RU2818890C2 - Fire-fighting device with information on fire and extinguishing thereof - Google Patents

Abstract

FIELD: fire-fighting equipment.

SUBSTANCE: invention relates to fire safety and is intended to prevent ignition of hard and soft, mainly sheet materials during their cutting and processing, for example, during laser and plasma processing. Fire-fighting device with information on fire and its extinguishing contains at least one flame fixation sensor connected to the control unit, detectors, fire extinguishing means, machine power cut-off relay, wherein control unit has functions of pickup signal fixation, pickup signal time and stability analysis and control signal transmission to fire extinguishing means, machine power cutoff relay and detectors.

EFFECT: providing reliable and reliable information on ignition by reducing the probability of obtaining a false signal at the initial stage of ignition.

5 cl, 3 dwg

Description

The solution relates to the field of fire safety and fire prevention of hard and soft, mainly sheet materials during their cutting and processing (engraving). The device can be used primarily for laser and plasma processing, as well as milling and sawing.

The main risk when processing (sawing, cutting) sheet materials is the ignition of the material and its scraps in the working area of the machine used. The main disadvantage of the known technical solutions is the use of systems for removing combustion products through the use of air systems, which does not eliminate the stated risk of fire. And also the use of temperature sensors, the disadvantages of which are that at the time the sensors in the work area are triggered, the temperature at the site of the fire is already so high that it begins to cause damage. As well as false alarms during cutting and processing due to the fact that the temperature sensor cannot distinguish what is the heat source, namely the heat generated during cutting and processing, or the ignition and burning of the material. And the use of gas analyzers, which will give false alarms regardless of their number and synchronization due to the fact that during the cutting and processing process, smoke is released in the work area.

A device for removing gaseous and solid laser cutting products is known (patent RU 180 970, MPK V23K 26/142, V23K 26/16, V23K 26/38, patent holder Federal State Budgetary Institution of Science Institute of Problems of Mechanics named after A.Yu. Ishlinsky of the Russian Federation Academy of Sciences, priority dated 08/01/2017), which, for the removal of gaseous and solid laser cutting products, contains a set of parallel boxes placed under the material being processed, equipped with a means of pumping air out of them, and an additionally installed nozzle for alternately supplying pulses of compressed air into the boxes on their opposite side from the location of the air pumping means. Pulses of compressed air prevent gaseous and solid laser processing products from igniting under the influence of laser radiation, blowing away the resulting flame. Similar solutions for the use of pulsed and/or compressed air are available in devices according to RU patents No. 179869, 179866, 180968.

The main disadvantage is that these devices are designed only to prevent fire. If a fire occurs in the working area on the surface of the material, these devices will not be able to put out the flame or inform the operator about the danger, and if the cutting or processing site moves to another point, the fire will continue to spread. Also, installation of such a system is possible only during the production process of the machine. It is impossible to purchase and install such a system on a finished machine without interfering with its design.

A thermal linear detector is known (patent RU 124045. MPK N01H 37/76, Patentee Limited Liability Company "Scientific and Production Company "K7", priority 03/20/2012), containing at least one control section associated with the control panel thermal cable, consisting of two insulated conductors with insulation made of fusible polymer material connected to an electrical connector, with the possibility of short-circuiting the conductors when the insulation melts, and the remote ends of the conductors are closed in a circuit by an end-of-line resistor installed on a printed circuit board, connected to the conductors by soldering and equipped with an electrically insulating sealed housing , filled inside with a sealing mass.

The main disadvantage is that the model is built on thermal sensors. Under operating conditions of a laser machine, a thermal sensor will be able to detect a change in temperature in the working area only at the moment when the temperature at the combustion site is capable of causing damage to the equipment.

A device for early fire detection is known (patents RU 2703366, IPC G08B 17/117, patent holder Federal State Educational Institution of Higher Education "St. Petersburg University of the State Fire Service of the Ministry of the Russian Federation for Civil Defense, Emergencies and Disaster Relief", priority from 06/13/2018), which contains on the transmitting side a gas sensor, a matching amplifier, an analog-to-digital converter, a microprocessor, a light and sound alarm generator, a light alarm, a sound alarm, a shaper output, a modulating code shaper, a master oscillator, and a phase manipulator , power amplifier and transmitting antenna. On the receiving side, a device for receiving complex signals with phase shift keying contains a receiving antenna, a high-frequency amplifier, a local oscillator, a mixer, two low-pass filters, a PLL system, a 90° phase shifter, two multipliers, a phase detector, a recording unit, a carrier frequency meter, a meter Doppler frequency. Moreover, the invention provides measurement of the carrier and Doppler frequency of received signals with phase shift keying and determination of the mutual movement of the fire hazard object and the control tower. Technical solutions according to RU patents No. 2340002, 2427922, 2533299 have a similar design.

The technical solution is designed to provide information about a fire. Information about a fire is obtained through the use of gas analyzers, which makes it possible to record the moment of smoldering. However, as mentioned earlier, it is impossible to use a laser machine.

A known device for early fire detection (patent RU 2 537 804, IPC G08B 17/117, Patent holder JSC Avangard (RU), priority dated 05/07/2013), which contains sensors, matching amplifiers, analog-to-digital converters, a microprocessor, generator of light and sound alarm signals, light and sound signaling devices, output, modulation code generator, master oscillator, phase manipulator, power amplifier and transmitting antenna. A device for receiving complex signals with phase shift keying contains a receiving antenna, a high-frequency amplifier, a local oscillator, a mixer, a low-pass filter, a phase-locked loop system, a 90° phase shifter, a multiplier, a phase detector and a recording unit.

The main idea and main drawback of the above patents is the use of gas analyzers to detect fires. The disadvantage and impossibility of using a laser machine is that smoke is emitted in the working area during the processing process, due to which false alarms will occur, which will not make it possible to determine whether it is a fire or smoke emitted during the processing process.

The applicant sees the disadvantage of the known solutions as the impossibility of using these solutions in devices for processing sheet materials due to the peculiarities of the fixation methods or the complexity of installing the structure.

The objective of the technical solution is to create a device for detecting a fire, informing about a fire, and also ensuring the elimination of combustion in the processing of sheet materials, mainly during laser cutting.

The technical result is to obtain reliable and reliable information about fire when processing sheet materials on machines, by reducing the likelihood of receiving a false signal at the initial stage of fire, as well as preventing fire when processing sheet materials. As well as expanding the functionality of applications for sheet metal processing machines.

The stated task and the specified technical result are achieved by the fact that the fire-fighting device for sheet material processing machines with information about a fire and its extinguishing contains at least one flame fixation sensor, detectors, a fire extinguishing agent, a machine power cut-off relay connected to the control unit, wherein the control unit is configured to detect the start of a fire based on a signal from the flame sensor, begin timing and analyze the duration of the signal from the flame fixation sensor at successive time stages, upon reaching the set time stages, carry out sequential transmission of the control signal to the detectors, to the power off relay machine, to the fire extinguishing means, and if there is no signal from the flame fixation sensor for a certain period of time at any of the set time stages, reset the time countdown and begin re-counting the time and time-based analysis of the signal from the flame fixation sensor. The device may additionally contain a control panel with the functions of turning off the power of the device, rebooting the device, and forcing the extinguishing agent to operate. The sensors in the device can be grouped and connected, for example, in parallel. Signal analysis in the control unit is delimited by the time of receipt of signals from sensors for transmitting control signals to devices. Light and/or noise alarms, and/or visual warning and/or information devices, and/or mechanical warning devices are used as detectors.

Thus, installation/supply of sheet material processing machines with the proposed technical solution ensures the achievement of a technical result by detecting the start of a fire with flame sensors, transmitting information to the control unit for analysis and issuing, if necessary, control signals to the device elements. False alarms are eliminated due to the function of analyzing the time intervals of incoming signals from the sensor(s) built into the control unit. The supply of detectors allows for a timely response to the potential danger of fire in the machine used, and fire extinguishing means prevent the spread of fire in the machine.

The device is illustrated by drawings, where in Fig. 1 shows a general view of the proposed technical solution; in fig. 2 and 3 show installation options on machines to describe the operating principle.

A fire safety device for sheet material processing machines with information about a fire and its extinguishing contains at least one flame detection sensor 1. Sensor 1 is connected to control unit 2. Control unit 2 implements the functions of recording the signal from sensor 1, analyzing the signal from sensor 1 and transmitting a control signal to the elements of the device. The signal analysis in the control unit can be carried out, for example, according to the conditional modes “attention”, “danger”, “alarm”, “fire”, “extinguishing”, “reset”, conditionally delimited in time for the transmission of control signals. Connected to the control unit 2 are fire extinguishing means 3, power cut-off relay 4 of the machine and detectors 5, which can be, for example, in the form of light and/or noise alarms, and/or visual warning and/or information devices, and/or mechanical alert. The sensors 1 in the device can, if necessary, be grouped and connected into groups 6, for example with a parallel connection in the group. The device may additionally contain a control panel with the functions of turning off the power of the device, rebooting the device, and forcing the activation of the extinguishing agent 3.

Let's consider an example of installation and operation of the device on an operating laser machine when cutting sheet material. The design of the laser machine and safety precautions when working with it require working with the machine cover closed. Thus, the view of the surface of the sheet material being processed is impaired. The vast majority of laser machines are not equipped with fire warning and fire extinguishing functions. The operator may not physically see the moment of fire, which periodically occurs in practice when working on laser machines. The device is mounted as follows. Control unit 2 is installed on the machine in a structurally convenient place (inside or outside). A sensor 1 is connected to it, which is physically located in the working area so that it can detect a fire, mainly in the upper zone of the machine above the processed surface of the sheet material (depending on the individual design of the machine). Also, detectors 5 are connected to control unit 2. Light and noise detectors with wired signal transmission can be located on the machine itself or near it. Operator computer monitors, mobile phones in the case of transmitting wireless signals from control unit 2, any device for issuing a light or sound signal can be used as detectors of type 2 visual warning devices. The power cut-off relay of the machine 4 is positioned in such a way that when a signal is supplied from the control unit 2, the power of the machine is turned off. A fire extinguishing agent 3, for example a carbon dioxide cylinder with a solenoid valve, is connected to control unit 2 to activate control unit 2 after analyzing information from sensor 1.

When the material is being cut and a fire starts and a flame appears, sensor 1 receives a signal and sends it to control unit 2. Control unit 2 analyzes the information according to the algorithm, for example, by the duration of the fire signal from sensor 1. When sensor 1 begins to detect a fire/flame and transmit a signal to control unit 2, control unit 2 immediately switches to the “attention” mode and begins counting the time of signal receipt to implement the algorithm and issue control signals to the device components. When a signal(s) is received from sensor 1 within 5 seconds, control unit 2 goes into “danger” mode. In this mode, detectors are activated to alert the operator of a potential fire. If the operator fails to take action within 15 seconds, the control unit goes into “alarm” mode. In this mode, detectors are activated to notify others, confirming a fire. If the operator fails to take action at 25 seconds, control unit 2 switches to the “fire” mode and turns off the power to the machine by sending a control signal to power cut-off relay 4. At 30 seconds, control unit 2 switches to the “extinguishing” mode and issues a control signal to the fire extinguishing agent 3. If the signal from sensor 1 is not received for 5 seconds, at any stage control unit 2 goes into the “reset” mode, and the countdown of the algorithm’s operating time starts again.

When the technical solution is equipped with an additional control panel 7, the operator has the opportunity to extinguish a fire when the detectors are triggered, thanks to the functions of turning off the power of the device, rebooting the device or forcing the start of the extinguishing agent 3.

For machines with a large working field/table, it is advisable to install more than one sensor 1 to increase the reliability of reporting a fire and to cover the area of information recording by sensor 1 of the entire working field/table. In this case, the sensors are grouped and connected in a parallel circuit, which makes it possible to start the operating algorithm of control unit 2 when even one sensor is triggered.

For some machines, it is advisable to place sensor 1 and/or a group of sensors additionally under the sheet materials being processed, that is, in the lower zone of the machine with scraps. In this case, groups of sensors 6 are connected to control unit 2 through different inputs. For the lower sensor 1 or a group of 6 sensors 1, it is possible to use a different algorithm for the time of implementation of the modes, different from that described in the example above, since combustion processes occur at different time intervals in the lower zone of the machine.

The given examples of implementation and operation of the device on sheet material processing machines, as well as application practice, confirm the achievement of a technical result, namely obtaining reliable and reliable information about fire when processing sheet materials on machines, reducing the likelihood of receiving a false signal at the initial stage of fire through analysis signals in time and stability of their receipt from sensors. As well as expanding the functionality of applications for sheet material processing machines, as well as the availability of fire extinguishing functions when processing sheet materials.

The proposed technical solution can be manufactured using known and available materials used in this branch of engineering and technology. Currently, technical documentation has been developed, a prototype has been manufactured and tested in operation, confirming the achievement of the specified technical result.

Many other embodiments of the claimed solution will be obvious to one skilled in the art and are not limited to the specific disclosure of the embodiment, and other embodiments, taking into account the theory of equivalents, may be included within the scope of the proposed claims. The functionality or features of the device may be implemented in other embodiments using one or more devices that are not indicated herein as having such functionality or features.

Claims (5)

1. A fire-fighting device for sheet material processing machines with information about a fire and its extinguishing, characterized in that it contains at least one flame fixation sensor, detectors, a fire extinguishing agent, a machine power cut-off relay, connected to a control unit, wherein the control unit is made with the ability to detect the start of a fire using a signal from the flame sensor, start timing and analyze the duration of the signal from the flame fixation sensor at successive time stages, upon reaching the established time stages, carry out sequential transmission of the control signal to the detectors, to the machine power off relay, to the extinguishing agent fire, and if there is no signal from the flame fixation sensor for a certain period of time at any of the set time stages, reset the time countdown and begin re-counting the time and time-based analysis of the signal from the flame fixation sensor. 2. The device according to claim 1, characterized in that it may additionally contain a control panel with the functions of turning off the power of the device, rebooting the device, and forcing the fire extinguishing agent. 3. The device according to claim 1, characterized in that the sensors can be grouped. 4. The device according to claim 2, characterized in that the sensors in the group are connected in parallel. 5. The device according to claim 1, characterized in that light and/or noise alarms, and/or visual warning and/or information devices, and/or mechanical warning devices are used as detectors.