CN112208127A

CN112208127A - Forming process of bead-blasting ice-cold type mask

Info

Publication number: CN112208127A
Application number: CN202010989104.5A
Authority: CN
Inventors: 尤华山
Original assignee: Quanzhou Jiabaili Sanitary Material Co ltd
Current assignee: Quanzhou Jiabaili Sanitary Material Co ltd
Priority date: 2020-09-18
Filing date: 2020-09-18
Publication date: 2021-01-12
Anticipated expiration: 2040-09-18
Also published as: CN112208127B

Abstract

The invention relates to the field of disposable hygienic products, in particular to a forming process of a bead-blasting ice-cold type mask, and solves the technical problem that the production efficiency of the existing bead-blasting ice-cold type mask is low. The method comprises the following steps: firstly, unwinding a nose bridge strip, cutting, inputting after cutting, and adhering the nose bridge strip on a strip-shaped non-woven fabric at intervals; secondly, respectively unreeling the outer-layer non-woven fabric, the melt-blown non-woven fabric and the inner-layer non-woven fabric, adhering bead blasting particles on the inner-layer non-woven fabric at intervals, and clamping strip-shaped non-woven fabrics between the melt-blown non-woven fabric and the inner-layer non-woven fabric to form a mask base material; thirdly, folding the middle part of the mask base material and then flattening; fourthly, carrying out hot pressing on the mask base material to form a peripheral indentation on the peripheral side of the mask, a limiting indentation surrounding a nose bridge strip and a positioning indentation surrounding bead blasting particles; fifthly, unwinding, cutting, adsorbing and conveying the ear belt material, and finally compounding the ear belt material on the mask base material; and sixthly, cutting and outputting.

Description

Forming process of bead-blasting ice-cold type mask

Technical Field

The invention relates to the field of disposable hygienic products, in particular to a forming process of an ice-cold type mask with a bead blasting function.

Background

At present, the chinese patent application No.: CN201480065316.7 discloses a mask in which the side part of the mask body is in good contact with the face, and the occurrence of a gap between the mask body and the face is suppressed, thereby suppressing the intrusion of fine particles into the mask. The mask (1) comprises a mask body (10) and ear hanging parts (12) formed at the two transverse end parts of the mask body (10), and a plurality of pressing creases (15) are formed, wherein the pressing creases (15) are fixed by welding parts (22) formed by heat sealing, the welding parts (22) are linearly formed at equal intervals in the longitudinal direction at the two transverse sides of the mask body (10), and the interval between the adjacent welding parts is more than 3 mm. It discloses the basic structure of the existing flat mask. Because of the filtering property of the mask, breathing is inhibited, and a mode of adding cold substances is adopted, so that people can forget breathing by inhaling smells such as fragrance and mint by utilizing volatile matters, and the wearing comfort is improved. However, in practice, the conventional cooling type masks are often coated with a substance such as peppermint oil directly on the nonwoven fabric of the mask and then covered with an outer package. Therefore, substances such as peppermint oil and the like are still continuously volatilized in the outer package, so that the influence time of the substances such as the peppermint oil and the like on the mask is extremely short when the mask is used, and long-acting refreshing feeling cannot be realized. And when the existing ice-cold type mask is produced, the process flow is slow, and the production efficiency is low.

Disclosure of Invention

Therefore, aiming at the problems, the invention provides a forming process of a bead-blasting ice-cold type mask, which solves the technical problem that the production efficiency of the existing bead-blasting ice-cold type mask is low.

In order to achieve the purpose, the invention adopts the following technical scheme: a forming process of a bead blasting ice-cold type mask comprises the following steps:

firstly, unwinding a nose bridge strip, cutting, inputting after cutting, and adhering the nose bridge strip on a strip-shaped non-woven fabric at intervals;

secondly, respectively unreeling the outer-layer non-woven fabric, the melt-blown non-woven fabric and the inner-layer non-woven fabric, bonding bead blasting particles on the inner-layer non-woven fabric at intervals, then mutually overlapping the outer-layer non-woven fabric, the melt-blown non-woven fabric and the inner-layer non-woven fabric, and clamping strip-shaped non-woven fabrics between the melt-blown non-woven fabric and the inner-layer non-woven fabric when the materials are input;

thirdly, folding the middle part of the mask base material and then flattening;

fourthly, carrying out hot pressing on the mask base material to form a peripheral indentation on the peripheral side of the mask, a limiting indentation surrounding a nose bridge strip and a positioning indentation surrounding bead blasting particles;

fifthly, unwinding, cutting, adsorbing and conveying the ear belt material, and finally compounding the ear belt material on the mask base material;

and sixthly, cutting and outputting.

Further, the application device is used for applying the bead blasting particles, the application device comprises a hopper, an application wheel arranged below the hopper, a guide shell covering the application wheel, a support plate arranged below the application wheel, and an adsorption box arranged below the support plate, the lower end of the hopper is provided with a blanking pipe, the upper end of the guide shell is provided with a feeding hole corresponding to the blanking pipe, the lower end of the guide shell is provided with a discharge hole, the circumferential side surface of the applying wheel is provided with a plurality of placing grooves for placing bead blasting particles, the gap between the bottom of the placing groove and the inner wall of the guide shell is larger than the diameter of the bead blasting particles, and is less than 1.2 times of the diameter of the bead blasting particles, a glue coating mechanism for coating glue on the bead blasting particles is arranged outside the discharge port, and adsorption holes are formed in the supporting plate below the discharge port, and the diameter of each adsorption hole is 3-5 times of the diameter of the bead blasting particles.

Furthermore, the stroke of one circle of rotation of the applying wheel is the width of the mask body.

Furthermore, a material guide plate for blocking the bead blasting particles to realize discharging is arranged at the discharging port on the guide shell.

Furthermore, a limiting plate used for limiting the bouncing of bead blasting particles is arranged at the rear end of the discharge port along the assembly line.

Furthermore, the adsorption box continuously adsorbs the positions of the adsorption holes, and after the bead blasting particles fall off, the bead blasting particles can be quickly attracted by the adsorption force to fall onto the inner layer material, and are quickly adhered and dried.

Further, in the second step, explode the pearl granule and apply along sharp interval, in the fourth step, still form the crease indentation when carrying out the hot pressing to the gauze mask body, two crease indentations are extended to the corner of gauze mask body by the location indentation respectively.

By adopting the technical scheme, the invention has the beneficial effects that:

1. the improvement of technology is passed through to this scheme, has realized exploding effective, stable the applying of pearl granule, can realize that online interpolation fast, and stability is better, is difficult for making moreover to explode pearl granule breakage. The arrangement of the positioning indentation can effectively realize the limitation of the position of the bead blasting particles. The nose bridge strip can be effectively input and clamped by the input and interval adhesion of the nose bridge strip, the stability of the nose bridge strip can be greatly improved, and the accurate layout is effectively realized. The process can realize the on-line rapid compounding and accurate compounding of the nose bridge strip and the bead blasting particles. Through the setting of exploding the pearl granule, can realize crushing when using and explode the pearl granule to make inside oil body release, this oil body is for peppermint oil or the oil body of taking peppermint oil, or other possess the material that produces cool and refreshing feeling. The bead blasting particles can adopt the bead blasting particles with peppermint oil which can be purchased in the existing market, and can also adopt a structure that the peppermint oil is coated by a film.

2. The setting of applying the device can effectively realize applying of exploding the pearl granule, improves it and applies efficiency, realizes with high-speed operation equipment phase-match. Wherein adsorb the setting of hole, adsorption tank, can effectively realize adsorbing, can strengthen the accurate location of exploding the pearl granule when adsorbing, can effectively realize exploding the adhesion of pearl granule, improve the joint effect who explodes pearl granule and inlayer non-woven fabrics, the attraction of receiving the adsorption affinity can descend to the inlayer material fast on, and quick adhesion, drying. The adsorption force may be intermittent adsorption or continuous adsorption.

3. The stroke of applying the wheel and rotating a circle is the width of gauze mask body, can effectively realize the control of formation like this, improves the matching degree. Of course, the applying wheel can be rotated by one turn to be formed multiple times of the width of the mask body according to actual requirements.

4. The arrangement of the guide plate can facilitate falling of the blasting bead particles, and the guide plate is matched with the adsorption holes and the adsorption box to realize quick discharging and compounding with the inner-layer non-woven fabric.

5. The setting of limiting plate can realize exploding the pearl when initial input and explode the pearl granule and can not break away from the inlayer non-woven fabrics because of beating, and this limiting plate can extend to outer non-woven fabrics, first melt blown non-woven fabrics, middle non-woven fabrics, second melt blown non-woven fabrics, the mutual region department of superpose of inlayer non-woven fabrics. The diameter of the bead blasting particles in the scheme is in a more proper range of 2-5 mm.

6. In the second step, the bead blasting particles are applied at intervals along a straight line, and the addition can greatly improve the production efficiency. And the setting of pincher trees indentation can make the pincher trees indentation form the crease of a three-dimensional shape when the gauze mask is worn for the position of exploding the pearl granule, and keep away from face, can effectively make to explode the pearl granule and have partial clearance from face like this, thereby effectively realize the volatilization of oil body such as peppermint oil with by the suction.

Drawings

FIG. 1 is a schematic structural diagram of a product formed by the present forming process;

FIG. 2 is a schematic view of the structure of the mask body in cooperation with the bead blasting particles;

fig. 3 is a schematic view of the structure of the applicator.

Detailed Description

The invention will now be further described with reference to the accompanying drawings and detailed description.

Referring to fig. 1 and 2, the embodiment provides a cold type gauze mask of exploding pearl, including gauze mask body 1, locate the bridge of the nose strip 2 in the gauze mask body 1, locate the ear area 3 of the horizontal both sides of gauze mask body 1, gauze mask body 1 is by outer non-woven fabrics 11, melt-blown non-woven fabrics 12, the range upon range of formation of inlayer non-woven fabrics 13, it is provided with two explodes pearl granule 4 to lie in the centre gripping between melt-blown non-woven fabrics 12 and the inlayer non-woven fabrics 13 on the gauze mask body 1, explode pearl granule 4 and include fragile casing 41 and cladding and the oily body 42 in the casing 41. The bead blasting particles 4 are located in the left and right regions of the mask body 1. The length of the horizontal direction of definition gauze mask body 1 is L, and the length of the longitudinal direction of definition gauze mask body 1 is K, and the distance of each pearl granule 4 that explodes and the horizontal central line of gauze mask body is less than 1/3L and is greater than 1/5L, the pearl granule 4 that explodes is located one side department that the gauze mask body keeps away from nose bridge strip 2, the distance of the pearl granule 4 that explodes and the central line of the longitudinal direction of gauze mask body 1 is less than 1/3K and is greater than 1/5K. The mask body 1 is provided with a positioning indentation 5 on the outer side of the circumference of the bead blasting particles 4, and the positioning indentation 5 is an unclosed broken line. The positioning indentation 5 is circular, and the diameter of the positioning indentation 5 is 3-4 times of the diameter of the bead blasting particles. Be equipped with pincher trees indentation 6 on the gauze mask body 1, two pincher trees indentations 6 are extended to the corner of gauze mask body 1 by location indentation 5 respectively. Be equipped with second crease indentation 7 on the gauze mask body 1, two second crease indentation 7 extend to the bottom middle part of gauze mask body 1 by location indentation 5 respectively.

The bead blasting particles may be located only in the left or right region of the mask body, or may be located between the outer layer nonwoven fabric 11 and the meltblown nonwoven fabric 12.

The invention has the beneficial effects that:

1. this scheme can realize blasting pearl granule through the setting of blasting pearl granule in the crushing when using to make the inside oil body release, this oil body is the oil body of peppermint oil or taking peppermint oil promptly, perhaps other possess the material that produces cool impression. The bead blasting particles can adopt the bead blasting particles with peppermint oil which can be purchased in the existing market, and can also adopt a structure that the peppermint oil is coated by a film.

2. Explode pearl granule in this scheme and set up in the left and right sides of gauze mask, because the middle part of gauze mask is provided with pincher trees position, explode pearl granule and avoid this pincher trees position, be favorable to the shaping. During the setting, the distance of injecing each pearl granule of exploding and gauze mask body horizontal central line is less than 1/3L and is greater than 1/5L, just the distance of the pearl granule of exploding and the central line of gauze mask body longitudinal direction is less than 1/3K and is greater than 1/5K, can effectively realize the injecing of exploding the pearl granule position, should injecing in addition and can realize after the pearl granule is broken, the peppermint oil diffusion can effectively cooperate the breathing with volatilizing, realizes the position that sets up of a preferred.

3. Through the location indentation, and the setting of location indentation for unclosed break line, can effectively explode the restriction of the position that the pearl explodes the pearl granule, effectively ensure this stability of exploding pearl granule position, the setting of break line pattern moreover can be so that the oil body such as peppermint oil can flow or volatilize in the clearance of break line when volatilizing or diffusing to be favorable to being breathed and drive and promote the travelling comfort of wearing.

4. The positioning indentation is circular, the diameter of the positioning indentation is 3-4 times of the diameter of the bead blasting particles, and due to the diameter limitation, the positioning indentation can be effectively packaged, the bead blasting particles cannot be crushed, and the limitation on the bead blasting particles can be effectively realized.

Based on the bead blasting ice-cold type mask, the forming process comprises the following steps:

thirdly, folding the middle part of the mask base material and then flattening;

fourthly, carrying out hot pressing on the mask base material to form a peripheral indentation on the peripheral side of the mask, a limiting indentation surrounding a nose bridge strip, a positioning indentation surrounding bead blasting particles, a crease indentation and a second crease indentation;

and sixthly, cutting and outputting.

Referring to fig. 3, the bead blasting particles are applied by an applying device, the applying device includes a hopper 81, an applying wheel 82 disposed below the hopper 81, a guiding shell 83 covering the applying wheel 82, a supporting plate 84 disposed below the applying wheel 82, and an adsorbing box 85 disposed below the supporting plate 84, a discharging pipe 811 is disposed at the lower end of the hopper 81, a feeding port 831 corresponding to the discharging pipe 811 is disposed at the upper end of the guiding shell 83, a discharging port 832 is disposed at the lower end of the guiding shell 83, a plurality of placing grooves 821 for placing bead blasting particles 4 are disposed on the circumferential side surface of the applying wheel 82, a gap between the bottom of the placing grooves 821 and the inner wall of the guiding shell 83 is larger than the diameter of the bead blasting particles 4 and smaller than 1.2 times of the diameter of the bead blasting particles 4, a glue coating mechanism 86 for coating glue on the bead blasting particles 4 is disposed outside the discharging port 832, an adsorbing hole 841 is disposed below the discharging port 832 on the supporting plate 84, the diameter of the adsorption hole 841 is 3-5 times of the diameter of the blasting bead particle 4. The stroke of one rotation of the applying wheel 82 is the width of the mask body. A material guide plate 833 used for blocking bead blasting particles to achieve discharging is arranged at the position, located at the discharging hole 832, of the guide shell 83. And the discharge port 832 is provided with a limiting plate 87 used for limiting the jumping of the bead blasting particles 4 at the rear end of the assembly line. The adsorption tank 85 continuously adsorbs the part of the adsorption hole 841, and after the blasting bead particles 4 fall off, the blasting bead particles can be quickly attracted by the adsorption force to fall onto the inner layer material, and are quickly adhered and dried.

The glue spreading mechanism 86 is a brush mechanism, and is connected to the glue injecting mechanism through a pipe to ensure that the brush is in a state of being glued at the moment. The direction of the arrows shown in fig. 3 is the direction of travel and the circular dashed lines are schematic of several key locations for the bead blasting particles. The feed inlet can be provided with a conical guide structure to improve feeding accuracy.

6. In the second step, the bead blasting particles are applied at intervals along a straight line, and the addition can greatly improve the production efficiency. And the setting of pincher trees indentation, second crease indentation can be so that pincher trees indentation and second crease indentation can be when the gauze mask is worn for the position that explodes the pearl granule forms the crease of a three-dimensional shape, and keeps away from face, can effectively make to explode the pearl granule like this and have partial clearance from face, thereby effectively realize the volatilization of oil body such as peppermint with by the suction.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the present invention, unless otherwise expressly stated or limited, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through an intermediate. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

While the invention has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. A forming process of a bead-blasting ice-cold type mask is characterized by comprising the following steps:

thirdly, folding the middle part of the mask base material and then flattening;

and sixthly, cutting and outputting.

2. The molding process of the bead-blasting ice-cooling mask according to claim 1, wherein the molding process comprises the following steps: the application device is used for applying the blasting bead particles, the application device comprises a hopper, an application wheel arranged below the hopper, a guide shell covered outside the application wheel, a support plate arranged below the application wheel, and an adsorption tank arranged below the support plate, the lower end of the hopper is provided with a blanking pipe, the upper end of the guide shell is provided with a feeding hole corresponding to the blanking pipe, the lower end of the guide shell is provided with a discharge hole, the circumferential side surface of the applying wheel is provided with a plurality of placing grooves for placing bead blasting particles, the gap between the bottom of the placing groove and the inner wall of the guide shell is larger than the diameter of the bead blasting particles, and is less than 1.2 times of the diameter of the bead blasting particles, a glue coating mechanism for coating glue on the bead blasting particles is arranged outside the discharge port, and adsorption holes are formed in the supporting plate below the discharge port, and the diameter of each adsorption hole is 3-5 times of the diameter of the bead blasting particles.

3. The forming process of the bead blasting ice-cold type mask according to claim 2, wherein the forming process comprises the following steps: the stroke of applying the wheel and rotating a circle is the width of gauze mask body.

4. The forming process of the bead blasting ice-cold type mask according to claim 2, wherein the forming process comprises the following steps: and a guide plate for blocking bead blasting particles to discharge is arranged at the discharge outlet on the guide shell.

5. The forming process of the bead blasting ice-cold type mask according to claim 2, wherein the forming process comprises the following steps: and a limiting plate for limiting the jumping of the bead blasting particles is arranged at the rear end of the discharge port along the assembly line.

6. The forming process of the bead blasting ice-cold type mask according to claim 2, wherein the forming process comprises the following steps: the adsorption box is continuously adsorbed on the position of the adsorption hole, and after the bead blasting particles fall off, the adsorption force can quickly fall to the inner layer material by attraction, and the bead blasting particles are quickly adhered and dried.

7. The molding process of the bead-blasting ice-cooling mask according to claim 1, wherein the molding process comprises the following steps: in the second step, explode the pearl granule and apply along sharp interval, in the fourth step, still form the crease indentation when carrying out the hot pressing to the gauze mask body, two crease indentations are extended to the corner of gauze mask body by the location indentation respectively.