KR20150125905A - An anti-gas dustproof mask for escape from a fire - Google Patents

Abstract

According to the present invention, there is provided a respirator and dust mask for fire escape, which comprises a micro-fiber non-woven fabric in which activated carbon particles impregnated with a functional active catalyst are collected by static electricity, and, depending on the function of the active catalyst, (Golden time) of the time to protect the defense to protect the dust mask,
Especially, in the case of a fire, toxic smoke (toxic gas) causes the smoke to suffocate at a distance of 7 minutes on average,
The fire-extinguishing mask for fire escape of the present invention was invented for the purpose of reducing the damage of human life by having a gas inspecting function and a detoxifying function for a minimum of 5 to 10 minutes.

Description

{An anti-gas dustproof mask for escape from a fire}

The present invention relates to a filteing face piece respirator used for emergency evacuation purposes in places such as fire and toxic gas leakage accidents, and more particularly, as a disposable gas mask and dustproof mask which can be carried or carried ,

The object of the present invention is to provide a fire extinguishing / dust mask for a fire escape which ensures minimum emergency evacuation time so as to reduce the damage caused by suffocation due to toxic smoke (toxic gas) when a fire occurs.

Urbanized by social development, new buildings are getting higher on the ground and deeper in the underground, and public and multi-use buildings are getting bigger and larger, so the number of accommodating and flowing people is getting bigger.

When there is a lot of residential or office buildings and a lot of multi-use facilities, if a fire occurs, the damage to people is increasing, but there is no clear solution.

Most of all, prevention is the best, but urgent problems in the event of an accident should be a quick departure from the fire area.

According to the survey, about 80% of fire victims were suffocated by toxic fumes (poisonous gas) caused by the fire, and only 5 minutes were statistically calculated from the time to evacuate from the fire point. However, The golden time, which is the best moment for a person to evacuate from the scene from the moment of recognizing the fire, can be said to be about 7 minutes on average, because he or she will die without being able to leave the field.

However, it is more urgent to be able to cope quickly enough to wear respiratory respirator within 5 seconds than the protection of such a long time in the field of fire. It's a problem.

When a fire accident occurs in a building, most of the household materials, fibers and interior materials made of petrochemicals are burned and incomplete burned.

Since most of the toxic gas that is emitted at this time is carbon monoxide gas and synthetic toxic gas due to various compounds, there are suffocating substances that stop breathing and irritating substances that stimulate the skin, eyes and respiratory system.

Toxic gases caused by incomplete combustion induce neurological and cognitive dysfunction in a few seconds when inhaled, eventually leading to death by not leaving the scene of the fire.

In addition to the fire, poisonous gas leakage accidents may occur in industrial sites or transportation of toxic substances, which may result in injury.

There are military or fire fighting gas masks that can be used at this time, but only a few are equipped with expensive gas masks. Even if they are provided, they are difficult to use, which makes it difficult to use by the general public. .

Fire and toxic gas spills are randomly generated without notice, but respiratory respirators are not generalized.

In order to solve these problems, a personal portable respirator has been patented, but it is not easy to commercialize it since the effectiveness, safety and economical efficiency of the admiral's ability must be secured.

In multi-use facilities, the fire department law requires the installation of luminous induction lines or emergency lights that emit light even in the dark in the event of a fire, so it is possible to find an emergency exit in the dark, but the problem is that the smoke emitted by various kinds of substances is toxic, When escaping from a fire scene, it is necessary to use airtight glasses as well as gas masks, since it can irritate the eyes to such an extent that it is difficult to find an exit.

In addition to the experience of the present inventor who has experienced damage due to fire, he was dizzy and unable to breathe with poison gas alone, and also caused many stabbing pain in his eyes.

In the poisonous smoke, the eyes can be in a state that it is hard to float for a second, which makes it even more embarrassing and you may miss the golden time of evacuation time because you can not see the way ahead.

When the fire first occurs, it is easy to evolve because it is a small flame, and early evolution is important because it can prevent the early evolution from spreading with the fire. However, even if we try to evolve early, it is difficult to evolve in the absence of respiratory system due to toxic gas,

The important thing is to be able to quickly wear a jade gas respiratory respirator, which does not miss the golden time for early evolution, but the conventional beach respirator has a problem.

KR 10-1401569 KR 10-1351339 KR 10-1195175

Internet Homepage: www.oh.3m.co.kr

촉매 특성연구" (충북대학교 안전공학과, 화학공학과, 김덕기, 김복희 신채호, 신창섭 2004.11.10)Papers: "Application of Fire Extinguisher

(Department of Chemical Engineering, Chungbuk National University, Chungbuk National University, Korea) "Effect of Cobalt Catalyst on the Efficiency of Fire Extinguishing Mask for Fire Evacuation" (Chungbuk National University, Department of Chemical Engineering, Korea Occupational Development Institute, Jae - Man Park, Dukki Kim,

The present invention has been made to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a safety device capable of wearing a respirator and a dustproof mask as quickly as possible in a moment of recognizing a danger in an industrial accident scene such as a fire or toxic gas leakage accident, And to provide a fire extinguishing and dust mask for fire escaping which is invented for the purpose of allowing the fire extinguisher to be protected from toxic gas for a while.

In recent years, the country has suffered from severe respiratory syndrome (mers), such as the respiratory viruses and infectious viruses and bacteria, such as to show strong protection. (To help understand the present invention, the Internet data is attached as a reference material on the general principle of the dustproof filter.)

In order to achieve the above object, activated carbon particles impregnated with a functional active catalyst on both sides of electrostatic-treated (microfiber) microfibrous nonwoven fabric are collected by an adhesive or by electrostatic treatment, It is characterized by having toxic and toxic functions against various kinds of toxic gas.

At this time, the nonwoven fabric in which the activated carbon particles are collected is laminated one or more layers to increase the active function for the specific gas, so that it is protected from toxic smoke (toxic gas) for 5 to 10 minutes in case of a fire or toxic gas leakage accident, .

The nonwoven fabric filter thus formed is referred to as an activated carbon nonwoven filter 202.

The activated carbon nonwoven fabric filter 202 is wrapped around the surface of the nonwoven fabric filter 200 as a cover for protecting the activated carbon nonwoven fabric filter 202 to prevent the leakage of activated carbon particles together with the dustproof function. Quot; filter 300 ".

Here, the surface-dust-proof nonwoven fabric filter 200 is a water-repellent and oil-repellent dust-proof filter that allows water and oil to be rejected.

That is, the surface-dustproof nonwoven fabric filter 200 prevents the aerosol-type fine particles, which are external pollutants, from passing through the filter, and the activated carbon particles inside the functional nonwoven fabric filter 300 are seen by the intake air and expiration air (Hereinafter, referred to as a mask) for fire escape of the present invention or to prevent leakage to the outside so as to have a gas-insulated and dust-proof function.

A functional nonwoven fabric filter (300) in which a pretreatment surface-vibration nonwoven fabric filter (200) and a post-treatment surface-vibration nonwoven fabric filter (200) are stacked one on top of another to cover an activated carbon nonwoven filter (202) And is cut into two pieces of a front surface 102 and a bottom surface 104 to be bent so as to be sewn together so as to make the inner filter of the facial air filtering respirator into a corrugated structure as shown in Fig.

Here, the face-type respiratory breathing apparatus refers to a nonwoven filter having a structure in which a mask of the present invention is largely used as a filter of a respiratory apparatus and a material is a face-worn filter. When the filter itself is referred to, Filter.

The present invention, which is a facial air filtration type respirator, is characterized in that it is made of two structures without glasses and without glasses.

In order to enhance the safety of the mask of the present invention, when the mask is worn, the rim of the mask is adhered to the face of the face to completely seal the inside of the mask.

So that the noxious gas does not pass through the filter and is not sucked in, it is made to hang on the ear or to be worn on the head by using a resilient band or the like that closely contacts the respiratory apparatus.

Secondarily, it is characterized in that the inner and outer sides of the mask are completely cut off because the edges of the mask are coated with an adhesive harmless to the human body or are adhered to the skin when the mask is worn with a double-sided adhesive tape.

The following description is added to the technique for providing the above-described functions.

The principle of filtration of the activated carbon filter, the detoxification filter, and the anti-dust filter must be cleaned to the toxic gas (chemical component) and the harmful substance which is the particle component (physical component).

Activated carbon is one of the important materials in the filtration principle.

Activated carbon has a large internal surface area of more than 1,000 m 2 / g as an adsorbent which is made of carbonaceous material (coal, wood, coconut shell, etc.) as a raw material and has developed micro pores about the molecular size through activation process.

Functional activated carbon is specially manufactured to be specialized so as to be excellent in chemical activity by attaching (attaching) specific metal salt to the surface and pore walls of fine activated carbon having well-developed fine pores and excellent physical adsorption ability.

Therefore, the chemical function of the filter depends on the type of impregnated material and the method of preparation.

Regarding general toxic gas, there are various types of gasoline and detoxification functions such as organic compounds, halogens, hydrogen sulfide, hydrogen cyanide, sulfurous acid, ammonia, and carbon monoxide.

Impregnated materials for chemical insecticide and decontamination include Cu, CuO, AgNO ₃ , CrO ₃ , H ₃ BO ₃ , V ₂ O ₅ , Mo, Mn, Zn, Co and Co ₃ O ₄ .

The factors that determine the adsorption performance of activated carbon are determined by the specific surface area, pore size and distribution, particle size, kind of impregnated metal, etc. As the toxic component gas enters the activated carbon filter from the outside of the mask according to the inspiration, And is capable of sucking purified air, so that it is a filter having physical and chemical cleaning ability.

The mask of the present invention having the functions described above enables to secure a golden time which can be evacuated urgently in a fire or toxic gas leakage accident site,

Microfiber (microfiber) It can attach various functional catalysts to nonwoven fabric to cope with not only fire but also toxic gas used in various industrial fields, and needs antibacterial and deodorizing function against bacteria or virus spreading through respiratory system It is possible to provide a functional gas mask and dust mask specialized for each type according to the type.

Because it is much cheaper than existing gas masks and it is small enough to be portable, it can be carried by ordinary people at all times or can be transported in dangerous areas at all times. Also, since activated carbon with impregnated metal salt, Ability is proven.

The edge of the mask of the present invention was treated with an adhesive harmless to the human body or a double-sided adhesive tape.

When it is worn, it is adhered to the facial skin to seal inside and outside of the mask,

Since the mask of the present invention is a simple structure composed of a face filter filter, an eyepiece, and a elastic band, it has safety, economical efficiency, safety and economical efficiency against detoxification, detoxification and antimicrobial functions, .

FIG. 1 is a model view showing a state in which the mask of the present invention is worn.
FIG. 2 is a schematic view of a functional nonwoven filter used in the production of a facial filtration filter.
Figure 3 is a top plan view of the functional nonwoven filter plate cut to the front and bottom surfaces of the facial filtration filter.
FIG. 4 is a perspective view showing a process of sewing the cut functional nonwoven fabric filter plate with a face filter, or assembling the same using an adhesive or a heat fusion method.

It is to be understood that the invention is not limited to the above embodiments and various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims. .

Before explaining the embodiment of the present invention, the process of evolution will be explained in order to understand the activated carbon which occupies a large portion in carrying out the present invention.

Over time, scientists have discovered additives that increase performance in removing or destroying inorganic chemicals and some highly volatile organics in the use of activated carbon.

Among them, Whetlerite is a chemical impregnated copper with activated carbon

As a result of the test, the copper-impregnated activated carbon has twice the protection capacity for phosgene (CG), 3 times for hydrogen cyanide (AC) and 10 times for arsine (SA) It looked.

Whetlerite is the most effective impregnated activated carbon, and in the United States, it began to be put into military canisters at the end of the First World War.

In 1942, Whetlerite AS plus copper and silver was used to increase the protection of SA. In 1943, chromium (VI) was used for the best protection against AC and cyanogen chloride (CK) Added to Whetlerite ASC.

Whetlerite ASC, an excellent carbon material, was used around the world until the 1980s when chromium (VI), which was found to be difficult to dispose of, was included.

In 1993, the US Army developed Whetlerite AZC with zinc as a non-hazardous substitute, and until recently, it was filled with toxic protection mask canisters. Subsequently, molybdenum (Mo) and other substitute materials are emerging, and triethylenediamine (TEDA) coated new products are emerging for disposal.

The fire escape respirator is one of the important means to secure personal evacuation time from the toxic gas generated in case of fire.

One of the oldest active catalysts for commercial use in the respiratory protective equipment for fire evacuation (purification canisters) is Hopcalite, which is a Cu-Mn mixed oxide. The more efficient catalysts are low temperature carbon monoxide oxidation catalysts such as Pd and Pt Catalysts, Cu-Zn oxides at room temperature and normal pressure, and Co oxides, which are more efficient at removing carbon monoxide at room temperature.

For the present invention,

In the present invention, by using a functional activated carbon impregnated with a catalyst having a fire-fighting and decontamination function for a fire or a toxic gas which has been already developed and widely used commercially,

The present invention is to provide a facial air filtering respirator that is used as a filter and an admiral filter by activating the microfibre corrosion filter according to the present invention.

This is to provide a face-to-face respirator with multiple or individual protection for fire and various toxic gas spills to ensure minimum time (golden time) to evacuate quickly in the event of a fire or toxic gas leak.

The mask of the present invention refers to a structure in which glasses are combined, but it can be manufactured with a mask without glasses so that it can be utilized for various environmental conditions as needed,

The mask of the present invention is not intended to be worn as a fire extinguishing gas mask in the event of a fire or toxic gas leakage accident, but is a disposable mask intended for securing a minimum amount of time for evacuation at a disaster site.

The minimum time referred to here is dependent on the concentration of the toxic gas, so it is difficult to provide accurate data, but it should be kept for a minimum of 5 to 10 minutes in case of exposure to toxic gases (toxic smoke) This is to make time for evacuation from the accident scene.

That is, the mask of the present invention is not made for the purpose of purifying toxic gas, but it is necessary to reduce the amount of toxic gas or concentration that must be taken in due to fire, so that the time to suffocate due to toxic gas is delayed by 10 minutes To create opportunities and minimize human injury.

Even if it seems that the time of 5 to 10 minutes is a short time, it is a long time to fight in the fire scene in seconds.

For example, over 80% of the casualties are suffocation, and the golden time to evacuate is an average of 7 minutes, so a time of 5 to 10 minutes can be a valuable time to separate life and death.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a model diagram showing a state in which the mask of the present invention is worn. One of the features of the mask in the present invention is a shape like a helical hat as in Fig. 1, and the distance (m) from the ridge portion to the vertex A of the mask

In the conventional mask type, the mask is wrapped around the nose and the mouth. In the present invention, however, the mask is formed at a certain distance from the vertex (A) of the mask to the nasal marshle.

Since the main body of the mask functions as a filter, unlike the general mask, which is intensively filtered only around the nose and mouth, the filtering action can be performed evenly across the entire area of the facial filtering filter 400 by the air pressure of the breathing.

In other words, it is possible to design a model that maintains a certain distance from the nose and the nose, so that it can be a model having a certain space inside the mask. do.

3. Referring to FIG. 3, the functional nonwoven fabric filter 300 for fabricating the mask of the present invention is designed to be close to a real size. The mask is divided into a plurality of sizes for use by children and adults, Respectively.

Since the total area of intermediate size, the area size enough to reach 217㎠ maximizes the colonization density of the activated carbon in the filter nonwoven fabric and able to develop an anti-gas Admiral capacity, breathing resistance is to lower to less than 15mmH ₂ O.

The glasses attached to the mask have the same or similar structure as the watercraft to be worn on the water and have a sealing function, and they are compression molded or injection molded into rubber or synthetic resin which is not greatly different from general watercraft but has high heat resistance.

In the case of the mask having the sealing glasses, the inner space is separated from each other.

That is, the inner space of the facial filter 400 and the inner space of the spectacles are individually sealed so as to prevent the toxic gas from penetrating into the facial filter 400, .

The face filter filter 400 is formed by stacking several sheets of nonwoven fabric filters so that the sheets are not twisted or flowed with each other and there is no gap so that contaminants are prevented from penetrating the cut face when breathing.

To this end, the adhesive is adhered to the edge line 110 of the facial part filtering filter 400 by using an adhesive such as silicone or urethane to a certain extent.

This is because when the mask is worn, the edge line 110 has a certain thickness and shape due to adhesives such as silicone and urethane, and even if the mask is pulled in close contact with the face so as to be a hard solid soft material, Do not squeeze or deform.

At this time, the overall shape of the face filter filter 400 is formed in a cocoon shape, but the edge frame line 110 is formed along the contour line of the face under the nose and chin, and is set to a hardness having proper ductility, So that the sealing force is increased.

In addition, the inner portion of the edge line 110 of the face filter filter 400, which is in contact with the face skin, is bonded with a harmless adhesive to the human body or adhered to the face when the mask is worn with a double- By completely sealing the outside, it is possible to completely block the space that the pollutant can penetrate into the gap between the face and the mask.

Use a band strap with appropriate elasticity to attach the mask to the ear as an earring type, or hinge on the head as shown in Figure 1 to further increase the mask's sealing force.

The mask is folded into the left and right half with the glasses around the nose and shipped flat and packed, so that it will not deform in the shape of the cochlea when it is worn for wearing.

2 is a configuration diagram of a functional nonwoven fabric filter 300 used in the production of the facial filtering filter 400 of the present invention. The constitution of the functional nonwoven fabric filter 300 includes a surface-dustproof nonwoven fabric filter 200 having a physical filtering function, Dehumidifying filter 204 and the dehumidifying filter 204. The activated carbon nonwoven filter 202 and the activated carbon filter 202 serve as front and rear filters in the intake and the exhaust, The filter 204 is laminated.

The activated carbon nonwoven fabric filter 202 may be used as a microfibrous nonwoven fabric, and the other surface dustproof nonwoven fabric filter 200 and the dehumidifying filter 204 may be made of fiber materials suitable for functional use.

The purpose of the mask is,

(For carbon monoxide, for organic compounds, for halogen, for hydrogen sulfide, for hydrogen cyanide, for sulfurous acid, for ammonia, etc.) of activated carbon used for activated carbon nonwoven fabric filter 202, Antimicrobial use, etc.), the function of activated carbon is strengthened and strengthened, and it is aimed at the defense and admiral in case of fire or various toxic gas leakage accidents.

The mask of the present invention can be used not only as a fire or poison gas leakage accident but also as a sanitary mask for a respiratory infectious disease having an antibacterial and deodorizing function.

When the impregnated material of activated carbon is strong in antibacterial and antiseptic functions such as copper and silver which are resistant to bacteria or viruses, strong resistance against bacteria, viruses and odors can be obtained.

Chemical adsorption of specialized functionalized activated carbon behaves independently of physical adsorption. This is because the impregnated material is located in the large and medium pores of the activated carbon, and has a chemical adsorption function. In the micropores, the physical adsorption function of the volatile organic substances occurs.

The reason why the surface-dustproof nonwoven fabric filter 200 plays a role as a front and rear filter in intake and exhaust is that since the surface-dustproof nonwoven fabric filter 200 is water repellent and oil-repellent to reject water and oil, various kinds of aerosol- It is the dustproof filter that acts as the first block.

In this case, the surface-dust-proof nonwoven fabric filter 200 filters out particulate matter from the outside of the cocoon mold by the pretreatment process,

Next, the activated carbon nonwoven filter 202 is chemically and physically filtered with respect to various toxic gases in the intermediate process stage, and then the surface-dustproof nonwoven fabric filter 200 is filtered again with the dehumidification filter 204 and the last post-treatment filter .

However, since the above process is filtered in reverse order, the post-treatment filter serves as a pretreatment filter to prevent steam from entering the filter from entering the filter.

The front and back surface-treated non-woven fabric filter 200 prevents the particulate matter outside the filter from passing through the filter, but also prevents the activated carbon particles from leaking out of the filter to prevent deterioration of the filter's detoxification and decontamination performance.

The activated carbon nonwoven filter 202 is a microfibrous nonwoven fabric electrostatically processed to collect activated carbon.

Originally electrostatically treated fibers increase the dust collecting efficiency, and charged or not charged particles are attracted to the electrostatic fibers to collect the dust,

In the present invention, a very thin microfibrous nonwoven fabric is subjected to electrostatic treatment to collect activated carbon particles instead of dust to be used as the activated carbon nonwoven fabric filter 202, and to laminate the layers in multiple layers in accordance with the desired performance of the detoxification and decontamination, .

When the activated carbon is activated by using only the adhesive on the microfibrous nonwoven fabric, the activated carbon particles are separated from the nonwoven fabric due to the friction caused by the flow of the flexible nonwoven fabric filter,

Adhesives may take up the pores of activated carbon, which may reduce the ability to decontaminate and decontaminate.

Since electrostatic treated fibers are permanently charged, electrostatic treatment and adhesives can be used in combination.

By collecting by the electrostatic treatment, the anionized carbon particles are permanently trapped between the disordered nonwoven fabrics, so that the density of the activated carbon can be increased more densely and uniformly,

Since the attracting force is large, it prevents capture of fine dust and separation of activated carbon to prevent penetration into the body or leakage to the outside of the mask when breathing.

As the material of the nonwoven fabric, there can be used chemically relatively stable polymers such as polymer fibers, glass fibers, pulp, natural fibers, synthetic fibers, cotton dyes and urethanes, which are commonly used polymers depending on the function required for the mask .

In an environment with high humidity due to the adsorption function of activated carbon, since the water vapor in the air occupies the reaction site of the micropores of the activated carbon, the more the water vapor is occupied, the less toxic gas or vapor is adsorbed, The life span is reduced.

However, in the present invention, since the exhalation passageway is not placed in the mask, water vapor blown from the respiratory apparatus (nose and mouth) hinders the performance of the filter. Therefore, in order to minimize this, the dehumidifying filter 204 is laminated on the inner surface of the mask, So that the effect on activated carbon was minimized.

The dehumidifying filter 204 is made of fibers having excellent dehumidification functions such as pulp and cotton direct current.

In the present invention, the reason for not providing the exhalation passage is to lower the breathing resistance and extend the life of the filter in an extreme situation.

Particulate soot accounts for a large proportion of toxic fumes generated in the field of fire, and it should be able to cope with particulate toxic material leakage accidents.

The particulate matter is protected by the anti-dust filter, but if the unidirectional exhalation valve is installed in the mask and the exhaled air does not pass through the filter but goes out to the outside, The soot or particulate matter adsorbed on the filter can not easily fall off, so that the filtration function may be easily blocked.

In particular, the mask for fire escape acts as a backwashing function during the exhalation period, because it allows intake and exhalation action through the entire surface of the mask without installing a unidirectional exhalation valve, thereby preventing soot from being formed on the filter surface So as to relax breathing and prolong the life of the mask.

3. FIG. 3 is a plan view of the flat plate of the functional nonwoven fabric filter 300 cut into two pieces of the front face 102 and the bottom face 104. As shown in FIGS. 1 and 4, The filter 400 is finished in a cocoon style by sewing or bonding with an adhesive.

At this time, when the lower portion of the bottom surface 104 of FIG. 3 is folded to a certain length and depth and pulled by the sewing or folding portion, the mask is naturally wrapped around the lower jaw to be in close contact.

4 is a perspective view showing a process in which the functional nonwoven fabric filter 300 is cut into a front face 102 and a bottom face 104 and assembled with a sewing thread so as to be made into a facial portion filtering filter 400. The sewing- And the like.

The mask of the present invention is completed by joining the sealing glasses 100 and the elastic band 112 to the face filter filter 400 and the face filter filter 400 having a cocoon shape is formed by attaching only two pieces of the filter. So that it is easy to manufacture and economical.

100: Closed glasses 102: Front (of the facial filter)
104: bottom face of the face-piece filtration filter 106: seam
108: fold line 110: edge border line
112: elastic band 200: surface vibration-proof nonwoven filter
202: Activated carbon nonwoven fabric filter 204: Dehumidification filter
300: Functional nonwoven fabric filter 400: Facial filtration filter

Claims (8)

Fire or toxic gas leak In the facial airway respirator to ensure minimum time (golden time) to evacuate urgently at the scene of an accident
A face portion filtration filter 400;
Sealing glasses (100);
And a resilient band (112). The method according to claim 1,
The facial filtration filter 400 has a function of protecting and decontaminating fire and various kinds of toxic gases,
The functional nonwoven fabric filter 300 made by laminating the surface-dustproof nonwoven fabric filter 200, the activated carbon nonwoven filter 202 and the dehumidifying filter 204 is cut into a front surface 102 and a bottom surface 104 curved in a predetermined size, It is made of heat-welding method with sewing material or adhesive by shape, 3. The method of claim 2,
The surface-dust-proof nonwoven fabric filter 200 is a nonwoven filter having a mesh of a predetermined size. The nonwoven fabric filter 200 is a water-repellent, dust-proof, fire- 3. The method of claim 2,
The activated carbon nonwoven fabric filter 202 is a microfibrous nonwoven fabric having a mesh of a predetermined size subjected to electrostatic treatment. The activated carbon nonwoven fabric filter 202 collects the activated carbon impregnated with the functional metal salt and has a function of collecting or detoxifying the fire or various toxic gases Fire-proof and dust-proof mask The method according to claim 2, wherein
The dehumidification filter 204 is used to perform a moisture-proof function for the activated carbon nonwoven fabric filter 202. The dehumidification filter 204 is made of a fiber- The method according to claim 1,
The hermetic eyewear 100 is for protecting the eyes from poisonous substances that irritate the eyes. The hermetic eyewear 100 has a structure similar to that of a water bottle having a hermetic function. · Dust mask The method according to claim 1,
The resilient band 112 is intended to adhere to the skin by wearing a respirator or dust mask for fire escape of the present invention,
Resilient band-shaped band is designed to be worn on ear-type or head. The present invention is intended to enhance the sealing performance so that poisonous substances can not penetrate into a fire extinguishing mask for fire escape of the present invention,
The edge frame line 110 is provided with an adhesive or a double-sided adhesive tape which is harmless to the human body,

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