JP2559961B2 - Alarm system - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an alarm system provided with a sub processing unit for performing distributed processing and a main processing unit for centrally monitoring the sub processing unit.

[0002]

2. Description of the Related Art An automatic fire alarm system is one type of alarm system. In the conventional automatic fire alarm system of this kind, the fire detection status of the detector is monitored, and when the fire occurs, the district sound is sounded to issue the fire alarm. Further, in addition to the original automatic fire alarm function of detecting a fire and issuing an alarm, there is also a device integrally provided with a fire preventive function for reducing damage caused by a fire by operating a smoke preventive device such as a fire door in conjunction with each other.

[0003]

However, when the number of devices for monitoring and controlling increases, it is difficult to collectively monitor and control each device by one processing unit. Further, if there is only one processing unit, a delay in processing may cause a serious problem such as a delay in fire notification. Therefore, for example, a repeater for centrally monitoring the detector, district sound, smoke prevention device, etc. according to the type etc. is provided separately, and the receiver is used for fire monitoring and response in case of fire occurrence via this repeater. Some give orders. In other words, in this kind of self-warning system,
The function of the receiver is distributed and processed by the repeater to reduce the burden on the receiver and to perform the processing quickly.

However, if the repeaters are individually provided, the repeater maintenance and inspection are required in addition to the receiver maintenance and inspection, and the construction is troublesome. Therefore, it is conceivable to incorporate the functional unit of the conventional repeater inside the receiver. However, in this case, there are problems that the wiring inside the receiver becomes complicated and it is not possible to easily cope with the addition of lines.

The present invention has been made in view of the above points, and an object of the present invention is to enable centralized monitoring and control of all devices only by a receiver, simple internal wiring, and easy addition of lines. It is to provide an alarm system that can cope with.

[0006]

According to the present invention, in order to achieve the above object, a plurality of sensing devices for detecting various abnormal states, a plurality of abnormality coping devices for coping with an abnormal situation, or an occurrence state of an abnormal state. In an alarm system that monitors and controls multiple display devices that display information such as
A plurality of sub-processing units that collectively manage the above-mentioned multiple devices, and a monitoring data transfer request to these sub-processing units, or a control command for each device to monitor all the devices that each sub-processing unit controls The receiver is equipped with a main processing unit for controlling, and a transmission signal line for transmitting a signal from the main processing unit to the sub processing unit, a return signal line for receiving a reply signal from the sub processing unit, and synchronization of transmission and reception. A sub-processing unit and a main processing unit are connected by a clock signal line that transmits a clock signal for obtaining, and signal transmission is performed by time division multiplexing between the main processing unit and each sub-processing unit in synchronization with the clock signal. Together with a specific type of device, two sub-processing units
And control devices of different types with the above two sub-processes.
2) Specify the device type in the main processing section
Two sub processing units can be accessed at the same time, and the above sub processing units
Specified by the main processing unit in the first half of the reply signal
Responding to another device.

[0007]

[0008]

According to the present invention, as described above, a plurality of sub-processing units collectively controlling a plurality of devices, and a monitoring data transfer request to these sub-processing units or a control command for each device is given to each sub-processing unit. A main processing unit for monitoring and controlling all the devices under the control of the processing unit is provided in the receiver, and centralized monitoring control of all the devices is possible only by the receiver. In addition, by performing signal transmission by time division multiplexing between the main processing unit and the sub processing unit, the main processing unit and the sub processing unit can be connected by several signal lines and can be connected in a bus form,
The wiring inside the receiver will be simplified, and the sub-processing unit can be easily added by means of feed wiring, etc., and it will be possible to easily cope with the addition of lines. In addition, two specific types of devices
In addition to controlling it by the sub processing unit, another type of device
The two sub-processing units are in charge of control, and the main processing unit controls the type of equipment.
It is possible to access two sub processing units at the same time by specifying another
However, the sub-processing unit is the main processing unit in the second half of the reply signal.
By responding to the device of the type specified in
The sub-processing unit can control different types of devices.
System in the receiver depending on the line configuration etc.
It is possible to build in place.

[0009]

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT An embodiment of the present invention will be described with reference to FIGS. In this embodiment, an automatic fire alarm system, which is a type of alarm system (hereinafter abbreviated as self-fire alarm system)
The following description will be made on the case applied to the above. FIG. 1 shows the system configuration of the self-fired alarm system of this embodiment. The self-fire alarm system of the present embodiment is a so-called automatic fire alarm consisting of a detector for detecting a fire, a transmitter for issuing a fire signal when a fire occurs, and a district sound for ringing a fire alarm when a fire occurs. A group of devices that perform functions, a group of terminals for controlling smoke-exhaust devices such as fire doors that operate in conjunction with a fire, and a group of alarm devices such as sirens, buzzers or emergency broadcast equipment other than district sound, c. A transfer device group D for reporting fire information to an external organization such as a fire department or a security company is connected to the fire receiver R.

Here, the detector and the transmitter are connected to the receiver R through a plurality of sensor lines, the district sound is also transmitted through a plurality of district sound lines, and the smoke-proof terminal is also connected through the smoke-proof terminal line. Connected to the receiver R. A sub-receiver is also included in the device group (a) consisting of the detector, transmitter and local sound and the smoke-proof terminal group (b). The receiver R may, fire situation the sensor, monitors the fire alarm status of the transmitter, and a plurality of sub-processing unit A ₁ to A _l to control the ringing of the local sound for Bohai smoke terminal A plurality of sub-processing units B _{1 to} B _m that give a control command and monitor the operation status of the smoke control device, and a plurality of sub-processing units C ₁ to C that control the operation of the alarm device.
_n and a plurality of sub-processing units D ₁ that perform transfer control of the transfer device
To D _p and a plurality of sub-processing units α _{1 to} α _q that perform lighting control of a plurality of display unit groups that configure the display unit 3.

[0012] Incidentally, the sub-processing unit A ₁ ~A _l, B ₁ ~
B _m, C ₁ -C _n, may be collectively collectively D ₁ to D _p, referred to as a sub-processing unit 2 _1, referred to as a sub-processing unit 2 ₁ collectively sub processor alpha ₁ to? _Q, Further, all sub-processing units A _{1 to} A ₁ , B _{1 to} B _m , C _{1 to} C _n , D _{1 to} D _p , α.
_{When 1 to} α _q are collectively referred to, they will be referred to as the sub-processing unit 2.

Further, the sub processing unit A₁~ A_lThe jurisdiction of
Detector area section, Sub processing section B₁~ B _mSmoke control for the jurisdiction of
District Department, Sub Processing Department C₁~ C_nThe jurisdiction of the warning district department,
And sub processing unit D₁~ D_pIs called the transfer area
I will decide. The receiver R includes each sub-processing unit.
The main processing unit 1 that collectively controls the processing operations of
Used for program processing of the main processing unit 1 of
Re (RAM, ROM) 5₁, 5₂And a fire detection
A data table showing the correspondence between the firearms and the district sound for fire alarms.
Memory for storing cables (EEPROM) 5₃And a fire
Correspondence with the smoke control device that works with the detected sensor
A memory (EEPROM) for storing the indicated data table
5_FourAnd an operation display unit 4 and a power supply unit that supplies power to each unit
6 and 6.

The operation display section 4 is a switch for performing various operations such as a stop operation of district sound and a recovery operation of a fire detection condition, an acoustic device such as a main sound, and a liquid crystal display for displaying a fire occurrence area by characters or the like. Etc. From the power supply unit 6, a DC 5V power supply is supplied to each unit. In addition,
From the power supply unit 6, a 24V power supply is also supplied to the sub processing unit 2 ₁ having a control function.

The main processing unit 1 and the sub processing units 2 ₁ and 2
_{The two} are connected by a three-line signal line L ₁ . The signal line L ₁ is connected from the main processing unit 1 to the sub processing unit 2
_1, 2 ₂ transmission signal line for transmitting a transmission signal to and the return signal line for returning the reply signal to the main processor 1 from the sub-processing unit 2 _1, 2 ₂ in response to the transmission signal, the transmission signal A clock signal line for transmitting a clock signal for adjusting the transmission / reception timing of the reply signal. The common line of each signal line uses a DC 5V power source line of the power source unit, and this common line is not included in the number of signal lines.

In the main processing unit 1 of this embodiment, signals are individually transmitted / received to / from the sub-processing units 2 ₁ and 2 _2. Therefore, in the following description, the system on the sub-processing unit 2 ₁ side will be described. First
The system on the side of the sub processing unit 2 ₂ is called the second system. Further, since the clock signal is shared by the first system and the second system, the signal line for the clock is sent between the first system and the second system. Therefore, the total number of signal lines inside the receiver R is five.

Here, each sub-processing unit 2 has a signal line L ₁
Are connected in a so-called bus format, and the transmission signal and the reply signal are serially transmitted on the corresponding signal lines.
That is, signal transmission is performed between the sub processing unit 2 and the main processing unit 1 by time division multiplex transmission. In this way, by performing signal transmission with a small number of wires, that is, a total of five wires, the wires inside the receiver R can be simplified. In addition, since the signal lines are connected in a so-called bus form, the sub-processing unit 2 can be easily added by sending wiring or the like, and it is possible to easily cope with the addition of lines.

As shown in FIG. 3B, the transmission signal transmitted from the main processing unit 1 to the sub processing unit 2 includes a start code (4 bits), a type code (4 bits), and an address code (5 Bit), command code (5 bits),
It is composed of 32-bit data consisting of line command information (10 bits) and checksum code (4 bits).

The start code indicates the start of transmission of the transmission signal and is fixed to "1100". The type code is a code that designates the function type of the sub processing unit 2, that is, which of the sensor area section, the smoke prevention area section, the alarm area section, and the transfer area section. The address code is a code for individually designating the plurality of sub-processing units 2 in any of the sensor area section, the smoke proof area, the alarm area section, and the transfer area section specified by the type code.

The command code indicates the content of the command, and is roughly a code indicating two types of commands, a control command and a monitoring command. Here, the control command is a command for controlling the sub processing unit 2 from the main processing unit 1, and the monitoring command is a command for the main processing unit 1 to request the sub processing unit 2 for monitoring information. Is. It should be noted that the control command and the monitoring command contents have more detailed command contents, but in the following description, only those related to the present invention will be described.

For example, the sub-processing units A _1-
An example of a control command given from the main processing unit 1 to A _l and monitoring command will be described. By the control command, detector relative to the sub-processing unit A ₁ to A _l having jurisdiction over the district section, details command, or Area for control to recover the fire state of sensor, due to the accumulation operation described below A command for control for sounding is given.

Also, according to the monitoring command, for example,
Sub-processing unit A that controls the ward₁~ A _lAgainst the detector
There is a directive requesting monitoring information on the fire detection status of
A directive requesting monitoring information of the sounding district sound
Given. The line command information is under the jurisdiction of the sub processing unit 2.
It is used to specify a specific line. The 5 bits in the first half and the second half respectively
You can specify different specific lines. Here, the
In the case of a fire alarm system, each sub processing unit A₁~ A_lEvery
It manages 10 lines, and each line of the same type (sensor circuit
Line, the same type as district audio line)
Is configured as a rank. For example, the sub processing unit A₁so,
2 sets of 5 sensor lines or 5 lines
To administer the sensor line and five district acoustic lines
Become. In other words, each line is individually
Is specified.

The checksum code is for performing a checksum of 4 bits × 7 to detect the 28-bit transmission error. The reply signal returned from the sub processing unit 2 to the main processing unit 1 in response to the transmission signal is, as shown in FIG. 3C, the latter half response code (4 bits), the latter half line response information (5 bits), The latter half consists of an odd parity bit (1 bit), the first half response code (4 bits), the first half line response information (5 bits), and the first half odd parity bit (1 bit). There is.

The latter half response code is the latter half 5 of the line command information.
This is an information code for a response to the bits (L5 to L9). When a control command is given from the main processing unit 1, the lower 4 bits in the transmission signal are added to the latter half response code. In the case of a monitoring command, an information code indicating the type of monitoring command is attached. The latter half line response information indicates information for the line command information. When it corresponds to the control command, it is set to "00000". Further, when it corresponds to the monitoring command, it shows monitoring data. Here, since each sub-processing unit 2 manages five lines as a unit, the monitoring data of each line in this unit line is represented by each bit data.

The latter half odd parity bits are for detecting the above 9-bit transmission error. The first half response code and the first half line response information are the latter half 5 of the line command information.
Except that it is an information code for response to bits (L0 to L4), the latter half response code and the latter half line response information are set and returned in the same manner.

In this way, if the monitoring data for each of the 5 lines of different types can be returned by the 10 bits in the first and second half, for example, in the sub-processing unit A ₁ of the detector area, as described above, It is possible to have jurisdiction over the sensor line and the five district acoustic lines. Incidentally, the sub-processing unit A ₁ 1
The 0 sensor line may be controlled. In this case, the monitoring data for every 5 lines can be returned to the main processing unit 1 by each of the first and second 10 bits of the reply signal.

The transmission signal is transmitted at the rising edge of the clock signal, and the sub-processing section 2 receives the transmission signal at the falling edge of the clock signal. The reply signal is sent at the rising edge of the clock signal, and the main processing section 1 receives the reply signal at the falling edge of the clock signal. By the way, the above explanation has been made by taking the sub-processing unit A ₁ of the detector area as an example.
The same applies to the other sub-processing units 2 ₁ of the system.

By the way, in this kind of self-warning system,
It has only the original automatic fire alarm function, so it does not need smoke prevention area, and it has both smoke prevention area and sensor line area, but the number of lines in both areas There are things that are not the same. For example, if (a) the smoke prevention area has 15 lines and the sensor area has 15 lines, (b) the sensor area has 30 lines, (c) the smoke prevention area has 2 lines.
It is possible that there are 5 lines in the detector area and 15 lines, and (d) there are 20 lines in the smoke prevention area and 30 lines in the detector area. However, in each case, 5 lines are used as a unit.

In the case of dealing with this case, only the first sub-processing section 2a which administers 5 lines in the smoke-free area and 5 lines in the sensor area, and 10 lines in the smoke-free area are administrated. By providing the second sub-processing section 2b and the third sub-processing section 2c which administers only 10 lines in the sensor area section,
In the case of (a), three first sub-processing units 2a are used,
In the case of (b), three third sub processing units 2c are used,
In the case of (c), three first sub-processing units 2a and one second sub-processing unit 2b are used, and in the case of (d), two second sub-processing units 2b are used and sub-processing. This can be dealt with by using three parts 2c. The first sub-processing unit 2a is capable of responding regardless of whether the type code is the detector area section or the smoke prevention area section.

For example, in the case of (a), if two of the three first sub-processing units 2a have the same address code, the type code indicating the sensor area portion is designated,
With respect to the transmission signal with the address code set, the two sub-processing units 2a can return the monitoring data in response to the former half of the reply signal. In addition, the type code indicating the smoke prevention area is designated, and in response to the transmission signal with the above address code set, the two sub processing units 2a respond to the former half of the reply signal and return the monitoring data. You can
In this way, the signal processing time can be shortened as compared with the case where the three sub processing units 2a individually return the monitoring data.

Further, the sub processing section 2b and the sub processing section 2c.
Then, specify the type code indicating the detector area or smoke prevention area, respectively, and respond to the transmission signal with the above address code set, send back the monitoring data of 10 lines in response to the first and second half of the reply signal. be able to. This makes it possible to select a reasonable combination according to the line configuration or the number of lines.

When signal transmission is performed by this type of time division multiplex transmission, signal transmission is performed by polling between the main processing unit 1 and the sub processing unit 2. It should be noted that in the case of the self-fired alarm system of this embodiment, polling is individually performed in the first and second systems. The first type of polling includes registration polling, initial polling, regular polling, and emergency polling.

The registration polling is for registering the sub processing unit 2 connected when the power is turned on and the main processing unit 1 is reset. The registration polling carried out by providing the sub-processing unit 2 ₁ from the main processing unit 1, the registration polling command that is specifically set in the monitoring command by the command code. The sub-processing unit 2 that has received the registration polling command registers and responds with a response code. This registration polling is performed by the detector area section, the smoke prevention area section, the alarm area section,
Repeat for all districts in the order of the transfer district. Other polls are performed based on the result of the registration poll.

If there is no response to the registration polling command, the registration polling command is given two more times (three times in total including the first registration polling), and the registration polling response code is returned normally. The sub-processing unit 2 is registered assuming that it is connected. The sub-processing unit 2 ₁ that responds by this registration polling is registered in the memory (RAM) 5 ₂ . By doing so, it is possible to automatically register and delete the sub-processing unit 2 ₁ without changing the registration by replacing the PROM or the like.

The initial polling is performed by the main processing section 1
Sends a monitoring command code from the sub-processing unit 2 to obtain information required at the initial time. For example, with respect to the sub-processing unit A ₁ to A _l of detector district unit performs to read storing the setting state of the non-storage. In this case, the access order is the detector area, the smoke prevention area, the alarm area, and the transfer area, and from the smallest address. Needless to say, in this case, only the registered district section is accessed. Here, the sub-processing unit 2 reads the data required before the initial polling. For example, in the sub processing units A _{1 to} A ₁ , the setting state of the DIP switch for setting accumulation or non-accumulation is read in advance.

After the initial polling, a simultaneous command is given by interrupt polling. This simultaneous command gives a control command to all the sub-processing units 2 ₁ , thereby setting the receiver R to the initial state. After the above processing, the routine shifts to regular polling for performing normal processing. The regular polling is performed in order to cyclically access each sub-processing unit 2 ₁ to obtain the monitoring data of the sub-processing unit 2 _{1 at} the time of success.

By performing the steady polling in this way, for example, the data obtained by the main processing unit 1 and the sub-processing unit 2 are obtained.
_{Even if} the data of ₁ differs by some reason such as noise, the data can be matched in a few seconds.
Therefore, the reliability of the system is improved. In the interrupt polling, in addition to the above-mentioned batch command, an individual command for giving a control command to a specific sub processing unit 2 ₁ ,
There gives a control command to a particular sub-processing unit 2 _1, and the like special command to obtain a response.

By the way, in the case of the deer warning systems of the present embodiment, between the sub-processing unit A ₁ to A _l and the main processor 1 of the sensor section unit, fire representative signal lines and the storage signal line And a special signal line L ₂ consisting of The sensor area of the sub-processing unit A ₁ to A _l, when the fire signal is generated in either Izu lines jurisdiction of respective that the fire to the main processor 1 through a fire representative signal lines Inform. Then, the sub processing unit A ₁ that controls the fire alarm line
At _Al , the main processing unit 1 is notified via the accumulation signal line whether the fire alarm line is set to accumulation or non-accumulation. Here, the setting of accumulation and non-accumulation is performed by the sub processing unit A ₁
It is designed to be set by the DIP switch provided at ~ _A1 . Now, when a fire is reported on the line set to non-accumulation, the main processing unit 1 performs emergency polling. In this emergency polling, even when other areas are accessed by regular polling, the regular polling is interrupted and the sub-processing unit A of the detector area is used.
_It polls ₁ to Al. In this way, the urgent information can be promptly taken in by the main processing unit 1. When the fire alert line is identified by this emergency polling, the process moves to a process corresponding to the fire, for example, a process for controlling the driving of the district sound and smoke proof system.

When a fire is reported on the line set for accumulation, the main processing section 1 shifts to accumulation operation. That is, during the cancellation period, the sub-processing unit 2 ₁ is controlled to restore its alarm detector. This recovery control is repeated during the cancellation period. Then, during the detection period, when the monitoring data of fire is returned from the sub-processing unit 2 ₁ , the fire alert line is identified by the emergency polling as in the case described above, and thereafter, the process corresponding to the fire is performed. Transition.

The above is the description of polling in the first system, but in the second system, initial polling, steady polling, and interrupt polling are performed. Here, in the second system, since the sub processing unit 2 ₂ is fixed, it is not necessary to perform registration polling. As the interrupt polling, the above-mentioned general command and individual command can be performed. A clock reference command is a characteristic of the second system polling.

This clock reference command is a command for synchronizing the blinking in the display section with all the sub-processing sections 2 ₂ . Note that such a command exists because it is difficult to see the display when each display element of the display section blinks asynchronously. By the way, the above description has been given by taking the self-fired alarm system as an example, but it goes without saying that it can be applied to receivers of other alarm systems such as a disaster prevention receiver of a disaster prevention system and a crime prevention receiver of a crime prevention system.

[0042]

As described above, according to the present invention, a plurality of sub-processing units collectively controlling a plurality of devices and a monitoring data transfer request or a control command for each device are given to these sub-processing units. By providing the receiver with a main processing unit that monitors and controls all the devices under the control of each sub-processing unit, the receiver can perform centralized monitoring control of all the devices.
Moreover, by performing signal transmission by time division multiplexing between the main processing unit and the sub processing unit, the number of signal lines between the main processing unit and the sub processing unit is reduced, and the wiring inside the receiver is simplified. To do. Also, rather than performing time division multiplex transmission,
The wiring of the signal line can be in the bus form, and the sub-processing unit can be easily added by the feed wiring, etc., and the line can be easily added. In addition, two specific types of devices
In addition to controlling it by the sub processing unit, another type of device
The two sub-processing units are in charge of control, and the main processing unit controls the type of equipment.
It is possible to access two sub processing units at the same time by specifying another
However, the sub-processing unit is the main processing unit in the second half of the reply signal.
By responding to the device of the type specified in
Therefore, the sub processing unit can control different types of devices.
The system in the receiver freely according to the line configuration, etc.
Can be built.

[0043]

[Brief description of drawings]

FIG. 1 is a system configuration diagram of an embodiment of the present invention.

FIG. 2 is an explanatory diagram of a signal transmission system.

FIG. 3 is an explanatory diagram of a signal format of the above.

[Explanation of symbols]

R receiver 1 main processing unit 2 sub processing unit L ₁ signal line L ₂ special signal line

Claims (1)

(57) [Claims] 1. A monitoring control of a plurality of sensing devices for detecting various abnormal states, a plurality of abnormality coping devices for coping with abnormal situations, or a plurality of display devices for displaying the occurrence status and location of abnormal states. In the alarm system to perform, a plurality of sub-processing unit that collectively manages the plurality of devices,
Request for passing monitoring data to these sub-processing units,
Alternatively, the receiver includes a main processing unit that gives a control command for each device to monitor and control all the devices under the control of each sub processing unit, and a transmission signal that transmits a signal from the main processing unit to the sub processing unit. Line, a return signal line for receiving a reply signal from the sub-processing unit, and a clock signal line for transmitting a clock signal for synchronizing transmission and reception, connecting the sub-processing unit and the main processing unit to synchronize with the clock signal. row signal transmission in a time division multiplexed between the main processor and the sub-processing unit Te
In addition, a device of a specific type is managed by two sub-processing units.
And control different types of devices with the above two sub-processing units
The main processing unit identifies the device type and
The sub-processing unit can be accessed at the same time, and the sub-processing unit
Of the type specified in the main processing section in the first half of the reply signal
An alarm system comprising a response to a device .