RU228629U1 - Portable Fire Alarm Training Stand - Google Patents

Abstract

The utility model relates to automatic fire equipment and is intended for training personnel by simulating the actions of an automatic fire alarm. The technical result consists in expanding the functionality of the fire alarm training stand. The portable fire alarm training stand consists of three modules connected to each other by means of latches, equipped with interface and power connectors, connectors for simulating breaks and short circuits, wherein the first module contains a two-wire communication line controller with galvanic isolation with the ability to connect the main and backup interface lines with fire detectors connected to it, this module is connected by means of power connectors and interfaces to the second module, which contains a control and indication unit with the ability to connect the main and backup interface lines, connected to the control and monitoring console with the ability to connect the main and backup interface lines, to which an interface converter with a USB port for connecting a personal electronic computer is also connected, this module is connected through other power and interface connectors to the third module, which contains a power supply unit, to which a fire alarm and security control and receiving device is connected with the ability to connect the main and backup interface lines, to which fire detectors are connected. 1 Fig.

Description

The utility model relates to automatic fire equipment and can be used to study the operating principles of automatic fire alarms.

Automatic fire alarm (AFA) is a technical safety device that minimizes the risks of loss of life and material damage. Currently, fire safety specialists are trained at universities, and AFA is part of this educational process. For better perception and understanding of the principles of work in accordance with current regulatory documents, it is necessary to practice these skills.

Therefore, the creation of a portable fire alarm training stand, consisting of three separate modules, which after assembly and connection represent a single stand, will allow training not only students, but also improving the knowledge of fire safety engineers and other interested persons directly at the workplace.

A training stand for technical means of fire alarm and automation is known (Patent of the Russian Federation No. 189083, published on 13.05.2019, IPC G088B 25/00). The stand contains a front panel with a control and management console, a Signal-20M fire and security receiving and monitoring device, an S2000-ASPT automatic fire extinguishing and alarm receiving and monitoring device, an S2000-KPB control and starting unit, a backup power source, an Orpheus notification control device, automatic heat fire detectors, automatic smoke fire detectors, manual fire detectors, an Exit light board, an acoustic system, a Powder Go Away fire and security light alarm, a Powder Do Not Enter fire and security light alarm, an Automatic System Off fire and security light alarm, and a dummy rod. The fire alarm control panel and the control and launch unit are connected to the control and monitoring unit via the RS-485 interface line. The automatic heat fire detectors, automatic smoke fire detectors, a manual fire detector and the notification control device, to which the "Exit" light panel and the acoustic system are connected, are connected to the fire alarm control and monitoring unit. The automatic heat fire detectors, automatic smoke fire detectors, a manual fire detector and the "Powder go away" light fire alarm, the "Powder do not enter" light fire alarm and the "Automation off" light fire alarm are connected to the control and monitoring unit for automatic fire extinguishing equipment and alarms.

A disadvantage 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 the equipment. The stand has low reliability due to the fact that in order to simulate equipment failure, it is necessary to disassemble the loops and lines of the stand, which contributes to increased wear of the communication lines and terminal connections. The lack of mobility of the stand is due to the high dimensions of the front panel on which the equipment is located.

The above-mentioned shortcomings are partially eliminated by the test and demonstration stand of the automatic fire alarm system (Patent of the Russian Federation No. 195824, published on 06.02.2020, IPC G05B 15/00). The known stand has connectors on the front panel for quick connection of a PC using a COM port. The algorithm for simulating faults and the procedure for eliminating them are also described. Simulation of faults is proposed by loosening the standard terminals of the equipment and installing faulty equipment.

The disadvantages of the analogue 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 cables and lines of the stand.

The above-mentioned shortcomings are partially eliminated by a mobile automatic fire alarm stand (Patent of the Russian Federation No. 220200, published on August 31, 2023, IPC G08B 17/00). The known stand increases reliability by installing buttons to simulate faults, and also increases the mobility of the stand.

The disadvantages of this technical solution are: large dimensions do not allow free transportation of the stand between objects, and to simulate a malfunction it is necessary to press and hold the button, which does not allow one person to conduct a high-quality check with a single malfunction. Using Com port to connect a personal computer introduces additional requirements for the PC.

The objective of the utility model is to create a portable training stand for fire alarms with the possibility of convenient transportation and with the possibility of conducting practical classes taking into account modern regulatory requirements for fire alarm systems.

The technical result consists in expanding the functional capabilities by replacing the connection via Com port with a connection via USB port, which is available on most PCs.

The specified technical result is achieved by a portable fire alarm training stand consisting of three modules connected to each other by means of latches, equipped with interface and power connectors, connectors for simulating breaks and short circuits, wherein the first module contains a two-wire communication line controller with galvanic isolation with the possibility of connecting the main and backup interface lines to it, the first input of which is connected to the first input of the branching-isolating unit, the signal-triggering unit is connected to the second input of the branching-isolating unit, and the first addressable-analog smoke detector is connected to its third input, wherein the EXIT panel and the FIRE panel are connected to the signal-triggering unit via connectors for simulating breaks and short circuits, and the second addressable-analog smoke detector is connected to the addressable-analog smoke detector via a connector for simulating breaks and short circuits, which is connected to the first input of the branching-isolating unit, to the second input of which via a manual addressable fire alarm is connected to the open and short circuit connector, and the first addressable analog heat alarm is connected to the third input, which is connected through the open and short circuit connector to the second automatic fire addressable analog heat alarm, which is connected through a branching and isolating unit to the second input of the controller of the two-wire communication line with galvanic isolation with the ability to connect the main and backup interface lines to it, wherein the second module comprises a control and indication unit with the ability to connect the main and backup interface lines to it, connected to the control and monitoring console with the ability to connect the main and backup interface lines to it, to which an interface converter with a USB port for connecting a personal computer and a signaling and starting unit are also connected, to the outputs of which signal lamps are connected, wherein the third module comprises a power supply unit to which a fire and security control and monitoring device is connected with the ability to connect the main and backup interface lines to it, to the outputs of which, in turn, a light panel is connected OUTPUT and FIRE display, and to the first input of which a manual fire alarm is connected, to the second input two automatic optical-electronic fire alarms are connected, to the third input two automatic flame fire alarms are connected, and the power supply is connected to the network power supply connector through a switch.

The essence of the utility model is explained by the basic diagram of the stand.

The portable fire alarm training stand consists of the first, second and third modules, 1, 2, 3 respectively, made of a sheet of durable and lightweight material, such as polyvinyl chloride, connected to each other by means of tension latches 4. Each module has a handle 5 and legs 6.

The first module 1 contains a two-wire communication line controller with galvanic isolation with the ability to connect the main and backup lines of interface 7, for example, S2000-KDL-2I. Interface connectors 8 and 9 are connected in parallel to the main interface line of the controller 7, interface connector 10 is connected to the backup interface line of the controller 7, and power connector 11 is connected to the power line of the controller 7. The first input of the branching-isolating unit 12, for example BRIZ T, is connected to the first input of the controller 7, the signal-starting unit 13, for example S2000-SP2 isp02, is connected to the second input of the unit 12, to the first output of which the FIRE light board is connected by jumpers through the open-circuit and short-circuit imitation connector 14, and the OUTPUT light board is also connected to the second output of the unit 13 by jumpers through the open-circuit and short-circuit imitation connector 15, the OUTPUT and FIRE light boards can be any, with an operating voltage of 24V, for example LUX-24. The first addressable analog smoke detector 16 is connected to the third input of block 12, and the second addressable analog smoke detector 18 is connected via jumpers through connector 17; detectors 16 and 18 can be, for example, DIP-34A. Detector 18 is connected to the first input of branching and isolating block 19, for example, BRIZ T. A manual addressable fire detector 21, for example, IPR-513AM, is connected to the second input via jumpers through connector 20, and the first addressable analog heat detector 22 is connected to the third input of block 19. The second addressable analog heat detector 24 is connected to detector 22 via jumpers through connector 23; detectors 22 and 24 can be, for example, S2000-IP-03. The detector 24 is connected to the second input of the controller 7 via the branching and isolating block 25, for example BREEZE.

The second module 2 contains a control and monitoring console with the ability to connect the main and backup lines of interface 26 to it, for example C2000M version 02, a power connector 27 is connected to the console 26, a control and indication unit is connected to the console 26 with the ability to connect the main and backup lines of interface 28 to it, for example C2000-BKI (2xRS-485). A power connector 29 is connected to the unit 28, an interface connector 30 is connected to the main line of the unit 28, and connector 31 is connected to the backup line of the unit 28. A signal and trigger unit 32, for example C2000-SP1, is also connected to the main line of the console 26. An interface converter with a USB connector 33, for example C2000-USB, is connected to the backup line of the interface of the remote control 26, wherein the power supply from the remote control 26 is connected to the converter 33 and the unit 28, and the power supply of the unit 32 is connected from the converter 33. In this case, the first output of the unit 32 is connected to the signal lamp 34, its second output is connected to the signal lamp 35, and the third output is connected to the signal lamp 36, any lamps with an operating voltage of 24 V and a diameter of 16 mm, for example SQ0702-0058, can be used as signal lamps. The interface connector 37 is connected to the interface connector 38, and the interface connector 39 is connected to the interface connector 40.

The third module 3 contains a fire alarm control and receiving device with the ability to connect the main and backup lines of the interface 41 to it, for example Signal-10 (2xRS-485). From the first output of the device 41, the FIRE light board is connected via jumpers through the open and short circuit imitation connector 42, and from the second output, the OUTPUT light board is connected via jumpers through the open and short circuit imitation connector 43. Any light boards with an operating voltage of 24V, for example LUX-24, can be used as a light board. An alarm circuit with one manual fire alarm 44, for example IPR-513M, is connected to the first input of device 41, two automatic optical-electronic fire alarms 45, 46, for example DIP-31, are connected to its second input, and two automatic flame fire alarms 47, 48, for example Spektron-201, are connected to its third input. Interface connector 49 is connected to the backup line of device 41, interface connectors 50, 51 are connected in parallel to the main interface line of device 41, power connector 52 is connected to power supply unit 53, any power supply unit with an output voltage of 24 V and a current of at least 2 A, for example RIP-24 ver. 51, the power line of the device 41 is connected to the power supply 53, the power supply 53 is connected to the network power connector 54 through the switch 55, as a network power connector with a switch, for example, a power socket with an IEC320 C14 AC-08 switch can be used

For power and interface connectors, any laboratory socket with a contact diameter of 4 mm can be used; for jumpers, a flexible wire with a cross-section of 0.75 ^mm2 of the required length at both ends, having any laboratory plug with a diameter of 4 mm, is used.

Before starting work with the stand, it is necessary to install the modules on a hard surface and connect them together with latches, then connect the connectors in pairs: 9 and 39, 10 and 37, 8 and 30, 11 and 29, 40 and 49, 38 and 50, 31 and 51, 27 and 52. Apply 220 V power to connector 54, turn on switch 55 and check that all blocks are turned on on all three modules. If it is necessary to enter or change the configuration in the remote control, it is necessary to connect the personal computer via the USB connector in block 33 C2000-USB and put remote control 26 into programming mode by selecting this item in the menu of remote control 26. After loading the changes, it is necessary to exit the programming mode of remote control 26 and disconnect the personal computer from block 33 C2000-USB. If it is necessary to transport the stand, it is necessary to switch off the stand by pressing the switch key 55, disconnect the power cord by pulling the plug out of the power socket 54. Then disconnect the sockets: 9 and 39, 10 and 37, 8 and 30, 11 and 29, 40 and 49, 38 and 50, 31 and 51, 27 and 52 by removing the jumpers and sockets. After disconnecting all the jumpers, disconnect the latches and transport the modules by the handles.

The assembled stand operates in three modes:

1. Standby mode (all switched-on units and devices operate in normal mode)

If connected correctly and there are no factors simulating a fire or malfunctions, the units are registered in the control panel and transmit the information stored in their memory. At the same time, units 41 and 13 turn on the outputs responsible for the "Exit" light boards, and they are constantly lit. And unit 32 turns on the signal lamps 34, 35, 36, indicating the normal operation of the engineering equipment. There are no notifications about a malfunction, shutdown or fire on the display of control panel 26.

2. Fire mode (the presence of a fire factor that can be registered by the installed detectors)

To switch the stand to the fire mode, it is necessary to simulate fire factors for specific detectors, for example, for 16, 18 or 45, 46 by a single injection of a smoke simulator. For automatic addressable analog heat detectors 22, 24, it is necessary to produce a thermal effect, for example, with a household hair dryer. For flame detectors 47, 48, introduce an open flame source into the detector's operating zone at a distance of at least 10 cm, for example, using a household lighter. For manual fire detectors 21, 44, it is enough to press the button.

If a single detector is triggered (except for manual ones), the control panel will switch to the "Fire" mode, but will not give a command to the other units to turn on the notification and turn off the engineering systems indicated by signal lamps 34, 35, 36 (LIFT, ACS, SUPPLY VENTILATION), if the second detector is triggered in the same fire alarm control zone (FACS, graphically indicated on the stand) within no more than one minute, control panel 26 will switch to the "Fire 2" mode and give commands to turn off the engineering systems indicated by signal lamps 34, 35, 36 (LIFT, ACS, SUPPLY VENTILATION) (the lamps will turn off), and will also turn on the "Fire" light board of the corresponding module in the blinking mode.

After eliminating the fire factors, the fire alarm is reset using block 28 by pressing the corresponding button; the system switches to standby mode or to malfunction mode in the event of any malfunction.

3. "Fault" mode (disconnect one of the connectors or connect it crosswise, creating a short circuit)

To simulate a fault in the interface line and demonstrate the system operation in this mode, it is necessary to disconnect both jumpers in one of the interface connectors, for example, 39 (break mode) or switch them crosswise, for example 9 and 39 (short circuit mode), in case of a single fault the system should continue to operate, but display a message on the control panel 26 about the fault of the disconnected or shorted line. In this case, all units should continue to operate and, when a simulated fire factor appears, switch to the "Fire" mode. After the interface line is restored, the system will automatically restore operation on this line.

To simulate a fault in the two-wire communication line of controller 7, it is necessary to disconnect both jumpers from one connector, for example 17 imitation of a break or connect the jumpers crosswise imitation of a short circuit. In case of a single fault in the line in the break mode, controller 7 will continue to monitor all detectors, but will transmit a line break message to control panel 26. When a simulated fire factor appears, the system must switch to the "Fire" mode. When the connection is restored, the system will automatically restore operation on this line. In case of a single fault in the line in the short circuit (SC) mode, the line will automatically block the section with the SC with the nearest blocks 12, 19, 25, while the operability of the remaining detectors will not be impaired. When the fault in the line is eliminated, controller 7 will automatically restore operation on this line.

Thus, the proposed utility model allows, without being tied to a specific object, to demonstrate the operation of a fire alarm system, thereby not distracting employees from production.

In addition, the proposed stand demonstrates the operation of the system in accordance with current standards and rules. Allows you to clearly reproduce some malfunctions, as well as practice working with the system. Conduct theoretical and practical classes on studying various systems (the stand presents addressable and analog systems) and their capabilities.

Claims (1)

A portable fire alarm training stand consisting of three modules connected to each other by means of latches, equipped with interface and power connectors, connectors for simulating breaks and short circuits, wherein the first module contains a two-wire communication line controller with galvanic isolation with the ability to connect the main and backup interface lines to it, the first input of which is connected to the first input of the branching-isolating unit, a signal-triggering unit is connected to the second input of the branching-isolating unit, and the first addressable-analog smoke detector is connected to its third input, wherein the EXIT panel and the FIRE panel are connected to the signal-triggering unit via connectors for simulating breaks and short circuits, and the second addressable-analog smoke detector is connected to the addressable-analog smoke detector via a connector for simulating breaks and short circuits, which is connected to the first input of the branching-isolating unit, to the second input of which via a connector for simulating breaks and short circuits a manual addressable fire alarm is connected to the short circuit, and the first addressable analog heat alarm is connected to the third input, which is connected via an open and short circuit connector to the second automatic fire addressable analog heat alarm, which is connected via a branching and isolating unit to the second input of the two-wire communication line controller with galvanic isolation with the ability to connect the main and backup interface lines to it, wherein the second module contains a control and indication unit with the ability to connect the main and backup interface lines to it, connected to the control and monitoring panel with the ability to connect the main and backup interface lines to it, to which an interface converter with a USB port for connecting a personal computer and a signal-starting unit are also connected, to the outputs of which signal lamps are connected, wherein the third module contains a power supply unit to which a fire and security control and monitoring device is connected with the ability to connect the main and backup interface lines to it, to the outputs of which, in turn, an OUTPUT light panel and a panel are connected FIRE, and to the first input of which a manual fire alarm is connected, to the second input of which two automatic optical-electronic fire alarms are connected, to the third input two automatic flame fire alarms are connected, and the power supply is connected to the network power supply connector through a switch.