CN112760807A - Processing technology of freeze-dried mask coating spunlace cloth - Google Patents

Abstract

The invention provides a processing technology of a spunlace fabric coated on a freeze-dried mask, which comprises a silk fiber web; attaching wood pulp paper to the upper surface of the silk fiber net; performing second spunlace, and preliminarily compounding wood pulp paper and the silk fiber web; thirdly, performing spunlace, and compounding wood pulp paper and the silk fiber web for the second time; the water needle of the third water jet is sprayed from top to bottom, wood pulp paper penetrates through the water needle and penetrates out of the silk fiber net, then the water needle is recycled, the wood pulp paper is partially scattered at the point of the third water jet, and wood pulp fibers in the wood pulp paper penetrate through the silk fiber net; the second water-jet spots and the third water-jet spots are arranged in a staggered manner; obtaining the composite spunlace fabric. Has good moisture permeability and air permeability, and is more air-permeable and better in effect after being applied. And after the wood pulp paper part is scattered at the third spunlace point, the bonding points among the wood pulp fibers are reduced, the bonding force is reduced, the fibers are more fluffy, and more freeze-dried powder can be conveniently pasted.

Description

Processing technology of freeze-dried mask coating spunlace cloth

Technical Field

The invention belongs to a manufacturing process of a mask material, and particularly relates to a processing process of a spunlace fabric coated with a freeze-dried mask.

Background

People now attach more importance to skin, and consumers are more willing to invest more money and experience into skin as revenue increases. Facial masks are becoming increasingly popular as the simplest and most straightforward skin care products.

The traditional mask making process is limited by the problem of cost, the making process is simple and rough all the time, and although the prepared mask cloth is low in price, the mask cloth is not suitable for the current social requirements for a long time. The moisture permeability and the air permeability of the mask are more important to modern people.

The freeze-dried mask is a new mask, and the existing freeze-dried mask is generally divided into freeze-dried powder and mask cloth, wherein the freeze-dried powder is mixed with water, and then the mixed solution is introduced onto the mask cloth and then applied to the face. However, the process is cumbersome and not conducive to user use. When the mask powder is directly sprinkled on the mask cloth for packaging, the mask powder cannot be uniformly kept on the mask cloth for a long time.

Disclosure of Invention

The following presents a simplified summary in order to provide a basic understanding of some aspects of the disclosed embodiments. This summary is not an extensive overview and is intended to neither identify key/critical elements nor delineate the scope of such embodiments. Its sole purpose is to present some concepts in a simplified form as a prelude to the more detailed description that is presented later.

The invention adopts the following technical scheme: a processing technology of a freeze-dried mask coating spunlace fabric comprises the following steps:

s1: opening, carding and pre-spunlacing the raw materials to form a silk fiber web;

s2: taking wood pulp paper, and attaching the wood pulp paper to the upper surface of the silk fiber net;

s3: performing second spunlace, and preliminarily compounding wood pulp paper and the silk fiber web; the hydro-acupuncture of the second water-jet is sprayed from bottom to top, and the silk fiber net penetrates through the hydro-acupuncture and is recovered after penetrating out of the wood pulp paper, so that the wood pulp fiber in the wood pulp paper is cohered with the silk at the second water-jet point;

s4: thirdly, performing spunlace, and compounding wood pulp paper and the silk fiber web for the second time; the water needle of the third water jet is sprayed from top to bottom, wood pulp paper penetrates through the water needle and penetrates out of the silk fiber net, then the water needle is recycled, the wood pulp paper is partially scattered at the point of the third water jet, and wood pulp fibers in the wood pulp paper penetrate through the silk fiber net; the second water-jet spots and the third water-jet spots are arranged in a staggered manner;

obtaining the composite spunlace fabric.

Wherein, still include the step:

s5: placing the composite spunlaced fabric into a dryer for drying; the drying temperature is 45-50 ℃;

s6: and cutting the dried spunlace fabric into the shape required by the mask.

Wherein, the pressure of the water needle in the second water stabbing in the step S3 is 50-60 Bar.

Wherein, the pressure of the water needle in the third water stabbing in the step S4 is 30-40 Bar.

Wherein the wood pulp fiber length of the wood pulp paper is 3-6 mm.

Wherein the longitudinal strength of the wood pulp paper is 100-120N (5 x 10cm)^-1The thickness is 0.05-0.06 mm.

Wherein the raw materials in the step S1 comprise the following components in percentage by mass: 5% of silk, 30% of mint fiber, 50% of xylitol fiber and 15% of polyester staple fiber.

Wherein the polyester staple fiber has the specification as follows: 1.6dtex × 38mm or 1.3dtex × 38 mm.

The invention has the following beneficial effects: has good moisture permeability and air permeability, and is more air-permeable and better in effect after being applied. And after the wood pulp paper part is scattered at the third spunlace point, the bonding points among the wood pulp fibers are reduced, the bonding force is reduced, the fibers are more fluffy, and more freeze-dried powder can be conveniently pasted.

Drawings

FIG. 1 is a block flow diagram of the present invention;

FIG. 2 is a schematic view of the present invention in a spaced and staggered arrangement;

FIG. 3 is a schematic diagram of the present invention in a staggered arrangement.

Detailed Description

The following description and the drawings sufficiently illustrate specific embodiments of the invention to enable those skilled in the art to practice them. Other embodiments may incorporate structural, logical, electrical, process, and other changes. The examples merely typify possible variations. Individual components and functions are optional unless explicitly required, and the sequence of operations may vary. Portions and features of some embodiments may be included in or substituted for those of others.

In some illustrative embodiments, as shown in fig. 1, a processing method of a freeze-dried mask coating spunlace fabric comprises the following steps:

s1: opening, carding and pre-spunlacing the raw materials to form a silk fiber web; the raw materials comprise the following components in percentage by mass: 5% of silk, 30% of mint fiber, 50% of xylitol fiber and 15% of polyester staple fiber. The specification of the polyester staple fiber is as follows: 1.6dtex multiplied by 38mm or 1.3dtex multiplied by 38mm, the whiteness is more than or equal to 85.0 percent, and the moisture regain is less than or equal to 0.4 percent. The specification of the xylitol fiber is as follows: 1.3dtex 38 mm. The specification of the mint fiber is as follows: 1.3dtex 38 mm.

S2: taking wood pulp paper, and attaching the wood pulp paper to the upper surface of the silk fiber net; the wood pulp fiber length of the wood pulp paper is 3-6 mm. The longitudinal strength of the wood pulp paper is 100-120N (5 multiplied by 10cm)^-1The thickness is 0.05-0.06 mm. The wood pulp paper is preferably made from north american red pine long fiber wood pulp.

S3: performing second spunlace, and preliminarily compounding wood pulp paper and the silk fiber web; the hydro-acupuncture of the second water-jet stitch is sprayed from bottom to top, the silk fiber net penetrates through the hydro-acupuncture and is recovered after penetrating out of the wood pulp paper, and the hydro-acupuncture does not need to be rebounded by the net curtain to be inserted back, so that the wood pulp fiber in the wood pulp paper and the silk are cohered at the second water-jet stitch; the pressure of the water needle in the second water stabbing is 50-60 Bar.

S4: thirdly, performing spunlace, and compounding wood pulp paper and the silk fiber web for the second time; the water needle of the third water jet is sprayed from top to bottom, wood pulp paper penetrates through the water needle and is recovered after penetrating out of the silk fiber net, the water needle does not need to rebound through a net curtain for back insertion, the wood pulp paper is scattered at the position of the third water jet, and wood pulp fibers in the wood pulp paper pass through the silk fiber net; the second water stabs 1 and the third water stabs 2 are arranged in a staggered mode, and the staggered mode can be arranged in a staggered mode at intervals as shown in fig. 2. It may also be in a staggered arrangement in rows as shown in fig. 3; the pressure of the water needle in the third water jet is 30-40 Bar.

Obtaining the composite spunlace fabric.

S5: placing the composite spunlaced fabric into a dryer for drying; the drying temperature is 45-50 ℃;

s6: and cutting the dried spunlace fabric into the shape required by the mask to obtain the mask fabric. The required shape of the mask is suitable for fitting the face of most users according to the actual requirements of enterprises, and the specific shape of the mask cloth is not specifically limited.

When in use, the original facial mask liquid is uniformly smeared on one surface of the wood pulp paper of the dried facial mask cloth. And (3) carrying out a freeze-drying process on the mask stock solution and the mask cloth together to sublimate water in the mask stock solution, and after freeze-drying the mask stock solution and the mask cloth together, firmly fixing the blocky or powdery substance formed by the mask stock solution on one side of the wood pulp paper of the mask cloth. When in use, the mask cloth can be used after being moistened, and the mask cloth and the freeze-dried powder do not need to be packaged separately.

Those of skill would further appreciate that the various illustrative logical blocks, modules, circuits, and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both. To clearly illustrate this interchangeability of hardware and software, various illustrative components, blocks, modules, circuits, and steps have been described above generally in terms of their functionality. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the overall system. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present disclosure.

Claims (8)

1. A processing technology for coating spunlace cloth on a freeze-dried mask is characterized by comprising the following steps:

s1: opening, carding and pre-spunlacing the raw materials to form a silk fiber web;

s2: taking wood pulp paper, and attaching the wood pulp paper to the upper surface of the silk fiber net;

s3: performing second spunlace, and preliminarily compounding wood pulp paper and the silk fiber web; the hydro-acupuncture of the second water-jet is sprayed from bottom to top, and the silk fiber net penetrates through the hydro-acupuncture and is recovered after penetrating out of the wood pulp paper, so that the wood pulp fiber in the wood pulp paper is cohered with the silk at the second water-jet point;

s4: thirdly, performing spunlace, and compounding wood pulp paper and the silk fiber web for the second time; the water needle of the third water jet is sprayed from top to bottom, wood pulp paper penetrates through the water needle and penetrates out of the silk fiber net, then the water needle is recycled, the wood pulp paper is partially scattered at the point of the third water jet, and wood pulp fibers in the wood pulp paper penetrate through the silk fiber net; the second water-jet spots and the third water-jet spots are arranged in a staggered manner;

obtaining the composite spunlace fabric.

2. The processing technology of the freeze-dried mask coating spunlace fabric as claimed in claim 1, further comprising the steps of:

s5: placing the composite spunlaced fabric into a dryer for drying; the drying temperature is 45-50 ℃;

s6: and cutting the dried spunlace fabric into the shape required by the mask.

3. The processing technology of the freeze-dried mask coating spunlace fabric according to claim 2, wherein the pressure of the water needle in the second spunlace step of the step S3 is 50-60 Bar.

4. The processing technology of the freeze-dried mask coating spunlace fabric according to claim 3, wherein the pressure of the water needle in the third spunlace step of the step S4 is 30-40 Bar.

5. The processing technology of the freeze-dried mask coating spunlace fabric as claimed in claim 4, wherein the wood pulp fiber length of the wood pulp paper is 3-6 mm.

6. The method of claim 5The processing technology of the freeze-drying mask coating spunlace fabric is characterized in that the longitudinal strength of the wood pulp paper is 100-120N (5 multiplied by 10cm)^-1The thickness is 0.05-0.06 mm.

7. The processing technology of the freeze-dried mask coating spunlace fabric as claimed in claim 6, wherein the raw materials in the step S1 comprise the following components in percentage by mass: 5% of silk, 30% of mint fiber, 50% of xylitol fiber and 15% of polyester staple fiber.

8. The processing technology of the freeze-dried mask coating spunlace fabric as claimed in claim 7, wherein the specifications of the polyester staple fibers are as follows: 1.6dtex × 38mm or 1.3dtex × 38 mm.

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