Anti-dandruff shampoo and preparation system and processing method thereof
Technical Field
The invention relates to the technical field of shampoo production and processing, in particular to an anti-dandruff shampoo, and a preparation system and a processing method thereof.
Background
The utility model relates to a portable plant essence extracting device with the patent number of CN201520723570.3, which comprises an electric distilling device shell, a cooling device shell fixedly arranged at one side of the electric distilling device shell, an electric distilling device arranged in the electric distilling device shell and a cooling device fixedly arranged in the cooling device shell; the electric distillation device comprises a distillation pot body, a heating pipe and a sealing cover; the bottom of the distilling pot body is contacted with the heating pipe; cooling device is including fixed radiating fin coil pipe and the fan of settling in upper portion in the cooling device casing, and radiating fin coil pipe's entrance point passes through upper guide pipe and the inner chamber of the pot body intercommunication of distilling pot, and radiating fin coil pipe's exit end passes through backward flow return bend and the inner chamber of the pot body intercommunication of distilling pot, sets up export decurrent drain pipe and the ascending pressure release pipe of export respectively on the backward flow return bend, fixed mounting solenoid valve on the drain pipe, and this utility model device is rational in infrastructure, small in size, and weight is lighter, convenient to carry. But the utility model discloses can not carry out abundant beat juice to the raw materials and draw the stoste.
Disclosure of Invention
The anti-dandruff shampoo and the preparation system and the processing method thereof have the beneficial effects that the anti-dandruff shampoo can beat materials and push the materials at the same time, so that the materials are beaten more fully to obtain juice, and more sufficient extracting solution is obtained.
The purpose of the invention is realized by the following technical scheme:
a preparation system of anti-dandruff shampoo comprises a material extrusion barrel assembly, a lifting adjusting mechanism, a material rotary extrusion mechanism, a power output mechanism, an extrusion driving mechanism, a base and a material collecting box, wherein the material extrusion barrel assembly is fixedly connected to the base, the material collecting box is placed on the base and located below the material extrusion barrel assembly, the lifting adjusting mechanism is fixedly connected to the rear of the material extrusion barrel assembly, the material rotary extrusion mechanism is arranged at the upper end of the lifting adjusting mechanism, the upper end of the power output mechanism is arranged on the lifting adjusting mechanism, the lower end of the power output mechanism is located in the material extrusion barrel assembly, the material rotary extrusion mechanism is in transmission connection with the power output mechanism, the extrusion driving mechanism is arranged on the power output mechanism, and the material rotary extrusion mechanism is connected with the upper end of the power output mechanism.
As a further optimization of the technical scheme, the preparation system of the anti-dandruff shampoo comprises a material extrusion cylinder assembly, a material extrusion cylinder and a material extrusion cylinder, wherein the material extrusion cylinder assembly comprises a side frame, a guide rod, a bidirectional screw rod, a bottom plate, a screwing ring, a circular cylinder and a fixing frame; guide arm fixed connection is in the rear end of two side framves, two-way screw rod normal running fit connects the front end at two side framves, the rear end symmetry sliding fit of two bottom plates connects on the guide arm, the front end of two bottom plates passes through screw-thread fit and connects the both ends at two-way screw rod, revolve the middle part of twist ring fixed connection at two-way screw rod, mount of fixed connection is distinguished at the both ends of circular cylinder, two mounts are fixed connection respectively on two side framves, the bottom surface and the laminating of two bottom plates of circular cylinder, the medial surface laminating of two bottom plates.
As further optimization of the technical scheme, the preparation system of the anti-dandruff shampoo comprises a lifting adjusting mechanism, a lifting adjusting mechanism and a control mechanism, wherein the lifting adjusting mechanism comprises a door-shaped frame, a rectangular hollow column, a rectangular through groove, a sliding rod, a U-shaped plate, a driving motor I, a screw rod, a top frame plate, a shifting fork, a horizontal shaft frame plate and a vertical shaft frame plate; the door-shaped frame is fixedly connected to the base, the two rectangular hollow columns are fixedly connected to the door-shaped frame, a rectangular through groove is formed in each of the rear ends of the two rectangular hollow columns, the two ends of the U-shaped plate are connected into the two rectangular through grooves in a sliding fit mode respectively, a sliding rod is fixedly connected to each of the two ends of the U-shaped plate respectively, the two sliding rods are connected into the two rectangular hollow columns in a sliding fit mode respectively, the driving motor I is fixedly connected between the two rectangular hollow columns through the motor frame, an output shaft of the driving motor I is connected with a lead screw through a coupler, and the U-shaped plate; two slide bars are all fixed connection on the top frame plate, and the both ends of top frame plate are shift fork of fixed connection respectively, and horizontal axis frame plate fixed connection is on the top frame plate, and vertical axis frame plate fixed connection is on horizontal axis frame plate.
As a further optimization of the technical scheme, the preparation system of the anti-dandruff shampoo comprises a material rotary extrusion mechanism, a material rotary extrusion mechanism and a material rotary extrusion mechanism, wherein the material rotary extrusion mechanism comprises a central shaft, a rectangular frame, an annular top frame, an annular groove, a driven belt pulley, a rectangular sliding rod, a stop block, an extrusion plate, a U-shaped frame, a circular rod and a rectangular through groove; the inner side of the annular top frame is fixedly connected with four rectangular frames, the four rectangular frames are uniformly fixedly connected to the upper end of the central shaft in a surrounding manner, an annular groove is formed in the outer end face of the annular top frame, two shifting forks are connected into the annular groove in a sliding fit manner, a driven belt pulley is fixedly connected to the upper end of the central shaft and is in transmission connection with a power output mechanism, the lower end of the central shaft is uniformly fixedly connected with four rectangular slide bars in a surrounding manner, the outer ends of the four rectangular slide bars are respectively and fixedly connected with a stop dog, four extrusion plates are respectively and slidably connected onto the four rectangular slide bars in a matching manner, the four extrusion plates are all located in the circular cylinder, the upper ends of the four extrusion plates are respectively and fixedly connected with; four rectangular through grooves are uniformly arranged on the central shaft in a surrounding manner; the rectangular through groove is positioned between the rectangular frame and the rectangular sliding rod.
As a further optimization of the technical scheme, the preparation system of the anti-dandruff shampoo comprises a power output mechanism, a motor II, a driving belt pulley, a driven belt pulley, a belt pulley rotating shaft, a driving bevel gear, a driving belt pulley, a driven bevel gear, a rotating rod, a driven shaft, a driving shaft and a linkage rod, wherein the power output mechanism comprises a motor II; motor II passes through motor frame fixed connection on the horizontal axis frame plate, the output shaft fixed connection driving pulley of motor II, driving pulley passes through the belt drive with driven pulley and is connected, driven pulley fixed connection is at the middle part of band pulley pivot, band pulley pivot normal running fit connects on the horizontal axis frame plate, driving bevel gear and driving pulley difference fixed connection are at the both ends of band pulley pivot, driving pulley passes through the belt drive with driven pulley and is connected, driving bevel gear is connected with driven bevel gear meshing transmission, driven bevel gear and bull stick fixed connection are at the both ends of driven shaft respectively, the middle part of driven shaft is rotated and is connected on vertical axis frame plate, the lower extreme fixed connection of bull stick is at a drive shaft, the upper end of gangbar is rotated and is connected in the drive shaft, the lower extreme and the.
As a further optimization of the technical scheme, the preparation system of the anti-dandruff shampoo comprises an extrusion driving mechanism, a heating mechanism and a cooling mechanism, wherein the extrusion driving mechanism comprises a telescopic shaft, a hinge seat, a circular pressure plate, a linkage seat, a driving rod, an extrusion driving arm, an L-shaped arm connecting seat and a circular rod sliding groove; the telescopic shaft is positioned in the central shaft, the upper end of the telescopic shaft is connected with a round top seat in a rotating fit manner, a hinged seat is fixedly connected onto the round top seat, a circular pressure plate is fixed onto the lower end of the telescopic shaft and positioned in a circular cylinder, four extrusion plates are arranged around the circular pressure plate, the lower end of a linkage rod is rotatably connected onto the hinged seat through an articulated shaft, a linkage seat is fixedly connected onto the middle part of the telescopic shaft and is connected into the central shaft in a sliding fit manner, four U-shaped seats are fixedly connected onto the linkage seat in a surrounding manner, the four U-shaped seats are respectively connected into four rectangular through grooves in a sliding fit manner, the lower ends of four driving rods are respectively rotatably connected onto the four U-shaped seats through the articulated shaft, the upper ends of the four driving rods are respectively rotatably connected with an extrusion driving arm, the four extrusion driving arms are respectively rotatably connected onto four L, the lower ends of the four extrusion driving arms are respectively provided with a round rod sliding chute, and the four round rods are respectively connected in the four round rod sliding chutes in a sliding fit manner.
A method for processing shampoo by an anti-dandruff shampoo preparation system comprises the following steps:
the method comprises the following steps: putting the soaked shampoo raw material with the dandruff removing effect into a material extrusion container assembly, and controlling a lifting adjusting mechanism to drive a material rotary extrusion mechanism and an extrusion driving mechanism to descend and penetrate into the material extrusion container assembly;
step two: the circular pressing plate beats the raw materials in the material extruding cylinder assembly, and meanwhile, the four extruding plates continuously push the scattered raw materials to the lower part of the circular pressing plate in a centralized manner to beat the raw materials to obtain juice;
step three: the four rotating extrusion plates push materials in a circular track, all raw materials are pushed to the lower part of the circular pressing plate to be beaten, and omission is avoided;
step four: after the hammering is finished, the lifting adjusting mechanism drives the material rotary extrusion mechanism and the extrusion driving mechanism to move upwards;
step five: the two bottom plates are opened, the beated raw materials and the juice discharged from the raw materials fall into the material collecting box, and the raw materials and other components in the material collecting box are stirred to be uniformly mixed.
The anti-dandruff shampoo comprises the following components: 10 parts of coix seed extract, 2 parts of oil cake extract, 5 parts of cassia bark extract, 3 parts of ginseng extract, 1 part of red paeony root extract, 2.5 parts of coconut oil diethanolamide, 0.5 part of astragalus extract, 0.5 part of kelp extract, 10 parts of glycerol, 8 parts of conditioner, 0.1 part of essence, 0.1 part of preservative and 25 parts of deionized water.
The preparation system of the anti-dandruff shampoo has the beneficial effects that:
according to the preparation system of the anti-dandruff shampoo, after the material rotary extrusion mechanism is started, the circular pressing disc on the extrusion driving mechanism can be driven to reciprocate up and down, the materials are continuously beaten to obtain juice, the extrusion driving mechanism can drive the four extrusion plates on the extrusion driving mechanism to move towards the circular pressing disc in a gathering manner while moving upwards, the beaten and dispersed materials are intensively pushed to the lower side of the circular pressing disc, meanwhile, the material rotary extrusion mechanism drives the four circular pressing discs to rotate, so that the four circular pressing discs continuously push the materials along a circular track, the materials are pushed to the lower side of the circular pressing disc without dead corners, the circular pressing disc can extrude all the materials during each beating, and all the materials can be fully beaten to obtain juice to extract stock solution.
Drawings
Fig. 1 is a first schematic structural diagram of a system for preparing an anti-dandruff shampoo according to the present invention;
fig. 2 is a schematic structural diagram of a second system for preparing anti-dandruff shampoo of the present invention;
fig. 3 is a schematic structural diagram of a third system for preparing anti-dandruff shampoo of the present invention;
fig. 4 is a schematic cross-sectional structural view of a preparation system of an anti-dandruff shampoo according to the present invention;
FIG. 5 is a first schematic structural view of a material extrusion barrel assembly;
FIG. 6 is a second schematic structural view of a material extruder barrel assembly;
FIG. 7 is a schematic structural view of the lift adjustment mechanism;
FIG. 8 is a schematic structural view of a material rotary extrusion mechanism;
fig. 9 is a schematic structural view of the power output mechanism;
fig. 10 is a schematic structural view of the pressing drive mechanism.
In the figure: a material container assembly 1; a side frame 1-1; a guide rod 1-2; 1-3 of a bidirectional screw; 1-4 of a bottom plate; 1-5 of a screwing ring; 1-6 of a round cylinder; 1-7 of a fixed mount; fixing a guide rod 1-2; a lifting adjusting mechanism 2; 2-1 of a portal frame; 2-2 of a rectangular hollow column; 2-3 rectangular through grooves; 2-4 of a slide bar; 2-5 parts of a U-shaped plate; driving a motor I2-6; 2-7 parts of a lead screw; 2-8 parts of a top frame plate; 2-9 of a shifting fork; 2-10 parts of a horizontal shaft frame plate; 2-11 of vertical shaft frame plate; the material rotary extrusion mechanism 3; a central shaft 3-1; a rectangular frame 3-2; 3-3 of an annular top frame; 3-4 of annular groove; 3-5 parts of a driven pulley; 3-6 rectangular slide bars; 3-7 of a stop block; 3-8 parts of an extrusion plate; 3-9 parts of a U-shaped frame; 3-10 parts of a circular rod; 3-11 rectangular through grooves; a power output mechanism 4; a motor II 4-1; a driving pulley 4-2; 4-3 of a driven belt wheel; 4-4 of a belt wheel rotating shaft; 4-5 parts of a driving bevel gear; 4-6 of a driving belt pulley; driven bevel gears 4-7; 4-8 of a rotating rod; 4-9 of a driven shaft; 4-10 of a driving shaft; 4-11 of a linkage rod; an extrusion drive mechanism 5; 5-1 of a telescopic shaft; a hinge base 5-2; 5-3 of a circular pressure plate; 5-4 of a linkage seat; 5-5 of a driving rod; 5-6 of an extrusion driving arm; 5-7 parts of an L-shaped arm connecting seat; 5-8 parts of a round rod chute; a base 6; and a material collection box 7.
Detailed Description
The invention is described in further detail below with reference to the accompanying figures 1-10 and the detailed description.
The first embodiment is as follows:
the following describes the present embodiment with reference to fig. 1-10, a system for preparing an anti-dandruff shampoo, comprising a material extruding cylinder assembly 1, a lifting adjusting mechanism 2, a material rotary extruding mechanism 3, a power output mechanism 4, an extruding driving mechanism 5, a base 6 and a material collecting box 7, wherein the material extruding cylinder assembly 1 is fixedly connected to the base 6, the material collecting box 7 is placed on the base 6, the material collecting box 7 is located below the material extruding cylinder assembly 1, the lifting adjusting mechanism 2 is fixedly connected to the rear of the material extruding cylinder assembly 1, the material rotary extruding mechanism 3 is arranged at the upper end of the lifting adjusting mechanism 2, the upper end of the power output mechanism 4 is arranged on the lifting adjusting mechanism 2, the lower end of the power output mechanism 4 is located in the material extruding cylinder assembly 1, the material rotary extruding mechanism 3 is in transmission connection with the power output mechanism 4, the extruding driving mechanism 5 is arranged on the power output mechanism 4, the material rotary extrusion mechanism 3 is connected with the upper end of the power output mechanism 4; the bottom of the material collecting box 7 is provided with a heating device. When the shampoo bottle is used, the lifting adjusting mechanism 2 is controlled to drive the material rotary extrusion mechanism 3 and the extrusion driving mechanism 5 to rise to be separated from the material extrusion barrel assembly 1, the soaked shampoo raw material with the dandruff removing effect is put into the material extrusion barrel assembly 1, and the lifting adjusting mechanism 2 is controlled to drive the material rotary extrusion mechanism 3 and the extrusion driving mechanism 5 to descend to penetrate into the material extrusion barrel assembly 1; after the power output mechanism 4 is started, the extrusion driving mechanism 5 is driven to reciprocate up and down, the extrusion driving mechanism 5 beats raw materials in the material extrusion barrel assembly 1, meanwhile, the extrusion driving mechanism 5 and the material rotary extrusion mechanism 3 are matched to drive the four extrusion plates 3-8 to continuously push the scattered raw materials to the lower part of the circular pressure plate 5-3 in a centralized manner to beat the raw materials to obtain juice, the power output mechanism 4 drives the material rotary extrusion mechanism 3 to rotate while working, the material rotary extrusion mechanism 3 drives the four extrusion plates 3-8 to rotate, the four extrusion plates 3-8 continuously push the materials in a circular track, the materials without dead corners are pushed to the lower part of the circular pressure plate 5-3, so that the circular pressure plate 5-3 can extrude all the materials each time, all the materials can be fully beaten to obtain the juice to extract stock solution, after the materials are beated, the lifting adjusting mechanism 2 drives the material rotary extrusion mechanism 3 and the extrusion driving mechanism 5 to move upwards, the two bottom plates 1-4 are opened, the beated raw materials and the extracting solution fall into the material collecting box 7, the heating device on the material collecting box 7 is started, and the raw materials and other components in the material collecting box 7 are heated and stirred to be uniformly mixed.
The second embodiment is as follows:
referring to fig. 1-10, the material extruding cylinder assembly 1 of the present embodiment includes a side frame 1-1, a guide rod 1-2, a bidirectional screw 1-3, a bottom plate 1-4, a screw ring 1-5, a circular cylinder 1-6, and a fixing frame 1-7; the guide rod 1-2 is fixedly connected to the rear ends of the two side frames 1-1, the two-way screw rods 1-3 are connected to the front ends of the two side frames 1-1 in a rotating fit mode, the rear ends of the two bottom plates 1-4 are connected to the guide rod 1-2 in a symmetrical sliding fit mode, the front ends of the two bottom plates 1-4 are connected to the two ends of the two-way screw rods 1-3 in a threaded fit mode, the screwing rings 1-5 are fixedly connected to the middle portions of the two-way screw rods 1-3, two ends of the circular cylinder 1-6 are respectively and fixedly connected with the fixing frames 1-7, the two fixing frames 1-7 are respectively and fixedly connected to the two side frames 1-1, the bottom surface of the circular cylinder 1-6 is attached to the two bottom plates 1-. The two-way screw 1-3 is driven to rotate by rotating the screwing ring 1-5, the two-way screw 1-3 and the two bottom plates 1-4 are connected and matched through threads to generate relative displacement, threads with opposite screwing directions are arranged at two ends of the bottom plates 1-4, the two-way screw 1-3 drives the two bottom plates 1-4 to deviate and slide, after the two bottom plates 1-4 are opened, beaten raw materials and extracting solutions fall into the material collecting box 7, and the two bottom plates 1-4 deviate from the sliding circular cylinders 1-6 to scrape the raw materials on the two bottom plates 1-4, so that residues are avoided.
The third concrete implementation mode:
the embodiment is described below with reference to fig. 1-10, and the lifting adjusting mechanism 2 includes a door-shaped frame 2-1, a rectangular hollow column 2-2, a rectangular through groove 2-3, a sliding rod 2-4, a U-shaped plate 2-5, a driving motor i 2-6, a screw rod 2-7, a top frame plate 2-8, a shifting fork 2-9, a horizontal shaft frame plate 2-10 and a vertical shaft frame plate 2-11; the door-shaped frame 2-1 is fixedly connected to the base 6, the door-shaped frame 2-1 is fixedly connected with two rectangular hollow columns 2-2, the rear ends of the two rectangular hollow columns 2-2 are respectively provided with a rectangular through groove 2-3, the two ends of a U-shaped plate 2-5 are respectively connected in the two rectangular through grooves 2-3 in a sliding fit manner, the two ends of the U-shaped plate 2-5 are respectively fixedly connected with a sliding rod 2-4, the two sliding rods 2-4 are respectively connected in the two rectangular hollow columns 2-2 in a sliding fit manner, a driving motor I2-6 is fixedly connected between the two rectangular hollow columns 2-2 through a motor frame, an output shaft of the driving motor I2-6 is connected with a lead screw 2-7 through a coupler, and the U-shaped plate 2-5 is connected to the lead screw 2; the two sliding rods 2-4 are fixedly connected to the top frame plates 2-8, two ends of each top frame plate 2-8 are fixedly connected with a shifting fork 2-9 respectively, the horizontal shaft frame plates 2-10 are fixedly connected to the top frame plates 2-8, and the vertical shaft frame plates 2-11 are fixedly connected to the horizontal shaft frame plates 2-10. The driving motor I2-6 is started, the driving motor I2-6 drives the screw rod 2-7 to rotate, the screw rod 2-7 and the U-shaped plate 2-5 are connected through threads to generate relative displacement, the U-shaped plate 2-5 is driven to move up and down, the two slide rods 2-4 of the U-shaped plate 2-5 move up and down, and the two slide rods 2-4 drive the material rotary extrusion mechanism 3, the power output mechanism 4 and the extrusion driving mechanism 5 to change in height through the top frame plate 2-8 and the two horizontal shaft frame plates 2-10.
The fourth concrete implementation mode:
the embodiment is described below with reference to fig. 1-10, and the material rotary extrusion mechanism 3 includes a central shaft 3-1, a rectangular frame 3-2, an annular top frame 3-3, an annular groove 3-4, a driven pulley 3-5, a rectangular slide rod 3-6, a stopper 3-7, an extrusion plate 3-8, a U-shaped frame 3-9, a circular rod 3-10 and a rectangular through groove 3-11; the inner side of an annular top frame 3-3 is fixedly connected with four rectangular frames 3-2, the four rectangular frames 3-2 are uniformly and fixedly connected at the upper end of a central shaft 3-1 in a surrounding manner, the outer end face of the annular top frame 3-3 is provided with an annular groove 3-4, two shifting forks 2-9 are all connected in the annular groove 3-4 in a sliding fit manner, a driven belt pulley 3-5 is fixedly connected at the upper end of the central shaft 3-1, the driven belt pulley 3-5 is in transmission connection with a power output mechanism 4, the lower end of the central shaft 3-1 is uniformly and fixedly connected with four rectangular slide bars 3-6 in a surrounding manner, the outer ends of the four rectangular slide bars 3-6 are respectively and fixedly connected with a stop dog 3-7, four extrusion plates 3-8 are respectively and fixedly connected on the four rectangular slide bars 3-6 in a sliding fit, the upper ends of the four extrusion plates 3-8 are respectively fixedly connected with a U-shaped frame 3-9, and the upper ends of the four U-shaped frames 3-9 are respectively fixedly connected with a circular rod 3-10; four rectangular through grooves 3-11 are uniformly arranged on the central shaft 3-1 in a surrounding manner; the rectangular through groove 3-11 is positioned between the rectangular frame 3-2 and the rectangular slide bar 3-6. The power output mechanism 4 can drive the driven belt pulley 3-5 to rotate, the driven belt pulley 3-5 drives the central shaft 3-1 to rotate, the central shaft 3-1 drives the four extrusion plates 3-8 to rotate around the axis of the central shaft 3-1 through the four rectangular slide bars 3-6, the central shaft 3-1 can rotate on the two shifting forks 2-9, the extrusion plates 3-8 can slide on the rectangular slide bars 3-6, and the stop blocks 3-7 play a limiting role.
The fifth concrete implementation mode:
the embodiment is described below with reference to fig. 1-10, and the power output mechanism 4 includes a motor ii 4-1, a driving pulley 4-2, a driven pulley 4-3, a pulley rotating shaft 4-4, a driving bevel gear 4-5, a driving pulley 4-6, a driven bevel gear 4-7, a rotating rod 4-8, a driven shaft 4-9, a driving shaft 4-10 and a linkage rod 4-11; a motor II 4-1 is fixedly connected on a horizontal shaft frame plate 2-10 through a motor frame, an output shaft of the motor II 4-1 is fixedly connected with a driving belt wheel 4-2, the driving belt wheel 4-2 is in transmission connection with a driven belt wheel 4-3 through a belt, the driven belt wheel 4-3 is fixedly connected in the middle of a belt wheel rotating shaft 4-4, the belt wheel rotating shaft 4-4 is in rotating fit connection with the horizontal shaft frame plate 2-10, a driving bevel gear 4-5 and a driving belt wheel 4-6 are respectively and fixedly connected at two ends of the belt wheel rotating shaft 4-4, the driving belt wheel 4-6 is in transmission connection with the driven belt wheel 3-5 through a belt, the driving bevel gear 4-5 is in meshing transmission connection with a driven bevel gear 4-7, the driven bevel gear 4-7 and a rotating rod 4-8 are respectively and, the middle part of the driven shaft 4-9 is rotatably connected to the vertical shaft frame plate 2-11, the lower end of the rotating rod 4-8 is fixedly connected to a driving shaft 4-10, the upper end of the linkage rod 4-11 is rotatably connected to the driving shaft 4-10, and the lower end of the linkage rod 4-11 is connected with the extrusion driving mechanism 5. After the motor II 4-1 is started, the driving belt wheel 4-2 is driven to rotate the driven belt wheel 4-3, the driven belt wheel 4-3 is driven to rotate the belt wheel rotating shaft 4-4, the belt wheel rotating shaft 4-4 is driven to rotate the driving bevel gear 4-5 and the driving belt wheel 4-6, the driving belt wheel 4-6 is driven to rotate the driven belt wheel 3-5, the driving bevel gear 4-5 is driven to rotate the driven bevel gear 4-7, the driven bevel gear 4-7 is driven to rotate the driven shaft 4-9, the driven shaft 4-9 is driven to rotate the rotating rod 4-8, the rotating rod 4-8 is driven to drive the driving shaft 4-10 to do circular motion, and the driving shaft 4-10 drives the extrusion driving mechanism 5.
The sixth specific implementation mode:
the embodiment is described below with reference to fig. 1 to 10, and the extrusion driving mechanism 5 includes a telescopic shaft 5-1, a hinged seat 5-2, a circular pressure plate 5-3, a linkage seat 5-4, a driving rod 5-5, an extrusion driving arm 5-6, an L-shaped arm connecting seat 5-7, and a circular rod chute 5-8; the telescopic shaft 5-1 is positioned in the central shaft 3-1, the upper end of the telescopic shaft 5-1 is connected with a round top seat in a rotating fit manner, a hinged seat 5-2 is fixedly connected on the round top seat, a round pressure plate 5-3 is fixed at the lower end of the telescopic shaft 5-1, the round pressure plate 5-3 is positioned in a round cylinder 1-6, four extrusion plates 3-8 are arranged around the round pressure plate 5-3, the lower end of a linkage rod 4-11 is rotatably connected on the hinged seat 5-2 through a hinged shaft, the linkage seat 5-4 is fixedly connected at the middle part of the telescopic shaft 5-1, the linkage seat 5-4 is connected in the central shaft 3-1 in a sliding fit manner, four U-shaped seats are fixedly connected on the linkage seat 5-4 in a surrounding manner, and are respectively connected in the four rectangular through grooves 3-11 in a sliding, the lower ends of four driving rods 5-5 are respectively and rotatably connected to four U-shaped seats through hinged shafts, the upper ends of the four driving rods 5-5 are respectively and rotatably connected with one extrusion driving arm 5-6, the four extrusion driving arms 5-6 are respectively and rotatably connected to four L-shaped arm connecting seats 5-7 through hinged shafts, the four L-shaped arm connecting seats 5-7 are respectively and fixedly connected to four rectangular frames 3-2, the lower ends of the four extrusion driving arms 5-6 are respectively provided with a round rod sliding groove 5-8, and the four round rods 3-10 are respectively and slidably connected in the four round rod sliding grooves 5-8 in a matching manner. The linkage rod 4-11 drives the telescopic shaft 5-1 and the circular pressure plate 5-3 to reciprocate up and down through the hinged seat 5-2, the circular pressure plate 5-3 continuously beats raw materials to produce juice, meanwhile, the telescopic shaft 5-1 drives the linkage seat 5-4 to move up and down, the linkage seat 5-4 drives the four driving rods 5-5 to swing, the four driving rods 5-5 drive the four extrusion driving arms 5-6 to swing, the four extrusion driving arms 5-6 drive the four extrusion plates 3-8 to simultaneously disperse or gather together to move, when the circular pressure plate 5-3 moves upwards, the four extrusion plates 3-8 gather together to move towards the circular pressure plate 5-3, the beaten and scattered materials are intensively pushed to the lower part of the circular pressure plate 5-3, when the circular pressure plate 5-3 moves downwards to beat, the four extrusion plates 3-8 deviate from sliding and scatter, due to the matching of the four U-shaped seats and the four rectangular through grooves 3-11, the material rotary extrusion mechanism 3 can drive the extrusion driving mechanism 5 to synchronously rotate while rotating, so that the circular pressing plate 5-3 can do hammering movement, the materials are continuously pushed to the lower part of the circular pressing plate 5-3 by the rotating edges of the four extrusion plates 3-8, the materials are continuously pushed by the four circular pressing plates 5-3 along the circular track, the materials are pushed to the lower part of the circular pressing plate 5-3 without dead angles, all the materials can be extruded by the circular pressing plate 5-3 during each hammering, and all the materials can be fully beaten to obtain juice to extract stock solution.
A method for processing shampoo by an anti-dandruff shampoo preparation system comprises the following steps:
the method comprises the following steps: putting the soaked shampoo raw material with the dandruff removing effect into the material extrusion container assembly 1, and controlling the lifting adjusting mechanism 2 to drive the material rotary extrusion mechanism 3 and the extrusion driving mechanism 5 to descend deeply into the material extrusion container assembly 1;
step two: the circular pressing plate 5-3 beats the raw materials in the material extruding cylinder assembly 1, and meanwhile, the four extruding plates 3-8 continuously push the scattered raw materials to the lower part of the circular pressing plate 5-3 in a centralized manner to beat the raw materials to obtain juice;
step three: the four rotating extrusion plates 3-8 push materials in a circular track, all raw materials are pushed to the lower part of the circular pressing plate 5-3 to be beaten, and omission is avoided;
step four: after the hammering is finished, the lifting adjusting mechanism 2 drives the material rotary extrusion mechanism 3 and the extrusion driving mechanism 5 to move upwards;
step five: the two bottom plates 1-4 are opened, the beaten raw materials and juice discharged from the raw materials fall into the material collecting box 7, and the raw materials and other components in the material collecting box 7 are stirred to be uniformly mixed.
The anti-dandruff shampoo comprises the following components in percentage by mass: 10 parts of coix seed extract, 2 parts of oil cake extract, 5 parts of cassia bark extract, 3 parts of ginseng extract, 1 part of red paeony root extract, 2.5 parts of coconut oil diethanolamide, 0.5 part of astragalus extract, 0.5 part of kelp extract, 10 parts of glycerol, 8 parts of conditioner, 0.1 part of essence, 0.1 part of preservative and 25 parts of deionized water.
The invention relates to an anti-dandruff shampoo, a preparation system thereof and a processing method thereof, wherein the working principle of the anti-dandruff shampoo comprises the following steps: when the shampoo bottle is used, the lifting adjusting mechanism 2 is controlled to drive the material rotary extrusion mechanism 3 and the extrusion driving mechanism 5 to rise to be separated from the material extrusion barrel assembly 1, the soaked shampoo raw material with the dandruff removing effect is put into the material extrusion barrel assembly 1, and the lifting adjusting mechanism 2 is controlled to drive the material rotary extrusion mechanism 3 and the extrusion driving mechanism 5 to descend to penetrate into the material extrusion barrel assembly 1; after the power output mechanism 4 is started, the extrusion driving mechanism 5 is driven to reciprocate up and down, the extrusion driving mechanism 5 beats raw materials in the material extrusion barrel assembly 1, meanwhile, the extrusion driving mechanism 5 and the material rotary extrusion mechanism 3 are matched to drive the four extrusion plates 3-8 to continuously push the scattered raw materials to the lower part of the circular pressure plate 5-3 in a centralized manner to beat the raw materials to obtain juice, the power output mechanism 4 drives the material rotary extrusion mechanism 3 to rotate while working, the material rotary extrusion mechanism 3 drives the four extrusion plates 3-8 to rotate, the four extrusion plates 3-8 continuously push the materials in a circular track, the materials without dead corners are pushed to the lower part of the circular pressure plate 5-3, so that the circular pressure plate 5-3 can extrude all the materials each time, all the materials can be fully beaten to obtain the juice to extract stock solution, after the materials are beated, the lifting adjusting mechanism 2 drives the material rotary extrusion mechanism 3 and the extrusion driving mechanism 5 to move upwards, the two bottom plates 1-4 are opened, the beated raw materials and the extracting solution fall into the material collecting box 7, the heating device on the material collecting box 7 is started, and the raw materials and other components in the material collecting box 7 are heated and stirred to be uniformly mixed.
It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.