JP3630413B2 - Disaster prevention system, transmitter, receiver and repeater - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a transmitter, a receiver, and a repeater in an automatic fire alarm facility. In particular, it relates to a disaster prevention system that can be constructed using an existing fire alarm system. Specifically, it is a fire alarm transmitter (so-called “P-type 1” that is often seen in various places including public facilities such as schools. Disaster prevention system, transmitter, receiver, and relay that can report the location of the transmitter to the center in the event of an abnormal situation, such as when not only a fire but also a thief attacked. Related to the vessel.
[0002]
[Prior art]
FIG. 11A is an external view of a fire alarm panel that is often seen in various places including public facilities such as schools. The fire alarm panel 1 is attached to an easy-to-operate position such as a wall of a building, and the front of the fire alarm panel 1 is for generating a warning sound, for example, a bell 2, a red indicator lamp 3, and a P A type 1 transmitter (hereinafter simply referred to as “transmitter”) 4 is provided.
[0003]
The transmitter 4 is affixed to a circular main body 5 painted in red with a name plate 6 printed or engraved with an appropriate character string ("fire alarm" in the figure) suggesting the use. A circular hole 8 protected by a transparent plastic window 7 is formed in the vicinity of the approximate center of 5, and a push button switch 9 and an operation confirmation lamp 10 are provided inside the circular hole 8.
[0004]
FIG. 11B is an electric circuit diagram of the transmitter 4. The push button switch 9 is composed of two interlocking type contacts a and b, and one contact a is located between the L line (Li line in the figure, the meaning of i will be described later) and the C line, and the other contact. b is located between the A line and the C line via the operation check lamp 10. Lines A and C are routed in common to all monitored areas.
[0005]
In such a configuration, when the plastic window 7 is destroyed by pushing it with a finger or the like and the push button switch 9 is pushed down, the bell 2 rings and the two contacts a and b are both closed and turned on. The L line and the C line are short-circuited through the contact a, and the A and C lines are short-circuited through the other contact b. When these short-circuit states (particularly, the short-circuit state between the L and C lines) are transmitted to the receiver 11 (fire receiver) shown in FIG. 11C, a predetermined direct current is transmitted from the receiver 11 via the A line. As a result of a predetermined direct current flowing in the order of A line → operation check lamp 10 → contact b → C line, the operation check lamp 10 provided in the transmitter 4 is turned on, and this lighting is performed. Thus, it is possible to confirm at the site that the receiver 11 has received the push-down operation of the push button switch 9. Hereinafter, the above-described predetermined current that is supplied to light the operation check lamp 10 provided in the transmitter 4 will be referred to as an “answer current”. Note that “i” of the Li line is the monitoring area number, and the Li line represents the L line drawn into the i-th monitoring area. For example, if the transmitter 4 belongs to the first monitoring area, one contact a of the transmitter 4 is located between the L1 line and the C line.
[0006]
By the way, the transmitter 4 is used exclusively to inform the surroundings of the occurrence of a fire, but the application is not limited to this. Often used for abnormal situations other than fire. For example, when attacked by a thief, it may be used to operate a nearby transmitter 4 to ring the bell 2 to repel the thief and seek help from the surroundings.
[0007]
In recent years, injuries involving so-called weak people such as suspicious persons have occurred frequently at schools and station platforms, and in the worst case, the victims often die. It is important to prevent such acts that threaten the safety of ordinary people, but when a similar incident reoccurs, how to quickly report and stop the damage to a minimum is sought. It is where you are. The active use of the above-mentioned transmitter for fire notification is effective in that it can notify the surroundings early when a suspicious person, etc. is discovered, and can prevent development into a serious situation. This is one of the effective measures that can be adopted.
[0008]
[Problems to be solved by the invention]
However, since the conventional transmitter 4 simply gives a warning with a loud sound (ringing of the bell 2), a large-scale building (for example, a school where a large number of transmitters 4 are installed in various places). Etc.), it is difficult to identify where the warning sound is sounding, and it is not possible to immediately take necessary measures such as dispatching guards or teachers to the site. was there.
[0009]
A large-scale building or the like has a system for centrally monitoring notification signals of a large number of transmitters with a receiver (for example, a P-type fire receiver). This system is shown in FIG. As shown in the figure, signals from a large number of transmitters 4 provided at various locations in the building are converted into dedicated reception lines (two-line lines composed of Li lines and C lines, referred to as “L- A confirmation signal (answer current) indicating that an alarm has been received from the receiver 11 is composed of a confirmation line (A line and C line) separate from the Li line. The operation check lamp 10 of the transmitter 4 is turned on by sending it to the transmitter 4 through the two-wire line (hereinafter referred to as “AC line”), and the transmitter 4 is operated. So that the receiver can confirm the reception confirmation by the receiver 11. Going on. However, since a large number of transmitters 4 that have made a report are connected to each monitoring area, the receiver 11 cannot determine the position of which transmitter 4 has been operated in one warning area. There was a problem that required measures such as dispatching security guards to the site could not be taken immediately.
[0010]
Therefore, the present invention uses a fire notification transmitter often seen in various places including public facilities such as schools, and is pushed in the event of an abnormal situation such as when a fire is found or a violent person is attacked. It is intended to provide a disaster prevention system that allows the center side to identify the position of the transmitter that has been operated by the button, and can promptly take countermeasures such as dispatching guards to the site. To do.
[0011]
[Means for Solving the Problems]
The disaster prevention system according to the invention of claim 1 has a push button switch that is manually operated when an abnormal situation occurs, and responds to the artificial operation of the push button switch. , A dedicated receiving line (hereinafter referred to as " L-C line Called) A plurality of transmitters that are in a short-circuit state, and detecting a short-circuit state of the L-C line to detect an abnormal situation in a warning area assigned to the L-C line and operating the push button switch For the transmitter A confirmation line (hereinafter referred to as a confirmation line) that sends a signal indicating that an alarm has been received from the receiver. A-C line Called) Including a receiver that sends a current (hereinafter referred to as an answer current) for turning on a confirmation lamp provided on the transmitter on which the push button switch is operated, and prompts the operator to receive a signal. A current modulation means provided in each of the transmitters, for modulating the answer current of the A-C line with the unique address information of the transmitter at the time of manual operation of the push button switch; and the receiver And detecting that an abnormal situation has occurred in the warning area assigned to the L-C line and detecting the short-circuit state of the L-C line, and detecting the push button from the modulation state of the answer current And an address specifying means for specifying the unique address of the transmitter on which the switch is operated.
[0012]
In this invention, when the push button switch of the transmitter is operated, the receiver detects a short-circuit state of the L-C line, and reports an abnormal situation within the warning area assigned to the L-C line. In addition, the transmitter that supplies the answer current to the A-C line and that has reported the abnormal situation reports the answer current of the A-C line as its own unique address information (abnormal situation). The receiver identifies the unique address of the transmitter that has reported the abnormal situation from the modulation state of the answer current.
[0013]
The transmitter according to the invention of claim 2 is a transmitter that has a push button switch that is manually operated when an abnormal situation occurs, and that short-circuits the L-C line in response to the artificial operation of the push button switch. Then, the receiver constituting the disaster prevention system together with the transmitter detects a short-circuit state of the L-C line, detects an abnormal situation report in a warning area assigned to the L-C line, and An answer current for lighting a confirmation lamp provided in the transmitter operated by the push button switch is sent to the transmitter operated by the button switch via the AC line, and a signal is sent to the operator. It is characterized by comprising current modulation means for modulating the answer current with the unique address information of the transmitter when it is told that it has been received.
[0014]
In the present invention, when the push button switch is operated, the L-C line is short-circuited to notify the abnormal situation, and supplied from the receiver via the AC line in response to the abnormal situation report. The answer light is turned on using the answer current, and the answer current is modulated with the unique address information of the transmitter (the transmitter that turned on the operation check lamp).
[0015]
The receiver according to the invention of claim 3 has a push button switch that is manually operated when an abnormal situation occurs, and in response to the artificial operation of the push button switch, the LC line is short-circuited, Current modulation means for turning on the confirmation lamp in response to an answer current flowing from the receiver via the AC line during the manual operation of the push button switch, and modulating the answer current with the unique address information of the transmitter A receiver that constitutes a disaster prevention system together with a transmitter provided, and detects a short circuit state of the L-C line and detects that an abnormal situation has occurred in a warning area assigned to the L-C line. A check lamp provided on the transmitter operated by the push button switch is turned on via the AC line for the transmitter operated by the push button switch when the short circuit state of the L-C line is detected. And an address specifying means for specifying the unique address of the transmitter that has reported the abnormal situation from the modulation state of the answer current. Features.
[0016]
In this invention, when the push button switch of the transmitter is operated, the short circuit state of the L-C line is detected, and an abnormal situation notification is made in the alert area assigned to the L-C line. At the same time, the answer current is supplied to the AC line, and the unique address of the transmitter that has reported the abnormal situation is specified from the modulation state of the answer current.
[0017]
According to a fourth aspect of the present invention, there is provided a repeater having a push button switch that is manually operated when an abnormal situation occurs, and a transmitter for short-circuiting the L-C line in response to the artificial operation of the push button switch; A repeater provided between the transmitter and a receiver constituting a disaster prevention system, wherein the receiver detects a short-circuit state of the L-C line and is assigned to the L-C line. A warning lamp provided on the transmitter operated by the push button switch is lit on the transmitter operated by the push button switch to the transmitter operated by the push button switch when an abnormal situation report in the warning area is detected. An answering current is supplied, and when an operator is prompted to receive a signal, current answering means for modulating the answering current with address information of the transmitter is provided.
[0018]
In this invention, when the push button switch of the transmitter is operated and the L-C line is short-circuited to report an abnormal situation, the receiver responds to the abnormal situation report from the receiver via the AC line. The supplied answer current is modulated with the unique address information of the transmitter connected to the own repeater (the transmitter that made the abnormality report).
[0019]
The repeater according to a fifth aspect of the present invention is the repeater according to the fourth aspect, wherein the address information is commonly assigned to the plurality of transmitters when a plurality of transmitters are connected to the repeater. Address information for group identification.
[0020]
In this invention, when any push button switch of a plurality of transmitters connected to the own repeater is operated and the L-C line is short-circuited to report an abnormal situation, the abnormal situation is reported. In response, the answer current supplied from the receiver via the AC line is modulated with the group address information of a plurality of transmitters (including the transmitter that made the abnormality report) connected to the own repeater.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of a disaster prevention system according to the present invention will be described with reference to the drawings, taking a P (proprietary type) fire alarm system as an example.
[0022]
FIG. 1 is a conceptual system configuration diagram of a disaster prevention system according to the present invention. In this figure, the receiver 20 is configured by arranging various display lamps and operation buttons on the front panel 21 thereof. For example, in the illustrated example, an abnormal situation indicator light 22 that is turned on when an abnormal situation such as a fire is reported, a reporting location display section 23 that displays the location of an abnormal situation report, an operation section 24, and an acoustic output section 25 are provided. In addition, an operation display unit 27 for maintenance and inspection is provided inside the small door 26.
[0023]
An A line, a C line, and an Li line are drawn from the receiver 20. Here, the A line and the C line are drawn one by one, but the Li lines are drawn by the number of the warning areas. In addition, the illustrated Li line indicates a representative one (i-th alert area). Each pair of A and C lines (hereinafter referred to as “AC line 28”) is connected to an arbitrary number (hereinafter referred to as “n”) transmitters 50, and a pair of Li and C lines ( (Hereinafter referred to as “LC line” 29) is also connected to an arbitrary number (hereinafter referred to as “n”) transmitters 50. The C line is a common line for the A-C line 28 and the L-C line 29, a so-called common line.
[0024]
Here, all the transmitters 50 have the same configuration, and the transmitter 50 is, in short, a push button type transmitter for fire notification, for example, based on a P-type first-class transmitter. The present invention has been improved by applying the technical idea of the present invention. That is, the external appearance is the same as that of the conventional transmitter 4 (see FIG. 11A), and an appropriate character string (“fire alarm” in the figure) indicating the application is applied to the circular main body 5 painted in red. A printed or stamped nameplate 6 is pasted, and a circular hole 8 protected by a transparent plastic window 7 is formed in the vicinity of the center of the circular main body 5, and a push button switch 9 is formed inside the circular hole 8. The operation confirmation lamp 10 is provided, and the emergency call operation is broken by pressing the plastic window 7 with a finger or the like, and the push button switch 9 is pushed down to be used artificially. In this respect, it is the same as the conventional one.
[0025]
The difference from the conventional transmitter 4 is that the location of the emergency call is improved so that the receiver 20 can pinpoint the location of the transmitter 50 as a unit.
[0026]
FIG. 2 is an electrical configuration diagram of the receiver 20 and the transmitter 50. The receiver 20 includes a central control unit 31 including a reception control unit 30, a front panel 21, a transfer output unit 32, a memory 33, a notification detection unit 34, a current detection unit 35, and the like.
[0027]
When the detection unit detects that any line or sensor is in a fire state, the message output unit 32 changes the contact, voltage, or current to an external device (for example, a sub display panel). The information (referred to as relocation) is output. In addition to the representative output, the message can be output for each line or for a specified sensor. The memory 33 is a mask chrome or a flash ROM that stores the operation software of the central control unit 31. It is also possible to write operation history and quality control information at the time of shipment.
[0028]
When constructing a fire alarm system, an arbitrary number of fires are generated in the LC line 29 (the Li line and the C line) drawn from the alarm detection unit 34 for each monitoring area (one representative is shown in the figure). The alarm device S (smoke and heat detection type fire detector) is connected and any number (for convenience, n, ie, No. 1 to No. n) of transmitters 50 are connected to the Li and C wires. Further, the arbitrary number (for convenience, n, ie, No. 1 to No. n) of transmitters 50 are connected to the A line (A line of the AC line 29) drawn from the current detection unit 35. Connect. R is a termination resistance of the L-C line 29.
[0029]
The notification detection unit 34 detects a short circuit state of the L-C line 29. For example, when the Li line and the C line are in a short circuit state, a notification detection signal that indicates a notification in the i-th monitoring area. Is generated and output to the central control unit 31.
When a notification detection signal is generated by the notification detection unit 34, the current detection unit 35 is controlled by the central control unit 31 so that a predetermined confirmation current (hereinafter referred to as “answer current”) is applied to the A line of the AC line 28. In addition, the magnitude of the answer current is measured, and the measurement signal is output to the central control unit 31.
[0030]
The central control unit 31 controls the overall operation of the receiver 20. The specific configuration is often designed by a so-called microprogram control system that generally includes a microprocessor as the main element in terms of designability and ease of modification, but in the technical idea of the present invention, It is not limited to that embodiment. For example, it may be designed with hard logic.
[0031]
The first function required for the central control unit 31 is an operation control function of the front panel 21 and the transfer output unit 32, and the second function is a function for specifying the monitoring area where the alarm is issued, and an abnormal situation report. Is the operation position detection function of the transmitter 50 (specifically specifying the unit of the installation position of the transmitter 50).
[0032]
The illustrated reception control unit 30 is a conceptual block that schematically represents the second function. That is, the reception control unit 30 specifies the monitoring area where the alarm is generated based on the short circuit detection signal from the notification detector 34, and controls the current detector 35 when the alarm is detected to control the AC line. The address of the transmitter 50 that made an emergency call is specified based on the answer current measurement signal measured by the current detector 35.
[0033]
FIG. 3 is a diagram illustrating a circuit configuration of the central control unit 31 (specifically, a part of the reception control unit 30) and the current detection unit 35. The illustrated circuit configuration is merely an example for explaining the operation of the embodiment, and the outer edge of the technical idea of the present invention should not be understood with this circuit configuration.
[0034]
The current detection unit 35 includes two terminals (A terminal and C terminal) for connecting the AC line 28 and a current detection circuit 36, and the detailed configuration thereof is as follows.
[0035]
That is, the A line of the A-C line 28 is connected to the A terminal, and the C line of the A-C line 28 is connected to the C terminal. The C terminal is connected to a common potential (common potential; ground potential in the figure), and the current detection circuit 36 has a current proportional to the answer current (ia) flowing between the two terminals (A terminal and C terminal) ( ic) is detected, and a measurement signal (current-voltage conversion signal SI) obtained by converting the detected current (ic) into a voltage is output to the central control unit 31.
[0036]
For example, the illustrated current detection circuit 36 includes five resistance elements 36a to 36e, an operational amplifier 36f, and a transistor 36g, and the resistance elements 36a and 36b are inserted in series between the A terminal and the + 24V power source, and the resistance elements 36a. , 36b is connected to the inverting input (−input) of the operational amplifier 36f, the + 24V power supply is connected to the non-inverting input (+ input) of the operational amplifier 36f via the resistance element 36c, and the output of the operational amplifier 36f is connected to the transistor 36g. Connected to the base, the non-inverting input of the operational amplifier 36f is connected to the emitter of the transistor 36g, and the collector of the transistor 36g is connected to the common potential via the resistance element 36e.
[0037]
In such a configuration, the collector of the transistor 36g of the current detection circuit 36 is connected to the common potential via the resistance element 36e, and the collector current (ic) of the transistor 36g is the two input resistances of the operational amplifier 36f. It is accurately controlled according to the resistance ratio of (resistive elements 36a, 36c). That is, if the answer current flowing from the + 24V power source to the AC line 28 is ia and the resistance ratio of the two input resistors (resistive elements 36a and 36c) of the operational amplifier 36f is A, then ic = ia / A. If the resistance element 36a is 100Ω and the resistance element 36c is 10kΩ, the resistance ratio A is 1/100, so ic = ia / 100, and the answer current ia flowing from the + 24V power source to the AC line 28 is accurately 1 The current ic set to / 100 can be passed through the resistance element 36e.
[0038]
Therefore, for example, when the resistance element 36e is 10 kΩ, the value of the current-voltage conversion signal SI taken out from both ends of the resistance element 36e is 10 kΩ × ic. For example, when ia = 35 mA, SI = 10 kΩ × ic = 10 kΩ × (35 mA / 100) = 3.5V.
[0039]
As described above, SI is 3.5 V when ia = 35 mA. In this embodiment, details will be described later, but in addition to the above 35 mA, ia is a total of three types of 0 mA and 10 mA. Takes the value of Therefore, SI takes three types of values: 3.5 V (when ia = 35 mA), 0 V (when ia = 0 mA), and 1.0 V (when ia = 10 mA).
Of these current values, ia = 0 mA is when no answer current is flowing. Further, ia = 10 mA and ia = 35 mA are obtained when an answer current is passed, and these two kinds of current values (10 mA / 35 mA) are modulation currents shown as convenience examples (not limited to this value). Value.
[0040]
FIG. 4 is a circuit block diagram of a transmitter 50 to which the technical idea of the present invention is applied. When the transmitter 50 shown in the figure detects a push button switch 51 (corresponding to the push button switch 9 in FIG. 11 (a (b))) or a push-down operation of the push button switch 51, the state is continuously latched. In addition to a detection circuit 52 that generates a simple detection signal, a noise absorption circuit / rectifier circuit 53, which will be described in detail below, and an operation check lamp 54 (corresponding to the operation check lamp 10 in FIG. 11 (a)) ), A power supply unit 55, an address setting unit 56, a modulation signal generation unit 57, and a current modulation unit 58.
[0041]
The noise absorption circuit / rectifier circuit 53 removes a noise component of the answer current (current that is modulated to 0 mA during steady state and 35 mA / 10 mA when reporting an abnormal situation) supplied from the receiver 20 via the AC line 28, This circuit rectifies the current.
[0042]
The power supply unit 55 is a circuit that generates an internal power supply voltage necessary for the operation of the detection circuit 46 and the modulation signal generation unit 57 from the answer current extracted from the noise absorption circuit / rectifier circuit 53.
[0043]
The address setting unit 56 is a circuit for setting identification information (referred to as address information) unique to each transmitter 50.
[0044]
The modulation signal generator 57 is a circuit that generates a predetermined modulation signal in response to the detection signal from the detection circuit 52. Although details of the modulation signal will be described later, it is a signal including information indicating the occurrence of an abnormal situation and address information set in the address setting unit 56.
[0045]
The current modulation unit 58 is a circuit that modulates the answer current with the modulation signal from the modulation signal generation unit 57. By the operation of this circuit, the answer current which was 0 mA in the steady state is amplitude-modulated with a binary logic of 35 mA and 10 mA at the time of reporting an abnormal situation, and the modulated waveform is transmitted to the receiver 20 via the AC line 28. .
[0046]
FIG. 5 is a diagram illustrating a modulation waveform of the answer current according to the present embodiment. In this figure, the answer current waveform increases and changes to 0 mA at steady state and 35 mA at the time of reporting an abnormal situation. It is characterized in that it shifts to a predetermined amplitude modulation period Kb after elapse of time and that the 35 mA increase period Ka and amplitude modulation period Kb are set as one unit and are repeated.
[0047]
FIG. 6 is a time chart showing an operation outline of the receiver 20 in the disaster prevention system of the present embodiment. FIG. 5A shows a sampling clock CK and a digital signal waveform DS obtained by binarizing SI (a value obtained by converting voltage of ic) by applying the sampling clock CK. In the case of (a), since ia = 0 mA, as described above, SI becomes 0 V, and if the threshold for binarization is set to a value slightly higher than 1.0 V, for example, DS becomes Maintain 0V (logic 0 at each CK timing).
[0048]
On the other hand, FIG. 5B shows an answer current ia at the time of reporting an abnormal situation, a sampling clock CK, and a digital signal waveform DS obtained by binarizing SI by applying the sampling clock CK. In the case of (b), ia is composed of a combination of 35 mA increase period Ka and amplitude modulation period Kb, and amplitude modulation period Kb is composed of a combination of logic 1 (35 mA) and logic 0 (10 mA). By applying the threshold value and binarizing SI for each sampling clock CK, the digital signal waveform DS shown in the figure can be obtained. For example, the illustrated DS is “1-11111” (9 logical 1 series) in the 35 mA increase period Ka, and is “0101010” in the amplitude modulation period Kb. Here, in the signal sequence “0100010” of the amplitude modulation period Kb, the first 2 bits (“01”) are the header part, and the remaining 5 bits are set by the transmitter address (the address setting unit 56 of the transmitter 50). Information section).
[0049]
Therefore, according to the receiver 20 of the present embodiment, when nine logical 1 series are obtained during the duration (ta) of the 35 mA increase period Ka, the transmitter 50 whose push button switch has been operated is provided. On the other hand, a confirmation current is flowing (“flowing” means a state in which a current is flowing through the contact b of the push button switch of the transmitter 50 and the operation check lamp 10. 50 transmitter confirmation lamp 10 (which means that the operation check lamp 10 is lit), and the transmitter 50 that has made a report from the 5-bit information section following the header section (in other words, the operation It is possible to know the unique address of the transmitter 50) in which the confirmation lamp 10 is lit. For example, in the illustrated example, since the 5-bit information part following the header part is “00010”, the decimal number is converted to “2”, that is, the transmitter assigned the address number “2”. 50 operation check lamps 10 are lit, and the receiver 20 can know that the notification is from the transmitter 50.
[0050]
As described above, according to the present embodiment, as shown in the operation flowchart of the transmitter 50 in FIG. 7, when the push button switch 51 is pressed down (step S11), the receiver 20 connects the AC line. After detecting the 35 mA answer current flowing into 28 (step S 12) and maintaining the 35 mA increase period Ka for a predetermined time (ta) (step S 13), based on the address information set in the address setting unit 56, The answer current is amplitude-modulated (logic 1 = 35 mA, logic 0 = 10 mA) (step S14), and the 35 mA increase period Ka is maintained and the modulation operation is repeated.
[0051]
Further, as shown in the operation flowchart of the receiver 20 in FIG. 8, it is determined whether the answer current is 10 mA or more (more precisely, 10 mA + α or more; α is a margin) (step S21). In the case of “YES” and when the YES state continues for a predetermined time (ta) (step S22), the address information of the transmitter 50 that has made the notification is extracted from the modulation information of the answer current (step S22). S23).
[0052]
In this way, in response to the push button operation of the transmitter 50, the answer current of the AC line 28 is modulated (modulated by the address information of the transmitter 50 that performed the push button operation), and the modulation of the answer current is performed. Since the detection is made on the receiver 20 side, an exceptional effect that the location of the emergency call can be pinpointed (position of the transmitter 50) can be obtained.
[0053]
Therefore, in this embodiment, the center side where the receiver 20 is installed can accurately grasp the place where various abnormal situations such as fires and other abnormal situations are reported. It becomes possible to take necessary measures promptly, such as dispatching to the site by the shortest route, for example, providing a system that is extremely useful as a suitable crime prevention system when applied to school security etc. it can.
[0054]
Moreover, since the technology according to the present invention does not make any changes to the appearance or operability of the transmitter 50, it is not necessary to give a special education or notification to the user, and the transmission is performed in the same manner as before. The notification operation of the machine 50 can be performed, and there is an advantage that it can be easily applied to an existing fire alarm system. Further, in the event of an abnormal situation such as when a fire is detected or a violent person is attacked, the push button switch of the transmitter 50 is operated to place the L-C line 29 in a short-circuited state and to detect the short-circuited state (in other words, The detection of the abnormal situation notification) is handled by the notification detection unit 34 provided in the L-C line 29, and the current provided in the A-C line 28 is used to specify the transmitter 50 that has made the emergency notification. Since the detection unit 35 is configured to be in charge, the notification detection unit 34 can use the existing one as it is, and the newly added configuration is based on the address extraction function of the current detection unit 35 and the transmitter 50. Only the answer current modulation function can be used. As a result, the fire alarm system can be modified on a small scale.
[0055]
By the way, in the said embodiment, although the example which mounted the address generation function in transmitter 50 itself was shown, the technical thought of this invention is not limited to this embodiment. For example, a repeater method may be used.
[0056]
FIG. 9 is a circuit block diagram showing the embodiment. In this figure, a repeater 60 is provided between a conventional transmitter (for example, transmitter 4 in FIG. 11) and a receiver, and this repeater 60 is connected to the transmitter 4. Terminal groups (L ′ terminal, A ′ terminal, C ′ terminal) and terminal groups (L terminal, A terminal, C terminal) for connecting the AC line 28 and the LC line 29 from the receiver 20. And a notification detection and power supply unit 61, an address setting unit 62, a modulation signal generation unit 63, and a current modulation unit 64, each of which has the following functions. In the illustrated example, one transmitter 50 is connected to one repeater 60 (that is, in a one-to-one relationship), but the present invention is not limited to this. Several transmitters 50 may be connected to one repeater 60.
[0057]
When the notification detection and power supply unit 61 detects the push-down operation of the push button switch 9 of the transmitter 4, the notification detection and power supply unit 61 latches the detection state, and thereafter generates an internal power supply voltage necessary for the operation of the modulation signal generation unit 63. It is.
[0058]
The address setting unit 62 is also identification information unique to each repeater 60 (therefore also address information of the transmitter 4 paired therewith. Or, in a mode in which several transmitters 50 are connected, those transmitters are connected. This is also a circuit for setting 50 group address information).
[0059]
The modulation signal generator 63 is a circuit that generates a predetermined modulation signal when an abnormal situation occurs. The details of the modulation signal are signals including information indicating the occurrence of an abnormal situation and the address information set in the address setting unit 56, as described above.
[0060]
The current modulator 64 is a circuit that modulates the answer current with the modulation signal from the modulation signal generator 63. By the operation of this circuit, the answer current, which was 0 mA in a steady state, is modulated with a binary logic of 35 mA and 10 mA when an abnormal situation is reported, and the modulated waveform is transmitted to the receiver 20 via the AC line 28.
[0061]
Even in the above configuration, the same effect as in the above embodiment can be obtained, and furthermore, since the address generation function is implemented in a repeater 60 different from the transmitter 4, it is possible to effectively utilize existing assets. A special effect is obtained. That is, in a building or the like in which the transmitter 4 is already installed, the present embodiment can be easily implemented without replacing the transmitter 4 only by introducing the receiver 20 and the repeater 60 of the present embodiment. A fire alarm system having the function of the crime prevention system according to the above can be constructed.
[0062]
FIG. 10A is a configuration diagram of a main part (report detection and power supply unit 61) of the repeater 60 of FIG. In this improved example, the modulation signal generator 63 is operated only when an abnormal situation is reported, thereby saving power. That is, the notification detection and power supply unit 61 shown in the figure has a short-circuit detection unit 61a, a switch unit 61b, and a constant voltage unit 61c, and when the button operation of the transmitter 4 is detected by the report detection unit 61a, the switch unit 61b. Is turned on, an answer current flowing in through the A terminal is supplied to the constant voltage unit 61c, and an operating voltage of the modulation signal generating unit 63 is generated.
[0063]
According to this, while the button operation is not detected by the notification detection unit 61a, that is, in a steady state, the switch unit 61b maintains an off state, and power is not consumed by the constant voltage unit 61c. Can be achieved.
[0064]
Incidentally, what kind of switching device is used for the switch unit 61b is a design category. For example, FIG. 10B shows a thyristor (an additional PN junction is added to the transistor). 4 elements) can be used. As is well known, a thyristor is a three-terminal device having an anode electrode (A), a cathode electrode (K), and a gate electrode (G), and the anode-cathode is switched from an off state to an on state by a gate potential. However, once the switch is turned on, the gate potential is not involved at all. Therefore, in order to maintain the on state as it is, it is necessary to keep a certain amount of current flowing between the anode and the cathode. is there. The logic 0 level (10 mA) of the amplitude modulation period Kb described above corresponds to this sustain current. Therefore, when using a switching device that does not require such a sustain current, the logic 0 level of the amplitude modulation period Kb is not necessarily limited to 10 mA. For example, the answer current level (0 mA) in a steady state may be used. .
[0065]
【The invention's effect】
According to the first aspect of the present invention, when the push button switch of the transmitter is operated, the receiver detects a short-circuit state of the L-C line, and within the warning area assigned to the L-C line. And detecting that an abnormal situation report has been made and supplying an answer current to the A-C line. On the other hand, the transmitter that has made the above-mentioned abnormal situation report uses the answer current of the A-C line as its own. Modulation is performed with the unique address information (the unique address information of the transmitter that has reported the abnormal situation), and the receiver identifies the unique address of the transmitter that has reported the abnormal situation from the modulation state of the answer current.
[0066]
Therefore, by utilizing a fire alarm transmitter that is often seen in various places including public facilities such as schools, the location of the transmitter in the event of an abnormal situation such as when a fire is found or a violent person attacks. Can be identified on the center (receiver installation location) side. For example, when you see a suspicious person at a school, you can operate the nearest transmitter and find the location. It is possible to notify the above, and to immediately take measures such as dispatching guards and teachers to the site immediately, and it is possible to construct a disaster prevention / crime prevention system useful for school security measures.
[0067]
According to the second aspect of the present invention, when the push button switch is operated, the L-C line is short-circuited to notify the abnormal situation, and in response to the abnormal situation report, via the AC line A transmitter that turns on the confirmation lamp using the answer current supplied from the receiver and modulates the answer current with the unique address information of the transmitter (the transmitter that lights up the operation confirmation lamp) is realized. be able to. Therefore, by combining with a receiver that has the required function (the function that identifies the unique address of the transmitter that reported the abnormal situation from the modulation state of the answer current), for example, a disaster prevention / crime prevention system useful for school security measures Can be built.
[0068]
According to the third aspect of the present invention, when the push button switch of the transmitter is operated, the short circuit state of the L-C line is detected, and the abnormal situation is notified in the warning area assigned to the L-C line. And a receiver that supplies an answer current to the AC line and identifies the unique address of the transmitter that has reported the abnormal situation from the modulation state of the answer current. Can do. Therefore, by combining with a transmitter having a required function (a function of modulating an answer current with its own unique address), for example, it is possible to construct a disaster prevention / crime prevention system useful for school security measures.
[0069]
According to the fourth aspect of the present invention, when the pushbutton switch of the transmitter is operated and the L-C line is short-circuited to report the abnormal situation, the AC is responded to the abnormal situation report. The answer current supplied from the receiver via the line is modulated with the unique address information of the transmitter connected to the own repeater (the transmitter that made the abnormality report). Therefore, it is useful for school security measures, for example, by combining with an existing transmitter and a receiver having a required function (a function for specifying the unique address of the transmitter that has reported the abnormal situation from the modulation state of the answer current). Disaster prevention / crime prevention system can be constructed at low cost.
[0070]
According to the invention described in claim 5, when any one of the push button switches of the plurality of transmitters connected to the own repeater is operated and the L-C line is short-circuited to report an abnormal situation, The group address of the multiple transmitters (including the transmitter that made the abnormal report) connected to the own repeater, using the answer current supplied from the receiver via the AC line in response to the report of the abnormal situation Modulate with information. Therefore, a plurality of transmitters can be grouped together and, for example, it is possible to reduce repair costs when building a disaster prevention / crime prevention system useful for school security measures.
[Brief description of the drawings]
FIG. 1 is a conceptual system configuration diagram of a disaster prevention system according to the present invention.
2 is an electrical configuration diagram of a receiver 20 and a transmitter 50. FIG.
3 is a diagram illustrating a circuit configuration of a central control unit 31 (a part of the reception control unit 30) and a current detection unit 35. FIG.
FIG. 4 is a circuit block diagram of a transmitter 50 to which the technical idea of the present invention is applied.
FIG. 5 is a diagram illustrating a modulation waveform of an answer current according to the present embodiment.
FIG. 6 is a time chart showing an outline of the operation of the receiver 20 in the disaster prevention system of the present embodiment.
FIG. 7 is a diagram showing an operation flowchart of the transmitter 50 in the disaster prevention system of the present embodiment.
FIG. 8 is a diagram showing an operation flowchart of the receiver 20 in the disaster prevention system of the present embodiment.
FIG. 9 is a circuit block diagram of a repeater showing another embodiment of the present invention.
10 is a configuration diagram of a main part (report detection and power supply unit 61) of the repeater 60 of FIG. 9 improved with the intention of reducing power consumption.
FIG. 11 is an external view of a fire alarm panel and a configuration diagram of a P-type fire alarm system.
[Explanation of symbols]
20 Receiver
28 AC line
29 LC line
30 Reception control unit (address identification means)
31 Central control unit (address identification means)
35 Current detector (address identification means)
50 transmitter
51 Pushbutton switch
56 Address setting unit (current modulation means)
57 Modulation signal generator (current modulation means)
58 Current modulator (current modulation means)
60 repeater
62 Address setting section (current modulation means)
63 Modulation signal generator (current modulation means)
64 Current modulation part (current modulation means)

Claims (5)

There is a push button switch that is manually operated when an abnormal situation occurs, and a dedicated reception line (hereinafter referred to as an L-C line ) that is drawn into the receiver for each warning area in response to the artificial operation of the push button switch. A plurality of transmitters to be short-circuited;
A short circuit state of the L-C line is detected to detect an abnormal situation report in a warning area assigned to the L-C line, and from the receiver to the transmitter in which the push button switch is operated. A current (hereinafter, referred to as “light”) for illuminating a confirmation lamp provided in the transmitter operated by the push button switch via a confirmation line (hereinafter referred to as “AC line ”) through which a signal indicating that an alarm has been received is sent . A disaster prevention system including a receiver that sends an answer current) and prompts the operator to receive a signal,
A current modulation means provided in each of the transmitters, for modulating the answer current of the A-C line with the unique address information of the transmitter, during manual operation of the push button switch;
Provided in the receiver, detects a short-circuit state of the L-C line, detects that an abnormal situation has occurred in a warning area assigned to the L-C line, and detects from the modulation state of the answer current A disaster prevention system comprising: an address specifying unit that specifies a unique address of a transmitter in which the push button switch is operated. There is a push button switch that is manually operated when an abnormal situation occurs, and a dedicated reception line (hereinafter referred to as an L-C line ) that is drawn into the receiver for each warning area in response to the artificial operation of the push button switch. A transmitter in a short-circuit state,
The receiver constituting the disaster prevention system together with the transmitter detects a short-circuit state of the L-C line, detects an abnormal situation report in a warning area assigned to the L-C line, and the push button switch The push button switch is provided on the operated transmitter via a confirmation line (hereinafter referred to as an AC line ) through which a signal indicating that an alarm has been received from the receiver is sent to the operated transmitter. When an answer current for turning on the confirmation light is applied and the operator is prompted to receive a signal,
A transmitter comprising: current modulation means for modulating the answer current with unique address information of the transmitter. There is a push button switch that is manually operated when an abnormal situation occurs, and a dedicated reception line (hereinafter referred to as an L-C line ) that is drawn into the receiver for each warning area in response to the artificial operation of the push button switch. Answer current sent from the receiver through a confirmation line (hereinafter referred to as an AC line ) through which a signal indicating that an alarm has been received from the receiver is sent during manual operation of the push button switch. Receiving a light for confirmation, and a receiver constituting a disaster prevention system together with a transmitter provided with current modulation means for modulating the answer current with the unique address information of the transmitter,
The short circuit state of the L-C line is detected to detect that an abnormal situation has occurred in the alert area assigned to the L-C line, and when the short circuit state of the L-C line is detected, the push button switch An answer current was sent to the operated transmitter via the AC line to turn on the confirmation lamp provided on the transmitter operated by the push button switch, and the operator received a signal. And a receiver comprising address specifying means for specifying the unique address of the transmitter that has reported the abnormal situation from the modulation state of the answer current. There is a push button switch that is manually operated when an abnormal situation occurs, and a dedicated reception line (hereinafter referred to as an L-C line ) that is drawn into the receiver for each warning area in response to the artificial operation of the push button switch. A repeater provided between a transmitter in a short-circuit state and a receiver that constitutes a disaster prevention system together with the transmitter,
The receiver detects a short-circuit state of the L-C line, detects an abnormal situation report in a warning area assigned to the L-C line, and transmits a transmitter in which the push button switch is operated. For turning on a confirmation light provided on the transmitter operated by the push button switch via a confirmation line (hereinafter referred to as an AC line ) through which a signal indicating that an alarm has been received from the receiver is sent . When an answer current is applied and the operator is prompted to receive a signal,
A repeater comprising current modulation means for modulating the answer current with address information of the transmitter. 5. The relay according to claim 4, wherein the address information is address information for group identification commonly assigned to the plurality of transmitters when a plurality of transmitters are connected to the repeater. vessel.

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