JP2003132465A - Fire alarm facility - Google Patents

Abstract

PROBLEM TO BE SOLVED: To easily construct an anticrime system by using the line of a fire alarm facility. SOLUTION: This fire alarm facility 10 is provided with a fire sensor for monitoring a fire according as a voltage within a prescribed range is supplied, and for outputting a sensor operation signal having a voltage value beyond the prescribed range at the time of sensing a fire, a sensor line for supplying a voltage for monitor within the prescribed range to the fire sensor, a block bell, and a fire receiver 11 for receiving the sensor operation signal from the fire sensor through the sensor line, and for ringing a fire alarm from the block bell at the time of judging that a fire breaks out based on the sensor operation signal. This fire alarm facility 10 is also provided with an anticrime switch 1 and a signal generating means 2 for transmitting an anticrime signal having a voltage value within the prescribed range which is different from the voltage for monitor through the sensor line to the fire receiver 11. The fire receiver 11 is provided with an adapter 20 for anticrime for ringing a anticrime alarm from the block bell at the time of detecting the anticrime signal.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to fire alarm equipment having a crime prevention function.

[0002]

2. Description of the Related Art In recent years, there has been an increasing interest in strengthening the crime prevention system in facilities such as schools and hospitals where many people come and go, and one of the crime prevention systems is to install a crime prevention bell.

[0003]

However, constructing a crime prevention bell net over a large building such as a school or a hospital requires a large-scale installation work and is not easy in terms of work and cost. On the other hand, it has been legally obligatory to install a fire alarm system covering the entire building in public facilities. Therefore, an object of the present invention is to easily construct a crime prevention system by using a line of a fire alarm facility.

[0004]

In order to solve the above problems, the invention described in claim 1 is installed in a plurality of districts, for example, as shown in FIG. 1, and a voltage within a predetermined range is supplied. The fire detector (smoke detector S, heat detector T), which maintains the fire monitoring function and outputs a detector activation signal having a voltage value outside the predetermined range when a fire is detected, and a power supply line. And a detector line (common line C, detector lines L1 to Ln) that also serves as a signal line and supplies a monitoring voltage having a substantially constant voltage value within the predetermined range to the fire detector; District bells (B1, B1,
Bn, Bn) and the detector activation signal from the fire detector via the detector line, and when it determines that there is a fire based on the detector activation signal, it fires a fire alarm from the district bell. In a fire alarm facility (10) including a processing device (fire receiver 11), a crime prevention switch (1) that can be operated from the outside and, when the crime prevention switch is operated, within the predetermined range via a sensor line And a signal generating means (2) for transmitting a crime prevention signal distinguishable to the monitoring voltage to the central processing unit, the central processing unit comprising:
It is characterized in that a crime prevention signal detection circuit (crime prevention adapter 20) for sounding a crime prevention alarm when a crime prevention signal is detected is provided.

Here, the crime prevention signal detection circuit may be built in the central processing unit or may be a device attached to the central processing unit. Further, a control circuit provided in the central processing unit for performing various control processes relating to the original fire may also serve as the crime prevention signal detection circuit. Further, "to ring the crime prevention alarm from the district bell" may be configured so that the crime prevention signal detection circuit directly outputs a control signal for ringing the district bell, or the crime prevention signal detection circuit sends a predetermined signal to the central processing unit. May be output and the central processing unit may be configured to ring the district bell.

According to the first aspect of the invention, a crime prevention switch is provided, and when there is an illegal intrusion, the crime prevention signal is detected from the signal generating means by operating the crime prevention signal (central processing unit). ), The district bell rings in response to this, which can intimidate trespassers. In this way, it is possible to easily construct a crime prevention system using the fire alarm facility. Moreover, since the crime prevention signal output from the signal generating means is within the predetermined range and can be distinguished from the monitoring voltage via the sensor line, even if the crime prevention switch is operated, the fire detection signal is detected. The firearm can maintain the monitoring function and the reliability as a fire alarm system is secured.

In the invention described in claim 1, the "security signal distinguishable with respect to the monitoring voltage" may be any signal, but specifically, the claims 2 to 9 Is mentioned.

According to a second aspect of the present invention, in the fire alarm equipment according to the first aspect, as shown in, for example, FIGS. 3 and 11, the signal generating means performs the monitoring when the crime prevention switch is operated. A constant voltage output means (constant voltage circuits 2a and 2e) that outputs a signal having a substantially constant voltage value different from the working voltage as a crime prevention signal is characterized. According to the second aspect of the invention, when the crime prevention switch is operated, the constant voltage output means outputs a signal having a substantially constant voltage value different from the monitoring voltage as a crime prevention signal. The detection circuit can easily know that the crime prevention switch has been operated without being confused with the sensor activation signal.

The constant voltage output means described in claim 2 may include a Zener diode (3a) as in the invention described in claim 3, for example. Further, as in the invention described in claim 4, for example, as shown in FIG. 11, the constant voltage output means has two zener diodes (3e, 3f) connected in series with their polarities reversed. May be provided. According to the invention described in claim 4, since the two Zener diodes have no polarity as a whole, there is no need to confirm the connection direction to the line in the installation work or the like, which facilitates the work.

The invention according to claim 5 is the fire alarm system according to claim 1, wherein, for example, as shown in FIG. 5, the signal generating means has a unique frequency when the crime prevention switch is operated. It is characterized by being a constant frequency output means (constant frequency circuit 2b) for outputting a signal as a crime prevention signal. According to the invention described in claim 5, when the crime prevention switch is operated, the constant frequency output means outputs a signal having a specific frequency as a crime prevention signal. Therefore, the crime prevention signal detection circuit is confused with the sensor activation signal. Without doing so, it is possible to easily know that the security switch has been operated. Also, when multiple security switches and signal generators are installed, changing the frequency of the signal emitted by each constant frequency output means allows the security signal detection circuit to determine where the security switch is installed. It becomes possible to take effective measures such as displaying the place itself where the abnormality has occurred.

In the fifth aspect of the invention, the constant frequency output means may include a digital circuit which outputs a pulse signal having a constant frequency. Alternatively, as in claim 6, a tuning fork oscillating element (3
b) may be provided.

The invention according to claim 7 is the fire alarm equipment according to claim 1, wherein, for example, as shown in FIG. 7, the signal generating means (the signal generating circuit with address 2c) outputs a crime prevention signal. When the security signal detection circuit receives the security signal, the central processing unit sequentially calls all the signal generating means, and the output part of the signal generating means that outputs the security signal is the central processing unit. It is characterized by outputting a response signal for answering the call.

According to the invention described in claim 7, when the crime prevention switch is operated, the crime prevention signal is output from the output portion of the signal generating means and detected by the crime prevention signal detection circuit.
Next, the central processing unit calls all the signal generating means in order, and the output unit of the signal generating means that outputs the crime prevention signal outputs a response signal in response to the calling of the central processing unit. It is possible to discriminate whether or not the crime prevention switch being operated has been operated, and it is possible to take effective measures such as displaying the place itself where the abnormality has occurred.

In the invention described in claim 7, specifically, the invention may be configured as in claim 8. That is, in the invention described in claim 8, the central processing unit calls the signal generating means by the address which is individually set in advance, and the signal generating means stores the own address in the address storage section (address setting section 33). ) And an address detection unit (address detection circuit 31) that detects a match between the address transmitted from the central processing unit and the address stored in the address storage unit. When it is detected, a response signal is output to the central processing unit.

According to a ninth aspect of the present invention, in the fire alarm system according to the first aspect, for example, as shown in FIG. 9, the signal generating means is provided with the monitoring voltage when the security switch is operated. Are different constant voltage values, and
It is characterized in that it is a natural frequency voltage output means (constant frequency / constant voltage circuit 2d) that outputs a signal having a unique frequency as a crime prevention signal. According to the invention of claim 9, when the crime prevention switch is operated, a signal having a substantially constant voltage value different from the monitoring voltage and having a unique frequency is generated by the natural frequency voltage output means. Since the security signal is output, the security signal detection circuit can easily know that the security switch has been operated without being confused with the sensor activation signal. In addition, when multiple crime prevention switches and signal generators are installed, changing the frequency of the signal emitted by each natural frequency voltage output means causes the crime prevention signal detection circuit to determine where the crime prevention switch is installed. Therefore, it is possible to take effective measures such as displaying the place where the abnormality has occurred.

The invention as defined in claim 10 is defined by claim 1 through claim 9.
In the fire alarm system according to any one of 1 to 3, the crime prevention signal detection circuit is connected to the central processing unit as an adapter. According to the tenth aspect of the invention, since the crime prevention signal detection circuit is connected to the central processing unit as an adapter, it is possible to easily add the crime prevention function using the existing fire alarm equipment.

The invention according to claim 11 is the fire alarm system according to claim 10, wherein, for example, as shown in FIG. 1, the crime prevention signal detection circuit is connected to a line branched from the sensor line. Is characterized by.

According to a twelfth aspect of the present invention, in the fire alarm system according to the tenth aspect, for example, as shown in FIG. 12, the sensor line (common line C, sensor line L) is a crime prevention signal detection circuit ( The security signal receiver 62) is connected, and the security signal detection circuit and the central processing unit (fire receiver 61) are connected by another line. The security signal detection circuit is connected to the central processing unit when the sensor activation signal is received. When the security signal is received, the district bell (B) is activated by itself. According to the twelfth aspect of the present invention, compared to the eleventh aspect, the line is divided in the crime prevention signal detection circuit, the sensor activation signal and the crime prevention signal are distinguished by the crime prevention signal detection circuit, and only the sensor activation signal is detected. Is output to the central processing unit, which simplifies signal transmission / reception as a whole and simplifies the control system.

The invention described in claim 13 is the invention according to claims 1 to 1.
In the fire alarm system according to any one of 2 above, the ringing states of the fire alarm and the crime prevention alarm are different. According to the thirteenth aspect of the present invention, since the sounding states of the fire alarm and the crime prevention alarm are different, it is possible to easily determine whether a fire has occurred or an abnormality has occurred in crime prevention, and the resident or the like can take appropriate measures. Can be taken.

The invention described in claim 14 relates to claims 1 to 1.
In the fire alarm system according to any one of 3 above, for example, as shown in FIG. 1, even if a crime prevention signal is output by operating the crime prevention switch, a ring stop switch for preventing the district bell from ringing (security ringing stop) Switches 12a, 22
a) is provided. According to the invention as set forth in claim 14, since the district bell does not ring even if the crime prevention switch is operated by operating the ring stop switch, an illegal intruder understands that the crime prevention switch has been operated and the reverse operation is performed. You can prevent going up.

In the fire alarm equipment according to any one of claims 1 to 14, as in the invention according to claim 15, there is provided a notification mechanism that automatically notifies an external engine when the security switch is operated. It may be provided.

The invention according to claim 16 is the first aspect.
15. In the fire alarm system according to any one of 1 to 15, for example, as shown in FIG. 11, the crime prevention switch (1) and the signal generating means (constant voltage circuit 2e) are connected to a sensor line (common line C, sensor line L). ) Is connected by a feed wire.

[0023]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a diagram showing a fire alarm facility 10 as an example of the present invention. The fire alarm system 10 is provided in a building such as a school or a hospital where many people come in and out, for example, a district circuit 13, a ringing circuit 1
7. A fire receiver (central processing unit) 11 including a control circuit 12 and the like, and a fire detector connected to the fire receiver 11 and installed in each of a plurality of districts. Here, one district means one disaster prevention section such as one floor of a building or one room.

Examples of the fire detectors installed in each area include a smoke detector S and a heat detector T. These detectors are, as shown in FIG. 1, a common line C commonly arranged in all areas and sensor lines L1 to Ln arranged in each area (the number of areas is n). It is connected to the district line (sensor line) consisting of and. The district line is a power supply line for supplying power from the fire receiver 11 to a detector and the like, and also serves as a signal line between the fire receiver 11 and the detector. When the smoke detector S or the heat detector T detects a fire, it sends a detector activation signal to the district circuit 13 via the district circuit.

The fire detector, whether it is the smoke detector S or the heat detector T, has a wide range of operable voltage, for example, a voltage of about 14 V or more and 30 V or less (a voltage within a predetermined range). Is supplied, the monitoring operation can be maintained and the sensor activation signal can be output. However, in reality,
In the fire alarm system 10, the common line C and the detector line L1
A voltage of 24V (monitoring voltage) is applied between the voltage and Ln, and the fire detector uses this voltage. When a fire detector detects a fire, it lowers its internal resistance and transmits a signal having a voltage value of about 2 to 4 volts, which is smaller than 24V, as a detector activation signal and maintains its operation. Further, the fire receiver 11 sets the supply voltage to a voltage close to "0" (for example, 0 V) after a lapse of a predetermined time after receiving the sensor activation signal. This renders the sensor unable to maintain operation and restores the sensor to its original monitoring state. This voltage level to be restored is called a restoration level.

Further, a terminator Q is connected to the terminal of the district line, and the fire receiver 11 uses this terminator Q to monitor the disconnection of each district line. Further, a crime prevention switch 1 and a signal generating means 2 are provided in each district line. When a person who discovers an illegal intruder operates the crime prevention switch 1, it is possible to distinguish the 24V supply voltage from the signal generating means 2 and the normal monitoring operation of the fire detector is possible. A signal having a specific voltage value or frequency (hereinafter, crime prevention signal) having a voltage value within the range is output to the district line. Specific examples of the crime prevention switch 1 and the signal generating means 2 will be described later. Note that the crime prevention switch 1 may not necessarily be provided in all district lines, or a plurality of crime prevention switches 1 may be provided in one district.

Further, in each district, there are district bells B1 and B1.
..., Bn, Bn ... are installed. Each district bell is connected to a bell line consisting of a bell common line BC that is common to all district bells, and district bell lines BL1 to BLn (where the number of districts is n) arranged for each district. There is. The district bell is ringing circuit 17 through the bell line for each district.
Sounds according to instructions from. The fire alarm facility 10 is configured to change the security alarm that is sounded by receiving the security switch 1 from the fire alarm. In the present embodiment, as shown in FIG. 2, in the case of a fire alarm, a continuous voltage signal is applied to the bell line, for example, "P"
Sounds a continuous sound such as. When the crime prevention switch 1 is operated, an intermittent voltage signal is applied and an intermittent sound such as "beep" is sounded. Although the fire alarm facility 10 can detect a fire even when the crime prevention switch 1 is operated, if a fire occurrence is confirmed before and after the crime prevention switch 1 is operated, not a crime prevention alarm, Fire alarm has priority.

The fire receiver 11 is installed in, for example, a building management room or a disaster prevention center. The fire receiver 11 includes a control circuit 12 including a CPU (Central Processing Unit) and a memory, and the control circuit 1
2 includes a district circuit 13, a storage circuit 14, a display circuit 18, an entire ringing circuit 15 and the like which are connected to 2, and various other circuits, but circuits unnecessary for the explanation of the present invention are omitted.

The district circuit 13 is connected to each of the district lines described above so as to receive the detector activation signal from the fire detector for each district. In district circuit 13,
A predetermined accumulation time is provided to prevent the detector activation signal due to the non-fire alarm of the fire detector. In other words, when the district circuit 13 receives the detector activation signal from the fire detector, the district circuit 13 once restores the fire detector that has transmitted the signal and starts the timer of the predetermined accumulation time in the accumulation circuit 14. Let Here, if a detector activation signal is transmitted again from the same fire detector before the predetermined accumulation time passes, a fire signal is transmitted to the control circuit 12 via the accumulation circuit 14. If the detector activation signal is not transmitted from the fire detector of the same line after the predetermined accumulation time, it is treated as if the first detector activation signal was not present.

The ringing circuit 17 transmits an instruction signal to ring the district bell in response to a ringing control signal from the control circuit 12. The display circuit 18 receives the display control signal from the control circuit 12 and receives the district indicator lamp 19
In addition, other display lamps (not shown), a 7-segment display unit, and the like are controlled to display predetermined contents.
The district indicator lamp 19 is provided with an indicator lamp showing the current state of each district. For example, it lights up when a fire occurs and blinks when a failure such as a wire breakage occurs. As a result, a person who is monitoring the fire receiver 11 can immediately know in which area where some abnormality is currently occurring. The reference numeral 19a of the district indicator lamp 19 can be used not only as a district indicator but also as a crime prevention switch operation indicator lamp for indicating that the crime prevention switch 1 is activated.

The whole building ringing switch 16 is a switch manually operated to ring the whole building in an emergency. By turning this on, an entire building ringing signal is transmitted to the control circuit 12 via the entire building ringing circuit 15. When the control circuit 12 receives the whole building ringing signal, the ringing circuit 17
Ring all district bells through. Further, when the whole building automatically rings under the control of the control circuit 12 in response to a fire detection or the like, the whole building ringing switch 16 can be operated to stop the whole building ringing.

When the control circuit 12 receives the fire signal, it carries out various fire treatments. For example, via the ringing circuit 17, the area bell of a specific area is rung or the entire building is rung. In addition, it drives interlocking equipment (not shown) such as smoke prevention equipment provided in the fire alarm equipment 10. Further, a predetermined display is provided on the district indicator lamp 19 or the like via the display circuit 18.

The fire alarm system 10 basically monitors and notifies a fire, but by installing a crime prevention adapter 20 as a crime prevention signal detection circuit in the fire receiver 11, the fire alarm system 10 was laid throughout the building. It can function as a crime prevention system using the line network. The crime prevention adapter 20 includes a crime prevention switch detection circuit 21, an entire building ringing command circuit 22 connected to the entire building ringing circuit 15, and a crime prevention bell display circuit 23 connected to the display circuit 18.

The security switch detection circuit 21 detects the operation of the security switch 1. That is, the crime prevention switch detection circuit 21 is connected to the crime prevention common line XC branched from the common line C of the district line and the district crime prevention lines X1 to Xn branched from the sensor lines L1 to Ln, respectively. Monitor for security signals on district lines. The crime prevention switch detection circuit 21 is a district crime prevention line X1 to X.
When it is detected that a crime prevention signal has flowed by one of n and the crime prevention common line XC, a signal indicating that the crime prevention signal has been detected is output to the entire building ringing command circuit 22 and the crime prevention bell display circuit 23. In response to this, the entire ringing command circuit 22
The entire building ringing circuit 15 causes the control circuit 12 to output an entire building ringing signal. The crime prevention bell display circuit 34 is the display circuit 1
The crime prevention switch operation indicator light 19a and the district indicator light of the corresponding area are turned on via 8.

Therefore, when the security switch 1 is operated,
Through the crime prevention adapter 20, the district bell of the whole building rings to notify residents and the like, and the crime prevention switch operation indicator light 19a and the corresponding district indicator light are turned on, so that the person who monitors the fire receiver 11 also Be informed.

In the fire alarm system 10 of FIG. 1, the crime prevention adapter 20 does not necessarily have to be provided. In that case,
For example, the crime prevention signal is directly input to the control circuit 12 via the district circuit 13 as shown by the dotted line in FIG. Control circuit 1
When the security signal is received, 2 makes the whole building sound through the sounding circuit 17, and also, through the display circuit 18, the security switch operation indicator light 19a and the district indicator light of the corresponding area are turned on. That is, the control circuit 12 serves as the crime prevention signal detection circuit of the present invention.

In addition, when the crime prevention adapter 20 or the crime prevention adapter 20 is not provided and the control circuit 12 is provided with a crime prevention function, as shown in FIG.
By providing a and 22a and operating the switches 12a and 22a, it is possible to prevent the district bell from ringing even if the crime prevention switch 1 is pressed. With such a configuration, even if the crime prevention switch 1 is operated, an illegal intruder cannot understand. In addition, we install crime prevention ring stop switch in each district,
A signal instructing to stop ringing may be output to the crime prevention adapter 20 or the control circuit 12 via a local line or the like. Furthermore, when the crime prevention switch 1 is operated, the fire receiver 11 and the crime prevention adapter 20 may automatically notify the security company or the police, as indicated by the track P and the track P ′. .

According to the above fire alarm system 10, by providing the crime prevention switch 1 on the district line and operating it,
The crime prevention signal is transmitted to the crime prevention adapter 20 and the control circuit 12. As a result, under the control of the control circuit 12, the area indicator lamp 1 of the area that rings the entire building and transmits the crime prevention signal is sent.
It is configured to display an indication such as turning on 9 to notify an emergency. Therefore, the crime prevention system could be constructed using the fire alarm facility 10. Moreover, when the crime prevention adapter 20 is provided, the crime prevention function can be easily added without significantly changing the existing fire alarm facility. Furthermore, since the sounding states of the fire alarm and the crime prevention alarm are different, it is possible to easily determine whether a fire has occurred or a crime prevention abnormality has occurred, and the resident or the like can take appropriate measures.

In addition, from the signal generating means 2, the 24 V
By outputting a security signal having a specific voltage or frequency, which has a voltage value within the range of 14V to 30V, which can be distinguished with respect to the supply voltage of, and which enables the normal monitoring operation of the fire detector. , Can be clearly distinguished from a fire signal with a voltage value of a few volts. Therefore, some kind of control or configuration for distinguishing from the fire signal, for example, control for stopping the interlocking equipment is unnecessary. Further, since the crime prevention signal has a voltage value within a range that maintains the normal monitoring operation of the fire detector, the monitoring function of the fire detector can be ensured. The details of the signal generating means 2 characteristic of the present invention will be described below with reference to specific examples. In the following, in the fire alarm facility 10, the crime prevention adapter 20 may receive the crime prevention signal, or the crime prevention adapter 20.
Is not provided and the control circuit 12 may be used.

(First Specific Example) FIG. 3 shows a crime prevention switch 1 and a constant voltage circuit (constant voltage output means) 2a as an example of the signal generating means 2. As described above, there is a wide range of voltage values for the fire detector to perform the normal monitoring operation. Concrete example 1 utilizes this voltage width.
That is, the constant voltage circuit 2a of FIG. 3 has the Zener diode 3a, and when the crime prevention switch 1 is operated to bring the line into conduction, the constant voltage circuit 2a allows the fire detector to operate normally although the voltage is lower than 24V. Voltage, here 16
It outputs a crime prevention signal of V-18V.

FIG. 4 shows the voltage level of the line and the ringing timing of the area bell when the security switch 1 is operated. In FIG. 4, the horizontal axis indicates the passage of time. As shown here, the fire detector of the fire alarm system 10 is normally 24
The monitoring operation is continued at V. For example, when the security switch 1 is operated at T1, a 16V signal is output from the constant voltage circuit 2a. In response to this signal, the crime prevention adapter 2
0 (control circuit 12) recognizes that the crime prevention switch 1 is pressed, and causes the ringing circuit to ring the district bell intermittently. The line voltage drops from 24V to, for example, 16V, but is higher than the monitoring function maintaining level of 14V, so that the fire monitoring function of the fire detector is maintained and a fire can be detected. Therefore, for example, if the fire detector detects a fire at T2, a voltage (about 4V in this case) below the detector operating signal level flows in the district line, and the control circuit 12 judges this signal as a fire signal, Ring the bell continuously. The 16V output from the constant voltage circuit 2a is an example, and may be within a range in which the detector can operate reliably in accordance with the specifications of the detector installed in the fire alarm facility 10.

Signal generating means 2 in the first specific example
Is a constant voltage circuit 2a having a Zener diode 3a, and when the crime prevention switch 1 is operated, a monitoring voltage 24
14V less than V, allowing the sensor to maintain surveillance activity
A crime prevention signal having a larger specific voltage value (for example, 16 V) is output to the district line. This allows crime prevention adapter 2
0 and the control circuit 12 can determine that the security switch 1 has been operated and sound a security alarm without being confused with the fire signal. Moreover, since the security signal is higher than the voltage value at which the detector can maintain the monitoring activity, the fire monitoring can be maintained while the security switch 1 is operating.

(Second Specific Example) FIG. 5 shows a crime prevention switch 1 and a constant frequency circuit (constant frequency output means) 2b as an example of the signal generating means 2. In addition, in FIG.
Similarly, the voltage level of each state and the ringing timing of the district bell are shown. The constant frequency circuit 2b includes a tuning fork oscillating element 3b that oscillates at a single frequency, and an IC circuit (not shown) that outputs a signal of a unique frequency generated by the tuning fork oscillating element 3b. When a plurality of constant frequency circuits 2b are provided in the fire alarm equipment 10, tuning fork oscillation elements 3b having different frequencies are provided. As shown in FIG. 6, when the security switch 1 is operated at T3 and the line becomes conductive, a voltage signal having a specific frequency flows from the constant frequency circuit 2b to the line. Security adapter 20 (control circuit 1
When receiving the signal of this unique frequency, 2) not only knows that the security switch 1 has been pressed, but also recognizes from which frequency the security switch 1 installed is operated. This causes the district bell to ring intermittently. Furthermore, if a fire is detected at T3 'and a sensor activation signal is output, the voltage level drops to about 4V and the district bell continuously rings.

The constant frequency circuit 2b is not limited to the one having the tuning fork oscillating element 3b as shown in FIG.
For example, it may be a digital circuit that outputs a pulse signal having a constant frequency.

Signal generating means 2 in the second specific example
Is a constant frequency circuit 2b having a tuning fork oscillating element 3b, which outputs a voltage signal of a specific frequency to the district line when the security switch 1 is operated. Thereby, the crime prevention adapter 20 and the control circuit 12 can determine that the crime prevention switch 1 has been operated and sound the crime prevention alarm without being confused with the fire signal. Moreover, since the frequency is unique to each constant frequency circuit 2b, it is possible to determine where the crime prevention switch 1 installed is operated, and it is possible to take effective measures such as displaying the position of the crime prevention switch where a problem has occurred. Becomes In addition, even if a specific frequency flows from the constant frequency circuit 2b, since it is a signal of 24V which is almost the rated value, it can be maintained without fail during fire monitoring of the crime prevention switch 1, and the reliability of the fire alarm equipment 10 can be maintained. Sex is secured. In particular, it is useful when a sensor having a specification in which the voltage range that operates normally is narrow is connected. In addition, in the present invention, each constant frequency circuit 2b does not necessarily oscillate an individual frequency, and all may be common.

(Third Concrete Example) FIG. 7 shows a crime prevention switch 1 and an address-added signal generating circuit 2c as an example of the signal generating means 2. Similar to FIG. 4, FIG. 8 shows the voltage such as the monitoring level of the fire detector and the ringing timing of the district bell. Here, the security switch 1 can be specified by using polling communication that has been conventionally used in fire alarm equipment. The address-added signal generation circuit 2c shown in FIG. 7 includes a pulse detection circuit 30, an address detection circuit (address detection unit) 31, an output circuit (output unit).
32, and an address setting unit (address storage unit) 33. The output circuit 32 of the address-added signal generating circuit 2c is provided with an element or a circuit for generating a constant voltage, such as a Zener diode, and when the crime prevention switch 1 is operated and the line is brought into conduction, it is lower than a normal monitoring level, but a fire occurs. It outputs a security signal (here, 18V) having a constant voltage higher than a voltage value capable of maintaining the monitoring function of the sensor. When the security adapter 20 or the control circuit 12 receives the security signal, the security adapter 1 or the control circuit 12 pulses the address set in the address-added signal generating circuit 2c attached to each security switch 1 in order to search for which security switch 1 the signal is from. It is designed to be transmitted in sequence as a signal. Hereinafter, this signal is referred to as an address pulse signal.

The address setting unit 33 of the address-added signal generating circuit 2c is composed of, for example, a DIP switch or the like, in which a predetermined address is set and stored. The pulse detection circuit 30 detects the address pulse signal and outputs it to the address detection circuit 31. Address detection circuit 31
Counts the number of pulses of the address pulse signal from the pulse detection circuit 30, compares it with its own address set in the address setting unit 33, and if there is a match, outputs an address match signal indicating that to the output circuit 32. Send. If they do not match, they are ignored and nothing is sent to the output circuit 32. When the output circuit 32 receives the address match signal,
A pulse signal indicating its own address is output as a response signal.

As shown in FIG. 8, when the security switch 1 is operated at T4, the address-added signal generating circuits 2c to 1c are turned on.
An 8V signal is output. In response to this signal, the crime prevention adapter 20 (control circuit 12) sequentially transmits address pulse signals to all of the connected address signal generation circuits 2c. The address-equipped signal generation circuit 2c operated by the security switch 1 checks each transmitted address pulse signal, and outputs a response signal only for a signal that matches its own address. Upon receiving this, the crime prevention adapter 20 (control circuit 12) identifies the operated crime prevention switch 1 and intermittently rings the district bell (at T5). Further, if the sensor activation signal is output at T5 ', the district bell continuously rings.

Signal generating means 2 in the third specific example
Is a signal generating circuit with address 2c, which outputs a signal of a specific voltage value (18V) smaller than the monitoring current 24V and larger than 14V at which the sensor can maintain the monitoring activity when the security switch 1 is operated. Output to the district line. Thereby, the crime prevention adapter 20 and the control circuit 12 can determine that the crime prevention switch 1 has been operated and sound the crime prevention alarm without being confused with the fire signal. Moreover, since the security signal is higher than the voltage value at which the detector can maintain the monitoring activity, the security switch 1 can be maintained without fail during the operation of the security switch 1. Further, since the response signal is output in response to the call by the address pulse signal on the side of the security adapter 20 or the control circuit 12, it is possible to discriminate in which place the security switch 1 is operated, and it is possible to make a fine-tuned response. Becomes In addition, the timing of ringing the district bell does not necessarily have to be after identification of the crime prevention switch 1,
The time may be T4 when the security switch 1 is operated.

(Fourth Concrete Example) FIG. 9 shows a crime prevention switch 1 and a constant frequency / constant voltage circuit 2d as an example of the signal generating means 2. Further, FIG. 10 shows the level of the monitoring voltage of the fire detector and the ringing timing of the district bell as in FIG. The constant frequency / constant voltage circuit 2d includes a Zener diode 3c that generates a constant voltage and a tuning fork oscillating element 3d that oscillates at a single natural frequency. When a plurality of constant frequency / constant voltage circuits 2d are provided in the fire alarm equipment 10, tuning fork oscillating elements 3d having different frequencies are provided in each constant frequency / constant voltage circuit 2d. As shown in FIG. 10, when the security switch 1 is operated at T6 and the line is turned on, a voltage signal having a specific frequency flows from the constant frequency / constant voltage circuit 2d to the line. When the security adapter 20 (control circuit 12) receives the signal of this unique frequency, it not only knows that the security switch 1 has been pressed,
From the frequency, it is recognized where the security switch 1 installed is operated. This causes the district bell to ring intermittently. Furthermore, if a fire is detected at T7, the district bell will ring continuously.

Signal generating means 2 in the fourth specific example
Is a constant frequency / constant voltage circuit 2d having a Zener diode 3c and a tuning fork oscillating element 3d.
When the is operated, it outputs a voltage signal having a constant voltage value and a specific frequency to the district line. Thereby, the crime prevention adapter 20 and the control circuit 12 can determine that the crime prevention switch 1 has been operated and sound the crime prevention alarm without being confused with the fire signal. Moreover, since the frequency is unique to each circuit 2d, it is possible to determine where the security switch 1 installed is operated, and it is possible to take effective measures such as displaying the position of the security switch in which a problem has occurred. . Moreover, since the security signal is higher than the voltage value at which the detector can maintain the monitoring activity, the security switch 1 can be maintained without fail during the operation of the security switch 1.

The signal generator in the present invention is not limited to the above four specific examples. For example, it may be composed of a Zener diode and a digital circuit that generates a constant pulse signal. Alternatively, an element for generating a specific frequency such as a tuning fork may be combined in the address-added signal generation circuit 2c of FIG.

<Modification 1> FIG. 11 shows a fire notification equipment 50 as a modification of the fire notification equipment according to the present invention. In FIG. 11, components other than those necessary for the explanation are omitted. Here, the smoke detector S and the terminator Q are connected between the common line C and the detector line L connected to the fire receiver 51. Further, a crime prevention signal detection circuit is provided in the fire receiver 51. The security switch 1 and the signal generating means 2 shown in FIG. 1 were connected between the common line C and the sensor lines L1 to Ln in the same state as the sensor. However, in FIG. 11, the crime prevention switch 1 and the constant voltage circuit 2e as an example of the signal generating means 2 are connected by a feed wiring. The constant voltage circuit 2e includes a non-polar element 4 in which two Zener diodes 3e and 3f are connected with their polarities being opposite to each other and are made non-polar as a whole. By using such a non-polar element 4, the connection direction of the constant voltage circuit 2e is not limited to the line, and the convenience in installation work is high. In the case of FIG. 1, even if the crime prevention switch 1 and the signal generating means 2 are removed, no abnormality occurs in the line. However, in FIG. 11, the crime prevention switch 1 and the constant voltage circuit 2e are disconnected by the MM line to disconnect the wire, so that it is easily detected that the terminator Q has detected an abnormality, which is useful for crime prevention. .

Instead of the Zener diodes 3a and 3c shown in FIGS. 3 and 9, the nonpolar element 4 shown in FIG. 11 may be used.

<Modification 2> FIG. 12 shows a fire notification equipment 60 as a modification of the fire notification equipment according to the present invention. In FIG. 12, components other than those necessary for explanation are omitted. The fire alarm facility 60 has a fire receiver 61 and a crime prevention receiver 62, and the crime prevention switch 1 and the signal generating means 2 are connected to the district line. In FIG. 1, the crime prevention adapter 20 is connected to a line branched from a district line connected to the fire receiver 11. However, in the fire alarm facility 60, the common line C and the sensor line L, and the bell common line BC and the district bell line BL are first connected to the security receiver 62 as a security signal detection circuit. The security receiver 62 sends the signal input from the district line to the fire receiver 61 if it is a sensor activation signal related to a fire. In response to this, the fire receiver 61 sends a signal for ringing the district bell to the security receiver 62, and the district bell B rings. When the crime prevention switch 1 is operated and the crime prevention signal is output from the signal generating means 2, the crime prevention receiver 62 sends no signal to the fire receiver 61 and directly connects the bell common line BC and the district bell line BL. District Bell B rings through.

In the above fire alarm system 60, the line is divided in the crime prevention receiver 62, and the detector activation signal and the crime prevention signal are distinguished by the crime prevention receiver 62, and only the detector activation signal is received by the fire reception. Output to the machine 61. Therefore, the transmission and reception of signals is simplified as a whole, and the crime prevention system can be easily added to the existing fire alarm equipment.

[0057]

According to the first aspect of the present invention, a crime prevention switch is provided, and when there is an illegal intrusion, the crime prevention signal is detected from the signal generating means by operating the crime prevention switch. It is sent to the processing device) and the district bell rings in response to this, so that an illegal intruder can be threatened. In this way, it is possible to easily construct a crime prevention system using the fire alarm facility. Moreover, since the crime prevention signal output from the signal generating means is within the predetermined range and can be distinguished from the monitoring voltage via the sensor line, even if the crime prevention switch is operated, the fire detection signal is detected. The firearm can maintain the monitoring function and the reliability as a fire alarm system is secured.

When the crime prevention switch is operated, the constant voltage output means outputs a signal having a substantially constant voltage value different from the monitoring voltage as a crime prevention signal. Therefore, the security signal detection circuit can easily know that the security switch has been operated without being confused with the sensor activation signal.

According to the fifth and sixth aspects of the present invention, when the crime prevention switch is operated, the constant frequency output means outputs a signal having a unique frequency as a crime prevention signal. Can easily know that the crime prevention switch has been operated without being confused with the sensor activation signal. Also, when multiple security switches and signal generators are installed, changing the frequency of the signal emitted by each constant frequency output means allows the security signal detection circuit to determine where the security switch is installed. It becomes possible to take effective measures such as displaying the place itself where the abnormality has occurred.

According to the seventh and eighth aspects of the invention, when the crime prevention switch is operated, a crime prevention signal is output from the output section of the signal generating means and detected by the crime prevention signal detection circuit. Next, the central processing unit calls all the signal generating means in order, and the output unit of the signal generating means that outputs the crime prevention signal outputs a response signal in response to the calling of the central processing unit. It is possible to discriminate whether or not the crime prevention switch being operated has been operated, and it is possible to take effective measures such as displaying the place itself where the abnormality has occurred.

According to the ninth aspect of the invention, when the crime prevention switch is operated, the natural frequency voltage output means outputs a substantially constant voltage value different from the monitoring voltage and a natural frequency. Since the signal included therein is output as the crime prevention signal, the crime prevention signal detection circuit can easily know that the crime prevention switch has been operated without being confused with the sensor activation signal. In addition, when multiple crime prevention switches and signal generators are installed, changing the frequency of the signal emitted by each natural frequency voltage output means causes the crime prevention signal detection circuit to determine where the crime prevention switch is installed. Therefore, it is possible to take effective measures such as displaying the place where the abnormality has occurred.

According to the inventions of claims 10 to 12,
Since the crime prevention signal detection circuit is connected to the central processing unit as an adapter, it is possible to easily add a crime prevention function using the existing fire alarm equipment.

According to the thirteenth aspect of the present invention, since the ringing states of the fire alarm and the crime prevention alarm are different, it is possible to easily determine whether a fire has occurred or a crime prevention abnormality has occurred.
Residents can take appropriate measures.

According to the fourteenth aspect of the present invention, by operating the ring stop switch, the district bell does not ring even if the crime prevention switch is operated. Therefore, it is possible for an illegal intruder to know that the crime prevention switch has been operated. You can prevent being cheated.

[Brief description of drawings]

FIG. 1 is a block diagram showing an example of a fire alarm system of the present invention.

FIG. 2 is a diagram for explaining a difference between ringing states of a fire alarm and a crime prevention alarm according to a district bell.

FIG. 3 is a schematic diagram showing a crime prevention switch and a constant voltage circuit as an example of a signal generating means.

FIG. 4 is a diagram showing the level of each voltage value such as a crime prevention signal and the timing of ringing of a district bell.

FIG. 5 is a schematic diagram showing a crime prevention switch and a constant frequency circuit as an example of a signal generating unit.

FIG. 6 is a diagram showing the level of each voltage value such as a crime prevention signal and the timing of ringing of a district bell.

FIG. 7 is a schematic diagram showing a crime prevention switch and an address-added signal generation circuit as an example of signal generation means.

FIG. 8 is a diagram showing the level of each voltage value such as a crime prevention signal and the timing of ringing of a district bell.

FIG. 9 is a schematic diagram showing a crime prevention switch and a constant frequency / constant voltage circuit as an example of a signal generating unit.

FIG. 10 is a diagram showing the level of each voltage value such as a crime prevention signal and the timing of ringing of a district bell.

FIG. 11 is a diagram showing a schematic configuration of a first modified example of the fire alarm system according to the present invention.

FIG. 12 is a diagram showing a schematic configuration of a second modified example of the fire alarm system according to the present invention.

[Explanation of symbols]

1 crime prevention switch 2 Signal generation means 2a, 2e constant voltage circuit (signal generating means) 2b constant frequency circuit (signal generation means) 2c Address generating signal generating circuit (signal generating means) 2d constant frequency / constant voltage circuit (signal generator) 3a, 3c, 3e, 3f Zener diode 3b, 3d tuning fork oscillator 30 pulse detection circuit 31 Address detection circuit (address detection unit) 32 output circuit (output section) 33 Address setting section (address storage section) 10, 50, 60 Fire alarm equipment 11, 51, 61 Fire receiver (central processing unit) 12 Control circuit 12a Crime prevention ring stop switch 13 district circuit 15 Whole building ringing circuit 16 Whole building ringing switch 17 ringing circuit 18 Display circuit 19 district indicator lights 19a Security switch operation indicator light 20 Security adapter (security signal detection circuit) 21 Security switch detection circuit 22 Whole building ring command circuit 22a Security alarm stop switch S smoke detector T heat detector C common line L1 to Ln, L sensor line XC crime prevention common line X1-Xn district crime prevention line BC Bell Common Line BL1-BLn, BL area bell line 62 Security receiver (security signal detection circuit)

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Hideki Kawai             1-11-7 Hatagaya, Shibuya-ku, Tokyo Ni             Tan Electronics Co., Ltd. (72) Inventor Akito Yano             1-11-6 Hatagaya, Shibuya-ku, Tokyo Ni             Tan Co., Ltd. F-term (reference) 5C087 AA02 AA03 AA32 AA44 BB02                       BB35 BB65 CC05 DD04 DD05                       DD08 DD20 EE13 EE16 FF01                       FF02 GG12 GG19 GG32 GG40                       GG57

Claims (16)

[Claims] 1. A fire protection function is maintained by being installed in a plurality of districts and supplied with a voltage within a predetermined range, and when a fire is detected, a sensor activation signal having a voltage value outside the predetermined range is output. A fire detector that outputs, a detector line that also serves as a power supply line and a signal line, and supplies a monitoring voltage having a substantially constant voltage value within the predetermined range to the fire detector, and the plurality of districts. If a fire alarm is received from the fire alarm installed on the installed area bell and the detector line, and if a fire is judged based on the detector operation signal, a fire alarm will be sounded from the area bell. In a fire alarm system equipped with a central processing unit, a crime prevention switch that can be operated from the outside and when the crime prevention switch is operated Distinguishable The central processing unit is provided with a signal generating means for transmitting a crime signal to the central processing unit, and the central processing unit is provided with a crime prevention signal detection circuit for sounding a crime prevention alarm from the district bell when the fire is detected. Notification equipment. 2. The signal generating means is a constant voltage output means for outputting, as a crime prevention signal, a signal having a substantially constant voltage value different from the monitoring voltage when the crime prevention switch is operated. The fire alarm system according to claim 1. 3. The fire alarm system according to claim 2, wherein the constant voltage output means includes a Zener diode. 4. The fire alarm system according to claim 3, wherein the constant voltage output means comprises two Zener diodes connected in series with their polarities reversed. 5. The fire alarm according to claim 1, wherein the signal generating means is constant frequency output means for outputting a signal having a unique frequency as a crime prevention signal when the crime prevention switch is operated. Facility. 6. The fire alarm equipment according to claim 5, wherein the constant frequency output means comprises a tuning fork oscillating element for generating a signal of a single frequency. 7. The signal generating means comprises an output section for outputting a crime prevention signal, and when the crime prevention signal detecting circuit receives the crime prevention signal, the central processing unit calls all the signal generating means in order to output the crime prevention signal. The fire alarm facility according to claim 1, wherein the output unit of the generating means outputs a response signal in response to the call of the central processing unit. 8. The central processing unit calls the signal generating means by an address set individually beforehand, and the signal generating means has an address storage section for storing its own address and an address transmitted from the central processing unit. The output unit includes an address detection unit that detects a match with an address stored in the address storage unit, and the output unit outputs a response signal to the central processing unit when the address detection unit detects a match. The fire alarm system according to claim 7, which is characterized in that. 9. The signal generating means outputs, as a crime prevention signal, a signal having a substantially constant voltage value different from the monitoring voltage and having a unique frequency when the crime prevention switch is operated. The fire alarm system according to claim 1, which is a frequency voltage output means. 10. The fire alarm system according to claim 1, wherein the crime prevention signal detection circuit is connected to the central processing unit as an adapter. 11. The security signal detection circuit is connected to a line branched from the sensor line.
Fire alarm equipment described in 0. 12. The sensor line is connected to a crime prevention signal detection circuit, and the crime prevention signal detection circuit and the central processing unit are connected to each other by a separate line. 11. The fire alarm system according to claim 10, wherein the fire alarm system outputs the signal to the device and rings the district bell by itself when the security signal is received. 13. The fire alarm system according to claim 1, wherein the ringing states of the fire alarm and the crime prevention alarm are different. 14. A ring stop switch for preventing the district bell from ringing even if a crime prevention signal is output by operating the crime prevention switch, according to any one of claims 1 to 13. Fire alarm equipment described. 15. The fire alarm system according to claim 1, further comprising a notification mechanism that automatically notifies an external engine when the security switch is operated. 16. The fire alarm system according to claim 1, wherein the crime prevention switch and the signal generating means are connected to the sensor line by a feed wiring.