RU186673U1 - PERSONALIZED DEVICE FOR INFORMATION SUPPORT OF A GAS WATER PROTECTOR - Google Patents

Abstract

The utility model relates to information support devices for making managerial decisions of a gas smoke protector, is intended for sharing with breathing apparatus, and can be used when working with gas and smoke protection units in fires and in dealing with emergency situations, mainly at critical facilities. A personalized device for information support of a gas fumesprotector, intended for use with a breathing apparatus, on which a pressure detection and indication system is located, comprising a data collection and transmission unit configured to interact via wireless communication channels with a pressure detection and indication system, an information indicator comprises a housing with a fastening element on the user's wrist in the form of a bracelet in which a printed circuit board is installed on which the process p with an integrated personal mathematical model of the user’s breathing mixture consumption, connected to a power supply unit, a data acquisition and transmission unit, and an information indicator. Effect: increasing the safety of a gas defender when working in an environment unsuitable for breathing and with a limited time.

Description

The utility model relates to information support devices for making managerial decisions of a gas smoke protector, is intended for sharing with breathing apparatus, and can be used when working with gas and smoke protection units in fires and in dealing with emergency situations, mainly at critical facilities.

Firefighters often have to work in difficult conditions with a risk to life, for example, in subway tunnels, hazardous industrial buildings and structures, at critical facilities. In all cases, for working under such conditions, gas fumes are equipped with personal protective equipment for respiratory and visual organs, in other words, breathing apparatus in compressed air (in almost 90% of cases of extinguishing a fire). In connection with the development of information and information technology, devices for collecting and transmitting data are introduced into the design of breathing apparatus. All these devices belong to telemetric monitoring systems. As a rule, such devices play the role of providing a personal safety system for gas smoke defenders, for example, they have an “alarm button”, an alarm (sound notification, light notification), etc.

The “Rescue Beacon” complex is known (Operation Manual SPNK.425624.013 RE Rev. 1.3, 2011) containing a mobile transceiver station and individual transmitters (not more than five) intended for sharing with breathing apparatus, which contain a pressure detection and indication system (SOID). SOID is installed by the manufacturer on the breathing apparatus. An individual transmitter supplies power to the SOID. SOID determines the current pressure P in the cylinder of the breathing apparatus, calculates the time T remaining until the end of the respiratory mixture. The values are transmitted to the mobile transceiver station, where they are displayed on digital indicators. The operator of the mobile transceiver station receives the specified information, on the basis of which he makes management decisions and transmits commands to the personnel of the gas and smoke protection service units via radio communication.

The disadvantages of this complex are that the individual transmitter is mounted either on the lifebelt, or on military clothing, or on the straps of the breathing apparatus, the gas defender needs to make additional movements in order to read graphic information from it. The determination of predicted safety parameters is based on a deterministic approach, i.e. data calculations are based on average values of pulmonary ventilation that do not take into account the individuality of each gas defender in the unit and the type of work performed. The personnel of the links receives information about the safety parameters and commands from the operator, which reduces the speed of response to changing situations under difficult fire fighting conditions or emergency response.

The well-known "Information support system for the management of gas and smoke protection services during the elimination of fires in buildings" (Patent for the invention of the Russian Federation No. 260,5682, IPC G08B 25/00, 2016), adopted as a prototype, which includes addressable measuring instruments for absolute temperature values in the lining layer the location of the fire and the absolute pressure values in the cylinders of the respiratory apparatus of gas fumes. The system is equipped with a module that allows you to calculate the maximum permissible values of the parameters, as well as a module that allows you to get the predicted values of the parameters. The software is designed for digital processing of measurement results and display on the application interface of the following information: the place of a fire on the floor plan of the building, the time required to eliminate combustion in the fire chamber, the remaining time of the protective action of breathing apparatus, the astronomical time for issuing a command to exit unsuitable for breathing the fire environment, the time required to supply the extinguishing agent at which the fire will be eliminated.

The disadvantage of the above system is its complexity, as well as the fact that its operation is based on a deterministic approach to simulated security parameters, i.e. data calculations are based on average values of parameters that do not take into account the individuality of each gas defender in the link. The system monitors the pressure in the cylinder of the breathing apparatus and the mobile state of the gas smoke defenders, however, the determination of the predicted safety parameters based on a deterministic approach may not be sufficient for solving problems associated with the work of gas smoke defenders under difficult fire fighting conditions or liquidating the consequences of emergency situations, as a result of long working hours and heterogeneous range of tasks.

The technical result of the claimed utility model is to increase the level of safety of a gas defender when working in an environment unsuitable for breathing and for a limited time, which is provided by increasing the accuracy of determining the predicted safety parameters taking into account the individuality of each gas defender and the heterogeneity of the tasks performed, while ensuring ease of use.

The technical result is achieved by the fact that a personalized device for information support of a gas defender intended for sharing with a breathing apparatus, on which a pressure detection and indication system is located, comprising a data collection and transmission unit configured to interact via wireless communication channels with a pressure detection and indication system , the information indicator, contains a housing with a fastening element on the wrist of the user in the form of a bracelet in which a chat board on which a processor with an integrated personal mathematical model of the user’s respiratory mixture consumption is connected to the power supply unit, the data collection and transmission unit and the information indicator.

The essence of the utility model is illustrated by drawings.

In FIG. Figure 1 shows a personalized device for information support of a gas smoke defender (appearance).

In FIG. Figure 2 shows a diagram of a personalized device for information support of a gas smoke protector.

The personalized device for information support of the gas fume protector contains a housing 1 with a fastening element on the user's wrist in the form of a bracelet 2, an information indicator 3 in the form of a screen is placed on the outer surface of the housing 1. A printed circuit board 4 is installed in the housing, on which a processor 7 is located connected to a data acquisition and transfer unit 5, with a power supply unit with an information indicator 3. Data collection and transmission unit 5 is configured to interact via wireless channels with a breathing apparatus pressure detection and indication system . The processor 7 integrates a mathematical model of the consumption of the respiratory mixture of the user.

The device operates as follows.

Preliminarily, a personal mathematical model of the user’s respiratory mixture consumption is integrated into the processor 7 of a personalized device for information support of a gas smoke protector. According to the results of the study, it was found that the deviation of the real value of the respiratory mixture consumption of individual experiment participants from the average regulated is 25-45%, depending on the physical preparation and personal characteristics of the body, both in the direction of increasing the consumption of the respiratory mixture, and in the direction of decreasing, as well as the deviation of the actual consumption of the respiratory mixture from the average regulated depending on the spectrum and type of work performed is up to 40%. The data for a personal mathematical model of the user’s breathing mixture consumption is obtained during training at training facilities to prepare fire fighting personnel. Using a personal mathematical model of the user’s respiratory mixture consumption (gas fumes) allows to take into account all the risks of the likelihood of destructive events for successful and safe work in an environment unsuitable for breathing in a limited time. The personal mathematical model is built on the basis of the probabilistic method of modeling the consumption of the respiratory mixture when working in breathing apparatus on compressed air and using the results of observation of the real values of air consumption when the user is working in the breathing apparatus. This method allows you to obtain the necessary parameters of the normal distribution of the air supply, as well as to determine the intervals of the air supply at a given confidence probability, which allows you to take into account the whole complex of factors affecting the process, included in the confidence interval with a given probability, including the presence and significant influence of randomness , allows you to adjust the simulation results based on observations of the simulated process in real time.

The user fastens a personalized device for information support of the gas fume protector on his hand, over protective clothing in the wrist. This arrangement of the device provides the user with the ability to continuously monitor information on the device screen (information indicator 3). The signals from the pressure determination and indication system about the results of measuring the absolute values of the pressure of the balloon of the breathing apparatus are transmitted via wireless channels (radio channel, wi-fi connections) to the data collection and transmission unit 5. An information database is generated in the data collection and transmission unit 5 current values of monitored safety parameters (pressure P, time T) during various operations. Next, the received and processed information goes to processor 7. In processor 7, using the personalized mathematical model of the user’s breathing mixture consumption, the values of the monitored safety parameters are calculated in real time:

- the current value of the pressure of the remaining air in the cylinder of the breathing apparatus, atm .;

- the predicted value of the time interval before giving the command "to exit the environment unsuitable for breathing", min;

- risk level, rel. units

Monitoring the current pressure value of the remaining air in the cylinder of the breathing apparatus allows the gas defender to adjust its actions taking into account the specifics of the consumption of the respiratory mixture, increases the safety level of the gas defender when working in an environment unsuitable for breathing and for a limited time. Monitoring changes in the predicted value of the time interval remaining until the command “to exit the breathless environment” provides the ability to determine the amount of work that a gas defender can perform, contributes to the successful and safe conduct of work in a breathable environment in a limited time. The values of the acceptable and critical risk level are determined depending on the conditions for the implementation of fire extinguishing studies on the specifics of the consumption of the respiratory mixture and the conditions for the exposure of hazardous fire factors to the gas defender when performing work in a non-breathing environment. Monitoring the level of risk allows a gas defender to compare the planned scope of work with the current one.

Data from the processor 7 is fed to the information indicator 3 in the form of a screen, and is clearly accessible to the gas defender (user). The current value of the pressure of the remaining air in the cylinder of the breathing apparatus and the predicted value of the time until the command “to exit the breathless environment” is transmitted in the form of digital values, the risk level in the form of a color background. The screen is equipped with a color risk indicator: green background color - the level of risk of failure in the implementation of the planned amount of work is within an acceptable level; yellow color from acceptable to critical; and red color - the value of the risk level below the critical. The uninterrupted autonomous operation of a personalized device for information support of a gas fume protector is provided by a power supply 6, which can be performed, for example, in the form of a battery.

Thus, the claimed utility model provides an increase in the safety level of the gas defender when working in an environment unsuitable for breathing and for a limited time.

Claims (1)

A personalized device for information support of a gas defender intended for sharing with a breathing apparatus, on which a pressure detection and indication system is located, comprising a data collection and transmission unit configured to interact via wireless communication channels with a pressure detection and indication system, an information indicator, characterized in that contains a housing with a fastening element on the wrist of the user in the form of a bracelet in which a printed circuit board is installed, on which Oh, there is a processor with an integrated personal mathematical model of the user’s respiratory mixture consumption, connected to a power supply unit, a data collection and transmission unit, and an information indicator.

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