BG3922U1 - Face mask filter against pathogens and viruses - Google Patents

Abstract

A face mask filter against pathogens and viruses, comprising at least one layer of hygroscopic fabric or non-woven fabric (3), on both sides of which are tightly fitted dense nets (sieves) (2) and (4), characterized wherein the tightly fitted dense nets (2) and (4) are made of thin threads of electrically conductive metal and / or fabric (5) and (6) of woven or non-woven textile, wherein the two nets (2) and (4) and / or the two fabrics (5) and (6) of woven or non-woven fabric are coated by vacuum, electric arc or magnetron sputtering in a controlled environment or galvanic coating with a layer of nanoparticles of two different metals selected from the group consisting of silver, platinum, gold, copper, zinc, titanium, magnesium, lithium and their alloys, and in one embodiment the two metal nets (2) and (4) of electrically conductive metal are also connected to the poles of a portable battery (1) for direct electric current.

Description

(54) FILTER HA FACE MASK AGAINST PATHOGENS AND VIRUSES

Field of technology

The utility model refers to a face mask filter, which is designed for individual protection against the penetration of pathogens and viruses into the respiratory tract of the human body, as well as against their transmission from patient to people from the environment.

BACKGROUND OF THE INVENTION

It is known that the virus (Latin - virus - "poison") is a microscopic pathogen that infects cells in living organisms. Viruses can only reproduce by subordinating and controlling other cells, because they themselves do not have their own cellular apparatus for reproduction alone. The viruses are very small, measuring 15-350 nm and visible only with an optical or electron microscope. They have a variety of shapes: spherical, rod-shaped, multi-walled prism, etc. Viruses cannot reproduce in artificial nutrient media, but only in living cells. They are strict intracellular parasites that use the synthesizing systems and the energy of the cell in their reproduction. Most often, viruses are spread by airborne droplets, but also by contact.

Numerous technical solutions are known for face mask filters that are designed to provide protection against the spread of viruses. Some of these masks are disposable and they all contain at least one layer of filter cloth or non-woven fabric.

U.S. Patent [1] US 7077139 B2 - discloses a disposable face mask. The solution includes a mask body substantially covering the wearer's nose, mouth and chin and an extension provided with the mask body. The extension is configured to surround the back of the user's head and substantially cover the user's cheeks, jaw and ears. A significant portion of the extension is formed of an elastic material treated with a repellent to prevent contaminants from entering or leaving such a treated portion of the extension.

WO 2011026515 A1 [2] discloses a multilayer filtration material which is applicable to a face mask for air pollution and consists of: a filter part containing a filtration material adapted to cover the user's mouth and nostrils, an adapted segment for a detachable arrangement around the head to the user and adapted to align the filter segment above the user's mouth and nostrils, wherein the filter segment and the support segment are connected by a seam when aligning one or more exhalation valves located in the filter segment.

WO 2020013907 A1 [3] discloses a face mask comprising an air permeable body comprising a filter material having a proximal and distal surface, wherein the air permeable body is structurally configured for the proximal surface to cover the user's nose and mouth when carried by the user, and the fan is configured to generate air flow through the filter material. (Explanation: A point closer to the body is proximal and farther from the body is distal).

Business Insider's publication [4] reports that a salt-covered mask has been created that can neutralize viruses such as coronavirus in 5 minutes. The technology has been tested on three influenza strains. According to the scientist - a biomedical engineer and professor at the University of Alberta in Canada - there is

BG 3922 UI potential solution: A mask that can kill harmful pathogens, not just block them. The secret ingredient is table salt. Because the molecular structure of salt is crystalline, its hard and sharp corners can pierce viruses, making them non-viable.

It is not clear from this information how the proposed technical solution works in cases where, as a result of high humidity during respiration, the salt has changed from a crystalline to a molten state.

Interesting scientific research [5] by an Iranian scientist shows that some viruses can be neutralized by direct electric current.

A method is known [6] for preparing a filtration article, comprising: treating fibers with one or more oligodynamic metals and / or an oligodynamic metal salt comprising said fibers in an air-permeable filter layer, this filtration layer being operatively coupled to air a permeable backing layer configured to fit over the nose and mouth of the wearer.

Said one or more oligodynamic metals are: silver, mercury, copper, iron, lead, zinc, bismuth, gold, aluminum, platinum, palladium, iridium, tin, antimony or any combination thereof. Said fibers contain polyesters, polyolefins (non-polar polymers), polyamides, polypropylenes, acrylics, cotton, cellulose or any combination thereof and have a diameter of from about 0.3 mm to about 0.7 mm. Said filtration layer comprises a hydrophilic foam in which fibers treated with an oligodynamic metal are separated. The method comprises further treating the fibers with at least one secondary antimicrobial agent, which is an antibacterial agent, an antiviral agent, an anti-mold agent, an anti-yeast agent, an antifungal agent, or any combination thereof.

The filter designed for a face mask and prepared by the described method is expected to be effective given the antimicrobial properties of hydrophilic foam in which fibers treated with oligodynamic metal are separated, as well as additional treatment of the fibers with at least one secondary antimicrobial substance, which is an antibacterial agent, antiviral agent, anti-mold agent, anti-yeast agent, antifungal agent or any combination thereof.

Publication [7] reveals the possibilities of Livinguard technology, developed by researchers at the Free University of Berlin from the Institute of Animal Hygiene and Environmental Health, which claims that textiles treated with Livinguard technology can destroy 99.9% of SARS-CoV2 (the virus that causes COVID-19). The mask can be used for long periods and reused after washing as the fabric covering the filter medium continuously destroys microorganisms upon contact. The mask is certified as non-toxic and safe to use.

Chinese utility model [8] discloses a fog breathing filter with a silicone sealing ring consisting of a cover 7, ear bands 8 and a breathing valve 6, the breathing valve 6 being located on the cover 7, the two sides of the cover 7 being connected respectively with an ear band 8, the cover 7 consisting of two layers of nonwoven fabric 1, a nano-silver layer 3 and a plastic support 4, wherein the nano-silver layer 3 is located between the two layers of non-woven fabric 1 and the arcuate plastic support 4 is located between the nano-silver layer 3 and the inner nonwoven layer 1.

Another Chinese technical solution [9] discloses a filter sieve for sterilization of the nasal cavity. The filter sieve for sterilization of the nasal cavity consists of a filter sieve, which is located in the nasal cavity, a flexible connecting bridge element, a layer of filter sieve and alcoholic medicinal cotton, in

BG 3922 UI which the filter sieve has a tubular shape and the middle of the filter sieve is connected to the flexible bridge element; the surface of the filter sieve is a thin film with a vent, where the permeable area of 50% is the filter sieve, sterilizing agents are applied to the inner surface and the outer surface of the filter sieve and the alcoholic cotton swab is placed between the inner and outer surface of the filter sieve.

Patent application [10] with incoming № EN 113092 discloses a face mask filter against viruses, which contains at least one layer of a filter made of hygroscopic fabric or non-woven fabric, with tightly fitting dense nets (sieves) placed on both sides of the filter of thin wires of electrically conductive metal, where each of the two networks is connected to a different pole of a portable battery for direct current, and in the electrical circuit that supplies the two networks of thin threads of conductive metal is included light indicator - a lamp hung on the mask.

No technical solutions are known for face mask filters that inactivate pathogens and viruses by means of a filter design that functions as a static galvanic cell activated by the air stream during inhalation and exhalation by the user.

Technical essence of the utility model

The task of the utility model is to propose a design for a filter mask for a face against pathogens and viruses, which is able to deactivate pathogens and viruses falling on the outside and inside of the filter to limit their spread, whereby the filter functions as passive static galvanic cell activated by the air jet and the droplets of moisture contained in the air during inhalation and exhalation by the user.

The problem is solved as a filter of a face mask against pathogens and viruses, which contains at least one layer of hygroscopic fabric or nonwoven fabric, with tight-fitting dense nets (sieves) on both sides and is characterized by the fact that tightly adhered Dense nets are of thin filaments of electrically conductive metal and / or fabric of non-woven or non-woven fabric, both nets (sieves) and / or both fabric or non-woven fabrics being coated by vacuum, electric arc or magnetron sputtering in a controlled environment or electroplating. with a layer of nanoparticles of two different metals selected from the group consisting of silver, platinum, gold, copper, zinc, titanium, magnesium, lithium and their alloys, and in one variant the two metal networks of electrically conductive metal are connected to the poles of a portable battery to realize a constant electric current during operation.

Nanoparticles of the two different metals, which are deposited on dense nets (sieves) and / or fabric of woven or nonwoven fabric, emit electrons in the form of an electric charge during oxidation from moisture during respiration and exhalation and have positive and respectively negative electric charges, such as create an electric potential in which an electric current passes through the wet areas of the hygroscopic fabric or nonwoven fabric, which inactivates the pathogens and viruses contained in the moisture droplets. Thus, the face mask filter against pathogens and viruses works as a galvanic cell in both directions - from and to the user [11].

Preferably, the networks of thin metal threads on which nanoparticles are laid are made of chromium-nickel CrNi, copper or copper alloy (brass, bronze, etc.), and the woven or nonwoven fabric with

The nanoparticles laid on its surface shall be made of pure 100% cotton, where the nets of chromium-nickel or brass or bronze alloy shall have a thread diameter of not more than 0.3 mm, the size of the openings between the threads of the net shall be not more than 0.5 mm and the thickness of the coating of titanium and corresponding silver not more than 6 pm. The thickness of the textile cotton threads is in the range from 0.10 to 2.0 mm

In order to achieve better capacity and to extend the service life of the filters, metal nets coated with one type of nanoparticles are mounted glued to textile nets with the same nanoparticle coating.

Preferred solutions for everyday use:

• 0.15 mm thick non-woven cotton textile with a coating of up to 0.1 pm of titanium + pure layer of 0.15 mm thick non-woven cotton textile + 0.15 mm thick non-woven cotton textile with a silver coating up to 0.5 pm;

• textile fabric with a thickness of 0.2 mm made of 100% cotton with a coating of up to 0.1 pm of titanium + pure 1.00 mm woven fabric of 100% cotton + woven fabric of 100% cotton with a thickness of 0.2 mm and a coating of up to 0.5 pm with silver;

• textile fabric with a thickness of 0.2 mm from 100% cotton with a coating of silver up to 0.5 pm + woven textile with a thickness of 2.0 mm from 100% cotton with one-sided pulling of the fibers to hairs + woven textile with a thickness of 0.2 mm with titanium coating up to 0.1 pm;

• woven textile with a thickness of 0.2 mm of 100% cotton with a coating of titanium up to 0.1 pm + woven textile with a thickness of 0.2 mm of 100% cotton + woven textile with a thickness of 2.0 mm of 100% cotton with a coating of silver up to 0.5 pm;

• textile fabric with a thickness of 0.2 mm, 100% cotton with titanium coating up to 0.1 pm + pure fabric textile with a thickness of 1.0 mm with one-sided pulling of the fibers to hairs + textile fabric with a thickness of 2.0 mm of 100% cotton and silver coating up to 0.5 pm.

Explanation of the attached figures

Figure 1 and Figure 2 show basic images of face masks with a filter, subject to the utility model in a variant with a built-in portable battery for direct electric current.

Figure 3 and Figure 4 show basic images of face masks with a built-in filter of metal mesh coated with titanium and silver.

Figure 5, Figure 6 and Figure 7 show basic images of face masks with a built-in filter made of metal mesh and textile mesh coated with titanium and silver.

Example of implementation of the utility model

Exemplary variants for filters with a sequence of layers from the inside to the user, a coating thickness of not more than 6 pm, metallic threads of chromium-nickel or copper or an alloy of copper (brass, bronze) with a thread diameter of not more than 0.3 mm and holes between the threads not larger than 0.5 mm and different thickness of fabric and non-woven fabric:

Option 1: metallic chromium-nickel mesh with a thread diameter of 0.15 mm and holes between the threads of 0.5 mm, covered with a layer of 2 nanoparticles of titanium with a thickness of 6 pm + non-woven textile of cotton with a thickness of 0.15 mm with a titanium coating of 5 by 0.1 pm + pure layer of non-woven textile 3 of cotton with a thickness of 0.15 mm + non-woven textile 6 of cotton with a thickness of 0.15 mm with a coating of 0.5 pm of silver + metal mesh of chrome

BG 3922 UI nickel with a thread diameter of 0.15 mm and holes between the threads of 0.5 mm, coated with a layer of 4 nanoparticles of silver 3.2 μm;

Option 2: 0.15 mm thick cotton non-woven fabric 5 with a 0.1 μm titanium coating + pure layer 3 0.15 mm thick non-woven cotton textile + 0.15 mm thick non-woven cotton fabric 6 with a 0.5 μm silver coating;

Option 3: textile fabric 5 with a thickness of 0.2 mm made of 100% cotton with a coating of 0.1 μm of titanium + pure 1.00 mm woven textile 3 of 100% cotton + woven textile 6 of 100% cotton with a thickness of 0.2 mm and a coating of 0.5 μm with silver;

Option 4: textile fabric 5 mm thick 0.2 mm with titanium coating 0.1 μm + textile fabric 3 with a thickness of 2.0 mm made of 100% cotton with one-sided pulling of the fibers to lint + textile fabric 6 with a thickness of 0.2 mm made of 100% silver coated cotton 0.5 μm;

Option 5: textile fabric 5 with a thickness of 0.2 mm made of 100% cotton with 0.1 mm titanium coating + fabric textile 3 with a thickness of 0.2 mm made of 100% cotton + woven textile 6 with a thickness of 2.0 mm made of 100% cotton with a silver coating of 0.5 μm ;

Option 6: textile fabric 5 with a thickness of 0.2 mm, 100% cotton with titanium coating 0.1 μm + pure textile fabric 3 with a thickness of 1.0 mm with one-sided pulling of the fibers to hairs + textile fabric 6 with a thickness of 2.0 mm of 100% cotton and coating of silver 0.5 μm;

Option 7: Chrome-nickel metal mesh 2 or brass alloy with a thread diameter of 0.15 mm and holes between the threads of 0.5 mm, covered with a layer of nanoparticles of titanium with a thickness of 4 μm + a pure layer of nonwoven textile 3 of cotton with a thickness of 0.15 mm + metal mesh 4 of chromium-nickel with a thread diameter of 0.15 mm and holes between the threads of 0.5 mm, covered with a layer of nanoparticles of silver, where the metal mesh 4 and 2 coated with silver and titanium are connected to the poles of a portable battery 1 with an operating voltage of 1.5 V or 3 V.

Option 8: textile fabric 5 with a thickness of 0.2 mm made of 100% cotton with a titanium coating of 0.1 μm + pure fabric textile 3 with a thickness of 1.0 mm with one-sided pulling of the fibers to hairs + woven fabric with a thickness of 2.0 mm made of 100% cotton and coated with nano particles of copper 0.3 μm (metal);

Application (use) of the utility model

The described filters are applicable both for face masks for preventive fight against pathogens and viruses, and for the production of protective clothing for first-line physicians working in highly contagious environments, as well as for laboratory technicians working in highly contagious environments.

Face masks in silver and titanium-only textile versions can be reusable by washing up to 60 °. The nanoparticles that cover the textile fabrics are firmly attached to the fibers and allow the passage of ions with different electrical potential from one layer of coating to another, whereby pathogens and viruses contained in the wet drops during respiratory exhalation are deactivated.

Face mask filters against pathogens and viruses will also be used in air and bus transport, with companies running this business providing passengers with masks disinfected in mobile containers equipped with ozone and / or UV generators. Besides, they can

BG 3922 UI to make filters for air conditioning systems of public buildings, transport (river, city, air, etc.) and households.

Advantages of the utility model

The main advantage of the utility model is that the filter significantly prevents the spread of pathogens and viruses. Pathogens and viruses are deactivated "under the user's nose in both directions - from and to the user.

Claims (9)

Claims A face mask filter against pathogens and viruses, comprising at least one layer of hygroscopic fabric or nonwoven fabric (3), on both sides of which are tightly fitted dense nets (2) and (4), characterized by that the tightly fitting dense nets (2) and (4) are made of thin threads of electrically conductive metal and / or fabric (5) and (6) of woven or non-woven fabric, where both nets (2) and (4) and / or the two fabrics (5) and (6) of woven or nonwoven fabric are coated by vacuum, electric arc or magnetron sputtering in a controlled environment or galvanically layered with a layer of nanoparticles of two different metals selected from the group consisting of silver, platinum, gold, copper, zinc, titanium, magnesium, lithium and mixtures thereof. Face mask filter against pathogens and viruses according to claim 1, characterized in that the nets (2) and (4) are made of chromium-nickel or a brass alloy with a thread diameter of not more than 0.3 mm and openings between threads not exceeding 0.5 mm, and the coating on the nets (2) and (4) and / or the two fabrics (5) and (6) of woven or nonwoven fabric with a layer of nanoparticles of two different metals - titanium and silver respectively a thickness of not less than 4 μm, the thickness of the textile cotton threads of the two fabrics (5) and (6) being in the range of 0.15 to 2.0 mm. Face mask filter against pathogens and viruses according to claims 1 and 2, characterized in that it consists of: a metal mesh (2) of chromium-nickel with a thread diameter of 0.3 mm and openings between the threads of 0.5 mm, coated with a layer of nanoparticles of titanium with a thickness of 5 μm, to which is attached a layer of nonwoven fabric (5) of cotton with a thickness of 0.15 mm with a titanium coating of 5 μm, to which are attached sequentially: a pure layer of nonwoven fabric (3 ) of 0.15 mm thick cotton, a layer of non-woven fabric (6) of 0.15 mm thick cotton with a coating of 5 μm of silver and a metal mesh (4) of chrome-nickel with a thread diameter of 0.3 mm and holes between strands 0.5 mm, coated with a layer of 5 μm nanoparticles of silver; Face mask filter against pathogens and viruses according to claims 1 and 2, characterized in that it consists of: non-woven textile (5) of 0.15 mm thick cotton with a coating of 5 μm of titanium, to which are attached in series: a pure layer of non-woven textile (j) of 0,15 mm thick cotton and a layer of non-woven textile (6) of 0,15 mm thick cotton with a silver coating of 5 μm, Face mask filter against pathogens and viruses according to claims 1 and 2, characterized in that it consists of: a layer of woven fabric (5) with a thickness of 0.2 mm of 100% cotton coated with 5 μm of titanium, to which are attached in series: a pure layer of 1.00 mm thick woven textile (3) of 100% cotton and a layer of woven textile (6) of cotton with a thickness of 0.2 mm and a coating of 5 μm with silver, Face mask filter against pathogens and viruses according to claims 1 and 2, characterized in that it consists of: a layer of textile fabric (5) with a thickness of 0.2 mm with a 5 μm titanium coating to which they are attached successively: a layer of textile fabric (3) with a thickness of 2.0 mm of 100% cotton with one-sided pulling of the fibers to hairs and a layer of textile fabric (6) with a thickness of 0.2 mm of 100% cotton with a coating of 5 pm of silver; Face mask filter against pathogens and viruses according to claims 1 and 2, characterized in that it consists of: a layer of textile fabric (5) with a thickness of 0.2 mm of cotton with a 5 pm coating of titanium to which they are applied. attached in series: a clean layer of woven fabric (3) 0.2 mm thick cotton and a layer of woven fabric (6) 2.0 mm thick cotton with a 5 pm silver coating, Face mask filter against pathogens and viruses according to claims 1 and 2, characterized in that it consists of: a layer of textile fabric (5) with a thickness of 0.2 mm, 100% cotton with a 5 pm coating of titanium to which are attached successively: a clean layer of woven fabric (3) with a thickness of 1.0 mm with one-sided pulling of the fibers to hairs and a layer of woven fabric (6) with a thickness of 2.0 mm of cotton and 5 pm silver coating; Face mask filter against pathogens and viruses according to claim 1, characterized in that in one variant the two metal grids (2) and (4) of electrically conductive metal are also connected to the poles of a portable battery (1) for direct electric current.