CN203425403U - Five-prevention oxygen-enriching respirator - Google Patents

Abstract

The utility model provides a five-prevention oxygen-enriching respirator which comprises a respirator body and a respirator band, wherein the respirator body comprises a flip-open cover type filter box provided with outwards protruded convex curved surface, a silica gel mask, and a filter layer embedded in the flip-open cover type filter box in a sealing manner, wherein the flip-open cover type filter box comprises an inner cover and an outer cover; one sides of the inner cover and the outer cover are connected through a rotating shaft, and the other sides of the inner cover and the outer cover are connected through a snap joint component; a plurality of vent holes are formed in the outer cover; the silica gel mask is connected to the inner side of the respiration opening of the inner cover in a sealing manner; the filter layer is formed by an inner three-dimensional porous material layer, an outer three-dimensional porous material layer and a polymer ultrathin film composite film clamped between the two material layers; the polymer ultrathin film composite film is formed by a porous ultrathin carrier film layer and a homogenous imporous polymer ultrathin film layer. The five-prevention oxygen-enriching respirator has excellent sealing effect, has the PM 2.5 resistance, virus resistance, germ resistance, pollution prevention, smoke resistance and oxygen-enriching functions, has a long service life, and is low in cost.

Description

Five anti-oxygen enrichment mouth masks

Technical field

The utility model belongs to medical sanitary technology field, is specifically related to a kind of polymer ultra-thin film composite membrane with high oxygen permeability, and can anti-PM2.5, five anti-oxygen enrichment mouth masks of anti-virus, anti-bacteria, anti-pollution, preventing dust.

Background technology

Along with the development of China's economic and the raising of living standards of the people, people increase the demand of the energy thereupon, and especially in big or middle city, various types of vehicles and private car significantly increase.Because the air pollution that these factors are formed lacks enough understanding and attention, in recent years, in the large area of the density of population, especially big or middle city produces haze weather, the serious threat people's healthy and life.The mechanism that haze weather produces is very complicated, and its chemical composition is also very complicated.It contains a large amount of nitrogenous organic particulate matters, and its composition is very complicated, and it is not a kind of material, but tens kinds of materials, these materials may cause cancer and other serious disease.The more important thing is, virus, germ can survive and breed on this very little particle, are attached on the particle of atmosphere, produce a large amount of virus of dissociating and germ molecule in air, will spread disease.

PM2.5 endangers maximum fine particle to people in air pollutants, the diameter of this fine particle is equal to or less than 2.5 microns, PM2.5 can enter lung particle medically crying, in general the mouth mask of our surgery probably can have the particulate of PM4 to prevent, to PM2.5 just dying, to PM2.5, be generally that mouth mask of wanting N95 now, but that mouth mask is very vexed, can not use for a long time.

In prior art, in response to different purposes and demand, mouth mask has different kinds and classification, is simply described as follows.

General mouth mask: this mouth mask does not pass through extra processing, the hole of its fibre structure is large (approximately 1 micron) quite, so cannot effectively stop the cause of disease through infection through air.In addition, general mouth mask than the dust that is easier to enter human respiratory system, does not have the effect of protection to what, but the dust large to what particle, the effect that still has some to block.That this mouth mask can be used as is warming, avoid the purposes such as embarassed and the dirty Dirty in nostril, but not can be used as the use that prevents germ intrusion.

Active carbon mask: activated carbon has mushy structure, the major function of its filter course is to adsorb organic gas, graveolent molecule and toxicity dust, not for Chalk-dust filtering, does not have a function of sterilization.Activated carbon can attract virion mouth mask surface, but but cannot " kill virus ", and therefore, hand, eye, nose or mouth surprisingly touch used active carbon mask surface, still likely cause the infection of disease.And the use of activated carbon has a restriction, once all pores are all filled, just lose effectiveness, now must displacement mouth mask, but when arrive saturation point, not very easily do not judge.

Medical mask: medical mask is mainly that the spittle for fear of doctor affects patient, Functional Design is not to avoid sucking granular nuisance, although its effect is better than cotton yarn mouth mask and cloth matter stamp mouth mask, but also only has at most 70% effect, take such mouth mask to block germ, effect may be very limited.The surgery Medical mask of standard divides three layer, and skin has resistance dirt resistance effect, can prevent that the spittle from entering mouth mask the inside, and there is filtration in middle level, can block 5 more than 90% micron particles, and one deck of nearly mouth and nose is as the use of moisture absorption.

Charged filter material mouth mask: the data demonstration providing according to the 3M company of main production firm of this mouth mask, the function of charged filter material is mainly convenient breathing, and does not lie in filtration.This mouth mask is actual, and what have filtration is one deck carbon being positioned under charged filter material.Its strobe utility may be identical with active carbon mask, and this represents that it and active carbon mask have identical use restriction.Wherein also have one deck so-called " attached outstanding resistance filtering material ", its role is to extend the life-span of mouth mask and increase comfort level.

American Institute for Occupational Safety and Health Certification (National, Institute, for, Occupational, Safety, and, Health) will be divided into three protective masks series, in addition to the N series, there are P and R series, each containing 95 , 99, and 100 three-type, respectively, under special circumstances, can block 95, 99 and 99.7% of germs.

The N95 type mouth mask ，Shi U.S. that SARS epidemic period falls over each other to rush to purchase specifies the Anti-epidemic mask of anti-Fan pulmonary tuberculosis germ, can effectively filter knot core Rod bacterium (diameter is about 0.3～0.6 micron, long 1～4 micron), prevents the infection via air.The standard of its check is, with 0.3 micron of sodium chloride particulate, tests, and barriering efficiency must reach more than 95%, and through the test of wearer's face tight ness rating, guarantees under closely connected face edge situation, and air can see through mouth mask and pass in and out.

Existing mouth mask is mostly soft, directly by crossing filter core, be clipped in the mouth mask body of being made by soft materials such as cotton wools, this mouth mask support effect is poor, because its mouth mask body is soft, after general use once, just can be out of shape, be often as disposable mouth mask, use and can only be cancelled later, relatively waste, particularly, for some good filter cores, cost is too high; In addition, the sealing effectiveness of soft mouth mask is poor, and when wearing, even if the effect of filter core is good again, the function of its dustproof filter also can reduce greatly like this; Also have some rigid plastics mouth masks, directly filter course is embedded in mouth mask body, general structure more complicated, also cumbersome in the process of installing and retract filter course, the tension force that in use filter course also can come because of tidal air pressure zone, cause mechanical failure and other possible physical damage, the service life that also can reduce filter course.And existing rigid plastics mouth mask when wearing, also exist sealing effectiveness poor, wear the defects such as uncomfortable.Use for mouth mask, sealing effectiveness is important, once sealing effectiveness is poor, just have the breathing inner chamber that some outside contamination air enter mouth mask, like this air after mouth mask inner filtration just can with the contacting of outside contamination air, polluted, greatly reduced the filter effect of mouth mask, greatly reduced the anti-PM2.5, anti-virus, anti-bacteria of mouth mask, the effect of anti-pollution, preventing dust.

In prior art, the hole minimum of general mouth mask is about 0.3 micron, and the size of SARS virus is about 0.08～0.14 micron, so general idea is all to think that mouth mask can not filter SARS virus effectively.The World Health Organization (WHO) assert that SARS is droplet infection, so-called droplet infection has just illustrated that virus is not to be individually dispersed in air, mainly that (it is large that its size is about viral hundreds of times to the plant mouth and nose spittle, over 0.3 micron) in, with therapeutic medical mouth mask, it just has more than 65% spittle to block efficiency, so mouth mask is for the prevention from suffering from the diseases of " droplet infection ", still has certain effectiveness.

Recently the nano photo-catalytic mouth mask being born has suitable sterilizing function, and its principle is to utilize light-catalyzed reaction to come decomposing harmful substances and sterilization.Light-catalyzed reaction is as catalyst, to reach the object of adsorbent oxidation or reduction by a kind of semiconductor light electroceramics.Many semiconductor light electroceramics all can be used as photocatalyst, as titanium dioxide (TiO ₂), zinc oxide (ZnO), cadmium sulfide (CdS) etc.At present using maximum photocatalysts is titanium dioxide, and it is except having great oxidation and reducing power, also has chemical stability, environmental sound, the advantage such as cheap.The nano protecting series mouth mask product that China Weisheng Science and Trade Development Co., Ltd., Jilin Prov. is newly developed, concentrated nano material technology, high efficiency filtration, sterilization material technology etc., with the barrier propterty of giving prominence to, obtained following patent: 1, folding nano protective mask.(the patent No.: 03252129).2, anti-spittle antibacterial mask.(the patent No.: 0325215).3, flat folding nano protective mask.(the patent No.: 03252131).4, cup shaped nano protective mask.(the patent No.: 03252130).

Each major region that Chinese Population Density is large, especially big or middle city, not only air pollution is very serious, and this pollution also causes the concentration of oxygen in air to drop to below 19% from 21% of the Nature, for a long time in oxygen deprivation state.For the certain areas of automobile trip peak period, because airborne oxygen is in a large number for the burning of vehicle fuel, in air, the concentration of oxygen is even lower than 9%, in extreme oxygen deprivation state.Therefore the amount of oxygen being really drawn in body reduces greatly.Live in the people under this oxygen deprivation or extreme Hypoxic habitats, its health will be subject to serious threat, its health will be in sub-health state, and be easy to suffer from or bring out multiple chronic disease, anoxic will be one of main cause causing numerous disease, such as headache, cardiovascular and cerebrovascular disease, angina pectoris, etc.As everyone knows, oxygen is the indispensable gas of human survival.If can have a kind of technology can manufacture a kind of mouth mask with dustproof (comprising anti-PM2.5), anti-virus, anti-bacteria, anti-pollution, preventing dust and oxygen-enriched function wears to people, the oxygen enrichment of pure and fresh health is provided to people easily, it will improve the situation of people's providing brain with oxygen greatly, therefore and alleviate or various bad physical symptom that radical cure is caused by anoxic, relieving brain fatigue greatly, arousing brain, raising spirit, keeps vigorous energy; Can eliminate because of the low fatigue causing of oxygen concentration in body inner blood the malaise symptoms such as burnout and dizziness, headache.Under the environment of pure and fresh healthy oxygen enrichment, people's physical function, brain intelligence, blood oxygen concentration etc. can reach health optimum state.This state is for the elderly, pregnant woman, children, and study intensity and the large student of psychological pressure, and working strength and each large types of populations of psychological pressure, all will have significant especially health keeping and medical function.

Although prior art as above is by filtering and absorption and even photocatalysis, nanometer technology etc. provide the mouth mask of a certain or a few the functions in " five is anti-" (i.e. dustproof (comprising anti-PM2.5), anti-virus, anti-bacteria, anti-pollution, preventing dust).But there is no at present any technology and product and can, when meeting five anti-(i.e. dustproof (comprising anti-PM2.5), anti-virus, anti-bacteria, anti-pollution, preventing dust) function, provide the mouth mask of oxygen-enriched function.And the entered lung particle that most mouth masks all can not anti-PM2.5 size, has the mouth mask of the entered lung particle that minority can anti-PM2.5, as N95 type mouth mask, but the mouth mask of these kinds wears and allows people feel very vexed while carrying, and can not use for a long time.

Summary of the invention

Above-mentioned deficiency for prior art, the technical problems to be solved in the utility model is to provide a kind of good sealing effect, comfortable wearing, and can meet dustproof (comprising anti-PM2.5) simultaneously, anti-virus, anti-bacteria, anti-pollution, five anti-oxygen enrichment mouth masks of preventing dust function, the filter course of this mouth mask can provide oxygen-enriched function, there is significant especially anti-PM2.5, health care, medical and oxygen therapy function, its outer cover body can be very effectively fixed filter course with easy, and play the function of protection filter course, can reduce the tension force that filter course is bearing tidal air pressure reduction and brings, reduced to greatest extent in use to the mechanical failure of inner polymer ultra-thin film composite membrane filter core and other possible physical damage, can be repeatedly used interior polymeric thing ultrathin membrane composite membrane filter core, therefore, greatly extend the service life of the polymer ultra-thin film composite membrane filter core of mouth mask, reduce costs.

The technical scheme that the utility model provides: described a kind of five anti-oxygen enrichment mouth masks, comprise mouth mask body and respirator belt, between described mouth mask body and described respirator belt, connect into semi-ring, or straight line respirator belt one termination is connected with mouth mask body, or straight line respirator belt is set on mouth mask body bilateral; Respirator belt is force-loose force-loose or non-, it is characterized in that: described mouth mask body comprises that flip-shell filter box, silica gel face shield and the sealing of outwardly convex surface are embedded the filter course in flip-shell filter box, described flip-shell filter box is comprised of inner cap and enclosing cover, one side of inner cap and enclosing cover is connected by rotating shaft, opposite side connects by buckle member, cover outside and offer a plurality of passages, the perforated area summation of a plurality of passages accounts for the 10%-40% of described filter course area, and optimal proportion is 25%-30%; Interior covering, offer pneumostome, described silica gel mask seal is connected to the inner side of inner cap pneumostome, and the inner chamber of silica gel face shield accounts for the 10%-40% of described filter course area, and it is 25% to 30% that the area of best inner chamber accounts for described filter course area; Described filter course is comprised of inside and outside three-dimensional porous material layer and the polymer ultra-thin film composite membrane that is clipped between two three-dimensional porous material layers; Described polymer ultra-thin film composite membrane is comprised of the ultra-thin carrier rete of porous and the ultra-thin rete of homogeneous non-porous polymer, and the ultra-thin rete of homogeneous non-porous polymer covers on the ultra-thin carrier rete of porous.

Enclosing cover and the inner cap of described flip-shell filter box are outwardly protrusion curved surface lid, at the concave surface of enclosing cover, are provided with many vertical strengthening ribs, and described enclosing cover is fitted by vertical strengthening ribs and described filter course; On the convex surface of inner cap, be provided with two-way reinforcement anyhow, and inner cap is by two-way reinforcement and filter course are fitted anyhow.

The side that described enclosing cover or inner cap and filter course are adjacent is provided with filter course fixed frame and for compressing filter course and by the flange frame of its peripheral sealing, flange frame can with filter course fixed frame be arranged on simultaneously enclosing cover or in cover, also can one be arranged on enclosing cover, another covers in being arranged on, and cover under state at enclosing cover and inner cap, flange frame is the corresponding inner side at filter course fixed frame just, filter course edge seal can be compressed, and the compression ratio that flange frame compresses filter course is 70%-95%, and optimum compression ratio is 80%-90%; For convenient, install, described filter course fixed frame is arranged on outer covering, and described flange frame is arranged on the position of the corresponding filter course fixed frame of inner cap inner side.

The area of described filter course accounts for 60% to 98% of described flip-shell filter box area.

The thickness of described inside and outside three-dimensional porous material layer, average pore size and porosity are respectively 1-8 millimeter, 0.05-0.95 micron and 70%-95%, and air penetrability is at least 30 times of polymer ultra-thin film composite membrane air penetrability, and best multiple is 50-60 times.

Described inside and outside three-dimensional porous material layer optimum thickness is 2-4 millimeter.

Described inside and outside three-dimensional porous material layer adopts high medical sponge material (such as medical grade polyurethane material) or the acupuncture nonwoven cloth material of gas permeability; Also can adopt the reasonable material of other gas permeability.The equal respiratory resistance of three-dimensional porous material of described skin and internal layer is little, and permeability is very excellent, and flow to greatest extent can ensure respiration; Meanwhile, adopt medical grade material nontoxic, harmless, non-stimulated, there is good biology and physiology compatible.

The thickness of the described ultra-thin rete of homogeneous non-porous polymer is 0.05-1 micron.Described silica gel face shield is arranged on the central position of inner cap, and by flange injection structure with in the pneumostome that covers be tightly connected.

Described a plurality of passage is strip passage, is evenly distributed on outer covering.

Described buckle member is pressing back-buckling type structure, the buckle that is arranged on the buckle base of the pressing back-buckling type buckle that flip-shell filter box covers outward and is arranged on the pressing back-buckling type buckle covering in flip-shell filter box, consists of.

The ultra-thin carrier rete of described porous is the ultra-thin carrier rete of porous that the porous polymer material that distributed by asymmetric aperture is made, or the ultra-thin carrier rete of porous made of the porous polymer material being distributed by uniform pore size, or the ultra-thin carrier rete of porous of being made by least two-layer porous polymer material stack, the thickness of the ultra-thin carrier rete of described porous is 0.05-0.13 millimeter; The ultra-thin rete of described homogeneous non-porous polymer is that a kind of by high oxygen permeability or homogeneous atresia ultrathin membrane that the polymer of oxygen high selectivity is made, its oxygen is 1.5-6 to the ratio of the infiltration coefficient of nitrogen, and thickness is 0.001-5 micron; The optimum thickness of the ultra-thin rete of described homogeneous non-porous polymer is 0.05-1 micron; The ultra-thin carrier rete of porous of described polymer ultra-thin film composite membrane and the ultra-thin rete of homogeneous non-porous polymer contact with interior three-dimensional porous material layer and outer three-dimensional porous material layer respectively.

The area of described polymer ultra-thin film composite membrane accounts for 100% of described filter course area.

The described ultra-thin rete of homogeneous non-porous polymer is to take a kind of in following material to be prepared from as raw material:

(1) the Teflon AF2400 powdex that du pont company produces; It is be abbreviated as PDD unbodied 2, and 2-bis-(trifluoromethyl-4,5-bis-is fluoro-1,3-dioxole), with the copolymer of being abbreviated as the tetrafluoroethene of TFE; In this copolymer, contain the PDD of 87% mole and the TFE of 13% mole; The chemical structural formula of copolymer is as follows:

In formula: x=89, y=11;

(2) the Teflon AF1600 powdex that du pont company produces; It is be abbreviated as PDD unbodied 2, and 2-bis-(trifluoromethyl-4,5-bis-is fluoro-1,3-dioxole), with the copolymer of being abbreviated as the tetrafluoroethene of TFE; In this copolymer, contain the PDD of 65% mole and the TFE of 35% mole; The chemical structural formula of copolymer is with as identical in above formula, but x=65, y=35;

(3) the Hyflon AD80X powdex that Belgian Su Wei company produces; It is unbodied 2,2, the fluoro-5-of 4-tri-trifluoromethoxy-1, and 3-dioxole, with the copolymer of being abbreviated as the tetrafluoroethene of TFE, unbodied 2,2 containing 85% mole in this copolymer, the fluoro-5-of 4-tri-trifluoromethoxy-1,3-dioxole;

(4) the Hyflon AD60X powdex that Belgian Su Wei company produces, it is unbodied 2,2, the fluoro-5-of 4-tri-trifluoromethoxy-1,3-dioxole, with the copolymer of being abbreviated as the tetrafluoroethene of TFE, in this copolymer containing 60% mole unbodied 2, the fluoro-5-of 2,4-tri-trifluoromethoxy-1,3-dioxole;

(5) silicon-containing polymer or dimethyl silicone polymer wherein;

(6) silicon rubber or polyether block amide wherein, Polyether block amide, is abbreviated as PEBA.

Described porous ultrathin membrane carrier layer is that a kind of in following material or two kinds or two or more raw materials are made:

Polytetrafluoroethylene (PTFE), Polytetrafluoroethylene, is abbreviated as PTFE;

Polyether sulfone, Polyethersulfone, is abbreviated as PES;

Polyvinylidene fluoride, Polyvinylidene Fluoride, is abbreviated as PVDF;

Polyethers, Polyetherimide, is abbreviated as PEI;

Acrylic copolymer, Acrylic Copolymer;

Polyimides, Polyimides, is abbreviated as PI;

Poly-polyarylate, Polyarylates,

Merlon, Polycarbonates, is abbreviated as PC;

Polyaryl ether or aryl ether, Poly aryl ethers or aryl ethers;

Poly-aryl ketones or aryl ketones, Poly aryl ketones or aryl ketones;

Polypropylene, Polypropylene, is abbreviated as PP;

The porous nonwoven of good permeability; Described porous nonwoven cloth material includes, but not limited to porous polyester (Polyester) nonwoven or porous polysulfones (Polysulfone) nonwoven or porous nylon (Nylon) nonwoven.

The ultra-thin carrier rete of described porous be the porous polymer material that distributed by asymmetric aperture make the ultra-thin carrier rete of porous time, its porosity is 10%-90%, and the average pore size of porous ultrathin membrane carrier layer from the surface that contacts described homogeneous non-porous polymer thin layer to outer surface expands 0.1-10 micron to from 0.001-0.01 micron; The ultra-thin carrier rete of described porous be the porous polymer material that distributed by uniform pore size make porous ultrathin membrane carrier layer time, its porosity and average pore size are respectively 10%-90% and 0.01-2 micron; When the ultra-thin carrier rete of described porous is the porous ultrathin membrane carrier layer of being made by least two-layer porous polymer material stack, the thickness, porosity and the average pore size that contact the ground floor porous ultrathin membrane carrier layer of described homogeneous non-porous polymer thin layer are respectively 0.01-0.05 millimeter, 40%-80% and 0.01-0.06 micron, and thickness, porosity and the average pore size of the porous ultrathin membrane carrier layer of the second layer are respectively 0.1-0.15 millimeter, 40%-80% and 0.1-10 micron.

The ultra-thin carrier rete of described porous be the porous polymer material that distributed by asymmetric aperture make the ultra-thin carrier rete of porous time, its thickness and porosity are respectively 0.1-0.15 millimeter and 50%-80%; The average pore size of described porous ultrathin membrane carrier layer from the surface that contacts described homogeneous non-porous polymer thin layer to outer surface expands 1-5 micron to from 0.01-0.05 micron; The ultra-thin carrier rete of described porous be the porous polymer material that distributed by uniform pore size make porous ultrathin membrane carrier layer time, its thickness, porosity and average pore size are respectively 0.10-0.15 millimeter, 40%-80% and 0.02-0.06 micron.

The beneficial effect that five anti-oxygen enrichment mouth masks of the present utility model bring is:

1. the filter core of five anti-oxygen enrichment mouth masks described in the utility model adopts the ultra-thin rete of homogeneous non-porous polymer, this rete is to observe by high oxygen permeability or to the infiltration of oxygen high selectivity the homogeneous atresia compacted zone that the polymer of solution-diffusion is made, there is efficient (being greater than 99.99% efficiency) dustproof (comprising anti-PM2.5) simultaneously, anti-virus, anti-bacteria, anti-pollution, the function of preventing dust, but also there is the property that the oxygen enrichment of pure and fresh health is provided easily to people, therefore can be widely as anti-PM2.5, health care, medical, be applied in various situations with oxygen therapy mouth mask,

2. it is box-like that mouth mask body of the present utility model adopts flip-shell filter, in box body, be provided with filter course fixed frame, filter course is embedded in box body, and in fixing by filter course fixed frame, then by front, covering filter course periphery compression seal of bonnet, not only filter course can be sealed, can also well protect the polymer ultra-thin film composite membrane filter core in filter course, avoid the polymer ultra-thin film composite membrane filter core in described filter course to be in use subject to mechanical failure or other physical damage, increase the service life of the polymer ultra-thin film composite membrane filter core in filter course, greatly reduce use cost,

3. mouth mask body front/rear cover of the present utility model one end is by rotating shaft or chain connection, the other end connects by buckle, front/rear cover easily switch reaches the filter course that installs or removes very easyly, is convenient for changing the disposable inside and outside three-dimensional porous material layer in filter course; Cover outside and be provided with passage, can conveniently breathe freely, after mouth mask, can not affect eupnea on tape, interior covering, be provided with silica gel face shield, silica gel face shield can fit tightly with human body face, increases its air-tightness, and comfortable wearing, and silica gel face shield is closely connected with inner cap by flange injection structure, its air-tightness is better, has completely cut off contacting of the anti-oxygen rich gas of inner chamber five and outside contamination air;

4. filter course of the present utility model is comprised of filter core and the inside and outside three-dimensional porous material layer of polymer ultra-thin film composite membrane, in the situation that not reducing polymer ultra-thin film composite membrane filter core gas permeability, increased the mechanical strength of polymer ultra-thin film composite membrane filter core, inside and outside three-dimensional porous material layer is all used disposable material, its cost very low, in use just only need to change inside and outside three-dimensional porous material layer, make human body avoid secondary pollution, greatly increase the service life of polymer ultra-thin film composite membrane filter core, reduced cost;

5. polymer ultra-thin film composite membrane filter core right and wrong of the present utility model are disposable, along with the time of using, gas permeability and the filter efficiency of polymer ultra-thin film composite membrane filter core, all protect special constant, in the situation that polymer ultra-thin film composite membrane does not have mechanical failure or there is no other physical damage, its service life is very long, can be repeatedly used, thereby make to use the very economical practicality of mouth mask of the present utility model, can reduce the waste of described polymer ultra-thin film composite film material and the environmental pollution causing because abandoning described polymer ultra-thin film composite membrane.

Mouth mask of the present utility model is reasonable in design, structure is simple and direct, and the ultra-thin rete of homogeneous atresia that has adopted a kind of high oxygen permeability or the polymer of oxygen high selectivity is made, except having the five anti-functions of the anti-PM2.5 of energy, also have oxygen-enriched function, making to wear, it is comfortable and good for health to carry person.In particular cases, wear to ill people and carry the mouth mask of oxygen-enriched function of the present utility model, make after its oxygen enrichment that sucks pure and fresh health, the situations such as the rapid allevating angina pectoris of energy, cerebral thrombus, apoplexy, for going to gain time before hospitalize, and its successive treatment is become easily with much effective.Polymer ultra-thin film composite membrane filter core in the filter course of this mouth mask can provide oxygen-enriched function, there is significant especially anti-PM2.5, health care, medical and oxygen therapy function, its outer cover body can be very effectively fixed filter course with easy, and play the function of the polymer ultra-thin film composite membrane filter core in protection filter course, can reduce the tension force that polymer ultra-thin film composite membrane filter core in filter course is bearing tidal air pressure reduction and brings, reduced to greatest extent in use to the mechanical failure of inner polymer ultra-thin film composite membrane filter core and other possible physical damage, greatly extend the service life of the polymer ultra-thin film composite membrane filter core in mouth mask, reduce costs.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model embodiment;

Fig. 2, Fig. 3 are the left and right views of mouth mask body of the utility model embodiment;

Fig. 4 is the structural representation of the utility model mouth mask body;

Fig. 5 is the structure signal after the utility model flip-shell filter box is opened;

Fig. 6 is the Facad structure signal after the utility model flip-shell filter box is opened;

Fig. 7 is the internal structure signal after the utility model flip-shell filter box is opened;

Fig. 8 is the structural representation of the ultrathin membrane composite membrane of polymer in the utility model;

Fig. 9 wear to carry after the utility model mouth mask one of time dependent test data of oxygen concentration in blood;

Figure 10 wear to carry after the utility model mouth mask in blood two of the time dependent test data of oxygen concentration;

Figure 11 wear to carry after the utility model mouth mask in blood three of the time dependent test data of oxygen concentration;

Figure 12 wear to carry after the utility model mouth mask in blood four of the time dependent test data of oxygen concentration;

Figure 13 wear to carry after the utility model mouth mask in blood five of the time dependent test data of oxygen concentration;

Figure 14 wear to carry after the utility model mouth mask in blood six of the time dependent test data of oxygen concentration;

Figure 15 is the schematic diagram that is related to of the amount of oxygen that sucks during with each breathing of the film of different air penetrabilities;

Figure 16 is the oxygen of polymer ultra-thin film composite membrane and the ventilative permeability test schematic diagram of nitrogen;

Figure 17 is the oxygen-enriched function test schematic diagram of polymer ultra-thin film composite membrane;

Figure 18 is that the virus of polymer ultra-thin film composite membrane hinders performance test schematic diagram;

Figure 19 is that the miniflow of polymer ultra-thin film composite membrane prolongs dip-coating continuous producing apparatus and process schematic representation.

In figure: 1-flip-shell filter box; 1a-enclosing cover; 1b-inner cap; 2-filter course, 2a-outer three-dimensional porous material layer; 2b-interior three-dimensional porous material layer; 3-pneumostome, 4-respirator belt; 5-rotating shaft; 6-polymer ultra-thin film composite membrane; The ultra-thin rete of 6a-homogeneous non-porous polymer; The ultra-thin carrier rete of 6b-porous; 7-passage; 8-buckle member, 8a-buckle base; 8b-buckle; 9-filter course fixed frame; 10-silica gel face shield; 11-inner chamber; 12-flange frame; 13-two-way reinforcement anyhow; 14-vertical strengthening ribs; 15-flange injection structure; 16,17-left and right mouth mask strap bolt rod, 18-specimen, 19-test box, 20-unstripped gas pipeline, 21-holder net, 22-vent outlet, 23-triple valve oozed, 24-oxygen channel, 25-oxygen cylinder, 26-pressure regulator, 27-gas gauge, 28-gas trap, 29-gas flow rate meter, 30-gas trap, 31-nitrogen cylinder, 32-test box air inlet, 33-seeing through the gas pipeline of gas, 34-unstripped gas exports, 35-atmosphere connection port, 36-air bottle, 37-air pressure regulator; 38-air duct; 39-composite membrane Oxygen Enrichment test box; 40-test box air intlet; 41-holder net; 42-ooze vent outlet; 43-gas gauge; 44-tail gas pressure regulator; 45-tail gas gas flow rate controller; The outlet of 46-tail gas; 47-see through the outlet of gas; 48-see through the gas pipeline of gas; 49-gas flow rate meter; 50-gas oxygen analyser; 51-atmosphere connection port; 52-air bottle; 53-air duct; 54-air velocity controller; 55-containing the viral cushioning liquid of test; The container of 56-cushioning liquid; 57-aerosol generator; 58-containing the viral air conduit of test; 59-composite membrane virus hinders the test box of performance; 60-contain and test viral air intlet; 61-contain and test viral tail gas delivery channel; 62-gas gauge; 63-air pressure regulator; 64-contain the viral tail gas of test to export; 65-holder net; 66-ooze vent outlet; 67-infiltration airway; 68-collection virus liquid; The container of 69-collection virus liquid; 70-gas flow rate meter; The outlet of 71-infiltration gas; 72-two stage biological safety cabinet; 73-material cylinder; 74-porous polymer carrier layer material web; 75-porous composite polymer electrolyte membrane carrier layer material web amplification effect figure; The container of 76-polymer dip-coating solution; 77-polymer dip-coating solution; 78-high-accuracy measuring pump; 78a and 78b-infrared ray liquid level sensor; 79-polymer dip-coating solution conveyor tube road; 80-polymer coating solution storage pond; 81-polymer dip-coating solution; 82-micro-dip roller; 83-wet ultrathin membrane composite membrane of polymer thin slice; The amplification effect figure of the ultra-thin rete of 84-homogeneous non-porous polymer; The amplification effect figure of 85-porous composite polymer electrolyte membrane carrier layer; 86-conveying cylinder; 87-first order vacuum drying oven; 88-second level vacuum drying oven; 89-third level vacuum drying oven; The nitrogen inlet of 90-first order vacuum drying oven; The nitrogen outlet of 91-first order vacuum drying oven; 91c-first order vacuum degree control valve, the nitrogen inlet of 92-second level vacuum drying oven; The nitrogen outlet of 93-second level vacuum drying oven; 93c-second level vacuum degree control valve; The nitrogen inlet of 94-third level vacuum drying oven; The nitrogen outlet of 95-third level vacuum drying oven; 95c-third level vacuum degree control valve; 96-pipeline; 97-condenser; The storage bottle of 98-recovery solvent; 99-recovered solvent; 100-vacuum pipe; 101-vavuum pump; 102-nitrogen cylinder; 103-nitrogen flow controller; 104-nitrogen distribution duct; 105-oil-free air compressor; 106-air duct; 107-air cleaner; 108-air dryer; The cooling cuticula device of 109-air purge; The air intlet of the cooling cuticula device of 110-air purge; The air outlet slit of the cooling cuticula device of 111-air purge; 112-air outlet slit pipeline; 113-finished product cylinder; 114-computer control system; 115-cable.

The specific embodiment

Below in conjunction with accompanying drawing, the specific embodiment of the present utility model and Relational Questions are described in further detail.Five anti-oxygen enrichment mouth masks are as shown in Figure 1, Figure 2, Figure 3 shows wherein a kind of embodiment of the present utility model, five anti-oxygen enrichment mouth masks in the present embodiment, comprise mouth mask body and respirator belt, described respirator belt 4 is set on the left and right mouth mask strap bolt rod 16,17 of mouth mask body both sides for straight line respirator belt, respirator belt 4 can be force-loose, can be also non-force-loose, as Fig. 4, Fig. 5, shown in Fig. 6, described mouth mask body comprises that the flip-shell filter box 1(of outwardly convex surface adopts medical plastic to make), silica gel face shield 10(adopts medical silica-gel to make) and seal the filter course 2 being embedded in flip-shell filter box, described flip-shell filter box 1 is comprised of outwardly protrusion curved surface inner cap 1b and outwardly protrusion curved surface enclosing cover 1a, a side of inner cap 1b and enclosing cover 1a is connected by rotating shaft 5, opposite side connects by buckle member 8, buckle member 8 is pressing back-buckling type structure, buckle base 8a is arranged on flip-shell filter box enclosing cover 1a, pressing back-buckling type buckle 8b is arranged on flip-shell filter box inner cap 1b, after closing, buckle 8b and buckle base 8a can automatic fastenings, in the outside of buckle 8b, be provided with unlatching arrow, when pointing that the direction of arrow is pressed in accordance with the instructions, in described, enclosing cover unclamps, replaceable disposable described in, outer two-layer three-dimensional porous material.On enclosing cover 1a, offer a plurality of passages 7, a plurality of passages 7 are strip passage, laterally be evenly distributed on enclosing cover 1b, the perforated area summation of a plurality of passages 7 accounts for the 10%-40% of described filter course 2 areas, the best is 25%-30%, guarantee the ventilation rate of flip-shell filter box 1, make user's five anti-oxygen-enriched air after breath normally.Concave surface at enclosing cover 1a is provided with many vertical strengthening ribs 14, and described enclosing cover 1a is by vertical strengthening ribs 14 and described filter course 2 laminatings, on the convex surface of inner cap 1b, be provided with two-way reinforcement 13 anyhow, described inner cap 1b is by two-way reinforcement 13 and filter course 2 laminatings anyhow, in the time of mechanical support being provided with balance human body respiration can to described filter course 2, impose on the draught head of described filter course 2 when user breathes, the tension force bringing to reduce tidal air pressure reduction that described filter course 2 born, can be good at supporting and protection filter course 2, a side adjacent with filter course 2 at enclosing cover 1a is provided with filter course fixed frame 9 and flange frame 12, in the present embodiment, filter course fixed frame 9 and flange frame 12 are all arranged on enclosing cover 1a, flange edge 12 is arranged on the inner side of filter course fixed frame 9, be used for compressing filter course 2 and by its peripheral sealing, according to the compressive features of three-dimensional porous material, under the state covering at enclosing cover 1a and inner cap 1b, filter course 2 is sealed in enclosing cover 1a, in the seal chamber that inner cap 1b and filter course fixed frame 9 form, its periphery is pressed by flange frame 12, reach the sealing effectiveness that is greater than 99.99%, all air that assurance enters in silica gel face shield inner chamber 11 all pass through from filter course 2, in actual fabrication process, for installation filter course 2 that can be convenient, best mode is that filter course fixed frame 9 is arranged on to outer covering, and flange frame 12 is arranged on the position of the corresponding filter course fixed frame of inner cap inner side.In inner cap 1b central position, offer pneumostome 3, described silica gel face shield 10 is tightly connected by flange injection structure 15 and the pneumostome 3 on inner cap 1b, reach and be greater than 99.99% bubble-tight effect, to guarantee the function of described five anti-i.e. dustproof (comprising anti-PM2.5), anti-viruses, anti-bacteria, anti-pollution, preventing dust oxygen enrichment mouth mask; And the inner chamber 11 of silica gel face shield accounts for the 10%-40% of described filter course area, the best is 25%-30%, and silica gel face shield 10 adopts the medical silica gel that automatically coincide, this elastic properties of materials is good, nontoxic, harmless, non-stimulated to human body, there is good biology and physiology compatible, after putting on headband, tightening force by headband is identical cavity edge and human body face profile in silica gel, and the isolated pure five anti-oxygen rich gas of inner chamber contact with outside contamination air.

The area of described filter course 2 accounts for 60% to 98% of described flip-shell filter box 1 area, the air that can ensure respiration can both filter by filter course 2, as shown in Figure 7, filter course 2 is comprised of inside and outside three-dimensional porous material layer 2b, 2a and the polymer ultra-thin film composite membrane 6 that is clipped between two three-dimensional porous material layers; As embodiment, described inside and outside three-dimensional porous material layer 2b, 2a adopt the high medical grade polyurethane material of gas permeability, and its average pore size and porosity are respectively 0.5 micron and 80%, and thickness is 2.6 millimeters.The respiratory resistance of inside and outside three-dimensional porous material layer is little, and permeability is very excellent, and flow to greatest extent can ensure respiration; Meanwhile, adopt medical grade material nontoxic, harmless, non-stimulated, there is good biology and physiology compatible, can provide high gas permeability and enough strong mechanical strength for polymer ultra-thin film composite membrane 6.Inside and outside three-dimensional porous material layer can adopt disposable; can protect described polymer ultra-thin film composite membrane 6 to avoid mechanical damage; can make human body avoid secondary pollution by the described disposable inside and outside two-layer three-dimensional porous material of frequent replacing again simultaneously; greatly extend the service life of described polymer ultra-thin film composite membrane 6, and it is very low to change the cost of described disposable inside and outside two-layer three-dimensional porous material.Under the cooperation of inside and outside three-dimensional porous material layer 2b, 2a and inner cap, the reinforcement that covers outward, reduced to greatest extent when using described five anti-oxygen enrichment mouth mask the mechanical failure of polymer ultra-thin film composite membrane 6 and other possible physical damage, greatly increased its service life.

As shown in Figure 8, described polymer ultra-thin film composite membrane 6 is comprised of porous ultra-thin carrier rete 6b and the ultra-thin rete 6a of homogeneous non-porous polymer, and the ultra-thin rete 6a of homogeneous non-porous polymer covers on the ultra-thin carrier rete of porous 6b.The ultra-thin carrier rete of described porous 6b is one or more layers; The ultra-thin rete 6a of described homogeneous non-porous polymer observes by high oxygen permeability or to the infiltration of oxygen high selectivity the homogeneous atresia compacted zone that the polymer of solution-diffusion is made, that the applicant is prepared from the known polymer raw material of prior art, its oxygen is 1.5-6 to the ratio of the infiltration coefficient of nitrogen, and thickness is 0.001-5 micron.The Teflon AF2400 material that the ultra-thin rete 6a of homogeneous non-porous polymer in embodiment adopts du pont company to produce is prepared from, and the ultra-thin carrier rete of porous 6b selects highly asymmetric submicron order polysulfones preparation.The pore-size distribution mark sheet of the asymmetric submicron order polysulfones of described height 6b is present: be 1,0.05 micron with the average pore size of the Surface Contact of the ultra-thin rete 6a of homogeneous non-porous polymer, 2, average pore size is that the thickness of 0.05 micron is only for approximately 10 microns, 3, the average pore size of outer surface are 5.0 microns, 4, gross thickness is approximately 110 microns, and porosity is approximately 60%.Therefore, the asymmetric submicron order polysulfones of selected height has enough mechanical strengths and permeability, and especially the pore-size distribution speciality of its outstanding asymmetric submicron order of height is suitable as and manufactures polymer ultra-thin film composite membrane 6 very much.0.5 micron of the thickness average out to of the ultra-thin rete 6a of Teflon AF2400 homogeneous non-porous polymer in described polymer ultra-thin film composite membrane 6.In the present embodiment, the width and the thickness that for pressing the inside and outside two-layer three-dimensional porous material of filter course periphery, reach the described flange frame 12 that the flip-shell filter box of sealing effectiveness covers are outward respectively 4.06 millimeters and 2 millimeters; Therefore, described filter course

periphery is 78% by the described outer three-dimensional porous material layer 2a of described flange frame 12 compressions and the compression ratio of interior three-dimensional porous material layer 2b.

The ultra-thin carrier rete of porous (6b) of described polymer ultra-thin film composite membrane (6) and the ultra-thin rete of homogeneous non-porous polymer (6a) contact with interior three-dimensional porous material layer (2b) and outer three-dimensional porous material layer (2a) respectively.

In the present embodiment, use the length of described inside and outside three-dimensional porous material layer 2b, 2a and polymer ultra-thin film composite membrane 6 materials and be widely respectively 118 millimeters and 78 millimeters, the length of its effective inside and outside three-dimensional porous material layer 2b, 2a and polymer ultra-thin film composite membrane 6 materials and be widely respectively 110 millimeters and 70 millimeters.Emphasize, the parameter of concrete polymer ultra-thin film composite membrane 6 materials that provided in the present embodiment designs for a normal adult.Obviously, for teenager, children etc., can by the design parameter that as above provided, suitably adjust its long and wide size respectively, to meet their requirement.

" atresia " in the ultra-thin rete 6a of described homogeneous non-porous polymer not refers to that the ultra-thin rete 6a of this homogeneous non-porous polymer is complete impervious meanings of any material, and refers to that the ultra-thin rete 6a of this homogeneous non-porous polymer does not have the common alleged hole being physically permanently fixed of people.Therefore, any penetrant molecule that is greater than 1 nanometer all can not be through the ultra-thin rete 6a of homogeneous non-porous polymer, so, with the polymer ultra-thin film composite membrane 6 of the ultra-thin rete 6a of homogeneous non-porous polymer, there is the ability penetrating that 100% ground stops airborne grit (dust particale that comprises PM2.5), virus, germ and flue dust.Material infiltration is followed solution-diffusion (the solution-diffusion model) by the mechanism of the ultra-thin rete 6a of homogeneous non-porous polymer process.

In prior art, the most important characteristic of film is the infiltration rate that they have the ability to control different material.According to the principle of the structure of membrane material and separation process, film can be divided into two classes, and the two kinds of models that have are correspondingly used to describe two kinds of mechanism of the material process of osmosis of this two classes film.A model is hole saturated model (the pore-flow model), defers in the film of this model penetrant and flows through aperture not of uniform size in film (the aperture is here the hole being physically permanently fixed) for osmotic drive power because of pressure differential (or dividing potential drop pressure differential).Another kind of model is solution-diffusion (the solution-diffusion model), defer to the penetrant of film of this model first at film adsorption, then be dissolved in membrane material, again because the concentration gradient of penetrant in membrane material passed through film through diffusion, then be adsorbed on the another side on film surface, last penetrant passes through film through desorption.The ultra-thin rete 6a of described homogeneous non-porous polymer is this film of deferring to solution-diffusion, and in the time of by this film, the separation of different material is that the difference of the solubility in film and diffusion rate by different material decides.

The transmitting procedure of penetrant in the ultra-thin rete 6a of homogeneous non-porous polymer is to be described by solution-diffusion and Fick's law (Fick ' s law), and the narrow space between the polymer chain that the free volume of the polymer in the ultra-thin rete 6a of homogeneous non-porous polymer (the free volume of the polymer) is caused by the warm-up movement of polymer molecule forms.The motion scale that the free volume of these polymer and penetrant pass through the polymer in the ultra-thin rete 6a of homogeneous non-porous polymer because of concentration gradient goes up appearing and subsiding approximately at one time.At present the generally acknowledged knowledge of people is thought, for penetrant bulk of molecule, be the polymer free volume that produces of the ultra-thin rete 6a of homogeneous non-porous polymer transient state as the space of passing through of penetrant, defer to solution diffusion model and Fick's law.The another kind of perforated membrane different from it, has permanent aperture, defers to hole saturated model and Darcy's law, and the transition range between them is in 5-10 dust (0.5-1 nanometer).(referring to document: R.W.Baker, " Membrane Technology and Applications " third edition, 1012, by John Wiley & Sons Ltd, published.) as can be seen here, any penetrant molecule that is greater than 1 nanometer all can not be through the ultra-thin rete 6a of homogeneous non-porous polymer.Therefore, polymer ultra-thin film composite membrane 6 with the ultra-thin rete 6a of homogeneous non-porous polymer has the ability that 100% ground stops airborne grit (dust particale that comprises PM2.5), virus, germ and flue dust to penetrate, can select homogeneous non-porous polymer 6a that any oxygen permeability is high as the material of polymer ultra-thin film composite membrane 6, this described homogeneous non-porous polymer 6a material can block grit and germ etc. for mouth mask.

The utility model in use, first air enters outer three-dimensional porous material layer 2a by the strip passage 7 on enclosing cover 1a, then air flows freely by described polymer ultra-thin film composite membrane 6 in three-dimensional porous material layer 2a outside, air forms the fresh air of five anti-oxygen enrichments after polymer ultra-thin film composite membrane 6 filters, the fresh air of described five anti-oxygen enrichments enters after interior three-dimensional porous material layer 2b, again by flowing freely in the inner chamber 11 that enters described silica gel face shield 10 in described interior three-dimensional porous material 2b, the fresh air of last five anti-oxygen enrichments is sucked by human body through the inner chamber 11 of described inner cap 1b silica gel face shield 10.

The mechanism that sees through or penetrate the ultra-thin rete 6a of described homogeneous non-porous polymer according to airborne material (such as grit (dust particale that comprises PM2.5), virus, germ, flue dust, oxygen, nitrogen, contaminant molecule etc.) is deferred to the transport mechanism of dissolving diffusion, and its detailed process that sees through or penetrate the ultra-thin rete 6a of described homogeneous non-porous polymer is as follows:

1, first described airborne material bumps and contacts with the surface of the ultra-thin rete 6a of described homogeneous non-porous polymer.

2,, after the ultra-thin rete 6a of the described homogeneous non-porous polymer surface that described airborne material contacts with air bumps, described airborne material is adsorbed on the ultra-thin rete 6a of the described homogeneous non-porous polymer surface contacting with air.

3, after described airborne material is adsorbed on the ultra-thin rete 6a of the described homogeneous non-porous polymer surface contacting with air, described airborne substance dissolves is in the ultra-thin rete 6a of described homogeneous non-porous polymer.

4, be dissolved in the described airborne material in the ultra-thin rete 6a of described homogeneous non-porous polymer, through concentration difference, be diffused into another surface of the ultra-thin rete 6a of described homogeneous non-porous polymer.

5, the described airborne material on another surface that is adsorbed on the ultra-thin rete 6a of described homogeneous non-porous polymer is in desorption enters described porous ultrathin membrane carrier layer 6b.

Permeability for five anti-oxygen enrichment composite membrane mouth masks in the present embodiment, especially it provides the function of oxygen enrichment, the most directly and effective method be while not wearing masks and wear five anti-oxygen enrichment composite membrane mouth masks in the present embodiment after measure concentration and the personal sensation of oxygen in the blood that participates in experimenter.Several functions that just can check human body by the oxygen concentration (being also referred to as the blood oxygen level of human body) in measurement blood of human body, the oxygen content in blood reduces, and itself just shows that human body may exist one or several potential health problems.Oxygen is the basic demand sustaining life, oxygen content in blood is the oxygen saturation of measuring in blood, haemoglobin molecule contained in red blood cell in blood can be combined by the oxygen in atmosphere, and oxygen is taken to the different parts of health, when the oxygen level in blood has any variation, all may cause healthy complication.In most of the cases, the oxygen saturation in blood is that 95-100% is healthy scope, and the oxygen saturation in blood lower than 90% time, just need to be investigated and be found out its reason by doctor; Oxygen saturation in blood drops to 90% and is called hypoxemia when following; When there is hypoxemia, people can be short of breath immediately, attempts to promote the concentration of oxygen in human body.The cause of disease of hypoxemia comprises anaemia, COPD, pulmonary emphysema, pneumonia, pneumothorax, ARDS, pulmonary embolism, pulmonary interstitial fibrosis, sleep apnea etc.Before the treatment of Dao hospital, if improve in time not in time the concentration of oxygen in human body by breathing oxygen-enriched air, may cause the deterioration of the state of an illness, even cause irreversible pathology.When by all ages and classes, different sexes, under different conditions, the experimenter of (such as rest, normal activity and motion) does not wear masks as follows and wear oxygen concentration test data and the result in the blood of human body after five anti-oxygen enrichment composite membrane mouth masks in described the present embodiment.

Accompanying drawing 9,10,11,12,13,14 has shown respectively the applicant's series of experiments data, they are that different wearers wears after five anti-oxygen enrichment composite membrane mouth masks in the present embodiment as mentioned above the time dependent test data of oxygen concentration in blood, and for the utility model, measuring the model that the instrument Shi You U.S. Crucial Medical Systems company of the oxygen concentration in blood of human body produces is CMS-50D finger tip pulse blood oxygen instrument.From accompanying drawing, show, after five anti-oxygen enrichment composite membrane mouth masks in wearing the present embodiment, the function of dustproof except having (comprising anti-PM2.5), anti-virus, anti-bacteria, anti-pollution, preventing dust, people can also suck the oxygen enrichment of pure and fresh health, and then play the effect of health care, medical and oxygen therapy.

As shown in Figure 9, the male sex asian ancestry that experimenter is 59 years old, when not wearing masks, feel fatigue, the malaise symptoms such as dizziness, headache, and in the blood of surveying, oxygen concentration is 92% to 93%.This experimenter puts on after five anti-oxygen enrichment composite membrane mouth masks in the present embodiment, and in the blood of surveying, oxygen concentration rises to oxygen concentration in 96%(blood and is greater than 95% for healthy scope after 5 minutes).After approximately 10 minutes, the sensation of the malaise symptoms such as fatigue, dizziness, headache reduces greatly.After 30 minutes, the sensation of the malaise symptoms such as fatigue, dizziness, headache disappears completely, until off-test (110 minutes).On the same day after off-test, experimenter is again without the sensation of the malaise symptoms such as fatigue, dizziness, headache.

As shown in figure 10, the women asian ancestry that experimenter is 82 years old, when not wearing masks, feel uncomfortable in chest, gas is not smooth, the malaise symptoms such as dizziness, headache, and in the blood of surveying, oxygen concentration is 91% to 93%.This experimenter puts on after five anti-oxygen enrichment composite membrane mouth masks in the present embodiment, and in the blood of surveying, oxygen concentration rises to oxygen concentration in 96%(blood and is greater than 95% for healthy scope after 5 minutes).After approximately 15 minutes, uncomfortable in chest, gas is not smooth, the sensation of the malaise symptoms such as dizziness, headache reduces greatly.After 40 minutes, uncomfortable in chest, gas is not smooth, the sensation of the malaise symptoms such as dizziness, headache disappears completely, until off-test (110 minutes).The same day after off-test and second day, experimenter again without uncomfortable in chest, gas is not smooth, the sensation of the malaise symptoms such as dizziness, headache.

Figure 11 is that representational crowd is not when wearing masks and the test data of putting on oxygen concentration in the blood of surveying after five anti-oxygen enrichment composite membrane mouth masks in described the present embodiment to Figure 14.Result of the test shows to put on oxygen concentration in the blood after five anti-oxygen enrichment composite membrane mouth masks in described the present embodiment rising in various degree.

As shown in figure 14, the male sex asian ancestry that experimenter is 48 years old, the test data of putting on oxygen concentration and pulse in the blood surveyed at the volley after five anti-oxygen enrichment composite membrane mouth masks in described the present embodiment.Result of the test shows to put on oxygen concentration in the blood surveyed at the volley after five anti-oxygen enrichment composite membrane mouth masks in described the present embodiment and slightly raises.

Below the oxygen-enriched function of polymer ultra-thin film composite membrane 6 for mouth mask of the present utility model and the principle of foundation thereof are simply described.As mentioned above, the ultra-thin rete 6a of described homogeneous non-porous polymer follows the transport mechanism of the material (comprising molecule) that dissolves diffusion, and gas can be expressed as by infiltration coefficient (the permeability coefficient) P of the ultra-thin rete 6a transmission of homogeneous non-porous polymer:

P=D×S 【1】

Wherein D is that an average diffusion coefficient ，Qi unit is cm ²/ s; S is that solubility coefficient ，Qi unit is cm ³(STP)/(cm ³) (torr), wherein STP is representing Standard Temperature and Pressure, normal temperature (0 ℃) and normal pressure (100kPa), be also referred to as standard state.The unit of infiltration coefficient P is cm ³(STP)/(cm) (torr) (s).

The ultra-thin rete 6a of described homogeneous non-porous polymer is for the ratio (α that selectively may be defined as gas A and gas B infiltration coefficient of gas A and gas B _a,B):

${\mathrm{\α}}_{A,B}=\frac{P_A}{P_B}$ 【2】

By equation [1] substitution equation [2], the ultra-thin rete 6a of described homogeneous non-porous polymer is for the selective (α of gas A and gas B _a,B) can be expressed as:

${\mathrm{\α}}_{A,B}=\left(\frac{D_A}{D_B}\right)\left(\frac{S_A}{S_B}\right)$ 【3】

Therefore, as defined in equation [3] be selectively that two parameters multiply each other.First parameter, (D _a/ D _b), be the ratio of gas A and gas B diffusion coefficient, and be commonly called mobility or spread selective.This parameter has reflected that infiltration gas is with respect to the mobility of the polymer medium chain of the ultra-thin rete 6a of described homogeneous non-porous polymer with respect to the size of the spacing of the chain between the polymer molecule of the ultra-thin rete 6a of described homogeneous non-porous polymer and with respect to the size of the spacing of the chain in the polymer molecule of the ultra-thin rete 6a of described homogeneous non-porous polymer.Binomial parameter, (S _a/ S _b), be absorption or deliquescent ratio, it has reflected relative absorption or the dissolubility of gas in the polymer of the ultra-thin rete 6a of described homogeneous non-porous polymer.In the ordinary course of things, the gas of easier condensation, its absorption is higher.

The ultra-thin rete 6a of described homogeneous non-porous polymer selectively can follow aforesaid equation [2] for airborne oxygen and nitrogen, that is:

${\mathrm{\&alpha;}}_{{\mathrm{<figure-callout\; id="2"\; label="O"\; filenames="HDA0000382585670000022.png"\; state="\{\{state\}\}">O</figure-callout>}}_2,{\mathrm{<figure-callout\; id="2"\; label="N"\; filenames="HDA0000382585670000022.png"\; state="\{\{state\}\}">N</figure-callout>}}_2}=\frac{P_{O_2}}{P_{N_2}}$ 【4】

As aforementioned, although contain grit (dust particale that comprises PM2.5), virus, germ, flue dust and contaminant molecule etc. in contaminated air, but its Main Ingredients and Appearance is still oxygen and nitrogen to be formed, and wherein nitrogen is inert gas to human body, and oxygen is only people's required gas of surviving.Therefore, the mouth mask that application currently available technology is produced, air capacity when its air penetrability is breathed to people is at every turn directly proportional, and the amount of oxygen sucking while also just at every turn breathing to people is directly proportional.When people do not wear masks, its air penetrability is 100%.If oxygen concentration is 21% in air, as shown in figure 15, when the amount of oxygen sucking while at every turn breathing when people do not wear masks is set as 0.21 unit (this state can be used for the datum line of comparison mouth mask permeability parameter), the air penetrability of the mouth mask of wearing as people is 90%, if oxygen concentration is still 21% in air, the amount of oxygen sucking while at this moment at every turn breathing will be reduced to 0.189 unit.Yet when putting on the mouth mask with polymer ultra-thin film composite membrane 6, not only there is the function of anti-grit (dust particale that comprises anti-PM2.5), anti-virus, anti-bacteria, preventing dust and anti-pollution thing, but also have oxygen-enriched function concurrently.When the oxygen of the ultra-thin rete 6a of described homogeneous non-porous polymer is 2.0 to the ratio of the infiltration coefficient of nitrogen, if the air penetrability of described mouth mask body 1 is also 90%, in air, oxygen concentration is still 21%, and the amount of oxygen sucking while at this moment at every turn breathing is 0.312 unit.Compare (amount of oxygen sucking during each breathing is 0.21 unit) when not wearing masks, after putting on the mouth mask that has oxygen-enriched function concurrently of being manufactured by composite membrane of the present utility model, the amount of oxygen sucking during each breathing is far longer than while not wearing masks, the amount of oxygen sucking during each breathing has more more than 48% when not wearing masks, and suck while breathing at every turn be dustless (comprising without PM2.5), virus-free, without the air of the pure and fresh health of germ, pollution-free, smoke dust; The mouth mask that is 90% with the air penetrability of prior art manufacture is compared, and the amount of oxygen sucking while at every turn breathing will have more more than 65%.Take and do not wear masks as benchmark, Figure 15 shown under various conditions, comprises the mouth mask of currently available technology and with the mouth mask of polymer ultra-thin film composite membrane 6 of the present utility model.Figure 15 has shown the α for the ultra-thin rete 6a of homogeneous non-porous polymer _{o2, N2}the relation of the amount of oxygen sucking when being respectively 1.5,2.0,2.5 and 3.0 air penetrability and breathing at every turn.

Polymer ultra-thin film composite membrane 6 in the utility model is a kind of films with flexibility and certain toughness, both had and be clipped between inside and outside three-dimensional porous material layer 2b, 2a, and can with the toughness of inside and outside three-dimensional porous material layer 2b, 2a tabling, have again the flexibility matching with the shape of the flip-shell filter box 1 of convex surface with outwardly.Along with the continuous passing of service time, the performance of described polymer ultra-thin film composite membrane 6 (no matter being gas permeability or filter efficiency) is protected special constant.If there is no mechanical failure or there is no other physical damage (protecting in good condition polymer ultra-thin film composite membrane 6), show at least 5 years service life of polymer ultra-thin film composite membrane 6 from principle and life experiment.During described disposable inside and outside three-dimensional porous material layer 2b, 2a in needing replacement port cover body, polymer ultra-thin film composite membrane 6 is taken out and (notes film not being caused to mechanical failure! ), changed in mouth mask body after disposable inside and outside three-dimensional porous material layer 2b, 2a, polymer ultra-thin film composite membrane 6 is clipped in to the filter course fixed frame 9 of putting into again flip-shell filter box between new inside and outside three-dimensional porous material layer 2b, 2a, and clamp by inner cap 1b and the enclosing cover 1a closing seam that flip-shell is filtered box 1, five anti-oxygen enrichment composite membrane mouth masks after assembling can continue again to use, and its function is completely identical with five new anti-oxygen enrichment composite membrane mouth masks with performance.When flip-shell filter box 1 is changed or cleaned to needs, polymer ultra-thin film composite membrane 6 is taken out and (notes film not being caused to mechanical failure! ), change or cleaned after flip-shell filter box 1, again polymer ultra-thin film composite membrane 6 is installed according to the mode of changing inside and outside three-dimensional porous material layer 2b, 2a, just can continue to use, and its function is completely identical with five new anti-oxygen enrichment composite membrane mouth masks with performance.

When polymer ultra-thin film composite membrane 6 of the present utility model is during for medical mask, if while reusing polymer ultra-thin film composite membrane 6, before reusing, can carry out disinfection to polymer ultra-thin film composite membrane 6 (be sterilization, kill the virus) processes.Because polymer ultra-thin film composite membrane 6 has extremely strong chemistry and physical stability, so polymer ultra-thin film composite membrane 6 can carry out disinfection by the mode of various physics or chemistry and physics and chemistry use, (be sterilization, kill the virus) processed and do not affected its performance.For polymer ultra-thin film composite membrane 6 mode that (be sterilization, kill the virus) process that carries out disinfection, include but not limited to following mode: it is in 75% alcohol that described polymer ultra-thin film composite membrane 6 is immersed in to concentration; Or described polymer ultra-thin film composite membrane 6 is immersed in formalin; Or by described polymer ultra-thin film composite membrane 6 be immersed in pH be 2 to 3 contain ferrous ion (Fe ^{+ 2}) in the hydrogen peroxide of catalyst; Or described polymer ultra-thin film composite membrane 6 is exposed in high-intensity ultraviolet ray; Or described polymer ultra-thin film composite membrane 6 is exposed in ozone; Or described polymer ultra-thin film composite membrane 6 is exposed in high-intensity ultraviolet ray and ozone.

The oxygen of polymer ultra-thin film composite membrane 6 during applicant has implemented this and the ventilative permeability of nitrogen, Oxygen Enrichment, virus hinder performance to be tested, below the concise and to the point situation of describing correlation test.

By the polymer ultra-thin film composite membrane in embodiment 6, with diameter, be the punch punching press sample coldest days of the year end of 90 millimeters at random, and be marked as respectively sample 1A, sample 2A, sample 3A, sample 4A, sample 5A, sample 6A, sample 7A, sample 8A, sample 9A with label.And sample 1A, sample 2A and sample 3A are carried out to the test of the gas permeability of oxygen and nitrogen, the process of concrete method of testing and step are described as shown in Figure 16: (take sample 1A as specimen)

1, by the sample 1A of the polymer ultra-thin film composite membrane in embodiment by being arranged on shown in Figure 16 in test box 19, the ultra-thin rete of homogeneous non-porous polymer of sample 1A communicates with unstripped gas pipeline 20, the porous ultrathin membrane carrier layer of sample 1A with for supporting the holder net 21 of composite membrane, contact, and communicate with oozing vent outlet 22, in ultra-thin rete one side of homogeneous non-porous polymer of sample 1A, will enclose and seal with an O shape;

2, the triple valve shown in Figure 16 23 being arranged to oxygen channel 24 communicates with unstripped gas pipeline 20, then open oxygen cylinder 25 and the gauge pressure of the pressure regulator on oxygen cylinder 25 (poor with extraneous atmospheric pressure) is set to 60kPa, then the pressure regulator on unstripped gas pipeline 20 26 is set to 5kPa according to gas gauge 27, then open the gas trap 28 shown in Figure 16, allow the oxygen in oxygen cylinder 25 fully replace the unstripped gas space in unstripped gas pipeline 20 and test box 19, then close gas trap 28;

3, the pressure regulator on unstripped gas pipeline 20 26 is set to 5.0kPa according to gas gauge 27, by the gas flow rate meter 29 shown in Figure 16, measures the oxygen permeability of the described composite membrane under stable state;

4, the pressure regulator on unstripped gas pipeline 20 26 is set to respectively to 10.0,15.0,20.0,25.0 and 30.0kPa according to gas gauge 27, by the gas flow rate meter 29 shown in Figure 16, measures respectively the oxygen permeability of the described composite membrane under the stable state under each gauge pressure arranging;

5, close oxygen cylinder 25, then the pressure regulator on unstripped gas pipeline 20 26 is set to be less than 1kPa according to gas gauge 27, then will slowly open gas trap 28;

6, the triple valve shown in Figure 16 23 being arranged to nitrogen pipeline 30 communicates with unstripped gas pipeline 20, then open nitrogen cylinder 31 and the gauge pressure of the pressure regulator on nitrogen cylinder 31 (poor with extraneous atmospheric pressure) is set to 60kPa, then the pressure regulator on unstripped gas pipeline 20 26 is set to 5kPa according to gas gauge 27, then open the gas trap 28 shown in Figure 16, allow the nitrogen in nitrogen cylinder 25 fully replace the unstripped gas space in unstripped gas pipeline 20 and test box 19, then close gas trap 28;

7, the pressure regulator on unstripped gas pipeline 20 26 is set to 5.0kPa according to gas gauge 27, by the gas flow rate meter 29 shown in Figure 16, measures the nitrogen permeability of the described composite membrane under stable state;

8, the pressure regulator on unstripped gas pipeline 20 26 is set to respectively to 10.0,15.0,20.0,25.0 and 30.0kPa according to gas gauge 27, by the gas flow rate meter 29 shown in Figure 16, measures respectively the nitrogen permeability of the described composite membrane under the stable state under each gauge pressure arranging;

9, close nitrogen cylinder 31, then the pressure regulator on unstripped gas pipeline 20 26 is set to be less than 1kPa according to gas gauge 27, then will slowly open gas trap 28, and finally test box 19 dismountings also carefully be taken out to the sample of described composite membrane, and can carry out other determination and analysis to it.

Repeat process and the step of concrete method of testing that application as above detects the experimental rig of the oxygen of ultrathin membrane composite membrane of polymer and the gas permeability of nitrogen, can obtain the ventilative permeability of the sample 2A of the polymer ultra-thin film composite membrane in described embodiment and the oxygen of sample 3A and nitrogen.The experimental result of described sample 1A, sample 2A and the oxygen of sample 3A and the ventilative permeability of nitrogen is as table 1.

The oxygen of the polymer ultra-thin film composite membrane in table 1, embodiment and the ventilative permeability test of nitrogen

As the data in table 1 show, in the present embodiment, polymer ultra-thin film composite membrane is superior in quality and very even, to the selecting property of oxygen, is that 2.0(is α _{o2, N2}=2.0).

Applicant has selected a kind of other material to make polymer ultra-thin film composite membrane also to have carried out identical test in addition, test polymer ultra-thin film composite membrane adopts Teflon AF2400 as the material of the ultra-thin rete 6a of homogeneous non-porous polymer, porous ultrathin membrane carrier layer 6b has two-layer, the upper strata contacting with the ultra-thin rete 6a of homogeneous non-porous polymer selects polytetrafluoroethylstephanoporate stephanoporate polymeric material to make, support substrate adopts polyester non-woven fabric, described polytetrafluoroethylstephanoporate stephanoporate polymer and described polyester non-woven fabric support substrates are made porous ultrathin membrane carrier layer 6b by laminate adhesive mode.Described two-layer porous polymer material is that the feature of porous ultrathin membrane carrier layer 6b material is: the average pore size that 1, described polytetrafluoroethylstephanoporate stephanoporate polymer is carrier layer is that 0.02 micron, thickness are that 40-60 micron, porosity are 60%; 2, described polyester non-woven fabric support substrates can be described polytetrafluoroethylstephanoporate stephanoporate polymer carrier layer, and the porous ultrathin membrane carrier layer 6 that they combine provides high gas permeability and enough strong mechanical strength, and thickness is 80-120 micron.So produce take Teflon AF2400 as the ultra-thin rete 6a of homogeneous non-porous polymer and take the polymer ultra-thin film composite membrane 3 called after composite membrane B that polytetrafluoroethylstephanoporate stephanoporate polymer and polyester non-woven fabric be porous ultrathin membrane carrier layer 6 of making.The thickness of the ultra-thin rete 6a of Teflon AF2400 homogeneous non-porous polymer in composite membrane B is 0.05 micron.The multiple B of polymer ultra-thin film prepared by above-mentioned material stamps out six samples with the punch that diameter is 90 millimeters at random, and is marked as respectively sample 1B, sample 2B, sample 3B, sample 4B, sample 5B, sample 6B, sample 7B, sample 8B, sample 9B with label.

According to said apparatus and method, sample 1B, sample 2B and the sample 3B of the multiple B of polymer ultra-thin film are detected, obtain sample 1B, sample 2B and the oxygen of sample 3B and the ventilative permeability of nitrogen, concrete test data is as shown in table 2.

The oxygen of table 2, polymer ultra-thin film composite membrane B and the ventilative permeability test of nitrogen

As the test result of listing in table 2 show to manufacture by process as above as described in composite membrane superior in quality and very even, to the selecting property of oxygen, be that 2.0(is α _{o2, N2}=2.0).

The Oxygen Enrichment of described polymer ultra-thin film composite membrane can be applied the experimental rig of the Oxygen Enrichment for detection of ultrathin membrane composite membrane of polymer as shown in figure 17 and directly test.The critical piece of the experimental rig of described Oxygen Enrichment comprises air bottle 36, air pressure regulator 37, composite membrane Oxygen Enrichment test box 39, gas gauge 43, tail gas pressure regulator 44, gas flow rate controller 45, gas flow rate meter 49, gentle body oxygen analyser 50.Aeroscope in air bottle 36 will be greater than 99.99%, its air consist of 20.98% (mole) oxygen and 79.02% (mole) nitrogen.On gas gauge 43, shown pressure is that gauge pressure (is P – P _a, wherein P is gas pressure, P _afor atmospheric pressure) or be called with extraneous atmospheric pressure poor.Diameter for the composite membrane of described composite membrane Oxygen Enrichment test box 39 is 190 millimeters, and composite membrane gas permeability Validity Test diameter is 168 millimeters, and 11 millimeters of its external diameters are by the sealing for composite membrane periphery.Therefore, composite membrane gas permeability Validity Test area is 22156 square millimeters (or 221.56 square centimeters).

Adopt said apparatus to detect the sample 4A of the polymer ultra-thin film composite membrane in this enforcement, sample 5A and sample 6A, process and the step of concrete method of testing are described below (take sample 4A as specimen):

1, by sample 4A by being arranged in composite membrane Oxygen Enrichment test box 39 shown in Figure 17, the Teflon AF2400 homogeneous non-porous polymer compacted zone of described composite membrane communicates with air duct 38, the carrier layer of described composite membrane with for supporting the fine mesh sheet holder net 41 of composite membrane, contact and communicate with the vent outlet 47 that oozes of composite membrane Oxygen Enrichment test component, in a side of the Teflon of described composite membrane AF2400 homogeneous non-porous polymer compacted zone, will seal with an O shape circle;

2, open the air bottle 36 shown in Figure 17 and the gauge pressure of the pressure regulator on air bottle 36 (poor with extraneous atmospheric pressure) is set to 60kPa, then the air pressure regulator on air duct 38 37 is set to be greater than 30kPa according to gas gauge 43, then the tail gas pressure regulator 44 shown in Figure 17 is set to 30kPa according to gas gauge 43, then the gas flow rate of the gas flow rate controller 45 shown in Figure 13 is set to 10 liters per minute under standard state, allow the air in air bottle 36 fully replace the gas of air duct 38 and composite membrane Oxygen Enrichment test box 39 and test box tail gas outlet 42,

3, the air pressure regulator on air duct 38 37 and tail gas pressure regulator 44 are arranged according to gas gauge 43, finally through regulating, gas gauge 43 is controlled as 30kPa, by the gentle body oxygen analyser 50 of gas flow rate meter 49 as shown in figure 17, measured respectively air permeability and the oxygen content (or oxygen concentration of permeation composite membrane gas) of the described composite membrane under stable state;

4, close air bottle 36, then the air pressure regulator on air duct 38 37 is set to be less than 1kPa according to gas gauge 43, then all air exhaustings in experimental rig are emitted, finally 39 dismountings of composite membrane Oxygen Enrichment test box are also carefully taken out to the sample of described composite membrane, and can carry out other determination and analysis to it.

Repeat process and the step of above-mentioned concrete method of testing, can obtain the sample 5A of polymer ultra-thin film in embodiment and the air permeability of sample 6A and oxygen content (or oxygen concentration of permeation composite membrane gas), test result is as shown in table 3.

The Oxygen Enrichment testing experiment of polymer ultra-thin film composite membrane in table 3, enforcement

As the test result of listing in table 3 shows the polymer ultra-thin film composite membrane in embodiment, there is Oxygen Enrichment, can be by oxygen content 21% (mole) air be increased to oxygen content be 35% (mole) oxygen rich gas.

According to above-mentioned method of testing, sample 4B, sample 5B and the sample 6B of the multiple B of polymer ultra-thin film are carried out to the test of Oxygen Enrichment, test result is as table 4.

The Oxygen Enrichment testing experiment of table 4, polymer ultra-thin film composite membrane B

As the test result of listing in table 4 shows polymer ultra-thin film composite membrane B, there is Oxygen Enrichment, can be by oxygen content 21% (mole) air be increased to oxygen content be 35% (mole) oxygen rich gas.

The applicant also directly tests the experimental rig of the virus obstruction performance applications of polymer ultra-thin film composite membrane B in the polymer ultra-thin film composite membrane in embodiment and the test obstruction of the virus for detection of ultrathin membrane composite membrane of polymer performance as shown in figure 18.The critical piece that described virus hinders the experimental rig of performance comprises air bottle 52, air velocity controller 54, contains and test viral cushioning liquid 55, aerosol generator 57, the virus obstruction test box 59 of performance, the container 69 of the infiltration airway 67 of permeation composite membrane, collection virus liquid 68, collection virus liquid, gas flow rate meter 70, two stage biological safety cabinet 72.As shown in figure 18, the aeroscope in air bottle 52 will be greater than 99.99%, and its air consists of 21.06%(mole) oxygen and 78.94%(mole) nitrogen.On gas gauge 62, shown pressure is that gauge pressure (is P – P _a, wherein P is gas pressure, P _afor atmospheric pressure) or be called with extraneous atmospheric pressure poor.The diameter of composite membrane that hinders the test box 59 of performance for described composite membrane virus is 60 millimeters, and the Validity Test diameter that composite membrane virus hinders performance test is 48 millimeters, and 6 millimeters of its external diameters are by the sealing for composite membrane periphery.Therefore, the Validity Test area of composite membrane virus obstruction performance test is 1808 square millimeters (or approximately 18 square centimeters).As mentioned above, test virus is bacteriophage

cushioning liquid is DPBS (being Dulbecco ' s phosphate-buffered saline), bacteriophage concentration in DPBS is greater than 10 ⁷plaque forming unit's (claiming again plaque forming unit, i.e. Plaque Forming Unit/ml).Collection virus liquid 68 is DPBS.The test that this composite membrane virus hinders performance is carried out in two stage biological safety cabinet 72.

Use the experimental rig of the virus obstruction performance of above-mentioned detection ultrathin membrane composite membrane of polymer to detect sample 7A, sample 8A, sample 9A, sample 7B, sample 8B, sample 9B.Process and the step of just concrete method of testing are described below (usining sample 7A as specimen) below:

1, the sample 7A of described composite membrane A is hindered in the test box 59 of performance by the composite membrane virus that is arranged on shown in Figure 14, the Teflon AF2400 homogeneous non-porous polymer compacted zone of the described composite membrane air conduit 58 viral with containing test communicates, the carrier layer of described composite membrane with for the infiltration airway 67 that oozes vent outlet 66 and permeation composite membrane that supports that the fine mesh sheet holder net 65 of composite membrane contacts and hinder the test box of performance with composite membrane virus, communicate, a side at the Teflon of described composite membrane AF2400 homogeneous non-porous polymer compacted zone will seal with an O shape circle,

2, open the air bottle 52 shown in Figure 18 and the gauge pressure of the pressure regulator on air bottle 52 (poor with extraneous atmospheric pressure) is set to 400kPa, then the air velocity of the air velocity controller 54 on air duct 53 is set to 6 liters per minute under standard state, and the air pressure regulator 63 containing on the viral tail gas delivery channel 61 of test that then composite membrane virus is hindered to the test component of performance is adjusted to gauge pressure 100kPa according to gas gauge 62;

3, after system arrives stable state, will be containing being greater than 10 ⁷plaque forming unit bacteriophage the DPBS of concentration injects air duct 53 with the flow of 10 microlitres per minute through aerosol generator 56, and by containing the viral bacteriophage of test

air conduit 58 through composite membrane virus, hinder performance test component containing the viral bacteriophage of test

air intlet 60 enter the test box 59 that composite membrane virus hinders performance, test viral bacteriophage

with composite membrane virus hinder the described composite membrane in the test box 59 of performance Teflon AF2400 homogeneous non-porous polymer compacted zone Surface Contact and there is the potential energy of the Teflon AF2400 homogeneous non-porous polymer compacted zone that penetrates described composite membrane because of set 100kPa pressure reduction, and be enriched in collection virus liquid disease 68 through the infiltration airway 67 of permeation composite membrane by seeing through the oxygen of Teflon AF2400 homogeneous non-porous polymer compacted zone of described composite membrane and nitrogen, the oxygen seeing through and nitrogen pass through the outlet 71 of the infiltration gas of permeation composite membrane and discharge after gas flow rate meter 70, the gas of discharging is by first by discharging atmosphere after the high-temperature pipe sterilization of 800 ℃.All the other are containing the viral bacteriophage of test

the air viral tail gas outlet 64 of test that contains that contains the viral tail gas delivery channel 61 of test and hindered the test component of performance by air pressure regulator 63 by composite membrane virus that hinders the test component of performance through composite membrane virus discharge, the gas of discharge is by first by discharging atmosphere after the high-temperature pipe sterilization of 800 ℃.In order fully to detect the virus of the described composite membrane of manufacturing in embodiment as mentioned above, hinder performance, the testing time is 24 hours;

4, complete after test, first stop containing being greater than 10 ⁷plaque forming unit bacteriophage the DPBS of concentration injects air duct 53 through aerosol generator 55, meanwhile, close air bottle 52, then air pressure regulator 63 is adjusted to gauge pressure according to gas gauge 62 and is less than 1kPa, then all air in experimental rig are given off through containing the viral tail gas of test outlet 64, the gas giving off is by first by discharging atmosphere after the high-temperature pipe sterilization of 800 ℃.Finally by transferring to bioanalysis sensing chamber after 69 sealings of the container of collection virus liquid, carry out viral bacteriophage

concentration analysis.Under the condition of biological safety protection, dismounting composite membrane virus hinders the test box 59 of performance, and carefully takes out the sample of described composite membrane, and can carry out other determination and analysis to it;

5, the collection liquid in the container 69 of collection liquid is carried out to scanning electron microscope analysis.

Sample 7A for described polymer ultra-thin film composite membrane carries out the test that virus as above hinders performance, through the collection liquid in the container 69 of collection liquid, carries out scanning electron microscope analysis, does not all detect viral bacteriophage in all analytic samples this analysis result shows that the sample 7A of the polymer ultra-thin film composite membrane in embodiment is for viral bacteriophage obstruction rate be greater than 99.9%.

Adopt process and the step of above-mentioned concrete method of testing, the virus of sample 7B, the sample 8B of the sample 8A of the polymer ultra-thin film composite membrane in embodiment, sample 9A and polymer ultra-thin film composite membrane B and sample 9B is hindered to performance and test, analytical test result shows that sample 8A, sample 9A, sample 7B, sample 8B and sample 9B are for viral bacteriophage

obstruction rate be all greater than 99.9%.

Described in the utility model for the polymer ultra-thin film composite membrane with five anti-and oxygen-enriched functions of mouth mask, to produce according to the equipment described in Figure 19, this production method called after miniflow prolongs dip-coating continuous producing method, the utility model is usingd Teflon AF2400 as the material of the ultra-thin rete 6a of homogeneous non-porous polymer, and Teflon AF2400 is high oxygen permeability or the polymer of the infiltration of oxygen high selectivity being observed to (or applicable) solution-diffusion.Highly asymmetric submicron order polysulfones is as porous ultrathin membrane carrier layer 6b.Its concrete production stage, process and method are described below:

1, Teflon AF2400 is dissolved in the solvent of the Fluorinert FC-75 being produced by Minnesota Mining and Manufacturing Company, forms the Teflon AF2400 solution of 1wt%.The trade mark brand name of Fluorinert Shi3M company, FC-75 is fluorocarbon, its chemical formula is C ₈f ₁₆o is the derivative of oxolane.FC-75 is one of solvent of Teflon AF2400, and its boiling point is 102 ℃;

2, the asymmetric submicron order polysulfones of the height substrate material thin slice as porous ultrathin membrane carrier layer 6b is rolled on material cylinder 73, and is placed in described transmission system and forms production line;

3, as shown in figure 19, in the polymer coating solution storage pond 80 of the Teflon AF2400 solution containing described 1wt%, the porous ultrathin membrane carrier layer 6b of the asymmetric submicron order polysulfones of described height, by the Surface Contact of the uniform rotation of described micro-dip roller 82 and the Teflon AF2400 polymer dip-coating solution 81 of the described 1wt% in described polymer dip-coating solution storage pond 80, forms the polymer dip-coating layer of the Teflon AF2400 solution of 1wt% on the porous ultrathin membrane carrier layer 6b through micro-dip-coating method at the asymmetric submicron order polysulfones of described height.Described polymer solution coating drum, the diameter of micro-dip roller 82 is 26-36 centimetre, in described polymer coating solution storage pond 80, the surface that micro-dip roller 82 immerses in polymer dip-coating solution 81 is the surperficial 16%-36% of micro-dip roller 82; The rotating speed of described micro-dip roller 82 is 0.5-1rpm;

4, as shown in figure 19, the wet ultrathin membrane composite membrane of polymer thin slice 83 of polymer dip-coating solution that scribbles the Teflon AF2400 solution of described 1wt% is sent in described drying system and is dried, make the Teflon AF2400 solution of described 1wt% form the ultra-thin rete 6a of homogeneous non-porous polymer at the porous ultrathin membrane carrier layer 6b of the asymmetric submicron order polysulfones of described height substrate surface, processing through the cooling cuticula device 109 of follow-up air purge obtains polymer ultra-thin film composite membrane 6, last described polymer ultra-thin film composite membrane 6 is rolled into the finished product cylinder 113 that translator drives takers-in.

As shown in figure 19, the temperature of the vacuum drying ovens at different levels of first, second and third grade of vacuum drying oven 87,88,89 described in aforementioned production method is connected and is controlled by cable 115 and computer aided control system 114; The vacuum of described three grades of vacuum drying ovens is that vacuum degree control valve 87c, 88c, the 89c through vacuum drying oven at different levels is connected and controlled by cable 115 and computer control system 114.The nitrogen blowing speed that is used for the vacuum drying ovens at different levels of three grades of vacuum drying ovens is controlled by nitrogen flow controller 103, vacuum drying oven nitrogen blowing flow velocitys at different levels are 2L (STP)/min, nitrogen used is provided by nitrogen cylinder 102, and the purity of nitrogen used is greater than 99.9%.The temperature of the temperature of the temperature of first order vacuum drying oven 87, second level vacuum drying oven 88, third level vacuum drying oven 89 is controlled at respectively 60 ± 2 ℃, 80 ± 2 ℃ and 106 ± 2 ℃; The vacuum of the vacuum of the vacuum of first order vacuum drying oven 87, second level vacuum drying oven 88 and third level vacuum drying oven 89 is controlled at respectively 460Torr (being mmHg), 180Torr and 60Torr; The holdup time of the holdup time of the holdup time of first order vacuum drying oven 87, second level vacuum drying oven 88 and third level vacuum drying oven 26 is controlled at respectively 30 minutes, 40 minutes and 60 minutes (length that three grades of vacuum drying ovens are set is to increase step by step, and the material that the makes processing time of staying was therein controlled in the different time periods).

In the present embodiment, as shown in figure 19, the FC-75 solvent of the vacuum drying ovens at different levels evaporation of three grades of vacuum drying ovens 87,88,89 collects through vacuum pipe 100 and condenser 97 condensations the storage bottle 98 that reclaims solvent, the FC-75 solvent 99 reclaiming is reusable, reaches the technical process of the circulation sustainable development of not only economy but also environmental protection.

In the present embodiment, as shown in figure 19, the processing of the cuticula system of polymer ultra-thin film composite membrane 6 is that application of air purges cooling cuticula device 109 lowering the temperature without humidity, clean air purge under room temperature, still residual any FC-75 solvent after can be used for removing polymer ultra-thin film composite membrane 6 drying systems and processing, and the temperature of polymer ultra-thin film composite membrane 6 is dropped to after approaching room temperature and transfers the finished product cylinder 113 that translator drives takers-in.For the described of air purge, without humidity, clean air, be to enter the cooling cuticula device 109 of air purge by oil-free air compressor 105, air intlet 110 by the cooling cuticula device of air purge after air duct 106, air dryer 107 and air cleaner 45 are processed, after air purge polymer ultra-thin film composite membrane 6, by the air outlet slit 111 of the cooling cuticula device of air purge, discharged, then through 112 discharges of air outlet slit pipeline.The flow velocity of air purge is 60L/min.

Claims (15)

1. five anti-oxygen enrichment mouth masks, comprise mouth mask body and respirator belt, between described mouth mask body and described respirator belt, connect into semi-ring, or straight line respirator belt one termination is connected with mouth mask body, or straight line respirator belt is set on mouth mask body bilateral, respirator belt is force-loose force-loose or non-, it is characterized in that: described mouth mask body comprises the flip-shell filter box (1) of outwardly convex surface, silica gel face shield (10) and sealing are embedded the filter course (2) in flip-shell filter box, described flip-shell filter box (1) is comprised of inner cap (1b) and enclosing cover (1a), one side of inner cap (1b) and enclosing cover (1a) is connected by rotating shaft (5), opposite side connects by buckle member (8), on enclosing cover (1a), offer a plurality of passages (7), the perforated area summation of a plurality of passages (7) accounts for the 10%-40% of described filter course (2) area, on inner cap (1b), offer pneumostome (3), described silica gel face shield (10) is sealedly connected on the inner side of inner cap pneumostome (3), and the inner chamber of silica gel face shield (11) accounts for the 10%-40% of described filter course (2) area, described filter course (2) is comprised of inside and outside three-dimensional porous material layer (2b, 2a) and the polymer ultra-thin film composite membrane (6) that is clipped between two three-dimensional porous material layers, described polymer ultra-thin film composite membrane (6) is comprised of the ultra-thin carrier rete of porous (6b) and the ultra-thin rete of homogeneous non-porous polymer (6a), and the ultra-thin rete of homogeneous non-porous polymer (6a) covers on the ultra-thin carrier rete of porous (6b).

2. five anti-oxygen enrichment mouth masks according to claim 1, it is characterized in that: enclosing cover (1a) and the inner cap (1b) of described flip-shell filter box are outwardly protrusion curved surface lid, concave surface at enclosing cover (1a) is provided with many vertical strengthening ribs (14), and described enclosing cover (1a) is by vertical strengthening ribs (14) and described filter course (2) laminating; On the convex surface of inner cap (1b), be provided with two-way reinforcement (13) anyhow, and inner cap (1b) is by two-way reinforcement (13) and filter course (2) laminating anyhow.

3. five anti-oxygen enrichment mouth masks according to claim 1, it is characterized in that: the side that described enclosing cover (1a) or inner cap (1b) are adjacent with filter course (2) is provided with filter course fixed frame (9), on enclosing cover (1a) or inner cap (1b), be provided with for compressing filter course (2) and by the flange frame (12) of its peripheral sealing, flange frame (12) is arranged on the position of filter course fixed frame (9) inner side or corresponding filter course fixed frame (9) inner side; The compression ratio that described flange frame (12) compresses filter course (2) is 70%-95%; Under the state covering at enclosing cover (1a) and inner cap (1b), filter course (2) is sealed in the seal chamber that enclosing cover (1a), inner cap (1b) and filter course fixed frame (9) form.

4. according to five anti-oxygen enrichment mouth masks described in claim 1 or 2 or 3, it is characterized in that: thickness, average pore size and the porosity of described inside and outside three-dimensional porous material layer (2b, 2a) are respectively 1-8 millimeter, 0.05-0.95 micron and 70%-95%, air penetrability is at least 30 times of polymer ultra-thin film composite membrane (6) air penetrability.

5. according to five anti-oxygen enrichment mouth masks described in claim 1 or 2 or 3, it is characterized in that: the ultra-thin carrier rete of described porous (6b) is the ultra-thin carrier rete of porous that the porous polymer material that distributed by asymmetric aperture is made, or the ultra-thin carrier rete of porous made of the porous polymer material being distributed by uniform pore size, or the ultra-thin carrier rete of porous of being made by least two-layer porous polymer material stack, the thickness of the ultra-thin carrier rete of described porous (6b) is 0.05-0.13 millimeter; The ultra-thin rete of described homogeneous non-porous polymer (6a) is that a kind of by high oxygen permeability or homogeneous atresia ultrathin membrane that the polymer of oxygen high selectivity is made, its oxygen is 1.5-6 to the ratio of the infiltration coefficient of nitrogen, and thickness is 0.001-5 micron; The ultra-thin carrier rete of porous (6b) of described polymer ultra-thin film composite membrane (6) and the ultra-thin rete of homogeneous non-porous polymer (6a) contact with interior three-dimensional porous material layer (2b) and outer three-dimensional porous material layer (2a) respectively.

6. according to five anti-oxygen enrichment mouth masks described in claim 1 or 2 or 3, it is characterized in that: described a plurality of passages (7) are strip passage, be evenly distributed on enclosing cover (1a) upper, the perforated area summation of a plurality of passages (7) accounts for the 25%-30% of described filter course (2) area.

7. according to five anti-oxygen enrichment mouth masks described in claim 1 or 2 or 3, it is characterized in that: described silica gel face shield (10) is arranged on the central position of inner cap (1b), and be tightly connected by flange injection structure (15) and the pneumostome (3) on inner cap (1b), the area of its inner chamber (11) accounts for 25% to 30% of described filter course (2) area.

8. according to five anti-oxygen enrichment mouth masks described in claim 1 or 2 or 3, it is characterized in that: described buckle member (8) is for pressing back-buckling type structure, by being arranged on the buckle base (8a) of the pressing back-buckling type buckle on flip-shell filter box enclosing cover (1a) and being arranged on flip-shell, filter the buckle (8b) of the pressing back-buckling type buckle on box inner cap (1b) and form.

9. according to five anti-oxygen enrichment mouth masks described in claim 1 or 2 or 3, it is characterized in that: the area of described filter course (2) accounts for 60% to 98% of described flip-shell filter box (1) area.

10. according to five anti-oxygen enrichment mouth masks described in claim 1 or 2 or 3, it is characterized in that: the thickness of the described ultra-thin rete of homogeneous non-porous polymer (6a) is 0.05-1 micron.

11. five anti-oxygen enrichment mouth masks according to claim 3, it is characterized in that: described filter course fixed frame (9) is arranged on enclosing cover (1a), described flange frame (12) is arranged on the position of the corresponding filter course fixed frame of inner cap (1b) (9) inner side, under the state covering at enclosing cover (1a) and inner cap (1b), filter course (2) is compressed by flange frame (12) sealing, and the compression ratio of its press seal is 80%-90%.

12. five anti-oxygen enrichment mouth masks according to claim 4, is characterized in that: described inside and outside three-dimensional porous material layer (2b, 2a) adopts high medical sponge material or the acupuncture nonwoven cloth material of gas permeability.

13. five anti-oxygen enrichment mouth masks according to claim 4, is characterized in that: the thickness of described inside and outside three-dimensional porous material layer (2b, 2a) is 2-4 millimeter.

14. five anti-oxygen enrichment mouth masks according to claim 5, it is characterized in that: the ultra-thin carrier rete of described porous (6b) be the porous polymer material that distributed by asymmetric aperture make the ultra-thin carrier rete of porous time, its porosity is 10%-90%, and the average pore size of porous ultrathin membrane carrier layer (6b) from the surface that contacts described homogeneous non-porous polymer thin layer (6a) to outer surface expands 0.1-10 micron to from 0.001-0.01 micron; The ultra-thin carrier rete of described porous (6b) be the porous polymer material that distributed by uniform pore size make porous ultrathin membrane carrier layer time, its porosity and average pore size are respectively 10%-90% and 0.01-2 micron; When the ultra-thin carrier rete of described porous (6b) is the porous ultrathin membrane carrier layer of being made by least two-layer porous polymer material stack, the thickness, porosity and the average pore size that contact the ground floor porous ultrathin membrane carrier layer of described homogeneous non-porous polymer thin layer (6a) are respectively 0.01-0.05 millimeter, 40%-80% and 0.01-0.06 micron, and thickness, porosity and the average pore size of the porous ultrathin membrane carrier layer of the second layer are respectively 0.1-0.15 millimeter, 40%-80% and 0.1-10 micron.

15. five anti-oxygen enrichment mouth masks according to claim 14, it is characterized in that: the ultra-thin carrier rete of described porous (6b) be the porous polymer material that distributed by asymmetric aperture make the ultra-thin carrier rete of porous time, its thickness and porosity are respectively 0.1-0.15 millimeter and 50%-80%; The average pore size of described porous ultrathin membrane carrier layer (6b) from the surface that contacts described homogeneous non-porous polymer thin layer (6a) to outer surface expands 1-5 micron to from 0.01-0.05 micron; The ultra-thin carrier rete of described porous (6b) be the porous polymer material that distributed by uniform pore size make porous ultrathin membrane carrier layer time, its thickness, porosity and average pore size are respectively 0.10-0.15 millimeter, 40%-80% and 0.02-0.06 micron.

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