FI103260B - A method and apparatus for utilizing a protective mask exhaust gas - Google Patents

Description

, 103260

METHOD AND APPARATUS FOR THE USE OF PROTECTIVE MASK EXHAUST GASES

The present invention relates to a method and apparatus 5 for utilizing the exhaust gases of a protective mask in accordance with the claims, in particular when using gas masks whose filters produce strong air resistance when inhaled. The method and device are particularly suitable for children, the elderly, or the sick who are unable to breathe air through a filter or the like.

10 The monitoring and standardization of personal protective equipment (PPE) has come a long way, both nationally and internationally, and tests for the use of protective equipment under different conditions are required. Gas masks with a filter have been known and used for quite a long time. According to their method of operation the filters can be divided into particle filters, gas filters and combination filters.

15 Personal Protective Equipment are half masks that cover only the mouth and nose, full masks that also cover the eyes, or hood models that completely protect the head. Under normal conditions, gas masks are most commonly used in workplaces where the air is not directly breathable or where there is an obvious risk of the entry of substances harmful to the respiratory tract. Because working people are usually 20 adults and healthy, personal protective equipment has been designed and developed according to its users. Fire and rescue workers are also adult and healthy, which means that the same basic gas masks are also used in this area of use. Third; ' large users and applications are wartime users and applications.

The design criteria for gas masks used by soldiers are the same as for the 25 groups previously presented. On the other hand, the civil protection side cannot always use the same solutions as other sites. Of course, an advanced society must take care of all its members, even in exceptional circumstances. However, there is little development of personal protective equipment for children, the elderly, or the sick, and due to their cost and method of operation, these solutions may not always be suitable in exceptional circumstances.

2 103260

There are numerous methods and device solutions for reducing the flow resistance caused by a gas mask filter. One of the most common methods is to remove the flow resistor by means of a fan. With the advancement of technology, the electric motor-powered fan and the battery powered by them have become so small that they can easily be carried by the human being, for example, at the waist. However, under exceptional circumstances, recharging of batteries is not always possible and batteries are not available. Also, pressurizing and storing air or oxygen in a pressure vessel is a well-known and advanced technique. Of course, such tanks are difficult to fill in exceptional circumstances and only provide a solution to some specific cases.

10

Combining gas masks with a common source of respiratory air is a prior art and numerous patents have been filed for such methods and device solutions. The most common way to connect gas masks to a common source of air is to use flexible hoses. Instead, the flow control and distribution valves of the different solutions differ from each other. Operating systems and device solutions for multiple gas masks are disclosed, inter alia, in U.S. Patent Nos. 3,238,943, 3,995,626, 4,467,796 and 4,774,939.

Recirculation and re-use of inhaled air is known in the art of so-called closed-circuit gas masks. Such systems generally include a filter cartridge or the like for removal of carbon dioxide from the inhaled air. In closed systems, the recirculated air usually returns to the original user, whereby the connection applies to only one gas mask. Supplemental oxygen for breathing is supplied to the system from a • pressurized oxygen bottle or air bottle. Gas removal from the closed circuit may be effected, for example, through a gas mask discharge valve. The carbon dioxide removal filter 25 causes a flow resistance to the closed circuit. In order to maintain the same pressure in the closed circuit as outside it, it is provided with a flexible membrane that balances the pressure. U.S. Pat. It is an object of the present invention to provide a method and apparatus by which a conventional gas mask can be used to provide breathing air to children, the sick, or the elderly who have insufficient breathing capacity to use a gas mask. The device of the present invention is so simple in construction that it can be attached as an accessory to gas masks for civil protection purposes without incurring much 'extra cost.

5

The invention is based on directing a gas mask breathing air outlet for use by another person. The gas mask discharge valve is fitted with a pipe that leads to the masks of another person or persons, such as children. To equalize the amount of air in the pipe connected to the other masks, an equalization tank with a pressure equalizing diaphragm 10 is made and a carbon dioxide removal unit and / or a protective mask disinfection unit for the mask and the necessary non-return valves are prevented.

More specifically, the method and apparatus 15 of the invention for utilizing the protective gases of the mask are characterized in what follows in the following claims.

In the method of the invention for utilizing the protective gases of the protective mask, the exhaust gases of the at least one person are supplied by at least one protective mask or the like to another person's breathing air by means of a hose or similar arrangement. For the storage of the protective mask's exhaust gases, the hoses between the protective masks or an arrangement connected thereto, such as a tank, are of variable volume.

In a protective mask provided with an inhaled air purifier, such as a filter or the like, the exhaled air, i.e. the exhaust gases of the protective mask 25, is arranged to flow in one direction along the hoses or the like to at least one protective mask. The carbon dioxide content of the exhaust gas of the protective mask is reduced or the carbon dioxide is removed by means of a filter or similar arrangement. Also. 'A filter or the like may be used for disinfection before the exhaust gas of the protective mask is introduced into the breath of another person.

The device for utilizing a protective mask exhaust gas according to the invention comprises at least two protective masks or the like connected to each other by hoses or the like, at least one of which has a gas filter or the like entering from the outside of the protective mask or the like for breathing again. The hoses used for the transfer of the protective mask's exhaust gas, or exhalation air, are connected to the protective hood outlet and inlet valves, which direct the flow in one direction. One or more filters for disinfection and reduction or removal of carbon dioxide are connected to the exhaust hoses carrying the protective mask. The mask mask exhaust gas is stored for re-inhalation in a volumetric container equipped with a flexible bag-like membrane or with walls of 10 flexible materials for volume change. Exhaust gas transfer hoses include a flexible wall, inner wall, or bag to change the volume of the hose that serves as the storage tank for the exhaust gas. The exhaust gas receiving mask may also be a hood for the entire head or the like. The hood may be the only viable solution if the recipient is in infancy or if otherwise it is desired to ensure that the protective mask remains in place.

Significant advantages are achieved by the method and apparatus according to the invention for utilizing the exhaust gases of a protective mask. It has not been possible to obtain child or disability protection equipment on the market in the event of a gas accident or the like, 20 since it is scarcely manufactured. This has made it difficult to prepare for the protection of young children in cases such as nuclear accidents or war. The method and apparatus of the invention provide an economically advantageous solution to a civil protection problem. An ordinary gas mask can be fitted with an accessory that allows people who do not have sufficient breathing force to use the 25 gas masks.

The invention will now be described in more detail with reference to the accompanying drawings.

Figure 1 schematically illustrates an embodiment of the invention in which the exhaust gases of the protective mask 30 are supplied to two users.

5 103260

Figure 2 schematically illustrates an embodiment of the invention in which the exhaust gases of the protective mask are treated as a filter.

Figure 3 is a cross-sectional view of a protective gas outlet hose of variable volume.

In Figures 1 to 3, the number 1 refers to an exhaust gas recovery device for the mask 2. The exhaust mask mask mask 3 has a filter 5 attached to the air inlet 4. The inlet 4 is also generally provided with an inlet valve 6, 10 which prevents the exhaust gas from flowing through the filter S. The mask 3 further comprises at least one outlet 7 with an outlet valve 8. At the top of the mask 3 is a sight glass 9 for eye protection. At the back of the mask 3 are fastening straps 10 for attaching the protective mask 2 to the head.

15 The protective mask 2 is connected via hoses 11,12 and 13 to the protective mask 14 and the hooded protective mask 15. The hose 11 is attached to the outlet 7 of the protective mask 2 and at one end to the opening 17 of the container 16. may be small in size, making it suitable for use by, for example, a child. The hood mask 15 is suitable for up to 20 babies. At its simplest, the device according to the invention may be a plastic bag connected to the exhaust gas hose. The protective mask 14 may be of the same type as the protective mask 2. The hose 12 from the container 16 is secured to the opening 21 in the mask 20 of the protective mask 14, which has a valve 22 to prevent backflow. The exhaled air exits the protective mask 14 through the outlet 23 25 where the outlet valve 24 prevents the outdoor air from entering the protective mask 14. A mask glass 25 is attached to the mask 20 and a protective mask 14 is secured to the head by straps 26. The hose 13 from the container 16 is secured to the inlet 27 of the hooded mask 15, which also has a flow control valve 28. Exhaled air

6 103260

The walls 31 of the container 16 used for the storage of the exhaust gas buffer may be rigid, whereby the volume can be varied by means of a bag-like membrane 32. The purpose of the diaphragm 32 is also to maintain the pressure in the container 16 as it exits. Figure 2 shows a container 16 whose walls 33 are flexible so that no separate flexible film 5 is required. It is preferable to place the carbon dioxide and / or disinfection filter 34 in front of the container 16. The filter 34 may be of the most suitable type, for example, a cylinder filled with filler material 35.

Figure 3 illustrates a protective gas outlet gas transfer tube with a varying volume.

10 The hose shell 36 has openings 37 from which open air can enter the diaphragm 38. The membrane 37 attached to the inner surface of the hose may be tubular or pouch-like.

The method and apparatus according to the invention for utilizing the protective gases of the protective mask are used in the following manner. A healthy adult person puts on 15 protective masks 2, since only such a person is capable of inhaling through the filter 5. A disabled adult or child is provided with a protective mask 14 or a hooded protective mask 15. As the adult wearing the protective mask 2 exhales the exhaust gases through a hose 11 to either a filter 34 or a reservoir 16 where the pressure is equalized with external pressure. Persons wearing protective masks connected to the container 16 by hoses 12, 13 20 are able to breathe in an almost irresistible state. The only resistance is caused by the valves of the inlet openings 21, 27 and the outlet openings 23,29. Of course the air exhaled by one adult is not enough for one adult, but two children could be connected to the same system. If the protective mask 2 has two outlet openings 7, one of them 25 is closed so that the exhaust gases of the protective mask 2 can be led to the hose 11.

The exhaust gas quality may be improved by a carbon dioxide reduction or removal filter 34. In addition, the exhaust gas of the protective mask 2 may be disinfected with the same or separate filter 34. The exhaust gas of the protective mask 2 may be stored in either volumetric hoses 11, 12 either secured or detachable to the protective masks 2, 14, 15 and the container 16, whereby they must be followed by a self-closing mechanism when detached. Filters 34 7 103260 and reservoir 16 can be designed so that they can be attached to the waist or back of the wearer, so as to minimize the risk of movement.

It will be apparent to those skilled in the art that only a few embodiments of the invention have been described above, and that within the scope of the inventive idea, the method and apparatus of the invention can be applied quite extensively. It is clear that exhaled exhaust gas can be delivered by more than one person, and accordingly there may be several users. The method and apparatus of the invention can also be used as a support system, wherein the protective masks 14, 15 which receive the exhaust gas of the protective mask 2 are provided with 10 inhalation filters 5 and there may be several users. Also very simple applications, such as a plastic bag attached to the plastic tube 11 acting as a hood 15, fall within the scope of the inventive idea. The number of directional valves used in the system for flow control may be different from the above embodiments and may vary freely in type.

«

Claims (10)

103260 A method for utilizing exhaust gases exhaled by at least one person in a protective mask, such as a gas mask or the like, wherein the inhalable gases entering into the protective mask (2) pass through a filter (5) or the equivalent of the protective mask (2); through the outlet valve strut (7, 8) of the protective mask (2), characterized in that: - the exhaust gases of the protective mask (2) are conveyed by hoses (11, 12,13) or similar deflection 10 to at least one protective mask (14, 15) (2) and (14,15) are arranged between the exhaust gas storage means of the mask (2), such as a volumetric container (16) or the like, and that the exhaust gases of the mask (2) are arranged to flow in one direction from the hoses (11). , 12,13) or the like for re-inhalation 15. A method for utilizing the exhaust gases of the protective mask according to claim 1, characterized in that the carbon dioxide content of the exhaust gases of the protective mask (2) is lowered or the carbon dioxide is removed by means of a filter (34) or 20 before being passed to another person. A method for utilizing a protective mask exhaust gas according to claims 1 to 2, characterized in that the protective gas (2) exhaust gases are disinfected by means of a filter (34) or the like before being passed to another person for inhalation. Apparatus for utilizing the exhaust gases of a protective mask, such as a gas mask or the like, used in the method of claim 1, comprising at least two separate protective masks (2, 14, 15), at least one of which has a filter (5) for gas entering the outside of the mask , that the protective masks (2) and (14, 15) are connected to each other by hoses (11, 12, 9 103260 13) or the like for introducing the exhaust gases of the protective mask (2) into the protective masks (14, 15) for inhalation. Apparatus for utilizing a protective mask exhaust gas according to claim 4, characterized in that the hoses (11,12,13) are connected to the outlet and inlet valves (8,22,28) of the protective masks (2,14,15) so that the flows flow together in the direction of. Apparatus for utilizing a protective mask exhaust gas according to claims 4-5, characterized in that at least 10 filters (34) are provided between the hoses (11) and (12,13) for reducing or eliminating carbon dioxide and / or for disinfecting the exhaust gas. Apparatus for utilizing the exhaust gas of a protective mask according to claims 4-6, characterized in that the exhaust gas storage tank (16) arranged between the hoses 15 (11) and (12, 13) connecting the protective masks (2,14,15) is of variable volume in the outer wall 33). Apparatus for utilizing the protective gases of the protective mask according to claims 4-7, characterized in that the hoses 20 (11,12,13) connecting the protective masks (2, 14, 15) have openings (37) leading to the inside of said hoses. bag or tubular portions formed by the membrane (38), wherein said tubing serves as a store for exhaust gases. Apparatus for utilizing the exhaust gases of the protective mask according to claims 4-8, characterized in that the protective mask (15) receiving the exhaust gases of the protective mask (2) is a protective head hood or the like. Apparatus for utilizing a protective mask exhaust gas according to claims 4 to 9, characterized in that the hose (11) leaving the protective mask (2) is a plastic hose to which is attached a plastic bag acting as a receiving protective mask (15). PATENTKRAV 103260