RU78431U1 - CONTAMINATED AIR PENETRATION KIT UNDER INDIVIDUAL PROTECTION - Google Patents

Abstract

The utility model relates to the field of technology for testing personal protective equipment, primarily respiratory or respiratory devices, and can mainly be used to detect and localize the penetration of contaminated air into the space under the personal protective equipment of the respiratory system when testing them, when selecting them by design and size, and also when learning the skills of their proper application.

The kit contains a container with a fluorochrome solution, an aerosol generator, an ultraviolet illuminator, a mirror, a fluorochrome remover, and a case for accommodating the elements of the kit. In this case, a solution of 0.1-0.2 g of eosin in 5 ml of ethanol with the addition of 1 ml of glycerol and bringing its volume to 100 ml with distilled water was used as a solution of fluorochrome; a napkin or cotton wool impregnated with a solution was used as a means for removing fluorochrome ethyl alcohol, and a portable inhaler-sprayer was used as an aerosol generator. The case for accommodating the elements of the set is made in the form of a suitcase and is equipped with a sheet of polymer material installed inside the suitcase and equipped with cavities molded in accordance with the shape and size of the elements of the set. The kit is also equipped with personal respiratory protection for the operator, safety glasses for the operator, rubber gloves and safety glasses for the subject.

The utility model provides an increase in the convenience of using the kit as a portable means of testing personal protective equipment, as well as the possibility of testing the subjects themselves without the operator and cleaning the subject’s face from the fluorochrome remaining on his face after completion of the tests. 1 n.p. f-ly, 10 z.p. f-ly, 1 ill.

Description

The utility model relates to the field of technology for testing personal protective equipment, primarily respiratory or respiratory devices, and can mainly be used to detect and localize the penetration of contaminated air into the space under the personal protective equipment of the respiratory system when testing them, when selecting them by design and size, and also when learning the skills of their proper application.

A known installation for monitoring respirators for the total coefficient of slip and suction in dust (SU 202561, 1967), which contains a dust chamber with a fake human head and an electric motor equipped with a fan impeller, a dust meter, a crane pulsator with two fittings, a photoelectric nephelometer, replaceable dust filters with manometers, a filter for cleaning compressed air and rubber hoses with calibrated diaphragms and screw clamps.

A device for testing respirators is known, which makes it possible to carry out the known method of monitoring respirators for dustproofness (SU 247788, 1969). The specified known device contains a dust dispenser, a pneumatic device for clamping the test respirator, nephelometer, pressure gauge, hoses, fittings and valves.

A device for testing respirators is also known (RU 51342 U1, 2005), which contains an air supply pump and a pressure meter connected through a switching tap with the ability to connect a tested respirator to them, a rubber head phantom with pump and pressure relief valves, as well as two air highways.

The common disadvantages of the above devices for controlling and testing respirators are the significant weight, dimensions, cost and energy consumption, as well as the complexity of their design and operation, due to the use of compressed air, which makes it possible to use these devices only in a testing laboratory, and, for example, not in production where respirators are used for their intended purpose. In addition, these known devices provide for testing respirators only using a dummy of a person’s head, but do not provide the ability to test them in a position worn on the user's head. This circumstance prevents the possibility of using these devices for the selection of personal protective equipment for respiratory organs by design and size in accordance with

individual anthropometric data of the user's head, as well as for teaching the user the correct use of personal respiratory protection.

Closest to this utility model is a test kit for respirators, which allows you to implement a known method for detecting the localization of suction of contaminated air in personal respiratory protection (RU 2198006 C1, 2003). The specified known kit, which is the closest analogue, contains an aerosol generator, a bottle with a solution of 0.1 g of eosin in 5 ml of ethyl alcohol, to which 1 ml of glycerin is added and which is brought to 100 ml with distilled water to obtain a luminescent aerosol using an aerosol generator and an ultraviolet emitter, illuminated by which a luminescent aerosol is penetrated under the respiratory protective equipment and deposited on the face of the user or the inner surface of the respirator.

When using the specified kit, which is the closest analogue, for testing a respirator, the operator directs the fluorochrome aerosol stream into the respiratory zone of the test person with a donned respirator and after removing the respirator, the fluorochrome penetrates under the respirator and luminesces under ultraviolet light.

The specified known kit for testing respirators, which is the closest analogue, in comparison with the analogues listed above, has significantly lower values of mass, dimensions, cost and energy consumption, and is also significantly simpler in the design of its elements and the operating procedure, which allows it to be used in a testing laboratory , and in production, where respirators are used for their intended purpose. Testing the respirator in the position that is worn on the user's head, and not on her dummy, allows you to use this kit in addition to select personal respiratory protection equipment by design and size in accordance with individual anthropometric data of the user's head, as well as to educate the user on the proper use of the means personal respiratory protection.

At the same time, the absence of a case in the kit to accommodate its elements reduces the usability of the kit as a portable means of testing personal protective equipment, which is important for use in production where respirators are used for their intended purpose. The composition of this known set, which is the closest analogue, allows testing of a respirator worn on a test subject, only with the participation of

an operator who, after removing the respirator by the subject, observes a fluorochrome that has penetrated beneath the respirator and has settled on the subject’s face, luminescent under ultraviolet light, but does not allow testing without the operator’s participation, who cannot observe the luminescent fluorochrome on his face. In addition, the fluorochrome remaining on the subject’s face after completion of the test contaminates the subject’s face.

The objectives of this utility model are to increase the usability of the kit as a portable means of testing personal protective equipment, as well as to enable testing by the test subjects themselves without the operator and the ability to clean the subject’s face from the fluorochrome remaining on his face.

The tasks are solved, according to this utility model, in that the kit for detecting the penetration of contaminated air under personal protective equipment, containing a container with a solution of fluorochrome, an aerosol generator and an ultraviolet illuminator, differs from the closest analogue in that it is equipped with a mirror and means for removing fluorochrome and a case to accommodate the elements of the set.

In this case, a solution of 0.1-0.2 g of eosin in 5 ml of ethyl alcohol with the addition of 1 ml of glycerol and bringing its volume to 100 ml with distilled water was used as a fluorochrome solution.

The kit is equipped with personal respiratory protection for the operator, safety glasses for the operator, rubber gloves and safety glasses for the subject.

As a means for removing fluorochrome, a napkin impregnated with a solution of ethyl alcohol or cotton wool soaked with a solution of ethyl alcohol was used, and a portable inhaler spray was used as an aerosol generator.

The case for accommodating the elements of the set is made in the form of a suitcase and is equipped with a sheet of polymer material installed inside the suitcase and equipped with cavities molded in accordance with the shape and size of the elements of the set.

Supply of a kit for detecting the penetration of contaminated air under the personal protective equipment case for housing elements of the kit, for example, made in the form of a suitcase and provided with a sheet of polymer material installed inside the suitcase and provided with cavities,

molded in accordance with the shape and size of the elements of the kit, allows you to place the kit in the case, which increases the usability of the kit as a portable means of testing personal protective equipment.

Providing a kit for detecting the penetration of contaminated air under the personal protective equipment with a mirror makes it possible for the test to be carried out by the subjects themselves without the participation of the operator, since after removing the personal protective equipment, the subject can determine the presence of fluorochrome on his face by observing it in the mirror.

The supply of a kit for detecting the penetration of contaminated air under a personal protective equipment with fluorochrome remover, for example, a napkin or cotton wool soaked in a solution of ethyl alcohol, makes it possible to clean the subject from fluorochrome remaining on his face after testing.

The aforementioned testifies to the solution of the declared tasks of the present utility model due to the presence of the above distinguishing features in the kit for detecting the penetration of polluted air under the personal protective equipment.

The drawing shows a kit for detecting the penetration of contaminated air under the personal protective equipment, the elements of which are placed in a case for accommodating the elements of the kit, made in the form of a suitcase and shown with the lid open, where 1 is a case, 2 is a cover, 3 is a sheet of polymer material, 4 - a cavity for the element, 5 - an inhaler-nebulizer, 6 - an ultraviolet illuminator, 7 - a container with fluorochrome solution, 8 - a mirror, 9 - a container with a cleaning solution, 10 - safety glasses for the operator, 11 - safety glasses for the subject, 12 - rubber p rchatki, 13 - 14 and a napkin - respirator.

The kit for detecting the penetration of contaminated air under the personal protective equipment contains a case 1, which is made in the form of a suitcase with a lid 2 connected by a hinge, a transfer handle and locks to fix the lid 2 in the closed state. The case 1 is provided with a sheet 3 of polymeric material, which is installed inside the case 1 and provided with cavities 4 for elements molded in accordance with the shape and size of the elements of the set.

As an aerosol generator, the kit contains a portable nebulizer 5 with a power supply, which can be used portable monsoon aerosol nebulizer "Monsoon-1M"

(manufacturer Plant "EMA", Moscow), providing the formation of aerosol particles predominantly with a size of less than 5 microns with a capacity of 0.4 ml / min, a portable ultrasonic aerosol inhaler-sprayer "Flora" (manufacturer Production Association "Akhtuba", Volgograd), providing the formation of aerosol particles predominantly with a size of less than 50 microns at a productivity of 1.4 ml / min, or the portable pneumatic nebulizer-nebulizer "Voyage" (manufacturer Mifor SPA, Italy), providing the formation of particles of aerosol To advantageously with a size of 0.5-0.6 mm at an output of 0.25 ml / min.

The kit also contains an ultraviolet illuminator 6 with a power source, which can be used as a portable ultraviolet illuminator OLD-41 with a compact lamp LUF-4, made in Russia, a portable ultraviolet illuminator model 833 with a mercury lamp PRK-2 or PRK-4, made in Russia , or portable ultraviolet illuminator "LUM" with a mercury lamp PRK-2 or PRK-4, manufactured in Russia.

The kit also contains a container 7 with a solution of fluorochrome, as a solution of 0.1-0.2 g of eosin in 5 ml of ethyl alcohol with the addition of 1 ml of glycerol and bringing its volume to 100 ml with distilled water, as well as a container 9 with a cleaning solution , which is used as a 40 percent solution of ethyl alcohol. The container 7 with the fluorochrome solution and the container 9 with the cleaning solution are equipped with plugs that make it possible to seal them tightly to prevent evaporation of the solutions contained in them during storage.

In addition, the kit for detecting the penetration of contaminated air under the personal protective equipment includes a mirror 8, safety glasses 10 for the operator, safety glasses 11 for the subject, rubber gloves 12 to protect hands from fluorochrome solution, wipes 13 and a respirator 14, which is used to protect against aerosol of the respiratory system of the operator during his work. Safety glasses 10 for the operator and safety glasses 11 for the subject are made with the possibility of protecting the eyes of the operator and the subject, respectively, from aerosol and ultraviolet radiation. As a respirator 14 can be used light anti-aerosol respirators brand "Petal" or "Alina".

A kit for detecting the penetration of contaminated air under personal protective equipment is used as follows. Moreover, all operations are performed by the test subject or operator.

Open the cover 2 of the case 1, take out an inhaler-nebulizer 5 and an ultraviolet illuminator from the cavities 4 for sheet elements 3 of the polymeric material

6 and prepare them for work in accordance with the instructions for use. The operator or subject, working in rubber gloves 12, removes a container 7 with a solution of fluorochrome from a case 1 and pours a solution of fluorochrome into the chamber of the nebulizer-nebulizer 5.

The test person or the operator working in the operator’s goggles 10, in a dark room, illuminates the subject’s face, wearing protective glasses 11 for the subject, with ultraviolet light using an ultraviolet illuminator 6, visually identifying luminescent areas on the subject’s face. When the luminescent areas on the face are detected by the test subject himself, he uses a mirror 8. In case of significant contamination of the subject’s face skin with fat secretions or traces of food, toothpaste, cosmetics or fluorochrome remaining after previous tests, the subject is washed and thoroughly wiped with a towel, and if it is found traces of fluorochrome additionally wipes the face with a napkin 13 moistened with a cleaning solution from a container 9 with a cleaning solution, after which it is again checked in ultraviolet light surface cleanliness of the subject.

The subject prepares and puts on the inspected personal protective equipment, as well as safety glasses 11 for the subject. The operator, working in goggles 10 for the operator and the respirator 14, or the subject himself turns on the nebulizer 5 and directs the fluorochrome aerosol stream into the subject's breathing zone and around the obturator circumference of the tested personal protective equipment. The subject should breathe evenly and deeply with his nose for, for example, 1 minute, and at the same time perform head turns from side to side with a breath in the extreme positions of the head for, for example, 15 s, nodding his head up and down for, for example, 15 with inhaling in the upper position, mimic movements, for example, smile or lower the lower jaw (with closed mouth) for, for example, 15 s, speak loudly, for example, pronounce the alphabet or count for, for example, 15 s.

After performing these steps, the inhaler-spray 5 is turned off and the test subject carefully removes the tested personal protective equipment. A test person or an operator working in operator’s goggles 10 in a dark room using an ultraviolet light 6 sequentially illuminates with the ultraviolet light first the face of the subject wearing protective glasses 11 for the subject, and then the inner surface of the test personal protective equipment, visually revealing luminescent areas on them . When identifying luminescent areas on his face, the subject himself uses a mirror 8. When identifying luminescent areas

pay special attention to the presence or absence of a characteristic glow on the subject's face in the area of nasolabial folds, nose bridge, nose wings, nostrils, on the cheeks and chin, and on the tested personal protective equipment the presence of a glow along the obturation strip and in the upper part of the inner surface of the half mask.

After the test, the subject is washed and, observing his face in the mirror 8, cleans his face from the remnants of fluorochrome, wiping the skin with a tissue 13 moistened with a cleaning solution from a container 9 with a cleaning solution.

Thus, the present utility model provides an increase in the convenience of using the kit as a portable means of testing personal protective equipment, as well as the possibility of testing the subjects themselves without the operator and cleaning the subject’s face from the fluorochrome remaining on his face after testing.

Claims (11)

1. A kit for detecting the penetration of contaminated air under personal protective equipment, containing a container with a solution of fluorochrome, an aerosol generator and an ultraviolet illuminator, characterized in that it is equipped with a mirror, means for removing fluorochrome and a case for accommodating the elements of the kit. 2. The kit according to claim 1, characterized in that a solution of 0.1-0.2 g of eosin in 5 ml of ethyl alcohol with the addition of 1 ml of glycerol and bringing its volume to 100 ml with distilled water is used as a fluorochrome solution. 3. The kit according to claim 1, characterized in that it is equipped with personal respiratory protection for the operator. 4. The kit according to claim 1, characterized in that it is equipped with safety glasses for the operator. 5. The kit according to claim 1, characterized in that it is equipped with rubber gloves. 6. The kit according to claim 1, characterized in that it is equipped with goggles for the subject. 7. The kit according to claim 1, characterized in that a napkin impregnated with a solution of ethyl alcohol is used as a means for removing fluorochrome. 8. The kit according to claim 1, characterized in that as a means for removing fluorochrome used cotton wool soaked in a solution of ethyl alcohol. 9. The kit according to claim 1, characterized in that a portable inhaler nebulizer is used as an aerosol generator. 10. The kit according to claim 1, characterized in that the case for accommodating the elements of the kit is made in the form of a suitcase. 11. The kit according to claim 1 or 10, characterized in that the case for accommodating the elements of the kit is provided with a sheet of polymer material installed inside the suitcase and equipped with cavities molded in accordance with the shape and size of the elements of the kit.