KR900007590B1 - Housing information communicating system - Google Patents

Abstract

The system includes a terminal equipment in a house. The termial equipment has an electrical control circuit comprising a power supply(8), switching means (66a,66b) installed in contact and cut-off sides througha circuit converting relay (65), a transmission control circuit (60) for transmitting the various information to a management center, and a power supply control circuit (67), installed between switching means and the transmission control circuit, for providing power source to the transmission control circuit at the time of transmitting the information to the management center.

Description

Housing information transmitter

1 is a block diagram of a transmission unit of one embodiment of the house information transmitting apparatus of the present invention.

2 is a schematic diagram of one embodiment of a housing information transmission window of the present invention.

3 is an electric circuit diagram of a power supply circuit and a power supply control circuit according to an embodiment of the house information transmitting apparatus of the present invention.

4 is a transmission block diagram of automatic reading of a CPU, detection of a replacement time of a gas cylinder, gas leakage, and the like according to an embodiment of the house information transmitting device of the present invention.

5 is an operational flowchart of transmission control of one embodiment of the house information transmitting apparatus of the present invention.

* Explanation of symbols for main parts of the drawings

1: device for transmitting housing information 2: terminal device

3: Transmission unit 5: Microprocessor (CPU)

6: Network Control Unit (NCU) 8: Power Circuit

8a: resistor 8b: main battery

21 gas meter meter 22 gas leak sensor

23: reset switch 61: rotation detection circuit

62: ring tone detection circuit 63: center signal detection signal

64: dial signal generating circuit 65: circuit conversion relay

66: DC circuit 67: power supply control circuit

68: pad conversion circuit C: control center

L: Telephone line network T ₁ , T ₂ , T ₃ : General subscription phone

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a house information transmitting device which transmits meter information such as gas, water and electricity in a house, and various types of information such as safety information such as disaster prevention, methods, and first aid to a management center through telephone lines.

Installed various safety devices such as disaster prevention, crime prevention and first aid in the house, and automatic meter reading device such as gas water and electricity, and various information such as safety information and meter reading information detected by the safety device and automatic meter reading device. A house information transmitting device (Japanese Patent Application No. 61-143502) having an electric control circuit transmitting through a device has been proposed.

The electric control circuit of the home information transmitting device includes a power supply circuit connected to a telephone line and always charged by electricity supplied from the previous line, and a transmission control circuit for transmitting various information such as safety information and meter reading information to the management center. It is provided. The transmission control circuit can receive power from the power supply circuit and transmit various kinds of information in the house only when the telephone line is not used. However, a malfunction occurs in the no-voltage state of the transmission control circuit occurring at the momentary power interruption occurring at the trunk change of the telephone station or at the polarity reversal at the incoming call.The transmission control circuit does not operate correctly. I cannot do it.

SUMMARY OF THE INVENTION An object of the present invention is to provide a housing information transmitting apparatus capable of preventing malfunction of a transmission control circuit and transmitting various information to a management center by receiving power from a power supply circuit at all times when the previous line is not used.

In order to achieve the above object, the housing information transmitting apparatus of the present invention comprises an electrical control circuit for transmitting various types of information in a house to a management center via a telephone line. Connection blocking means set on the connection side and the blocking side of the telephone line, a transmission control circuit for transmitting various types of information to the management center, and the connection blocking means provided between the connection blocking means and the transmission control circuit. A configuration in which a power supply control circuit for supplying the power supply power to the transmission control circuit at all times when it is set is adopted.

The home information transmitting apparatus of the present invention has the following effects and effects. When the power supply control circuit is provided between the transmission control circuit and the connection blocking means, and the connection blocking means is set to the connection side, the momentary power interruption that occurs when the trunk of the telephone station is exchanged because the power of the power is always supplied to the transmission control circuit. Since the power is supplied to the transmission control circuit even when there is no voltage during the momentary power outage caused by the polarity reversal at the time of incoming call, the operation of the transmission control circuit is prevented from being operated in the voltageless state, thereby preventing malfunction of the transmission control circuit. When the telephone line is not used, it is possible to reliably transmit various information in the house to the management center via the telephone line.

Next, an embodiment of a house information transmitting apparatus of the present invention will be described with reference to the drawings.

FIG. 1 shows one embodiment of the housing information transmitting apparatus of the present invention and FIG. 2 shows an electric control circuit applied to one embodiment of the housing information transmitting apparatus of the present invention. 1 indicates a device for transmitting house information. 2 shows a terminal device installed in one subscriber house (hereinafter referred to as a house) I of a plurality of subscriber houses I, II, III, ..., as shown in FIG. T ₁ , T ₂ , T ₃ ,. Denotes a general subscription telephone (hereinafter referred to as a telephone). L denotes a telephone line network including an exchange system (telephone station, exchange). C represents a management center. The management center (C) is used to read metering information such as gas, water and electricity, and disaster prevention, crime prevention, and emergency in the house (I), which are periodically or irregularly transmitted from the terminal device (2) through the telephone line network (L). Various information, such as safety information, is sent and notified to certain organizations such as police departments, fire departments, hospital gas companies, or neighboring member houses, or dispatched personnel. The terminal device 2 includes a gas meter meter 21, which is an automatic gas meter, a gas leak sensor 22, a reset switch 23, and a transmission unit 3 including an electric control circuit. The gas meter meter 21 is an automatic meter that detects the amount of gas used in the supply gas, and a pulse signal proportional to the amount of gas used by detecting the rotation of a magnet installed in the rotating body which rotates in proportion to the amount of gas used by the magnetic sensor element. Send the.

In addition to the automatic meter reading of gas, automatic meter reading such as water and electricity may be performed. The gas leak sensor 22 is a safety device for gas equipment and generates an output of 0 V when inoperable, 6 V in normal operation, and 12 V in gas leakage. The gas leak sensor 22 detects the gas leak in the house I when the gas leak in the house I is more than a predetermined value. Other sensors include a security sensor, a fire sensor, and an emergency button that the subscriber turns on at the time of emergency. You may be able to transmit directly to predetermined institutions, such as a house. The reset switch 23 is a push button switch in this embodiment, and is operated by the personnel of the gas company at the time of replacing the gas cylinder. The transmission unit 3 includes a gas meter meter 21, a gas leak sensor 22, an input unit 4 of a reset denture 23, a microprocessor (CPU) 5, and a network controller (NCU) ( 6), a communication connector 7 for connecting a terminal for connecting the management center C via the telephone T ₁ and the telephone line network L, and a power supply circuit 3 thereof. The CPU 5 sets a set value of the gas leakage flow rate, a set value of the gas disconnection flow rate (e.g., an integrated value where the gas consumption is 70% of the gas cylinder and an integrated value where the gas usage is 85% of the gas cylinder), Initial information such as timer time to automatically read the gas meter reading information by the management center (C), set voltage value of the power supply circuit (8), telephone number of the user, telephone number of the management center (C), and telephone number of the gas company The memory, the control level memory, and the automatic meter reading of the gas are performed throughout the system.

NCU (6) detects the state of use of the telephone line (L), i.e., telephone (T ₁₎ of the incoming call status of the line in use detection circuit (61), telephone (T ₁₎ for detecting a call status (call mode) A signal means for inputting through a ring tone detecting circuit 62 for detecting and a connection disconnecting means for reviewing a signal output from the management center C and a center signal detecting circuit for detecting a reception code from the management center C ( 63), a dial signal generation circuit 64 for generating dial signals such as a selection code and a transmission code, and a circuit conversion relay 65 for converting the telephone line network L between the telephone T ₁ and the terminal device 2; ), A switch 66a, a telephone connection switch 66b, and a power supply control circuit of the direct current circuit 66, which are connection blocking means set on the blocking side (OFF) or the connection side (ON) by the circuit conversion relay (65). (67), the pad converting time which makes the average level of the information transmission code lower than the selection code level of the opponent's telephone number And a 68.

Among them, the transmission control circuit 60 is constituted by the center signal detection circuit 63, the dial signal generation circuit 64, the circuit conversion relay 65, and the pad conversion circuit 68. The center signal detecting circuit 63 has an automatic level control for correcting the voltage of a receiving code to be constant, and a function of stepping up to 6V in the present embodiment required for detecting the receiving code and detecting the receiving code of the input voltage. The dial signal generation circuit 64 is a device for generating a selection code of the called party (control center C) and generating an information transmission code, each of which is one frequency from two frequency groups of a high frequency group and a low frequency group in a voice band. The push button PB code combined with each other is generated. The switch 66a is closed by the call conversion relay 65 when the NCU 6 transmits various information in the house I to the management center C, and the switch 66b for telephone connection is connected to the NCU 6. Is opened by the circuit conversion relay 65 when various information in the house I is transmitted to the management center C. The power supply control circuit 67 is provided between the transmission control circuit 60 and the switch 66a, and the power supply circuit 8 which connects the power supply circuit 8 and the transmission control circuit 60 when the switch 66a is closed. ) Is supplied to the transmission control circuit 60. The power supply control circuit 67 has a PNP in which the terminal E ₁ of the emitter is connected to the power supply circuit 8 and the terminal C _{1 of the} collector is connected to the center signal detection circuit 63, as shown in FIG. The type transistor Tr ₁ and the terminal B ₂ of the base are connected to the switch 66a via a resistor R ₁ , and the terminal C _{2 of the} collector is the base terminal B of the PNP type transistor Tr ₁ . ₁₎ NPN type transistors through a resistance (R ₂₎ connected to (Tr _2), and of one terminal (69a) is a base terminal of the PNP-type transistor (Tr ₁₎ (B ₁₎ and the NPN-type transistor (Tr ₂₎ The capacitor 69 is connected between the collector terminal C ₂ and the other terminal 69b connected to the switch 66a via a resistor R ₁ . 66c represents a diode bridge circuit, 66d represents an impedance transformer, 66e represents a field effect transistor, and 66f and 66g represent a diode.

Although a predetermined power can be obtained from the telephone line network L currently being used, it is difficult to operate the terminal device 2 with this power. Therefore, the power supply circuit 8 has a main battery 8b which is always connected to the telephone line network L via the resistor 8a, and always charges the main battery 8b by the current supplied by the telephone line network L. It is supposed to. Nickel cadmium batteries, alkaline batteries, sodium sulfur batteries, alkaline manganese batteries, lithium batteries and the like are used for the main battery 8b. The electric power supplied to the sun signal detection circuit 63, the dial signal generation circuit 63, the circuit conversion relay 65, and the CPU 5 in the terminal device 2 by the charging power accumulated in the main battery 8b. Done. The main battery 8b is charged by electricity of the telephone line network L supplied to the telephone line network L side of the line usage detection circuit 61, and the terminal device 2 does not perform transmission control. Since no electricity is supplied to the line use detection circuit 61, the telephone line network L malfunctions as the use state, thereby eliminating the inconvenience that the terminal device 2 cannot perform transmission control.

4 shows a block diagram of automatic detection of gas by the CPU 5, detection of replacement timing of the automatic cylinder, and gas leakage transmission. The automatic meter reading of gas counts the number of pulses output by the gas meter reading meter 21 to calculate the amount of gas used in the gas cylinder, and the amount of gas calculated by the gas amount calculating processor 51a. Meter reading date comparison processing section 51e which compares the date and time stored in the integrated memory processing unit 51b, the automatic reading timer time memory 51c, and the date counted by the timer 51d, and the timer 51d. When the date to be counted reaches the date and time stored in the automatic metering timer time storage unit 51c, a gas consumption encoding processor 51f for encoding the integrated value of the integrated memory processor 51b with a transmission code is used. 50) to the management center (C).

The detection of the replacement timing of the gas cylinder includes a trip accumulation storage unit 52a which resets the initial value by a trigger rising when the reset switch 23 is turned on and stores the accumulated value of the amount of gas used after the reset; The integrated accumulated value stored in the trip accumulation memory 52a is compared with the integrated value corresponding to the amount of 70% of the gas cylinder gas stored in the first gas disconnected amount used setting unit 52b. Stored in the first comparison processing unit 52c and the trip accumulation storage processing unit 52a which output the first gas disconnection signal when the accumulated value stored in the storage unit is larger than the integrated value stored in the first gas disconnection usage setting unit 52b. The accumulated value stored in the trip accumulation storage unit 52a is compared to the integrated value corresponding to 85% of the gas cylinder gas stored in the second gas disconnection usage setting unit 52b. Accumulated value report stored in setting section 52d The second comparison processing unit 52e which outputs the second gas disconnection signal when large, and the first gas disconnection encoding unit 52f which inputs the first gas disconnection signal and encodes the first gas disconnection signal by a transmission code. And a gas usage encoding processing unit 52g for inputting the second gas disconnection signal and encoding the second gas disconnection signal with a transmission code, which is transmitted to the management center C by the transmission processing unit 50. In the gas leakage transmission, the gas leakage signal encoding unit 53a, which inputs a gas leakage signal transmitted when the gas leakage sensor 22 detects a gas leakage, encodes the gas leakage signal into a transmission code, and transmits it to the transmission processing unit 50. Is transmitted to the management center (C).

Next, the operation of this embodiment will be described based on the flow chart of the gas automatic inspection of FIG. 5, the detection of the replacement time of the gas cylinder, and the transmission control of gas leakage. It is determined whether or not the gas leakage signal 12V is input from the gas leakage sensor 22 (step S ₁ ). When the gas leakage signal 12V is not input (NO), it is determined whether the first gas disconnection signal or the second gas disconnection signal is input (step S ₂ ). When the gas leakage signal 12V, the first gas disconnection signal, or the second gas disconnection signal is not inputted (NO), the control center (C) set for each house (I, II, III, ...) is automatically dialed. It is judged whether or not the gas meter reading information transmission time timer time (that is, the date and time counted by the timer reaches the date and time stored in the automatic meter timer time storage unit) (step S3). When the transmission time timer is not (NO), steps S1 or less are repeated. When the timer is on time (Yes) or when the gas leakage signal (12V), the first gas disconnection signal or the second gas disconnection signal is input (Yes), the telephone number of the management center (C) (eg ^* 06) (step 24).

Next, to determine whether or not the telephone T ₁ is in use, it is judged whether or not the line use detection circuit 61 detects a call mode (step S5). When the line use detection circuit 61 detects the call mode (Yes), the step S5 is repeated. When the line use detection circuit 61 is not detecting a call mode (NO), the ring tone detection circuit 62 detects an incoming call signal to determine whether an incoming call is being made from a telephone outside the house (I). It is judged whether or not there is (step 6). When the ring tone detection circuit 62 detects an incoming call output (YES), the step S5 is repeated. When the ring tone detection circuit 62 does not detect an incoming call (NO), it is output to the circuit conversion relay 65 to turn on the switch 66a, and to turn off the switch 66b to turn off the telephone line network L and the dial signal. The generator circuit 64 is connected to connect the DC circuit 66 (step S7). By turning on the switch 66a, the power supply control circuit 67 passes through the resistor R ₁ to the base terminal B ₂ and the capacitor 69 of the NPN transistor Tr ₂ as shown in FIG. Current is supplied. Then, the capacitor 69 is charged to conduct the collector-emitter between the NPN transistor Tr ₂ and the base of the PNP transistor Tr ₁ to conduct the emitter to collector of the PNP transistor T ₁ . There is a connection between them. Therefore, the charging current of the power supply circuit 8 is supplied to the transmission control circuit 60 to start transmission control of the terminal device 2. The telephone signal of the management center C stored in the CPU 5 is generated in advance by the dial signal generation circuit 64 to perform automatic dialing (step S8). The management center C judges whether an incoming call is being made by the automatic dial of the terminal device 2 (step S9). At the call arrival date (Yes), it is judged whether or not the center signal detection circuit 63 has issued the 0 code, which is an information request signal, from the management center C (step S10). When the center signal detecting circuit 63 detects a zero code (Yes), an information transmission code is generated from the dial signal generating circuit 64 so that the periodic meter reading information, the first gas disconnection information, and the second gas disconnection information of the gas are generated. Alternatively, transmission information such as gas leakage information is transmitted to the management center C (step S11).

Here, the power supply control circuit 67 of the present embodiment does not generate a voltage-free state in the transmission control circuit 60 by, for example, a power outage occurring at the trunk exchange of the telephone station or a momentary power outage at the polarity inversion at the reception. As shown in FIG. 3, current is supplied to the base terminal B ₂ of the NPN transistor Tr ₂ by the discharge of the capacitor 69. The collector-emitter of the NPN transistor Tr ₂ conducts, and the base of the PNP transistor Tr ₁ conducts, so that the emitter collector of the PNP transistor TR ₁ conducts. Therefore, while the switch 66a is turned on and the transmission control is being started, the charging current of the power supply circuit 8 is always supplied to the transmission control circuit 60 without a voltage-free state occurring in the transmission control circuit 60. Since the transmission control of the bed apparatus 2 can be performed accurately, the center signal detection circuit 63 reliably detects various information in the house I through the telephone line network L and detects zero code from the management center C. can do. In addition, the dial signal generating circuit 64, the circuit conversion relay 65, and the pad converting circuit 68 also supply the charging current of the power supply circuit 8 at all times while the switch 66a is turned on and transmission control is started. Works.

Next, it is judged whether or not transmission information by the transmission code has been transmitted to the management center C three times (step S12). This enables retransmission even if there is a mistake in the transmission information. In this case, when the transmission information is not transmitted three times (ON), after transmitting the transmission information by the transmission code to the management center (C), the 0 signal, which is an information retransmission request code, is transmitted from the management center (C) to the center signal detection circuit. It is judged whether or not 63 has detected (step S13). When the center signal detection circuit 63 detects a zero code (Y6), steps S11 or less are repeated. When the transmission information is transmitted three times (Yes) or when the center signal detection circuit 63 does not detect the 0 sign (NO), it is output to the circuit conversion relay 65 to turn the switch 66a off, and The 66b is turned on to connect the telephone line network L and the telephone T ₁ to open the DC circuit 66 (step S14). The operation then ends.

In step S9, when the center signal detection circuit 63 does not detect the 0 sign (NO), it is determined whether or not 25 seconds have elapsed after the automatic dialing (step S15). When 25 seconds have elapsed (Yes), it is output to the circuit conversion relay 65, the switch 66a is turned off, the switch 66b is turned on, and the telephone line network L and the telephone T ₁ are connected to each other. 66) (step S16). Then, it is determined whether 5 seconds have elapsed (step S17). When 5 seconds have passed (NO), step S17 is repeated. When 5 seconds have elapsed (Yes), it is determined whether or not the number of times of transmission has been three times after the automatic dialing (step S18).

When the number of times is not reached three times (NO), steps S5 or less are repeated again. It is determined whether the next 5 minutes have elapsed (step S19). When 5 minutes have not passed (NO), step S19 is repeated. When 5 minutes have elapsed (Yes), it is determined whether or not the number of times of transmission has been nine times after the automatic dialing (step S20). When the number of transmissions is less than nine (NO), the steps S5 or less are repeated again. The operation ends when the number of times of transmission reaches 9 (Yes). When the center signal detection circuit 63 does not detect the 0 sign (NO) in step S10, it is determined whether 25 seconds have elapsed after the automatic dialing (step S21). When 25 seconds have passed (NO), repeat step 21. When 25 seconds have elapsed (Yes), it is output to the circuit conversion relay 65, the switch 66a is turned off, the switch 66d is turned on, and the telephone line network L and the telephone T ₁ are connected to the DC circuit 66. ) Is opened (step S22). Then repeat Step 23 when no more than 5 seconds have passed (NO). When 5 seconds have elapsed (Yes), it is determined whether or not the automatic dial is performed twice (step S24). When the automatic dial is not executed twice (NO), steps S5 or less are repeated again. When the auto dial is made twice (Yes), the operation is then terminated.

At the time of transmission of automatic inspection of abnormal gas, detection of gas cylinder replacement time, gas leakage, and the like, the CPU 5, which is always connected to the power supply circuit 8 in the terminal device 2, is connected via the power supply control circuit 67. Since the center signal detection circuit 63, the dial signal generation circuit 64, and the circuit conversion relay 65 operate, power charged in the main battery 8b of the power supply circuit 8 is consumed. However, since the automatic meter reading of gas is performed once a month in this embodiment, and transmission of gas cylinders and transmission of gas leaks are not performed several times a month, the main battery 8b of the power supply circuit 8 is connected to the telephone line network L. Is always charged. The CPU 5 divides the field number of the timer and the gas meter meter 21 even when not transmitting various types of information in the housing I to the management center C, but the current consumption of the timer is 1 μA or less, Since the current consumption for counting the number of pulses of the gas meter meter 21 is 2 to 3 µA, the power supplied from the telephone line network L is higher than that of the main battery 8b of the power supply circuit 8. Always more charged

As described above, since the main battery 8b of the power circuit 8 is charged by the power supplied from the telephone line network L, and the terminal device 2 is operated using the power charged in the main battery, the conventional commercial Compared with the case of using an AC power source or a battery for the main power source, the cost of the power source can be reduced. In addition, the main battery 8b of the power supply circuit 8 is charged by electricity of the telephone line network L supplied to the previous line network L side of the line use detection circuit 61 in the NCU 6. When (2) is not performed, since the switch 66a of the DC circuit 66 is turned off by the circuit conversion relay 65 and no electricity is supplied to the line use detection circuit 61, the terminal device 2 is connected to the telephone line network ( There is no inconvenience that the transmission control cannot be performed due to a malfunction in L).

As another embodiment, the condenser 69 may be provided at the same position as the condensers 69A and 69B shown by broken lines in FIG. 3, and the power supply control circuit may be constituted by a condenser provided before and after the switch.

In the present embodiment, the transmission control circuit 60 is constituted by the center signal detection circuit 63, the dial signal generation circuit 64, the circuit conversion relay 65 and the pad conversion circuit 68, but the dial signal generation circuit ( 64, or the center signal detecting circuit 63 and the dial signal generating circuit 64 are not limited to this embodiment.

When an emergency button for illness is connected to the input part 4 of this embodiment, a predetermined hospital is notified to a hospital when an illness emergency button turns ON. In addition, when the emergency button is connected to the input unit 4, the police station, the fire station, and the gas company can be notified when the suspicious person intrudes, finds fire, or leaks gas. It is also possible to provide a display device such as a lamp or a buzzer indicating the state when a general subscription telephone is used for the transmission unit or when the sensor is output. In addition, the gas shutoff valve driving means may be provided in the transmission unit so that the gas shutoff valve is operated on the safety side to prevent gas leakage.

In the present embodiment, a main battery that is charged by electricity of a telephone line network is used as a power source. However, a primary battery may be used, or an AC power source commonly used may be used.

Claims (6)

In a house information transmitting device comprising an electric control circuit for transmitting various types of information in a house to a management center via a telephone line, the electric control circuit is connected to a power supply 8 through a circuit conversion relay to the telephone line. And connection blocking means such as switchgear 66a and 66b set on the side of the control unit, the control circuit 60 for transmitting various types of information to the management center, and the connection blocking means and the transmission control circuit 60. And a power supply control circuit (67) for supplying power to the transmission control circuit (60) at all times when the connection blocking means is set on the connection side and transmitted to the management center. The house information transmitting apparatus according to claim 1, wherein said power source is a battery which always charges electricity supplied from said telephone line. The house information transmitting device according to claim 1, wherein said connection blocking means is an open / close switch which is turned on when transmitting various kinds of information in said house to said management center. The home information transmitting apparatus according to claim 1, wherein said transmission control circuit includes a center signal detection circuit for detecting a signal of said management center and a dial signal generation circuit for generating a dial signal. 5. The power supply control circuit according to any one of claims 1 to 4, wherein one input terminal is connected to the power source, the other input terminal is connected to the signal means, and the output terminal is connected to the signal means. Housing information transmission device. 5. The power supply control circuit according to any one of claims 1 to 4, wherein the power supply control circuit includes a PNP in which the terminal E ₁ of the emitter is connected to the power supply 8, and the terminal C _{1 of the} collector is connected to the signal means. NPN type in which a transistor Tr ₁ and a base terminal B ₂ are connected to the connection blocking means, and the terminal C ₂ of the collector is connected to the base terminal B ₁ of the PNP type transistor Tr ₁ . The transistor Tr ₂ and one terminal are connected between the base terminal B ₁ of the PNP transistor Tr ₁ and the collector terminal C ₂ of the NPN transistor Tr ₂ , And a terminal (69b) having a condenser (69) connected to said connection blocking means.

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