CN111111521B

CN111111521B - Mask machine, method for manufacturing mask by using mask machine and manufactured mask

Info

Publication number: CN111111521B
Application number: CN201911219319.2A
Authority: CN
Inventors: 张楠
Original assignee: Shanghai Lunying Biotechnology Co ltd
Current assignee: Shanghai Lunying Biotechnology Co ltd
Priority date: 2019-12-03
Filing date: 2019-12-03
Publication date: 2021-11-19
Anticipated expiration: 2039-12-03
Also published as: CN111111521A

Abstract

The present invention is a facial mask machine, a method for making facial masks using the same, and the facial mask prepared. The raw materials in the facial mask include, by weight, 20 parts of glycolic acid, 15 parts of vitamin C, 15 parts of vitamin E, 12 parts of sodium hyaluronate, and 12 parts of aloe vera. 9 parts liquid, 8 parts pearl powder and 76 parts water. The method is as follows: 1. Put the raw materials for processing the facial mask into the batching barrels respectively, and close the control valve on the feeding pipe; The raw materials in the barrel are pumped into the suction barrel, and then pressed back to the batching barrel to make the raw materials reciprocate and mix. At this time, the control valve of the curved feeding pipe is opened, and the control valve of the filling pipe is closed; 3. For the batching barrel After the raw materials in the ingredients are fully stirred and mixed, the mask is obtained; 4. Control the two suction devices to cooperate with the two suction cylinders to press the raw materials in the batching cylinder into the filling bottle to obtain the bottled mask.

Description

Mask machine, method for manufacturing mask by using mask machine and manufactured mask

Technical Field

The invention relates to the field of mask production, in particular to a mask machine, a method for manufacturing a mask by using the mask machine and the manufactured mask.

Background

With the development of science and technology, the industrial level of China is generally improved, and a series of environmental problems caused by the improvement are more and more acute. The fine dust in the air can seriously block pores on the face of people, so that the skin quality of people is increasingly poor.

The progress of technology has brought economic development, people pay more attention to the quality of life, and more people have consciousness of skin care, and the facial mask is the most common facial care product, and generally speaking, the facial mask is made of relatively thin non-woven fabric and absorbs a certain amount of nutrient solution. When the facial mask is adsorbed on the facial skin, the skin can absorb nutrient solution on the facial mask paper, so that the skin is moistened and maintained. The mask machine among the prior art can't mix the stirring to make the mask after to it carry out the filling processing, needs many sets of equipment cooperation, and efficiency is lower.

Disclosure of Invention

In view of the above, the invention provides a mask machine, a method for manufacturing a mask by using the same and a manufactured mask, so as to solve the problems in the prior art; the mask machine can fully mix various raw materials for processing the mask, can be filled after being mixed and processed into the mask, and only adopts one motor to control the interior of the mask machine, thereby saving energy and reducing consumption.

In order to achieve the above object, the following solutions are proposed:

a mask machine comprises a proportioning barrel, a detachable cover, a stand column, a base, a bent conveying pipe, a pumping and pressing barrel, a driving device, a stirring device, a pumping and pressing device, a first linkage device and a second linkage device, wherein the detachable cover is fixedly connected to the upper end of the proportioning barrel in a sealing manner; the detachable cover is provided with two feeding pipes with control valves; the lower end of the batching cylinder is fixed on the base through a plurality of upright posts; the bottom end of the proportioning barrel is fixedly connected and communicated with the two pumping and pressing charging barrels through two bent conveying pipes with control valves, and the two pumping and pressing charging barrels are symmetrically arranged at two ends of the proportioning barrel; the driving device is fixedly connected to the detachable cover; the driving device is in transmission connection with the upper end of the stirring device, the middle part of the stirring device is in sealed rotary connection with the detachable cover, the lower part of the stirring device is in rotary fit in the batching cylinder, and the bottom end of the stirring device is in sealed rotary fit in the cleaning pipe of the batching cylinder; the two pumping and pressing material barrels are respectively matched with a pumping and pressing device in a sealing and sliding manner; the driving device is in transmission connection with the first linkage device; the first linkage device is in transmission connection with the second linkage device and the two pressure pumping devices; the second linkage device is in transmission connection with the stirring device; the lower end of the pumping and pressing material cylinder is fixedly connected and communicated with a filling pipe with a control valve; the lower end of the filling pipe is connected with a filling head.

The driving device comprises a servo motor, a driving belt wheel, a driven belt wheel, a worm and an L-shaped vertical frame; the servo motor is fixed on the detachable cover; a driving belt wheel is fixedly connected to an output shaft of the servo motor; the driving belt wheel is connected with a driven belt wheel through a synchronous belt in a transmission way; the driven belt wheel is fixed on the worm; the worm is rotatably connected to a transverse frame plate of the L-shaped vertical frame through a bearing with a seat, and a vertical frame plate of the L-shaped vertical frame is fixed on the detachable cover; a central through hole is formed in the middle of the worm, and two convex edges are respectively arranged at two ends of the inner side of the central through hole; the worm is in transmission connection with the stirring device and the first linkage device.

The stirring device comprises a rotating shaft, a rotating seat, a stirring shaft and a cambered surface scraper; the upper end of the rotating shaft is provided with two sliding chutes in sliding fit with the convex edges; the rotating shaft is in sliding fit in the central through hole of the worm; the upper part of the rotating shaft is hermetically and rotationally matched on the detachable cover; the top end of the rotating shaft is rotatably connected to the second linkage device; the middle part of the rotating shaft is fixedly connected with an upper rotating seat and a lower rotating seat; a plurality of stirring shafts are uniformly arranged on the outer side surfaces of the plurality of rotating seats; the outer ends of the stirring shafts are respectively fixed with a cambered surface scraper which is in sliding fit with the inner wall of the proportioning barrel; the lower end of the rotating shaft is in sealed running fit with the cleaning pipe of the dosing barrel.

Two sides of the shaft body at the lower end of the stirring shaft are respectively provided with a liquid discharge port, and the two liquid discharge ports are communicated with a liquid discharge channel in the middle of the bottom end of the stirring shaft; the inner side of the liquid discharge channel is in running fit with and connected with a plugging screw rod, the top end of the plugging screw rod is fixedly connected with a sealing plugging column, the sealing plugging column is blocked at the inner sides of the two liquid discharge ports, the bottom end of the plugging screw rod is fixedly connected with a screwing disc, and the screwing disc is positioned at the lower end of the cleaning pipe of the mixing barrel.

The first linkage device comprises a worm gear, a linkage shaft, a shaft bracket and a linkage gear; the worm wheel is fixed in the middle of the linkage shaft, the linkage shaft is rotationally connected to the two shaft brackets, and the two shaft brackets are fixed on the detachable cover; two ends of the linkage shaft are respectively fixed with a linkage gear, and the two linkage gears are in transmission connection with the second linkage device and the two pressure pumping devices.

The linkage gear comprises a fixed half gear, a detachable half gear provided with a clamping groove matched with the fixed half gear, an eccentric shaft, a first fixing plate and a second fixing plate; the fixed half gear is fixed on the linkage shaft; the detachable half gear is connected with the fixed half gear in a clamping manner; the outer side surface of the fixed half gear is fixedly connected with an eccentric shaft; the eccentric shaft is in transmission connection with the second linkage device; the fixed half gear and the detachable half gear are in meshed transmission connection with the pressure pumping device; two ends of the inner side surface of the fixed half gear are respectively provided with a first fixed plate; two ends of the inner side surface of the detachable half gear are respectively provided with a second fixing plate; two sets of first fixed plates and second fixed plates which are arranged oppositely are connected through bolts and nuts.

The pumping device comprises a rack and a pumping disc; the upper end of the rack is in meshed transmission connection with the detachable half gear and the fixed half gear; the middle part of the rack is in sliding fit with the top end of the pumping and pressing charging barrel; the lower end of the rack is fixedly connected with a pumping disc which is in sealing sliding fit in the pumping cylinder.

The second linkage device comprises a push-pull connecting rod and a T-shaped lifting plate; the top end of the rotating shaft is connected with the middle part of the T-shaped lifting plate in a rotating fit manner; two ends of the T-shaped lifting plate are respectively and rotatably connected with one end of one push-pull connecting rod, and the other ends of the two push-pull connecting rods are rotatably connected with the two eccentric shafts on the two linkage gears.

The method for manufacturing the mask by the mask machine comprises the following steps:

firstly, raw materials for processing the facial mask are respectively loaded into a batching barrel through a feeding pipe on a detachable cover, then a control valve on the feeding pipe is closed, and a driving device is powered on and started;

step two, the driving device drives the stirring device to stir and mix the raw materials, and simultaneously drives the first linkage device to work in a transmission way, and the first linkage device drives the two pumping devices to work; the two pumping and pressing devices pump the raw materials in the proportioning barrel into the pumping and pressing material barrel through matching with the two pumping and pressing material barrels and then press the raw materials back to the proportioning barrel, so that the raw materials are mixed in a reciprocating motion manner, a control valve of the bending conveying pipe is opened at the moment, and a control valve of the filling pipe is closed;

step three, the first linkage device can drive the second linkage device to work in a transmission mode when working, the stirring device is driven by the second linkage device to reciprocate up and down, and the raw materials in the batching cylinder are fully stirred and mixed to obtain the facial mask;

step four, through two pressure devices and two take out the raw materials suction in the pressure feed cylinder to take out in the pressure feed cylinder of cooperation of taking out the pressure feed cylinder, then close the control flap of two crooked conveying pipelines, open the control flap of filling tube, dispose filling bottle and filling bottle conveyer belt at the lower extreme of filling tube, control two pressure devices and two take out the pressure feed cylinder cooperation with the raw materials in the pressure feed cylinder impress to the filling bottle can, obtain bottled facial mask.

The raw materials of the mask comprise, by weight, 20 parts of glycolic acid, 15 parts of vitamin C, 15 parts of vitamin E, 12 parts of sodium hyaluronate, 9 parts of aloe liquid, 8 parts of pearl powder and 76 parts of water.

The invention has the beneficial effects that: according to the mask machine, the method for manufacturing the mask by using the mask machine and the manufactured mask, various raw materials for processing the mask can be fully mixed, the mask can be filled after the raw materials are mixed and processed into the mask, and the interior of the mask is controlled by only one motor, so that energy is saved and consumption is reduced; the inside agitating unit that can carry out the up-and-down motion stirring that is equipped with improves the homogeneity to the raw materials stirring in the facial mask course of working.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is a schematic cross-sectional structural view of the present invention;

FIG. 4 is a schematic view of the dispensing cartridge of the present invention;

FIG. 5 is a schematic structural view of the removable cover of the present invention;

FIG. 6 is a first schematic view of the pressure extraction cartridge of the present invention;

FIG. 7 is a second schematic structural view of the driving device of the present invention;

FIG. 8 is a first schematic structural view of a stirring device of the present invention;

FIG. 9 is a second schematic structural view of the stirring device of the present invention;

FIG. 10 is a schematic view of the construction of the pumping device of the present invention;

FIG. 11 is a schematic structural view of a first linkage of the present invention;

FIG. 12 is a first schematic view of the linkage gear of the present invention;

FIG. 13 is a second schematic structural view of the linking gear of the present invention;

fig. 14 is a schematic view of a second linkage of the present invention.

In the figure: a dosing cylinder 1; a detachable cover 2; a feeding pipe 2-1; a column 3; a base 4; bending the conveying pipe 5; the charging barrel 6 is pumped and pressed; 6-1 parts of filling pipes; a drive device 7; a servo motor 7-1; a driving pulley 7-2; a driven pulley 7-3; 7-4 parts of worm; 7-5 of an L-shaped vertical frame; a stirring device 8; a rotating shaft 8-1; 8-2 of a rotating seat; 8-3 of a stirring shaft; 8-4 parts of cambered surface scraper; 8-5 parts of a plugging screw rod; 8-6 parts of a sealing plugging column; 8-7 of a screwing disc; a pressure extraction device 9; a rack 9-1; a drawing disc 9-2; a first linkage 10; a worm gear 10-1; a linkage shaft 10-2; 10-3 of a shaft bracket; 10-4 of a linkage gear; a fixed half gear 10-4 a; detachable half-gear 10-4 b; an eccentric shaft 10-4 c; a first fixing plate 10-4 d; a second fixing plate 10-4 e; a second linkage 11; a push-pull connecting rod 11-1; t-shaped lifting plate 11-2.

Detailed Description

The technical solution of the present invention will be clearly and completely described by the following detailed description. It is to be understood that the specific embodiments described are merely illustrative of some, but not all, embodiments of the invention. All other embodiments that can be derived by a person skilled in the art from the detailed description of the invention without inventive step fall within the scope of protection of the invention.

The first embodiment is as follows:

as shown in fig. 1-14, a mask machine comprises a dosing cylinder 1, a detachable cover 2, a column 3, a base 4, a bending material conveying pipe 5, a pumping and pressing cylinder 6, a driving device 7, a stirring device 8, a pumping and pressing device 9, a first linkage device 10 and a second linkage device 11, wherein the upper end of the dosing cylinder 1 is fixedly connected with the detachable cover 2 in a sealing manner; two feeding pipes 2-1 with control valves are arranged on the detachable cover 2; the lower end of the batching cylinder 1 is fixed on a base 4 through a plurality of upright posts 3; the bottom end of the proportioning barrel 1 is fixedly connected and communicated with two pumping and pressing charging barrels 6 through two bent conveying pipes 5 with control valves, and the two pumping and pressing charging barrels 6 are symmetrically arranged at two ends of the proportioning barrel 1; the driving device 7 is fixedly connected to the detachable cover 2; the driving device 7 is in transmission connection with the upper end of the stirring device 8, the middle part of the stirring device 8 is in sealed rotary connection with the detachable cover 2, the lower part of the stirring device 8 is in rotary fit in the batching cylinder 1, and the bottom end of the stirring device 8 is in sealed rotary fit in the cleaning pipe of the batching cylinder 1; the two pumping and pressing material cylinders 6 are respectively matched with a pumping and pressing device 9 in a sealing and sliding manner; the driving device 7 is in transmission connection with a first linkage device 10; the first linkage device 10 is in transmission connection with the second linkage device 11 and the two pressure pumping devices 9; the second linkage device 11 is in transmission connection with the stirring device 8; the lower end of the pumping and pressing charging barrel 6 is fixedly connected and communicated with a filling pipe 6-1 with a control valve; the lower end of the filling pipe 6-1 is connected with a filling head. When the mask machine is used for manufacturing masks, raw materials for processing the masks are respectively loaded into the batching cylinder 1 through the feeding pipe 2-1 on the detachable cover 2, then the control valve on the feeding pipe 2-1 is closed, and the driving device 7 is powered on and started; when the driving device 7 drives the stirring device 8 to stir and mix the raw materials, the driving device 7 drives the first linkage device 10 to work, and the first linkage device 10 drives the two pumping devices 9 to work; the two pumping devices 9 are matched with the two pumping charging barrels 6 to pump the raw materials in the mixing barrel 1 into the pumping charging barrel 6 and then press the raw materials back to the mixing barrel 1, so that the raw materials are mixed in a reciprocating manner, at the moment, a control valve of the bent conveying pipe 5 is opened, and a control valve of the filling pipe 6-1 is closed; when the first linkage device 10 works, the second linkage device 11 can be driven to work in a transmission way, the stirring device 8 is driven to do reciprocating motion in the vertical direction through the second linkage device 11, and the raw materials in the batching cylinder 1 are fully stirred and mixed to obtain the facial mask; through two pump-compression devices 9 and two pump-compression device 6's cooperation will prepare burden a raw materials suction in 1 section of thick bamboo to pump-compression device 6 in, then close two crooked conveying pipeline 5's control flap, open filling pipe 6-1's control flap, dispose filling bottle and filling bottle conveyer belt at filling pipe 6-1's lower extreme, control two pump-compression devices 9 and two pump-compression device 6 cooperation will prepare burden a raw materials in 1 section of thick bamboo and impress to the filling bottle can, obtain bottled facial mask.

The second embodiment is as follows:

as shown in fig. 1-14, the driving device 7 comprises a servo motor 7-1, a driving belt wheel 7-2, a driven belt wheel 7-3, a worm 7-4 and an L-shaped stand 7-5; the servo motor 7-1 is fixed on the detachable cover 2; the output shaft of the servo motor 7-1 is fixedly connected with a driving belt wheel 7-2; the driving belt wheel 7-2 is connected with the driven belt wheel 7-3 through a synchronous belt; the driven belt wheel 7-3 is fixed on the worm 7-4; the worm 7-4 is rotatably connected to a transverse frame plate of the L-shaped vertical frame 7-5 through a bearing with a seat, and a vertical frame plate of the L-shaped vertical frame 7-5 is fixed on the detachable cover 2; a central through hole is formed in the middle of the worm 7-4, and two ends of the inner side of the central through hole are respectively provided with a convex edge; the worm 7-4 is in transmission connection with the stirring device 8 and the first linkage device 10. The servo motor 7-1 can drive the driving belt wheel 7-2 to rotate after being started by electrifying, the driving belt wheel 7-2 can drive the driven belt wheel 7-3 to rotate through synchronous belt transmission connection when rotating, the driven belt wheel 7-3 can drive the worm 7-4 to rotate when rotating, and the stirring device 8 and the first linkage device 10 are driven to work through the worm 7-4.

The third concrete implementation mode:

as shown in fig. 1-14, the stirring device 8 comprises a rotating shaft 8-1, a rotating base 8-2, a stirring shaft 8-3 and a cambered surface scraper 8-4; the upper end of the rotating shaft 8-1 is provided with two sliding chutes in sliding fit with the convex edges; the rotating shaft 8-1 is in sliding fit in a central through hole of the worm 7-4; the upper part of the rotating shaft 8-1 is in sealed rotating fit with the detachable cover 2; the top end of the rotating shaft 8-1 is rotatably connected to the second linkage device 11; the middle part of the rotating shaft 8-1 is fixedly connected with an upper rotating seat 8-2 and a lower rotating seat 8-2; a plurality of stirring shafts 8-3 are uniformly arranged on the outer side surfaces of the plurality of rotating seats 8-2; the outer ends of the stirring shafts 8-3 are respectively fixed with a cambered surface scraper 8-4 which is in sliding fit with the inner wall of the proportioning barrel 1; the lower end of the rotating shaft 8-1 is in sealed rotating fit with the cleaning pipe of the dispensing cylinder 1. When the worm 7-4 rotates, the rotating shaft 8-1 can be driven to rotate through the matching of the two convex ridges and the two sliding grooves, the rotating shaft 8-1 can drive the plurality of rotating seats 8-2 to rotate, the plurality of rotating seats 8-2 drive the plurality of stirring shafts 8-3 and the cambered surface scraper 8-4 to rotate, the plurality of stirring shafts 8-3 carry out mixing and pulping treatment on facial mask raw materials, and the cambered surface scraper 8-4 prevents the facial mask raw materials from being stuck on the inner wall of the batching cylinder 1.

The fourth concrete implementation mode:

as shown in fig. 1-14, two sides of the lower shaft body of the stirring shaft 8-3 are respectively provided with a liquid discharge port, and the two liquid discharge ports are communicated with a liquid discharge channel in the middle of the bottom end of the stirring shaft 8-3; the inner side of the liquid discharge channel is connected with a blocking screw rod 8-5 in a rotating fit mode, the top end of the blocking screw rod 8-5 is fixedly connected with a sealing blocking column 8-6, the sealing blocking column 8-6 is blocked at the inner sides of the two liquid discharge ports, the bottom end of the blocking screw rod 8-5 is fixedly connected with a screwing disc 8-7, and the screwing disc 8-7 is located at the lower end of the cleaning pipe of the mixing barrel 1. The rotary screwing disc 8-7 drives the plugging screw 8-5 and the sealing plugging column 8-6 to rotate, so that after the sealing plugging column is separated from the stirring shaft 8-3, waste liquid in the proportioning barrel 1 can be discharged through the liquid discharge port and the liquid discharge channel under the state that the detachable cover 2 is not opened.

The fifth concrete implementation mode:

as shown in fig. 1-14, the first linkage 10 includes a worm gear 10-1, a linkage shaft 10-2, a shaft bracket 10-3 and a linkage gear 10-4; the worm 7-4 is in meshed transmission connection with the worm wheel 10-1; the worm wheel 10-1 is fixed in the middle of the linkage shaft 10-2, the linkage shaft 10-2 is rotatably connected to the two shaft brackets 10-3, and the two shaft brackets 10-3 are fixed on the detachable cover 2; two ends of the linkage shaft 10-2 are respectively fixed with a linkage gear 10-4, and the two linkage gears 10-4 are in transmission connection with a second linkage device 11 and two pressure pumping devices 9. The worm 7-4 is in meshed transmission connection with a worm wheel 10-1, the worm wheel 10-1 rotates to drive a linkage shaft 10-2 to rotate, the linkage shaft 10-2 rotates to drive two linkage gears 10-4 to rotate, and the two linkage gears 10-4 rotate to drive two pumping devices 9 and a second linkage device 11 to work.

The sixth specific implementation mode:

as shown in fig. 1-14, the linkage gear 10-4 comprises a fixed half gear 10-4a, a detachable half gear 10-4b provided with a clamping groove matched with the fixed half gear 10-4a, an eccentric shaft 10-4c, a first fixing plate 10-4d and a second fixing plate 10-4 e; the fixed half gear 10-4a is fixed on the linkage shaft 10-2; the detachable half gear 10-4b is connected with the fixed half gear 10-4a in a clamping manner; an eccentric shaft 10-4c is fixedly connected to the outer side face of the fixed half gear 10-4 a; the eccentric shaft 10-4c is in transmission connection with a second linkage device 11; the fixed half gear 10-4a and the detachable half gear 10-4b are in meshed transmission connection with a pressure extraction device 9; two ends of the inner side surface of the fixed half gear 10-4a are respectively provided with a first fixed plate 10-4 d; two ends of the inner side surface of the detachable half gear 10-4b are respectively provided with a second fixing plate 10-4 e; two sets of first fixing plates 10-4d and second fixing plates 10-4e which are arranged oppositely are connected through bolts and nuts.

The pumping device 9 comprises a rack 9-1 and a pumping disc 9-2; the upper end of the rack 9-1 is in meshed transmission connection with the detachable half gear 10-4b and the fixed half gear 10-4 a; the middle part of the rack 9-1 is in sliding fit with the top end of the pumping and pressing charging barrel 6; the lower end of the rack 9-1 is fixedly connected with a pumping and pressing disk 9-2 which is in sealing sliding fit in the pumping and pressing material barrel 6. The fixed half gear 10-4a and the detachable half gear 10-4b are structurally arranged, so that the detachable half gear 10-4b can be detached, and intermittent filling work is facilitated; the fixed half gear 10-4a and the detachable half gear 10-4b form a complete gear to drive the rack 9-1 to move up and down, and the rack 9-1 can drive the pressure drawing disc 9-2 to slide in the pressure drawing cylinder 6 when moving up and down, so that the facial mask raw material is drawn in or extruded out, and the subsequent filling work is realized.

The seventh embodiment:

as shown in fig. 1 to 14, the second linkage 11 includes a push-pull link 11-1 and a T-shaped lifter plate 11-2; the top end of the rotating shaft 8-1 is connected with the middle part of the T-shaped lifting plate 11-2 in a rotating fit manner; two ends of the T-shaped lifting plate 11-2 are respectively and rotatably connected with one end of one push-pull connecting rod 11-1, and the other ends of the two push-pull connecting rods 11-1 are rotatably connected with two eccentric shafts 10-4c on two linkage gears 10-4. When the eccentric shaft 10-4c rotates and moves around under the drive of the fixed half gear 10-4a, one end of the two push-pull connecting rods 11-1 can be driven to move around, the other ends of the two push-pull connecting rods 11-1 drive the T-shaped lifting plate 11-2 to move up and down together, the T-shaped lifting plate 11-2 drives the rotating shaft 8-1 and the stirring device 8 to move up and down integrally, and therefore mask raw materials at different positions are fully stirred and mixed through the stirring device 8, and the quality of processed masks is improved.

The specific implementation mode is eight:

as shown in fig. 1 to 14, the method for manufacturing a mask by using a mask machine comprises the following steps:

firstly, raw materials for processing the facial mask are respectively loaded into a batching cylinder 1 through a feeding pipe 2-1 on a detachable cover 2, then a control valve on the feeding pipe 2-1 is closed, and a driving device 7 is powered on and started;

step two, the driving device 7 drives the stirring device 8 to stir and mix the raw materials, meanwhile, the driving device 7 drives the first linkage device 10 to work in a transmission manner, and the first linkage device 10 drives the two pumping devices 9 to work; the two pumping devices 9 are matched with the two pumping charging barrels 6 to pump the raw materials in the mixing barrel 1 into the pumping charging barrel 6 and then press the raw materials back to the mixing barrel 1, so that the raw materials are mixed in a reciprocating manner, at the moment, a control valve of the bent conveying pipe 5 is opened, and a control valve of the filling pipe 6-1 is closed;

step three, the first linkage device 10 can drive the second linkage device 11 to work in a transmission mode when working, the stirring device 8 is driven by the second linkage device 11 to reciprocate up and down, and the raw materials in the batching cylinder 1 are fully stirred and mixed to obtain the facial mask;

and step four, pumping the raw materials in the mixing cylinder 1 into the pumping pressure cylinder 6 through the matching of the two pumping pressure devices 9 and the two pumping pressure cylinders 6, then closing control valves of the two bent conveying pipelines 5, opening a control valve of the filling pipe 6-1, configuring a filling bottle and a filling bottle conveying belt at the lower end of the filling pipe 6-1, and controlling the two pumping pressure devices 9 and the two pumping pressure cylinders 6 to be matched to press the raw materials in the mixing cylinder 1 into the filling bottle, so that the bottled facial mask is obtained.

The specific implementation method nine:

as shown in fig. 1-14, the mask prepared by the mask machine comprises, by weight, 20 parts of glycolic acid, 15 parts of vitamin C, 15 parts of vitamin E, 12 parts of sodium hyaluronate, 9 parts of aloe vera liquid, 8 parts of pearl powder and 76 parts of water.

The working principle of the invention is as follows:

when the mask machine is used for manufacturing masks, raw materials for processing the masks are respectively loaded into the batching cylinder 1 through the feeding pipe 2-1 on the detachable cover 2, then the control valve on the feeding pipe 2-1 is closed, and the driving device 7 is powered on and started; when the driving device 7 drives the stirring device 8 to stir and mix the raw materials, the driving device 7 drives the first linkage device 10 to work, and the first linkage device 10 drives the two pumping devices 9 to work; the two pumping devices 9 are matched with the two pumping charging barrels 6 to pump the raw materials in the mixing barrel 1 into the pumping charging barrel 6 and then press the raw materials back to the mixing barrel 1, so that the raw materials are mixed in a reciprocating manner, at the moment, a control valve of the bent conveying pipe 5 is opened, and a control valve of the filling pipe 6-1 is closed; when the first linkage device 10 works, the second linkage device 11 can be driven to work in a transmission way, the stirring device 8 is driven to do reciprocating motion in the vertical direction through the second linkage device 11, and the raw materials in the batching cylinder 1 are fully stirred and mixed to obtain the facial mask; through two pump-compression devices 9 and two pump-compression device 6's cooperation will prepare burden a raw materials suction in 1 section of thick bamboo to pump-compression device 6 in, then close two crooked conveying pipeline 5's control flap, open filling pipe 6-1's control flap, dispose filling bottle and filling bottle conveyer belt at filling pipe 6-1's lower extreme, control two pump-compression devices 9 and two pump-compression device 6 cooperation will prepare burden a raw materials in 1 section of thick bamboo and impress to the filling bottle can, obtain bottled facial mask.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes 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.

Claims

1. The utility model provides a mask machine, includes batching section of thick bamboo (1), can dismantle lid (2), stand (3), base (4), crooked conveying pipeline (5), takes out and presses feed cylinder (6), drive arrangement (7), agitating unit (8), takes out and presses device (9), first aggregate unit (10) and second aggregate unit (11), its characterized in that: the upper end of the batching cylinder (1) is fixedly connected with a detachable cover (2) in a sealing way; two feeding pipes (2-1) with control valves are arranged on the detachable cover (2); the lower end of the batching cylinder (1) is fixed on the base (4) through a plurality of upright posts (3); the bottom end of the proportioning barrel (1) is fixedly connected and communicated with two pumping and pressing charging barrels (6) through two bent conveying pipes (5) with control valves, and the two pumping and pressing charging barrels (6) are symmetrically arranged at two ends of the proportioning barrel (1); the driving device (7) is fixedly connected to the detachable cover (2); the driving device (7) is in transmission connection with the upper end of the stirring device (8), the middle part of the stirring device (8) is in sealed rotary connection with the detachable cover (2), the lower part of the stirring device (8) is in rotary fit in the batching cylinder (1), and the bottom end of the stirring device (8) is in sealed rotary fit in a cleaning pipe of the batching cylinder (1); the two pumping and pressing material cylinders (6) are respectively matched with a pumping and pressing device (9) in a sealing and sliding manner; the driving device (7) is in transmission connection with a first linkage device (10);

the first linkage device (10) is in transmission connection with the second linkage device (11) and the two pumping devices (9); the second linkage device (11) is in transmission connection with the stirring device (8); the lower end of the pumping and pressing material barrel (6) is fixedly connected and communicated with a filling pipe (6-1) with a control valve; the lower end of the filling pipe (6-1) is connected with a filling head;

the driving device (7) comprises a servo motor (7-1), a driving belt wheel (7-2), a driven belt wheel (7-3), a worm (7-4) and an L-shaped vertical frame (7-5); the servo motor (7-1) is fixed on the detachable cover (2); a driving belt wheel (7-2) is fixedly connected to an output shaft of the servo motor (7-1); the driving belt wheel (7-2) is connected with a driven belt wheel (7-3) through a synchronous belt; the driven belt wheel (7-3) is fixed on the worm (7-4); the worm (7-4) is rotatably connected to a transverse frame plate of the L-shaped vertical frame (7-5) through a bearing with a seat, and a vertical frame plate of the L-shaped vertical frame (7-5) is fixed on the detachable cover (2); the middle of the worm (7-4) is provided with a central through hole, and two ends of the inner side of the central through hole are respectively provided with a convex edge; the worm (7-4) is in transmission connection with the stirring device (8) and the first linkage device (10);

the stirring device (8) comprises a rotating shaft (8-1), a rotating seat (8-2), a stirring shaft (8-3) and a cambered surface scraper (8-4); the upper end of the rotating shaft (8-1) is provided with two sliding grooves which are in sliding fit with the convex ribs; the rotating shaft (8-1) is in sliding fit with the central through hole of the worm (7-4); the upper part of the rotating shaft (8-1) is in sealed rotating fit with the detachable cover (2); the top end of the rotating shaft (8-1) is rotatably connected to the second linkage device (11); the middle part of the rotating shaft (8-1) is fixedly connected with an upper rotating seat and a lower rotating seat (8-2); a plurality of stirring shafts (8-3) are uniformly arranged on the outer side surfaces of the plurality of rotating seats (8-2); the outer ends of the stirring shafts (8-3) are respectively fixed with a cambered surface scraper (8-4) which is in sliding fit with the inner wall of the mixing barrel (1); the lower end of the rotating shaft (8-1) is in sealed rotary fit with a cleaning pipe of the dispensing cylinder (1);

two sides of a shaft body at the lower end of the stirring shaft (8-3) are respectively provided with a liquid discharge port, and the two liquid discharge ports are communicated with a liquid discharge channel in the middle of the bottom end of the stirring shaft (8-3); the inner sides of the liquid discharge channels are connected with blocking screw rods (8-5) in a rotating fit mode, the top ends of the blocking screw rods (8-5) are fixedly connected with sealing blocking columns (8-6), the sealing blocking columns (8-6) are blocked at the inner sides of the two liquid discharge ports, the bottom ends of the blocking screw rods (8-5) are fixedly connected with screwing discs (8-7), and the screwing discs (8-7) are located at the lower end of a cleaning pipe of the mixing barrel (1);

the first linkage device (10) comprises a worm wheel (10-1), a linkage shaft (10-2), a shaft bracket (10-3) and a linkage gear (10-4); the worm wheel (10-1) is fixed in the middle of the linkage shaft (10-2), the linkage shaft (10-2) is rotatably connected to the two shaft brackets (10-3), and the two shaft brackets (10-3) are fixed on the detachable cover (2); two ends of the linkage shaft (10-2) are respectively fixed with a linkage gear (10-4), and the two linkage gears (10-4) are in transmission connection with a second linkage device (11) and two pressure pumping devices (9);

the linkage gear (10-4) comprises a fixed half gear (10-4a), a detachable half gear (10-4b) provided with a clamping groove matched with the fixed half gear (10-4a), an eccentric shaft (10-4c), a first fixing plate (10-4d) and a second fixing plate (10-4 e); the fixed half gear (10-4a) is fixed on the linkage shaft (10-2); the detachable half gear (10-4b) is connected with the fixed half gear (10-4a) in a clamping manner; the outer side surface of the fixed half gear (10-4a) is fixedly connected with an eccentric shaft (10-4 c); the eccentric shaft (10-4c) is in transmission connection with a second linkage device (11); the fixed half gear (10-4a) and the detachable half gear (10-4b) are in meshed transmission connection with a pumping device (9); two ends of the inner side surface of the fixed half gear (10-4a) are respectively provided with a first fixed plate (10-4 d); two ends of the inner side surface of the detachable half gear (10-4b) are respectively provided with a second fixing plate (10-4 e); two groups of first fixing plates (10-4d) and second fixing plates (10-4e) which are oppositely arranged are connected through bolts and nuts;

the pumping device (9) comprises a rack (9-1) and a pumping disc (9-2); the upper end of the rack (9-1) is in meshed transmission connection with the detachable half gear (10-4b) and the fixed half gear (10-4 a); the middle part of the rack (9-1) is in sliding fit with the top end of the pumping and pressing charging barrel (6); the lower end of the rack (9-1) is fixedly connected with a pumping disc (9-2) which is in sealing sliding fit with the pumping cylinder (6);

the second linkage device (11) comprises a push-pull connecting rod (11-1) and a T-shaped lifting plate (11-2); the top end of the rotating shaft (8-1) is connected with the middle part of the T-shaped lifting plate (11-2) in a rotating fit manner; two ends of the T-shaped lifting plate (11-2) are respectively and rotatably connected with one end of one push-pull connecting rod (11-1), and the other ends of the two push-pull connecting rods (11-1) are rotatably connected with two eccentric shafts (10-4c) on the two linkage gears (10-4).

2. The method of claim 1, wherein the method comprises the steps of:

firstly, raw materials for processing the facial mask are respectively loaded into a batching cylinder (1) through a feeding pipe (2-1) on a detachable cover (2), then a control valve on the feeding pipe (2-1) is closed, and a driving device (7) is powered on and started;

step two, while the driving device (7) drives the stirring device (8) to stir and mix the raw materials, the driving device (7) drives the first linkage device (10) to work, and the first linkage device (10) drives the two pumping devices (9) to work; the two pumping devices (9) pump the raw materials in the proportioning barrel (1) into the pumping barrel (6) through matching with the two pumping barrels (6) and then press the raw materials back to the proportioning barrel (1) so that the raw materials are mixed in a reciprocating motion, at the moment, a control valve of the bent conveying pipe (5) is opened, and a control valve of the filling pipe (6-1) is closed;

step three, the first linkage device (10) can drive the second linkage device (11) to work in a transmission mode when working, the stirring device (8) is driven to reciprocate up and down through the second linkage device (11), and the raw materials in the batching cylinder (1) are fully stirred and mixed to obtain the facial mask;

step four, through two pressure devices (9) and two in the cooperation of pressure feed cylinder (6) with the raw materials suction in the batching section of thick bamboo (1) to the pressure feed cylinder (6) in, then close the control flap of two crooked conveying pipeline (5), open the control flap of filling pipe (6-1), dispose filling bottle and filling bottle conveyer belt at the lower extreme of filling pipe (6-1), control two pressure devices (9) and two the cooperation of pressure feed cylinder (6) is impressed the raw materials in the batching section of thick bamboo (1) to the filling bottle can, obtain bottled facial mask.

3. The mask made by the mask machine according to claim 2, wherein the raw materials of the mask comprise, by weight, 20 parts of glycolic acid, 15 parts of vitamin C, 15 parts of vitamin E, 12 parts of sodium hyaluronate, 9 parts of aloe vera liquid, 8 parts of pearl powder and 76 parts of water.