CN108743420B - Hydrogen mask apparatus for producing and hydrogen mask produced by the apparatus - Google Patents

Abstract

The invention discloses a hydrogen mask production device and a hydrogen mask produced by the device, which are safe in use and high in efficiency, and the produced hydrogen mask is convenient to carry and use and good in use effect. The hydrogen mask production device comprises a non-woven fabric feeding end for providing upper and lower layers of non-woven fabrics which are overlapped together, a powder blowing device for blowing powder between the two layers of non-woven fabrics and a hot pressing device. The powder blowing device is internally provided with the powder blowing device with the powder blowing port inserted between the two layers of non-woven fabrics, and the air-powder separating device with the air outlet positioned outside the two layers of non-woven fabrics, so that the mask powder can be safely and efficiently adsorbed on the two surfaces of the two layers of non-woven fabrics, which are relatively adjacent, and the adsorbed mask powder is uniform, free mask powder can be effectively removed, and the mask powder is safe and does not pollute the environment. The hydrogen mask produced by the device is of a structure of bonding two layers of non-woven fabrics, mask powder which can generate hydrogen when meeting water is uniformly adsorbed between the two layers of non-woven fabrics, and the device is simple to use and convenient to carry.

Description

Hydrogen mask apparatus for producing and hydrogen mask produced by the apparatus

Technical Field

The invention relates to a mask and a production device thereof, in particular to a hydrogen mask and a production device thereof.

Background

Along with the development of society, the pace of life and the pressure of life of people are increased, and the problems that cells age naturally and skin lacks elasticity are increased gradually along with the age of people, free radicals are intermediate products of normal metabolism of organisms, have extremely strong oxidizing ability, irreversibly damage substances such as nucleic acid, protein, sugar, lipid and the like in the skin once excessive accumulation, increase cell membrane permeability and hardness, change intracellular environment and crosslink and denature collagen, elastin and epidermal growth factor receptor protein in the skin, so that the skin is thinned, wrinkled, elasticity is reduced, cell growth is slowed down, and finally skin problems such as fine lines, pores are large, yellowing, color spots and the like are caused; developing effective antioxidants to scavenge harmful free radicals accumulated on the skin is a powerful means to combat the skin problems described above. The existing method for improving the skin quality by using the mask is to enable moisture to permeate into the surface layer of the skin, so that the skin becomes soft, bright and elastic, for example, the problem of the skin can be better improved by adding an antioxidant into the existing mask component, but the antioxidant is difficult to enter cells in general, and a plurality of antioxidant effects are limited.

In the prior patent application, the oxyhydrogen beautifying health-care mask with the application number 201420630309.4 can be used as a carrier of the maintenance liquid to quickly pass through the second mask body and permeate into the deep layer of human skin in the use process, so that not only can body free radicals be eliminated, but also the maintenance liquid can be fully absorbed, and therefore, the beautifying and maintenance effects are excellent. However, when the mask is used, the mask is supplied with hydrogen through the cooperation of the pipeline and the gas supply source, so that the mask is inconvenient to use and carry in daily life.

In the prior patent application, the application number 201710740832.0 is a production method of the hydrogen-rich oxidation-resistant anti-aging mask, which is to fill the mask liquid after high-pressure hydrogenation, so that the mask liquid contains hydrogen and further has the effect of removing oxidation free radicals on the face. But the packaging cost is high, the hydrogen is easy to leak, the dissolved amount is small, and the effect is not good enough.

Disclosure of Invention

The invention aims to solve the technical problem of providing a hydrogen mask production device and a hydrogen mask produced by the device, wherein the device is safe to use and high in efficiency, and the produced hydrogen mask is convenient to carry and use and good in use effect.

In order to solve the technical problems, the invention adopts the following technical scheme: the hydrogen mask production device comprises a non-woven fabric feeding end for providing upper and lower layers of non-woven fabrics which are overlapped together, a powder blowing device for blowing powder between the two layers of non-woven fabrics and a hot pressing device, wherein the hot pressing device is used for hot-pressing and bonding the two layers of non-woven fabrics blown with the powder together to obtain bonded non-woven fabrics; the powder blowing device comprises a powder blowing chamber for the non-woven fabrics to pass through and a powder blowing device penetrating into the powder blowing chamber for blowing powder; a non-woven fabric inlet for the non-woven fabric to enter is formed in one side surface of the powder blowing chamber, which is close to the non-woven fabric feeding end, and a non-woven fabric outlet for the non-woven fabric from which the powder blowing is completed is formed in one side surface of the powder blowing chamber, which is far away from the non-woven fabric feeding end; the powder blowing device comprises a powder blowing inlet which penetrates into the powder blowing chamber from the outside of the side surface of the powder blowing chamber and is positioned between the upper non-woven fabric and the lower non-woven fabric, a mask powder storage chamber for containing mask powder and a blower for blowing the mask powder in the mask powder storage chamber into the powder blowing chamber through the powder blowing inlet.

The invention further provides a powder blowing device which comprises a gas-powder separating device for collecting the facial mask powder which is not adsorbed on the non-woven fabrics in the powder blowing chamber, wherein the gas-powder separating device comprises an exhaust fan communicated with the powder blowing chamber and a gas-powder separating tower communicated with the exhaust fan, the exhaust fan is communicated with the upper side wall and the lower side wall of the powder blowing chamber, air mixed with the facial mask powder is discharged into the gas-powder separating tower from the powder blowing chamber, and the gas-powder separating tower separates and collects the facial mask powder from the air in a concentrated manner and discharges the air without the facial mask powder.

The gas-powder separation tower is a packed tower.

The powder blowing chamber is integrally sealed, and shielding parts which prevent mask powder from overflowing outside the powder blowing chamber are arranged at the non-woven fabric inlet and the non-woven fabric outlet.

The shielding part is a hairbrush with dense hairs, and the root of the hairbrush is provided with a dust collection opening communicated with the gas-powder separation device.

A closed channel for preventing mask powder from being scattered into the environment is arranged between the non-woven fabric outlet and the hot pressing device for the non-woven fabric to pass through.

The hot press device is a non-woven fabric hot rolling mill adopting a patterned roll, and the heating temperature is 160-200 ℃.

The hydrogen mask production device also comprises a stamping device for stamping the bonded non-woven fabrics into a single mask shape and a packaging device for folding and packaging each mask.

The hydrogen mask is a structure of two layers of non-woven fabrics and hot-pressed together after mask powder is clamped between the two layers of non-woven fabrics.

The mask powder is 1500-2000 meshes.

Compared with the prior art, the hydrogen mask production device comprises the airtight powder blowing device, the powder blowing device is internally provided with the powder blowing device with the powder blowing port inserted between the two layers of non-woven fabrics, and the air-powder separation device with the air outlet positioned at the outer sides of the two layers of non-woven fabrics, so that mask powder can be safely and efficiently adsorbed on two surfaces of the two layers of non-woven fabrics, which are relatively adjacent, the adsorption is uniform, free mask powder can be effectively removed, and the hydrogen mask production device is safe and does not pollute the environment. The hydrogen mask produced by the device is of a structure of bonding two layers of non-woven fabrics, mask powder which can generate hydrogen when meeting water is uniformly adsorbed between the two layers of non-woven fabrics, and the device is simple to use and convenient to carry.

Drawings

Fig. 1 is a schematic structural view of a hydrogen mask production device.

Detailed Description

The following describes the embodiments of the present invention in further detail with reference to the drawings.

The hydrogen mask is a structure of two layers of non-woven fabrics and a structure of hot pressing the two layers of non-woven fabrics after the mask powder is clamped between the two layers of non-woven fabrics, and the mask powder is preferably powder capable of generating hydrogen when meeting water. For example, a powder composition for a mask disclosed in the patent application 201711391568.0, "a hydrogen generating powder for a hydrogen generating water mask" may be used.

The invention relates to a hydrogen mask production device which comprises a non-woven fabric feeding end 1, a powder blowing device 2, a hot pressing device 3, a stamping device and a packaging device. The non-woven fabric feeding end 1 provides a non-woven fabric with an upper layer and a lower layer which are overlapped together, powder blowing is carried out between the two non-woven fabrics when the two non-woven fabrics pass through the powder blowing device 2, then the two non-woven fabrics blown with the powder are bonded together through a hot pressing device 3 by hot pressing, the bonded non-woven fabrics are punched into the shape of a single mask by a punching device, and finally each mask is folded and packaged by a packaging device.

The non-woven fabric feeding end 1 comprises an upper cloth roller 11 and a lower cloth roller 12 which are respectively wound with upper cloth and lower cloth of a facial mask, and the upper cloth and the lower cloth of the facial mask are non-woven fabrics, preferably pure cotton non-woven fabrics. The lower cloth roller 12 is positioned below the upper cloth roller 11, and the non-woven fabrics wound on the lower cloth roller 12 are simultaneously pulled out from the upper cloth roller 11 and the lower cloth roller 12 and put into the powder blowing device 2 in a vertically stacked manner.

The powder blowing device 2 comprises a powder blowing chamber 21, a powder blowing device 22 penetrating into the powder blowing chamber 21 for blowing powder, and a gas-powder separating device 23 for collecting facial mask powder which is not adsorbed on the non-woven fabric in the powder blowing chamber 21.

The powder blowing chamber 21 is provided with a non-woven fabric inlet 211 for non-woven fabrics to enter on one side surface close to the upper cloth roller 11 and the lower cloth roller 12, and a non-woven fabric outlet 212 for non-woven fabrics from which the powder blowing is completed is arranged on one side surface far away from the upper cloth roller 11 and the lower cloth roller 12. The powder blowing chamber 21 is integrally sealed, and shielding members are provided at the nonwoven fabric inlet 211 and the nonwoven fabric outlet 212 so that mask powder does not overflow out of the powder blowing chamber 21. The shielding component can be a hairbrush with dense hair, and a dust collection opening communicated with the gas-powder separation device 23 is preferably arranged at the root part of the hairbrush.

The powder blowing device 22 includes a powder blowing port 221 penetrating into the powder blowing chamber 21 from the outside of the side surface of the powder blowing chamber 21 between the upper and lower nonwoven fabrics, a mask powder storage chamber 222 containing mask powder, and a blower 223 blowing mask powder in the mask powder storage chamber 222 into the powder blowing chamber 21 through the powder blowing port 221. The powder blowing port 221 is just inserted between the upper and lower non-woven fabrics, and after the blower 223 is turned on, the mask powder is blown between the upper and lower non-woven fabrics, so that the mask powder is uniformly adsorbed on the opposite surfaces of the upper and lower non-woven fabrics. The mask powder is ground to 1500-2000 mesh before being loaded into the mask powder storage chamber 222, and may be ground using a ball grinder.

The gas-powder separation device 23 comprises an exhaust fan 231 communicated with the powder blowing chamber 21 and an exhaust fan 231

The communicated gas-powder separation tower 232, the exhaust fan 231 discharges the air mixed with the mask powder into the gas-powder separation tower 232 from the powder blowing chamber 21, the gas-powder separation tower 232 collects and processes the mask powder in a concentrated way, and the air without the mask powder is discharged; the gas-powder separation column 232 may be a packed column as in the prior art. Preferably, the upper and lower exhaust fans 231 are connected to the upper and lower side walls of the powder blowing chamber 21, so that the air flow in the powder blowing chamber 21 is blown in the upper and lower directions from the powder blowing inlet 221, and the mask powder adsorbed on the upper and lower nonwoven fabrics is uniform.

The upper and lower non-woven fabrics enter the hot pressing device 3 for hot pressing after the powder blowing device 2 finishes blowing the mask powder, and the upper and lower non-woven fabrics are bonded together to obtain the bonded non-woven fabrics. The hot press device 3 is a non-woven fabric hot rolling mill, the heating temperature is 160-200 ℃, and a pattern roller is adopted, and the hot press device can be a two-roller or three-roller non-woven fabric hot rolling mill.

A closed channel is arranged between the non-woven fabric outlet 212 and the hot press device 3 for the non-woven fabric to pass through, so that mask powder is prevented from being scattered into the environment.

The non-woven fabrics are fed into a stamping device for stamping after being hot-pressed by a hot-pressing device 3, and are cut into independent hydrogen masks, and the stamping device is a mask cutting machine, and can be a hydraulic plane cutting machine.

The packaging device folds and packages each independent hydrogen mask, and the hydrogen mask which can be sold and used is manufactured after the packaging is completed. The packaging device 5 can adopt a facial mask folding packaging machine, and the production efficiency is 2500-3500 pieces/hour.

The production process of the hydrogen mask production device comprises the following steps:

1. The upper cloth roller 11 and the lower cloth roller 12 of the non-woven cloth feeding end 1 are provided with non-woven cloth rolls, and simultaneously, the two non-woven cloth rolls are pulled out and stacked together to be placed into the powder blowing chamber 21 through the non-woven cloth inlet 211.

2. The upper and lower nonwoven fabrics are respectively positioned above and below the powder blowing inlet 221 in the powder blowing device 2, and then the nonwoven fabric outlet 212 of the self-blowing chamber 21 where the two nonwoven fabrics are laminated is pulled out and bonded by hot pressing by the hot pressing device 3.

3. The bonded nonwoven may be wound into a large, ready-made nonwoven roll using a single roller.

The non-woven fabric is wound into a large prepared non-woven fabric roll after passing through the powder blowing device 2 from the non-woven fabric feeding end1 and the hot pressing device 3, and can be a stage complete process. The stamping forming of the hydrogen mask can be performed at a replaceable time and place, and the prepared non-woven fabric roll can be used for manufacturing. The prepared non-woven fabric roll is convenient to transport, can be transported to a stamping factory to finish the preparation of the single mask, can be separated in site, and saves cost.

4. And (3) pulling out the bonded non-woven fabric on the prepared non-woven fabric roll, and putting the bonded non-woven fabric into a stamping device for cutting.

5. Packaging the cut single mask by using a packaging device to obtain the hydrogen mask.

The application method of the hydrogen mask comprises the following steps: and opening the package, taking out the hydrogen mask, sprinkling some water on the hydrogen mask, and then applying the hydrogen mask on the face for 15-30 minutes.

Claims (2)

1. The utility model provides a hydrogen facial mask apparatus for producing which characterized in that: the hydrogen mask production device comprises a non-woven fabric feeding end (1) for providing two layers of non-woven fabrics which are overlapped together, a powder blowing device (2) for blowing powder between the two layers of non-woven fabrics and a hot pressing device (3), wherein the hot pressing device (3) is used for hot-pressing and bonding the two layers of non-woven fabrics blown with the powder together to obtain bonded non-woven fabrics; the powder blowing device (2) comprises a powder blowing chamber (21) for the non-woven fabric to pass through and a powder blowing device (22) penetrating into the powder blowing chamber (21) for blowing powder;

A non-woven fabric inlet (211) for the non-woven fabric to enter is formed in one side surface of the powder blowing chamber (21) close to the non-woven fabric feeding end (1), and a non-woven fabric outlet (212) for the non-woven fabric to pass out after powder blowing is formed in one side surface of the powder blowing chamber far away from the non-woven fabric feeding end (1);

The powder blowing device (22) comprises a powder blowing inlet (221) which penetrates into the powder blowing chamber (21) from the outside of the side surface of the powder blowing chamber (21) and is positioned between the upper non-woven fabric and the lower non-woven fabric, a mask powder storage chamber (222) for containing mask powder and a blower (223) for blowing the mask powder in the mask powder storage chamber (222) into the powder blowing chamber (21) through the powder blowing inlet (221); the powder blowing device (2) further comprises a gas-powder separating device (23) for collecting the mask powder which is not adsorbed on the non-woven fabric in the powder blowing chamber (21), the gas-powder separating device (23) comprises an exhaust fan (231) communicated with the powder blowing chamber (21) and a gas-powder separating tower (232) communicated with the exhaust fan (231), the exhaust fan (231) is communicated with the upper side wall and the lower side wall of the powder blowing chamber (21), the air mixed with the mask powder is discharged into the gas-powder separating tower (232) from the powder blowing chamber (21), and the gas-powder separating tower (232) separates and collects the mask powder from the air in a concentrated mode and discharges the air which does not contain the mask powder;

the powder blowing chamber (21) is integrally sealed, and shielding parts which prevent mask powder from overflowing out of the powder blowing chamber (21) are arranged at the non-woven fabric inlet (211) and the non-woven fabric outlet (212);

The shielding part is a hairbrush with dense hair, and the root of the hairbrush is provided with a dust collection port communicated with the gas-powder separation device (23);

a closed channel for preventing mask powder from being scattered into the environment is arranged between the non-woven fabric outlet (212) and the hot pressing device (3) so as to allow the non-woven fabric to pass through;

the hot press device (3) is a non-woven fabric hot rolling mill adopting a patterned roll, and the heating temperature is 160-200 ℃;

The hydrogen mask production device also comprises a stamping device for stamping the bonded non-woven fabrics into a single mask shape and a packaging device for folding and packaging each mask.

2. The hydrogen mask production device according to claim 1, wherein: the gas-powder separation tower (232) is a packed tower.