RU2851393C1 - Fire extinguishing trainer - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: invention is used for training and practising the use of primary fire extinguishing equipment. The fire extinguishing trainer contains a fire extinguisher simulator, the body of which is equipped with a shut-off and release device, a seal and a pin, and a first switch on the shut-off and release device, a fire simulator, and a fabric sheet. The spray nozzle of the fire extinguisher simulator hose contains an ultrasonic emitter and a light source. Inside the fire extinguisher there is a battery and the first control unit. The fire simulator contains a second switch, a second control unit, lights simulating fire, and sensors for receiving signals from the ultrasonic emitter and light sensors. The first control unit is connected to the first switch, the battery, and the ultrasonic emitter. The second control unit is connected to the second switch, the sensors that receive signals from the ultrasonic emitter, the lights on the surface of the simulator's body, and the fire source illumination sensors.

EFFECT: increased mobility and effectiveness of practical training for citizens in the use of primary fire extinguishing equipment.

6 cl, 6 dwg

Description

The invention relates to fire safety and is used for training and practicing actions for the use of primary fire extinguishing means.

A practical training device is known, designed in the form of an empty fire extinguisher, comprising a housing, into the neck of which a shut-off and release device is screwed with a siphon tube located in the cavity of the housing, and with an attached hose. The housing is designed to be filled with water to 0.6 to 0.8 of its volume. In the upper part of the housing, an opening is made, equipped with a valve configured to connect a hand pump, the hose is configured to connect to an attachment in the form of a nozzle for dividing a single flow into multiple streams. Lever - RU 232760 U1, 2025.

The disadvantage of this simulator is the difficulty of its maintenance; this simulator does not provide the skill of working with a fire source.

A mobile training device for training in the use of primary fire extinguishing means is known, consisting of an air duct located in the upper part of the product, an evaporator, on the side of which a light emitter is installed inside the mobile training device, also in the upper part there is an upper temperature sensor, a distance sensor, a smoke amount regulator, a charging connector, a housing on the outer part of which a power button is located, a temperature sensor, a sound source, a temperature ring, a battery housing, an electronics housing, an air flow sensor, a battery charge and discharge controller, a step-down converter and an inverter are installed as energy converters, a power element configured to supply power to the entire device, a filler neck and a tank configured to store liquid for smoke generation, a liquid pump configured to supply liquid to the evaporator, a supply hose, a relay module configured to send signals to turn on and off the evaporator, the light emitter and the liquid pump, a wireless communication module configured to receive and transmit a signal from a remote control device, a control and signal processing board configured to receive and send signals to the upper temperature sensor, distance sensor, smoke quantity regulator, relay module, temperature sensor, sound source, air flow sensor - RU 220318 U1, 2023.

The disadvantage of this simulator is the complexity of the fire simulator design and the limitations of indoor use due to the use of a carbon dioxide fire extinguisher.

The closest analogue is a training complex for practicing actions on the use of fire extinguishers, consisting of a fire extinguisher simulator, including a fire extinguisher body with a shut-off and starting device and a pressure gauge, while a steam generator is connected to the fire extinguisher body, including a heating element and a container filled with a substance for generating steam, connected to a power supply and a mixer in the form of a jet pump, which, in turn, is connected to the shut-off and starting mechanism of the fire extinguisher body, used to mix steam and air under pressure in the body of the fire extinguisher simulator and feed them through a tube for releasing a stream of steam-air mixture, simulating the release of a fire extinguishing agent; A fire simulation and indication unit is installed in a moisture-resistant housing with openings for air intake by fans and a removable front panel made in the form of a fine-mesh net to simulate a fire and record the correct execution of the exercise. The unit includes optical-electronic smoke detectors, remote optical alarm devices, and light and sound alarms; the elements of the fire simulation and indication unit are connected to a control device for control according to a pre-selected algorithm; to supply power to the power supply unit, which supplies the specified voltage to the steam generator, and the control device, they are connected to an independent power supply – RU 2773813 C1, 2022.

The disadvantages of the prototype are its complex design, massiveness and lack of mobility.

The technical problem solved by this invention is to simplify the design, reduce weight and dimensions, and ensure mobility. Furthermore, the invention improves the effectiveness of practical training for citizens in the use of primary fire extinguishing equipment (fire extinguishers and felt mats), and expands the range of mobile training simulators.

This problem is solved in a fire extinguishing simulator containing a simulated fire extinguisher, the body of which is equipped with a shut-off and release device, a seal and a pin, a first switch on the shut-off and release device, and a hose at its outlet. The nozzle of the hose contains an ultrasonic emitter and a light source to indicate the direction of the ultrasonic emitter's radiation. The fire extinguisher contains a battery and a first control unit.

The fire simulator contains a second switch and a second control unit. The simulator is equipped with two or more fire-simulating lights evenly spaced across the entire surface area of the housing, and a corresponding number of ultrasonic signal-receiving sensors; at least two are located on the housing surface. light sensors, evenly distributed across the entire surface area of the housing, along its edges. The first control unit is connected to the first switch, the battery, and the ultrasonic emitter, the second control unit is connected to the second switch, sensors for receiving signals from the ultrasound emitter, lights on the surface of the simulator body, and sensors for detecting the illumination of the fire source, The simulator is equipped with a felt mat - a fabric sheet, the dimensions of which ensure complete coverage of the fire simulator.

The use of specific versions of the simulator will allow it to be improved for greater clarity and efficiency of the fire extinguishing process:

- sensors The illumination of the fire simulator is made in the form of a photo relay;

- at the top of the fire simulator body there is an opening with decorative material attached next to it, simulating a flame, while a fan is located inside the simulator body;

- a battery is located inside the fire simulator housing;

- the body of the fire extinguisher simulator contains a battery charging indicator, connected via an additional third switch to the fire extinguisher battery;

- a speaker is built into the body of the fire extinguisher simulator to simulate the sound of a working fire extinguisher, connected to the first control unit.

Fig. 1 shows a simulator of a fire extinguisher simulator, Fig. 2 - a simulator of a fire source, Fig. 3 - an improved version of a simulator of a fire extinguisher, Fig. 4 - an improved version of a fire source with a visual imitation of a flame on the simulator, Fig. 5 - a block diagram of the simulator control, Fig. 6 - a block diagram of the improved simulator control.

The simulator fire extinguisher of the training device according to Fig. 1 comprises a fire extinguisher 1 with a seal and a pin, a first control unit 2, a first switch 3 on a shut-off and starting device 4 with a hose 5 at the outlet of the shut-off and starting device 4. The spray nozzle 6 of the hose 5 contains an ultrasonic emitter 7, a light source in the nozzle of the fire extinguisher 17 (a flashlight). Inside the fire extinguisher 1 there is a battery 8, a sound source (speaker) 22, the first control unit 2. On the body of the fire extinguisher 1, an indicator 9 for charging the battery 8 can be located, connected through an additional third switch 10 to the battery 8 of the fire extinguisher 1. This indicator unit informs about the charge state of the battery 8 and the need for its timely recharging. The third switch 10 allows saving the electric power of the battery 8 while the simulator fire extinguisher 1 is not in use. The first control unit 2 is connected to the first switch 3, battery 8 and ultrasonic emitter 7.

The fire simulator shown in Fig. 2 comprises a second switch 12 on its housing 11, a second control unit 13, and two or more lights 14 on the surface of the housing 11, simulating a fire. The lights 14 are uniformly distributed over the surface of the housing, and they correspond to a number of sensors 15 for receiving a signal from the ultrasonic emitter 7. The surface of the housing 11 also contains at least two illumination sensors 16—photo relays—uniformly distributed over the entire surface of the housing 11, along its edges.

The second control unit 13 is connected to the second switch 12, sensors 15 for receiving a signal from the ultrasound emitter 7, lights 14 on the surface of the housing 11, and illumination sensors 16 (photo relay) of the fire source.

The simulator is equipped with a felt mat (not shown) - a fabric sheet, the dimensions of which ensure complete coverage of the fire simulator.

The operation of the simulator is illustrated by the block diagram in Fig. 5 and is carried out as follows.

Before the start of the lesson, the teacher puts the fire extinguisher simulator 1 into working order: the third switch 10, connected to the fire extinguisher battery 8, is turned on, which activates the battery 8 and the first control unit 2.

The second switch 12 from the external power supply switches on the fire simulator, which starts the second control unit 13. On the housing 11 of the fire simulator, the lights 14 (two lights are shown in Fig. 2) simulating fire light up, the sensors 15 for receiving the signal from the ultrasound emitter 7 and the light sensors 16 (photo relay) are switched on.

The operator brings the fire extinguisher simulator 1 into a combat state: removes the seal, extracts the pin, turns on the first switch 3 on the shut-off and starting device 4, through the first control unit 2, the ultrasonic emitter 7, located inside the spray nozzle 6 of the hose 5, and also turns on the light source to indicate the direction of propagation of the radiation of the ultrasonic emitter 7 - a lantern 17, located in the nozzle 6 of the hose 5 of the fire extinguisher

The operator directs the nozzle 6 of the fire extinguisher 1 towards the source of the fire: in turn towards each lantern 14 simulating the fire.

The signal from ultrasonic emitter 7 is received by a corresponding signal receiving sensor 15 on the surface of housing 11 of the fire simulator, located in close proximity to flashlight 14, to which the signal from ultrasonic emitter 7 is directed. The operator sets the exposure time to, say, 3-4 seconds from a distance of, say, 1-1.5 meters. After this time, the corresponding flashlight 14 switches off, indicating that part of the fire has been extinguished.

The fire suppression process for other parts of the fire is similar to the one described above. Once all parts have extinguished, the fire is considered extinguished.

The simulator assumes the use of an alternative method for extinguishing fire: instead of a simulated fire extinguisher 1, the use of felt - a fabric cloth, the dimensions of which ensure complete coverage of the body 11 of the simulated fire source.

In this case, the fire extinguisher simulator 1 is not activated.

The operator, through the second switch 12 of the fire simulator, connects the second control unit 13 to the external network, which sends a signal to turn on the lights 14 simulating fire, and the light sensors (photo relay) 16.

The operator takes the felt, approaches the fire simulator and completely covers its body 11 with the felt, after which the photo relay 16 records the absence of light, the information is transmitted to the second control unit 13, which turns off the lights 14, which clearly demonstrates the extinguishing of the fire.

It is possible to use a more advanced and complex version of the simulator with a visual simulation of a flame on a fire simulator.

This variant, shown in Fig. 3, differs from the first in that an opening 18 is made at the top of the housing 11 of the fire source simulator with a decorative material 19 attached nearby, simulating a flame, and a fan 20 is located inside the housing 11. A battery 21, located inside the housing 11 of the fire source simulator, serves to ensure uninterrupted operation of the fire source in conditions where it is impossible to use a standard electrical network.

The spray nozzle 6 of the hose 5 of the fire extinguisher simulator 1 contains a light source – a lantern 17 for indicating the direction of propagation of the radiation of the ultrasound emitter 7.

A sound source, a speaker 22, may be built into the body of the fire extinguisher simulator 1 to simulate the sound of the operating fire extinguisher 1.

The process of extinguishing the fire source in this improved version is illustrated by the block diagram in Fig. 6 and is carried out as follows.

Before the start of the lesson, the teacher puts the fire extinguisher simulator 1 into working order: the third switch 10 is turned on, which activates the battery 8, the battery charge indicator 9 and the first control unit 2.

With the second switch 12, the teacher turns on the fire source simulator, which starts the second control unit 13, which turns on the fan 20, which through the opening 18 at the top of the housing 11 creates a flow of air to act on the fixed decorative material 19, simulating a flame, after which the lights 14 on the housing 11 of the fire source light up, the sensors 15 for receiving the ultrasonic signal and the light sensors - photo relay 16 are turned on.

The operator brings the fire extinguisher simulator 1 into a combat state: removes the seal, extracts the pin, turns on the first switch 3 on the locking and starting mechanism 4 through the first control unit 2, the ultrasound emitter 7, located inside the spray nozzle 6 of the hose 5, and also turns on the light source to indicate the direction of propagation of the radiation of the ultrasound emitter 7 - a lantern 17, located in the nozzle 6 of the hose 5 of the fire extinguisher 1.

The operator directs the nozzle 6 of the fire extinguisher 1 towards the source of the fire: in turn towards each lantern 14 simulating the fire.

The signal from the ultrasonic emitter 7 is received by the corresponding signal receiving sensor 15 on the surface of the fire simulator housing 11. The sensors 15 are located either on the flashlight 14 or in close proximity to the corresponding flashlight 14, toward which the radiation from the ultrasonic emitter 7 is directed. The duration of exposure is set by the operator, for example, 3-4 seconds, from a distance of, say, 1-1.5 meters.

After this time, the second control unit 13 switches off the corresponding lamp 14, which indicates that part of the fire has been eliminated.

The process of extinguishing fire for other parts of the fire is similar to the one given.

After the last lamp 14 is switched off, fan 20 switches off and the material falls down, which indicates that the fire has been completely eliminated.

To extinguish a fire using felt, as in the first option, the fire extinguisher simulator 1 is not used.

The operator, through the second switch 12 of the fire simulator, connects the second control unit 13 to the external network, which sends a signal to turn on the lights 14 simulating fire, and the light sensors (photo relay) 16.

At the same time, a signal is sent from the second control unit 13 to turn on the fan 20 inside the housing 11 of the fire simulator, which, through the opening 18 at the top of the housing 11, creates a flow of air to act on the fixed decorative material 19, simulating a flame.

The operator takes the felt, approaches the simulated fire source, and completely covers the fire body 11 with the felt. Once the fire is completely covered with the felt, photo relay 16 detects the loss of light. This information is transmitted to the second control unit 13, which turns off lights 14 and fan 20, clearly demonstrating the fire has been extinguished.

The proposed fire extinguishing simulator, despite its relatively simple design, has compact dimensions and weight, ensuring its mobility. Furthermore, the invention improves the effectiveness of practical training for citizens in the use of primary fire extinguishing equipment (fire extinguisher and felt mat), and expands the range of mobile simulators.

Claims (6)

1. A fire extinguishing simulator comprising a fire extinguisher simulator, the body of which is made with a shut-off and starting device, with a seal and a pin, with a first switch on the shut-off and starting device with a hose at its outlet, a fire simulator, a control unit, the inputs and outputs of which are connected to the inputs and outputs of the elements and mechanisms of the simulator, characterized in that the spray nozzle of the hose of the fire extinguisher simulator contains an ultrasonic emitter and a light source for indicating the direction of propagation of the radiation of the ultrasonic emitter, a battery and a first control unit are contained inside the fire extinguisher, the fire simulator contains a second switch on the body, a second control unit, the simulator is equipped with two or more lights on the surface of its body, simulating fire, evenly distributed over the entire surface area of the body, and an appropriate number of sensors for receiving a signal from the ultrasonic emitter, on the surface of the body there are at least two light sensors, evenly distributed over the entire surface area of the body along its edges, the first control unit is connected to the first switch, the battery and the ultrasonic emitter, the second control unit is connected to the second switch, sensors for receiving signals from the ultrasound emitter, lights on the surface of the simulator body and sensors for detecting the illumination of the fire source, the simulator is equipped with a felt mat - a fabric sheet, the dimensions of which ensure complete coverage of the fire source simulator. 2. The simulator according to paragraph 1, characterized in that the illumination sensors of the fire source simulator are made in the form of a photo relay. 3. The simulator according to paragraph 1, characterized in that at the top of the housing of the fire source simulator there is an opening with decorative material attached nearby, simulating a flame, while a fan is located inside the housing of the simulator. 4. The simulator according to paragraph 1, characterized in that a battery is located inside the housing of the fire simulator. 5. The simulator according to paragraph 1, characterized in that the body of the fire extinguisher simulator contains a battery charge indicator connected via an additional third switch to the fire extinguisher battery. 6. The simulator according to paragraph 1, characterized in that a speaker for simulating the sound of an operating fire extinguisher is built into the body of the fire extinguisher simulator, connected to the first control unit.