KR20140004974A - Addressable automatic fire alarm system - Google Patents

Abstract

The present invention relates to an addressable automatic fire detection facility. The present invention discloses the addressable automatic fire detection facility comprising addressable fire detectors which are arranged to be dispersed by boundary section of a floor unit or an area unit, operate according to an event of fire detection or detection malfunction and transmit set location information thereof; and an addressable receiver which is connected by an electric wire for multiple grouping the addressable fire detectors once per a loop, receives the location information transmitted from the addressable fire detectors according to the event of fire detection or detection malfunction and displays a boundary section number and a detector number by analyzing the location information. According to the present invention, the exact location address where the fire takes place may be precisely displayed by the boundary section number and the addressable detector number, thereby improving the initial response speed by identifying the accurate location in fire and minimizing the human and material damages due to the fire. [Reference numerals] (100) Addressable fire detector; (200) P type addressable receiver; (201) R type addressable receiver; (202) R type addressable repeater; (AA,BB,CC,DD,II,JJ,KK,LL) Controller; (EE) Communication line (+); (FF) Communication line (-); (GG) Power line (24V); (HH) Power line (GND)

Description

[0001] The present invention relates to an addressable automatic fire alarm system,

The present invention relates to an address type automatic fire detection system, and more particularly, to an address type automatic fire detection system including an address type fire detector having an address function and address sending function, Type address receiver having an address receiving function, so that an address signal can be transmitted from an address type fire detector to an address type receiver through a power line communication of a multiplex communication method when a fire detection or a non-resetting (detector malfunction) occurs, To an addressable automatic fire detection system that allows precise location addresses of fire occurrences to be precisely represented by boundary zone numbers and detector numbers.

With the development of society, safety consciousness to protect their own property and life has been increasing many times in a big and small fire, and the perception of firefighting has changed, and the importance of firefighting facilities for prevention and boundary of fire has become more important. to be.

The automatic fire detection system of firefighting facilities automatically detects the combustion products generated in the fire automatically through the fire detector and transmits the fire signal to the fire receiver, and the receiver notifies the fire fact through fire alarm or sound device, Is the most important fire fighting facility that can minimize the damage caused by fire by operating interlocked facilities (fire fighting equipment, smoke control equipment, emergency broadcasting equipment, etc.).

Currently, domestic automatic fire detection systems are classified as P type automatic fire detection system using P type receiver and R type automatic fire detection system using R type receiver. However, current automatic fire detection facilities have a deteriorated adaptability in order to minimize the fire damage in a fire generated in a specific fire prevention object having a complicated internal structure.

In other words, in case of detectors used in automatic fire detection facilities, since P type and R type automatic fire detection systems using a general type detector having no address function in case of fire are installed, only a wide range of fire positions in the boundary zone unit is displayed, In order to grasp the exact fire position, it is necessary for the person and the manager to directly enter into the complex boundary zone and check the fire position individually. .

For example, businesses such as karaoke rooms, motels, night life pubs, gyohwon, massage parlors, telephone rooms, indoor golf driving range, etc. are becoming more and more dangerous due to complex internal structures and compartmentalized and unspecified persons. In other words, due to the nature of the business, the high-rise and underground phenomenon is accelerated, and the interior of the room is shaped and has a narrow passage. Therefore, it is very difficult to find the accurate fire position in case of fire, Is very large.

In addition, premises such as karaoke, motel, night club, gyohwon, massage parlor, telephone room, indoor golf driving range, etc. have a complicated internal structure like maze due to the tendency to enjoy closeness and covertness, so early detection of fire is also important. An address type automatic fire detection system using address type detectors that can quickly and accurately grasp the location of a fire in the event of a fire is most needed.

However, due to the lack of research and development of address type automatic fire detection equipment, most of the multi-use facilities have been using only general type automatic fire detection system using the general type sensor applied 20 years ago. As a facility for reducing fire damage within a specific fire fighting object having compartmentalization, adaptability is considerably reduced.

In other words, in the case of a general type automatic fire detection system using a general type detector, since only the boundary zone position of the floor unit and the area unit is displayed, it is difficult for a firefighting professional to quickly and accurately determine a fire position in case of a fire. Therefore, It is a reality that related persons and managers of specific fire fighting objects have difficulty in precisely locating and coping with fires.

FIG. 1 shows a block diagram of a general type automatic fire detection system showing a circuit connection of a conventional general type detector and P type and R type receivers.

As shown in FIG. 1, most fire detectors manufactured in Korea are characterized in that they are operated by a simple ON / OFF function in a circuit configuration. In case of a fire, the general type fire detector 11 Heat, smoke) perform only the role of a simple switch function. Therefore, the display of the earth window of the P-type receiver 12 and the display of the R-type receiver 13 does not display the detailed fire position in units of sensing zones in the boundary zone, , It is very difficult to find a precise fire position in fire and fire alarm. In addition, as shown in FIG. 2, when one of the plurality of general type fire detectors 11 connected in parallel on the same loop is operated, the other detectors have a problem of operation limit that does not operate even under normal operating conditions.

In order to overcome the problem of the automatic fire detection system composed of the general type fire detector 11 and the general type receivers 12 and 13, an analog type sensor having an address type function has been developed and marketed in Korea. However, Detectors can be applied only to R type receivers, and they are difficult to commercialize because they are distributed in the range of 5 ~ 100 thousand won, which is much higher than the price of general type detectors. In particular, the analog type R-type receiver that can be interlocked with the analog type detector is limited to a large-scale high-rise building and a large-scale apartment complex because the price is about 10 million won, which is a limit to generalization.

In addition, since businesses such as karaoke, motel, night club, gyohwon, massage parlor, telephone room, golf driving range are mainly used for P type automatic fire detection equipment, in order to work with analog type detectors, It is economically burdened because it needs to be replaced with expensive R type automatic fire detection system and it is practically impossible to replace all the refractory wiring used before with a shield line.

Therefore, it is necessary to provide an address type automatic fire detection system which can display the detailed and accurate fire position in the fire position display in the boundary zone unit only by replacing the detector and the receiver by using the wiring of the conventional automatic fire detection system as it is.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide an address type fire detector and an address type receiver, Type detector to the address type receiver through the power line communication of the multiplex communication method, the accurate position address of the fire occurrence in the address type receiver is precisely defined as the boundary zone number and the detector number The present invention provides an automatic fire detection system of the address type which enables the display to be displayed.

It is a further object of the present invention to provide an automatic fire detection system in which, when one of a plurality of general type detectors connected in parallel on the same loop in a boundary zone unit is operated, Type automatic fire detection apparatus that can normally perform the function of a fire watcher, which is a role of itself, when all of a plurality of detectors connected in parallel on the same loop become normal operating conditions.

It is another object of the present invention to provide an automatic fire detection system which can prevent the fire alarm system from being deteriorated by merely replacing the address type fire detector and the address type receiver in a state in which the wiring connection formed in the existing automatic fire detection system is maintained. The present invention is to provide an address type automatic fire detection system capable of improving functional performance and minimizing cost burden.

Another object of the present invention is to perform power line communication using a multiplex communication method using a constant power source and an emergency power source between an address type fire detector and an address type receiver, It is possible to minimize the error of evacuation direction selection by providing accurate fire position to the person in charge of the building where the fire occurred through the address function and the emergency announcement interworking system. In addition, So that the reliability of the system can be maintained at all times.

Another object of the present invention is to provide a fire alarm system including a fire alarm system and a fire alarm system, which can provide fire location information including a border zone number and a detector number through a monitor screen of an addressable receiver, The present invention also provides an address type automatic fire detection system that enables text messages to be transmitted through a CDMA module and notification of an emergency telephone, thereby enabling rapid response without being limited to time or place.

According to an aspect of the present invention, there is provided a fire detection system comprising: a plurality of fire detection units, each of which is divided and arranged in units of a floor unit or an area unit of a specific fire control object; An address type fire detector for transmitting the set position information of the fire detector to the fire detector; And a controller for receiving the location information transmitted from the corresponding address type fire detector in response to an occurrence event of fire detection or non-regeneration, And an address type receiver for displaying the boundary zone number and the sensor number through analysis of the location information.

Advantageously, the address type fire detectors and the address type receiver are implemented with a power line communication function of a multiplexing communication method based on a communication protocol interlocking with each other.

Preferably, the address type fire detector is connected to at least 20 address type fire detectors connected to each other in a circuit loop setting a boundary zone unit of the address type receiver, and the address type fire detector is connected to each one circuit The plurality of detectors provided on the loop are all operated and the address type fire detector is set and assigned a sensor number indicating a detailed detection zone unit from 01 to 99 on the same one circuit loop.

Preferably, the address type receiver has a loop of at least 256 circuits for the address type P type receiver and at least 25600 circuits for the address type R type receiver, .

Preferably, the address type fire detector includes a differential type spot type address type heat sensor, a constant temperature six port type address type heat detector, and a photoelectric port type address type smoke detector.

Preferably, the differential type spot-type thermal sensor includes a fire sensor having a first NTC thermistor for sensing a sensor internal temperature and a second NTC thermistor for sensing a sensor external temperature; A Dip switch for setting the detector number of the detection zone unit installed in the boundary zone to one of 01 to 99 in the binarized decimal input method; And a controller for storing a detector number, which is an address set by the DIP switch, in an internal flash memory, and for detecting an occurrence of a fire or generating an alarm, And transmits the address signal of the sensor number in response to the count pulse signal requesting the address of the detector from the address type receiver.

Preferably, the constant-temperature six-port type address type thermal sensor includes a fire sensor having an NTC thermistor having a negative temperature coefficient; A Dip switch for setting the detector number of the detection zone unit installed in the boundary zone to one of 01 to 99 in the binarized decimal input method; And a controller for storing a detector number, which is an address set by the DIP switch, in an internal flash memory, and for detecting an occurrence of a fire or generating an alarm, And transmits the address signal of the sensor number in response to the count pulse signal requesting the address of the detector from the address type receiver.

Preferably, the photoelectric port type address smoke detector comprises: a fire sensor having an infrared LED for emitting infrared light at a predetermined cycle; and a photocell for receiving infrared light scattered by smoke during a fire to generate an electromotive force; A Dip switch for setting the detector number of the detection zone unit installed in the boundary zone to one of 01 to 99 in the binarized decimal input method; And a controller for storing a detector number, which is an address set by the DIP switch, in an internal flash memory, and for detecting an occurrence of a fire or generating an alarm, And transmits the address signal of the detector number in response to the count pulse signal for requesting the address of the detector from the receiver.

Advantageously, the addressable receiver comprises: a power module for supplying power; An input module for transmitting and receiving a signal in response to occurrence of a fire detection or a fire alarm under the basis of the power line communication of the multiplex communication type with the address type fire detectors; A display module having an FND (7-segment) for distinguishing between a boundary zone number of the address type fire detectors in which fire detection or non-fire alarm is generated and a detector number; An output module for controlling the operation of the interlocking equipment including alarm, siren, damper, and ventilation equipment in the event of fire detection; A window module for displaying the operation status of the boundary zone and the interlocking facility by LED lighting; A pump module for controlling the start-up of an alarm valve (pump start), a blower, and a sprinkler; A switch module for setting manual operation and automatic operation of facilities associated with the receiver; And a main module for performing address display control to display the boundary zone number and the detector number information from the input module so that the display module can display the information and the control of driving the entire system.

Preferably, the main module further includes a memory function for storing a boundary zone number and a sensor number displayed through the FND of the display module together with a fire detection occurrence time.

Preferably, the main module sequentially stores an operation time and an address of an address type fire detector sequentially operated according to occurrence of a fire detection, so as to utilize it for fire detection, And the operation time and the address of the fire detector are sequentially displayed.

Advantageously, the addressable receiver comprises: a power module for supplying power; An input module for transmitting and receiving a signal in response to occurrence of a fire detection or a fire alarm under the basis of the power line communication of the multiplex communication type with the address type fire detectors; It is composed of LCD for enhancing the visibility and display function. It displays the boundary zone number and the detector number of the address type fire detectors in which the fire detection or non-resetting occurred, on the LCD, and displays the system status of various output facilities An embedded module; An output module for controlling the operation of the interlocking equipment including alarm, siren, damper, and ventilation equipment in the event of fire detection; A window module for displaying an LED corresponding to a boundary zone number with a fire indicator turned on; A pump module for controlling the start-up of an alarm valve (pump start), a blower, and a sprinkler; And a main module for performing address display control to display information of a boundary zone number and a detector number applied from the input module through the LCD of the embedded module and controlling the entire system.

Preferably, the signal transmission between the embedded module and the main module is performed by a serial communication method, and the data transmission rate is from several Mbps to several tens of Mbps to analyze a protocol transmitted from the main module, ) Of the program.

Preferably, the serial communication method may be implemented by one of serial communication methods of RS-232C, RS-422, and RS-485.

Preferably, the transmission protocol between the embedded module and the main module is basically a size of 20 bytes, and a size of a maximum of 24 bytes according to data expansion.

Preferably, the transmission protocol includes at least one of an STX (Start Byte) indicating a start byte of a protocol, a LEN (Length) indicating a total length of a transmitted protocol, a fire occurrence, a recovery, , CMD (Command) indicating command information such as conduction test, and CMD protocol. The CMD protocol indicates execution data that specifically specifies a target number of a damper, DATA, CHKS (Check-Sum) for confirming valid data in protocol analysis, and ETX (End Byte) indicating the last byte of the protocol.

Preferably, the address type receiver further includes a controller for controlling the position of the fire occurrence boundary zone and information about the operated address type fire detector under the control of the main module when the fire detection of the address type fire detector is detected, And a CDMA module that enables real-time confirmation of a fire through an SMS (Short Message Service) character transmission and an emergency call.

Preferably, the main module further includes a memory function for storing a boundary zone number, a detector number, an installation position, and an output state of the facility, which are displayed through the LCD of the embedded module, together with a fire detection occurrence time do.

Preferably, the main module sequentially stores the operation time and address of the address type fire detector sequentially operated according to occurrence of the fire detection, so as to utilize it for fire detection, And the operation time and the address of the fire detector are sequentially displayed.

Preferably, the address-type receiver encodes (binary) the evacuation voice guidance sound source wav file in the embedded module and compresses it in an SD card of the embedded module and stores the compressed address in an address input from an address type smoke detector The embedded module analyzes the protocol, maps the address and the operation (installation) position, and extracts the corresponding sound source file. The extracted sound source is a wav file And is output to the speaker for emergency broadcasting to provide a correct fire position to the user in the room when the actual fire occurs through the emergency broadcasting.

Preferably, the embedded module may be replaced with an industrial personal computer having an LCD.

As described above, according to the address type automatic fire detection system of the present invention, the address type fire detector and the address type receiver are provided with the address setting function in the general type detector, and when the fire detection or the non- The address signal can be transmitted from the address type fire detector to the address type receiver through the power line communication of the address type receiver so that the precise position address of the fire occurrence is precisely displayed with the boundary zone number and the detector number, It is possible to improve the initial response speed through grasping and to minimize the fire damage caused thereby.

In addition, the present invention quickly performs maintenance on the basis of accurate position address information even in the case of non-refusal (malfunction of a sensor), thereby assuring that the reliability of the facility is always maintained at the highest level, There is an effect that the ease and convenience of management is increased.

In addition, the present invention can be installed using a pre-installed wiring in a fire-fighting target installation equipped with an existing automatic fire detection system, and has an effect of reducing system replacement and cost as the address setting function becomes feasible.

In addition, the present invention has the effect of improving the reliability and investigation efficiency of the fire cause investigation by storing the address of the first motion detector and the addresses of the sequentially operating detectors sequentially in the event of a fire.

In addition, the present invention can provide the fire occurrence location information including the boundary zone number and the detector number through the display screen, thereby enhancing the convenience of fire monitoring by the manager, And an emergency telephone notification is made possible, so that there is an effect of enabling quick response without being limited to time or place.

In addition, the present invention includes a voice guidance evacuation guidance system in an address type automatic fire detection facility by addressing function, and provides an accurate fire position to a client in a room in case of actual fire, There is an effect that can be minimized.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of a conventional automatic fire detection system showing a circuit connection of a conventional fire detector and a receiver.
FIG. 2 is a reference view showing the operational limit of the conventional automatic fire detection system,
FIG. 3 is a system block diagram of an address type automatic fire detection system according to an embodiment of the present invention,
FIG. 4 is a functional block diagram illustrating the configuration of a differential type spot-type address type thermal sensor applied to an address type fire detector in the address type automatic fire detection system according to the present invention.
FIG. 5 is a functional block diagram illustrating the configuration of a constant-temperature six-port type address type thermal sensor applied to an address type fire detector in the address type automatic fire detection system according to the present invention.
FIG. 6 is a functional block diagram of a photoelectric port type address smoke detector applied to an address type fire detector in the address type automatic fire detection system according to the present invention. FIG.
7 is a reference view showing an example of a signal waveform for transmitting a detector number between address type fire detectors and an address type receiver in the address type automatic fire detection system according to the present invention.
FIG. 8 is a functional block diagram illustrating an internal configuration of an address type receiver configured as an example in the address type automatic fire detection system according to the present invention.
FIG. 9 is a block diagram of the front panel of the address type receiver shown in FIG. 8,
FIG. 10 is a functional block diagram showing an internal configuration of an address type receiver configured as another example in the address type automatic fire detection system according to the present invention. FIG.
11 is a reference diagram showing a transmission protocol structure between an embedded module and a main module according to the present invention.
FIG. 12 is a block diagram of a front panel of the address type receiver shown in FIG. 10,
13 is a reference view showing an example of a screen in which a manager generates a location information of a fire occurrence through a CDMA module and is provided in real time by a set mobile phone.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

3 is a system block diagram of an address type automatic fire detection system according to an embodiment of the present invention.

As shown in the figure, the address type automatic fire detection system according to the present invention is characterized in that a plurality of fire extinguishing systems according to the present invention are distributed and arranged in units of a floor unit or an area unit of a specific fire extinguishing object, An address type fire detector 100 that operates all of the detectors that are arranged in a distributed manner and transmits their set location information and an electric wiring that groups the plurality of address type fire detectors 100 into one loop per loop An address type receiver for receiving the location information transmitted from the corresponding address type fire detector 100 according to an occurrence event of fire detection or non-repetition occurrence and displaying a boundary zone number and a detector number through analysis of the location information, (200). At this time, the address-type receiver 200 may include an address type P type receiver 200 shown in FIG. 3A and an address type R type receiver 201 shown in FIG. 3B. Type R-type receiver 201 in the case of the address-type R-type receiver 201.

The address type fire detector 100 and the address type receiver 200 may be implemented with a power line communication function of a multiplex communication method using a commercial power line on the basis of a communication protocol interlocking with each other, The address type fire detector 100 may be connected to at least 20 address type fire detectors 100 per loop of each circuit which sets a boundary zone unit of the address type receiver 200, All of the plurality of detectors installed on the apparatus are individually operated.

Here, the address type fire detector 100 is assigned and set with a sensor number indicating a detailed sensing zone unit from 01 to 99 on the same one-loop basis.

The address type receiver 200 detects a unit circuit loop in which the address type fire detector can be connected to at least 256 circuits in the case of the address type P type receiver 200 and in the case of the address type R type receiver 201 At least 25600 loops can be provided.

As shown in FIGS. 4 to 6, the address type fire detector 100 includes a differential type spot type address type thermal sensor 110, a constant temperature six port type address type heat detector 120, and a photoelectric port type address type And may include a smoke detector 130. That is, the address type fire detector 100 is connected to the differential type spot type address type heat sensor 110, the constant temperature six port type address type heat detector 120 and the photoelectric port type address type smoke detector 130 in one circuit At least 20 groups can be grouped and connected to each other in a loop, or they can be used in parallel with existing general type detectors.

FIG. 4 is a functional block diagram showing a configuration of a differential type spot-type address type thermal sensor applied to an address type fire detector in an address type automatic fire detection system according to the present invention. FIG. FIG. 6 is a functional block diagram showing the configuration of a sixteen address type thermal sensor applied to an address type fire detector in a fire detection system. FIG. 6 is a schematic block diagram of an address type fire detection system according to the present invention, FIG. 2 is a functional block diagram showing the configuration of a photoelectric port type address smoke detector applied to the present invention.

4, the differential type spot-type thermal sensor 110 includes a first NTC thermistor 111 for sensing the internal temperature of the sensor and a second NTC thermistor 112 for sensing the external temperature of the sensor. A DIP switch 114 for setting the sensor number of the sensing zone unit installed in the boundary zone to one of 01 to 99 as a binarized decimal input method, and a DIP switch 114 for setting the DIP switch 114 (Not shown). When an event of fire occurrence or non-fire occurrence occurs, the fire detection or non-fire return signal is transmitted to the address type A controller 115 for transmitting an address signal of a detector number in response to a count pulse signal transmitted to the receiver 200 to inform the boundary zone number and then requesting the address of the detector from the addressed receiver 200, It can comprise.

That is, the differential type spot-type address type thermal sensor 110 uses two NTC thermistors having a negative temperature coefficient as the fire sensor 113 and uses the difference of the input voltage according to the temperature change. In the case of the differential type spot type address type thermal sensor 110, the controller 115 receives a DC voltage of 24 V from the addressable receiver 200, and at the same time, the controller 115 outputs a DIP switch 114, (T-in) by using the first and second NTC thermistors 111 and 112, which are normally fire sensors 113, and stores the detected temperature in the internal flash memory ) And the external temperature (T-out) at regular intervals (for example, 2 seconds).

At this time, when a fire occurs, the temperature difference (Td = T2-T1) measured by the first NTC thermistor 111 for detecting the internal temperature and the temperature T2 measured by the second NTC thermistor 112 for sensing the external temperature is If a Td of 30 or more according to the detector type approval criterion is generated, the comparator (Comparator) in the controller 115 is used to read out the fire, and the address type receiver 200 is connected to the fire signal .

Next, the address type receiver 200 reads the number of the circuit loop to detect the boundary zone number in which the fire has been detected, and the address of the differential type spot type address type thermal sensor 110 operated again in the circuit loop in which the fire signal is input And the controller 115 of the corresponding differential type spot type address type thermal sensor 110 transmits a count pulse signal requesting its own address to the digital And transmits the converted pulse to the address type receiver 200.

5, the constant-temperature six-port type address type thermal sensor 120 includes a fire sensor 122 having an NTC thermistor 121 having a negative temperature coefficient, A DIP switch 123 for setting the detector number to one of 01 to 99 as a binary decimal input method, and a detector number, which is an address set by the DIP switch 123, to an internal flash memory (not shown) When an event of fire occurrence or non-fire occurrence occurs, a signal of fire occurrence detection or non-fire resetting is transmitted to the address type receiver 200 through the corresponding connected circuit loop to inform the boundary type number, And a controller 124 for transmitting the address signal of the sensor number in response to the count pulse signal requesting the address of the sensor from the controller 200.

At this time, when the external temperature sensed through the NTC thermistor 121 of the fire sensor 122 is raised to a temperature (for example, 70) which is a sensor type approval criterion, the controller 124 controls the internal analog digital converter ) Is used to read the fire.

That is, except for using one NTC thermistor 121 as the fire sensor 122, the configuration and operation principle of the DIP switch 123 and the controller 124 are the same The same as the differential type spot-type address type thermal sensor 110 described above, so that unnecessary repetitive description will be omitted.

As shown in FIG. 6, the photoelectric port type address smoke detector 130 includes

A fire sensor 133 having an infrared LED for emitting infrared light at a set frequency and a photocell 132 for receiving an infrared light scattered by smoke during a fire to generate an electromotive force; A DIP switch 134 for setting the detector number to one of 01 to 99 as a binary digitized decimal input method, and a detector number, which is an address set by the DIP switch 134, to an internal flash memory (not shown) When an event of fire occurrence or non-fire occurrence occurs, a signal of fire occurrence detection or non-fire resetting is transmitted to the address type receiver 200 through the corresponding connected circuit loop to inform the boundary type number, And a controller 124 for transmitting the address signal of the sensor number in response to the count pulse signal requesting the address of the sensor from the controller 200.

The controller 124 transmits an oscillation pulse at an interval of 3 seconds to the infrared LED 131 of the fire sensor 133 to control the infrared LED 131 to emit infrared light And converts a voltage applied through an internal analog digital converter (not shown) into a digital signal when a voltage generated by photovoltaic power is applied from the photovoltaic cell 132 that receives infrared light scattered by smoke when a fire occurs (15% / m) according to the detector type approval criteria.

That is, the photoelectric port type address smoke detector 130 includes an infrared LED 131 that performs a light emitting function with the fire sensor 133, and a photocell 132 that performs a light receiving function The DIP switch 134 and the controller 135 are the same as those of the differential type spot address type thermal sensor 110 and the constant temperature Six Port type address type thermal sensor 120 described above, Repetitive description will be omitted.

7 shows an example of a signal waveform for transmitting a detector number between an address type fire detector and an address type receiver in the address type automatic fire detection system according to the present invention.

As shown in FIG. 7, when one of the address type fire detectors 100 detects a fire and operates the fire type fire detector 100 and the address type receiver 200, Information transmission begins on the basis of power line communication. That is, the address type receiver 200 transmits a count pulse signal of a regular interval (RI) requesting the address of the operated detector to the corresponding circuit loop, and the operated address type fire detector 100 counts the count pulse And compares it with its own address to know when to send the detector number to the addressable receiver 200. At this time, the information of the detector number transmitted from the operated address type fire detector 100 to the address type receiver 200 is an address signal sent only when a fire is detected.

That is, after the first count pulse serving as a reset is generated, the first address type fire detector 100 can transmit the address signal of the detector number during RI1. No signal is seen during the first RI1, which means that the first address type fire detector 100 is in a normal state. After the RI1, the address type receiver 200 generates a count pulse (2nd pulse) again, and the address type fire detector 100 can transmit an address signal to the address type receiver 200 from this time. No signal is seen during RI2, which means that the second address type fire detector 100 is also in a normal state. The address type receiver 200 again generates a count pulse (third pulse), and the address type fire detector 100 can again transmit the address signal to the address type receiver 200 from this time. When the address type fire detector 100 detects a fire, as shown in FIG. 7, the three address type fire detectors 100 send an address signal pulse to the address type receiver 200 . Accordingly, the address type receiver 200 reads the address type fire detector 100 that transmitted the fire signal three times. In this way, the address type receiver 200 generates the last pulse and finds the address of the address type fire detector 100 that sends the fire signal. In the present invention, 1 scan is referred to as 1 scan until the next pulse signal is issued from the 1st pulse, a pulse indicated by the solid line is the count pulse generated by the addressed receiver 200, And the address signal pulse generated by the address type fire detector 100 of No. 5 and No. 5.

FIG. 8 is a functional block diagram illustrating an internal configuration of an address type receiver in an address type automatic fire detection system according to the present invention, and FIG. 9 shows a configuration of a panel front face of the address type receiver shown in FIG.

8, the address type receiver 200 includes a power module 211, an input module 212, a display module 213, an output module 214, a counter module 215, a pump module 216 ), A switch module 217, and a main module 218.

The power module 211 supplies power to the address type fire detectors 100 and the address type receiver 200, which are the components of the address type automatic fire detection system according to the present invention. At this time, the power module 211 further includes a spare power source (battery) for supplying power to the address type smoke detectors 100 and the address type receiver 200 even in an emergency in which the supply of the power is interrupted at all times .

The input module 212 receives an address signal corresponding to occurrence of a fire detection or non-return signal under the power line communication of the multiplex communication type with the address type fire detectors 100, and outputs the address signal to the main module 218.

The display module 213 distinguishes the boundary zone number and the detector number of the address type fire detectors 100 in which the fire detection or non-fire detection occurred. Here, as shown in FIG. 9, the display module 213 displays an address signal as a boundary zone number and a sensor number through an FND (7-segment) device.

The output module 214 controls the operation of the interlocking facility including the alarm, the siren, the damper, and the ventilation equipment when the fire detection occurs, and the window module 215 controls the operation state of the boundary zone and the interlocking facility by LED lighting And the pump module 216 controls the starting of the alarm valve (pump start), the blower, and the sprinkler, and the switch module 217 sets the manual operation and the automatic operation of the facilities associated with the receiver.

The main module 218 performs address display control so that the display module 213 can display the boundary zone number and the detector number information applied from the input module 212, do.

The main module 218 further includes a memory function for storing a boundary zone number and a detector number displayed through the FND of the display module 213 together with a fire detection occurrence time, The address type fire detector 100 sequentially stores the operation time and address of the address type fire detector 100 operated in accordance with occurrence of the fire detection in order to utilize it for fire detection, It is possible to control the operation time and the address of the display unit 100 to be sequentially displayed.

9 is a block diagram illustrating a front panel of an addressable receiver 200 according to the present invention. It includes a window module 215, a pump module 216, and a switch module 217, The display module 213 directly displays the location information of the fire occurrence including the boundary zone number and the detector number by using the FND device in the display module 213, This is different.

FIG. 10 is a functional block diagram illustrating an internal configuration of an address type receiver according to another embodiment of the address type automatic fire detection system according to the present invention, FIG. 11 illustrates a transmission protocol structure between the embedded module and the main module according to the present invention FIG. 12 shows a configuration of a front panel of the address type receiver shown in FIG. 10, and FIG. 13 shows an example of a screen in which a manager generates a fire occurrence location information through a CDMA module.

10, the address type receiver 200 includes a power module 221, an input module 222, an embedded module 223, an output module 224, a counter module 225, a pump module 226 ), And a main module 227, and may further comprise a CDMA module 228.

The power module 221 supplies power to the address type fire detectors 100 and the address type receiver 200, which are structures of the address type automatic fire detection system according to the present invention. At this time, the power module 221 further includes a spare power source (battery) for supplying power to the address type fire detectors 100 and the address type receiver 200 even in an emergency in which the supply of the constant power is cut off .

The input module 222 receives an address signal corresponding to occurrence of a fire detection or non-regeneration under the power line communication of the multiplex communication type with the address type fire detectors 100, and outputs the address signal to the main module 227.

The embedded module 223 is composed of an LCD for enhancing the visibility and enhancing the display function, unlike the display module 213 composed of the FND device described above. The embedded module 223 includes an address type fire detector 100 ) On the LCD, as well as displaying the system status for various output devices.

The output module 224 controls the operation of the interlocking equipment including the alarm, the siren, the damper, and the ventilation equipment when a fire is detected, and the window module 225 is illuminated corresponding to the boundary zone number And the pump module 226 controls the start-up of the alarm valve (pump start), the blower, and the sprinkler.

The main module 227 performs address display control to display the boundary zone number and the detector number information applied from the input module 222 through the LCD of the embedded module 223, .

The main module 227 further includes a memory function for storing a boundary zone number and a detector number displayed through an LCD of the embedded module 223 together with a fire detection occurrence time, Type fire detector 100 according to the occurrence of the fire detection, and sequentially stores the operation time and the address of the address type fire detector 100, which are sequentially operated according to the occurrence of the fire detection, It is possible to control the operation time and the address of the display unit 100 to be sequentially displayed.

The CDMA module 228 controls the location of the fire occurrence boundary zone and the information about the operated address type fire detector 100 under the control of the main module 227 when the fire detection of the address type fire detector 100 is detected. Can be confirmed in real time through SMS (Short Message Service) text transmission and emergency call using a predetermined manager's mobile phone.

At this time, the signal transmission between the embedded module 223 and the main module 227 is performed by a serial communication method, and a protocol transmitted from the main module is analyzed with a data transmission rate of several Mbps to several tens of Mbps Firmware can be matched with the program. At this time, it is preferable that the serial communication method is implemented by one of serial communication methods of RS-232C, RS-422, and RS-485, and the data transmission speed is 115200 bps. In addition, the transmission protocol between the embedded module 223 and the main module 227 is basically 20 bytes in size, and can be configured with a maximum size of 24 bytes according to data expansion.

11, the transmission protocol includes an STX (Start Byte) indicating a start byte of a protocol, a LEN (Length) indicating a total length of a protocol to be transmitted, CMD (Command) indicating command information such as status, output recovery, and conduction test, CMD protocol main contents, target number such as detector address, (CHKS) to check that the data is valid data in the protocol analysis, and ETX (End Byte) indicating the last byte of the protocol.

11 (a) shows a structure of a transmission protocol composed of STX, LEN, CMD, DATA, CHKS and ETX. Fig. 11 (b) shows a specification of a transmission protocol. Fig. And an embedded module using a reinforced LCD as a display panel is applied. The embedded module 223 can increase the visibility and allow the person in charge of managing the address type receiver 200 to recognize the occurrence of the fire easily through the LDC screen through the LCD having the enhanced display function. 13, when the manager is outside, the manager confirms the occurrence of fire quickly based on the position of the boundary zone and the information on the operated detector based on the occurrence of the fire transmitted in real time through the set mobile phone It is possible to promptly perform initial response.

The address type receiver 200 encodes (binary number) the evacuation voice guidance sound source wav file in the embedded module 223 and compresses the compressed wav file into the SD card of the embedded module 223 and stores the compressed Type smoke detector 100 is read by the main module 227 of the addressable receiver 200 and the data is transmitted to the embedded module 223 at the same time as the main module 227 of the addressable receiver 200. The embedded module 223 analyzes the protocol, And the extracted sound source file is converted into a wav file and output to the speaker for emergency broadcasting. In case of actual fire, the user in the room is informed of the accurate fire position through the emergency broadcasting . As an example, if a fire occurs at the actual GyoSwon # 115, you can guide the emergency announcement that you should evacuate to a fire safe place. Here, the embedded module 223 may be replaced with an industrial personal computer having an LCD.

The address type automatic fire detection system of the present invention as described above can prevent the occurrence of a large-sized fire due to quick initial response as it is possible to accurately determine the location of a fire by adding an address type function and a communication function, It is possible to reduce the human and material damage, and in particular, to provide the opportunity to promote the activation of the P type automatic fire detection equipment market by introducing a new technology model of the address type P type automatic fire detection equipment which is implemented at low cost.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

100: address type fire detector 110: differential type spot type address type heat detector
111: first NTC thermistor 112: second NTC thermistor
113: fire sensor 114: dip switch
115: controller 120: constant-temperature six-port type address type heat detector
121: NTC thermistor 122: fire sensor
123: DIP switch 124:
130: photoelectric port type address smoke detector
131: Infrared LED 132: Photocell
133: fire sensor 134: dip switch
135: controller 200: address type receiver
211: power module 212: input module
213: Display module 214: Output module
215: window module 216: pump module
217: Switch module 218: Main module
221: power module 222: input module
223: Embedded module 224: Output module
225: window module 226: pump module
227: Main module 228: CDMA module

Claims (21)

A plurality of sensors are dispersed and arranged in accordance with a floor unit or area unit boundary of a specific fire object and a plurality of sensors are distributed and arranged in a boundary area according to a fire detection or non-fire occurrence event, Address type fire detector; And
The address type fire detectors are connected to each other by a plurality of electrical wires grouped in a loop, and receive location information transmitted from the corresponding address type fire detectors according to a fire detection or non-fire occurrence event. An address type receiver displaying the boundary area number and the detector number through analysis of the information;
Address type automation material detection equipment comprising a. The method of claim 1,
Wherein the address type fire detectors and the address type receiver are implemented with a power line communication function of a multiplexing communication method based on a communication protocol interlocking with each other. The method of claim 1,
The address type fire detector comprises:
At least 20 address type fire detectors are connected and connected per loop for setting a boundary zone unit of the address type receiver,
In the address type fire detector, a plurality of detectors installed on each one-loop circuit are operated,
Wherein the address type fire detector is provided with a sensor number indicating a detailed sensing zone unit from 01 to 99 on the same one loop. The method of claim 3, wherein
The addressable receiver comprises:
Type loop detector is provided with at least 256 loops in the case of the address type P type receiver and at least 25600 loops in the case of the address type R type receiver. Detection facility. The method of claim 1,
The address type fire detector comprises:
An address type automatic fire detection system comprising a differential type spot type address type heat detector, a constant temperature six port type address type heat detector, and a photoelectric port type address type smoke detector. 6. The method of claim 5,
The differential type spot type address type thermal sensor includes:
A fire sensor having a first NTC thermistor for sensing a sensor internal temperature and a second NTC thermistor for sensing an external temperature of the sensor;
A Dip switch for setting the detector number of the detection zone unit installed in the boundary zone to one of 01 to 99 in the binarized decimal input method; And
The detector number, which is an address set by the DIP switch, is stored in the internal flash memory, and when an event of occurrence of a fire occurrence or occurrence of an alarm occurrence occurs, a fire occurrence detection signal or a non- And a controller for transmitting the address signal of the sensor number in response to the count pulse signal for requesting the address of the detector from the address type receiver. 6. The method of claim 5,
The above-mentioned atmospheric temperature six-port type address type thermal sensor includes:
A fire sensor having an NTC thermistor having a negative temperature coefficient;
A Dip switch for setting the detector number of the detection zone unit installed in the boundary zone to one of 01 to 99 in the binarized decimal input method; And
The detector number, which is an address set by the DIP switch, is stored in the internal flash memory, and when an event of occurrence of a fire occurrence or occurrence of an alarm occurrence occurs, a fire occurrence detection signal or a non- And a controller for transmitting the address signal of the sensor number in response to the count pulse signal for requesting the address of the detector from the address type receiver. 6. The method of claim 5,
In the photoelectric port type address smoke detector,
A fire sensor having an infrared LED for emitting infrared light at a set frequency and a photocell for receiving infrared light scattered by smoke during a fire to generate an electromotive force;
A Dip switch for setting the detector number of the detection zone unit installed in the boundary zone to one of 01 to 99 in the binarized decimal input method; And
The detector number, which is an address set by the DIP switch, is stored in the internal flash memory, and when an event of occurrence of a fire occurrence or occurrence of an alarm occurrence occurs, a fire occurrence detection signal or a non- And a controller for transmitting the address signal of the sensor number in response to the count pulse signal for informing the boundary zone number by sending and then requesting the address of the detector from the receiver. 9. The method according to any one of claims 1 to 8,
The addressable receiver comprises:
A power module for supplying power;
An input module for transmitting and receiving a signal in response to occurrence of a fire detection or a fire alarm under the basis of the power line communication of the multiplex communication type with the address type fire detectors;
A display module having an FND (7-segment) for distinguishing between a boundary zone number of the address type fire detectors in which fire detection or non-fire alarm is generated and a detector number;
An output module for controlling the operation of the interlocking equipment including alarm, siren, damper, and ventilation equipment in the event of fire detection;
A window module for displaying the operation status of the boundary zone and the interlocking facility by LED lighting;
A pump module for controlling the start-up of an alarm valve (pump start), a blower, and a sprinkler;
A switch module for setting manual operation and automatic operation of facilities associated with the receiver; And
And a main module for performing address display control so as to display information of a boundary zone number and a detector number applied from the input module in the display module and controlling operation of the entire system. Address type automatic fire detection equipment. The method of claim 9,
The main module includes:
Further comprising a memory function for storing a boundary zone number and a detector number displayed through an FND of the display module together with a fire detection occurrence time. The method of claim 9,
The main module includes:
An operation time and an address of an address type fire detector sequentially operated according to occurrence of a fire detection are sequentially stored so as to be utilized for fire detection, Wherein the control unit controls the display unit so that the display unit is sequentially displayed. 9. The method according to any one of claims 1 to 8,
The addressable receiver comprises:
A power module for supplying power;
An input module for transmitting and receiving a signal in response to occurrence of a fire detection or a fire alarm under the basis of the power line communication of the multiplex communication type with the address type fire detectors;
It is composed of LCD for enhancing the visibility and display function. It displays the boundary zone number and the detector number of the address type fire detectors in which the fire detection or non-resetting occurred, on the LCD, and displays the system status of various output facilities An embedded module;
An output module for controlling the operation of the interlocking equipment including alarm, siren, damper, and ventilation equipment in the event of fire detection;
A hatch module for lighting the LED corresponding to the boundary area number together with the lighting of the fire indicator;
A pump module for controlling the start-up of an alarm valve (pump start), a blower, and a sprinkler; And
And a main module configured to perform address display control to control the display of the boundary area number and the detector number applied from the input module through the LCD of the embedded module, and to control the driving of the entire system. Addressable automated material detection equipment characterized in that. 13. The method of claim 12,
Wherein the signal transmission between the embedded module and the main module comprises:
Serial communication method, and the data transmission rate is from several Mbps to several tens of Mbps, and the protocol transmitted from the main module is analyzed and matched with a firmware program. . 14. The method of claim 13,
The serial communication method includes:
RS-232C, RS-422, and RS-485 serial communication method. 13. The method of claim 12,
Wherein the transmission protocol between the embedded module and the main module includes:
Wherein the main memory has a size of 20 bytes and a maximum size of 24 bytes according to data expansion. 13. The method of claim 12,
The transmission protocol,
STX (Start Byte) which means the start byte of the protocol, LEN (Length) which means the total length of the transmitted protocol, and actual command information such as the occurrence of fire, recovery, receiver status, output recovery, conduction test, etc. CMD (Command), the main contents of the CMD protocol, the data indicating the performance data that specifically specify the target area such as the boundary area and the activated detector address in case of fire, the guidance lamp when controlling the output device, and the damper, and the valid data when analyzing the protocol. CHKS (Check-Sum), and the address-type automated material detection facility, characterized in that consisting of the structure of the end byte (ETX) means the last byte of the protocol. 13. The method of claim 12,
The addressable receiver comprises:
When a fire of the address type fire detector is detected, under the control of the main module, information on the location of the fire occurrence boundary zone and the operated address type fire detector is transmitted to a preset manager's mobile phone by SMS (Short Message Service) And a CDMA module for real-time checking the occurrence of a fire through an emergency telephone. 13. The method of claim 12,
The main module includes:
Further comprising a memory for storing a boundary zone number, a detector number, an installation location, and an output state of the facility together with the fire detection occurrence time, which are displayed through the LCD of the embedded module. 13. The method of claim 12,
The main module includes:
An operation time and an address of an address type fire detector sequentially operated according to the occurrence of a fire detection are sequentially stored so as to be utilized for fire detection and the operation time and address of the address type fire detector stored in accordance with the display selection control of the embedded module Wherein the control unit controls the display unit so that the display unit is sequentially displayed. 13. The method of claim 12,
The addressable receiver comprises:
The address input from the address type smoke detector operated by the fire is read and stored in the main module of the addressable type receiver, At the same time, the data is transmitted to the embedded module. In the embedded module, the protocol is analyzed and the address and operation (installation) position are mapped and the corresponding sound source file is extracted. The extracted sound source is converted into a wav file, And provides an accurate fire position through an emergency broadcast to a practitioner in the room when an actual fire occurs. 13. The method of claim 12,
The embedded module includes:
An automatic fire detection system according to the present invention is characterized by being replaceable with an industrial personal computer having an LCD.

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