SU796884A1 - Fire alarm - Google Patents

Description

I

The invention relates to security fire alarm systems and can be used to protect objects of a private household and apartments.

A device is known for centralized notification of violation of locks of blocking protected objects, including object devices installed on objects and connected by subscriber or dedicated lines to hubs, each of which consists of serially connected receiver polling block, buffer register, encoder, transceiver. , an attachment block, an address forking block whose input is connected to the interrogator output, and a first output to the encoder input, as well as a centralized monitoring console tim comprising a connecting device connected to said transceiver, whose output is connected to the inputs of the block buffer memory control unit and the hub, wherein the output of the block buffer memory connected to the inputs of the indicating and printing unit.

This device provides centralized protection of objects and sends alarms and ncf heat to the central monitoring point, provides automated tactics for the object to be armed and disarmed, monitors the subscriber line, and connects object devices to the hub and a hub with a central monitoring console l.

This device has the following disadvantages: the inability to protect objects located in the zone of operation of various PBXs,

5, communication with which is effected through several transfer points. This disadvantage is explained by the absence in the system of transitional devices and switches, the purpose of which is to provide a bypass of the PBX devices on

0 frequency 18 kHz; the inability to quickly view the states of the desired group of objects, since sequential

5 polling of the states of objects, starting from the first, and as a result, a considerable amount of time passes before the information comes from the necessary group of objects; the inability to form a remote control channel.

since the system does not form a special codogram over which the return channel would be installed in the direction of the remote control — the object device —.

The closest to the invention, by its technical nature, is an automated security and fire alarm device for centralized warning of fire and alarm containing groups of object devices, each of which are connected to the polling unit of the corresponding concentrate with the first inputs and outputs, which contains the object address code generator, nepBEiM output connected to the second input of the polling unit, the second output of the polling unit is connected to the receiver, the output of which is connected to the first input of the detecting unit The actual information, the output of which is connected with the first input of the buffer memory block, the output connected to the coding unit, the first output of which is connected to the first input of the transceiver, the first output connected to the filter, the memory block connected to the second input of the current detection unit information, the second output of the address code generator and the output receiver are connected respectively to the first and second memories of the memory blocks, the receiver output is also connected to the second input of the buffer memory block, the third input of which is connected to v transducer output, the second output of the coding unit is connected to the first input of the object address generator, the hub filter is connected to one of the switch filters, the output of each filter is connected to the corresponding input of the polling unit, the output of which is connected to the first input of the control unit, the output of which connected to the output filter, the second output of the control unit through the relay block is connected to its second input, the first output of the output filter of the switch is connected to the first input of the filter of the center console monitoring, the output of the filter is connected to the transceiver, the first output of which is connected to the print unit and the control unit which is connected to the display unit 2 through the buffer memory unit,

The main purpose of the switch is to ensure that the device can work in a network that has a hierarchical structure of protected objects located within the range of different PBXs, since the switch provides retransmission of signals bypassing the PBX devices.

The specified device provides security and fire alerts, allows the materially responsible person to disarm and disarm the object automatically with cavitating the execution of these functions on the centralized monitoring console. The device allows you to protect objects located at different PBXs that are connected through one or several call points 2

This device has the following disadvantages: the inability to quickly view the states of the desired group of objects (selectively call the desired group of objects), since sequential polling is performed starting from the first object and, as a result, it may take a considerable time before the information from the desired group is received. objects, during the specified time the objects remain unguarded; the inability to form a remote control channel in the direction of the remote-control device, since the system does not transmit a special codegram transmitted from the hub and through which a reverse channel can be established.

The purpose of the invention is to eliminate the noted disadvantages, i.e. expanding the functionality and reliability of the device.

The goal is achieved by introducing a channel indicator, service code maker and object decoder into the hub into the hub device, a hub address decoder entered into the switch, and sequentially connected telecommand center and object address forming units are introduced into the central monitoring console, in the hub, the third output of the polling unit through the channel indicator is connected to the second input of the transceiver, the second output of which is through g The object address decoder is connected to the second input of the address code generator, the fourth input: the buffer register is connected to the first output of the service code generator, the second output of which is connected to the third input of the current information detection unit, in the switch the second output of the output filter through the hub address decoder connected to the polling unit; in the centralized monitoring console, the second output of the transceiver is connected to the input of the unit for generating addresses of objects and hubs, the first output of which is connected with filter. Introduction of the service code, the object address decoder and the channel indicator to the shaper concentrator, and the hub address decoder to the switchboard to the centralized monitoring unit of the telenomer command and the address and the hub address shaping unit allow you to set the remote control channel in the direction of the remote control - the target device, send remote control commands to the hubs, in particular, issue a command to view the states of objects connected to the hub, which allows you to independently of any memory of the remote to quickly and efficiently view the status of the desired group of objects. In addition, the transfer of functions, memory about the state of objects from the console to the hub allows you to increase the reliability of receiving messages and simplify the console equipment, since information about the state of the object in the hub is confirmed at each polling cycle. In the case of the location of the memory about the state of objects in the console, additional measures are required to protect it with special excess codes, which increases the cost of the system. The drawing shows a block diagram of the proposed device. The fire alarm device comprises hubs 1, groups of object devices 2, polling unit 3, receiver 4, address code generator 5, memory block 6, current information detection unit 7, buffer memory block 8, coding block 9, transceiver 10 filter 11 connecting hub decoder 12 addresses of objects, shaper 13 service code, indicator 14 channels, switch 15, input filter 16 connecting Comm Taojppa, polling block 17, control block 18, relay block 19, connecting output filter 20, decoder 21 adre on the hub, central monitoring bullets 22, filter 23 for connecting the transceiver console 24, buffer storage unit 25, print unit 26, control unit 27, indication unit 28, telecommand generator 29, and object address concentrators 30 and concentrators. A hub 1 and object devices 2 are installed on the protected object to issue alarms when the object signal circuits are violated, to issue service signals to arm and disarm the object, as well as to execute remote control commands. The hub 1 of the system can also be installed on the PBX or the protected object and converts information from the on-site devices 2 into a binary code with its subsequent transfer to the communication line with a phase-shift keyed code. Concentrator polling unit 3 performs a cyclic polling of the output circuits of object devices with the subsequent transmission of information to receiver 4. Shaper 5 of the address code controls the distributor of the polling unit and generates the address of the on-site device from which information is currently being taken. At the receiver, the message type is decrypted and then written as a binary code in memory block 6 at the address generated by the code generator 5. In block 7 for detecting current information, a comparison is made of the codes of the messages coming from the output of receiver 4 and block 6 of memory. In the event that the information is new, a command is written to write it to the block 8 of the buffer memory. From the output of the buffer memory block, the information enters the coding block 9, where it is encoded and then goes to the transceiver 10 from the output of the transceiver 10, a message in the form of a phase-shift oscillation is transmitted through the concentrator connecting filter 11 to the communication line. The decoder 12 of the address of the object serves to decipher the code of the address of the object and stop the distributor of the driver of the code of the address of the object. The codogram containing the address code of the object is delivered from the central monitoring station in the form of a receipt confirming the reception of the codogram containing the service code and the service code generation unit 13 that is generated. After the channel is installed in the board, the control unit-on-site device channel 14 indicator sends a special signal to the on-site device 2, on which a special signal lamp is turned on. The signal from the output of the hub 1 is fed to the input of the switch 15 to its connection filter 16. The connection filter serves to separate service information signals from telephone conversations and excludes their mutual influence. The service information from the output of the connection filter 16 is fed to the input of the polling unit 17 and then to the control unit 18. The purpose of block 18 is that, at the command of hub 1, the input of retransmission unit 19 is connected to the output of hub 1, where there is currently a message. Upon a command from the centralized monitoring console to the input of the retranslation unit 19, it is connected to the reception from the centralized monitoring console22. Switch 15 is connected to the output of one s of hubs 1 for a time that is not necessary to send a message and to send back sig) confirmation in the direction of the console hub, if it is necessary to create a fixed channel of the console hub, then the codogram confirmation contains the address code of the hub 1 and the code of the address of the object 2, as well as the code of the command to be executed.

Switch 15 is connected to the console through a connection filter 20. The hub address decoder is implemented by the decoder code 21 of the hub address code. The service information is fed to the console 22 cent-pioneered observation from the output of the console connection filter 23, received by the transceiver 24, recorded in a buffer memory (register) 25, and recorded in the print unit 26. The concentrator control unit 27 serves to confirm the health of the concentrators upon receiving a special periodic codegram generated by the service code generation unit 13. Along with the printing unit 26, the service information is registered by the display unit 28.

To form the telecontrol channel, the telecommand shaper 29 and the object address and concentrator address generator 30 are used. To form the desired telecommand, as well as the address of the object and the hub, a special dial pad is used. It is installed in the command generator 29 on the front panel of the central monitoring console 22.

The proposed device differs from that known in that it is possible to quickly view the desired group of objects by a special selective call, thereby reducing the time during which very important objects remain unguarded. In addition, in the proposed device, it is possible to form a remote control channel in the remote control object. The channel formed can be used to negotiate with a materially responsible person and transfer telecommands to actuators, which also protects the reliability of security and its effectiveness.

Claims (2)

Invention Formula A device for fire and security with ignition ali 3 actions, containing groups of object devices; each of which is connected with the first inputs and outputs to the polling unit of the corresponding concentrator, which contains the shaper of the object address code, the first output connected the second input of the polling unit, the second output of the polling unit is connected to the detector, the output of which is connected to the first input of the current information detection unit, the output of which is connected to the first input of the buffer memory unit, the output connected to the coding unit, the first output of which is connected to the first the input of the transceiver, the first output connected to the filter, the memory block connected to the second input of the current information detection unit, the second form output; 4 the address code output and the receiver output are connected respectively to the first and The first inputs of the memory block, the receiver output is also connected to the second input of the buffer memory block, the third input of which is connected to the second output of the transceiver, the second output of the coding block is connected to the first input of the object address generator, the concentrator filter is connected to one of the switch filters, The output of each filter is connected to the corresponding inputs of the polling unit, the output of which is connected to the first input of the control unit, the output of which is connected to the output filter, the second output of the control unit through the control unit is connected to its second input, the first output of the output filter of the switch is connected to the first input of the filter of the centralized monitoring console, the output of the filter is connected to the transceiver, the first output of which is connected to the display unit through the buffer memory unit, In order to expand the functionality and increase the reliability of the device, a channel indicator, a service code generator and an object address decoder are entered into the hub, and a deshifter is added to the switch; In the concentrator, the third output of the polling unit through the channel indicator is connected to the second input of the transceiver, the second output of which is connected to the second input of the generator via the channel address decoder address code, the fourth input of the buffer register is connected to the first output of the service code generator, the second output of which is connected to the third input of the block In the switch, the second output of the output filter is connected to the polling unit via the hub address decoder; in the central monitoring console, the second output of the transceiver is connected to the input of the address forming unit and hubs, the first output of which is connected to the filter. Information sources. taken into account in the examination of 1. USSR author's certificate for application No. 2506067 / 18-24, cl. G 08 B 25/02, 07.07.77. 2. USSR author's certificate according to application No. 2620572 / 18-24, cl. G 08 B 25/00, 24 .05.78 (prototype) 12 2 g 2 X f,