CN112941728A

CN112941728A - Processing technology of natural fibroin mask

Info

Publication number: CN112941728A
Application number: CN202110266786.1A
Authority: CN
Inventors: 汤贝特
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-03-11
Filing date: 2021-03-11
Publication date: 2021-06-11

Abstract

The invention discloses a processing technology of a natural fibroin mask, which comprises the following steps: (1) after the mature silkworms of the mulberry silkworms defecate, putting the mature silkworms on a silking net, and enabling the mature silkworms to evenly spit 5-8 layers of silks on the silking net; (2) after the silking of the matured silkworms is finished, the silks are stripped from the silking net; (3) cutting the peeled silk according to the shape of the mask to obtain mask-shaped silk; (4) placing the facial mask-shaped silk in a device capable of being steamed by water, and steaming the silk for 3-5 minutes by using water vapor; (5) placing the steamed facial mask-shaped silk into a microwave sterilization machine for microwave sterilization for 5-6 minutes; (6) and packaging the sterilized facial mask-shaped silk according to a traditional facial mask packaging process to obtain the pure mulberry silk protein facial mask. According to the silk stirring device, the silk on the first placing roller and the second placing roller is stirred intermittently through the arrangement of the second moving rod, so that steam is prevented from being attached to the outer surfaces of the first placing roller and the second placing roller.

Description

Processing technology of natural fibroin mask

Technical Field

The invention belongs to the technical field of facial mask processing, and particularly relates to a processing technology of a natural fibroin facial mask.

Background

With the improvement of living standard, the mask is changed from luxury consumer goods to essential maintenance of modern people. The silk, as a natural animal protein, has great similarity with human skin, is easier to be absorbed by human bodies compared with other proteins, and plays a role in whitening and moisturizing. In addition, tyrosine, phenylalanine and the like with high content in the silk have good absorption effect on ultraviolet rays, and have the effects of sun protection and skin care. Therefore, silk also becomes a popular mask base material in the mask world.

Researches show that when the silk mask is prepared, silkworm cocoons are used as raw materials, the processing flow is long, silk is easy to damage, and the required natural protein cannot be maintained.

Disclosure of Invention

The invention provides a processing technology of a natural fibroin mask to overcome the defects of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: a processing technology of a natural fibroin mask comprises the following steps:

(1) after the mature silkworms of the mulberry silkworms defecate, putting the mature silkworms on a silking net, and enabling the mature silkworms to evenly spit 5-8 layers of silks on the silking net; (2) after the silking of the mature silkworms is finished, removing dust and sundries on the silk, and peeling the silk from the silking net; (3) cutting the peeled silk according to the shape of the mask to obtain mask-shaped silk; (4) putting the facial mask-shaped silk into a water steaming device, steaming the silk for 3-5 minutes by using water vapor, and seeping silk fibroin onto the surface of the silk, wherein the temperature of the water vapor is kept between 100 ℃ and 105 ℃; (5) placing the steamed facial mask-shaped silk into a microwave sterilization machine for microwave sterilization for 5-6 minutes; (6) packaging the sterilized facial mask-shaped silk according to a traditional facial mask packaging process to obtain a pure mulberry silk protein facial mask;

wherein, the water steaming device (4) comprises a box body, a water tank arranged in the box body, a heating tank arranged under the water tank, a heating pipe arranged in the heating tank, a placing device arranged in the box body and a steam device; the placing device comprises a first placing roller, a plurality of second placing rollers arranged on the left side and the right side of the first placing roller, a first fixed roller arranged in the first placing roller, a second fixed roller arranged in the second placing roller, a first placing groove arranged between the first placing roller and the first fixed roller, a second placing groove arranged between the second placing roller and the second fixed roller, a first rotating groove arranged in the first fixed roller, a second rotating groove arranged in the second fixed roller, a first rotating shaft penetrating through the first fixed roller and the first placing roller, and a second rotating shaft penetrating through the second fixed roller and the second placing roller; a plurality of through holes are formed in the circumferential direction of the first placing roller and the second placing roller, rubber sheets are arranged in the circumferential direction of the through holes, the first rotating shaft and the second rotating shaft are matched through belt transmission, outwards extending convex parts are arranged on the first rotating shaft and the second rotating shaft, shifting devices are arranged in the first fixing roller and the second fixing roller, and a motor for driving the first rotating shaft to rotate is arranged on the box body; place silk on placing the roller, put into water in the basin, the warming mill heats, and the motor starts, and the motor drives first pivot and rotates, and first pivot rotation drives the belt and rotates, and the belt drives the second pivot and rotates, and first pivot and second pivot rotate and drive toggle device and remove.

The shifting device comprises a plurality of moving holes, a moving rod arranged in the moving holes and a first spring used for connecting the moving rod and the moving holes; when first pivot and second pivot rotated, drive the convex part and rotate, rotate and touch with a plurality of carriage release levers intermittent type respectively as the convex part, a plurality of carriage release levers intermittent type nature's outwards movement moves to the through-hole outside.

The silk can be stably steamed by the arrangement of the first placing roller and the second placing roller, when the silk is steamed for a long time, the silk can be attached to the upper surfaces of the first placing roller and the second placing roller, the convex parts can be intermittently contacted with the plurality of moving rods, each moving rod can independently move outwards or inwards, the plurality of moving rods can move in a staggered mode, the moving rods extend into the through holes to move outwards, the silk on the first placing roller and the second placing roller is intermittently shifted, the situation that the steam is attached to the outer surfaces of the first placing roller and the second placing roller to influence the quality of the facial mask is prevented, due to the arrangement of the first spring, when the convex parts are not contacted with the moving rods, the moving rods swing back and forth under the action of the first spring, the moving rods move back and forth inwards or outwards, and forth, so that the silk attached to be more firm can be successfully peeled, the efficiency of silk steam is improved, and the efficiency of facial mask processing has been improved to the intermittent type.

An offset device is arranged between the first placing roller and the second placing roller and comprises an offset groove, a first transmission shaft penetrating through the offset groove, a first gear arranged on the first transmission shaft, a cam sleeved outside the first transmission shaft, an arc plate arranged in the offset groove, a second spring used for connecting the arc plate and the offset groove, a first offset plate arranged at one end of the arc plate and a second offset plate arranged at the other end of the arc plate; the belt is provided with transmission teeth meshed with the first gear; the belt rotates and drives the driving gear to move, the driving gear moves and is meshed with the first gear, the first gear rotates, the first driving gear rotates and drives the first transmission shaft to rotate, the first transmission shaft rotates and drives the cam to rotate, the cam rotates and contacts with the arc of one end earlier, make one end of arc drive first straggle board and carry out the downstream, the other end of arc drives the second straggle board and carries out the upstream movement, when first transmission shaft drives the cam and moves to and contact with the arc of the other end, make arc one end drive first straggle board and carry out the upstream movement, the other end of arc drives the second straggle board and carries out the downstream movement.

Through the setting of first mistake board and second mistake board, can prevent the carriage release lever when the outward movement, the phenomenon of landing takes place for the silk, first mistake board and second mistake board can be placed the first silk of placing between the roller and the second placing roller and support, prevent dropping of silk, because the setting of first mistake board and second mistake board, make the lapping can't contact steam at the silk on first mistake board and the second mistake, in this application file, the crisscross reciprocating of first mistake board and second mistake board, can stir the silk of lapping on first mistake board or second mistake board, the silk is singled up, make the area that the silk can contact steam increase, and the processing efficiency is improved.

The first staggered plate and the second staggered plate are both provided with a supporting device, and the supporting device comprises a first rack, a second rack arranged on one side of the first rack and a supporting rod arranged on the second rack; the first rack is in transmission fit with the second rack through a second gear, and the first rack and the second rack move in opposite directions; when the first staggered plate or the second staggered plate moves, the first rack is driven to move upwards or downwards, the first rack moves to be meshed with the second gear, the second gear rotates to be meshed with the second rack, and the second rack moves to drive the support rod to move.

Through the setting of above-mentioned structure, because first dislocation board and the alternate upwards of second dislocation board or the time of downstream, the distance between first dislocation board and the second dislocation board slowly becomes far away, after the distance grow, in order to guarantee the stability of silk, when first dislocation board and second dislocation board carry out opposite direction motion, the vaulting pole then rebound, prop up the middle part of first dislocation board and second dislocation board, the stability of silk on placer has been guaranteed, the final quality of product of having guaranteed, economic benefits has been improved.

The tidying device comprises a steam plate, a plurality of steam ports formed in the steam plate, a first air injection piece embedded in the steam ports, a plurality of first inclined ports formed in the circumferential direction of the first air injection piece, and a first movable plate arranged in the first inclined ports; steam outwards flows from the steam port, and in steam gathers first gas injection spare, under hot atmospheric pressure's effect, first fly leaf overturns, and steam outwards flows from first slope mouth, and first gas injection spare rotates gas injection.

Through the arrangement of the steam plate, the multi-strand shunt can be carried out on the discharged steam, so that the steam flows out from each steam port, all parts of the silk can receive the steam, secondly, due to the arrangement of the first inclined port, the gas flows out from the first inclined port, the gas is contacted with the first inclined port to drive the first gas injection piece to inject gas in a rotating way, the area of the first gas injection piece which is sprayed out is increased, and the gas injection piece can exhaust gas for 360 degrees, because the first inclined port does not stay at one place for air injection due to rotary air injection, the situation that air is always injected at one place to influence the quality of the silk is prevented, the silk is damaged due to the long time contact with steam, the first air injection piece rotates to inject air, can 360 degrees do not have the steam of needle pertinence, improve the quality that silk steam came out, guarantee that the quality that facial mask product processed out is higher.

The left end and the right end of the steam plate are respectively provided with a lifting device, the lifting devices comprise grooves, second air injection pieces embedded in the grooves, a plurality of second inclined ports formed in the circumferential direction of the second air injection pieces, second movable plates arranged in the second inclined ports, fixed teeth arranged in the circumferential direction of the second air injection pieces, third gears arranged on one sides of the fixed teeth, and screws penetrating through the third gears; the first movable plate and the second movable plate are both movably connected with the first inclined opening and the second inclined opening through torsion springs; steam outwards flows from the steam port, and in steam gathering second gas injection spare, under the effect of hot atmospheric pressure, the second fly leaf overturns, and steam outwards flows from the second slope mouth, and the gas injection spare of second rotates and spouts gas, and the gas injection spare of second rotates and drives fixed tooth and rotate, and fixed tooth and third gear engagement, third gear rotation drive screw rod rotate, and the screw rod rotates and makes the steam board upwards or decurrent removal.

Drive the steam board through the screw rod and carry out ascending or decurrent removal, can dismantle the change to the steam board, more convenient and fast, because the steam board can be dismantled, prevent that the steam board from leading to the steam board to be stained with and attach under long-time steam action, be not convenient for take, rotate with the help of the drive screw rod of the intermittent type of the jet-propelled pivoted power of second, the screw rod rotates and drives the steam board and upwards or decurrent motion, intermittent type nature is stirred the steam board, prevent being stained with of steam board and attach.

The bottom of the fixed teeth is movably connected with the groove through a rotary torsion spring; when the hot air pressure is insufficient, the rotating torsion spring rotates, and the rotating torsion spring rotates to drive the second air injection piece and the fixed teeth to rotate and reset.

Through the setting of rotatory torsional spring, when hot steam is gaseous not enough, the fly leaf carries out the playback under the effect of torsional spring, does not have sufficient steam gathering at this moment in groove, and under the effect of rotatory torsional spring, the jet-propelled piece of second resets, and the jet-propelled intermittent type that resets of second drives the screw rod and carries out reverse rotation for the screw rod resets, has guaranteed the stability that work goes on.

Compared with the prior art, the invention has the following advantages: the first placing roller and the second placing roller are arranged, so that the silk can be stably steamed, when silk is steamed for a long time, the silk can be attached to the upper surfaces of the first placing roller and the second placing roller, the convex parts can be intermittently contacted with the plurality of moving rods, each moving rod carries out independent outward or inward movement, the plurality of moving rods are in staggered movement, the moving rods stretch into the through holes to move outwards, the silk on the first placing roller and the second placing roller is intermittently stirred to prevent steam from attaching to the outer surfaces of the first placing roller and the second placing roller to influence the quality of the facial mask, under the action of the first spring, the movable rod swings back and forth, and the movable rod moves back and forth inwards or outwards, so that silk which is firmly attached is successfully peeled.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a left side view of the present invention.

Fig. 3 is a first cross-sectional perspective view taken along a-a in fig. 2.

Fig. 4 is an enlarged view of a structure shown in fig. 3.

Fig. 5 is an enlarged schematic view of the structure at E in fig. 3.

Fig. 6 is an enlarged view of the structure at F in fig. 3.

Fig. 7 is a second sectional perspective view taken along a-a in fig. 2.

Fig. 8 is an enlarged view of the structure at B in fig. 7.

Fig. 9 is an enlarged view of the structure at C in fig. 7.

Fig. 10 is a front view of the present invention.

Fig. 11 is a cross-sectional perspective view taken along B-B in fig. 10.

Fig. 12 is an enlarged view of the structure at D in fig. 11.

Fig. 13 is a cross-sectional perspective view taken along line C-C in fig. 2.

Fig. 14 is an enlarged view of the structure at G in fig. 13.

Fig. 15 is a partial cross-sectional perspective view taken along D-D in fig. 10.

FIG. 16 is a partial cross-sectional view of a second sprinkler according to the present invention.

Detailed Description

Example 1

A processing technology of a natural fibroin mask comprises the following steps:

(1) after the mature silkworms of the mulberry silkworms defecate, putting the mature silkworms on a silking net, and enabling the mature silkworms to evenly spit 5 layers of silks on the silking net;

(2) after the silking of the matured silkworms is finished, removing dust and sundries on the silks, and peeling the silks from the silking net;

(3) cutting the peeled silk according to the shape of the mask to obtain mask-shaped silk;

(4) placing the facial mask-shaped silk in a water steaming device, steaming the silk for 3 minutes by using water vapor, and seeping silk fibroin onto the surface of the silk, wherein the temperature of the water vapor is kept between 100 ℃;

(5) placing the steamed facial mask-shaped silk into a microwave sterilization machine for microwave sterilization for 5-6 minutes;

(6) packaging the sterilized facial mask-shaped silk according to a traditional facial mask packaging process to obtain a pure mulberry silk protein facial mask;

as shown in fig. 1, wherein (4) the water steaming device comprises a box body 1, a water tank 2, a heating tank 3, a heating pipe 4, a placing device 5 and a steaming device 6; a steam outlet 10 is formed in the top of the box body 1, a communicating pipe 11 is connected to the steam outlet 10, an opening of the communicating pipe 11 is arranged downwards, and the steam flowing outwards flows downwards through the opening, so that workers cannot be scalded; the water tank 2 is arranged in the box body 1; the heating tank 3 is arranged below the water tank 2; the heat exchanger is arranged in the heating pipe 4; the placing device 5 and the steam device 6 are both arranged in the box body 1, and the placing device 5 is arranged at the upper part of the steam device 6.

The placing device 5 comprises a first placing roller 50, a second placing roller 51, a first fixing roller 52, a second fixing roller 53, a first placing groove 54, a second placing groove 55, a first rotating groove 56, a second rotating groove 57, a first rotating shaft 58 and a second rotating shaft 59; the number of the second placing rollers 51 is multiple, the number of the second placing rollers 51 can be arranged according to specific conditions, and the second placing rollers 51 are uniformly arranged on the left side and the right side of the first placing roller 50 at intervals; the first fixed roller 52 is fixedly connected in the first placing roller 50; the second fixed roller 53 is fixedly connected in the second placing roller 51; the first placing groove 54 is provided between the first placing roller 50 and the first fixing roller 52; the second rotating groove 57 is provided between the second placing roller 51 and the second fixing roller 53; the first rotating shaft 58 penetrates through the first fixed roller 52 and the first placing roller 50; the second rotating shaft 59 is arranged in the second fixing roller 53 and the second placing roller 51 in a penetrating manner; first roller 50 and the second of placing all seted up a plurality of through-holes 500 in the circumference of placing roller 51, be equipped with rubber sheet 501 in the circumference in this through-hole 500, first pivot 58 and second pivot 59 pass through belt 502 transmission fit, all are equipped with the convex part 503 of outside extension on this first pivot 58 and the second pivot 59, all be equipped with toggle device 7 in first fixed roll 52 and the second fixed roll 53, be equipped with the first pivot 58 pivoted motor 590 of drive on the box 1, this motor 590 is prior art, and it is no longer repeated here.

Place silk on placing the roller, put into water in the basin 2, the warming mill heats, and motor 590 starts, and motor 590 drives first pivot 58 and rotates, and first pivot 58 rotates and drives belt 502 and rotate, and belt 502 drives second pivot 59 and rotates, and first pivot 58 and second pivot 59 rotate and drive toggle assembly 7 and remove.

The toggle device 7 comprises a moving hole 70, a moving rod 71 and a first spring 72; the number of the moving holes 70 is set to be a plurality, and the number of the moving holes 70 can be arranged according to specific conditions, and in the embodiment, the number of the moving holes 70 is 3, and the moving holes are uniformly arranged at the top of the fixed roller in the circumferential direction at intervals; the number of the moving rods 71 is equal to that of the moving holes 70, and the moving rods 71 are arranged in the moving holes 70 and move outwards or in the box in the moving holes 70; the first spring 72 is used to connect the moving rod 71 and the moving hole 70.

When the first rotating shaft 58 and the second rotating shaft 59 rotate, the protruding portion 503 is driven to rotate, and when the protruding portion 503 rotates to intermittently contact with the plurality of moving rods 71, respectively, the plurality of moving rods 71 intermittently move outward and move to the outside of the through hole 500.

Through the arrangement of the first placing roller 50 and the second placing roller 51, silk can be stably steamed, when the silk is attached to the upper surfaces of the first placing roller 50 and the second placing roller 51 in the long-time steaming process, the convex parts 503 can be intermittently contacted with the plurality of moving rods 71, each moving rod 71 can independently move outwards or inwards, the plurality of moving rods 71 are in staggered movement, the moving rods 71 extend into the through holes 500 to move outwards, the silk on the first placing roller 50 and the second placing roller 51 is intermittently stirred, the steam is prevented from being attached to the outer surfaces of the first placing roller 50 and the second placing roller 51 to influence the quality of the facial mask, due to the arrangement of the first spring 72, when the convex parts 503 are not contacted with the moving rods 71, the moving rods 71 shake back and forth under the action of the first spring 72, the moving rods 71 move back and forth inwards or outwards, the silk attached firmly is successfully peeled, the silk steam efficiency is improved, and the facial mask processing efficiency is intermittently improved.

An offset device 8 is arranged between the first placing roller 50 and the second placing roller 51, and the offset device 8 comprises an offset groove 80, a first transmission shaft 81, a first gear 82, a cam 83, an arc-shaped plate 84, a second spring 85, a first offset plate 86 and a second offset plate 87; the first transmission shaft 81 is arranged in the dislocation groove 80 in a penetrating way; the first gear 82 is fixedly connected to the first transmission shaft 81; the cam 83 is sleeved outside the first transmission shaft 81; the arc-shaped plate 84 is arranged in the staggered groove 80 and moves upwards or downwards in the staggered groove 80; the number of the second springs 85 is 2, and the 2 second springs 85 are respectively used for connecting the arc-shaped plate 84 and the staggered groove 80; the first dropping plate 86 is fixedly connected to one end of the arc-shaped plate 84; the second dropping plate 87 is fixedly connected to the other end of the arc-shaped plate 84; the belt 502 is provided with drive teeth 88 which are engaged with the first gear 82.

The belt 502 rotates and drives the driving gear 88 to move, the driving gear 88 moves and meshes with the first gear 82 mutually, the first gear 82 rotates, first transmission rotates and drives the first transmission shaft 81 to rotate, first transmission shaft 81 rotates and drives the cam 83 to rotate, the cam 83 rotates and contacts with the arc 84 of one end earlier, make the one end of arc 84 drive first dislocation board 86 and carry out the downstream, the other end of arc 84 drives the second dislocation board 87 and carries out the upstream, when first transmission shaft 81 drives the cam 83 and moves to contact with the arc 84 of the other end, make arc 84 one end drive first dislocation board 86 and carry out the upstream, the other end of arc 84 drives the second dislocation board 87 and carries out the downstream.

Through the setting of first mistake board 86 and second mistake board 87, can prevent that carriage release lever 71 when the outward movement, the phenomenon of landing takes place for the silk, first mistake board 86 and second mistake board 87 can be to first putting the silk of placing between roller 51 and the second and supporting, prevent dropping of silk, because the setting of first mistake board 86 and second mistake board 87, make the unable steam of contacting of silk of overlap joint on first mistake board 86 and second mistake board 87, in this application document, the crisscross reciprocating of first mistake board 86 and second mistake board 87, can stir the silk of overlap joint on first mistake board 86 or second mistake board 87, the silk is singled up, make the area that the silk can contact steam increase, and the processing efficiency is improved.

The first and second staggered

plates

86 and 87 are provided with a supporting device 9, and the supporting device 9 comprises a first rack 90, a second rack 91 and a supporting rod 92; the second rack 91 is arranged on one side of the first rack 90, and a limit groove for the second rack 91 to move upwards or downwards is arranged on the box body 1; the stay bar 92 is fixedly connected to the second rack 91; the first rack 90 is in transmission fit with the second rack 91 through a second gear 93, and the first rack 90 and the second rack 91 move in opposite directions.

When the first dropping plate 86 or the second dropping plate 87 moves, the first rack 90 is driven to move upwards or downwards, the first rack 90 moves to be meshed with the second gear 93, the second gear 93 rotates to be meshed with the second rack 91, and the second rack 91 moves to drive the support rod 92 to move.

Through the setting of above-mentioned structure, because first dislocation board 86 and the alternate upwards or the downstream of second dislocation board 87, the distance between first dislocation board 86 and the second dislocation board 87 slowly becomes far away, after the distance grow, in order to guarantee the stability of silk, when first dislocation board 86 and second dislocation board 87 carry out opposite direction motion, vaulting pole 92 then rebound, prop up the middle part of first dislocation board 86 and second dislocation board 87, the stability of silk on placer 5 has been guaranteed, the quality of product has finally been guaranteed, economic benefits has been improved.

The steam device 6 comprises a steam plate 60, a steam port 61, a first air injection part 62, a first inclined port 63 and a first movable plate 64; the four corners of the steam plate 60 are penetrated through the guide rods 800; the number of the steam ports 61 is multiple, and the steam ports are uniformly arranged on the steam plate 60 at intervals; the first air injection piece 62 is embedded on the steam port 61, and the first air injection piece 62 rotates in the steam port 61; the number of the first inclined ports 63 is multiple, and the number of the first inclined ports 63 can be arranged according to specific situations, and the first inclined ports 63 are arranged on the circumferential direction of the first air injection piece 62 at uniform intervals; the first flap 64 is disposed in the first inclined opening 63, and the first flap 64 can be flipped in the first inclined opening 63.

The steam flows out from the steam port 61, the steam is gathered in the first air injection part 62, the first movable plate 64 is overturned under the action of hot air pressure, the steam flows out from the first inclined port 63, and the first air injection part 62 rotates to inject the air.

Through the arrangement of the steam plate 60, the discharged steam can be divided into a plurality of strands, so that the steam flows out from each steam port 61, all parts of the silk can receive the steam, secondly, due to the arrangement of the first inclined port 63, the gas flows out from the first inclined port 63, the gas contacts with the first inclined port 63 to drive the first gas injection piece 62 to perform rotary gas injection, the area of the first gas injection piece 62 which is sprayed out is increased, and the gas injection piece is enabled to perform gas outlet for 360 degrees, because the first inclined port 63 does not stay at one place for air injection due to rotary air injection, the situation that air is always injected at one place to influence the quality of the silk is prevented, so that the silk is exposed to the steam for a long time, resulting in damage of the silk, the air jetted by the rotation of the first air jetting member 62, can 360 degrees do not have the steam of needle pertinence, improve the quality that silk steam came out, guarantee that the quality that facial mask product processed out is higher.

The left end and the right end of the steam plate 60 are respectively provided with a lifting device 65, and each lifting device 65 comprises a groove 650, a second air injection piece 651, a second inclined port 652, a second movable plate 653, a fixed tooth 654, a third gear 655 and a screw 656; the second air injection piece 651 is embedded in the groove 650 and rotates in the groove 650; the number of the second inclined ports 652 is multiple, and the second inclined ports are uniformly arranged in the circumferential direction of the second air injection piece 651 at intervals; the second movable plate 653 is disposed in the second inclined opening 652 and is turned over in the second inclined opening 652; the fixing teeth 654 are fixedly connected to the circumference of the second air injection member 651; the third gear 655 is arranged on one side of the fixing teeth 654 and is meshed with the fixing teeth 654; the screw 656 is fixedly connected in the third gear 655, and the steam plate 60 is internally provided with an internal thread matched with the screw 656; the first movable plate 64 and the second movable plate 653 are both movably connected to the first inclined opening 63 and then the second inclined opening 652 through a torsion spring 657.

The steam flows out from the steam port 61, the steam is gathered in the second air injection part 651, under the action of hot air pressure, the second movable plate 653 overturns, the steam flows out from the second inclined port 652, the second air injection part 651 rotates to inject air, the second air injection part 651 rotates to drive the fixing teeth 654 to rotate, the fixing teeth 654 are meshed with the third gear 655, the third gear 655 rotates to drive the screw 656 to rotate, and the screw 656 rotates to enable the steam plate 60 to move upwards or downwards.

Drive steam board 60 through screw 656 and go on upwards or decurrent removal, can dismantle the change to steam board 60, more convenient and fast, because steam board 60 can be dismantled, prevent steam board 60 under long-time steam action, lead to steam board 60 to be stained with and attach, be not convenient for take, rotate with the help of second gas spray piece 651 pivoted power intermittent type drive screw 656, screw 656 rotates and drives steam board 60 and carry out upwards or decurrent motion, intermittent type nature stirs steam board 60, prevent being stained with of steam board 60 and attach.

The bottom of the fixing teeth 654 is movably connected with the groove 650 through a rotary torsion spring 658; when the hot air pressure is insufficient, the rotating torsion spring 658 rotates, and the rotating torsion spring 658 rotates to drive the second air injection member 651 and the fixing teeth 654 to rotate and reset. Through the setting of rotatory torsional spring 658, when hot steam is gaseous not enough, the fly leaf carries out the playback under the effect of torsional spring 657, does not have enough steam gathering at this moment in recess 650 department, and under the effect of rotatory torsional spring 658, second gas injection spare 651 resets, and second gas injection spare 651 resets the intermittent type and drives screw 656 and carry out reverse rotation for screw 656 resets, has guaranteed the stability that work goes on.

Example 2

(1) after the mature silkworms of the mulberry silkworms defecate, putting the mature silkworms on a silking net, and enabling the mature silkworms to evenly spit 7 layers of silks on the silking net; (2) after the silking of the mature silkworms is finished, removing dust and sundries on the silk, and peeling the silk from the silking net; (3) cutting the peeled silk according to the shape of the mask to obtain mask-shaped silk; (4) putting the facial mask-shaped silk into a water steaming device, steaming the silk for 4 minutes by using water vapor, and seeping silk fibroin onto the surface of the silk, wherein the temperature of the water vapor is kept between 102 ℃; (5) placing the steamed facial mask-shaped silk into a microwave sterilization machine for microwave sterilization for 5.5 minutes; and (6) packaging the sterilized facial mask-shaped silk according to a traditional facial mask packaging process to obtain the pure mulberry silk protein facial mask.

Example 3

(1) after the mature silkworms of the mulberry silkworms defecate, putting the mature silkworms on a silking net, and enabling the mature silkworms to evenly spit 8 layers of silks on the silking net; (2) after the silking of the mature silkworms is finished, removing dust and sundries on the silk, and peeling the silk from the silking net; (3) cutting the peeled silk according to the shape of the mask to obtain mask-shaped silk; (4) putting the facial mask-shaped silk into a water steaming device, steaming the silk for 5 minutes by using water vapor, and seeping silk fibroin onto the surface of the silk, wherein the temperature of the water vapor is kept between 105 ℃; (5) placing the steamed facial mask-shaped silk into a microwave sterilization machine for microwave sterilization for 6 minutes; and (6) packaging the sterilized facial mask-shaped silk according to a traditional facial mask packaging process to obtain the pure mulberry silk protein facial mask.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. A processing technology of a natural fibroin mask is characterized by comprising the following steps: the method comprises the following steps:

(1) after the mature silkworms of the mulberry silkworms defecate, putting the mature silkworms on a silking net, and enabling the mature silkworms to evenly spit 5-8 layers of silks on the silking net;

(4) placing the facial mask-shaped silk in a water steaming device, steaming the silk for 3-5 minutes by using water vapor, and seeping silk fibroin onto the surface of the silk, wherein the temperature of the water vapor is kept between 100 ℃ and 105 ℃;

wherein the water steaming device (4) comprises a box body (1), a water tank (2) arranged in the box body (1), a heating tank (3) arranged below the water tank (2), a heating pipe (4) arranged in the heating tank (3), a placing device (5) arranged in the box body (1) and a steam device (6); the placing device (5) comprises a first placing roller (50), a plurality of second placing rollers (51) arranged on the left side and the right side of the first placing roller (50), a first fixed roller (52) arranged in the first placing roller (50), a second fixed roller (53) arranged in the second placing roller (51), a first placing groove (54) arranged between the first placing roller (50) and the first fixed roller (52), a second placing groove (55) arranged between the second placing roller (51) and the second fixed roller (53), a first rotating groove (56) arranged in the first fixed roller (52), a second rotating groove (57) arranged in the second fixed roller (53), a first rotating shaft (58) arranged in the first fixed roller (52) and the first placing roller (50) in a penetrating manner, and a second rotating shaft (59) arranged in the second fixed roller (53) and the second placing roller (51) in a penetrating manner; the first placing roller (50) and the second placing roller (51) are circumferentially provided with a plurality of through holes (500), rubber sheets (501) are circumferentially arranged in the through holes (500), the first rotating shaft (58) and the second rotating shaft (59) are in transmission fit through a belt (502), the first rotating shaft (58) and the second rotating shaft (59) are respectively provided with a convex part (503) extending outwards, the first fixing roller (52) and the second fixing roller (53) are respectively provided with a shifting device (7), and the box body (1) is provided with a motor (590) for driving the first rotating shaft (58) to rotate; place silk on first roller (50) and the second roller (51) of placing, put into water in basin (2), the warming mill heats, motor (590) start, motor (590) drive first pivot (58) and rotate, first pivot (58) are rotated and are driven belt (502) and rotate, belt (502) drive second pivot (59) and rotate, first pivot (58) and second pivot (59) are rotated and are driven toggle device (7) and remove.

2. The processing technology of the natural fibroin facial mask as claimed in claim 1, wherein the toggle device (7) comprises a plurality of moving holes (70), a moving rod (71) arranged in the moving holes (70), and a first spring (72) for connecting the moving rod (71) and the moving holes (70); when the first rotating shaft (58) and the second rotating shaft (59) rotate, the convex part (503) is driven to rotate, and when the convex part (503) rotates and is respectively contacted with the plurality of moving rods (71) intermittently, the plurality of moving rods (71) intermittently move outwards and move to the outside of the through hole (500).

3. The processing technology of the natural fibroin mask as claimed in claim 1, is characterized in that: an offset device (8) is arranged between the first placing roller (50) and the second placing roller (51), and the offset device (8) comprises an offset groove (80), a first transmission shaft (81) penetrating through the offset groove (80), a first gear (82) arranged on the first transmission shaft (81), a cam (83) sleeved outside the first transmission shaft (81), an arc-shaped plate (84) arranged in the offset groove (80), a second spring (85) used for connecting the arc-shaped plate (84) and the offset groove (80), a first offset plate (86) arranged at one end of the arc-shaped plate (84), and a second offset plate (87) arranged at the other end of the arc-shaped plate (84); the belt (502) is provided with a transmission gear (88) meshed with the first gear (82); the belt (502) rotates to drive the transmission gear (88) to move, the transmission gear (88) moves to be meshed with the first gear (82), the first gear (82) rotates, the first transmission shaft (81) is driven to rotate by the first transmission rotation, the first transmission shaft (81) rotates to drive the cam (83) to rotate, the cam (83) rotates to be firstly contacted with the arc-shaped plate (84) at one end, so that one end of the arc-shaped plate (84) drives the first dislocation plate (86) to move downwards, the other end of the arc-shaped plate (84) drives the second dislocation plate (87) to move upwards, when the first transmission shaft (81) drives the cam (83) to move to be contacted with the arc-shaped plate (84) at the other end, so that one end of the arc-shaped plate (84) drives the first dislocation plate (86) to move upwards, and the other end of the arc-shaped plate (84) drives the second dislocation plate (87) to move downwards.

4. The processing technology of the natural fibroin mask as claimed in claim 3, is characterized in that: the first staggered plate (86) and the second staggered plate (87) are both provided with a supporting device (9), and the supporting device (9) comprises a first rack (90), a second rack (91) arranged on one side of the first rack (90) and a supporting rod (92) arranged on the second rack (91); the first rack (90) is in transmission fit with the second rack (91) through a second gear (93), and the first rack (90) and the second rack (91) move in opposite directions; when the first dislocation plate (86) or the second dislocation plate (87) moves, the first rack (90) is driven to move upwards or downwards, the first rack (90) moves to be meshed with the second gear (93), the second gear (93) rotates to be meshed with the second rack (91), and the second rack (91) moves to drive the support rod (92) to move.

5. The processing technology of the natural fibroin mask as claimed in claim 1, is characterized in that: the steam device (6) comprises a steam plate (60), a plurality of steam ports (61) arranged on the steam plate (60), a first air injection piece (62) embedded on the steam ports (61), a plurality of first inclined ports (63) arranged on the circumferential direction of the first air injection piece (62), and a first movable plate (64) arranged in the first inclined ports (63); the steam flows out from the steam port (61), the steam is gathered in the first air injection piece (62), the first movable plate (64) overturns under the action of hot air pressure, the steam flows out from the first inclined port (63), and the first air injection piece (62) rotates to inject the air.

6. The processing technology of the natural fibroin mask as claimed in claim 5, is characterized in that: the left end and the right end of the steam plate (60) are respectively provided with a lifting device (65), each lifting device (65) comprises a groove (650), a second air injection piece (651) embedded in the groove (650), a plurality of second inclined ports (652) formed in the circumferential direction of the second air injection piece (651), a second movable plate (653) arranged in the second inclined ports (652), fixing teeth (654) formed in the circumferential direction of the second air injection piece (651), a third gear (655) arranged on one side of the fixing teeth (654), and a screw (656) penetrating through the third gear (655); the first movable plate (64) and the second movable plate (653) are movably connected with the first inclined port (63) and then the second inclined port (652) through a torsion spring (657); the steam flows out from the steam port (61), the steam is gathered in the second air injection piece (651), under the action of hot air pressure, the second movable plate (653) overturns, the steam flows out from the second inclined port (652), the second air injection piece (651) rotates to inject air, the second air injection piece (651) rotates to drive the fixed teeth (654) to rotate, the fixed teeth (654) are meshed with the third gear (655), the third gear (655) rotates to drive the screw rod (656) to rotate, and the screw rod (656) rotates to enable the steam plate (60) to move upwards or downwards.

7. The processing technology of the natural fibroin mask as claimed in claim 1, wherein the bottom of the fixing teeth (654) is movably connected with the groove (650) through a rotary torsion spring (658); when the hot air pressure is insufficient, the rotating torsion spring (658) rotates, and the rotating torsion spring (658) rotates to drive the second air injection piece (651) and the fixed teeth (654) to rotate again.