RU220200U1 - Mobile automatic fire alarm stand - Google Patents

Abstract

The utility model relates to automatic fire equipment and can be used to control automatic fire alarms.

The technical result of using the utility model is to increase the reliability of a mobile automatic fire alarm stand.

The specified technical result is achieved by the fact that a mobile automatic fire alarm stand containing a front panel on which a monitoring and control panel is located, a security and fire alarm receiving and control device, a two-wire communication line controller, a signal and triggering unit, a backup power supply, an interface converter, optical-electronic fire detector, optical-electronic addressable-analog fire detector, manual fire detector, differentiated thermal fire detector, "Exit" light display, combined light-sound alarm, a means of simulating an actuator, a connector for connecting a PC, and to the monitoring and control panel via the interface line, through an interface converter, a fire-security receiving and control device, a two-wire communication line controller and a signal and trigger unit are connected, while an optical-electronic fire detector and a manual fire detector are connected to the fire-receiving and control device, to the two-wire line controller communications, an optical-electronic addressable-analogue fire detector and a differentiated thermal fire detector are connected, an “Exit” light display, a combined light-sound alarm, a means of simulating an actuator, a monitoring and control panel, a security receiving and control device are connected to the signal and triggering unit. firefighter, two-wire communication line controller, signal-starting unit, interface converter are connected to a backup power source, on the graphical display of communication lines printed on the front panel there is a button for simulating a break in the alarm loop, a button for simulating a break in the two-wire communication line, a button for simulating a short circuit in the alarm loop , a button for simulating a short circuit in a two-wire communication line, a button for simulating a lack of power, a button for simulating a lack of siren signal, a button for simulating a lack of communication between devices.

Description

The utility model relates to automatic fire equipment and can be used to control automatic fire alarms.

Fire alarms are complex automated distributed systems that must ensure a high level of fire safety at the facility. Automatic fire alarm systems are stationary and mandatory for use at the vast majority of facilities, especially at hazardous production facilities (including gas transportation enterprises). Such systems operate in continuous mode, which places certain demands on equipment maintenance, and configuration failures can lead to system failure. Therefore, it is important that all equipment that is included in the fire alarm configuration works smoothly and correctly. To do this, it is necessary to carry out qualified technical maintenance, inspection and replacement of equipment in a timely and high-quality manner.

Therefore, the creation of a mobile automatic fire alarm stand, which allows you to configure equipment, check the development of algorithms, and reduce the time spent on analysis and troubleshooting that occurs in automatic fire alarm systems, is an urgent problem.

There is a well-known training stand for technical fire alarm and automation equipment (RF Patent No. 189083, published 05/13/2019). The stand contains a front panel on which a monitoring and control panel is located, a fire alarm and reception control device "Signal-20 M", a control and reception device for automatic fire extinguishing equipment and sirens S2000-ASPT, a control and starting unit S2000-KPB, backup power supply, "Orpheus" alarm control device, automatic thermal fire detectors, automatic smoke fire detectors, manual fire detectors, "Exit" light display, acoustic system, "Powder go away" fire alarm siren, "Go away" fire alarm siren " Powder do not enter”, security and fire alarm light “Automation disabled”, imitation rod. The control and control panel is connected via the RS-485 interface line to the fire-reception and control device and the control and start-up unit. Automatic thermal fire detectors, automatic smoke fire detectors, a manual fire detector and an alert control device are connected to the security and fire alarm control device, to which the “Exit” light board and an acoustic system are connected. Connected to the reception and control device for automatic fire extinguishing means and sirens are automatic thermal fire detectors, automatic smoke fire detectors, a manual fire detector, as well as a fire-security light annunciator “Powder go away”, a fire-security light annunciator “Powder do not enter”, Security and fire alarm siren "Automation disabled".

The disadvantages of the known stand, which limits its use, is the absence of an RS-232 connector on the front panel for quick connection of a PC for the purpose of configuring equipment. Low reliability of the stand due to the fact that to simulate an equipment malfunction it is necessary to disassemble the loops and lines of the stand, which contributes to increased wear of communication lines and terminal connections. Lack of mobility due to the high dimensions of the front panel on which the equipment is located.

These shortcomings are partially eliminated in the closest utility model to the proposed one, which we took as a prototype, “Test and demonstration stand for automatic fire alarm installation” (RF Patent No. 195824, published 02/06/2020). The well-known stand has connectors on the front panel for quickly connecting a PC using a COM port. An algorithm for simulating faults and the procedure for eliminating it are also described. Simulation of faults is proposed by loosening the standard terminals of the equipment and installing faulty equipment.

The disadvantages of the prototype are: low reliability due to the fact that to simulate faults it is necessary to install faulty equipment by loosening the standard terminals, which increases the wear of the loops and lines of the stand.

The technical problem solved by the proposed utility model is the creation of a mobile automatic fire alarm stand.

The technical result of using the utility model is to increase the reliability of a mobile automatic fire alarm stand.

The specified technical result is achieved by the fact that a mobile automatic fire alarm stand containing a front panel on which a monitoring and control panel is located, a security and fire alarm receiving and control device, a two-wire communication line controller, a signal and triggering unit, a backup power supply, an interface converter, optical-electronic fire detector, optical-electronic addressable-analog fire detector, manual fire detector, differentiated thermal fire detector, "Exit" light display, combined light-sound alarm, a means of simulating an actuator, a connector for connecting a PC, and to the monitoring and control panel via the interface line, through an interface converter, a fire-security receiving and control device, a two-wire communication line controller and a signal and trigger unit are connected, while an optical-electronic fire detector and a manual fire detector are connected to the fire-receiving and control device, to the two-wire line controller connection, an optical-electronic addressable-analog fire detector and a differentiated thermal fire detector are connected, an “Exit” light display, a combined light-sound alarm, a means of simulating an actuator, a monitoring and control panel, a security receiving and control device are connected to the signal and triggering unit. firefighter, two-wire communication line controller, signal-starting unit, interface converter are connected to a backup power source, on the graphical display of communication lines printed on the front panel there is a button for simulating a break in the alarm loop, a button for simulating a break in the two-wire communication line, a button for simulating a short circuit in the alarm loop , a button for simulating a short circuit in a two-wire communication line, a button for simulating a lack of power, a button for simulating a lack of siren signal, a button for simulating a lack of communication between devices.

In fig. 1 shows a diagram of the proposed stand.

A mobile automatic fire alarm stand consists of any rolling table (1) with at least four rotating wheel supports (2) and a shelf for additional equipment (3). On the table (1) there is a front panel (4) secured with pins, which has two carrying handles (5-6), made of a sheet with a thickness of 3 mm to 5 mm of any durable and lightweight material, for example, polyvinyl chloride. The panel (4) has dimensions: width from 1300 mm to 1500 mm, height from 400 mm to 600 mm, depth from 40 mm to 60 mm.

On the front panel (4) there is a monitoring and control panel (7), containing a display, a CLR button (7 ₁ ), an internal sound signal, indicators “WORK” (7 ₂ ), “EMERGENCY” (7 ₃ ), “FAULT” ( 7 ₄ ) and “POZHAR” (7 ₅ ), for example, “S2000M”, the two outputs of which are connected by wire connections to a connector for connecting a PC (8) and to any interface converter (9) that has “WORK” indicators (9 ₁ ) , “RS-485” (9 ₂ ), “RS-485M” (9 ₃ ), for example, “S2000-PI”.

A fire and security control panel (10) with an “OPERATION” indicator (10 ₁ ), an “RS-485” interface, for example, “Signal-20P”, a two-wire communication line controller ( 11), having an “RS-485” interface, indicators “WORK” (11 ₁ ), “RS-485” (11 ₂ ), “LINE” (11 ₃ ), for example, “S2000-KDL” and a signal and trigger unit (12), having an “RS-485” interface, an “OPERATION” indicator (12 ₁ ) and indicators of the relay outputs (12 _2-4 ), for example, “S2000-SP1”. On the graphic images of communication lines (13) connecting (9) with devices (10), (11) and (12), a button is attached to simulate the lack of communication between devices (14).

Two outputs (10) are connected by wire connections, which are duplicated on the front panel (4) with a graphic display (13), with an optical-electronic fire detector (15) and with a manual fire call point (16). Any optical-electronic fire detector with a status indicator (15 ₁ ) and a test operation button (15 ₂ ), for example, “DIP-44” can be used as (15). As (16), any manual fire call point can be used that has a status indicator (16 ₁ ) and a manual trigger button (16 ₂ ), for example, “IPR-3SU”. On the graphic images of communication lines (13) connecting (10) with detectors (15) and (16), there is a button for simulating a break in the alarm loop (17) and a button for simulating a short circuit in the alarm loop (18), respectively.

The two-wire communication line controller (11) is connected in parallel by wire connections to an optical-electronic addressable analogue fire detector (19) and to a differentiated thermal detector (20). As detectors (19) and (20), a detector having a status indicator (19 ₁ ), for example, “DIP-34A” and a differentiated thermal detector, having a status indicator (20 ₁ ), for example, “S2000-IP” can be used. respectively. On the graphic display of the wire connection (11) with (19) and (20) there is a button for simulating a break in a two-wire communication line (21) and a button for simulating a short circuit in a two-wire communication line (22), respectively.

The outputs of the device (12) are indicated by indicators (12 ₂ , 12 ₃ , 12 ₄ ), connected by wire connections, which are duplicated by a graphic display (13), with a means of simulating an actuator (23) with an operating supply voltage of 12 V, for example, a JAMICON fan JF0925H2UR", with a combined light and sound siren (24) with an operating supply voltage of 12V, for example, "Mayak 12" and with any light sign "Exit" (25) with an operating supply voltage of 12V, for example, "Lux 12", respectively. On the graphic display of the wired connection (12) with (24) there is a button (26) attached to simulate the absence of a siren signal.

Any backup power source is attached to the front panel (4), for example, “AC-016” and with an output supply voltage of 12V and having indicators “NETWORK” (27 ₁ ), “12V” (27 ₂ ) and “CHARGE” (27 ₃ ), for example, "RIP-12". The backup power supply (27) has a power connector (28). Devices (7, 9-12) are connected to the 12V output (27) by wire connections, which are duplicated by a graphic display (13). The power failure simulation button (29) is located on the graphic display (13) of the wired connection (27) with an external 220V power source.

The devices (7, 9-12, 15-16, 19-20, 23-25) on the front panel (4) are secured with at least two self-tapping screws each.

Before starting work, the automatic fire alarm stand is moved by the handles (5, 6) into the work area on a flat surface with minimal effort, ensuring movement due to the wheel supports (2) of the rolling table (1). A PC is installed on the shelf (3), which is used to configure the equipment and is connected to the stand via a connector (8). 220V power is supplied to the connector (28), check the condition of the button (29). By supplying 220 V power to the power connector (28), the stand is turned on. The remote control (7) starts the equipment polling procedure. Detectors (15-16), (19-20) record data on the absence/presence of a source of smoke and/or high temperatures in the working area, and on the serviceability of the stand. The signal is transmitted to the device (10) and the controller (11), respectively. A notification about the state of the working area is transmitted to the remote control (7) through the converter (9) from the device (10) and the controller (11). From the remote control (7) the signal is transmitted to the block (12) designed to control actuators (23-25).

The stand operates in several modes:

1. “Standby” mode (no malfunctions of the stand and/or source of smoke, high temperatures).

If there are no malfunctions of the stand and/or source of smoke or high temperatures, the detectors (15-16), (19-20) transmit data to the remote control (7). The stand is automatically switched to “Standby” (standard) mode using the remote control (7). The remote control display (7) displays the current time, and the indicators (7 ₂ ), (10 ₁ ), (11 _1-3 ), (12 _1.4 ), (27 _1-2 ), (9 _1-2 ) and the “Output” light display (25), indicator (9 ₃ ) - turn on in data exchange mode, indicators (19 ₁ ), (16 ₁ ), (20 ₁ ) turn on to work with a flash period of 4 s.

2. “Fire” mode (presence of a source of smoke and/or high temperatures).

If there is a source of smoke and/or high temperatures, the detectors (15-16), (19-20) transmit data to the remote control (7). The stand is automatically switched to the “Fire” mode using the remote control (7). In the “Fire” mode, the display of the remote control (7) displays the message “FIRE”, the number of the trigger zone, an intermittent sound signal, and the indicators (7 ₂ ), (9 _1-2 ), (10 ₁ ), ( 11 _1-3 ), (12 _1-3 ), (27 _1-2 ), actuator simulator (23) and annunciator (24), indicator (9 ₃ ) - turn on in data exchange mode. Enabled to operate with a period of 0.5 s. indicators (7 ₅ ), (12 ₄ ) and the “Exit” light display (25).

Once an aerosol smoke simulator is injected into the smoke chamber of the detector (15) or the button (15 ₂ ) is pressed, the detector (15) is activated. The detector (15) automatically turns on the indicator (15 ₁ ) and transmits a signal through the device (10) to the remote control (7), which switches the stand to the “Fire” mode.

When an aerosol smoke simulator is injected once into the smoke chamber of the detector (19), the indicator (19 ₁ ) is switched to paired blinking mode with a pair interval of 0.5 s. and a period of 4 s. and transmit the signal through the device (11) to the remote control (7), which switches the stand into the “Fire” mode.

Press the button (16 ₂ ) and switch the indicator (16 ₁ ) to blinking mode at intervals of 0.5 s. and transmits the signal through the device (10) to the remote control (7), which switches the stand to the “Fire” mode.

A hot air stream with a flow temperature of 70°C to 100°C is supplied to the detector (20), for example, with a household hair dryer. The detector (20) is triggered, the indicator (20 ₁ ) is switched to pair blinking mode with an interval of 0.5 s. and a period of 4 s. and transmit the signal through the device (11) to the remote control (7), which switches the stand into the “Fire” mode.

Eliminate the reasons for the operation of one or more detectors (15-16), (19-20). Press the button (7 ₁ ), transfer the stand to the “Standby” (regular) operating mode.

3. Simulation of equipment malfunctions.

Fault simulation buttons (14), (17-18), (21-22), (26), (29), located on the graphical display of communication lines (13), printed on the front panel (4) for clarity of malfunction perception.

3.1 Lost connection between the fire and security control panel (10) and the detector (15): press the button (17), a signal about this is transmitted from the device (10) to the remote control (7); on the display of the remote control (7) the message “LOCK OPEN” is displayed, the number of the trigger zone is turned on, an intermittent sound signal is turned on, the indicator (7 ₂ ), the indicator (7 ₄ ) are turned on at intervals of 0.5 s, the rest of the equipment operates in “Standby” (normal) mode.

3.2 Lost connection between the two-wire communication line controller (11) and the detector (19): press the button (21), a signal about this is transmitted from the device (11) to the remote control (7); on the display of the remote control (7) the message “DISABLED” is displayed, the number of the trigger zone is turned on, an intermittent sound signal and indicator (7 ₂ ) are turned on, the indicator (7 ₃ ) is turned on at intervals of 0.5 s, the rest of the equipment operates in “Standby” ( normal) mode.

3.3 Closing the communication line between the fire and security control device (10) and the detector (16): press the button (18), a signal about this is transmitted from the device (10) to the remote control (7); on the remote control display (7) the message “SHORT CIRCUIT” is displayed, the number of the trigger zone is turned on, an intermittent sound signal is turned on, the indicator (7 ₂ ), the indicator (7 ₄ ) is turned on at intervals of 0.5 s, the rest of the equipment operates in “Standby” (normal) mode.

3.4 Closing the communication line between the two-wire communication line controller (11) and the detector (20): press the button (22), a signal about this is transmitted from the device (11) to the remote control (7); on the display of the remote control (7) the message “KZ DPLS” is displayed, the address of the controller (11), an intermittent sound signal is turned on, the indicator (7 ₂ ), the indicator (7 ₃ ) is turned on at intervals of 0.5 s, on the controller (11) turn on the indicator (11 ₃ ) with an interval of 0.5 s, the rest of the equipment operates in “Standby” (normal) mode.

3.5 Switching power from a 220V network to 12V (from a battery): press the button (29) and break the 220V power supply circuit between the device (27) and the power connector (28), the indicators (27 ₃ ) and (27 ₁ ) on the backup power source are turned off (27), the rest of the equipment operates in “Standby” (standard) mode.

3.6 Lost connection between the signal and trigger unit (12) and the siren (24): press the button (26), the stand operates in “Standby” (normal) mode. When operating in the “Fire” mode, the siren (24) is disabled, the rest of the equipment operates in the “Fire” mode.

3.7 Lost connection between the interface converter (9) and the devices (10-12): press the button (14), the message “LOST DEVICE” is displayed on the remote control display (7), the address of the device, an intermittent sound signal is turned on, the indicator (7 ₂ ), the indicator (7 ₃ ) is turned on with an interval of 0.5 s, on the device (10) the indicator (10 ₁ ) is turned on with an interval of 0.5 s, on the device (11) the indicator (11 ₂ ) is turned on with an interval of 0.5 s, on the device (12 ) indicator (12 ₁ ) with an interval of 0.5 s, the rest of the equipment operates in “Standby” (standard) mode.

4. Elimination of the cause of the malfunction.

To eliminate the cause of the malfunction, press the corresponding malfunction simulation button (14), (17-18), (21-22), (26), (29). On the remote control (7) press the button (7 ₁ ) and transfer the stand to the “Standby” (regular) operating mode.

Thus, the proposed utility model makes it possible to increase the reliability of a mobile automatic fire alarm stand due to the fact that it contains a button for simulating faults, which allows not to violate the integrity of the stand during its operation, and therefore reduces wear on communication lines and terminal connections.

In addition, the proposed stand allows you to conduct theoretical classes on the study of the main characteristics, terminology and composition of a mobile automatic fire alarm stand, conduct practical classes to familiarize yourself in detail with the installation and composition of the software and configure a given topology with the development of an algorithm for analyzing the state of alarm loops, as well as modeling abnormal and emergency situations and practicing methods for searching, localizing and eliminating faults that have arisen.

Claims (1)

A mobile automatic fire alarm stand containing a front panel on which a monitoring and control panel is located, a fire alarm receiving and control device, a two-wire communication line controller, a signal-starting unit, a backup power supply, an interface converter, an optical-electronic fire detector, a detector optical-electronic addressable analogue fireman, manual fireman's detector, differentiated fireman's heat detector, "Exit" light display, combined light-sound annunciator, means of simulating an actuator, connector for connecting a PC, and connected to the control and monitoring panel via the interface line via an interface converter a security and fire alarm receiving and control device, a two-wire communication line controller and a signal-starting unit, while an optical-electronic fire detector and a manual fire detector are connected to the fire-prevention receiving and control device, an optical-electronic fire detector is connected to the two-wire communication line controller an addressable analogue and a differentiated thermal fire detector, a light display “Exit”, a combined light-sound alarm, a means of simulating an actuator, a monitoring and control panel, a fire-security receiving and control device, a two-wire communication line controller, are connected to the signal and triggering unit, the signal-starting unit, the interface converter are connected to a backup power source, characterized in that on the graphical display of communication lines printed on the front panel there is a button for simulating a break in the alarm loop, a button for simulating a break in a two-wire communication line, a button for simulating a short circuit in the alarm loop, a button simulating a short circuit of a two-wire communication line, a button for simulating a lack of power, a button for simulating a lack of siren signal, a button for simulating a lack of communication between devices.