CN109758948B

CN109758948B - Shower gel processing system, shower gel processing method and shower gel

Info

Publication number: CN109758948B
Application number: CN201910152334.3A
Authority: CN
Inventors: 魏霞
Original assignee: Zhejiang British Tree Biotechnology Co Ltd
Current assignee: Zhejiang British tree Biotechnology Co., Ltd.
Priority date: 2019-02-28
Filing date: 2019-02-28
Publication date: 2020-02-28
Anticipated expiration: 2039-02-28
Also published as: CN109758948A

Abstract

The invention relates to a shower gel processing system, a processing method and shower gel, in particular to a shower gel processing system, a shower gel processing method and shower gel, wherein the shower gel comprises the following components in parts by weight: 30% of gleditsia sinensis extract, 4% -8% of lauric acid, 3-5% of houttuynia cordata extract powder, 0.4% of osmanthus fragrans essence, 1.6% of tocopherol acetate and the balance of deionized water. Different raw materials required for processing shower gel are placed in a mixing drum, and the different raw materials in the mixing drum are uniformly mixed by two mixing rods; the power mechanism drives the transmission mechanism I and the transmission mechanism II to intermittently move, the transmission mechanism I drives the replacing mechanism to move when moving, and the transmission mechanism II drives the extruding mechanism to move when moving; the replacement of the containing bottle positioned at the lower side of the extrusion container is completed when the replacement mechanism moves; when the extrusion mechanism moves, the storage bottle which is positioned at the lower side of the extrusion container is filled with the same amount of shower gel.

Description

Shower gel processing system, shower gel processing method and shower gel

Technical Field

The invention relates to a shower gel processing system, a processing method and shower gel, in particular to a shower gel processing system, a shower gel processing method and shower gel.

Background

For example, publication number CN207595364U automatic filling device of mineral salt shower bath in bags, including frame, hydraulic pressure lift jar, flap storage box and collection spout, the bottom is equipped with the conveyer belt body in the frame, be equipped with the fixation clamp in bags on the conveyer belt body, the air-blower is installed through the mount pad in the top in the frame, the bottom of air-blower is equipped with supply air duct, one side of air-blower is equipped with the shower bath storage jar, the bottom of shower bath storage jar is equipped with the filling mouth, one side of shower bath storage jar is equipped with the mounting bracket, be equipped with the rotating electrical machines in the mounting bracket, the top of rotating electrical machines is equipped. The automatic filling device for the mineral salt shower gel in bags is reasonable in design, automatic filling of the shower gel is realized through the conveyor belt body and the filling nozzle, and automatic cover screwing can be realized through the rotating motor and the bag cover fixing clamp; the utility model has the defect that equal amount of shower gel can not be efficiently placed in each shower gel bottle.

Disclosure of Invention

The invention aims to provide a shower gel processing system, a shower gel processing method and shower gel, which can efficiently place the same amount of shower gel in each shower gel bottle.

The purpose of the invention is realized by the following technical scheme:

a shower gel processing system comprises a processing support, a stirring support, a replacing mechanism, a power mechanism, a transmission mechanism I, an extruding mechanism, a one-way mechanism and a transmission mechanism II, wherein the stirring support is fixedly connected to the processing support, the replacing mechanism is rotatably connected to the processing support, the upper end of the power mechanism is fixedly connected to the stirring support, the lower end of the power mechanism is rotatably connected to the processing support, the transmission mechanism I is in meshing transmission with the power mechanism, the extruding mechanism is arranged on the stirring support and is in transmission connection with the transmission mechanism I through a belt, the extruding mechanism extrudes repeated shower gel in the stirring support into the replacing mechanism, the one-way mechanism is fixedly connected to the stirring support, the transmission mechanism II is rotatably connected to the processing support, one end of the transmission mechanism II is in meshing, one end of the transmission mechanism II is in meshing transmission with the replacing mechanism.

According to the further optimization of the technical scheme, the processing support comprises a processing support body, a mounting cylinder, supporting legs and a supporting plate, the mounting cylinder is fixedly connected to the supporting ring, the four supporting legs are uniformly and fixedly connected to the supporting ring, and the supporting plate is fixedly connected to one of the supporting legs.

As a further optimization of the technical scheme, the shower gel processing system comprises a stirring barrel, a gear ring, a motor supporting plate, a rotating supporting plate, a connecting column, a discharging frame and a squeezing barrel, wherein the gear ring is fixedly connected to the upper end of the stirring barrel, the motor supporting plate and the rotating supporting plate are fixedly connected to the stirring barrel, the connecting column is fixedly connected between the connecting plate and the stirring barrel, the discharging frame is arranged in an inclined mode, the discharging frame is fixedly connected to the stirring barrel, the discharging frame is communicated with the stirring barrel, the squeezing barrel is fixedly connected to the discharging frame, the squeezing barrel is communicated with the discharging frame, and the connecting plate is fixedly connected to the mounting barrel.

According to the shower gel processing system, the replacing mechanism comprises a replacing rotary drum, a replacing gear ring, replacing rods, replacing rings and storage bottles, the replacing rotary drum is rotatably connected to the mounting drum, the replacing gear ring is fixedly connected to the replacing rotary drum, the replacing rotary drum is uniformly and fixedly connected with the four replacing rods, the replacing rings are fixedly connected to the outer sides of the four replacing rods, and the storage bottles are placed on the four replacing rings.

As a further optimization of the technical scheme, the shower gel processing system provided by the invention comprises a power mechanism, wherein the power mechanism comprises a motor, a planet plate, a planet shaft, planet wheels, stirring rods, a power shaft and a tooth-lacking gear, the motor is fixedly connected to a motor supporting plate, the power shaft is fixedly connected to an output shaft of the motor, the upper end of the power shaft is fixedly connected with the planet plate, the lower end of the power shaft is fixedly connected with the tooth-lacking gear, the planet plate is fixedly connected with two planet shafts, the two planet shafts are rotatably connected with the planet wheels, the lower ends of the two planet wheels are fixedly connected with the stirring rods, the two stirring rods are arranged in a stirring cylinder, the two planet wheels are in meshing transmission with a gear ring, and the tooth-lacking gear is provided with a half-.

As further optimization of the technical scheme, the shower gel processing system comprises a transmission mechanism I, a transmission gear I, a transmission bevel gear I, a transmission shaft II, a transmission bevel gear II and a transmission belt wheel I, wherein the transmission shaft I is rotatably connected to a supporting leg on one side, the transmission shaft II is rotatably connected to a supporting plate, the transmission gear I and the transmission bevel gear I are fixedly connected to the transmission shaft I, the transmission bevel gear II and the transmission belt wheel I are fixedly connected to the transmission shaft II, the transmission bevel gear I and the transmission bevel gear II are in meshing transmission, the transmission ratio between the transmission bevel gear I and the transmission bevel gear II is one, the transmission gear I and a tooth-lacking gear are in meshing transmission, and the reference circle diameter of the tooth-lacking gear is twice the reference circle diameter of the transmission gear I;

the transmission mechanism II comprises a transmission shaft III, a transmission gear II and a transmission gear III, the transmission shaft III is rotatably connected to the supporting leg on the other side, the transmission gear II and the transmission gear III are fixedly connected to the transmission shaft III, the transmission gear II is in meshing transmission with the replacing gear ring, the reference circle diameter of the transmission gear II is one fourth of the reference circle diameter of the replacing gear ring, the transmission gear III is in meshing transmission with the tooth-lacking gear, and the reference circle diameter of the tooth-lacking gear is twice of the reference circle diameter of the transmission gear III.

As a further optimization of the technical scheme, the shower gel processing system comprises an extrusion mechanism, an extrusion belt wheel, an extrusion crank, an extrusion plate and an extrusion connecting rod, wherein the extrusion shaft is rotatably connected to a rotating support plate, the extrusion belt wheel and the extrusion crank are fixedly connected to the extrusion shaft, the extrusion belt wheel is in belt transmission connection with a transmission belt wheel I, the transmission ratio between the extrusion belt wheel and the transmission belt wheel I is one, one end of the extrusion connecting rod is hinged to the eccentric position of the extrusion crank, the other side of the extrusion connecting rod is hinged to the extrusion plate, and the extrusion plate is slidably connected in an extrusion cylinder.

As further optimization of the technical scheme, the shower gel processing system comprises a one-way plate I, a one-way plate II, a one-way sliding column and a conical block, wherein the one-way plate I and the one-way plate II are fixedly connected to the lower end of an extrusion cylinder, a conical hole is formed in the one-way plate II, the one-way plate I is located at the lower end of the one-way plate II, the one-way sliding column is connected to the one-way plate I in a sliding mode, the conical block is fixedly connected to the upper end of the one-way sliding column and abuts against the conical hole formed in the one-way plate II, a compression spring is sleeved on the one-way sliding column, and the compression spring is located between the one-way.

A method for processing shower gel comprises the following steps;

the method comprises the following steps: different raw materials required for processing shower gel are placed in a mixing drum, and the different raw materials in the mixing drum are uniformly mixed by two mixing rods;

step two: the power mechanism drives the transmission mechanism I and the transmission mechanism II to intermittently move, the transmission mechanism I drives the replacing mechanism to move when moving, and the transmission mechanism II drives the extruding mechanism to move when moving;

step three: the replacement of the containing bottle positioned at the lower side of the extrusion container is completed when the replacement mechanism moves;

step four: when the extrusion mechanism moves, the storage bottle which is positioned at the lower side of the extrusion container is filled with the same amount of shower gel.

The shower gel processed by the method for processing the shower gel comprises the following components in percentage by weight: 30% of gleditsia sinensis extract, 4% -8% of lauric acid, 3-5% of houttuynia cordata extract powder, 0.4% of osmanthus fragrans essence, 1.6% of tocopherol acetate and the balance of deionized water.

The shower gel processing system, the shower gel processing method and the shower gel have the beneficial effects that:

according to the shower gel processing system, the shower gel processing method and the shower gel, different raw materials required for processing the shower gel are placed in the mixing drum, and the different raw materials in the mixing drum are uniformly mixed by the two mixing rods; the power mechanism drives the transmission mechanism I and the transmission mechanism II to intermittently move, the transmission mechanism I drives the replacing mechanism to move when moving, and the transmission mechanism II drives the extruding mechanism to move when moving; the replacement of the containing bottle positioned at the lower side of the extrusion container is completed when the replacement mechanism moves; when the extrusion mechanism moves, the storage bottle which is positioned at the lower side of the extrusion container is filled with the same amount of shower gel.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic diagram of the overall structure of the shower gel processing system of the present invention;

FIG. 2 is a schematic cross-sectional view of a shower gel processing system of the present invention;

FIG. 3 is a schematic view of a part of the shower gel processing system of the present invention;

FIG. 4 is a schematic view of a processing fixture according to the present invention;

FIG. 5 is a schematic view of the stirring support structure of the present invention;

FIG. 6 is a schematic view of the replacement mechanism of the present invention;

FIG. 7 is a schematic diagram of a power mechanism according to the present invention;

FIG. 8 is a schematic structural diagram of a transmission mechanism I of the invention;

FIG. 9 is a schematic view of the pressing mechanism of the present invention;

FIG. 10 is a schematic view of the one-way mechanism of the present invention;

FIG. 11 is a schematic cross-sectional view of the one-way mechanism of the present invention;

fig. 12 is a schematic structural diagram of a transmission mechanism II of the invention.

In the figure: processing the bracket 1; a support ring 1-1; mounting the cylinder 1-2; 1-3 of supporting legs; support plates 1-4; a stirring support 2; 2-1 of a mixing drum; a gear ring 2-2; a motor support plate 2-3; rotating the support plate 2-4; 2-5 of a connecting plate; connecting columns 2-6; 2-7 of a discharging frame; 2-8 parts of an extrusion cylinder; a replacement mechanism 3; replacing the rotary drum 3-1; replacing the gear ring 3-2; replacing the rod 3-3; replacing rings 3-4; 3-5 of a containing bottle; a power mechanism 4; a motor 4-1; 4-2 of a planet plate; 4-3 of a planet shaft; a planet wheel 4-4; 4-5 parts of a stirring rod; 4-6 of a power shaft; 4-7 of a gear with missing teeth; a transmission mechanism I5; a transmission shaft I5-1; a transmission gear I5-2; 5-3 parts of transmission bevel gear; 5-4 of a transmission shaft II; 5-5 parts of transmission bevel gear II; 5-6 parts of a transmission belt wheel; an extrusion mechanism 6; 6-1 of an extrusion shaft; a squeezing pulley 6-2; 6-3 of an extrusion crank; 6-4 of an extrusion plate; 6-5 of an extrusion connecting rod; a one-way mechanism 7; a unidirectional plate I7-1; a unidirectional plate II 7-2; 7-3 of a one-way sliding column; 7-4 of a conical block; a transmission mechanism II 8; a transmission shaft III 8-1; a transmission gear II 8-2; and a transmission gear III 8-3.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 12, a bath lotion processing system, which comprises a processing bracket 1, a stirring bracket 2, a replacing mechanism 3, a power mechanism 4, a transmission mechanism i 5, a squeezing mechanism 6, a one-way mechanism 7 and a transmission mechanism ii 8, wherein the stirring bracket 2 is fixedly connected to the processing bracket 1, the replacing mechanism 3 is rotatably connected to the processing bracket 1, the upper end of the power mechanism 4 is fixedly connected to the stirring bracket 2, the lower end of the power mechanism 4 is rotatably connected to the processing bracket 1, the transmission mechanism i 5 is in meshing transmission with the power mechanism 4, the squeezing mechanism 6 is mounted on the stirring bracket 2, the squeezing mechanism 6 is in transmission connection with the transmission mechanism i 5 through a belt, the squeezing mechanism 6 squeezes repeated bath lotion in the stirring bracket 2 into the replacing mechanism 3, and the one-way mechanism 7 is fixedly, the transmission mechanism II 8 is rotationally connected to the processing bracket 1, one end of the transmission mechanism II 8 is in meshing transmission with the power mechanism 4, and one end of the transmission mechanism II 8 is in meshing transmission with the replacing mechanism 3; different raw materials required for processing shower gel are all placed in a stirring cylinder 2-1, and the two stirring rods 4-5 uniformly stir the different raw materials in the stirring cylinder 2-1; the power mechanism 4 drives the transmission mechanism I5 and the transmission mechanism II 8 to intermittently move, the transmission mechanism I5 drives the change mechanism 3 to move when moving, and the transmission mechanism II 8 drives the extrusion mechanism 6 to move when moving; the replacement of the containing bottles 3-5 positioned at the lower side of the extrusion containers 2-8 is completed when the replacement mechanism 3 moves; when the squeezing mechanism 6 moves, the container bottles 3-5 positioned at the lower sides of the squeezing barrels 2-8 are filled with the same amount of shower gel.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 12, and the embodiment further describes the first embodiment, where the processing support 1 includes a processing support 1 including a support ring 1-1, an installation cylinder 1-2, support legs 1-3, and support plates 1-4, the support ring 1-1 is fixedly connected with the installation cylinder 1-2, the support ring 1-1 is uniformly and fixedly connected with four support legs 1-3, and one of the support legs 1-3 is fixedly connected with the support plate 1-4.

The third concrete implementation mode:

the second embodiment is further described with reference to fig. 1-12, wherein the mixing frame 2 includes a mixing drum 2-1, a gear ring 2-2, a motor support plate 2-3, a rotating support plate 2-4, a connecting plate 2-5, a connecting post 2-6, a discharging frame 2-7 and an extruding drum 2-8, the upper end of the mixing drum 2-1 is fixedly connected with the gear ring 2-2, the mixing drum 2-1 is fixedly connected with the motor support plate 2-3 and the rotating support plate 2-4, the connecting post 2-6 is fixedly connected between the connecting plate 2-5 and the mixing drum 2-1, the discharging frame 2-7 is obliquely arranged, the discharging frame 2-7 is fixedly connected to the mixing drum 2-1, the discharging frame 2-7 is communicated with the mixing drum 2-1, the extrusion cylinder 2-8 is fixedly connected with the discharging frame 2-7, the extrusion cylinder 2-8 is communicated with the discharging frame 2-7, and the connecting plate 2-5 is fixedly connected with the mounting cylinder 1-2; when in use, different raw materials required for processing shower gel are all placed in the mixing drum 2-1.

The fourth concrete implementation mode:

the third embodiment is further described with reference to fig. 1-12, in which the replacing mechanism 3 includes a replacing rotary drum 3-1, a replacing gear ring 3-2, a replacing rod 3-3, a replacing ring 3-4 and a storage bottle 3-5, the replacing rotary drum 3-1 is rotatably connected to the mounting drum 1-2, the replacing rotary drum 3-1 is fixedly connected with the replacing gear ring 3-2, the replacing rotary drum 3-1 is uniformly and fixedly connected with four replacing rods 3-3, the outer sides of the four replacing rods 3-3 are fixedly connected with the replacing ring 3-4, and the storage bottles 3-5 are placed on the four replacing rings 3-4.

The fifth concrete implementation mode:

the fourth embodiment is described below with reference to fig. 1 to 12, and the fourth embodiment is further described, where the power mechanism 4 includes a motor 4-1, a planetary plate 4-2, a planetary shaft 4-3, a planetary wheel 4-4, a stirring rod 4-5, a power shaft 4-6 and a tooth-missing gear 4-7, the motor 4-1 is fixedly connected to a motor support plate 2-3, the power shaft 4-6 is fixedly connected to an output shaft of the motor 4-1, an upper end of the power shaft 4-6 is fixedly connected to the planetary plate 4-2, a lower end of the power shaft 4-6 is fixedly connected to the tooth-missing gear 4-7, the planetary plate 4-2 is fixedly connected to two planetary shafts 4-3, and both planetary shafts 4-3 are rotatably connected to planetary wheels 4-4, the lower ends of the two planet wheels 4-4 are fixedly connected with stirring rods 4-5, the two stirring rods 4-5 are arranged in the stirring cylinder 2-1, the two planet wheels 4-4 are in meshing transmission with the gear ring 2-2, and the tooth-missing gear 4-7 is provided with a half-circle tooth; starting a motor 4-1, starting rotation of an output shaft of the motor 4-1, driving a power shaft 4-6 to rotate by taking the axis of the power shaft 4-6 as the center by the output shaft of the motor 4-1, driving a planet plate 4-2 to rotate by taking the axis of the power shaft 4-6 as the center by the power shaft 4-6, driving two planet shafts 4-3 to rotate by taking the axis of the power shaft 4-6 as the center, driving two planet wheels 4-4 to rotate by taking the axis of the power shaft 4-6 as the center respectively by the planet plate 4-2, driving two stirring rods 4-5 to rotate by taking the axis of the power shaft 4-6 as the center respectively by the two planet wheels 4-4, driving the two planet wheels 4-4 to be meshed with a gear ring 2-2, and enabling the two planet wheels 4-4 to rotate while rotating by taking the axis of the power shaft 4-6 as the center, the two planet wheels 4-4 respectively drive the two stirring rods 4-5 to rotate and simultaneously rotate, and the two stirring rods 4-5 stir the shower gel raw material placed in the stirring cylinder 2-1; the power shaft 4-6 drives the gear with missing teeth 4-7 to rotate by taking the axis of the power shaft 4-6 as the center, and when the gear with missing teeth 4-7 is about to enter a meshing stage with the transmission gear I5-2 during installation, one of the four containing bottles 3-5 is positioned under the extrusion cylinder 2-8.

The sixth specific implementation mode:

the embodiment is described below with reference to fig. 1-12, and the fifth embodiment is further described, wherein the transmission mechanism i 5 comprises a transmission shaft i 5-1, a transmission gear i 5-2, a transmission bevel gear i 5-3, a transmission shaft ii 5-4, a transmission bevel gear ii 5-5 and a transmission pulley i 5-6, the transmission shaft i 5-1 is rotatably connected to the supporting leg 1-3 on one side, the transmission shaft ii 5-4 is rotatably connected to the supporting plate 1-4, the transmission gear i 5-2 and the transmission bevel gear i 5-3 are fixedly connected to the transmission shaft i 5-1, the transmission bevel gear ii 5-5 and the transmission pulley i 5-6 are fixedly connected to the transmission shaft ii 5-4, the transmission bevel gear i 5-3 and the transmission bevel gear ii 5-5 are in mesh transmission, the transmission ratio between the transmission bevel gear I5-3 and the transmission bevel gear II 5-5 is one, the transmission gear I5-2 is in meshed transmission with the tooth-missing gear 4-7, and the reference circle diameter of the tooth-missing gear 4-7 is twice that of the transmission gear I5-2;

the transmission mechanism II 8 comprises a transmission shaft III 8-1, a transmission gear II 8-2 and a transmission gear III 8-3, the transmission shaft III 8-1 is rotatably connected to the supporting leg 1-3 on the other side, the transmission shaft III 8-1 is fixedly connected with the transmission gear II 8-2 and the transmission gear III 8-3, the transmission gear II 8-2 is in meshing transmission with the replacement gear ring 3-2, the reference circle diameter of the transmission gear II 8-2 is one fourth of the reference circle diameter of the replacement gear ring 3-2, the transmission gear III 8-3 is in meshing transmission with the gear with teeth missing 4-7, and the reference circle diameter of the gear with teeth missing 4-7 is twice of the reference circle diameter of the transmission gear III 8-3; a half circle of teeth are arranged on the gear lacking gear 4-7, the transmission gear I5-2 and the gear lacking gear 4-7 are in meshed transmission, the reference circle diameter of the gear lacking gear 4-7 is twice of that of the transmission gear I5-2, the transmission gear I5-2 is driven to rotate for one circle when the gear lacking gear 4-7 rotates for one circle, the transmission gear I5-2 drives the transmission shaft I5-1 to rotate by taking the self axis as the center, the transmission shaft I5-1 drives the transmission bevel gear I5-3 to rotate by taking the self axis as the center, the transmission bevel gear I5-3 drives the transmission bevel gear II 5-5 to rotate by taking the self axis as the center, the transmission bevel gear II 5-5 drives the transmission shaft II 5-4 to rotate by taking the self axis as the center, and the transmission shaft II 5-4 drives the transmission belt pulley I5-6 to rotate by taking the self axis as the center; when the gear lacking gear 4-7 and the transmission gear I5-2 are in meshing transmission, the gear lacking gear 4-7 and the transmission gear III 8-3 are out of meshing transmission, the reference circle diameter of the gear lacking gear 4-7 is twice of that of the transmission gear III 8-3, the transmission gear III 8-3 is driven to rotate for one circle when the gear lacking gear 4-7 rotates for one circle, the transmission gear III 8-3 drives the transmission shaft III 8-1 to rotate for one circle by taking the self axis as the center, the transmission shaft III 8-1 drives the transmission gear II 8-2 to rotate for one circle by taking the self axis as the center, the reference circle diameter of the transmission gear II 8-2 is one fourth of the reference circle diameter of the replacing gear ring 3-2, the transmission gear II 8-2 drives the replacing gear ring 3-2 to rotate for one fourth of a circle by taking the self axis as the center, the replacement of the next receiving bottle 3-5 is completed.

The seventh embodiment:

the embodiment is described below with reference to fig. 1 to 12, and the sixth embodiment is further described in the present embodiment, where the squeezing mechanism 6 includes a squeezing shaft 6-1, a squeezing pulley 6-2, a squeezing crank 6-3, a squeezing plate 6-4 and a squeezing connecting rod 6-5, the squeezing shaft 6-1 is rotatably connected to the rotating support plate 2-4, the squeezing pulley 6-2 and the squeezing crank 6-3 are fixedly connected to the squeezing shaft 6-1, the squeezing pulley 6-2 and the driving pulley i 5-6 are connected by a belt, the transmission ratio between the squeezing pulley 6-2 and the driving pulley i 5-6 is one, one end of the squeezing connecting rod 6-5 is hinged to an eccentric position of the squeezing crank 6-3, and the other end of the squeezing connecting rod 6-5 is hinged to the squeezing plate 6-4, the extrusion plates 6-4 are connected in the extrusion cylinders 2-8 in a sliding manner; the driving belt wheel I5-6 drives the extrusion belt wheel 6-2 to rotate for a circle by taking the axis of the extrusion belt wheel as a center, the extrusion belt wheel 6-2 drives the extrusion shaft 6-1 to rotate for a circle by taking the axis of the extrusion shaft as a center, the extrusion shaft 6-1 drives the extrusion crank 6-3 to rotate for a circle by taking the axis of the extrusion shaft as a center, and the extrusion crank 6-3 drives the extrusion plate 6-4 to reciprocate up and down in the extrusion cylinder 2-8 for a period so as to extrude the shower gel mixed and stirred in the stirring cylinder 2-1.

The specific implementation mode is eight:

the following describes the present embodiment with reference to fig. 1 to 12, which further describes the seventh embodiment, wherein the one-way mechanism 7 includes a one-way plate i 7-1, a one-way plate ii 7-2, a one-way sliding column 7-3, and a tapered block 7-4, the one-way plate i 7-1 and the one-way plate ii 7-2 are both fixedly connected to the lower end of the extrusion cylinder 2-8, the one-way plate ii 7-2 is provided with a tapered hole, the one-way plate i 7-1 is located at the lower end of the one-way plate ii 7-2, the one-way sliding column 7-3 is slidably connected to the one-way plate i 7-1, the upper end of the one-way sliding column 7-3 is fixedly connected to the tapered block 7-4, the tapered block 7-4 is supported in the tapered hole provided on the one-way plate ii 7-2, the one, the compression spring is positioned between the one-way plate I7-1 and the conical block 7-4; shower gel extrusion compression spring promotes one-way slip post 7-3 and slides on one-way board I7-1, and the shower gel falls into the storage bottle 3-5 that is located the lower extreme through one-way board I7-1.

A method for processing shower gel is characterized in that: the method comprises the following steps:

the method comprises the following steps: different raw materials required for processing shower gel are all placed in a stirring cylinder 2-1, and the two stirring rods 4-5 uniformly stir the different raw materials in the stirring cylinder 2-1;

step two: the power mechanism 4 drives the transmission mechanism I5 and the transmission mechanism II 8 to intermittently move, the transmission mechanism I5 drives the change mechanism 3 to move when moving, and the transmission mechanism II 8 drives the extrusion mechanism 6 to move when moving;

step three: the replacement of the containing bottles 3-5 positioned at the lower side of the extrusion containers 2-8 is completed when the replacement mechanism 3 moves;

step four: when the squeezing mechanism 6 moves, the container bottles 3-5 positioned at the lower sides of the squeezing barrels 2-8 are filled with the same amount of shower gel.

The shower gel processing system, the shower gel processing method and the shower gel have the working principles that:

when the shower gel processing device is used, different raw materials required for processing shower gel are placed in the stirring cylinder 2-1, the motor 4-1 is started, the output shaft of the motor 4-1 starts to rotate, the output shaft of the motor 4-1 drives the power shaft 4-6 to rotate by taking the axis of the power shaft 4-6 as the center, the power shaft 4-6 drives the planet plate 4-2 to rotate by taking the axis of the power shaft 4-6 as the center, the planet plate 4-2 drives the two planet shafts 4-3 to rotate by taking the axis of the power shaft 4-6 as the center, the two planet shafts 4-3 respectively drive the two planet wheels 4-4 to rotate by taking the axis of the power shaft 4-6 as the center, the two planet wheels 4-4 respectively drive the two stirring rods 4-5 to rotate by taking the axis of the power shaft 4-6 as the center, the two planet wheels 4-4 are in meshing transmission with the gear ring, the two planet wheels 4-4 rotate while rotating by taking the axis of the power shaft 4-6 as a center, the two planet wheels 4-4 respectively drive the two stirring rods 4-5 to rotate while rotating, and the two stirring rods 4-5 stir the shower gel raw material placed in the stirring cylinder 2-1; the power shaft 4-6 drives the gear with missing teeth 4-7 to rotate by taking the axis of the power shaft 4-6 as the center, and when the gear with missing teeth 4-7 is about to enter a meshing stage with the transmission gear I5-2 during installation, one of the four containing bottles 3-5 is positioned under the extrusion cylinder 2-8; a half circle of teeth are arranged on the gear lacking gear 4-7, the transmission gear I5-2 and the gear lacking gear 4-7 are in meshed transmission, the reference circle diameter of the gear lacking gear 4-7 is twice of that of the transmission gear I5-2, the transmission gear I5-2 is driven to rotate for one circle when the gear lacking gear 4-7 rotates for one circle, the transmission gear I5-2 drives the transmission shaft I5-1 to rotate by taking the self axis as the center, the transmission shaft I5-1 drives the transmission bevel gear I5-3 to rotate by taking the self axis as the center, the transmission bevel gear I5-3 drives the transmission bevel gear II 5-5 to rotate by taking the self axis as the center, the transmission bevel gear II 5-5 drives the transmission shaft II 5-4 to rotate by taking the self axis as the center, and the transmission shaft II 5-4 drives the transmission belt pulley I5-6 to rotate by taking the self axis as the center; the driving belt wheel I5-6 drives the extrusion belt wheel 6-2 to rotate for a circle by taking the axis of the extrusion belt wheel as a center, the extrusion belt wheel 6-2 drives the extrusion shaft 6-1 to rotate for a circle by taking the axis of the extrusion shaft as a center, the extrusion shaft 6-1 drives the extrusion crank 6-3 to rotate for a circle by taking the axis of the extrusion shaft as a center, and the extrusion crank 6-3 drives the extrusion plate 6-4 to reciprocate up and down in the extrusion cylinder 2-8 for a period so as to extrude the shower gel mixed and stirred in the stirring cylinder 2-1; the shower gel extrudes the compression spring to push the one-way sliding column 7-3 to slide on the one-way plate I7-1, and the shower gel falls into the storage bottle 3-5 positioned at the lower end through the one-way plate I7-1; when the gear lacking gear 4-7 and the transmission gear I5-2 are in meshing transmission, the gear lacking gear 4-7 and the transmission gear III 8-3 are out of meshing transmission, the reference circle diameter of the gear lacking gear 4-7 is twice of that of the transmission gear III 8-3, the transmission gear III 8-3 is driven to rotate for one circle when the gear lacking gear 4-7 rotates for one circle, the transmission gear III 8-3 drives the transmission shaft III 8-1 to rotate for one circle by taking the self axis as the center, the transmission shaft III 8-1 drives the transmission gear II 8-2 to rotate for one circle by taking the self axis as the center, the reference circle diameter of the transmission gear II 8-2 is one fourth of the reference circle diameter of the replacing gear ring 3-2, the transmission gear II 8-2 drives the replacing gear ring 3-2 to rotate for one fourth of a circle by taking the self axis as the center, the replacement of the next receiving bottle 3-5 is completed.

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.

Claims

1. The utility model provides a shower bath system of processing, is including processing support (1), stirring support (2), change mechanism (3), power unit (4), drive mechanism I (5), extrusion mechanism (6), one-way mechanism (7) and drive mechanism II (8), its characterized in that: stirring support (2) fixed connection is on processing support (1), change mechanism (3) and rotate and connect in processing support (1), the upper end fixed connection of power unit (4) is on stirring support (2), the lower extreme of power unit (4) rotates and connects on processing support (1), drive mechanism I (5) and power unit (4) meshing transmission, extrusion mechanism (6) are installed on stirring support (2), extrusion mechanism (6) and drive mechanism I (5) are connected through the belt transmission, extrusion mechanism (6) extrude the repeated shower bath in stirring support (2) into change mechanism (3), unidirectional mechanism (7) fixed connection is on stirring support (2), drive mechanism II (8) rotate and connect on processing support (1), the one end and power unit (4) meshing transmission of drive mechanism II (8), one end of the transmission mechanism II (8) is in meshed transmission with the replacing mechanism (3);

the processing support (1) comprises a processing support (1) and supporting legs (1-1), an installation cylinder (1-2), supporting legs (1-3) and supporting plates (1-4), wherein the supporting ring (1-1) is fixedly connected with the installation cylinder (1-2), the supporting ring (1-1) is uniformly and fixedly connected with the four supporting legs (1-3), and one supporting leg (1-3) is fixedly connected with the supporting plate (1-4);

the stirring support (2) comprises a stirring cylinder (2-1), a gear ring (2-2), a motor support plate (2-3), a rotating support plate (2-4), a connecting plate (2-5), a connecting column (2-6), a discharging frame (2-7) and an extrusion cylinder (2-8), the gear ring (2-2) is fixedly connected to the upper end of the stirring cylinder (2-1), the motor support plate (2-3) and the rotating support plate (2-4) are fixedly connected to the stirring cylinder (2-1), the connecting column (2-6) is fixedly connected between the connecting plate (2-5) and the stirring cylinder (2-1), the discharging frame (2-7) is obliquely arranged, the discharging frame (2-7) is fixedly connected to the stirring cylinder (2-1), and the discharging frame (2-7) is communicated with the stirring cylinder (2-1), the extrusion cylinder (2-8) is fixedly connected with the discharging frame (2-7) in an easy manner, the extrusion cylinder (2-8) is communicated with the discharging frame (2-7), and the connecting plate (2-5) is fixedly connected with the mounting cylinder (1-2);

the replacing mechanism (3) comprises a replacing rotary drum (3-1), a replacing gear ring (3-2), replacing rods (3-3), replacing rings (3-4) and storage bottles (3-5), the replacing rotary drum (3-1) is rotationally connected to the mounting drum (1-2), the replacing gear ring (3-2) is fixedly connected to the replacing rotary drum (3-1), four replacing rods (3-3) are uniformly and fixedly connected to the replacing rotary drum (3-1), the replacing rings (3-4) are fixedly connected to the outer sides of the four replacing rods (3-3), and the storage bottles (3-5) are placed on the four replacing rings (3-4);

the power mechanism (4) comprises a motor (4-1), a planet plate (4-2), planet shafts (4-3), planet wheels (4-4), a stirring rod (4-5), power shafts (4-6) and tooth-missing gears (4-7), the motor (4-1) is fixedly connected to a motor supporting plate (2-3), the power shafts (4-6) are fixedly connected to an output shaft of the motor (4-1), the upper ends of the power shafts (4-6) are fixedly connected with the planet plate (4-2), the lower ends of the power shafts (4-6) are fixedly connected with the tooth-missing gears (4-7), the planet plate (4-2) is fixedly connected with two planet shafts (4-3), the two planet shafts (4-3) are both rotatably connected with the planet wheels (4-4), the lower ends of the two planet wheels (4-4) are fixedly connected with stirring rods (4-5), the two stirring rods (4-5) are arranged in the stirring cylinder (2-1), the two planet wheels (4-4) are in meshing transmission with the gear ring (2-2), and the tooth-missing gear (4-7) is provided with a half-ring tooth;

the transmission mechanism I (5) comprises a transmission shaft I (5-1), a transmission gear I (5-2), a transmission bevel gear I (5-3), a transmission shaft II (5-4), a transmission bevel gear II (5-5) and a transmission belt wheel I (5-6), the transmission shaft I (5-1) is rotatably connected to the supporting leg (1-3) on one side, the transmission shaft II (5-4) is rotatably connected to the supporting plate (1-4), the transmission shaft I (5-1) is fixedly connected with the transmission gear I (5-2) and the transmission bevel gear I (5-3), the transmission shaft II (5-4) is fixedly connected with the transmission bevel gear II (5-5) and the transmission belt wheel I (5-6), and the transmission bevel gear I (5-3) is in meshing transmission with the transmission bevel gear II (5-5), the transmission ratio between the transmission bevel gear I (5-3) and the transmission bevel gear II (5-5) is one, the transmission gear I (5-2) and the tooth-missing gear (4-7) are in meshing transmission, and the reference circle diameter of the tooth-missing gear (4-7) is twice of that of the transmission gear I (5-2);

the transmission mechanism II (8) comprises a transmission shaft III (8-1), the transmission gear II (8-2) and the transmission gear III (8-3) are connected to the supporting leg (1-3) on the other side in a rotating mode, the transmission gear II (8-2) and the transmission gear III (8-3) are fixedly connected to the transmission shaft III (8-1), the transmission gear II (8-2) is in meshing transmission with the replacing gear ring (3-2), the reference circle diameter of the transmission gear II (8-2) is one fourth of the reference circle diameter of the replacing gear ring (3-2), the transmission gear III (8-3) is in meshing transmission with the toothless gear (4-7), and the reference circle diameter of the toothless gear (4-7) is twice of the reference circle diameter of the transmission gear III (8-3).

2. The body wash processing system of claim 1, wherein: the extrusion mechanism (6) comprises an extrusion shaft (6-1), an extrusion belt wheel (6-2), an extrusion crank (6-3), an extrusion plate (6-4) and an extrusion connecting rod (6-5), the extrusion shaft (6-1) is rotatably connected to a rotating support plate (2-4), the extrusion belt wheel (6-2) and the extrusion crank (6-3) are fixedly connected to the extrusion shaft (6-1), the extrusion belt wheel (6-2) is connected with a transmission belt wheel I (5-6) through belt transmission, the transmission ratio between the extrusion belt wheel (6-2) and the transmission belt wheel I (5-6) is one, one end of the extrusion connecting rod (6-5) is hinged at the eccentric position of the extrusion crank (6-3), and the other side of the extrusion connecting rod (6-5) is hinged on the extrusion plate (6-4), the extrusion plates (6-4) are connected in the extrusion cylinders (2-8) in a sliding way.

3. The body wash processing system of claim 2, wherein: the one-way mechanism (7) comprises a one-way plate I (7-1), a one-way plate II (7-2), a one-way sliding column (7-3) and a conical block (7-4), the one-way plate I (7-1) and the one-way plate II (7-2) are fixedly connected to the lower end of the extrusion cylinder (2-8), the one-way plate II (7-2) is provided with a conical hole, the one-way plate I (7-1) is positioned at the lower end of the one-way plate II (7-2), the one-way sliding column (7-3) is slidably connected to the one-way plate I (7-1), the upper end of the one-way sliding column (7-3) is fixedly connected with the conical block (7-4), the conical block (7-4) abuts against the conical hole formed in the one-way plate II (7-2), the one-way sliding column (7-3) is, the compression spring is positioned between the one-way plate I (7-1) and the conical block (7-4).

4. The method for processing the shower gel by adopting the shower gel processing system as claimed in claim 3, is characterized in that: the method comprises the following steps:

the method comprises the following steps: different raw materials required for processing shower gel are placed in the mixing drum (2-1), and the two mixing rods (4-5) are used for uniformly mixing the different raw materials in the mixing drum (2-1);

step two: the power mechanism (4) drives the transmission mechanism I (5) and the transmission mechanism II (8) to move intermittently, the transmission mechanism I (5) drives the change mechanism (3) to move when moving, and the transmission mechanism II (8) drives the extrusion mechanism (6) to move when moving;

step three: the replacement of the containing bottles (3-5) positioned at the lower side of the extrusion containers (2-8) is completed when the replacement mechanism (3) moves;

step four: when the squeezing mechanism (6) moves, the same amount of shower gel is filled in the storage bottles (3-5) positioned at the lower sides of the squeezing barrels (2-8).

5. The shower gel processed by the shower gel processing system according to claim 4, wherein the shower gel processing system comprises: the shower gel comprises the following components in percentage by weight: 30% of gleditsia sinensis extract, 4% -8% of lauric acid, 3-5% of houttuynia cordata extract powder, 0.4% of osmanthus fragrans essence, 1.6% of tocopherol acetate and the balance of deionized water.