阅读说明：本技术 一种多功效型干巾及其制备方法 (Multifunctional dry towel and preparation method thereof ) 是由 高博文 陈杨 郝景标 张建鹏 于 2021-09-08 设计创作，主要内容包括：本发明公开了一种多功效型干巾、其所采用的无纺布基布、以及该干巾的制备方法。其中,无纺布基布依次包括纤维素纤维纤维网层、纺粘无纺布层、以及合成纤维纤维网层,并通过水刺工艺加固复合而成为一个整体；在干巾中,合成纤维纤维网层用来承载第一功效层,纤维素纤维纤维网层用来承载第二功效层；其制备方法包括：(1)在一网层上喷洒第一功效层并烘干；(2)在第一功效层烘干之后,在其它网层上喷洒第二功效层并烘干。本发明的干巾既可以用作多功效作用的精华液干巾,也可以用作同时需要功效作用和擦湿作用的干巾,还可以用作功效型干巾鞋垫、功效型干巾贴等。(The invention discloses a multifunctional dry towel, a non-woven fabric base cloth adopted by the multifunctional dry towel and a preparation method of the multifunctional dry towel. The non-woven base fabric comprises a cellulose fiber net layer, a spun-bonded non-woven fabric layer and a synthetic fiber net layer in sequence, and is reinforced and compounded into a whole through a spunlace process; in the dry towel, the synthetic fiber web layer is used for bearing the first efficacy layer, and the cellulose fiber web layer is used for bearing the second efficacy layer; the preparation method comprises the following steps: (1) spraying a first effect layer on the first net layer and drying; (2) after the first effect layer is dried, spraying a second effect layer on the other net layers and drying. The dry towel can be used as an essence dry towel with multiple effects, can also be used as a dry towel needing the effects and the wiping effect simultaneously, and can also be used as an effect type dry towel insole, an effect type dry towel patch and the like.)

1. A non-woven base cloth for a multifunctional dry towel, wherein the non-woven base cloth sequentially comprises a fiber web layer of cellulose fibers, a spun-bonded non-woven fabric layer and a fiber web layer of synthetic fibers, and the fiber web layer of the cellulose fibers, the spun-bonded non-woven fabric layer and the fiber web layer of the synthetic fibers are reinforced and compounded into a whole through a spunlace process; the synthetic fiber web layer is used for bearing a first efficacy layer, the cellulose fiber web layer is used for bearing a second efficacy layer, and efficacy components of the first efficacy layer are the same as or different from efficacy components of the second efficacy layer.

2. The nonwoven fabric substrate of claim 1 wherein the web layer of cellulosic fibers is formed from one or more cellulosic fibers selected from the group consisting of: viscose, lyocell, modal, bamboo, acetate and cuprammonium fibers.

3. The nonwoven fabric substrate of claim 1 wherein the web layer of synthetic fibers is formed from one or more synthetic fibers selected from the group consisting of: polypropylene fibers, polyacrylonitrile fibers, polyvinyl formal fibers, polyamide fibers, and polyethylene terephthalate fibers.

4. The nonwoven fabric substrate of claim 1 wherein said spunbond nonwoven layer is a spunbond nonwoven formed from polyethylene terephthalate or polypropylene.

5. The nonwoven fabric substrate of claim 1, wherein the web layer of cellulosic fibers has a grammage of 20 to 25g/m²The gram weight of the fiber web layer of the synthetic fiber is 20 to 25g/m²The gram weight of the spunbonded non-woven fabric layer is 10-15g/m²。

6. A multi-functional dry napkin using the nonwoven fabric substrate of claims 1-5 as a carrier, wherein a first functional layer is carried by said fibrous web layer of synthetic fibers and a second functional layer is not required or carried by said fibrous web layer of cellulosic fibers; the functional components of the first functional layer are the same as or different from the functional components of the second functional layer.

7. The multi-functional dry wipe of claim 6, wherein the first functional layer and/or the second functional layer comprises one or more of the following group of components: coco glucoside, cocamidopropyl betaine, sodium lauroyl sarcosinate, sodium chloride, butylene glycol, methylparaben, citric acid, glyceryl caprylate, ALOE vera (ALOE BARBADENSIS) leaf extract, shea butter (BUTYROSPERMUM PARKII), grape (VITIS VINIFERA) seed extract, and potassium sorbate.

8. A method of making a multi-functional dry wipe according to any one of claims 6 to 7, wherein the method comprises the steps of, in order:

(1) spraying a first effect layer on the synthetic fiber net layer of the non-woven base fabric and drying;

(2) after the first effect layer is dried, a second effect layer is sprayed on the cellulose fiber web layer of the non-woven base fabric and dried.

9. The method according to claim 8, wherein the first effect layer and the second effect layer are sprayed by a high-pressure water mist nozzle which sprays the essence after atomization.

10. The method of claim 8, wherein the high pressure water mist head is a cone head having a nozzle orifice size of between 0.1mm and 0.5mm and a pressure of between 15 and 20 kilograms force in use, providing atomized droplets having a size of less than 50 microns.

Technical Field

The invention relates to a multifunctional dry towel and a manufacturing method thereof, in particular to a multifunctional dry towel, a non-woven fabric base cloth adopted by the multifunctional dry towel and a preparation method of the multifunctional dry towel.

Background

Previously, most people used paper towels, and in some occasions, the paper towels were replaced by dry towels. The dry towel is a disposable small-area product which is usually used for cleaning human body parts such as faces, hands and the like in daily life and is made of non-woven fabric, and is also called as a soft towel. The dry towel can be used directly, and some dry towels can also be used after being soaked.

The dry towel gradually advances into daily life with the innovation of the non-woven fabric technology and the improvement of the productivity. Nonwoven dry wipes currently exist in the market generally in two categories: one is that the spunlace nonwoven fabric is directly cut into certain specifications, and then is packed into a box for direct use, and is used for wiping sweat and the like without other function; in addition, the product has certain cleaning effect after being wetted with water, but after the product is used, other dry articles are used for wiping, all the functional components can be added only once, and different functional components cannot be distinguished for use.

Chinese patent application 202110109477.3 discloses a roll coating device with defoaming function and a dry towel production line comprising the same. The application roller coat device includes the feed liquid groove and is located the coating roll of feed liquid groove top, the coating roll with treat the substrate looks butt of roller coat, the substrate removes along with the rotation of coating roll, surface at the coating roll is provided with a plurality of liquid heads of being stained with, still include the backup pad of being connected with the coating roll, the coating roll is adjustable with the hookup location of backup pad, the region that is located the top on the surface of feed liquid of the at least one side reason of the inside wall that is located the feed liquid groove is provided with feed liquid recovery chamber, still include the vacuum pump that is connected with feed liquid recovery chamber and deposit the feed liquid accumulator of retrieving the feed liquid, the vacuum pump sets up in feed liquid accumulator. Although the roller coating device of the application can reduce foams generated during coating, the waste and the pollution of essence can still be caused.

Chinese patent application 202010966087.3 discloses a green antibacterial cleaning and nursing dry towel and a preparation method thereof, wherein the dry towel comprises a dry towel base cloth formed by spunlacing 60-80 parts by weight of chitosan fibers and 20-40 parts by weight of tencel fibers after net formation, and antibacterial agents are uniformly sprayed on the top surface and the bottom surface of the dry towel base cloth. According to the application, the antibacterial agent is sprayed on the dry towel base cloth after being separated by the screen, so that the phenomena of uneven spraying and over-thick spraying of partial point positions are avoided.

Chinese patent application 202010607285.0 discloses a method for processing a sterilized nursing dry towel, comprising: 1) placing the non-woven fabric to be processed on a conveying table; 2) conveying the non-woven fabric to be processed to a spraying position for primary humidification by a roller; 3) conveying the liquid-carrying non-woven fabric to a dipping position, and carrying out secondary humidification by using a roller until the liquid-carrying rate of the liquid-carrying non-woven fabric reaches 1-5 percent, and stopping dipping; 4) conveying the liquid-carrying non-woven fabric to an ultrasonic atomization humidification position for ultrasonic atomization humidification, and stopping spraying when the liquid-carrying rate of the liquid-carrying non-woven fabric is 1-6%; 5) conveying the liquid-carrying non-woven fabric to a drying position for drying until the liquid carrying rate is 0.1-1%, and stopping drying; 6) collecting: and collecting the dried non-woven fabrics for later use. The primary humidification and the secondary humidification of this patent application all adopt the gyro wheel humidification, may pollute the essence.

Chinese patent application 201910981871.9 discloses a dry facial cleaning towel and a method for manufacturing the same, the dry facial cleaning towel comprises a nonwoven fabric layer having a mesh structure and a cleaning composition absorbed in the nonwoven fabric layer. When the dry towel is manufactured, the non-woven fabric layer with meshes is prepared, then the non-woven fabric layer is soaked in the cleaning composition or the diluent thereof, and the dry towel is obtained after drying. Also, the dipping and dressing method of this application causes waste and contamination of the essence.

Chinese patent application 201810898934.X discloses a wet and dry dual-purpose paper towel and a manufacturing method thereof, wherein the wet and dry dual-purpose paper towel comprises a wet towel layer and a dry towel layer, a plastic film is arranged between the dry towel layer and the wet towel layer, the plastic film comprises a first plastic film and a second plastic film, and the areas of the dry towel layer and the wet towel layer are not larger than the area of the plastic film. This application combines dry and wet wipes together and can provide two functions to improve the comfort of use of the wipes.

201710358751.4 discloses a method for preparing dry towel and the obtained dry towel. In the patent application, the manufacturing method of the dry towel adopts a production method of spunlace non-woven fabric, and the dry towel is manufactured through the conventional processes of cotton carding, web forming, spunlace, drying, detection and curling, after the spunlace process, finishing liquor made of natural plant extracts is sprayed on the surface of a semi-finished product of the spunlace non-woven fabric, and then the dry towel enters the drying process and the subsequent manufacturing process. However, in the patent application, the spraying mode causes the waste of the effective components.

In a word, the dry towel in the prior art has single effect, and the liquid feeding mode generally adopts a soaking extrusion mode or a water flow dripping mode. The soaking extrusion refers to that the carrier layer penetrates through the essence liquid by using a round roller, the carrier layer is completely immersed in the essence liquid, and then the redundant essence liquid on the carrier layer is extruded by an extrusion mode; the water dripping is similar to the production mode of wet tissues, and the essence is introduced onto the carrier by using a conduit, but the carrier cannot completely absorb the introduced essence during movement. The liquid feeding mode can cause the backflow of the essence, the pollution is large, and the utilization rate of the essence is only about 40% when the essence is wasted seriously. In addition, neither of the two solutions can add two essences with different effects to the same carrier.

Therefore, there is a need to provide a multi-functional dry towel and a method for preparing the same that does not waste and contaminate the essence.

Disclosure of Invention

The invention aims to provide a multi-effect dry towel which is loaded with different effect components and can be used in a distinguishing way and a preparation method thereof. For example, the multi-functional dry towel can be used as a dual-purpose dry towel for wiping after cleaning, and can also be used as a dry towel with two different functions.

In order to achieve the above object, the present invention provides a nonwoven fabric base fabric for a multifunctional dry towel, wherein the nonwoven fabric base fabric comprises a fiber web layer of cellulose fibers, a spunbond nonwoven fabric layer, and a fiber web layer of synthetic fibers, which are consolidated and compounded into a whole by a spunlace process; the fiber net layer of the synthetic fibers can be used for bearing the first effect layer, the fiber net layer of the cellulose fibers can be used for bearing the second effect layer, and the effect components of the first effect layer can be the same as or different from the effect components of the second effect layer. When the two are different, the non-woven fabric base cloth is loaded or carried with different efficacy layers, thereby realizing the aim of multiple efficacies.

In the non-woven fabric base fabric of the present invention, the cellulose fiber is a textile fiber derived from natural materials, also called as rayon, and is obtained by remodeling cellulose molecules of natural materials such as cotton linter, wood, bamboo, bagasse, reed, and the like by a certain process treatment method.

Preferably, the web layer of cellulose fibers employed in the present invention is formed from one or more cellulose fibers selected from the group consisting of: viscose, lyocell, modal, bamboo, acetate and cuprammonium fibers.

In the nonwoven fabric base fabric of the present invention, the synthetic fiber used is one of chemical fibers, and is a generic name of chemical fibers produced by using a synthetic polymer compound as a raw material. It uses small molecular organic compound as raw material, and makes it undergo the process of addition polymerization reaction or polycondensation reaction to synthesize linear organic high-molecular compound, such as polyacrylonitrile, polyester and polyamide, etc.

The main varieties of synthetic fibers include: (1) the main chain structure can be divided into: carbon chain synthetic fibers such as polypropylene fibers (polypropylene), polyacrylonitrile fibers (acrylic fibers), polyvinyl formal fibers (vinylon); miscellaneous chain synthetic fibers such as polyamide fiber (chinlon), polyethylene terephthalate (terylene), etc.; (2) according to the function and function, the method can be divided into: high temperature resistant fibers such as polybenzimidazole fibers; high temperature corrosion resistant fibers such as polytetrafluoroethylene; high strength fibers such as poly (p-phenylene terephthalamide); radiation resistant fibers, such as polyimide fibers; flame retardant fibers, polymer optical fibers, and the like.

Preferably, the web layer of synthetic fibers employed in the present invention is formed of one or more synthetic fibers selected from the group consisting of: polypropylene fibers, polyacrylonitrile fibers, polyvinyl formal fibers, polyamide fibers, and polyethylene terephthalate fibers.

In the non-woven fabric base fabric, the spun-bonded non-woven fabric is formed by extruding and stretching a polymer to form continuous filaments, laying the filaments into a web, and making the web become a non-woven fabric by self-bonding, thermal bonding, chemical bonding or mechanical reinforcement, wherein the main materials of the spun-bonded non-woven fabric are terylene and polypropylene. The spun-bonded non-woven fabric layer has the advantages of high temperature resistance (such as polypropylene can be used in the environment of 150 ℃ for a long time, and terylene can be used in the environment of 260 ℃ for a long time), low temperature resistance, aging resistance, ultraviolet resistance, high elongation, good stability and air permeability, corrosion resistance, sound insulation, moth prevention, no toxicity and the like.

Preferably, the spunbonded nonwoven fabric layer used in the present invention is a spunbonded nonwoven fabric formed of polyethylene terephthalate or polypropylene.

In the nonwoven fabric substrate of the present invention, the grammage of the fiber web layer of the cellulose fibers is preferably 20 to 25g/m²The grammage of the web layer of synthetic fibers is preferably 20 to 25g/m²Spun-bondedThe gram weight of the non-woven fabric layer is preferably 10-15g/m²。

In another aspect, in order to achieve the object of the present invention, the present invention provides a multi-functional dry napkin using the nonwoven fabric base fabric as described above as a carrier, wherein the first functional layer is supported on a fiber web layer of synthetic fibers, and the second functional layer is not required or supported on a fiber web layer of cellulose fibers; the functional components of the first functional layer are the same as or different from the functional components of the second functional layer.

Since the functional essence is generally classified into an emulsion type essence and a water type essence, in the multi-functional dry towel of the present invention, the emulsion type essence is generally sprayed on the synthetic fiber web layer of the non-woven fabric base cloth, and since the amount of the synthetic fiber web layer is relatively poor, the amount of the emulsion type essence can be maintained sufficiently; and the cellulose fiber web layer is sprayed with the water-based essence, because the liquid containing amount of the cellulose fiber web layer is better. In this way, different types of functional ingredients can be loaded into the same dry towel.

From the perspective of skin care, the water-based essence mainly plays a cleaning role, generally does not foam when used for cleaning grease, dirt and the like on the surface of the skin, and keeps the skin to be tight after cleaning; the emulsion type essence can play a role of plumping foam when used, and generally has other nursing functions besides the cleaning function, such as: controlling oil, tendering skin and the like, can penetrate into skin texture to remove oil and prevent blackheads and the like, and does not have a tight feeling after face cleaning.

Of course, in the multi-functional dry napkin of the present invention, the emulsion type essence may be sprayed on both the synthetic fiber web layer and the cellulose fiber web layer of the nonwoven fabric base fabric, or the aqueous type essence may be sprayed on both the synthetic fiber web layer and the cellulose fiber web layer of the nonwoven fabric base fabric, depending on the use and the care use.

The non-woven fabric base cloth structure provides more choices for the multifunctional dry towel, and almost all the existing functional components can be loaded in the multifunctional dry towel.

For example, in the multi-functional dry towel of the present invention, the first functional layer and/or the second functional layer comprises one or more of the following group of ingredients: coco glucoside, cocamidopropyl betaine, sodium lauroyl sarcosinate, sodium chloride, butylene glycol, methylparaben, citric acid, glyceryl caprylate, ALOE vera (ALOE BARBADENSIS) leaf extract, shea butter (BUTYROSPERMUM PARKII), grape (VITIS VINIFERA) seed extract, potassium sorbate, and the like.

In the multi-functional dry towel of the present invention, as an embodiment of the present invention, the first functional layer supported on the synthetic fiber web layer is different from the second functional layer supported on the cellulose fiber web layer.

As another embodiment of the present invention, in the multi-functional dry towel of the present invention, the cellulosic fiber web layer may not require any functional ingredient, in which case the cellulosic fiber web layer may be used as a facial towel, for example, for absorbing moisture, wiping sweat, etc.

In order to achieve the object of the present invention, in still another aspect, the present invention provides a method for preparing the multi-functional dry towel as described above, wherein the method comprises the following steps in order:

(1) spraying a first effect layer on the synthetic fiber net layer of the non-woven base fabric and drying;

(2) after the first effect layer is dried, a second effect layer is sprayed on the cellulose fiber web layer of the used nonwoven base fabric and dried.

In the preparation method, the first effect layer and the second effect layer are sprayed by high-pressure water mist nozzles, and the essence is sprayed after being atomized by the high-pressure water mist nozzles. The essence of the effect layer can be sprayed by an adjustable high-pressure water mist nozzle to enable the surface of the carrier layer to absorb.

In the preparation method of the invention, the high-pressure water mist spray head adopted is preferably a conical spray head, the aperture of the spray nozzle is between 0.1mm and 0.5mm, the pressure is generally 15 to 20 kilograms of force, and the size of the atomized liquid drops is less than 50 microns.

In the preparation method of the inventionIn the method, the method also further comprises the following steps of: preparation of 10-15g/m²The spunbonded nonwoven fabric of (1); respectively feeding cellulose fibers and synthetic fibers into a bale opener and a carding machine; placing the spun-bonded non-woven fabric between the cellulose fiber web and the synthetic fiber web, and reinforcing the spun-bonded non-woven fabric into an integral inseparable body by a spunlace machine; then drying and rolling to obtain the non-woven base fabric (carrier layer). Wherein the grammage of the cellulosic fibrous web is set to 20-25g/m²The grammage of the synthetic fiber web is set to 20-25g/m²。

In the preparation method of the present invention, the manufacturing method of the multi-functional dry towel of the present invention is generally divided into two types. The other method is a method for preparing two different essences, which comprises preparing a carrier layer by using a spunlace non-woven fabric processing technology and a spun-bonded non-woven fabric processing technology, and then carrying out liquid feeding. And the liquid feeding step comprises atomizing the essence into fine water drops by using a high-pressure fine water mist spray nozzle and then spraying, wherein the first essence effect liquid is sprayed on the synthetic fiber mesh layer of the carrier layer, drying and rolling are carried out, then the second essence effect liquid is continuously sprayed on the cellulose fiber mesh layer of the carrier layer, and drying and rolling are continuously carried out.

In another manufacturing method, the manufacturing method and the dressing method of the carrier layer are the same as those of the first manufacturing method, except that the method only needs to dress the synthetic fiber web layer of the carrier layer with the first essence efficacy liquid, then dries and winds the synthetic fiber web layer, and does not need to dress the cellulose fiber web layer of the carrier layer with the second essence efficacy liquid, and the synthetic fiber web layer of the carrier layer can be used for absorbing moisture, wiping sweat and the like.

The multifunctional dry towel has the advantages that: two different essences can be added at one time, and the essences do not interfere with each other when used, can exert respective effects to the maximum extent, and can meet the requirements of users with various choices; further advantages are also: only one side of the carrier layer is added with the functional components, the other side is not added, the non-added side is folded inside when the towel is used, and the added side is exposed outside, so that the non-added side can be ensured to be dry when the towel is used, the towel can be used for subsequent treatment, such as wiping and wetting, and the towel plays a role of a dry and wet towel.

It will be appreciated by those skilled in the art that while the product is typically used as a cleansing dry wipe, in practice the application may also be used as a dry wipe requiring both moisture absorption and an effect substance. Such as a power dry towel insole. The synthetic fiber mesh layer of the non-woven fabric base cloth is subjected to essence effect liquid application, the cellulose fiber mesh layer is not subjected to liquid application, and then the insole is processed to be placed inside the shoe. The sweat of feet can be absorbed by most of the cellulose fiber mesh layer, the synthetic fiber mesh layer can absorb a little moisture, and then the synthetic fiber mesh layer can have the effect of essence after being wetted, such as deodorization, bacteriostasis and the like.

The non-woven fabric base fabric of the multifunctional dry towel adopts a water-jet reinforced mode, and is compounded with spun-bonded non-woven fabric, so that the multifunctional dry towel belongs to multifunctional carrier non-woven fabric. The cellulose fiber web layer is a cellulose fiber web because the cellulose fiber has excellent moisture absorption performance, and the synthetic fiber of the synthetic fiber web layer has poor moisture absorption performance, so that two essences with different effects can be applied, and the cellulose fiber web layer with good moisture absorption performance can be used for absorbing moisture. The spunbonded nonwoven fabric is compounded between the cellulose fiber web and the synthetic fiber web and is used for blocking mutual transmission interference of moisture and essence, but the spunbonded nonwoven fabric is breathable.

The multi-functional dry towel of the invention has different liquid applying mode from the traditional one. Most of the prior liquid applying methods adopt a soaking process or a modified soaking process. The manufacturing process of the invention adopts a high-pressure water mist nozzle, firstly atomizes the essence into fine water droplet particles, then sprays the water droplet particles on the surface of the non-woven fabric base cloth, and then contacts and absorbs the water droplet particles, so that the effect components of the essence are basically on the surface of the non-woven fabric base cloth, not only waste is avoided, backflow and pollution are very small, but also the mutual interference of the two essences with different effects is very small.

The invention has the beneficial effects that: the product provided by the invention belongs to the technical field of life, and is convenient to use and high in playability. Not only satisfies the consumer groups needing dry towels with different effects, but also enables the dry towels with single effect to be used for wiping, and the like, thereby greatly facilitating the life of people. In fact, the product application field provided by the invention can also be used as a dry towel which needs to absorb moisture and needs an effect substance to act. Such as functional dry towel insoles and the like, can absorb moisture and sweat and can also enable functional substances for deodorization or bacteriostasis to act.

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Drawings

FIG. 1 is a cross-sectional view of a nonwoven fabric substrate of the present invention;

in the figure, 1 represents a cellulose fiber web layer, 2 represents a spunbonded nonwoven fabric, and 3 represents a synthetic fiber web layer.

Detailed Description

Example 1

The nonwoven fabric base fabric of this example was prepared using cellulose fibers, spunbond nonwoven fabric, and synthetic fibers.

The manufacturing equipment comprises a bale opener, a carding machine, a spun-bonded non-woven fabric device, a spunlace machine, a dryer, a spraying device with a high-pressure water mist spray nozzle, a cutting machine and a towel drying device.

Manufacturing a non-woven fabric base fabric: firstly, preparing the spun-bonded non-woven fabric by using equipment with the gram weight of 10-15g/m²A spunbonded nonwoven fabric. Bale opener: at least two bale openers are prepared, wherein one bale opener feeds cellulose fibers, and the other bale opener feeds synthetic fibers, so that the two bale openers cannot be mixed; a carding machine: two carding machines are also arranged and respectively correspond to the two bale openers, so that one carding machine is used for outputting a fiber web of cellulose fibers, and the other carding machine is used for outputting a fiber web of synthetic fibers. Wherein the spunbond nonwoven is disposed intermediate two webs. A spunlace machine and a dryer: the front three layers are reinforced together by a spunlace machine to form an integral wholeAnd drying and rolling. Thus, the non-woven base fabric is manufactured.

A liquid feeding procedure: the method comprises the steps of firstly, feeding a first essence functional component, atomizing the essence into fine water droplet particles by using a high-pressure fine water mist spraying device, spraying the fine water droplet particles on a synthetic fiber mesh layer of a non-woven fabric base fabric, and then drying and rolling. Next, cleaning the spraying device, and spraying a second essence functional component; and atomizing into fine water droplet particles by using a high-pressure fine water mist spraying device, spraying a second essence functional component on the cellulose fiber web layer of the non-woven fabric base cloth which is sprayed with the first essence functional component on the synthetic fiber web layer, and then drying and rolling. The concentration of the two-side spraying can be accurately adjusted according to the requirement.

And (3) manufacturing a finished product: and cutting, folding and bagging the product which is completely filled with the liquid by using a dry towel device.

Example 2

Like example 1, the nonwoven fabric substrate of this example was also prepared using cellulose fibers, spunbond nonwoven fabric, and synthetic fibers.

The manufacturing equipment was the same as in example 1.

Manufacturing a non-woven fabric base fabric: the same as in example 1.

A liquid feeding procedure: the first essence functional component is added: atomizing the essence into fine water droplet particles by using a high-pressure water mist spraying device, spraying the fine water droplet particles on a synthetic fiber mesh layer of the non-woven fabric base cloth, and then drying and rolling the synthetic fiber mesh layer, wherein the mesh layer of the cellulose fibers is not treated.