RU2734299C1 - Personal protective mean against pathogenic microorganisms and viruses - Google Patents

Abstract

FIELD: medicine; personal protective equipment.

SUBSTANCE: invention refers to medicine, namely to individual protection means of respiratory organs, eyes, skin and scalp of people head against airborne and contact transmitted viral and bacterial infections. Invention can also serve to protect the atmosphere of the room in which the user resides, from bacteria and viruses released by the user during breathing. Personal protective equipment (PPE) comprising a bearing frame with a transparent face panel, a mechanism for fixing and adjusting the installation of the personal protective means on the user's head, detachable fabric cape made with possibility of fixation with seal on front panel and parts of frame, as well as with sealing band in neck area, air treatment unit, air path of which consists of suction chamber, air disinfection means and fan, which is made with possibility to provide air supply into undermask space and maintaining in it the excessive pressure and flow rate, exceeding the value required for the inhalation phase implementation, as well as air release device from undermask space, power supply, control unit. At that, air treatment unit is installed on frame, and air path of treatment unit is connected by air duct with undermask space so that outlet part of air duct is oriented with flowing jet to inner surface of front panel.

EFFECT: technical result consists in increase in failure-free operation time both in terms of protection against pathogenic microorganisms, and in terms of improving PPE user characteristics, ease of use and maintenance of long performance efficiency of user.

17 cl, 3 dwg

Description

The invention relates to medicine, namely to a means of personal protection of the respiratory organs, eyes, skin and scalp of people from viral and bacterial infections transmitted by airborne droplets and contact. The invention can also serve to protect the atmosphere of the room in which the user resides from bacteria and viruses breathed out by the user.

Closest to the claimed invention is a well-known personal protective equipment (hereinafter - PPE) (RU2644097, publ. 02/07/2018), consisting of an individual protective mask, including a shield made of transparent material that protects the user's eyes and breathing, and a separate portable devices for processing and supplying air by a built-in fan, connected to each other by means of a flexible air duct, from which air passes into the inner channel of the mask, located on its inner face, either in the upper part or in the lower part. According to the invention, the mask is configured to supply suitable (improved in its composition and properties) breathing air in a volume compensating for the inhalation phase. Due to the forced supply of air and the creation of excess pressure in the space under the mask, air from the environment does not enter the organs of vision and respiration, and the constant movement of air prevents fogging of the transparent material of the mask. At the same time, patent RU2644097 emphasizes that the forced supply of breathable air is provided in a volume that compensates for the inhalation phase. Such a limitation can have negative consequences both for creating an increased pressure in the mask space, and in the formation of a constant air movement under the mask. The portable air handling unit consists of a body with a lid in the form of a replaceable cartridge. Inside the replaceable cartridge are six types of filter media, including a photocatalytic filter, as well as physical and chemical treatment, in particular, aromatic modification of the air coming from outside. In addition, a means for increasing air humidity can be inserted into the cartridge, for example, a microporous breathable cloth moistened with water with good capillary permeability. Reducing air humidity can be carried out by, for example, a device with moisture-absorbing substances (silica gel, some anhydrous salts). The source of ultraviolet radiation (hereinafter referred to as UV) - ultraviolet LEDs - is used to activate the photocatalytic filter. The LEDs and fan are powered by a compact battery installed in the portable device case. In addition, the portable device contains an electronic unit for changing the physical parameters of the air supplied from the outside. Air cooling can be carried out by means of a thermoelectric module, the heating part of which is in communication with the external environment (the location of the module is not specified). Heating elements can be installed both inside the main body and in the air duct of the structure. On the case of the portable device there are magnets, a battery charge and discharge indicator, and an electronics control unit.

The prototype tool has the following disadvantages:

- redundancy and rise in cost of the filtering set for the air of medical institutions;

- using UV only to activate the photocatalytic filter, which requires great care and regular replacement;

- limiting the air flow rate by the amount of supply per inspiration phase;

- the impossibility of continuous long-term use of PPE without repeated replacement of the means for increasing the air humidity in the cartridge (for example, a microporous breathable fabric moistened with water, with good capillary permeability);

- energy consumption of using a thermoelectric module for air cooling, the heating part of which is in communication with the environment;

- inconvenience associated with the need to place and fix the portable device on the user's protective suit on the belt or behind the back in the form of a knapsack;

- the lack of a device for removing from the undermask space instruments and tools necessary for the user in the process of work, for example, a phonendoscope tube or a fiberoptic bronchoscope eyepiece;

- inability to adjust the position of glasses on the user's face;

- lack of protection of the atmosphere of the room in which the user of PPE stays from bacteria and viruses exhaled by the user.

A technical problem is the need to develop a reliable antiviral and antibacterial PPE capable of maintaining a high degree of protection for a long time in a continuous mode and providing a comfortable state for the user both in terms of breathing and in terms of eliminating the inconvenience associated with placing and fixing a portable device on a protective suit, and also the inconvenience associated with the inability to adjust the position of the glasses on the user's face, as well as to provide the output of built-in devices and tools necessary for the user in the process of work.

The technical result consists in increasing the uptime both in terms of protection against pathogenic microorganisms, and in terms of improving the user characteristics of PPE, ease of use and maintaining a long working time of the user.

The technical result is achieved by the fact that in personal protective equipment, including a supporting frame with a transparent front panel, a mechanism for fixing and adjusting the installation of personal protective equipment on the user's head, a removable fabric cape made with the possibility of fixing with a seal on the front panel and parts of the frame, and with a sealing band in the neck area, an air preparation unit, the air path of which consists of a suction chamber, air disinfection means and a fan designed to provide air supply to the undermask space and maintain excess pressure and flow in it, exceeding the value required for the phase inhalation, as well as a device for releasing air from the undermask space, a power source, a control unit, according to the invention, the air preparation unit is installed on the frame, and the air path of the preparation unit is connected by an air duct to the undermask space in such a way that the outlet part b of the duct is oriented with the flowing jet towards the inner surface of the front panel.

The above design provides reliable PPE capable of maintaining a high degree of protection for a long time (in particular, disinfection by 99.9%) and providing a comfortable state for the user, both in terms of breathing (inhaling and exhaling without stress) and in terms of eliminating inconveniences. associated with the need to place and fix the preparation unit on a protective suit (on the belt or behind the back) or the inability to adjust the position of the glasses on the user's face during work. In addition, in the fabric cape and in the front panel, there are sealing devices for outputting built-in devices and tools necessary for the user in the process of work. The main aspect of the claimed invention is the connection of the air preparation unit to the frame and the direct supply of the prepared air through the air duct to the mask space. This provides effective disinfection, and also allows you to increase the uptime both in terms of protection against pathogenic microorganisms, and in terms of maintaining a long time of user's working capacity.

In the most preferred embodiment of the invention, the device is characterized as follows:

- personal protective equipment against pathogenic microorganisms and viruses, including a supporting frame with a transparent front panel, a mechanism for fixing and adjusting the installation of personal protective equipment on the user's head, a removable fabric cape fixed with a seal on the front panel and parts of the frame, as well as with a sealing band in the neck area, an air preparation unit, consisting of a suction chamber with a means of air disinfection, a fan that provides air supply to the undermask space and maintains an overpressure and flow in it exceeding the value required for the inhalation phase, a device for releasing air from the undermask space, a source power supply, control unit,

- the air preparation unit is installed on the frame, for example, through vibration damping pads, and the air path of the preparation unit is connected by an air duct to the mask space in such a way that the outlet part of the air duct is oriented by the flowing stream towards the inner surface of the front panel.

Other aspects of the invention include the following:

- the air preparation unit is located in the upper part of the frame;

- the mechanism for fixing and adjusting the installation of personal protective equipment on the user's head is fastened to the supporting frame and is made in the form of flexible rods with variable length, covering the head and limiting the displacement from the individually installed position of the means on the head along three degrees of freedom, regardless of the orientation of the head relative to the force of gravity;

- the air disinfection means includes, if necessary, an ultraviolet radiation source located in the air duct of the preparation unit, while the walls of the air duct around the radiation source are covered with a material that reflects ultraviolet radiation in the operating wavelength range;

- the fan and its mount are in contact with the preparation unit through vibration damping pads;

- the air path of the preparation unit, including the air duct, is shielded with sound insulating material;

- devices for releasing air from the mask space are located on the elements of personal protective equipment and can be made in the form of check valves or in the form of permanently open holes with adjustable flow sections, and also equipped with replaceable filters;

- at least a part of the inner surface of the air duct is coated with a water-absorbing material, moreover, there are channels in the wall for supplying distilled water, performing evaporative cooling of the air, while water is dosed into the coating from a removable container fixed to the frame;

- a sealing outlet of built-in devices and tools necessary for the user in the process of work is made in the fabric cape, for example, the phonendoscope tubes, the spring-loaded ear tips of which are located inside the cape and are installed in the ears or put into a free position by the hands of the user who contacts them through the fabric cape;

- the front panel is made in the form, the width and coverage of the face of which allow in the space under the mask to adjust the position of the vision correcting glasses on the face by the hands of the user who contacts them through the fabric cape;

- on the front panel there are devices for installing fiber-optic devices necessary for the user in the process of work, for example, a fiberoptic bronchoscope eyepiece.

The inventive device is illustrated by drawings, where figure 1 shows a side view of a PPE device without a cloth cape with the arrangement of frame parts on the user's head, figure 2 is a side view of a PPE with a cloth cape, figure 3 is a top view.

Figure 1 shows PPE on the head of user 1 (cloth cape not shown). The face plate 2 is made of transparent material and is fixed in the frame 3 of the supporting frame 4. The air preparation unit 5 is installed on the frame 4 and is located in its upper part. A fan 6 is installed in the air path of the preparation unit 5, which provides air supply to the undermask space and maintains an excess pressure and a flow rate in it that exceeds the value required for the inhalation phase. Air disinfection means are also placed in the air path of the preparation unit 5, in particular, replaceable filters 7. Filters can be type-set with filtration stages from coarse to fine cleaning. Several stages of disinfection (filtration) can be combined in one device, for example, in a bacterial-viral electrostatic (membrane) filter. In addition, UV sources (not shown in Fig. 1) in the wavelength range of 220-260 nm, which are most destructive for all types of pathogens, can be included in the disinfection means. The air path of the unit 5 is connected by the air duct 8 with the undermask space in such a way that the jet from the air duct 8 is directed to the plate 2 (arrows B). Air release devices 9, located on the elements of personal protective equipment, for example, on the elements of the frame 4 (arrows C), can be made in the form of check valves, permanently open holes with adjustable flow sections and equipped with replaceable filters (not shown in figure 1) to clean the air exhaled by the user. The structure of the preparation unit also contains a compact battery and an electronic control unit (not shown in Fig. 1).

The mechanism for fixing and adjusting the installation of personal protective equipment on the user's head is fastened to the supporting frame and is made in the form of flexible rods 11 with variable length, covering the head and limiting the displacement from the individually installed position of the means on the head along three degrees of freedom, regardless of the orientation of the head relative to the force of gravity ... The adjustment mechanism allows you to vary the comfortable inclination of the front panel to the user's face relative to the supporting frame during operation. The shape of the front panel (in particular, the width and coverage of the face) allows in the space under the mask to adjust the position of the vision correcting glasses on the face with the hands of the user who contacts them through the fabric cape.

FIG. 2 shows PPE with a removable fabric cape 13, fixed with a seal on the front panel 2 and parts of the frame 4, as well as with a sealing band in the neck 14. A sealing outlet 15 is made in the fabric cape 13 for built-in devices and tools necessary for the user during work , for example, the tubes of the phonendoscope 16, the spring-loaded ear tips of which are located inside the cape and are installed in the ears (as shown in Fig. 1) or are brought into a free position by the hands of the user who contacts them through the fabric cape 13.

Various designs of the front panel 2 are possible. For example, to provide a predominantly frontal view, the frontal part of the panel is made either flat or with a large bending radius, providing an undistorted frontal view. The sides of this panel, on the other hand, are bent under a relatively small radius. Such a panel can be used, for example, by a surgeon during an operation. If it is necessary to use an objective, as, for example, in fiberoptic bronchoscopy, a hole 12 with a removable plug can be made in the panel 2 (see Fig. 3). The panel, which is flat in the front part, is also convenient for transferring the picture projected by the fiberoptic bronchoscope directly to panel 2 or, in the form of a hologram, in front of the panel. On the front panel 2, other devices for installing fiber-optic devices, necessary for the user in the process of work, can also be placed. To provide a "panoramic" view, the front part of the panel 2 can be slightly curved, and the side parts are smoothly bent away from the front. The design of both "panoramic" and "front" panels provides for convenient use of glasses that correct vision.

The device works as follows. Before using the PPE, the user performs an individual adjustment by changing the length of the rods 11 to limit displacements from the installed position of the device on the head in three degrees of freedom, regardless of the orientation of the head relative to the force of gravity. If necessary, the head of the phonendoscope 16 is passed through the sealing outlet 15 of the cloth cover 13. The ear tips of the phonendoscope are installed in the ears (as shown in Fig. 1) or are moved to a free position by the hands of the user who contacts them through the cloth cover 13. Before putting on the PPE, the user turns on the fan , setting the required speed, and hence the air flow and pressure depending on the type of outlet: check valve, orifice with adjustable bore and / or filter. After putting on the PPE, the user tightens the sealing band 14 of the cape 15.

Air is sucked in from the surrounding atmosphere and passes through the means of disinfection: replaceable filters 7 (arrows A) and near the UVR source (if any). The prepared air is blown by the fan 6 through the air duct 8 into the under-mask space at an angle to the front panel 2 (arrows B). Moving along the front panel 2, the air washes the user's face, is consumed for inhalation, spreads with exhalation under the fabric cape, unfolds and goes into the air release device 9 (arrows C). The hydraulic resistance of the devices 9, when the fan 6 is running, maintains excess pressure in the mask space. If there is an outlet filter in the device 9, the exhaled air diluted with an excessive flow rate goes into the room cleaned of possible pathogenic microorganisms of the user. The check valve in the device 9 prevents the outside (contaminated) air from entering the undermask space when the user inhales if the fan stops.

The claimed invention is illustrated by example.

An experimental study was carried out of the influence of the main distinctive features of the invention on increasing the uptime, both in terms of protection against pathogenic microorganisms, and in terms of maintaining a long working time of the user. For this, a sample was collected, which was based on the design features characteristic of the claimed PPE. As a means of air disinfection were used

bacterial and viral electrostatic filters from Mederen (4 filters) at a set air flow rate through the air path of the air preparation unit of 98 l / min.

The test was carried out in two stages. At the first stage, the efficiency of disinfection of air supplied to the mask space was investigated. For this, the working PPE, separately from the user, was placed for 10 hours in a "dirty" zone, the air of which was distinguished by a high pathogenic microflora. Air sampling from PPE for the study was carried out 4 times every 2.5 hours. The control of contamination of the room air and samples was carried out by the sedimentation method in accordance with the methodology of the Manual R.3.5.1904 - 04. 2 Petri dishes with 2% nutrient agar are placed on the work table in the volume of sampled air (including initially contaminated air). open them for 15 minutes. Crops are incubated at 37 ° C for 48 hours. With the growth of no more than 3 colonies per dish, the level of microbial contamination of the air is considered acceptable. With a larger number of colonies, the number of microorganisms in 1 m ^{3 of} air is determined according to the Omelyansky formula, according to which as many microbial cells settle in dishes with a nutrient medium with an area of 100 cm2 for 5 min as are contained in 10 liters of air:

X = a * 100 * 1000 * 5 / b * 10 * T

where X is the number of microbes in 1 m ³ (1000 l) of air; a - the number of grown colonies in dishes; b is the area of the cup (80 cm ² ); 5- exposure time according to Omelyansky's rule; T is the time during which the cup was opened; 10 - 10 liters of air according to the Omelyansky rule; 1000 - 1 m ^{3 of} air; 100 - 100 cm ^{2 of the} nutrient medium.

With the initial air pollution in the working room of about 2000 microorganisms in m ³ , more than two colonies were not recorded in Petri dishes in all four air samples from PPE. The test result is positive.

At the second stage, PPE was tested directly by the user who worked for 8 hours in the “dirty” area of the hospital. The presence of constant overpressure in all parts of the undermask space was confirmed, which excluded contact of the respiratory organs, eyes, scalp and scalp with the atmosphere of the room. The freedom of inhalation and exhalation is confirmed during the entire working time. No fogging of the face of the helmet and limitation of the field of vision confirmed. The operability and comfortable state of the user has been confirmed during the entire operation time. The possibility of using glasses correcting vision and a phonendoscope has been confirmed.

Claims (17)

1. Personal protective equipment, including a supporting frame with a transparent front panel, a mechanism for fixing and adjusting the installation of personal protective equipment on the user's head, a removable fabric cape made with the possibility of fixing with a seal on the front panel and parts of the frame, as well as with a sealing band in the area neck, an air preparation unit, the air path of which consists of a suction chamber, a means of air disinfection and a fan made with the possibility of supplying air to the undermask space and maintaining an excess pressure and flow in it exceeding the value necessary for the inhalation phase, as well as a device air outlet from the mask space, a power source, a control unit, characterized in that the air preparation unit is installed on the frame, and the air path of the preparation unit is connected by an air duct to the mask space in such a way that the outlet part of the air duct is oriented outflowing from pipes to the inner surface of the front panel. 2. Means according to claim 1, characterized in that the air preparation unit is located in the upper part of the frame. 3. The device according to claim 1, characterized in that the mechanism for fixing and adjusting the installation of personal protective equipment on the user's head is fastened to the supporting frame and is made in the form of flexible rods with variable length, covering the head and limiting the displacement from the individually installed position of the device on the head along three degrees of freedom regardless of the orientation of the head relative to the force of gravity. 4. Means according to claim 3, characterized in that the fixing and adjusting mechanism allows you to vary the angle of installation of the front panel relative to the supporting frame during the user's work; 5. A device according to claim 1, characterized in that the air disinfection means includes an ultraviolet radiation source located in the air path of the preparation unit. 6. Means according to claim 5, characterized in that the walls of the air duct around the radiation source are covered with a material that reflects ultraviolet radiation in the operating wavelength range. 7. Means according to claim 1, characterized in that the fan and its attachment contact the preparation unit through vibration damping pads. 8. A device according to claim 1, characterized in that the air path of the preparation unit, including the air duct, is shielded with sound insulating material. 9. Means according to claim 1, characterized in that the devices for releasing air from the mask space are located on the elements of the personal protective equipment. 10. A device according to claim 9, characterized in that the devices for releasing air from the undermask space are made in the form of check valves. 11. A device according to claim 9, characterized in that the devices for releasing air from the undermask space are made in the form of constantly open holes with adjustable flow sections. 12. The agent according to any one of paragraphs. 9, 10 and 11, characterized in that the air release devices from the undermask space are equipped with replaceable filters. 13. Means according to claim 1, characterized in that a part of the inner surface of the air duct is made with a coating of water-absorbing material, and the wall has channels for supplying distilled water, performing evaporative cooling of the air, while water is metered into the coating from a removable container, fixed to the frame. 14. Means according to claim 1, characterized in that a sealing outlet of built-in devices and tools necessary for the user in the process of work is made in the fabric cape. 15. A device according to claim 14, characterized in that a phonendoscope is used as a built-in device, the spring-loaded ear tips of which are located inside the fabric cape and are configured to be installed in the ears or put into a free position by the hands of a user who contacts them through the fabric cape. 16. Means according to claim 1, characterized in that the front panel is made in a shape, the width and coverage of the face of which allow using glasses correcting vision in the space under the mask, and adjusting their position on the face by the hands of a user who contacts them through a fabric cape. 17. A device according to claim 1, characterized in that the front panel contains devices for installing fiber-optic devices required by the user during operation.

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