RU219915U1 - STAND FOR QUALIMETRY OF PERSONAL EYE PROTECTION AGAINST BIOLOGICAL FACTOR - Google Patents

Abstract

The utility model relates to devices for testing personal protective equipment against biological factors.

The stand for qualimetry of personal eye protection against biological factors consists of a body made in the form of a dark hollow opaque cylinder and a transparent cap, articulated by means of an assembly screwing operation, the diameter of the cap is equal to the diameter of the cylinder, the upper base of the cylinder is made of mesh material with the value of the wetting angle more than 90 degrees, in the center of the upper base of the cylinder at a height of at least 1 cm from its outer surface, a hollow head model made of porous plastic is fixed on a stand, and the pores are made so that they connect the outer surface of the model with the cavity inside it, and the diameter and the intensity of the location of the pores corresponds to the diameter and intensity of the location of the sweat glands on the human scalp, in the center of the upper base of the cylinder a stand is made in the form of a hollow cylinder, the upper base of which is “above”, and the lower one is “under” the base plane of the cylinder forming the body, and the diameter the cavity of the stand does not exceed the diameter of the cavity inside the model, in the case directly under the upper base of the cylinder, close to the walls of the case, there is an inlay made of a material with a wetting angle of more than 90 degrees, the inlay is fixed in the case close to its walls so that the inlay closes the entire cross-sectional area of the cylinder, and the angle between its plane and the plane of the base of the cylinder was at least 5 degrees, in the housing, at the location of the lower part of the insert, a through hole was made with a spout to drain the liquid flowing from the insert, a fog generator was built into the housing, the output of which hermetically connected to the hole in the lower part of the stand, a container with liquid is built into the body, connected to the fog generator, the model is made with the ability to open / close the mouth, lift / puff the eyelids and rotate around its vertical axis at an angle of up to 180 degrees, a block is built into the body control of the air temperature in the space under the cap, wherein the temperature sensor is located in the stand between the upper surface of the housing and the lower surface of the model flush with the outer surface of its housing, the air supply hole from the outlet of the air temperature control unit is made in the stand opposite the temperature sensor flush with its outer surface , a block for controlling the speed of air movement in the space under the hood is built into the housing, the outlet of which is connected to a hole made in the stand flush with its outer surface, so that in the horizontal plane it is between the temperature sensor and the hole for supplying air from the outlet of the temperature control unit air, in the stand flush with its outer surface between the upper surface of the case and the lower surface of the model, there is an air humidity sensor in the space under the cap so that in the horizontal plane its sensitive element is between the temperature sensor and the air supply hole from the outlet of the air temperature control unit, in the stand, flush with its outer surface between the upper surface of the case and the lower surface of the model, there is an air velocity sensor in the space under the cap so that in the horizontal plane its sensitive element is between the temperature sensor and the hole for supplying air from the outlet of the air temperature control unit to the case built-in microprocessor connected to the model, fog generator, air temperature control unit, air speed control unit, temperature sensor, humidity sensor and air speed sensor, miniature temperature sensors connected to the microprocessor are built into the points under the lower eyelids, a unit wireless interface connected to the microprocessor, the microprocessor is configured to collect and process information from temperature, humidity and air velocity sensors, and with the ability to control the model, fog generator, air temperature control unit, air velocity control unit, stand diameter not less than, than 0.5 cm, more than the diameter of the cavity in the lower part of the model, the cylinder is made with the possibility of refilling the liquid, on the outer surface of the body there is a two-mode indicator of the stand health, connected to the microprocessor. The achieved technical result consists in providing the possibility of determining the characteristics of the microclimate in a closed space between the means of individual protection against the biological factor and the body of the user of this means.

Description

The utility model relates to devices for testing personal protective equipment, namely, to devices for testing personal protective equipment against biological factors, carried out in the interests of determining their ergonomic characteristics.

The closest analogue of the claimed utility model is a method for evaluating the ergonomic properties of elements of combat individual equipment of military personnel (patent for invention RU No. 2671187), which provides for assessing the effect of BIEV elements on the biomechanical characteristics of movements - mobility in large joints of the upper and lower extremities, as well as in the lumbar and cervical spine, by measuring the amplitudes of the maximum possible active movements, characterized in that to measure the amplitudes of the maximum possible active movements in the large joints of the upper and lower extremities and in the spine, biomechanical sensors "Trust-M" are used, which are fixed on certain segments of the upper and lower extremities and the spine, corresponding to the projections of the anatomical regions, the measurement of the amplitudes of the maximum possible active movements in the large joints of the upper and lower extremities and in the spine is performed when performing acyclic motor locomotions, which are performed three times with a rest of at least 24 hours and in a certain order, analysis of the biomechanical parameters of movements and their visualization in the form of graphs of the average values of the amplitudes of active movements in the large joints of the upper and lower extremities and in the spine is carried out using a personal computer with specialized software; representing the distance between the points on the graph corresponding to two successive passages of the Trust-M biomechanical sensor through the same position in the same direction, according to the graph of the average values of the epochs of the amplitudes, by determining the maximum and minimum, the amplitudes of active movements in the large joints of the upper and in the lower extremities and in the spine as projections of three-dimensional angles registered in space during the movement of the Trust-M biomechanical sensors onto the sagittal and frontal planes. The disadvantage of this technical solution is the impossibility of its application for qualimetry of personal eye protection against biological factors.

The technical objective of the claimed utility model is to expand the arsenal of devices for determining the ergonomic characteristics of personal protective equipment against biological factors.

The solution of the technical problem is provided due to the fact that the stand for qualimetry of personal eye protection against biological factors consists of a body made in the form of a dark hollow opaque cylinder and a transparent cap, articulated using an assembly screwing operation, the diameter of the cap is equal to the diameter of the cylinder, the upper base of the cylinder made of a mesh material with a contact angle of more than 90 degrees, in the center of the upper base of the cylinder at a height of at least 1 cm from its outer surface, a hollow head model made of porous plastic is fixed on a stand, and the pores are made so that they connect the outer surface models with a cavity inside it, and the diameter and intensity of the location of the pores correspond to the diameter and intensity of the location of the sweat glands on the human scalp, in the center of the upper base of the cylinder a stand is made in the form of a hollow cylinder, the upper base of which is “above” and the bottom one is “under” the plane of the base of the cylinder forming the body, and the diameter of the support cavity does not exceed the diameter of the cavity inside the model, in the body directly under the upper base of the cylinder, close to the walls of the body, there is an inlay made of a material with a contact angle of more than 90 degrees, the inlay is fixed in the body close to its walls so that the tab covers the entire cross-sectional area of the cylinder, and the angle between its plane and the plane of the base of the cylinder is at least 5 degrees, in the body, at the location of the lower part of the tab, a through hole is made with a spout to drain liquid flowing from the tab , a fog generator is built into the body, the outlet of which is hermetically connected to the hole in the lower part of the stand, a container with liquid is built into the body, connected to the fog generator, the model is made with the possibility of opening/closing the mouth, raising/lowering the eyelids and turning around its vertical axis by angle up to 180 degrees, the air temperature control unit in the space under the hood is built into the housing, and the temperature sensor is located in the stand between the upper surface of the housing and the lower surface of the model flush with the outer surface of its housing, the hole for air supply from the outlet of the air temperature control unit is made in stand opposite the temperature sensor flush with its outer surface, a unit for controlling the speed of air movement in the space under the cap is built into the housing, the outlet of which is connected to a hole made in the stand flush with its outer surface, so that in the horizontal plane it is between the temperature sensor and an opening for air supply from the outlet of the air temperature control unit, in the stand flush with its outer surface between the upper surface of the case and the lower surface of the model, there is an air humidity sensor in the space under the cap so that in the horizontal plane its sensitive element is between the temperature sensor and the hole for air supply from the outlet of the air temperature control unit, in the stand flush with its outer surface between the upper surface of the case and the lower surface of the model, there is an air velocity sensor in the space under the cap so that in the horizontal plane its sensitive element is between the temperature sensor and the air supply hole from the output of the air temperature control unit, a microprocessor is built into the body, connected to the model, fog generator, air temperature control unit, air speed control unit, temperature sensor, humidity sensor and air speed sensor, miniature temperature sensors are built into the points under the lower eyelids connected to the microprocessor, a wireless interface unit connected to the microprocessor is built into the housing, the microprocessor is configured to collect and process information from temperature, humidity and air velocity sensors, and with the ability to control the model, fog generator, air temperature control unit, control unit speed of air movement, the diameter of the stand is not less than 0.5 cm, more than the diameter of the cavity in the lower part of the model, the cylinder is made with the possibility of refilling the liquid, on the outer surface of the body there is a two-mode stand health indicator connected to the microprocessor.

The technical result achieved by the set of features of the proposed technical solution is to provide the ability to determine the characteristics of the microclimate in a closed space between the personal protective equipment against the biological factor and the body of the user of this tool.

The components of the claimed stand are known from the prior art:

fog generator can be made according to the technical solution set forth in the utility model patent RU No. 200148;

the air temperature control unit can be made according to the technical solution set forth in the patent for the invention RU No. 2255273;

the air speed control unit can be made according to the technical solution set forth in the utility model patent RU No. 205219;

the microprocessor can be made according to the technical solution set forth in the patent for the invention RU No. 2584470;

the air temperature sensor can be made according to the technical solution set forth in the utility model patent RU No. 45824;

the air humidity sensor can be made according to the technical solution set forth in the patent for the invention RU No. 2788822;

the air speed sensor can be made according to the technical solution set forth in the patent for the invention RU No. 2030712;

miniature temperature sensor can be made according to the technical solution set forth in the patent for the invention RU No. 2473874;

the wireless interface unit can be made according to the technical solution set forth in the patent for invention RU No. 2415500;

the dual-mode indicator can be made according to the technical solution set forth in the patent for invention RU No. 2772737.

The functioning of the declared stand is as follows.

The stand is installed on a flat horizontal surface, the cap is unscrewed.

Visually (including by the glow of the indicator connected to the microprocessor) the state of the stand components is monitored, the cylinder is filled with a liquid that imitates human sweat.

A test sample of personal eye protection against a biological factor is put on the head model. The sample is fixed in the same way as it should be fixed on the user of personal protective equipment according to the instructions. The pre-tested sample is tested for tightness, which we consider successfully passed before testing on the bench.

The cap is screwed onto the cylinder, a measuring cup is placed under the spout.

Tests are starting to include:

formation of a microclimate in the space between the walls of the device and the surface of the personal protective equipment, simulating the working conditions of the user of the personal protective equipment using the components of the device (air temperature control unit, air velocity control unit) according to microprocessor commands issued based on information from temperature sensors, humidity and air speed;

formation of perspiration with the help of a fog generator and a system of pores according to microprocessor commands;

opening/closing the mouth, raising/lowering the eyelids and turning the model around its axis at an angle of up to 180 degrees according to microprocessor commands to simulate the activity of the wearer of personal protective equipment;

fixing the temperature at the embedding points of miniature temperature sensors;

collection of liquid seeping through the pores, falling (including after removing the sample from the model upon completion of testing) onto the upper base of the cylinder and flowing down the insert, through the spout, into the measuring cup 90 degrees, making the inlay from a material with similar properties; fixing the inlay in the body close to its walls so that the inlay covers the entire cross-sectional area of the body, and the angle between its plane and the plane of the base of the cylinder is at least 5 degrees - contributes to the objectification of the measurement of perspiration).

The housing has a wireless interface unit connected to the microprocessor, which provides, if necessary, correction of the test program by the person conducting the tests and transmission of information about the dynamics of tests from the microprocessor to an external device in real time or upon completion of the tests.

Based on the recorded information about the temperature at the points of the model, the volume of sweat with reference to the simulated characteristics of working conditions and duration of work, decisions are made on the quality of personal eye protection against biological factors in terms of providing a microclimate that is optimal for the professional activity of the user of personal protective equipment.

The claimed stand refers to devices, since it is a product consisting of parts interconnected by assembly operations, which are in functional and structural unity.

The achieved technical result consists in providing the possibility of determining the characteristics of the microclimate in a closed space between the means of individual protection against the biological factor and the body of the user of this means. By simulating the working movements of the user of the personal protective equipment and the characteristics of working conditions, the objectivity of determining the characteristics of the microclimate in the closed space between the personal protective equipment against the biological factor and the body of the user of this means is ensured without conducting full-scale experiments with human participation.

Claims (1)

Stand for qualimetry of personal eye protection against biological factors, characterized in that it consists of a body made in the form of a dark hollow opaque cylinder and a transparent cap, articulated using an assembly screwing operation, the diameter of the cap is equal to the diameter of the cylinder, the upper base of the cylinder is made of mesh material with a contact angle greater than 90 degrees, in the center of the upper base of the cylinder at a height of at least 1 cm from its outer surface, a hollow head model made of porous plastic is fixed on a stand, and the pores are made so that they connect the outer surface of the model with the cavity inside it, and the diameter and intensity of the location of the pores correspond to the diameter and intensity of the location of the sweat glands on the human scalp, in the center of the upper base of the cylinder a stand is made in the form of a hollow cylinder, the upper base of which is "above" and the lower one is "under" the plane of the base of the cylinder forming the body, and the diameter of the support cavity does not exceed the diameter of the cavity inside the model, in the body directly under the upper base of the cylinder, close to the walls of the body, there is an inlay made of a material with a contact angle of more than 90 degrees, the inlay is fixed in the body close to it walls so that the tab covers the entire cross-sectional area of the cylinder, and the angle between its plane and the plane of the base of the cylinder is at least 5 degrees, in the body, at the location of the lower part of the tab, a through hole is made with a spout to drain the liquid flowing from the tab into the body has a built-in fog generator, the outlet of which is hermetically connected to the hole in the bottom of the stand, the body has a built-in container with liquid connected to the fog generator, the model is made with the ability to open / close the mouth, raise / lower the eyelids and rotate around its vertical axis at an angle of up to 180 degrees, the air temperature control unit in the space under the hood is built into the housing, and the temperature sensor is located in the stand between the upper surface of the housing and the lower surface of the model flush with the outer surface of its housing, the air supply hole from the outlet of the air temperature control unit is made in the stand opposite temperature sensor flush with its outer surface, a unit for controlling the speed of air movement in the space under the cap is built into the housing, the outlet of which is connected to a hole made in the stand flush with its outer surface, so that in the horizontal plane it is between the temperature sensor and the hole for air supply from the outlet of the air temperature control unit, in the stand flush with its outer surface between the upper surface of the case and the lower surface of the model, there is an air humidity sensor in the space under the cap so that in the horizontal plane its sensitive element is between the temperature sensor and the air supply hole from the outlet of the air temperature control unit, in the stand flush with its outer surface between the upper surface of the case and the lower surface of the model, there is an air velocity sensor in the space under the cap so that in the horizontal plane its sensitive element is between the temperature sensor and the hole for supplying air from the outlet air temperature control unit, a microprocessor is built into the body, connected to the model, fog generator, air temperature control unit, air speed control unit, temperature sensor, humidity sensor and air speed sensor, miniature temperature sensors are built into the points under the lower eyelids, connected with a microprocessor, a wireless interface unit connected to the microprocessor is built into the body, the microprocessor is configured to collect and process information from temperature, humidity and air velocity sensors, and with the ability to control the model, fog generator, air temperature control unit, movement speed control unit air, the diameter of the stand is not less than 0.5 cm larger than the diameter of the cavity in the lower part of the model, the cylinder is made with the possibility of refilling the liquid, on the outer surface of the body there is a two-mode indicator of the stand health, connected to the microprocessor.