RU218100U1 - INDIVIDUAL BODY PROTECTION AGAINST BIOLOGICAL FACTOR - Google Patents

Abstract

The utility model relates to personal protective equipment for the skin and respiratory organs of an insulating type and is designed to work with dangerous microorganisms in laboratories, as well as in open areas to protect the respiratory organs and skin. The means of personal protection of the body from the biological factor is made in the form of a coverall made with the possibility of forced air supply, on the front of which there is a diagonal connector, a hood with a transparent panoramic screen, cuffs, non-removable shoe covers, positive pressure relief valves, an internal autonomous filtering device, built-in sensors air temperature, air humidity and carbon dioxide content in the air, a storage device with non-volatile memory, a microprocessor and a three-mode LED, sensors for air temperature, air humidity and carbon dioxide content in the air, a storage device with non-volatile memory and a three-mode LED are connected to the microprocessor, sensitive elements of air temperature sensors, air humidity and carbon dioxide content in the air are flush with the inner surface of the overalls, and the front surface of the three-mode LED is flush with the outer surface of the overalls, the microprocessor is configured to process information from air temperature sensors, air humidity and carbon dioxide content in the air and calculate estimates based on these values potential danger of the under-clothing microclimate for the operability and reliable activity of the user of the protective equipment. The achieved technical result consists in providing the possibility of monitoring the hygienic characteristics of the underwear microclimate of the user of the personal protective equipment against the biological factor.

Description

The utility model relates to personal protective equipment for the skin and respiratory organs of an insulating type and is designed to work with dangerous microorganisms in laboratories, as well as in open areas to protect the respiratory organs and skin.

The closest analogue of the claimed utility model is an insulating suit (utility model patent RU No. 206395), containing overalls with a forced air supply system, made of polyvinyl chloride (PVC) material, which can withstand treatment with a 6% hydrogen peroxide solution and the steam-formalin method, on the front part of the overalls has a diagonal connector, the hood contains a panoramic screen with a wide viewing angle, cuffs, non-removable shoe covers, positive pressure relief valves, an internal independent filtering device containing an anatomical mouthpiece connected through an air flow distribution device to the air supply unit and the filter, the supply unit air is connected to the battery, characterized in that the diagonal connector of the front part of the overalls is equipped with one airtight zipper, the hood screen is made of thickened elastic transparent PVC, the cuffs are made of elastic rubber, while the filter-ventilation device is made with the possibility of passing through the head, the battery and the control panel fastened with a belt on the belt, the air supply unit is placed in a recess inside the hood, and the filter is attached to it from the outside through an adapter, the back pressure valve is connected to the air supply unit through the air duct, the positive pressure relief valves are placed in pockets on the back surface of the overalls using an adhesive connection, additionally reinforced with tapes from the base material by high-temperature hot-air welding, each valve contains two plate-type silicone membranes, the first membrane being fixed outside the insulating suit in a pocket, the second - under the first membrane with vertical displacement in the undersuit space through an additional layer of PVC.

The disadvantage of this technical solution is the impossibility of monitoring the hygienic assessment of the underwear microclimate.

The technical problem solved by the claimed utility model is to expand the functionality of personal protective equipment for the body from the biological factor.

The solution of the technical problem is achieved due to the fact that the means of personal protection of the body from the biological factor is made in the form of a coverall made with the possibility of forced air supply, on the front of which there is a diagonal connector, a hood with a transparent panoramic screen, cuffs, non-removable shoe covers, positive pressure relief valves , an internal independent filter-ventilation device containing an anatomical mouthpiece connected through an air flow distribution device to an air supply unit and a filter, an air supply unit is connected to a battery, and the diagonal connector of the front part of the overalls is equipped with one pressure zipper, the internal independent filter-ventilation device is made with the possibility of threading through the head, the battery and the control panel are made with the possibility of fastening with a belt on the belt, the air supply unit is located in a recess inside the hood, and the filter is attached to it from the outside through an adapter, the back pressure valve is connected to the air supply unit through the air duct, the positive pressure relief valves are placed in pockets on the back surface of the overalls with the help of an adhesive joint, additionally reinforced with tapes from the base material by air welding, each valve contains two plate-type silicone membranes, the first membrane is fixed outside the overalls in the pocket, the second - under the first membrane with a vertical displacement in the undersuit space through an additional layer of polyvinyl chloride, characterized in that the overalls are equipped with sensors for air temperature, air humidity and carbon dioxide content in the air, a storage device with non-volatile memory, a microprocessor and a three-mode LED, sensors for air temperature, air humidity and carbon dioxide content in the air, a storage device with non-volatile memory and the three-mode LED is connected to the microprocessor, the sensing elements of the sensors for air temperature, air humidity and carbon dioxide content in the air are flush with the inner surface of the overalls, and the front surface of the three-mode LED is flush with the outer surface of the overalls, the microprocessor is configured to process information from the air temperature and humidity sensors air and carbon dioxide content in the air and the calculation of these values for assessing the potential danger of the under-clothing microclimate for the performance and reliable activity of the wearer of the protective equipment.

The technical result achieved by the specified combination of features is to provide the possibility of monitoring the hygienic characteristics of the underwear microclimate of the user of the personal protective equipment against the biological factor.

Under the underwear microclimate is understood as a complex characteristic of the physical factors of the air layer adjacent to the surface of the skin and directly affecting the physiological state of a person. This individual microenvironment is in especially close interaction with the organism, changes under the influence of its vital activity and, in turn, continuously influences the organism; the state of thermoregulation of the body depends on the characteristics of the underwear microclimate. The underwear microclimate is characterized by temperature, air humidity and carbon dioxide content. Combining the values of these indicators into an integral indicator (for example, according to the methods and algorithms set forth in Zhuravleva N.L. Development of a method for designing special-purpose clothing with forced ventilation of the under-clothing space: dissertation ... candidate of technical sciences: 05.19.04. M .: Moskovsky State University of Design and Technology, 2014. 237 pp., Ushakov I.B., Kukushkin Yu.A., Bogomolov A.V. Labor Physiology and Reliability of Human Activity, M: Nauka, 2008. 318 pp., Afanas’eva R.F. ., Bobrov A.F., Losik T.K., Suvorov V.G. Integral assessment of the optimal microclimate and thermal state of a person // Occupational Medicine and Industrial Ecology. 2003. No. 5. P. 17-22.) conclude on potential danger of the under-clothing microclimate for the operability and reliable activity of the user of the protective equipment.

The components of the claimed device are known in the prior art:

the air temperature sensor can be made according to the solution set forth in the utility model patent RU No. 98068;

drive with non-volatile memory can be made according to the solution set forth in the patent for the invention RU No. 2352001;

a three-mode LED can be made according to the solution set forth in the patent for the invention RU No. 2613529;

the microprocessor can be made according to the technical solution described in the patent for the invention RU No. 2666458.

The operation of the claimed utility model consists in the fact that the user uses a means of personal protection of the body from the biological factor.

Built-in sensors for air temperature, air humidity and carbon dioxide content in the air transmit information about the recorded values to the microprocessor, which processes information from sensors of air temperature, air humidity and carbon dioxide content in the air and calculates, based on these values, an assessment of the potential danger of the underwear microclimate for operability and reliable activities of the user of the protection tool.

Based on the calculated assessment, the microprocessor controls the LED glow mode "green" - safe, "yellow" - potentially dangerous, "red" - dangerous. The microprocessor also manages the recording of information from sensors and integral evaluation into the drive with non-volatile memory - the analysis of this information ensures the achievement of the claimed technical result.

Claims (1)

Personal protective equipment for the body against a biological factor, characterized in that it is made in the form of a coverall made with the possibility of forced air supply, on the front of which there is a diagonal connector, a hood with a transparent panoramic screen, cuffs, non-removable shoe covers, positive pressure relief valves, an inner autonomous filter-ventilation device containing an anatomical mouthpiece connected through the air flow distribution device to the air supply unit and the filter, the air supply unit is connected to the battery, and the diagonal connector of the front part of the overalls is equipped with one pressure zipper, the internal independent filter-ventilation device is made with the possibility of threading through the head, the battery and the control panel are made with the possibility of fastening with a belt on the belt, the air supply unit is located in a recess inside the hood, and the filter is attached to it from the outside through an adapter, the back pressure valve is connected to the air supply unit through the air duct, the positive pressure relief valves are placed in pockets on the the rear surface of the overalls with the help of an adhesive bond, additionally reinforced with tapes from the base material by air welding, each valve contains two plate-type silicone membranes, the first membrane is fixed outside the overalls in a pocket, the second - under the first membrane with vertical displacement in the undersuit space through an additional layer polyvinyl chloride, characterized in that the jumpsuit has built-in sensors for air temperature, air humidity and carbon dioxide content in the air, a storage device with non-volatile memory, a microprocessor and a three-mode LED, sensors for air temperature, air humidity and carbon dioxide content in the air, a storage device with non-volatile memory and a three-mode LED are connected to the microprocessor, the sensing elements of the sensors for air temperature, air humidity and carbon dioxide content in the air are made flush with the inner surface of the overalls, and the front surface of the three-mode LED is flush with the outer surface of the overalls, the microprocessor is configured to process information from the sensors of air temperature, air humidity and the content of carbon dioxide in the air and the calculation of these values for assessing the potential danger of the under-clothing microclimate for the performance and reliable activity of the wearer of the protective equipment.