CN204655834U - The production equipment that nose pastes and this nose pastes - Google Patents

Abstract

The utility model relates to a kind of nose and pastes, described nose pastes and comprises first from shape coiled material, non-drying glue layer, face liber layer, sizing memory fiber layer, protection fibrage, anti-bacterial fibre layer and obstruct fibrage, described first to be bonded on the first surface of described face liber layer to form the first complex from shape coiled material by described non-drying glue layer, the first described complex is provided with two symmetries and the hole of the nostril form arranged in opposite directions that cut out; Described sizing memory fiber layer, protection fibrage, anti-bacterial fibre layer and obstruct fibrage are fitted on described face liber layer successively, and the utility model also relates to a kind of production equipment manufacturing this nose and paste.Adopt the production that nose pastes and this nose the pastes equipment of this kind of structure, color and luster close to skin, lightly hidden, can also allow while not affecting the basic living demand of people people use for a long time, simple and effective again with low cost, be suitable for large-scale promotion application.

Description

Nose patch and production equipment thereof

Technical Field

The utility model relates to a production facility technical field of protection sticker product, in particular to respiratory protection technical field of nasal cavity specifically indicates a nasal paste and production equipment of this nasal paste.

Background

In the living environment, viruses and bacteria are mostly carried into the nasal cavity of a person along with the floating of dust in the air. Not only are sand storms and volcanic ashes in the nature, but also a great amount of PM 2.5-like dust generated along with the industrial development, and the particles of the sand storms and the volcanic ashes are extremely fine and carry various serious pathogenic particles which can directly enter the lung of a human body, thereby causing extremely serious diseases to the human body. Although the discharge of dust and exhaust gas cannot be effectively controlled, various protective products can be developed to effectively prevent pollutants in the air from entering the respiratory system.

Along with the increasing attention on respiratory health and the continuous improvement on the requirements of protection products, nowadays, various enterprises also continuously put forward novel respiratory protection products, which not only have cotton cloth type protective masks close to the life of common people, but also have nasal cavity type protection products such as nasal plugs, nasal masks and nasal patches, and the like.

The existing respiratory protection product can not meet the requirements of special working posts, and has the phenomenon of unsatisfactory use effect and appearance, and the similar prior art for filtering the respiratory tract also has the following problems:

appearance problems: the existing similar products, such as a nose mask and the like, have large volume and clumsy appearance, so that the products are difficult to accept by people;

the structure problem is as follows: the nose mask needs to fix a filter layer and is provided with various buckles, so that the structure is too complicated and troublesome;

the use problem is as follows: the nose mask is used to help the pressure on the ear hanging ring and the wearing eyes, which is not firm and troublesome;

physiological problems: the nasal obstruction product is required to be inserted into nostrils for use, and a dustproof cavity is formed after the nose hair grows and dislocates for a long time;

the effect problem is as follows: the nasal plug product is formed by wrapping a layer of active carbon by two layers of sponge, and the PM2.5 fine dust filtering effect is difficult to confirm and blocked;

the manufacturing problem is as follows: the patented solution cannot be combined with existing process equipment, resulting in difficulties in mass production and cost control.

Disposable respiratory protection patches such as described in chinese patent ZL 201120067061.1 also have some drawbacks:

firstly, poor filter material: by adopting the ultrathin melt-blown non-woven fabric, the filtration effect cannot be ensured by reducing the resistance, so that the dust holding capacity is deficient; the activated carbon non-woven fabric is not suitable for small-area products at nostrils due to poor permeability of glue;

appearance is different: crescent filter materials are adopted to protect nasal cavities, and nostrils cannot be seen after the patch is used, so that people can feel uncomfortable;

processing difficulty: the hot-melt adhesive sticker process is adopted, so that the influence of glue on the air permeability of a product cannot be solved in the development process;

fourthly, the cost is difficult to control: the materials with the same area are adopted for processing, so that the waste is larger than the material used by the product, and the product cost is high;

there are many similar techniques for nasal respiratory filtration protection from the past to the present, but there has been little market acceptance and adoption until now. There are many occasions in human daily life where such a simple air protection product is urgently needed.

Therefore, a disposable respiration protection patch and a production device thereof are urgently needed, wherein the disposable respiration protection patch has large adsorption and desorption capacity, high speed, thin adsorption layer, light and hidden color, is easy to use for a long time, is simple, convenient, efficient, low in cost and wide in application range, and has the advantages of no influence on the basic living requirements of people.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the shortcoming of above-mentioned prior art, provide one kind adsorb with desorption capacious and fast, the thin layer of adsorbed layer, the color and luster is close skin, light and handy conceal, can also let people use for a long time, simple and convenient high efficiency and low cost, be suitable for the production equipment of extensive popularization and application's nose subsides and this nose subsides when not influencing people's basic life demand.

In order to achieve the above object, the nose patch of the present invention and the production equipment for the nose patch have the following configurations:

the nose patch is mainly characterized by comprising a first shape-separating coiled material, an adhesive-resistant layer, a fabric fiber layer, a shaping memory fiber layer, a protective fiber layer, an antibacterial fiber layer and a blocking fiber layer, wherein the first shape-separating coiled material is bonded on a first surface of the fabric fiber layer through the adhesive-resistant layer to form a first complex body, and the first complex body is provided with two symmetrical nostril-shaped holes which are arranged oppositely; the shaping memory fiber layer, the protective fiber layer, the antibacterial fiber layer and the barrier fiber layer are sequentially attached to the fabric fiber layer.

Further, the first separated coil is an overlapped separated coil, and the overlapped separated coil comprises a second separated coil and a third separated coil which are overlapped with each other.

Furthermore, the fabric fiber is a terylene spunbonded non-woven fabric or a chinlon woven fabric, the barrier fiber layer is a smooth spunbonded non-woven fabric, the antibacterial fiber layer is an activated carbon sponge, a nano silver ion non-woven fabric or a far infrared anion non-woven fabric or chitosan non-woven fabric, the protective fiber layer is a bi-component melt-blown non-woven fabric, a single-component melt-blown non-woven fabric or a nano non-woven fabric, and the setting memory fiber layer is a terylene non-woven fabric.

Furthermore, the outer contour of the fabric fiber layer is lace-shaped, zigzag-shaped, square wave-shaped or wavy and is matched with the contour size of the nasal alar part at the nose breathing hole; the protective fiber layer is of a structure in a folded three-dimensional shape or a three-dimensional indentation shape, and the outline of the protective fiber layer is in an ellipse-like shape which is symmetrically arranged in the left and right directions and is matched with the size of the nostril.

The utility model discloses still relate to a manufacturing the production equipment of nose subsides, its key feature is, equipment constitute the forming device who rolls in opposite directions and cut processing cutting die and by the conveyor who forms from shape coiled material and receive and release a roll machine including central carousel and several satellite rotary table.

Furthermore, the forming device comprises a forming hobbing mechanism and an ultrasonic fusion mechanism which are oppositely operated by a central large turntable and eight small turntable cutting dies and are processed by planet machining.

Further, the molding device comprises a laser cutting mechanism, an air suction waste removing mechanism and a mechanical waste removing mechanism.

Furthermore, the molding device also comprises an ultrasonic pressing mechanism.

Further, the production equipment also comprises a hot melt adhesive spraying device.

Adopted the nasal paste and the production equipment of this nasal paste among this utility model, can not only adsorb fast, the dust in the air is filtered to the separation, the stench, the flue gas, poison gas and carcinogen, can show and reduce people and suffer air pollution and infectious diseases to the injury of health among the daily life, and also can play certain guard action in the aspect of the protection of air infectious diseases, only need design a plurality of specification simultaneously and just can let men and women old and young can both be suitable for, its wide application, the frivolous small and exquisite just low cost of outward appearance, the color and luster is close skin, but automated batch production, and the carrying and use is convenient, and the popularization is easily promoted, and real benefit and social are showing.

The nose paste and the production equipment of this nose paste in this utility model have been adopted, its unique design is ingenious, and the disposable respiratory protection who produces adsorbs with desorption capacious and fast, the thin laminarization of adsorbed layer, color and luster are close skin, light and handy conceal, can also let people use, simple and convenient high efficiency again low cost, be suitable for extensive popularization and application for a long time when not influencing people's basic life demand.

Drawings

Fig. 1 is a schematic structural view of the molding apparatus of the present invention.

Fig. 2 is a schematic sectional view of the nose patch of the present invention.

Fig. 3 is a schematic plane structure view of the nose patch of the present invention.

Fig. 4 is a three-dimensional schematic view of the filter of the nasal strip of the present invention.

Wherein,

1 ~ 8 eight small turntable cutting die

9 center large turntable

10 fabric fiber layer

11 shaped memory fiber layer

12 protective fiber layer

13 antibacterial fiber layer

14 Barrier fiber layer

15 ultrasonic wave pressing part

16 adhesive sticker layer

17 first shape-separated coiled material

18 second release coil

19 third discrete coil

Detailed Description

In order to more clearly describe the technical content of the present invention, the following further description is given with reference to specific embodiments.

The nose patch of the utility model comprises a fabric fiber layer 10, a shaping memory fiber layer 11, a protective fiber layer 12, an antibacterial fiber layer 13 and a barrier fiber layer 14; referring to fig. 1, a schematic structural diagram of a forming device of the present invention is shown, wherein the nose patch is manufactured by a manufacturing apparatus including a forming device composed of a central turntable and a plurality of satellite turntables and a facing hobbing cutting die, and a conveying device composed of a separated coiled material and a winding/unwinding machine; the method for manufacturing the nose paste for respiratory protection of the utility model comprises the following steps:

(1) the first surface of the fabric fiber layer 10 is attached to a first release-shaped coiled material 17 with adhesive sticker to form a first complex;

in a preferred embodiment, the first separated coil 17 is a single sheet or two first separated coils 17 stacked in a staggered manner in the middle (please refer to fig. 2, the first separated coil 17 is a stacked separated coil, the stacked separated coil includes a second separated coil 18 and a third separated coil 19 stacked in a staggered manner in the middle), and a user can conveniently peel off the separated coils from the middle when using the device by using two separated coils stacked in a staggered manner in the middle; and the first shape-separated coiled material 15 is provided with the fabric fiber layer 10 which is formed by compounding the non-dry hot melt adhesive solution coated by the hot melt adhesive coating machine after the non-dry adhesive layer 16 is formed on the first shape-separated coiled material 17.

(2) Cutting two symmetrical and oppositely arranged nostril-shaped holes on the first complex;

(3) the barrier fiber layer 14, the antibacterial fiber layer 13, the protective fiber layer 12 and the shaping memory fiber layer 11 are sequentially superposed to form a second composite body;

(4) attaching the second composite body to a first composite body with two symmetrical and oppositely arranged nostril-shaped holes to form a third composite body;

(5) and cutting the second compound except the nostril shape along the edges of the two symmetrical and oppositely arranged nostril shapes in the third compound to form the nose patch.

In a preferred embodiment, said production equipment further comprises a hot melt adhesive spraying device, and said step (1) specifically comprises the following steps:

(1.1) the hot melt adhesive spraying device sprays the non-dry hot melt adhesive solution on the first release coil 17 driven by the conveying device to form a non-dry adhesive layer 16;

(1.2) attaching the first surface of the fabric fiber layer 10 to the first release coil 17 with the self-adhesive to form a first complex.

In a preferred embodiment, the molding device includes a laser cutting mechanism, a mechanical rejecting mechanism and an induced draft transfer mechanism, and the step (2) specifically includes the following steps:

(2.1) the laser cutting machine penetrates and cuts two symmetrical and oppositely arranged nostril-shaped holes on the first compound body;

(2.2) the air suction waste removing mechanism and the mechanical waste removing mechanism mechanically remove and transfer the waste materials of the cut first complex by air suction;

(2.3) the laser cutting mechanism singly cuts a layer of annular first release coiled material 15 along the outer edges of two symmetrical and oppositely arranged nostril-shaped holes on a first composite body with the two symmetrical and oppositely arranged nostril-shaped holes, so that a non-drying adhesive layer 16 is arranged on the first surface of the fabric fiber layer 10, and the second composite body can be adhered to the fabric fiber layer 10 through the non-drying adhesive layer 16.

And (2.4) the mechanical removing mechanism and the air suction transferring mechanism are used for mechanically removing the waste materials of the cut first complex and the air suction transferring mechanism.

In a preferred embodiment, the molding device includes an ultrasonic pressing mechanism, and the step (3) is specifically as follows:

the conveying device conveys the barrier fiber layer 14, the antibacterial fiber layer 13, the protective fiber layer 12 and the shaping memory fiber layer 11 to an ultrasonic laminating mechanism and laminates the layers to form a second composite body.

In a preferred embodiment, the forming device comprises a central large turntable 9, a planetary forming rolling cutting mechanism and an ultrasonic fusion mechanism, wherein the eight small turntable cutting dies 1-8 run oppositely, and the step (5) specifically comprises the following steps:

(5.1) said form hobbing mechanism singly cutting away said second composite body except for said nostril shape along said cutting location of step (2.3); this exposes the first release web 17 for convenient use by the user.

(5.2) the mechanical rejecting mechanism and the air suction transferring mechanism mechanically reject the waste materials of the cut third complex and transfer the waste materials by air suction;

and (5.3) melting and bonding the elliptical edge ultrasonic pressing part 15 which is similar to the nostril shape of the cut third composite body on the fabric fiber layer with the non-setting adhesive layer 16 by the ultrasonic fusion mechanism through high-temperature rolling.

In a preferred embodiment, the forming device comprises a central large turntable 9 and a planetary forming and hobbing mechanism with eight small turntable cutting dies 1-8 operating oppositely, and the step (5) is followed by the following steps:

(6) and the forming rolling-cutting mechanism cuts the edge of the cut third complex into lace, saw tooth, square wave or wave.

In the first embodiment of the present invention, in order to make the breathing protective nose patch of the present invention have various pleasant appearances, preferably, first, a layer of fabric fiber and a two-layer release type roll material are prepared, and then the two-layer release type film is alternately stacked to be consistent with the width of the fabric fiber, the production method comprises the following steps:

the first processing device is a hot melt adhesive spraying device, and the hot melt adhesive spraying device sprays the non-dry hot melt adhesive solution on the first free-form coiled material 17 driven by the conveying device to form a non-dry adhesive layer 16 and then bonds the fabric fiber layer 10 with the non-dry adhesive layer.

The second processing device is a laser cutting mechanism, and the conveying device penetrates and cuts the compound layer after the glue and the film are coated into two symmetrical and oppositely arranged elliptical nostril shapes;

the third processing device is a mechanical removing mechanism and an air suction transfer mechanism, and the mechanical removing mechanism and the air suction transfer mechanism mechanically remove the two pieces of nostril-shaped waste materials and transfer the nostril-shaped waste materials by air suction.

The fourth processing device is a laser cutting mechanism, and the third processing device is a conveying device which keeps the fabric fiber layer 10 above the fabric fiber layer 10 and the first shape-separating coiled material 17 and only cuts off a circle of annular first shape-separating coiled material 17 layer with the diameter larger than 8 mm.

The fifth processing device is also a mechanical removing mechanism and an air suction transfer mechanism, and the mechanical removing mechanism and the air suction transfer mechanism mechanically remove and transfer the two annular nostril-shaped wastes cut out at the fourth station by the conveying device.

The sixth processing device is a forming hobbing mechanism, the forming hobbing mechanism firstly conveys the barrier fiber layer 14, the antibacterial fiber layer 13, the protective fiber layer 12 and the shaping memory fiber layer 11 to an ultrasonic laminating station through a conveying device, folds, hot-presses and shapes the four filter materials (as shown in figure 4), and then conveys the filter materials to be coiled and attached to the fabric fiber layer 10 coated with the hot-melt adhesive non-dry adhesive layer 16. Then, at the position cut by the fifth process, the fibers of each layer are cut into two similar elliptical nostril shapes, the fibers are adhered to the fabric fiber layer 10 with the non-drying glue layer 16, and then the cut waste materials are removed and sucked away through a conveying device, mechanical removal and air suction transfer.

The seventh processing device is an ultrasonic fusion mechanism, and the ultrasonic fusion mechanism is used for fusing and bonding the fiber layer of the sixth cut elliptical edge ultrasonic wave pressing part 15 similar to the nostril shape on the fabric fiber layer 10 by ultrasonic high-temperature rolling.

And the eighth processing device is a forming hobbing cutter mechanism, and the eighth forming hobbing cutter mechanism is used for rolling and cutting five lace shapes on the fiber fabric layer adhered with the hot melt adhesive sticker and the periphery of the release coiled material together by matching the conveying device.

The present invention further relates to a nose patch, please refer to fig. 2 in combination with fig. 3 and 4, wherein fig. 2 is a schematic sectional view of the nose patch of the present invention. Fig. 3 is a schematic plane structure view of the nose patch of the present invention. Fig. 4 is a three-dimensional schematic view of the filter of the nasal strip of the present invention. The nose patch comprises a first shape-separating coiled material 15, a non-setting adhesive layer 16, a fabric fiber layer 10, a shaping memory fiber layer 11, a protective fiber layer 12, an antibacterial fiber layer 13 and a barrier fiber layer 14, wherein the first shape-separating coiled material 15 is bonded on a first surface of the fabric fiber layer 10 through the non-setting adhesive layer 16 to form a first complex body, and the first complex body is provided with two nostril-shaped holes which are symmetrically and oppositely arranged; the shaping memory fiber layer 11, the protective fiber layer 12, the antibacterial fiber layer 13 and the barrier fiber layer 14 are sequentially attached to the fabric fiber layer 10.

In a preferred embodiment, the first discrete coil 17 is a stacked discrete coil, and the stacked discrete coil includes a second discrete coil 18 and a third discrete coil 19 stacked on each other, so that the use of the device is convenient for users.

In a preferred embodiment, the fabric fiber is a polyester spun-bonded non-woven fabric or a polyamide woven fabric, in order to obtain better blocking and dust adhesion prevention effects, the blocking fiber layer 14 is a smooth spun-bonded non-woven fabric, in order to obtain better blocking and adsorption effects, the blocking fiber layer 14 adopts an activated carbon sponge or an activated carbon non-woven fabric, the antibacterial fiber layer 13 is an activated carbon sponge, a nano silver ion non-woven fabric, a far infrared anion non-woven fabric or chitosan non-woven fabric, in order to obtain better blocking and protection effects, the protective fiber layer 12 adopts a bicomponent melt-blown non-woven fabric, a monocomponent melt-blown non-woven fabric or a nano non-woven fabric, in order to obtain better comfort effects and larger dust holding capacity, the protective fiber adopts a bicomponent melt-blown non-woven fabric, in order to obtain better antibacterial and protection effects, the protective fiber adopts a nano silver ion non-woven fabric, Far infrared anion non-woven fabrics, crust amine non-woven fabrics, fragrant non-woven fabrics, in order to obtain better three-dimensional design function, design memory fiber be dacron non-woven fabrics or elastic fiber, design memory fiber layer 11 be dacron non-woven fabrics.

The outer contour of the nose patch can be made into an attractive appearance, so that visual enjoyment is brought to people, such as flower shape, curved shape and the like, and in a preferred embodiment, the outer contour of the fabric fiber layer 10 is lace-shaped, zigzag, square wave-shaped or wavy and is matched with the contour size of the nose wing at the nose breathing hole; the protective fiber layer 12 is of a folded three-dimensional shape or a three-dimensional indentation shape, and the outline of the protective fiber layer 12 is of an ellipse-like shape which is symmetrically arranged in a left-right opposite direction and is matched with the size of the nostril.

In the second embodiment of the present invention, the fiber fabric layer is adhered to the release coil with the non-dry adhesive layer 16, and the separation fiber layer 14, the protection fiber layer 12 and the shape memory fiber layer 11 are sequentially stacked, cut and formed, and attached to the fabric fiber layer 10 with the non-dry adhesive layer 16 cut out the hole. Wherein the fabric fiber layer 10 adopts apricot-colored terylene spunbonded non-woven fabric or natural-colored nylon woven fabric layer; the barrier fiber layer 14 is made of gray-black smooth spun-bonded non-woven fabric, and the shaping memory fiber layer 11 is made of white polyester non-woven fabric; the non-drying adhesive layer 16 adopts hot-melt adhesive sticker; in addition, the fabric fiber layer 10 is in an annular wave shape (sunflower shape), the blocking fiber layer 14, the antibacterial fiber layer 13, the protective fiber layer 12 and the shaping memory fiber layer 11 are all in an ellipse shape and matched with the outline of the nose breathing hole in size, and the invisible breathing protective nose patch product with the sunflower-shaped outer contour and the ellipse-shaped inner contour is formed by organic combination of the above components.

Wherein, the utility model discloses a planet carousel production is equipped: the manufacturing is simple, the processing is easy, the positioning is accurate, the cost is low, the volume is small, and the production efficiency is high;

adopting a planetary turntable to separate the coiled material: the problem of multi-station positioning and forming of the two nostril-shaped filter sheets on fabric fibers is thoroughly solved;

adopting a laser cutting production device: the problem that a plurality of types of rolling cutting die are needed for a plurality of nostril shapes is thoroughly solved, the cost is reduced and the benefit is improved;

cutting off the adhesive film on release paper: the problems that the production stability is influenced by the residual glue are thoroughly solved, the product quality is improved, and the loss of auxiliary materials is reduced;

cutting off the adhesive film on release paper: the problem that residual rubber influences the breathing resistance of the filter material is thoroughly solved, and the breathing comfort is effectively improved;

adopting two-component melt-blown non-woven fabric: the contradiction between effects, breathing resistance and dust holding rate of the filter material is effectively solved;

adopting smooth black spunbonded fabric: the problem that the invisible effect of the product is formed due to the obstruction effect of the filter disc and the adhesion of dust particles is effectively solved;

adopting terylene spunbonded non-woven fabric: effectively solving the problem of benzene residue after the nylon fabric is dyed (the terylene adopts a color master batch dyeing process);

adopting a folding and shaping memory filter disc: effectively solved the folding back of filter element and stereotyped, promoted filter area, effect and hold the dirt rate.

The embodiment of the utility model mainly utilizes the tight structure of the melt-blown non-woven fabric to protect people from PM2.5 micro dust, sand storm and volcanic ash with very tiny dust; if the functional non-woven fabric in the embodiment is replaced by the activated carbon sponge, people can be protected from pollution in the air by utilizing the adsorption effect of the activated carbon. If the functional non-woven fabric in the embodiment is replaced by nano silver ion non-woven fabric, far infrared anion non-woven fabric and chitosan non-woven fabric to manufacture the nasal breathing antibacterial protective patch, very effective protection can be brought to people for preventing influenza viruses.

If the spun-bonded non-woven fabric is replaced by a layer of aromatic non-woven fabric which is impregnated with plant fragrance with volatile drug effect or volatile traditional Chinese medicine or the nasal cavity fragrance protective patch which is prepared by directly spraying atomized perfume on the non-woven fabric during production, convenient auxiliary treatment effects on the aspects of preventing and treating rhinitis, refreshing and restoring consciousness, improving migraine and the like can be brought to people.

The breathing protection nose patch is used as if a three-dimensional miniature nose film is pasted on the planes of two nose breathing holes, so that people can paste protection for a long time and normal work and other physiological requirements cannot be hindered.

The invisible breathing protection nose patch can be applied to transfer occasions of living animals, so that the animals can be effectively protected, and the hidden health safety hazards brought to social life when the animals move can be controlled.

Adopted the nasal paste and the production equipment of this nasal paste among this utility model, can not only adsorb fast, the dust in the air is filtered to the separation, the stench, the flue gas, poison gas and carcinogen, can show and reduce people and suffer air pollution and infectious diseases to the injury of health among the daily life, and also can play certain guard action in the aspect of the protection of air infectious diseases, only need design a plurality of specification simultaneously and just can let men and women old and young can both be suitable for, its wide application, the frivolous small and exquisite just low cost of outward appearance, the color and luster is close skin, but automated batch production, and the carrying and use is convenient, and the popularization is easily promoted, and real benefit and social are showing.

The nose paste and the production equipment of this nose paste in this utility model have been adopted, its unique design is ingenious, and the disposable respiratory protection who produces adsorbs with desorption capacious and fast, the thin laminarization of adsorbed layer, color and luster are close skin, light and handy conceal, can also let people use, simple and convenient high efficiency again low cost, be suitable for extensive popularization and application for a long time when not influencing people's basic life demand.

In this specification, the invention has been described with reference to specific embodiments thereof. It will, however, be evident that various modifications and changes may be made thereto without departing from the broader spirit and scope of the invention. The specification and drawings are, accordingly, to be regarded in an illustrative rather than a restrictive sense.

Claims (4)

1. The nose patch is characterized by comprising a first shape-separating coiled material, an adhesive-resistant layer, a fabric fiber layer, a shaping memory fiber layer, a protective fiber layer, an antibacterial fiber layer and a blocking fiber layer, wherein the first shape-separating coiled material is bonded on a first surface of the fabric fiber layer through the adhesive-resistant layer to form a first complex body, and the first complex body is provided with two symmetrical nostril-shaped holes which are arranged oppositely; the shaping memory fiber layer, the protective fiber layer, the antibacterial fiber layer and the barrier fiber layer are sequentially attached to the fabric fiber layer.

2. The nasal strip of claim 1, wherein the first discrete coil is a stacked discrete coil comprising a second discrete coil and a third discrete coil stacked on each other.

3. The nose patch according to claim 1, wherein the fabric fiber is a terylene spunbonded nonwoven fabric or a chinlon woven fabric, the barrier fiber layer is a smooth spunbonded nonwoven fabric, the antibacterial fiber layer is an activated carbon sponge, a nano silver ion nonwoven fabric or a far infrared negative ion nonwoven fabric or chitosan nonwoven fabric, the protective fiber layer is a bicomponent melt-blown nonwoven fabric, a monocomponent melt-blown nonwoven fabric or a nano nonwoven fabric, and the shape memory fiber layer is a terylene nonwoven fabric.

4. The nose patch as claimed in claim 1, wherein the outer contour of the fabric fiber layer is lace-like, zigzag-like, square wave-like or wave-like and matches with the contour size of the alar part of the nose at the nose breathing hole; the protective fiber layer is of a structure in a folded three-dimensional shape or a three-dimensional indentation shape, and the outline of the protective fiber layer is in an ellipse-like shape which is symmetrically arranged in the left and right directions and is matched with the size of the nostril.