RU2769630C1 - Method for assessing risks to the health and life of employees, determining risk management measures, and apparatus for implementing the method - Google Patents

Abstract

FIELD: computing.SUBSTANCE: method for assessing risks to the health and life of employees, determining risk management measures, and apparatus for implementing the method relate to the providing health care and labour safety and can be used in the field of labour relations, industrial, fire and environmental safety, in preventive medicine, including during epidemics or pandemics caused by various infections and first-isolated, as well as previously known, pathogenic biological agents, in all types of manufacture, in any field (branch) of the national economy, including the food industry (food product safety management system regarding assessment of risks and selection of critical control points) at various levels: national, industrial, within the organization and at a separate workplace for identifying hazards, calculating the risk to the health and life of an employee in the course of their work for each of said hazards, accounting for the specifics of a particular enterprise.EFFECT: increase in the speed and effectiveness of the operational impact on the production environment (regardless of the level of competence of the labour safety specialist) for the purpose of preserving the health and life of labourers and the viability of production due to the method for assessing risks to the health and life of workers and the apparatus for implementation thereof providing a possibility of determining risk management measures in real time, calculating the risks based on the information from detection and measurement tools, notifying about said risks via notification tools, and working in advance by changing the state of the production environment through implementation tools, preventing the state of the environment of the serviced enterprise from falling below the average risk level; calculation and management of risks according to the method involves full automation of all stages, makes the method accessible, fast, eliminates errors caused by the human factor.1 cl, 1 dwg

Description

The method for assessing risks to the health and life of workers, determining risk management measures and the device for implementing the method relate to health protection and labor safety, and can be used in the field of labor relations, industrial, fire and environmental safety, in preventive medicine, including including during epidemics, pandemics caused by various infections and newly isolated pathogenic biological agents, as well as previously known ones, in production of any kind, in any area (industry) of the national economy, including the food industry (food safety management system, in risk assessment and selection of critical control points) at various levels: national, in the industry, in the organization and at a separate workplace, to identify hazards, calculate for each of them the risk to the health and life of an employee in the course of his work, taking into account the specifics of a particular enterprises.

The method and device are designed to:

- obtaining data (on hazards and risks) to inform workers about the risk of damage to health, in the form of visual information about the permissible maximum or minimum quantitative and (or) qualitative value of an indicator characterizing a particular environmental factor from the standpoint of its safety and (or) harmlessness to humans.

- clarification of the causal relationship between the state of health of workers and working conditions;

- substantiation of the required social protection of employees, including compensation for work in harmful and (or) dangerous working conditions;

- evaluating the effectiveness of measures to improve labor protection;

- taking preventive measures to protect the health of the employee;

- substantiation of the provisions of the employment contract on the obligations of the employer to provide the employee with the necessary personal protective equipment, establish an appropriate work and rest regime, as well as to provide other guarantees and compensations provided for by law.

- ensuring the safety of life and health, the possibility of carrying out labor activities during epidemics, pandemics caused by various infections and newly isolated pathogenic biological agents, as well as previously known ones.

In the technical solutions known from the prior art, the following technical solutions, as a rule, consider the solution of a technical problem that makes it possible to increase the efficiency of professional decisions in the field of labor protection, concerning either the health of workers, or the state of production facilities, or the safety of a specific production, and such decisions are made, after the incident.

где Iврз - средняя концентрация вещества в воздухе рабочей зоны, мг/м³;Дф - фактическое содержание вещества на коже, среднее за смену, мг/см²;V - объем дыхания взрослого человека за 1 ч работы средней тяжести (1,5 м³/ч);
t - время работы (6-8 ч);S - площадь кожного покрова человека (16120 см²);K - коэффициент проницаемости кожи (0,25);М - средняя масса тела человека, 70 кг, также рассчитывают допустимый суточный уровень экспозиции для операторов по установленной недействующей дозе в хроническом токсикологическом эксперименте (ДСУЭО, мг/кг), затем определяют лимитирующий критерий - коэффициент безопасности (КБп) по формуле: КБп=Дп:ДСУЭО, и при значении КБп ≤1 констатируют допустимый риск, при значении КБп>1 - недопустимый.Known from the prior art is the “Method for assessing the degree of risk of the harmful effects of pesticides on workers” according to patent RU2 480 755 dated 11/23/2011, published: 04/27/2013, IPC G01N 33/497 (2006.01), which consists in establishing the parameters of the actual content of the substance in the working air zones (mg / m3) and on the skin (mg / cm2), derivation of the safety factor (KBp), which differs in that the absorbed dose of the substance (Dp, mg / kg) is calculated for inhalation and dermal intake (mg / kg of body weight) according to the formula

where Ivrz - the average concentration of the substance in the air of the working area, mg / m ³ ; Df - the actual content of the substance on the skin, average per shift, mg / cm ² ; V - the respiratory volume of an adult for 1 hour of moderate work (1.5 m ³ /h);
t - operating time (6-8 hours); S - area of human skin (16120 cm ² ); K - skin permeability coefficient (0.25); M - average human body weight, 70 kg, also calculate the allowable daily exposure level for operators according to the established inactive dose in a chronic toxicological experiment (DSUEO, mg / kg), then the limiting criterion is determined - the safety factor (KBp) according to the formula: KBp \u003d Dp:DSUEO, and with a value of KBp ≤1, an acceptable risk is stated, with a value of KBp >1 - invalid.

This method does not provide real-time decision-making, does not provide preventive action, and there is no possibility of instant risk management.

Known "Method of automating the workplace of a labor protection specialist and a device for its implementation" according to patent RU 2147143 dated 12/30/1998, published: 03/27/2000, IPC G06F 17/40 (2000.01) G05B 17/00 (2000.01), including operational collection of information about the state of safety and working conditions, accumulation of information in the database, processing of accumulated information and decision-making, characterized in that the operational collection of information about the state of safety and working conditions in a particular production is carried out using information carriers that have a certain structure with a customizable content in accordance with the needs of a particular production, consistent with the current approved reporting, moreover, information carriers include as the main accident record sheet, a disability card and a working conditions control card, encode the information collected, taking into account the classification coding system, in the process of processing information, form comfort requests for processing, reports and forms of documents, organize libraries of reports and carry out statistical analysis of information, while the results of processing are used in the formation of decisions in the environment of target expert systems, transform the decisions made into control effects on the state of working conditions at workplaces of a particular production and reflect these decisions are made in a database and knowledge base for later use and decision making.

The method is carried out after negative events, after the fact of what happened, there is no real-time operation, there is no possibility of instant risk management.

The closest technical solution is the way the system works and the device for its implementation according to the patent RU 2638640 dated 10/16/2015, published: 12/14/2017, IPC G06F 17/30 (2006.01), G06Q 10/00 (2012.01), "Automated information and reference a system for assessing and managing professional risks at agribusiness enterprises, which operates in the "request-response" mode, and allows not only to see the possible risk, but also to accurately calculate its level, while the claimed system provides: storage and presentation of data for each employee and each workplace, keeping all the information for the entire period of using the system, with the ability to display information, both for the current and for any previous period of time; the ability to build reports and graphs; analysis of the compliance of the personnel of the enterprise with the available jobs; the ability to predict changes in the magnitude of occupational risk for each employee and workplace in order to develop a set of preventive measures; universality of its application on any personal computer with a pre-installed platform 1C: Enterprise 8.

However, the device described above and the method of its operation do not allow providing a system for assessing and operational management of professional risks, which is mandatory in accordance with Art. 212 of the Labor Code of the Russian Federation (the Employer is obliged to ensure the creation and functioning of the labor protection management system).

The identified technical solutions are difficult to use in operational risk management, in the field of labor relations, industrial, fire and environmental safety, in preventive medicine and in the field of labor safety in industries of any kind, due to the fact that they involve making decisions based on what has already happened. events after their analysis.

The objective of the proposed technical solution is to increase the speed and efficiency of the operational impact on the production environment (regardless of the level of competence of the labor protection specialist) to preserve the health and life of labor workers and the viability of production.

The problem was solved by means of a method for assessing risks to the health and life of workers, determining risk management measures, by creating databases that fully characterize the current technological and personnel state of production, identifying risk categories, by determining the likelihood of an event and the severity of consequences, and issuing information, while , based on the information received on risk level gradations in the form of acceptable risk, medium risk, high risk, unacceptable risk, preventive risk management measures are determined with the prompt issuance of information in the form of commands to execution tools, ranked by significance for a specific deviation from the standard state for each level ; upon receipt of information from the detection and measurement means about a high risk, the actions of the execution means provided for in the list of emergency actions are automatically carried out; upon receipt of information about an unacceptable risk, the actions of the enforcement means provided for in the list of force majeure actions are automatically carried out; in case of signals that several indicators are exceeded in the medium risk gradation, the actions of the means of execution provided for in the list of emergency actions are automatically carried out; upon receipt of information about the excess of several indicators in the high risk gradation, the actions of the means of execution provided for by the list of force majeure actions are automatically carried out; at the current technological state of production, information is issued in the form of a list of ongoing activities, taking into account the planned activities that reduce risks for control; with any change in the databases, in the technological state of any link in production, the probability of an event and the severity of the consequences are determined again; and at the expense of a device for implementing a method containing databases: personnel data on the characteristics of production processes, typical hazards, identified hazards, standards, risks, and hazard comparison blocks, comparisons of actual characteristics with normative ones, production environment, detection and measurement tools, risk calculation, prediction block risk, risk management, while the device is additionally equipped with means of execution; the risk forecasting block is equipped with alerts according to risk level gradations: acceptable risk, medium risk, high risk, unacceptable risk; the risk management block is divided into subblocks that form commands for the means of execution: existing measures, urgent actions, emergency actions, force majeure actions associated with actuators; at the same time, the output of the information input block is connected to the inputs of all databases of personnel data, characteristics of production processes, typical hazards, identified hazards, standards, risks for production as a whole and for departments; the outputs of the databases of typical hazards and identified hazards through the input-output of the hazard comparison block, and the outputs of the databases of the characteristics of production processes and the standard characteristics of production processes through the input-output of the block for comparing actual characteristics with the normative ones, as well as the output of the personnel database, are connected to the input of the block risk calculation; the output of the risk calculation block is connected to the input of the risk base, the output of which is through the input-output of the sub-blocks risks for production in general, risks at work objects, risks in the working area, risks at the workplace and the input-output of the production environment as a whole, objects of work, working zones, workplaces, connected to the input of the risk prediction block, with warning means, acceptable risk, medium risk, high risk, unacceptable risk; the output of the forecasting block through the input-output of the risk control block with sub-blocks is connected to the input of the execution means that affect the state of the production environment for production as a whole, at work sites, in the working area with detection and measurement means, the output of which is through the input-output of the comparison block risks, connected to the input of the risk calculation block; the outputs of the means of execution and the risk management unit are connected to the input of the information input unit; warning means block 13 risk prediction by gradations of the level of risk is made or with visually distinguishable light-color signals, or audible audible signals, or combined signals;

The method allows not only to predictively determine and calculate risks in an expanded coverage from the workplace to the enterprise as a whole for a specific production environment, but also makes it possible to quickly respond to a negative change in indicators from detection and measurement tools 12 with notification from tools 13.2-13.4 when a hazard occurs in each of its divisions and the development of commands to the means of execution.

Calculation and risk management by this method involves full automation of all stages, makes the method affordable, fast, and eliminates human error.

The device as a whole makes it possible to carry out a method for assessing risks to the health and life of workers, to determine risk management measures in real time, to calculate risks based on information from detection and measurement tools, to notify them through alerting tools and to work ahead of time, changing through means of execution the state of the production environment, preventing the transition of the state of the environment of the serviced enterprise, below the level of medium risk, which allows to increase the speed and efficiency of the operational impact on the production environment (regardless of the level of competence of the labor protection specialist) to preserve the health and life of labor workers and the viability of production.

A method for assessing risks to the health and life of workers, determining risk management measures and a device for implementing the method, is illustrated by a drawing showing a block diagram of the device, where information input block 1, personnel data base 2, production process characteristics base 3, typical hazards base 4 , block 5 for comparing hazards, base 6 of identified hazards, block 7 for comparing actual characteristics with regulatory ones, base 8 for standards, block 9 for calculating risks, base 10 risks with subblocks: subblock 10.1 risks for production (organization) as a whole, subblock 10.2 risks at facilities works, subblock 10.3 risks in the working area, subblock 10.4 risks specifically at the workplace; the production environment 11 as a whole, with the objects of work 11.1, with the work area 11.2, specifically with the workplace 11.3; means 12 of detection and measurement; risk prediction unit 13 with color sound or combined means of warning according to risk level gradations: acceptable risk 13.1, medium risk 13.2, high risk 13.3, unacceptable risk 13.4; risk management block 14: with subblocks: subblock 14.1 - existing measures, subblock 14.2 - urgent actions for means of execution, subblock 14.3 - radical actions - for means of execution, subblock - 14.4 - force majeure actions - a complete stop of production; execution means 15 .

The block diagram of the device for implementing the method contains.

Information input block 1 is designed to enter any information, both manually and automatically from other blocks and databases.

The HR database 2 contains factual information about field workers according to the staffing table, newly added employees, the results of the SOUT, the availability of training, PPE, Medical examinations, Sanitary books and others

The base 3 characteristics of existing production processes are the actual characteristics of production processes, production zones with reference to the workplace (equipment, raw materials, materials, residence time, and others).

The base of 4 typical health hazards is a list set of hazards in accordance with regulatory documents (Order 438n, TR TS, MR Rospotrebnadzor, WHO, Ministry of Health, GOSTs, OSTs, environmental legislation and others)

Hazard comparison block 5 is designed to compare the actual hazards arising in the production process with the permissible ones, and to identify the hazard for which the risk level is exceeded (or can be exceeded).

Base 6 of identified hazards - serves to store and accumulate the actual identified hazards arising in the production process.

Block 7 for comparing the actual characteristics of production processes with the normative ones.

The base of 8 production standards contains NTD, GOST, TU, OST, Regulations, Technical processes and other parameters from legal and by-laws that allow the organization to carry out its activities.

The risk calculation block 9 is designed to calculate the risks and the severity of the consequences of the risk realization, the probability of the hazard realization in a negative consequence, taking into account the exposure time.

The risk base 10 serves to accumulate and store information on assessed risks sorted by subblocks: subblock 10.1 risks for the production environment as a whole, subblock 10.2 risks at work sites, subblock 10.3 risks in the work area, subblock 10.4, risks specifically at the workplace.

The production environment 11 with sub-blocks displays the real relationship of the assessed risks - sub-block 11.1 with work objects, sub-block 11.2 with the working area, sub-block 11.3 specifically with the workplace, each of which is equipped with 12 detection and measurement tools.

Detection and measurement means 12 - cameras, temperature sensors, gas sensors, sensors with a connected neural network, scoreboards, other devices designed to record the state of the production environment 11, 11.1. 11.2, 11.3 and transferring data to the hazard comparison block 5 for a new start of the process of identifying hazards for which there was an excess.

The risk prediction block 13 with subblocks for signaling the situation is equipped with color sound or combined alerts with an indication of the risk level by risk level gradations: subblock 13.acceptable risk 1, subblock 13.2 medium risk, subblock 13.3 high risk, subblock 13.4 unacceptable risk.

Block 14 of risk management with executive sub-blocks 14.1, 14.2, 14.3, 14.4: is designed to respond to the identified risk, issue commands to the means of execution to reduce and normalize the level of risk, depending on the severity of the calculated consequences: sub-block 14.1 in the existing state of production, state control means of execution, subblock 14.2 - urgent actions for means of execution, subblock 14.3 - emergency actions - for means of execution, subblock - 14.4 - force majeure actions - until the production is completely stopped.

Execution means 15 - circuit breakers, circuit breakers, gate valves and others, which are automatically triggered from subblocks 14.3, 14.4 of the risk control unit when signals are received from the risk assessment unit. from subblock 13.3 according to one list of emergency actions provided for in 14.3, and from 13.4 according to another list of force majeure actions provided for in 14.4. In case of summary signals about exceeding the risk from 13.2 - the device reacts according to the list of emergency actions provided for in 14.3, the same but from 13.3 - the device reacts according to the list of force majeure actions provided for in 14.4.

A device for implementing a method for assessing risks to the health and life of workers, determining risk management measures is made as follows

Device - a computer or server (depending on the volume of the production environment), containing databases, blocks of comparison, calculation, control and generation of commands, equipped with means 12 of detection and measurement, responsive to the state of the production environment 11, 11.1. 11.2, 11.3, means 13.1, 13.2, 13.3, 13.4 alerts, sound, light - color and combined, and means 15 performance, triggered both automatically and in manual mode.

The output of block 1 is connected to the inputs of all databases 2 personnel data, 3 characteristics of production processes, 4 typical hazards, 6 identified hazards, 8 standards, 10 risks for production in general and for departments 10.1,10.2, 10.3, which allows you to manually and automatically make adjustments to all databases.

Database outputs 4 typical hazards and 6 identified hazards through the input-output block 5 for comparing hazards, and database outputs 3 characteristics of production processes and 8 standard characteristics of production processes through the input-output block 7 for comparing actual characteristics with normative ones, as well as base output 2 personnel data, are connected to the input of block 9 for calculating risks, which makes it possible to take into account when calculating risks in block 9 deviations of existing hazards from acceptable standards.

The output of the risk calculation block 9 is connected to the input of the risk base 10, the output of which is through the input-output of sub-blocks 10.1 production risks in general, 10.2 risks at work sites, 10.3 risks in the working area, 10.4 risks at the workplace, and the input-output of the production environment 11 as a whole, work objects 11.1, working area 11.2 workplace 11.3, connected to the input of the risk prediction block 13, with warning means: 13.1 acceptable risk, 13.2 medium risk, 13.3 high risk, 13.4 unacceptable risk, which allows to distribute the predicted risks inherent , or the production environment as a whole, or a certain part of it, and in the forecasting block, connect one or another notification tool.

The output of the risk prediction block 13 through the input-output of the risk management block 14 with subblocks: subblock 14.1 in the existing state of production, control of the state of the means of execution, subblock 14.2 - urgent actions for the means of execution, subblock 14.3 - emergency actions - for the means of execution, subblock - 14.4 - force majeure actions - until a complete stop of production, connected to the input of means 15 of execution, affecting the state of the production environment 11 for production as a whole 11.1, at work objects 11.2, in the working area 11.3 with means 12 of detection and measurement in each, the output of which is through the input-output of block 5 is connected to the input of block 9, which allows you to control the means of execution that affect the state of the production environment through the block that generates commands, and through the means of detecting and measuring all changes in the state of the environment, transfer through the comparison block for a new recalculation of risks.

The outputs of the execution means 15 and the risk control block 14 are connected to the input of the information input block 1, which allows all commands from the control unit and the operation of the execution means to be automatically transferred to the information input block for further use of the device for implementing the method.

The device as a whole makes it possible to carry out a method for assessing risks to the health and life of workers, to determine risk management measures in real time, to calculate risks based on information from detection and measurement tools, to notify them through alerting tools and to work ahead of time, changing through means of execution the state of the production environment, preventing the transition of the state of the environment of the serviced enterprise, below the level of medium risk, which allows to increase the speed and efficiency of the operational impact on the production environment (regardless of the level of competence of the labor protection specialist) to preserve the health and life of labor workers and the viability of production.

A device for implementing a method for assessing risks to the health and life of workers, determining risk management measures, works as follows

From the output of input block 1, to the input of all databases, base 2 of personnel data, base 3 of characteristics of production processes, base 4 of typical hazards, base 6 of identified hazards, base 8 of standards, base 10 risks, the necessary data is received to create databases that fully characterize current technological and personnel state of production.

Further, for each staff unit in block 5 for comparing health hazards, actual hazards are identified in the current technological state of production according to base 4 typical health hazards and base 6 identified hazards. In block 5, an actual list of hazards is formed at workplaces 11.3, in the working area 11.2, at the work site 11.1 and for the production environment 11 as a whole, which are loaded into block 9 for calculating risks.

To identify the risk category, block 7 compares the actual characteristics of existing production processes from base 3 and acceptable regulatory data from base 8, which allow the organization to carry out activities, and from block 7 send information to determine the likelihood of events and the severity of consequences, taking into account time factors to block 9 of risk calculation Table 1

Table 1

Severity level Qualitative characteristic Consequence severity ratio T ₁ Minor impact Microtrauma, without disability (scratch, bruise, small cut), requiring simple first aid measures one T ₂ Small impact Minor accident, trauma with the need for special medical intervention, illness without disability or with temporary disability up to 5 days. ten T ₃ Moderate impact Accident, injury, illness with more than 5 days of disability (for example, a closed fracture, bruise, electrical injury, burn) 100 T ₄ Significant Impact Fatal accident, severe accident or occupational disease resulting in permanent disability and resulting in disability or severe accident (e.g. eye injuries, open fractures), occupational disease with a degree of disability requiring special investigation. 600 T ₅ catastrophic impact Group fatal accident. 1800

In block 9 of the calculation of risks, the calculation of risks is performed.

The value of the Initial risk is determined by the formula:

R _P \u003d (H × P) × T, where

Ch is the coefficient of the probability of the consequences realization;

P is the coefficient of duration of exposure to hazardous factors;

T is the coefficient of severity of consequences, which has the maximum value.

The value of the Actual risk is determined by the formula:

R f \ _u003d (H _A × P _A ) × T _A , where

P _A - coefficient of probability of the consequences realization, taking into account the current risk management measures;

P _A - the coefficient of duration of exposure to hazardous factors, taking into account current risk management measures;

T _A is the coefficient of severity of consequences, taking into account current risk management measures.

The value of the Residual risk is determined by the formula:

P _O = ( H _ASP × P _ASP ) × T _ASP , where

P _ASP is the coefficient of probability of consequences realization taking into account actual, urgent and prospective risk management measures;

П _ASP - the coefficient of duration of exposure to hazardous factors, taking into account current, urgent and prospective risk management measures;

T _ASP is the coefficient of severity of consequences, taking into account current, urgent and prospective risk management measures.

To determine the impact of a group of measures on the risk value, the minimum values of the corresponding coefficients of the probability of the consequences realization (B), the duration of the impact of hazards (P) and the severity of the consequences (T) are used, determined to take into account the impact of each event separately.

The risk value, taking into account the influence of a group of measures, is determined by the formula P _O \u003d (min(H _ASP ) _i × min(P _ASP ) _j ) × min(T _ASP ) _k , where

min (Н _ASP ) _i is the minimum value of the coefficient of probability of consequences realization in the group of risk management measures taken into account;

П _ASP - the minimum value of the coefficient of duration of exposure to hazardous factors in the group of risk management measures taken into account;

T _ASP is the minimum value of the severity coefficient of consequences in the group of risk management measures taken into account.

Risk calculation matrix

Effects Impact on staff T ₁ T ₂ T ₃ T ₄ T ₅ Probability (taking into account the coefficient of duration P4=1) one ten 100 600 1800 Ch1 Very likely 90% 5 5 fifty 500 3000 9000 P2 Probably 70% one one ten 100 600 1800 Ch3 Maybe fifty% 0.3 0.3 3 thirty 180 540 Ch4 unlikely 20% 0.1 0.1 one ten 60 180 Ch5 Incredible one% 0.05 0.05 0.5 5 thirty 90 Risk zones: Value Designation Name 0-10 P Acceptable risk 10-100 With Medium risk 100-500 AT high risk 500-9000 NP Unacceptable risk

Linear coefficients have been added to the Risk Assessment Matrix for the convenience of formulaic calculation, which translates the verbal method into a ball method, increasing accuracy.

The calculated risks form a base of 10 risks, which serves to accumulate and store information on assessed risks, fully corresponding to the current technological and personnel state of production, sorted by subblocks: risks for the production environment as a whole, subblock 10.1, risks at work sites, subblock 10.2, risks in working area subblock 10.3, risks specifically at the workplace subblock 10.4

The base 10 risks for a specific production environment 11 displays the real connection of the assessed risks with the objects of work 11.1, with the working area 11.2, specifically with the workplace 11.3, equipped with 12 detection and measurement tools, in the form of cameras, all kinds of necessary sensors that assess the state of the environment, including including sensors with a connected neural network, allowing the device to instantly respond to changes in the production environment, and promptly transmit a signal to the warning means of the prediction block 13.

In the forecasting block 13, there is a gradation of risks with the transfer to the warning means according to the level: 13.1 low risk, 13.2 medium risk, 13.3 high risk, 13.4 unacceptable risk, performed either by visually distinguishable light-color signals, or audibly distinguishable sound signals, or combined signals.

From the warning means 13.1, 13.2, 13.3, 13.4 of the forecasting block 13, the data is sent to the risk management block 14, where, based on the gradation of the risk level, preventive risk management measures are determined with the prompt issuance of information with a list of actions ranked by significance for a specific deviation from the normative state according to each level, in the form of a guide to the immediate operation of the means of execution 15 from subblocks 14.2 - urgent actions for the means of execution, 14.3 - emergency actions - for the means of execution, 14.4 - force majeure actions - a complete stop of production, which allows not to bring the state of production to the state corresponding to the gradation of unacceptable risk and prevent an emergency threat to life and health.

At the same time, at the current technological state of production, at the level of risk, in the form of an acceptable risk from the notification tool of sub-block 13.1, the information in sub-block 14.1 of the risk management block is displayed in the form of a drop-down menu with a list of ongoing activities, taking into account the planned activities under the current technological and personnel state production for control.

Execution means 15 - circuit breakers, circuit breakers, valves and others, which, on command from subblocks 14.3, 14.4 of the risk management unit, are automatically triggered by signals from the risk assessment unit. from sub-block 13.3 high risk, according to one list of emergency actions provided for in 14.3, and from 13.4 according to another list of force majeure actions provided for in 14.4.

In case of alarms about exceeding the risk for several indicators, from 13.2 - the device reacts according to the list of emergency actions provided for in 14.3, the same, but from 13.3 - the device reacts according to the list of force majeure actions provided for in 14.4, thereby also, preventively not allowing to bring state of production to a state corresponding to the gradation of unacceptable risk and prevent an emergency threat to life and health.

With any change in the databases, data in the technological state, the method allows you to re-determine the probability of an event and the severity of the consequences of any production link, and re-configure the device detection tools to automatically respond to the slightest increase in the newly calculated risks and the response of the warning and response means of the risk management unit during newly set conditions.

After the implementation of measures in accordance with the hierarchy of risk management measures, from the outputs of block 14 and block 15 to the input of block 1 of information input, the changed data are sent for recalculation, which makes the risk assessment process continuous, preventive and allows you to control risks in real time, eliminating the possibility realization of the danger, saving the life and health of workers.

After identification, the signal goes to risk calculation block 9, then the calculated risk goes to prediction block 13, where its level is determined, warning means are selected, and further, by assigning appropriate measures in control block 14 and selecting means of execution from block 15, the risk is reduced to an acceptable level and is sent to block 1 for entering information for recalculation.

This allows not only to predictively determine and calculate risks in an extended coverage from the workplace 11.3 to the enterprise as a whole for a specific production environment 11, but also makes it possible to quickly respond to a negative change in indicators from detection and measurement tools 12 with notification from tools 13.2-13.4 when the occurrence of danger in each of its divisions.

The technical result of the proposed technical solution is to increase the speed and efficiency of the operational impact on the production environment (regardless of the level of competence of the labor protection specialist) to preserve the health and life of labor workers and the viability of production through a method for assessing risks to the health and life of workers and a device for its implementation , which allows you to determine risk management measures in real time, calculate risks based on information from detection and measurement tools, notify about them through notification tools and act ahead of the curve, changing the state of the production environment through execution tools, preventing the transition of the state of the environment of the serviced enterprise, below the medium risk level.

Calculation and risk management by this method involves full automation of all stages, makes the method affordable, fast, and eliminates human error.

Claims (1)

A method of operational influence on the production environment, which consists in determining the current technological state of production processes and production zones with reference to the workplace, using detection and measurement tools installed at the work sites and in the working area, such as cameras, temperature sensors, gas sensors , transmit data from the indicated detection means to a hazard comparison unit designed to identify hazards for which an excess is detected, predict the risk of an event that affects the life and health of an employee, use a risk prediction unit to produce sound, light-color or combined notification of the occurrence of an event that affects the life and health of the employee, as well as actuate the means of execution, such as circuit breakers, circuit breakers, valves, and additionally carry out risk management, which consists in monitoring the state of the means of execution, performing urgent tasks actions for the means of execution, the performance of emergency actions for the means of execution, as well as the performance of force majeure actions, which consist in a complete stop of production, while the probability of an event affecting the life and health of an employee is determined on the basis of a signal that the risk is exceeded by several indicators and when a change in the technological state of the production environment is detected, the detection means are re-adjusted for automatic regulation to the slightest increase in the newly calculated risks of an event occurring that affects the life and health of an employee.

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