compatible interface unit 7 into an 8-bit telegram-type digital signal, thereby converting the 8-bit telegram signal. Output to the 8-bit telegram-type wireless device A3 via the corresponding interface unit 4, and conversely, convert the 8-bit telegram-type digital signal input from the 8-bit telegram-signal-compatible interface unit 4 into a 5-bit telegram-type digital signal. It has a function of converting and outputting to the meter 8 with a 5-bit telegraphic communication function via the 5-bit telegram signal corresponding interface unit 7.
[0056]
The 8-bit telegram signal compatible interface unit 4 is interposed between the main control unit 6 and the 8-bit telegraphic radio device A3 and inputs / outputs 8-bit telegram-type digital signals corresponding to photocoupler coupling. . The circuit configuration of the 8-bit message signal compatible interface unit 4 will be described later.
[0057]
The 5-bit telegram signal compatible interface unit 7 is interposed between the main control unit 6 and the meter 8 with a 5-bit telegraphic communication function, and inputs and outputs 5-bit telegraphic digital signals corresponding to metallic coupling. is there. The circuit configuration of the 5-bit message signal compatible interface unit 7 will be described later.
[0058]
Here, the circuit configuration of the interface unit will be described with reference to FIGS. 2 and 3. However, FIG. 2 shows a circuit diagram of the 8-bit telegram signal compatible interface unit X and the 8-bit telegram signal interface unit 4 on the 8-bit telegram radio apparatus A side, and FIG. 3 has a 5-bit telegram communication function. The circuit diagram of the interface part Y corresponding to 5 bit message signal corresponding to the meter side and the interface part 7 corresponding to 5 bit message signal is shown.
[0059]
First, the circuit configuration of the 8-bit telegram signal compatible interface unit 4 and the 8-bit telegram-type wireless device A side 8-bit telegram signal compatible interface unit X will be described with reference to FIG.
[0060]
In the interface unit 4 corresponding to the 8-bit message signal, the interconnection point A1 between the interface unit 4 corresponding to the 8-bit message signal and the interface unit X corresponding to the 8-bit message radio apparatus A side is connected to the movable contact of the switch SW2. ing. In addition, the interconnection point A2 between the interface unit 4 corresponding to the 8-bit message signal and the interface unit X corresponding to the 8-bit message radio apparatus A side is connected to the movable contact of the switch SW1. The make contact of the switch SW1 is connected to the power supply voltage Vh via the resistor R1. The break contact of the switch SW1 is grounded. The make contact of the switch SW2 is connected to the power supply voltage Vh via the resistor R2, and is also connected to the data input / output line L1. The break contact of the switch SW2 is grounded. The switches SW1 and SW2 are constituted by semiconductor switches and are controlled by a control circuit built in the main control unit 6. In the normal state (non-communication state), the switch SW1 is on the break contact side, and the switch SW2 is on the make contact side. One end of the data input / output line L1 is connected to a memory built in the main control unit 6 through an 8-bit serial data input / output unit.
[0061]
In the 8-bit telegram device A-side interface unit X for 8-bit telegram signal, the collector of the phototransistor F1t of the photocoupler F1 is connected to the interconnection point A1, and the emitter of the phototransistor F1t is the interconnection point A2. It is connected to the. The light emitting diode F2d of the photocoupler F2 is connected in parallel with the phototransistor F1t. Accordingly, the 8-bit telegram radio device A3 and the telegram conversion device 5 are electrically insulated by the photocouplers F1 and F2. As will be described later, the phototransistor F1t of the photocoupler F1 is used for signal transmission from the 8-bit telegram radio device A3 side to the telegram conversion device 5 side, and the light-emitting diode F2d is 8-bit from the telegram conversion device 5 side. It is used for signal transmission to the electronic wireless device A3 side.
[0062]
Next, a circuit configuration of the 5-bit message signal compatible interface unit 7 and the meter side 5-bit message signal compatible interface unit Y with a 5-bit message type communication function will be described with reference to FIG.
[0063]
In the 5-bit telegram signal corresponding interface unit 7, the switch SW3, the resistor R3, and the resistor Rh are connected in series to the power supply voltage Vh. One end of the resistor Rh is grounded via the switch SW4. One end of the resistor R4 connected in parallel with the resistor R3 is also grounded. A connection point between the resistor R3 and the resistor Rh and one end of the resistor R4 that is not grounded are connected by a data input / output line L2. One end of the data input / output line L2 is connected to a memory built in the main control unit 6 through a 5-bit serial data input / output unit. The other end of the data input / output line L2 is an interconnection point DT between the interface unit 7 corresponding to the 5-bit message signal and the interface unit Y corresponding to the meter side 5-bit message signal with a 5-bit message communication function. The switches SW3 and SW4 are constituted by semiconductor switches and are controlled by a control circuit built in the main control unit 6. In the normal state (non-communication state), both the switch SW3 and the switch SW4 are in the OFF state. The interconnection point SG between the 5-bit telegram signal compatible interface section 7 and the meter-side 5-bit telegram signal compatible interface section Y with 5-bit telegraphic communication function is grounded. Note that the value of the resistor Rh is sufficiently smaller than the value of the resistor R4.
[0064]
In the meter side 5-bit telegram signal compatible interface unit Y with a 5-bit telegraphic communication function, the switch SW5, the resistor R5, and the resistor Rm are connected in series to the power supply voltage Vm. One end of the resistor Rm is grounded via the switch SW6. One end of the resistor R6 connected in parallel with the resistor R4 is also grounded. One end of the data input / output line L3 is connected to a control circuit built in the meter 8 with a 5-bit telegraphic communication function. A connection point between the resistor R5 and the resistor Rm and one end of the resistor R6 that is not grounded are connected by a data input / output line L3. The other end of the data input / output line L3 is an interconnection point DT between the interface unit 7 corresponding to the 5-bit message signal and the interface unit Y corresponding to the meter side 5-bit message signal with a 5-bit message communication function. The switches SW5 and SW6 are composed of semiconductor switches, and are controlled by a control circuit built in the meter 8 with a 5-bit telegraphic communication function. In the normal state (non-communication state), both the switch SW5 and the switch SW6 are in the OFF state. The interconnection point SG between the 5-bit telegram signal compatible interface unit 7 and the meter-side 5-bit terminal interface unit Y with 5-bit telegraphic communication function is grounded. Note that the value of the resistor Rm is sufficiently smaller than the value of the resistor R6.
[0065]
The operation of the message conversion device according to the present embodiment having such a configuration will be described with reference to FIG.
[0066]
First, a case where a call from the center device 1 is transmitted will be described. The center device 1 transmits a signal to the 8-bit electronic wireless device B through the public line network 2. The 8-bit telegram radio apparatus B receives the signal transmitted from the center apparatus 1 and transmits it to the 8-bit telegram radio apparatus A as a radio signal. The 8-bit telegram-type wireless device A receives the radio signal transmitted from the 8-bit telegram-type radio device B and transmits it to the telegram conversion device 5 as a wired signal. In response to the arrival of the signal transmitted from the 8-bit telegraphic radio device A, the telegram conversion device 5 configures a data communication circuit between the center device 1 and the meter 8 with a 5-bit telegraphic communication function.
[0067]
When the communication state is established, the central processing unit of the 8-bit telegram radio apparatus A3 converts the 8-bit telegram signal transmitted from the 8-bit telegram radio apparatus B9 into an 8-bit digital telegram signal as an 8-bit telegram signal. The data is output at a speed of 300 bps to the interface unit X corresponding to the electronic wireless device A side 8-bit telegram signal. The 8-bit telegram signal interface unit X on the 8-bit telegram radio device A side sends the 8-bit telegram signal to the 8-bit telegram signal interface unit 4 (on the telegram converter 5 side) at a rate of 300 bps. Output.
[0068]
The 8-bit message signal compatible interface unit 4 serially transmits the 8-bit message type digital signal to the main control unit 6 through the 8-bit serial data input / output unit at a speed of 300 bps. The main control unit 6 performs horizontal / vertical parity check on the 8-bit telegram-type digital signal, and stores it once as an 8-bit telegram signal in a memory built in the main control unit 6. The main control unit 6 converts the 8-bit message signal stored in the internal memory into a 5-bit message signal having the same contents in accordance with a sequence determined by a program stored in advance, and converts it into a 5-bit message type. The digital signal is serially transmitted to the 5-bit telegram signal corresponding interface unit 7 through the 5-bit serial data input / output unit incorporated in the main control unit 6 at a speed of 200 bps. The 5-bit telegram signal compatible interface unit 7 supplies a voltage to start the meter 8 with a 5-bit telegram-type communication function, and converts the 5-bit telegram-type digital signal into the 5-bit telegram-type digital signal shown in FIG. The data is transmitted at a rate of 200 bps to the meter 8 with a 5-bit telegram-type communication function through the interface side Y corresponding to the meter-side 5-bit telegram signal with the communication function.
[0069]
In addition, when a call from the center device 1 arrives, data transmission from the meter 8 with a 5-bit telegraphic communication function to the center device 1 is performed as follows. That is, the meter 8 with a 5-bit telegram communication function detects the start-up voltage supplied from the 5-bit telegram signal compatible interface unit 7 of the telegram conversion device 5 and also receives the 5-bit telegram from the center device 10 for the meter transmission telegram. Is transmitted to the 5-bit telegram signal compatible interface section 7 through the meter-side 5-bit telegram signal compatible interface section Y with a 5-bit telegraphic communication function at a rate of 200 bps. The 5-bit telegram signal compatible interface unit 7 serially transmits the 5-bit telegram-type digital signal to the main control unit 6 through the 5-bit serial data input / output unit at a speed of 200 bps. The main control unit 6 checks this 5-bit telegram-type digital signal by inverting double continuous transmission, and stores it once as a 5-bit telegram signal in a memory built in the main control unit 6. The main control unit 6 converts the 5-bit telegram signal stored in the internal memory into an 8-bit telegram signal having an equivalent content according to a sequence determined by a program stored in advance. The digital signal is serially transmitted to the 8-bit telegram signal compatible interface unit 4 through the 8-bit serial data input / output unit built in the main control unit 6 at a speed of 300 bps. The 8-bit telegram signal compatible interface unit 4 outputs this 8-bit telegram-type digital signal to the 8-bit telegram radio apparatus A side 8-bit telegram signal-corresponding interface unit X at a speed of 300 bps.
[0070]
The 8-bit telegram signal corresponding interface unit X on the 8-bit telegram radio apparatus A side outputs the 8-bit telegram-type digital signal to the central processing unit at a speed of 300 bps. The central processing unit transmits the 8-bit telegram-type digital signal as an 8-bit telegram-type radio signal to the 8-bit telegram-type radio apparatus B through the radio signal input / output unit.
[0071]
In the above, the transmission / reception of data when a call from the center apparatus 1 arrives has been described. The data transmission and reception when the meter 8 with a 5-bit telegram communication function requests a terminal call is almost the same.
[0072]
When the meter 8 with a 5-bit telegraphic communication function outputs an activation signal notifying the start of a terminal call, the main control unit 6 responds to the activation signal with respect to the meter 8 with a 5-bit telegraphic communication function. Then, a telegram signal for confirming the content of the terminal call is output. When the meter 8 with a 5-bit telegraphic communication function outputs a telegram signal including the content of the terminal call to the telegram signal to be confirmed, the main control unit 6 controls the content of the terminal call to the main control. The data is stored once in a memory built in the unit 6. After that, the main control unit 6 passes an 8-bit type call message including the telephone number of the center device 1 stored in advance in the main control unit 6 through the 8-bit message signal corresponding interface unit 4 to the 8-bit message type. Transmit to the wireless device A3.
[0073]
The 8-bit telegram radio device A3 receives the 8-bit call message and transmits it as a radio signal to the 8-bit telegram radio device B9. The 8-bit telegram radio apparatus B9 receives the radio signal transmitted from the 8-bit telegram radio apparatus A3 and transmits it to the center apparatus 1 through the analog public network 2. Thereafter, the center device 1 transmits a call information request message to the main control unit 6 via the 8-bit telegraphic radio device B9 and the 8-bit telegraphic radio device A3.
[0074]
The main control unit 6 receives the call information request message, and the call information once stored in the memory built in the main control unit 6 is stored in accordance with a sequence determined by a program stored in advance. It is converted into an 8-bit telegram signal having the same contents and transmitted to the center device 1.
[0075]
When the center device 1 receives the call information transmitted from the main control unit 6, a data communication circuit is configured between the center device 1 and the meter 8 with a 5-bit telegraphic communication function, and signal transmission / reception is performed by a telegram. This is performed as described above via the converter 5. That is, when the center device 1 further transmits a setting / request message to the meter 8 with a 5-bit telegram-type communication function, it is the same as when a call from the center device 1 as described above arrives. Thus, signal transmission / reception is performed.
[0076]
Next, the circuit operation of the 8-bit telegram signal corresponding interface unit 4 and the circuit operation of the 5-bit message signal corresponding interface unit 7 will be described with reference to FIGS.
[0077]
In a normal state (non-communication state), the light emitting diode F1d of the photocoupler F1 does not emit light, and the transistor F1t is in an OFF state. As described above, since the switch SW1 is on the break contact side and the switch SW2 is on the make contact side, the potential on the anode side of the light emitting diode F2d of the photocoupler F2 is the ground level, and the light emitting diode F2d also emits light. Not done.
[0078]
When the communication state is established as described above, the transmission of the signal from the 8-bit telegraphic radio device A3 to the meter 8 with the 5-bit telegraphic communication function is performed as follows.
[0079]
First, in FIG. 2, when a 1/0 current signal flows through the light emitting diode F1d of the photocoupler F1, the phototransistor F1t receives light from the light emitting diode F1d and is turned on / off. Therefore, a current flows from the power supply voltage Vh through the ground path through the resistor R2, the switch SW2, the interconnection point A1, the phototransistor F1t, the interconnection point A2, and the switch SW1. The device 5 can receive a 1/0 current signal.
[0080]
Next, in FIG. 3, the switch 8 is turned on by the control operation of the main control unit 6 to raise the voltage level of the interconnection point DT, thereby starting the meter 8 with a 5-bit telegraphic communication function. Further, the switch SW4 is turned ON / OFF, the voltage level of the interconnection point DT is changed, and a 1/0 voltage signal flows. By detecting this, the 1/0 voltage signal can be received on the meter 8 side with the 5-bit telegraphic communication function.
[0081]
In this way, when a call from the center device 1 arrives, a signal is transmitted from the 8-bit telegraphic radio device A3 to the meter 8 with a 5-bit telegraphic communication function. Conversely, when a call from the center device 1 arrives, transmission of a signal from the meter 8 with a 5-bit telegraphic communication function to the 8-bit telegraphic radio device A3 is performed as follows.
[0082]
First, in FIG. 3, the switch SW6 is turned ON / OFF by the operation of the control circuit built in the meter 8 with a 5-bit telegraphic communication function, and the voltage level of the interconnection point DT fluctuates, and the voltage of 1/0 A signal flows (the switch SW3 is in an ON state). By detecting this, the 1/0 voltage signal can be received on the interface unit 7 corresponding to the 5-bit message signal.
[0083]
Next, in FIG. 2, by the control operation of the main control unit 6, the switch SW2 is switched to the break contact side and grounded. The switch SW1 is turned on / off by the control operation of the main control unit 6, and the ground path is connected from the power supply voltage Vh through the resistor R1, the switch SW1, the interconnection point A2, the light emitting diode F2d, the interconnection point A1, and the switch SW2. Current flows through it. Accordingly, a 1/0 current signal flows through the light emitting diode F2d of the photocoupler F2, and the phototransistor F2t receives the light from the light emitting diode F2d and is turned on / off. By detecting this, a 1/0 current signal can be received on the 8-bit telegram radio apparatus A3 side. When the transmission of the current signal is completed, the switch SW2 is again switched to the make contact side by the control operation of the main control unit 6.
[0084]
In this way, transmission / reception of signals is performed between the 8-bit telegram-type wireless device A3 and the meter 8 with 5-bit telegram-type communication function via the telegram conversion device 5, but at the end of communication, the main control unit 6 As a result of the control operation, the switch SW3 is turned off, the supply of the power supply voltage Vh to the meter 8 with a 5-bit telegraphic communication function is stopped, and the normal state (non-communication state) is restored.
[0085]
So far, the signal transmission / reception when a call from the center device 1 has been described has been described, but the signal transmission / reception when the meter 8 with a 5-bit telegraphic communication function requests a call is substantially the same.
[0086]
That is, in FIG. 3, when the meter 8 with a 5-bit telegram communication function requests a call, the switch SW5 is turned on / off by the operation of the control circuit built in the meter 8 with a 5-bit communication function. The meter 8 with a 5-bit telegraphic communication function transmits an activation signal based on the power supply voltage Vm to the telegram conversion device 5. With this activation signal, the message conversion device 5 turns on the switch SW3, and a communication state is established between the message conversion device 5 and the meter 8 with a 5-bit message communication function.
[0087]
The message conversion device 5 turns on / off the switch SW4, and the meter 8 with a 5-bit message communication function turns on / off the switch SW6, so that the signal is transmitted / received. Check with the meter 8 with bit telegraphic communication function.
[0088]
Thereafter, the switch SW3 is turned off by the control operation of the message conversion device 5, the supply of the power supply voltage Vh to the meter 8 with the 5-bit message communication function is stopped, and once returned to the normal state (non-communication state). Then, the call information is transmitted from the message conversion device 5 to the center device 1.
[0089]
When the center device 1 further transmits a setting / request message to the meter 8 with a 5-bit message communication function, the message conversion device 5 turns on the switch SW3 again. In this way, the data communication circuit is configured between the center device 1 and the meter 8 with a 5-bit telegraphic communication function, and transmission / reception of signals is performed via the telegram conversion device 5 as described above.
[0090]
At the end of the communication, the switch SW3 is turned off by the control operation of the message conversion device 5, the supply of the power supply voltage Vh to the meter 8 with the 5-bit message communication function is stopped, and the normal state (non-communication state) is restored. .
[0091]
By using the message conversion device as described above, communication of a 5-bit message terminal via the 8-bit message radio device A3 (having an input / output terminal for a meter with an 8-bit message communication function) Automatic meter reading of the meter with function and terminal call communication are possible, and the signal is transmitted through radio and public network.
[0092]
Note that the 8-bit telegram radio apparatus A and the 8-bit telegram radio apparatus B in the embodiment described above may be a specific low-power radio apparatus or other radio apparatuses.
[0093]
Further, the 8-bit telegraphic communication device used in the present invention does not have to be the 8-bit telegraphic radio device A as in the above-described embodiment, and an analog public line as shown in FIG. It may be an 8-bit telegraphic analog public network control device 22 connected to the center device 1 through the network 2.
[0094]
Further, the 8-bit telegraphic communication device used in the present invention does not have to be the 8-bit telegraphic radio device A as in the above-described embodiment, and as shown in FIG. It may be an 8-bit telegraphic digital public network controller 24 connected to the center device 1 through the network 23.
[0095]
Further, the 8-bit telegraphic communication device used in the present invention does not have to be the 8-bit telegraphic radio device A as in the above-described embodiment, and as shown in FIG. An 8-bit telegraphic wireless public network controller 26 connected to the center apparatus 1 through the network 25 may be used.
[0096]
Further, the 8-bit telegraphic communication device used in the present invention does not have to be the 8-bit telegraphic radio device A as in the above-described embodiment, and as shown in FIG. 27 may be an 8-bit telegram centralized transmission device 28 connected to the center device 1 through 27.
[0097]
  Further, the message conversion device used in the present invention does not need to be a device that performs mutual conversion between a 5-bit message signal and an 8-bit message signal as in the above-described embodiment. That is, the message conversion device used in the present invention includes a first interface unit that transmits and receives a first transmission signal, a second interface unit that transmits and receives a second transmission signal, and the first transmission signal. A main control unit that performs mutual conversion of the second transmission signal,
  The main control unit converts the first transmission signal input from the first communication device through the first interface unit into the second transmission signal, and transmits the second transmission signal to the second communication device. Output through the second interface,
  Further, the second transmission signal input from the second communication device through the second interface unit is converted into the first transmission signal, and the first communication device receives the first transmission signal. Any electronic message conversion device that outputs through an interface unit may be used.
As is apparent from the above description, the present invention or the invention related to the present invention can provide a telegram conversion device that can be commonly used in various communication devices.
Also, the present invention or an invention related to the present invention provides a telegram conversion device that can transmit a signal from a communication device reliably and smoothly to another communication device. Can do.
Further, the present invention or the invention related to the present invention is to provide a message conversion device for a 5-bit message communication device that can be used in common by various 8-bit message communication devices. it can.
In addition, the present invention or an invention related to the present invention can provide a data collection system that can be commonly used in various communication apparatuses.
Further, the present invention or an invention related to the present invention provides a data collection system for a meter with a 5-bit telegraphic communication function that can be commonly used in various 8-bit telecom communication apparatuses. Can do.
Further, the present invention or the invention related to the present invention provides an automatic meter reading system for a meter with a 5-bit telegraphic communication function having an 8-bit telegraphic analog public network control device that can use an analog public network. can do.
Further, the present invention or the invention related to the present invention provides an automatic meter reading system for a meter with a 5-bit telegraphic communication function having an 8-bit telegraphic digital public network control device that can use the digital public network. can do.
Further, the present invention or an invention related to the present invention provides an automatic meter reading system for a meter with a 5-bit telegraphic communication function having an 8-bit telegraphic wireless public network control device that can use a wireless public network. can do.
Further, the present invention or the invention related to the present invention has an 8-bit telegraphic radio apparatus A and an 8-bit telegraphic radio apparatus B that can use a radio and public line network, or a radio and a dedicated line. An automatic meter reading system for a meter with a telegraphic communication function can be provided.
Further, the present invention or an invention related to the present invention is a meter with a 5-bit telegraphic communication function in which the 8-bit telegraphic radio device A and the 8-bit telegraphic radio device B are specific low-power radio devices. An automatic meter reading system can be provided.
In addition, the present invention or the invention related to the present invention provides an automatic meter reading system for a meter with a 5-bit telegraphic communication function having an 8-bit telegraphic centralized transmission device that can use a public line network or a dedicated line. be able to.
[0098]
【The invention's effect】
  As is clear from the above explanation,BookThe invention can provide a telegram conversion device that can be commonly used in various communication devices.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a message conversion device described in an embodiment of the present invention.
FIG. 2 is a circuit diagram of an 8-bit telegram signal compatible interface unit on the 8-bit telegram radio apparatus A side and an 8-bit telegram signal interface interface unit (on the telegram conversion device side) described in an embodiment of the present invention; .
FIG. 3 is a circuit diagram of a meter-side 5-bit message signal compatible interface unit with a 5-bit message type communication function and a 5-bit message signal compatible interface unit (on the message conversion device side) described in an embodiment of the present invention; is there.
FIG. 4 is a conceptual diagram of a data collection system using an 8-bit telegraphic analog public line network control device, which is described in an embodiment of the present invention.
FIG. 5 is a conceptual diagram of a data collection system using an 8-bit electronic digital public line network control device, which is described in one embodiment of the present invention.
FIG. 6 is a conceptual diagram of a data collection system using an 8-bit telegraphic wireless public network control device, which is described in an embodiment of the present invention.
FIG. 7 is a conceptual diagram of a data collection system using an 8-bit telegram centralized transmission apparatus, which is described in an embodiment of the present invention.
FIG. 8 is a list showing characteristics of a 5-bit telegram signal and an 8-bit telegram signal in contrast.
FIG. 9 is a block diagram of a conventional 5 bit / 8 bit common type transmission apparatus.
[Explanation of symbols]
1 Center device
2 Analog public network
3 8-bit electronic wireless device A
4 8-bit telegram signal interface
5 Message converter
6 Main control unit
7 5-bit telegram signal interface
8 Meter with 5-bit telegraphic communication function
9 8-bit electronic wireless device B
10 Center equipment
11 Analog public network
12 Network control unit
13 Modulator / Demodulator
14 5-bit / 8-bit common type transmission device
15 Main control unit
16 5-bit telegram signal interface
17 Meter with 5-bit telegraphic communication function
18 8-bit telegram signal interface
19 Meter with 8-bit telegraphic communication function
20 Telephone
21 Connection part
22 8-bit electronic analog public network control device
23 Digital public network
24 8-bit electronic digital network control device
25 Public wireless network
26 8-bit telegraphic wireless public network controller
27 Public line network
28 8-bit telegraphic centralized transmission equipment

Claims (6)

A first interface unit for transmitting and receiving a first transmission signal;
A second interface for transmitting and receiving a second transmission signal;
A main control unit that performs mutual conversion between the first transmission signal and the second transmission signal;
With
The main control unit (1) converts the first transmission signal input from the first communication device through the first interface unit into the second transmission signal, and outputs the second communication device. And (2) converting the second transmission signal input from the second communication device through the second interface unit into the first transmission signal. Output to the first communication device through the first interface unit,
The main control unit responds to an activation signal for notifying the start of a call of the second communication device input from the second communication device, and sends a signal for confirming the content of the call to the second communication device. and output to the communication device, stores the contents of the call of the second communication device included in the signal input from the second communication device to it, the said content of the call output to the first communication device, message converter. The first interface unit is an 8-bit message signal compatible interface unit that transmits and receives an 8-bit message signal;
The second interface unit is a 5-bit message signal compatible interface unit that transmits and receives a 5-bit message signal.
The main control unit performs the mutual conversion of the 5-bit message signal and the 8-bit message signal, claim 1 Symbol placement of message converter. A first interface unit that transmits and receives a first transmission signal; a second interface unit that transmits and receives a second transmission signal; and a main control that performs mutual conversion between the first transmission signal and the second transmission signal A message conversion device comprising:
A first communication device for transmitting and receiving the first transmission signal;
A second communication device for transmitting and receiving the second transmission signal;
A center apparatus for transmitting and receiving the first communication device and the signal,
Equipped with a,
The main control unit (1) converts the first transmission signal input from the first communication device through the first interface unit into the second transmission signal, and converts the second transmission signal to the second transmission signal. Output to the communication device through the second interface unit. (2) The second transmission signal input from the second communication device through the second interface unit to the first transmission signal. Converted and output to the first communication device through the first interface unit,
The main control unit responds to an activation signal for notifying the start of a call of the second communication device input from the second communication device, and sends a signal for confirming the content of the call to the second communication device. Storing the content of the call of the second communication device included in the signal input to the communication device and input from the second communication device to the communication device; A data collection system that outputs to the first communication device . With respect to the message conversion device , the first interface unit is an 8-bit message signal compatible interface unit that transmits and receives 8-bit message signals, and the second interface unit is a 5-bit message signal that transmits and receives 5-bit message signals. A signal-compatible interface unit, wherein the main control unit performs mutual conversion between a 5-bit telegram signal and an 8-bit telegram signal ,
The first communication device is an 8-bit telegraphic communication device that transmits and receives an 8-bit telegram signal;
4. The data collection system according to claim 3 , wherein the second communication device is a meter with a 5-bit telegraphic communication function that transmits and receives a 5-bit telegraphic signal. The main performing a first interface unit for receiving a first transmission signal, and a second interface unit for transmitting and receiving a second transmission signal, the first transmission signal with the interconversion of the second heat transmission signal A message conversion device comprising a control unit;
A first communication device for transmitting and receiving the first transmission signal;
A second communication device for transmitting and receiving the second transmission signal;
A center device for transmitting and receiving signals to and from the first communication device;
With
The main control unit (1) converts the first transmission signal input from the first communication device through the first interface unit into the second transmission signal, and converts the second transmission signal to the second transmission signal. Output to the communication device through the second interface unit. (2) The second transmission signal input from the second communication device through the second interface unit to the first transmission signal. Converted and output to the first communication device through the first interface unit,
The first interface unit is an 8-bit message signal compatible interface unit that transmits and receives an 8-bit message signal, and the second interface unit is a 5-bit message signal interface unit that transmits and receives a 5-bit message signal; The main control unit performs the mutual conversion of the 5-bit message signal and the 8-bit message signal,
The first communication device is an 8-bit telegraphic communication device that transmits and receives an 8-bit telegraphic signal, and the second communication device is a meter with a 5-bit telegraphic communication function that transmits and receives a 5-bit telegraphic signal,
The 8-bit telegram communication device is an 8-bit telegram radio device A;
The 8-bit telegram radio device A is wirelessly connected to a different 8-bit telegram radio device B;
The 8-bit electronic wireless device B is a data collection system connected to a public line network or a dedicated line. 6. The data collection system according to claim 5 , wherein the 8-bit electronic wireless device A and the 8-bit electronic wireless device B are specific low-power wireless devices.

Images