CN115253781A

CN115253781A - Raw material mixing equipment

Info

Publication number: CN115253781A
Application number: CN202210975405.1A
Authority: CN
Inventors: 卢家林
Original assignee: Individual
Current assignee: Lu'an Yuanrong Ting Electromechanical Technology Co ltd
Priority date: 2022-08-15
Filing date: 2022-08-15
Publication date: 2022-11-01
Anticipated expiration: 2042-08-15
Also published as: CN115253781B

Abstract

The invention discloses raw material mixing equipment which comprises a feeding and discharging device and a stirring device, wherein the feeding and discharging device is used for conveying cosmetic raw materials to the stirring device and outputting the stirred and mixed cosmetic raw materials outwards; the cosmetic raw material mixing equipment in the prior art is difficult to fully and uniformly mix the cosmetic raw materials when stirring and mixing the cosmetic raw materials, in addition, a plurality of residues are generated in the cosmetics during stirring and are attached to the inside of the equipment, the problem cannot be solved by the cosmetic raw material mixing equipment in the prior art, most of the residues need to be treated by manually disassembling equipment, the defects in the prior art are overcome by the unique design of the invention, the cosmetic raw materials can be fully mixed and stirred by adopting a mode of combining various motions, and high-quality raw materials are provided for the subsequent processing of the cosmetics.

Description

Raw material mixing equipment

Technical Field

The invention relates to the field of cosmetic processing, in particular to raw material mixing equipment.

Background

A raw materials mixing equipment under prior art stirs the mixing process to the cosmetics raw materials, is difficult to accomplish the abundant even mixture to the cosmetics raw materials, in addition, cosmetics can produce a great deal of in the stirring and remain attached inside the equipment, and a raw materials mixing equipment under the prior art fails to solve this problem, mostly all needs the manual work to dismantle and equips the processing residual substance.

The unique design of the invention solves the defects in the prior art, the invention adopts a mode of combining various motions to fully mix and stir cosmetic raw materials, and provides a higher-quality raw material for the subsequent processing of cosmetics.

Disclosure of Invention

The invention is made in view of the above problems, and an object of the invention is to provide a raw material mixing device, a unique design of the invention solves the disadvantages of the prior art, the invention can sufficiently mix and stir cosmetic raw materials by adopting a plurality of motion combination modes, and provides a better raw material for subsequent cosmetic processing, besides, the unique telescopic structure of the invention can remove residual substances attached to the inside of the device, and the problem that manual cleaning wastes time and labor is solved;

in order to achieve the purpose, the technical scheme provided by the invention is as follows.

The utility model provides a raw materials mixing equipment, its includes business turn over material device, agitating unit, and business turn over material device is used for carrying the cosmetics raw materials to agitating unit and outwards exports the cosmetics raw materials after will stirring the mixture, and agitating unit is used for stirring the mixing processing to the cosmetics raw materials.

Furthermore, the feeding and discharging device comprises a feeding mechanism, a discharging mechanism, a lifting mechanism and a supporting base, wherein the feeding mechanism is used for conveying the cosmetic raw materials to the stirring device, the discharging mechanism is used for outputting the stirred and mixed cosmetic raw materials outwards, and the lifting mechanism is used for driving the stirring device to move in the vertical direction;

the feeding mechanism comprises a feeding cylinder, an installation cylinder, a feeding motor and a rotating cylinder;

the feeding cylinder is of a circular cylinder structure with openings at two ends, the axis of the feeding cylinder is vertically arranged, the feeding cylinder is divided into a vertical section and a circular table section along the vertical downward direction, the top end of the circular table section is a large end, the bottom end of the circular table section is a small end, and the top end of the circular table section is coaxially and fixedly connected and communicated with the bottom end of the vertical section;

the mounting cylinder is of a circular cylinder structure with an opening at one end and a closed end, the axis of the mounting cylinder is perpendicular to the axis of the feeding cylinder, the opening end of the mounting cylinder is coaxially and fixedly provided with a positioning plate, the highest point of the outer circular surface of the mounting cylinder vertically extends upwards to be provided with a first liquid inlet nozzle, the first liquid inlet nozzle is coaxially and fixedly connected and communicated with the bottom end of the feeding cylinder, the lowest point of the outer circular surface of the mounting cylinder vertically extends downwards to be provided with a first liquid outlet nozzle, and the first liquid outlet nozzle and the first liquid inlet nozzle are coaxially arranged;

the rotary cylinder is of a circular cylinder structure and rotates around the axis of the rotary cylinder, the rotary cylinder is coaxially sleeved in the installation cylinder, one end of the rotary cylinder is coaxially provided with an installation shaft, the installation shaft is movably connected with the closed end of the installation cylinder, the rotary cylinder is further provided with a first liquid through hole for communicating a first liquid inlet nozzle with a first liquid outlet nozzle, and the rotary cylinder at the initial position isolates the first liquid inlet nozzle from the first liquid outlet nozzle; the feeding motor is installed on the positioning plate, and the output end of the feeding motor penetrates through the positioning plate and is fixedly connected with the rotating cylinder in a coaxial mode.

Further, the discharging mechanism comprises a mixing drum, a discharging hopper, a fixed drum, a rotating drum and a discharging motor;

the mixing drum is of a circular drum structure with a closed top end and an open bottom end, the mixing drum is fixedly mounted on a supporting base, the axis of the mixing drum is vertically arranged, a heating plate used for heating the interior of the mixing drum is arranged on the mixing drum, a first liquid outlet nozzle arranged at the bottom end of the mounting drum is fixedly connected and communicated with the top end of the mixing drum, a water injection valve used for injecting water into the mixing drum is arranged at the top end of the mixing drum, an avoidance port is coaxially formed in the center of the top end of the mixing drum, and a mounting plate is further mounted on the mixing drum;

the discharge hopper is of a circular truncated cone-shaped structure, the top end of the discharge hopper is a large end, the bottom end of the discharge hopper is a small end, and the top end of the discharge hopper is coaxially and fixedly connected and communicated with the bottom end of the mixing drum;

the fixed cylinder is of a circular cylinder structure with an opening at one end and a closed end, the axis of the fixed cylinder is perpendicular to the axis of the discharge hopper, the opening end of the fixed cylinder is coaxially and fixedly provided with a fixed plate, the highest point of the outer circular surface of the fixed cylinder vertically extends upwards to be provided with a second liquid inlet nozzle, the second liquid inlet nozzle is coaxially and fixedly connected and communicated with the bottom end of the discharge hopper, the lowest point of the outer circular surface of the fixed cylinder vertically extends downwards to be provided with a second liquid outlet nozzle, and the second liquid outlet nozzle and the first liquid inlet nozzle are coaxially arranged;

the rotating cylinder is of a circular cylinder structure and rotates around the axis of the rotating cylinder, the rotating cylinder is coaxially sleeved inside the fixed cylinder, one end of the rotating cylinder is coaxially provided with a positioning shaft, the positioning shaft is movably connected with the closed end of the fixed cylinder, the rotating cylinder is also provided with a second liquid through hole for communicating a second liquid inlet nozzle with a second liquid outlet nozzle, and the rotating cylinder at the initial position isolates the second liquid inlet nozzle from the second liquid outlet nozzle; the discharging motor is arranged on the fixing plate, and the output end of the discharging motor penetrates through the fixing plate and is coaxially and fixedly connected with the rotating cylinder.

Furthermore, the lifting mechanism comprises a lifting motor, a rotating screw rod, a positioning frame and a sliding frame;

the positioning frame is fixedly arranged on the supporting base;

the axis of the rotating screw rod is vertical, and the rotating screw rod is movably arranged on the positioning frame;

the sliding frame is provided with a sliding block which is horizontally arranged, the sliding block is sleeved outside the rotating screw rod, the sliding frame is connected with the positioning frame in a sliding mode, and the sliding frame and the positioning frame form sliding guide fit in a guide direction along the axial direction of the rotating screw rod;

the output shaft of the lifting motor is vertically arranged, the lifting motor is installed on the supporting base, and the output end of the lifting motor is connected with the input end of the rotating screw rod through a coupler.

Further, the stirring device comprises a stirring mechanism, a rotating mechanism and a mounting shell, wherein the stirring mechanism is used for stirring and mixing cosmetic raw materials, and the rotating mechanism is used for driving the stirring mechanism to rotate;

the mounting shell is vertically arranged, and the top end of the mounting shell is fixedly connected with the sliding frame;

the stirring mechanism comprises a telescopic component, a transmission component and a rotating component;

the telescopic assembly comprises a telescopic screw rod, a transmission rod, a support shell and a moving part;

the supporting shell is fixedly arranged inside the mounting shell, and a telescopic motor is arranged on the supporting shell;

the telescopic screw rod is positioned in the mounting shell, the axis of the telescopic screw rod is vertically arranged, the telescopic screw rod is connected with the supporting shell through a guide piece, the guide piece comprises a guide groove arranged on the outer circular surface of the telescopic screw rod and a guide step arranged on the supporting shell, the guide direction of the guide groove is parallel to the axis direction of the telescopic screw rod, and the guide step and the guide groove form sliding guide fit; the transmission rod is positioned in the mounting shell, the axis of the transmission rod is parallel to the axis of the telescopic screw rod, the transmission rod is movably mounted on the support shell, a first gear is coaxially arranged outside the transmission rod, a second gear is coaxially arranged outside the telescopic screw rod, and the first gear is meshed with the second gear;

a first power transmission piece used for achieving the connection between the output end of the telescopic motor and the transmission rod is arranged between the output end of the telescopic motor and the transmission rod, and the first power transmission piece is of a belt transmission structure.

Furthermore, the number of the moving parts is two, the two moving parts are arranged on the same horizontal plane in a mutually deviated mode, and each moving part comprises a limiting shaft, a limiting cylinder, a first telescopic shell, a second telescopic shell and a third telescopic shell;

the axis of the limiting shaft is perpendicular to the axis of the telescopic screw rod, the limiting shaft is arranged on the supporting shell, and rolling wheels are coaxially arranged outside the limiting shaft;

the limiting cylinder is arranged on one side, away from each other, of the two limiting shafts, the axis of the limiting cylinder is horizontally arranged and perpendicular to the axis of the limiting shafts, one end, close to each other, of each of the two limiting cylinders extends outwards to be provided with a plurality of guide rods, the axis of each guide rod is parallel to the axis of the limiting cylinder, a first toothed ring is coaxially and fixedly installed outside the limiting cylinder, a first avoiding hole is formed in the side face of the installation shell, and the limiting cylinder is installed on the installation shell through the first avoiding hole;

be provided with the sleeve on the first flexible shell, the sleeve is coaxial to be set up in the guide bar outside, the sleeve deviates from the one end of a spacing section of thick bamboo inwards to extend and is provided with the location step, the sleeve is through location step and guide bar sliding connection and constitute the direction of guide and follow the sliding guide cooperation of guide bar axis direction between the two, be provided with the second on the spacing section of thick bamboo and dodge the hole, first flexible shell dodges hole and spacing section of thick bamboo sliding connection and constitute the direction of guide and follow the axial sliding guide cooperation of spacing section of thick bamboo between the two through the second, the one end inwards that first flexible shell deviates from spacing axle extends and is provided with first trigger step, the one end that first flexible shell is close to spacing axle still extends to the direction of keeping away from spacing axle and is provided with the third gag lever post.

Furthermore, one end of the guide rod is movably connected with the limiting cylinder, the other end of the guide rod is fixedly connected with the supporting shell, an expansion spring is further arranged outside the guide rod, one end of the expansion spring is connected with the supporting shell, the other end of the expansion spring is connected with a positioning step arranged on the sleeve, the sleeve is driven by the elasticity of the expansion spring to move away from the limiting shaft, and one end, away from the limiting shaft, of the first expansion shell at the initial position and one end, away from the limiting shaft, of the limiting cylinder are on the same plane;

one end of the second telescopic shell extends outwards to be provided with a second triggering step, the other end of the second telescopic shell extends inwards to be provided with a third triggering step, the second triggering step is positioned in the first telescopic shell, the second telescopic shell is connected with the first telescopic shell in a sliding mode through the second triggering step, the second triggering step and the first telescopic shell form sliding guide fit in the guide direction along the length direction of the guide rod, a fixed shell is fixedly installed in the second telescopic shell, and one end, away from the limiting shaft, of the second telescopic shell at the initial position and one end, away from the limiting shaft, of the first telescopic shell are positioned on the same plane;

a positioning spring is arranged inside the fixed shell and the first telescopic shell, the positioning spring is sleeved outside the third limiting rod, one end of the positioning spring is connected with one end of the fixed shell, which is far away from the limiting shaft, and the other end of the positioning spring is connected with one end of the first telescopic shell, which is towards the limiting shaft;

the outside extension of one end of the flexible shell of third is provided with the fourth and triggers the step, the other end of the flexible shell of third is provided with the second gag lever post to the direction extension that is close to spacing axle, the fourth triggers the step and is located the flexible shell of second inside, the flexible shell of third triggers step and the flexible shell sliding connection of second through the fourth and constitutes the direction of guide along the sliding guide cooperation of guide bar length direction between the two, the flexible shell of third and set casing sliding connection and constitute the direction of guide between the two and follow the sliding guide cooperation of guide bar length direction, the flexible shell of third under the initial position deviates from the one end of spacing axle and the one end that first flexible shell deviates from spacing axle and is located the coplanar.

Furthermore, the second limiting rod, the first limiting rod and the third limiting rod are coaxially arranged, one end of the second limiting rod, which faces the first limiting rod, is provided with a mounting groove, the second limiting rod is in sliding connection with the first limiting rod, and the second limiting rod and the first limiting rod are in sliding guide fit along the axial direction of the first limiting rod in a guide direction, the second limiting rod at an initial position is sleeved inside the first limiting rod, a compression spring is further arranged outside the first limiting rod and the second limiting rod, one end of the compression spring is connected with one end, which deviates from the limiting shaft, of the third telescopic shell, the other end of the compression spring is connected with the fixed shell, and the elastic force of the compression spring drives the third telescopic shell to move away from the limiting shaft; a traction wire is arranged outside the rolling wheel, one end of the traction wire extends to the bottom end of the telescopic screw rod and is fixedly connected with the telescopic screw rod, and the other end of the traction wire penetrates through the third limiting rod and the first limiting rod and is fixedly connected with the second limiting rod through the mounting groove; the stirring mechanism is set to be in a contraction state and an extension state which are mutually switched, the initial state of the stirring mechanism is in the contraction state, and when the stirring mechanism is in the contraction state, one end of the limiting cylinder, which is far away from the limiting shaft, one end of the first telescopic shell, which is far away from the limiting shaft, one end of the second telescopic shell, which is far away from the limiting shaft, and one end of the third telescopic shell, which is far away from the limiting shaft, are positioned on the same plane; when the stirring mechanism is in an extending state, one end of the sleeve, facing the limiting barrel, is abutted against the limiting barrel, the first trigger step arranged on the first telescopic shell is abutted against the second trigger step arranged on the second telescopic shell, the third trigger step arranged on the second telescopic shell is abutted against the fourth trigger step arranged on the third telescopic shell, and one end, deviating from the limiting shaft, of the third telescopic shell is attached to the inner wall of the stirring barrel.

Furthermore, the transmission assembly is positioned in the mounting shell and comprises a connecting rod, a transmission shaft and a transmission motor; the axis of the connecting rod is vertically arranged, the connecting rod is movably mounted on the supporting shell, a first bevel gear is coaxially arranged outside the connecting rod, a penetrating cylinder is coaxially arranged outside the bottom end of the connecting rod, and the penetrating cylinder is fixedly mounted on the supporting shell;

the transmission shaft is movably arranged on the supporting shell, the axis of the transmission shaft is parallel to the axis of the limiting cylinder, the number of the transmission shafts is two along the axis direction of the transmission shaft, two second bevel gears are coaxially arranged outside the transmission shaft, the number of the second bevel gears is two, the two second bevel gears are meshed and connected with the first bevel gear, and a third gear is coaxially arranged outside the transmission shaft;

the two third gears are correspondingly arranged and are respectively meshed and connected with a first gear ring arranged on the limiting cylinder; the transmission motor is arranged on the support shell, an output shaft of the lip motion motor is vertical, a second power transmission piece for realizing power transmission between the output end of the transmission motor and the connecting rod is arranged between the output end of the transmission motor and the connecting rod, and the second power transmission piece is of a belt transmission structure;

the rotating assembly comprises a rotating motor, a first rotating shaft and a second rotating shaft;

the first rotating shaft is movably mounted on the supporting shell, the axis of the first rotating shaft is vertically arranged, and the output end of the first rotating shaft is coaxially provided with a fourth gear;

the second rotating shaft is movably mounted on the supporting shell and is vertically arranged, the output end of the second rotating shaft penetrates through the bottom end of the mounting shell and vertically extends downwards, a transmission cylinder is coaxially arranged outside the output end of the second rotating shaft, a plurality of stirring blades used for stirring and mixing cosmetic raw materials are arranged in an array mode in the circumferential direction of the outer circular surface of the transmission cylinder, a fifth gear is coaxially arranged at the input end of the second rotating shaft, and the fifth gear is meshed with a fourth gear;

the rotating electrical machines are installed on the supporting shell, third power transmission pieces used for achieving power transmission between the output ends of the rotating electrical machines and the input end of the first rotating shaft are arranged between the output ends of the rotating electrical machines and the input end of the first rotating shaft, and the third power transmission pieces are of belt transmission structures.

Furthermore, the rotating mechanism comprises a first penetrating shaft, a second penetrating shaft, a positioning cylinder, a mounting ring and a rotating motor; the axes of the first penetrating shaft and the second penetrating shaft are vertically arranged, the first penetrating shaft and the second penetrating shaft are both arranged on the mounting plate, a sixth gear is coaxially arranged outside the first penetrating shaft, a seventh gear is coaxially arranged outside the second penetrating shaft, and the sixth gear is meshed with the seventh gear;

the axis of the positioning cylinder is vertically arranged, an avoiding opening arranged on the stirring cylinder is coaxially and internally provided with an installation step in an extending manner, the outer circular surface of the positioning cylinder is coaxially and internally provided with a positioning groove in an extending manner, the positioning cylinder is installed in the avoiding opening through the matching of the installation step and the positioning groove, the center of the positioning cylinder is also provided with a limiting opening matched with the installation shell, the installation shell is in sliding connection with the positioning cylinder through the limiting opening, and a sliding guide fit of a guide direction along the vertical direction is formed between the installation shell and the positioning cylinder;

the mounting ring is positioned above the stirring cylinder, is coaxially and fixedly mounted outside the positioning cylinder, and is coaxially provided with a second toothed ring which is meshed and connected with a second penetrating shaft;

the rotating motor is installed on the installation plate, a fourth power transmission piece used for achieving power transmission between the output end of the rotating motor and the input end of the first penetrating shaft is arranged between the output end of the rotating motor and the input end of the first penetrating shaft, and the fourth power transmission piece is of a belt transmission structure.

In summary, the raw material mixing device provided by the invention has the beneficial effects that:

The moving piece and the stirring blades of the invention jointly stir and mix the cosmetic raw materials, so that the stirring singleness is avoided, and the stirring and mixing effects of the cosmetic raw materials are further enhanced.

The moving part adopts a telescopic structure, the lifting mechanism can pull the contracted moving part to leave the mixing drum, and the moving part leaving the mixing drum can extend outwards under the control of the motor, so that a user can wash the first telescopic shell, the second telescopic shell and the third telescopic shell on the moving part conveniently.

The third telescopic shell is always attached to the inner wall of the mixing drum during movement, and residual substances adhered to the inner wall of the mixing drum are separated from the mixing drum under the pushing action of the third telescopic shell.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments of the present invention will be briefly described below. Wherein the drawings are only for purposes of illustrating some embodiments of the invention and are not to be construed as limiting the invention to all embodiments thereof.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a schematic view of a charging and discharging device of the present invention.

Fig. 4 is a schematic structural diagram of a part of the feeding and discharging device of the invention.

Fig. 5 is a schematic view of the feed mechanism of the present invention.

Fig. 6 is a schematic view of the discharging mechanism of the present invention.

Fig. 7 is a schematic view of the lifting mechanism of the present invention.

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

Fig. 9 is a schematic view of the stirring mechanism of the present invention.

Fig. 10 is a schematic view of the stirring mechanism of the present invention.

FIG. 11 is a schematic view of the telescoping assembly of the present invention.

Fig. 12 is a schematic view of a moving part of the present invention.

Fig. 13 is a cross-sectional view of a moving element of the present invention.

Fig. 14 is a sectional view showing a partial structure of a mover according to the present invention.

FIG. 15 is a schematic view of the transmission assembly of the present invention.

FIG. 16 is a schematic view of a rotating assembly of the present invention.

Fig. 17 is a schematic view of the rotating mechanism of the present invention.

Fig. 18 is a partial structural schematic view of the rotating mechanism of the present invention.

The indications in the figures are:

10. a feeding and discharging device;

11. a feeding mechanism; 111. a feeding cylinder; 112. mounting the cylinder; 113. a feeding motor; 114. positioning a plate; 115. a rotary drum; 116. installing a shaft;

12. a discharging mechanism; 121. a mixing drum; 122. a discharge hopper; 123. a discharging motor; 124. a fixed cylinder; 125. a rotating drum; 126. a fixing plate; 127. mounting a plate;

13. a lifting mechanism; 131. a lifting motor; 132. rotating the screw rod; 133. a positioning frame; 134. a carriage; 135. a slider; 14. a support base;

20. a stirring device;

21. a stirring mechanism; 211. a telescopic assembly; 2111. a telescopic screw rod; 2112. a transmission rod; 2113. a telescopic motor; 2114. a limiting shaft; 2115. a limiting cylinder; 2116. a first telescoping shell; 2117. a second telescoping shell; 2118. a third telescoping shell; 2119. a stationary housing; 212. a transmission assembly; 2121. a drive motor; 2122. a connecting rod; 2123. a transmission shaft; 2124. a cylinder is arranged in a penetrating way; 213. a rotating assembly; 2131. a rotating electric machine; 2132. a first rotating shaft; 2133. a second rotating shaft; 2134. a transfer cylinder; 2135. a stirring blade;

22. a rotating mechanism;

221. rotating the motor; 222. a first through shaft; 223. a second through shaft; 224. a positioning cylinder; 226. a mounting ring; 226. a second ring gear;

23. and (7) installing the shell.

Detailed Description

In order to make the objects, technical solutions and advantages of the technical solutions of the present disclosure more apparent, the technical solutions of the embodiments of the present disclosure will be clearly and completely described below with reference to the accompanying drawings of specific embodiments of the present disclosure. Like reference symbols in the various drawings indicate like elements. It should be noted that the described embodiments are part of the embodiments of the present disclosure, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments of the disclosure without inventive step, are within the scope of protection of the disclosure.

A raw material mixing device comprises a feeding and discharging device 10 and a stirring device 20, wherein the feeding and discharging device 10 is used for conveying cosmetic raw materials to the stirring device 20 and outputting the cosmetic raw materials after stirring and mixing to the outside, and the stirring device 20 is used for stirring and mixing the cosmetic raw materials.

A user puts cosmetic raw materials into the feeding and discharging device 10, the stirring device 20 carries out stirring and mixing treatment on the cosmetic raw materials in the feeding and discharging device 10, and after the stirring and mixing treatment is finished, the feeding and discharging device 10 drives the stirred and mixed cosmetic raw materials to be output outwards.

The feeding and discharging device 10 comprises a feeding mechanism 11, a discharging mechanism 12, a lifting mechanism 13 and a supporting base 14, wherein the feeding mechanism 11 is used for conveying cosmetic raw materials to the stirring device 20, the discharging mechanism 12 is used for outputting the stirred and mixed cosmetic raw materials outwards, and the lifting mechanism 13 is used for driving the stirring device 20 to move in the vertical direction.

The feeding mechanism 11 comprises a feeding cylinder 111, a mounting cylinder 112, a feeding motor 113 and a rotating cylinder 115.

The feeding cylinder 111 is of a circular cylinder structure with openings at two ends, the axis of the feeding cylinder 111 is vertically arranged, the feeding cylinder 111 is divided into a vertical section and a circular table section along the vertical downward direction, the top end of the circular table section is a large end, the bottom end of the circular table section is a small end, and the top end of the circular table section is communicated with the bottom end of the vertical section in a coaxial and fixed mode.

The mounting cylinder 112 is of a circular cylinder structure with an opening at one end and a closed end, the axis of the mounting cylinder 112 is perpendicular to the axis of the feeding cylinder 111, the opening end of the mounting cylinder 112 is coaxially and fixedly provided with a positioning plate 114, the highest point of the outer circular surface of the mounting cylinder 112 vertically extends upwards to form a first liquid inlet nozzle, the first liquid inlet nozzle is communicated with the bottom end of the feeding cylinder 111 in a coaxial and fixed manner, the lowest point of the outer circular surface of the mounting cylinder 112 vertically extends downwards to form a first liquid outlet nozzle, and the first liquid outlet nozzle and the first liquid inlet nozzle are coaxially arranged.

Rotatory section of thick bamboo 115 is circular tube structure and rotates around self axis, and inside installation section of thick bamboo 112 was located to the coaxial cover of rotatory section of thick bamboo 115, the one end of rotatory section of thick bamboo 115 is coaxial to be provided with installation axle 116, installation axle 116 and installation section of thick bamboo 112's blind end swing joint, still offer the first through liquid hole that is used for first feed liquor mouth and first liquid outlet nozzle switch-on the rotatory section of thick bamboo 115, rotatory section of thick bamboo 115 under the initial position is kept apart first feed liquor mouth and first liquid outlet nozzle.

The feeding motor 113 is installed on the positioning plate 114, and an output end of the feeding motor 113 penetrates through the positioning plate 114 and is coaxially and fixedly connected with the rotary cylinder 115.

The discharging mechanism 12 includes a mixing drum 121, a discharging hopper 122, a fixed drum 124, a rotating drum 125, and a discharging motor 123.

The churn 121 is the top and seals, bottom open-ended circular tube structure, churn 121 fixed mounting is on supporting base 14, the axis of churn 121 is vertical to be arranged, be provided with the hot plate that is used for heating churn 121 inside on the churn 121, the hot plate is current electrical heating technique, it is redundantly not repeated here, set up in the first drain nozzle of installation section of thick bamboo 112 bottom and the top fixed connection switch-on of churn 121, the top of churn 121 is provided with the water injection valve that is used for to water injection in the churn 121, the coaxial mouth of dodging of having seted up in the center on the top of churn 121, still install mounting panel 127 on the churn 121.

The discharge hopper 122 is in a circular truncated cone structure, the top end of the discharge hopper 122 is a large end, the bottom end of the discharge hopper 122 is a small end, and the top end of the discharge hopper 122 is coaxially and fixedly connected and communicated with the bottom end of the mixing drum 121.

The fixed cylinder 124 is a circular cylinder structure with an opening at one end and a closed end, the axis of the fixed cylinder 124 is perpendicular to the axis of the discharge hopper 122, the opening end of the fixed cylinder 124 is coaxially and fixedly provided with a fixed plate 126, the highest point of the outer circular surface of the fixed cylinder 124 vertically extends upwards to be provided with a second liquid inlet nozzle, the second liquid inlet nozzle is communicated with the bottom end of the discharge hopper 122 in a coaxial and fixed connection mode, the lowest point of the outer circular surface of the fixed cylinder 124 vertically extends downwards to be provided with a second liquid outlet nozzle, and the second liquid outlet nozzle and the first liquid inlet nozzle are coaxially arranged.

It rotates to rotate a section of thick bamboo 125 and is circular barrel structure duplex winding self axis, rotates inside a section of thick bamboo 125 coaxial sleeve locates fixed cylinder 124, rotates the coaxial location axle that is provided with of one end of a section of thick bamboo 125, the blind end swing joint of location axle and fixed cylinder 124, still offers the second through liquid hole that is used for second feed liquor mouth and second liquid outlet mouth switch-on rotating a section of thick bamboo 125, and rotation section of thick bamboo 125 under the initial position keeps apart second feed liquor mouth and second liquid outlet mouth.

The discharging motor 123 is installed on the fixing plate 126, and an output end of the discharging motor 123 penetrates through the fixing plate 126 and is coaxially and fixedly connected with the rotating cylinder 125.

The lifting mechanism 13 comprises a lifting motor 131, a rotating screw 132, a positioning frame 133 and a sliding frame 134.

The positioning frame 133 is fixedly mounted on the supporting base 14.

The axis of the rotating screw rod 132 is vertical, and the rotating screw rod 132 is movably arranged on the positioning frame 133.

Sliding frame 134 is last to be provided with the slider 135 of horizontal arrangement, and the outside of rotating lead screw 132 is located to slider 135 cover, and sliding frame 134 and locating rack 133 sliding connection and constitute the sliding guide cooperation of direction of leading along rotating lead screw 132 axis direction between the two.

The output shaft of the lifting motor 131 is vertically arranged, the lifting motor 131 is installed on the supporting base 14, and the output end of the lifting motor 131 is connected with the input end of the rotating screw rod 132 through a coupler.

The working process of the feeding and discharging device 10 is as follows:

a user puts cosmetic raw materials into the feeding cylinder 111 of the feeding mechanism 11, the feeding motor 113 is started, the feeding motor 113 drives the rotating cylinder 115 to rotate around the axis of the feeding motor 113, when a first liquid inlet nozzle and a first liquid outlet nozzle are communicated through a first liquid through hole formed in the rotating cylinder 115, the feeding motor 113 is closed, the cosmetic raw materials enter the stirring cylinder 121 of the discharging mechanism 12 under the action of gravity, the feeding motor 113 is started, the feeding motor 113 drives the rotating cylinder 115 to rotate around the axis of the feeding motor 113, and when the rotating cylinder 115 returns to the initial position, the feeding motor 113 is closed;

a user injects water into the mixing drum 121 through a water injection valve, the lifting motor 131 is started, the lifting motor 131 drives the rotating screw rod 132 to rotate around the axis of the lifting motor 131, the rotating screw rod 132 rotates and drives the sliding frame 134 to synchronously vertically move downwards through the driving sliding block 135, the stirring device 20 synchronously vertically moves downwards under the driving of the sliding frame 134, the stirring device 20 carries out stirring treatment on a mixture of cosmetic raw materials and water, and in the stirring process, a heating plate arranged on the mixing drum 121 heats the mixture of the cosmetic raw materials and the water;

after the stirring mixing process is finished, the discharging motor 123 is started, the discharging motor 123 drives the rotating cylinder 125 to rotate around the axis of the discharging motor 123, when the second liquid inlet nozzle and the second liquid outlet nozzle are communicated through the second liquid through hole formed in the rotating cylinder 125, the discharging motor 123 is closed, and the mixed cosmetic raw materials are output outwards through the second liquid outlet nozzle under the action of gravity.

The stirring device 20 comprises a stirring mechanism 21, a rotating mechanism 22 and an installation shell 23, wherein the stirring mechanism 21 is used for stirring and mixing cosmetic raw materials, and the rotating mechanism 22 is used for driving the stirring mechanism 21 to rotate.

The mounting shell 23 is vertically arranged, and the top end of the mounting shell 23 is fixedly connected with the sliding rack 134.

The stirring mechanism 21 comprises a telescopic component 211, a transmission component 212 and a rotating component 213.

The telescopic assembly 211 comprises a telescopic screw 2111, a transmission rod 2112, a support shell and a moving part.

The supporting shell is fixedly installed inside the installation shell 23, and a telescopic motor 2113 is installed on the supporting shell.

The telescopic screw 2111 is located inside the mounting shell 23, the axis of the telescopic screw 2111 is vertically arranged, the telescopic screw 2111 is connected with the supporting shell through a guide piece, the guide piece is a guide groove arranged on the outer circular surface of the telescopic screw 2111 and a guide step arranged on the supporting shell, the guide direction of the guide groove is parallel to the axis direction of the telescopic screw 2111, and sliding guide fit is formed between the guide step and the guide groove.

The transmission rod 2112 is positioned inside the mounting shell 23, the axis of the transmission rod 2112 is parallel to the axis of the telescopic screw 2111, the transmission rod 2112 is movably mounted on the support shell, a first gear is coaxially arranged outside the transmission rod 2112, a second gear is coaxially arranged outside the telescopic screw 2111, and the first gear is in meshed connection with the second gear.

A first power transmission member for realizing the connection between the output end of the telescopic motor 2113 and the transmission rod 2112 is arranged between the output end and the transmission rod 2113, and preferably, the first power transmission member is of a belt transmission structure.

The motion piece is provided with two, and two motion pieces deviate from each other on same horizontal plane and arrange, and the motion piece includes spacing axle 2114, spacing section of thick bamboo 2115, first telescopic shell 2116, second telescopic shell 2117, third telescopic shell 2118.

The axis of the limiting shaft 2114 is perpendicular to the axis of the telescopic screw 2111, the limiting shaft 2114 is mounted on the supporting shell, and rolling wheels are coaxially arranged outside the limiting shaft 2114.

The limiting cylinder 2115 is arranged on one side of two limiting shafts 2114 deviating from each other, the axis of the limiting cylinder 2115 is horizontally arranged and perpendicular to the axis of the limiting shafts 2114, one ends of the two limiting cylinders 2115, which are close to each other, extend outwards to form a plurality of guide rods, the axis of each guide rod is parallel to the axis of the limiting cylinder 2115, a first toothed ring is fixedly arranged on the outer portion of the limiting cylinder 2115 in a coaxial mode, a first avoiding hole is formed in the side face of the mounting shell 23, and the limiting cylinder 2115 is mounted on the mounting shell 23 through the first avoiding hole.

Be provided with the sleeve on the first telescoping shell 2116, the sleeve is coaxial to be set up in the guide bar outside, the one end that the sleeve deviates from a spacing section of thick bamboo 2115 inwards extends and is provided with the location step, the sleeve passes through location step and guide bar sliding connection and constitutes the direction of guidance between the two and follow the cooperation of the sliding guide of guide bar axis direction, be provided with the second on the spacing section of thick bamboo 2115 and dodge the hole, first telescoping shell 2116 dodges hole and spacing section of thick bamboo 2115 sliding connection and constitutes the direction of guidance between the two and follow the cooperation of the axial sliding guide of spacing section of thick bamboo 2115 through the second, the one end inwards extension that first telescoping shell 2116 deviates from spacing axle 2114 is provided with first trigger step, the one end that first telescoping shell 2116 is close to spacing axle 2114 still extends to the direction of keeping away from spacing axle 2114 and is provided with the third gag lever.

One end of the guide rod is movably connected with the limiting barrel 2115, the other end of the guide rod is fixedly connected with the supporting shell, an expansion spring is further arranged outside the guide rod, one end of the expansion spring is connected with the supporting shell, the other end of the expansion spring is connected with a positioning step arranged on the sleeve, the elastic force of the expansion spring drives the sleeve to move away from the limiting shaft 2114, and one end, away from the limiting shaft 2114, of the first expansion shell 2116 at the initial position and one end, away from the limiting shaft 2114, of the limiting barrel 2115 are in the same plane.

One end of the second telescopic shell 2117 extends outwards to be provided with a second triggering step, the other end of the second telescopic shell 2117 extends inwards to be provided with a third triggering step, the second triggering step is positioned inside the first telescopic shell 2116, the second telescopic shell 2117 is connected with the first telescopic shell 2116 in a sliding mode through the second triggering step, a sliding guide fit along the length direction of the guide rod is formed between the second telescopic shell 2117 and the first telescopic shell 2116, a fixed shell 2119 is fixedly installed inside the second telescopic shell 2117, and one end, away from the limiting shaft 2114, of the second telescopic shell 2117 at the initial position and one end, away from the limiting shaft 2114, of the first telescopic shell 2116 are positioned on the same plane.

The fixed shell 2119 and the first telescopic shell 2116 are internally provided with a positioning spring, the positioning spring is sleeved outside the third limiting rod, one end of the positioning spring is connected with one end of the fixed shell 2119 departing from the limiting shaft 2114, the other end of the positioning spring is connected with one end of the first telescopic shell 2116 facing the limiting shaft 2114, the elastic force of the positioning spring drives the fixed shell 2119 to move away from the limiting shaft 2114, and one end of the fixed shell 2119 departing from the limiting shaft 2114 extends in a direction away from the limiting shaft 2114 and is provided with the first limiting rod.

One end of the third telescopic shell 2118 extends outwards to be provided with a fourth triggering step, the other end of the third telescopic shell 2118 extends towards the direction close to the limit shaft 2114 to be provided with a second limit rod, the fourth triggering step is positioned inside the second telescopic shell 2117, the third telescopic shell 2118 is connected with the second telescopic shell 2117 in a sliding mode through the fourth triggering step, a guide direction is formed between the third telescopic shell 2118 and the fixed shell 2119 in a sliding mode, the guide direction is formed between the third telescopic shell 2118 and the fixed shell 2114 in the length direction, and one end, away from the limit shaft 2114, of the third telescopic shell 2118 and one end, away from the limit shaft 2116 and the one end, away from the limit shaft 2114, of the first telescopic shell 2116 are positioned on the same plane.

The second gag lever post and first gag lever post, the equal coaxial arrangement of third gag lever post, the mounting groove has been seted up towards the one end of first gag lever post to the second gag lever post, second gag lever post and first gag lever post sliding connection just constitute the direction of guide and cooperate along the axial sliding guide of first gag lever post between the two, the inside of first gag lever post is located to second gag lever post cover under the initial position, first gag lever post still is provided with compression spring with the outside of second gag lever post, compression spring's one end and the one end that third expansion shell 2118 deviates from spacing axle 2114 are connected, the other end is connected with stationary casing 2119, compression spring's elasticity orders about third expansion shell 2118 and does the motion that deviates from spacing axle 2114.

The outside of roll wheel is provided with the pull wire, and the one end of pull wire extends to telescopic screw 2111's bottom and with telescopic screw 2111 fixed connection, and the other end of pull wire passes third gag lever post, first gag lever post and through mounting groove and second gag lever post fixed connection.

The stirring mechanism 21 is set to be in a contraction state and an extension state which are mutually switched, the initial state of the stirring mechanism 21 is in the contraction state, and when the stirring mechanism 21 is in the contraction state, one end of the limiting cylinder 2115 departing from the limiting shaft 2114, one end of the first telescopic shell 2116 departing from the limiting shaft 2114, one end of the second telescopic shell 2117 departing from the limiting shaft 2114, and one end of the third telescopic shell 2118 departing from the limiting shaft 2114 are located on the same plane; when the stirring mechanism 21 is in the extended state, one end of the sleeve facing the limiting cylinder 2115 abuts against the limiting cylinder 2115, a first trigger step arranged on the first telescopic shell 2116 abuts against a second trigger step arranged on the second telescopic shell 2117, a third trigger step arranged on the second telescopic shell 2117 abuts against a fourth trigger step arranged on the third telescopic shell 2118, and one end of the third telescopic shell 2118, which deviates from the limiting shaft 2114, abuts against the inner wall of the stirring cylinder 121.

The transmission assembly 212 is located inside the mounting shell 23, and the transmission assembly 212 includes a connecting rod 2122, a transmission shaft 2123, and a transmission motor 2121.

The axis of the connecting rod 2122 is arranged vertically, the connecting rod 2122 is movably mounted on the support shell, a first bevel gear is coaxially arranged outside the connecting rod 2122, a penetrating cylinder 2124 is coaxially arranged outside the bottom end of the connecting rod 2122, and the penetrating cylinder 2124 is fixedly mounted on the support shell.

The transmission shaft 2123 is movably mounted on the support shell, the axis of the transmission shaft 2123 is parallel to the axis of the limiting cylinder 2115, two transmission shafts 2123 are arranged along the axis direction of the transmission shaft 2123, two second bevel gears are coaxially arranged outside the transmission shaft 2123, the number of the second bevel gears is correspondingly two, the two second bevel gears are meshed with the first bevel gear, and a third gear is coaxially arranged outside the transmission shaft 2123.

The number of the third gears is two, and the two third gears are respectively engaged with a first gear ring arranged on the limiting cylinder 2115.

The driving motor 2121 is mounted on the supporting shell, an output shaft of the lip motor 2121 is vertical, and a second power transmission member for realizing power transmission between the output end of the driving motor 2121 and the connecting rod 2122 is arranged between the output end of the driving motor 2121 and the connecting rod 2122.

The rotating unit includes a rotating motor 2131, a first rotating shaft 2132, and a second rotating shaft 2133.

The first rotating shaft 2132 is movably mounted on the support shell, the axis of the first rotating shaft 2132 is vertically arranged, and the output end of the first rotating shaft 2132 is coaxially provided with a fourth gear.

The second rotating shaft 2133 is movably mounted on the supporting shell, the second rotating shaft 2133 is vertically arranged, the output end of the second rotating shaft 2133 penetrates through the bottom end of the mounting shell 23 and vertically extends downwards, a transmission cylinder 2134 is coaxially arranged outside the output end of the second rotating shaft 2133, a plurality of stirring blades 2135 for stirring and mixing cosmetic raw materials are arranged in an array manner in the circumferential direction of the outer circular surface of the transmission cylinder 2134, a fifth gear is coaxially arranged at the input end of the second rotating shaft 2133, and the fifth gear is in meshed connection with the fourth gear.

The rotating motor 2131 is mounted on the supporting shell, and a third power transmission member for realizing power transmission between the output end of the rotating motor 2131 and the input end of the first rotating shaft 2132 is arranged between the output end of the rotating motor 2131 and the input end of the first rotating shaft 2132.

The rotating mechanism 22 includes a first penetrating shaft 222, a second penetrating shaft 223, a positioning cylinder 224, a mounting ring 225, and a rotating motor 221.

The axes of the first penetrating shaft 222 and the second penetrating shaft 223 are vertically arranged, the first penetrating shaft 222 and the second penetrating shaft 223 are both mounted on the mounting plate 127, a sixth gear is coaxially arranged outside the first penetrating shaft 222, a seventh gear is coaxially arranged outside the second penetrating shaft 223, and the sixth gear is meshed with the seventh gear.

The axis of a locating cylinder 224 is vertically arranged, an avoiding opening arranged on the stirring cylinder 121 extends coaxially to form an installation step, the outer circular surface of the locating cylinder 224 extends coaxially to form a locating groove, the locating cylinder 224 is installed in the avoiding opening through the matching of the installation step and the locating groove, the center of the locating cylinder 224 is also provided with a limiting opening matched with the installation shell 23, and the installation shell 23 is connected with the locating cylinder 224 through the limiting opening in a sliding mode and forms a sliding guide matching of the guide direction along the vertical direction between the limiting opening and the locating cylinder 224.

The mounting ring 225 is located above the mixing drum 121, the mounting ring 225 is coaxially and fixedly mounted outside the positioning drum 224, a second gear ring 226 is coaxially arranged on the mounting ring 225, and the second gear ring 226 is meshed with the second penetrating shaft 223.

The rotating motor 221 is installed on the installation plate 127, a fourth power transmission member for realizing power transmission between the output end of the rotating motor 221 and the input end of the first penetrating shaft 222 is arranged between the output end of the rotating motor 221 and the input end of the first penetrating shaft, and preferably, the fourth power transmission member is of a belt transmission structure.

The operation of the stirring device 20 is as follows:

the telescopic motor 2113 is started, the telescopic motor 2113 drives the transmission rod 2112 to rotate around the axis of the telescopic motor through the first power transmission piece, the transmission rod 2112 rotates and drives the second gear to synchronously rotate through the first gear, the second gear rotates and drives the telescopic screw 2111 to synchronously move vertically and downwards under the coordination of the guide piece, and the telescopic screw 2111 moves and drives the third telescopic shell 2118 to synchronously move along the axis of the second limiting rod in the direction away from the limiting shaft 2114 through a traction wire;

when the third triggering step is in contact with the fourth triggering step, the third telescopic shell 2118 drives the second telescopic shell 2117 to synchronously move along the axis of the first limiting rod in the direction away from the limiting shaft 2114 through the matching of the third triggering step and the fourth triggering step;

when the first triggering step is abutted against the second triggering step, the second telescopic shell 2117 drives the first telescopic shell 2116 to synchronously move along the axis of the third limiting rod in the direction away from the limiting shaft 2114 through the matching of the first triggering step and the second triggering step; when one end of the sleeve facing the limiting barrel 2115 is abutted against the limiting barrel 2115, the telescopic motor 2113 is closed;

the transmission motor 2121 is started, the transmission motor 2121 drives the connecting rod 2122 to rotate around the axis of the transmission motor 2121 through the second power transmission piece, the connecting rod 2122 rotates and drives the transmission shaft 2123 to synchronously rotate around the axis of the transmission motor 2123 through the first bevel gear and the second bevel gear, the transmission shaft 2123 rotates and drives the limiting cylinder 2115 to synchronously rotate around the axis of the transmission motor 2125 through the third gear and the first gear ring arranged on the limiting cylinder 2115, and the limiting cylinder 2115 rotates and drives the first telescopic shell 2116, the second telescopic shell 2117 and the third telescopic shell 2118 to synchronously rotate around the axis of the limiting cylinder 2115;

the rotating motor 2131 is started, the rotating motor 2131 drives the first rotating shaft 2132 to rotate around the axis of the rotating motor 2131 through the third power transmission piece, the first rotating shaft 2132 rotates and drives the second rotating shaft 2133 to synchronously rotate around the axis of the rotating motor 2133 through the fourth gear and the fifth gear, the second rotating shaft 2133 rotates and drives the stirring blades 2135 to synchronously rotate around the axis of the transmission cylinder 2314 through the transmission cylinder 2314, and the stirring blades 2135 are used for stirring and mixing cosmetic raw materials;

the rotating motor 221 is started, the rotating motor 221 drives the first penetrating shaft 222 to rotate around the axis of the rotating motor through the fourth power transmission piece, the first penetrating shaft 222 rotates and drives the second toothed ring 226 to synchronously rotate around the axis of the rotating motor through the sixth gear and the seventh gear, the second toothed ring 226 rotates and drives the stirring mechanism 21 to synchronously rotate around the axis of the positioning cylinder 224 through the positioning cylinder 224, the first telescopic shell 2116, the second telescopic shell 2117 and the third telescopic shell 2118 rotate around the axis of the positioning cylinder 2115 and rotate around the axis of the positioning cylinder 224 at the same time, the first telescopic shell 2116, the second telescopic shell 2117 and the third telescopic shell 2118 jointly stir and mix cosmetic raw materials, and the third telescopic shell 2118 also moves along the inner wall of the stirring cylinder 121 to prevent the cosmetic raw materials from being attached to the inner circumferential surface of the stirring cylinder 121.

During actual work, a user puts cosmetic raw materials into the feeding cylinder 111 of the feeding mechanism 11, starts the feeding motor 113, the feeding motor 113 drives the rotating cylinder 115 to rotate around the axis of the feeding motor 113, when a first liquid inlet nozzle and a first liquid outlet nozzle are communicated through a first liquid through hole arranged on the rotating cylinder 115, the feeding motor 113 is closed, the cosmetic raw materials enter the stirring cylinder 121 of the discharging mechanism 12 under the action of gravity, the feeding motor 113 is started, the feeding motor 113 drives the rotating cylinder 115 to rotate around the axis of the feeding motor 113, and when the rotating cylinder 115 returns to an initial position, the feeding motor 113 is closed;

a user injects water into the mixing drum 121 through the water injection valve, the lifting motor 131 is started, the lifting motor 131 drives the rotating screw rod 132 to rotate around the axis of the lifting motor 131, the rotating screw rod 132 rotates and drives the sliding frame 134 to synchronously vertically move downwards through the driving sliding block 135, the mixing device 20 synchronously vertically moves downwards under the driving of the sliding frame 134, and then the lifting motor 131 is closed, at the moment, the first telescopic shell 2116, the second telescopic shell 2117 and the third telescopic shell 2118 are all positioned in the mixing drum 121;

the telescopic motor 2113 is started, the telescopic motor 2113 drives the transmission rod 2112 to rotate around the axis of the telescopic motor through the first power transmission piece, the transmission rod 2112 rotates and drives the second gear to synchronously rotate through the first gear, the second gear rotates and drives the telescopic screw rod 2111 to vertically and downwards synchronously move under the matching of the guide piece, and the telescopic screw rod 2111 moves and drives the third telescopic shell 2118 to synchronously move along the axis of the second limiting rod in the direction away from the limiting shaft 2114 through a traction wire;

the rotating motor 221 is started, the rotating motor 221 drives the first penetrating shaft 222 to rotate around the axis of the rotating motor through the fourth power transmission piece, the first penetrating shaft 222 rotates and drives the second toothed ring 226 to synchronously rotate around the axis of the rotating motor through the sixth gear and the seventh gear, the second toothed ring 226 rotates and drives the stirring mechanism 21 to synchronously rotate around the axis of the positioning cylinder 224 through the positioning cylinder 224, the first telescopic shell 2116, the second telescopic shell 2117 and the third telescopic shell 2118 rotate around the axis of the positioning cylinder 224 while rotating around the axis of the limiting cylinder 2115, and the first telescopic shell 2116, the second telescopic shell 2117 and the third telescopic shell 2118 jointly stir and mix cosmetic raw materials;

starting the lifting motor 131, driving the rotating screw rod 132 to rotate around the axis of the lifting motor 131, driving the sliding frame 134 to reciprocate along the vertical direction through the driving sliding block 135 by the rotating screw rod 132, driving the stirring mechanism 21 to synchronously reciprocate along the vertical direction under the driving of the sliding frame 134, driving the third telescopic shell 2118 of the stirring mechanism 21 to reciprocate along the vertical direction, and separating the cosmetic raw materials adhered to the inner wall of the stirring cylinder 121 from the inner wall of the stirring cylinder 121 under the movement of the third telescopic shell 2118;

in the process of mixing and stirring, a heating plate arranged on the mixing drum 121 heats a mixture of the cosmetic raw materials and water, after the mixing and stirring treatment is completed, the discharging motor 123 is started, the discharging motor 123 drives the rotating drum 125 to rotate around the axis of the discharging motor 123, when a second liquid through hole arranged on the rotating drum 125 connects a second liquid inlet nozzle with a second liquid outlet nozzle, the discharging motor 123 is closed, and the mixed cosmetic raw materials are output outwards from the second liquid outlet nozzle under the action of gravity;

turning off the rotating motor 221, the transmission motor 2121 and the rotating motor 2131, turning on the telescopic motor 2113, driving the first telescopic shell 2116, the second telescopic shell 2117 and the third telescopic shell 2118 to return to the initial position by the telescopic motor 2113, turning off the telescopic motor 2113, driving the stirring device 20 to return to the initial position by the lifting motor 131, and turning off the lifting motor 131.

The above description is only for the specific embodiments of the present disclosure, but the scope of the embodiments of the present disclosure is not limited thereto, and any person skilled in the art can easily conceive of changes, substitutions or combinations within the technical scope of the embodiments of the present disclosure or under the spirit of the embodiments of the present disclosure, and all such changes, substitutions or combinations are included in the scope of the embodiments of the present disclosure.

Claims

1. The raw material mixing equipment is characterized by comprising a feeding and discharging device and a stirring device, wherein the feeding and discharging device is used for conveying cosmetic raw materials to the stirring device and outputting the cosmetic raw materials after stirring and mixing to the outside, and the stirring device is used for stirring and mixing the cosmetic raw materials;

the feeding and discharging device comprises a feeding mechanism, a discharging mechanism, a lifting mechanism and a supporting base, the feeding mechanism is used for conveying the cosmetic raw materials to the stirring device, the discharging mechanism is used for outputting the cosmetic raw materials after stirring and mixing, and the lifting mechanism is used for driving the stirring device to move in the vertical direction.

2. The raw material mixing apparatus according to claim 1, wherein the feeding mechanism comprises a feeding cylinder, a mounting cylinder, a feeding motor, a rotating cylinder;

the rotary cylinder is of a circular cylinder structure and rotates around the axis of the rotary cylinder, the rotary cylinder is coaxially sleeved in the installation cylinder, one end of the rotary cylinder is coaxially provided with an installation shaft, the installation shaft is movably connected with the closed end of the installation cylinder, the rotary cylinder is further provided with a first liquid through hole for communicating a first liquid inlet nozzle with a first liquid outlet nozzle, and the rotary cylinder at the initial position isolates the first liquid inlet nozzle from the first liquid outlet nozzle;

the feeding motor is installed on the positioning plate, and the output end of the feeding motor penetrates through the positioning plate and is fixedly connected with the rotating cylinder in a coaxial mode.

3. The raw material mixing device according to claim 2, wherein the discharging mechanism comprises a mixing drum, a discharging hopper, a fixed drum, a rotating drum and a discharging motor;

the rotating cylinder is of a circular cylinder structure and rotates around the axis of the rotating cylinder, the rotating cylinder is coaxially sleeved inside the fixed cylinder, one end of the rotating cylinder is coaxially provided with a positioning shaft, the positioning shaft is movably connected with the closed end of the fixed cylinder, the rotating cylinder is further provided with a second liquid through hole for communicating a second liquid inlet nozzle with a second liquid outlet nozzle, and the rotating cylinder at the initial position isolates the second liquid inlet nozzle from the second liquid outlet nozzle;

the discharging motor is arranged on the fixing plate, and the output end of the discharging motor penetrates through the fixing plate and is coaxially and fixedly connected with the rotating cylinder.

4. The material mixing apparatus according to claim 3, wherein the lifting mechanism comprises a lifting motor, a rotary screw, a positioning frame, and a sliding frame;

the positioning frame is fixedly arranged on the supporting base;

5. The raw material mixing device according to claim 4, wherein the stirring device comprises a stirring mechanism, a rotating mechanism and a mounting shell, the stirring mechanism is used for stirring and mixing the cosmetic raw materials, and the rotating mechanism is used for driving the stirring mechanism to rotate;

the supporting shell is fixedly arranged inside the mounting shell, and a telescopic motor is arranged on the supporting shell; the telescopic screw rod is positioned in the mounting shell, the axis of the telescopic screw rod is vertically arranged, the telescopic screw rod is connected with the supporting shell through a guide piece, the guide piece comprises a guide groove arranged on the outer circular surface of the telescopic screw rod and a guide step arranged on the supporting shell, the guide direction of the guide groove is parallel to the axis direction of the telescopic screw rod, and the guide step and the guide groove form sliding guide fit;

the transmission rod is positioned inside the mounting shell, the axis of the transmission rod is parallel to the axis of the telescopic screw rod, the transmission rod is movably mounted on the supporting shell, a first gear is coaxially arranged outside the transmission rod, a second gear is coaxially arranged outside the telescopic screw rod, and the first gear is meshed with the second gear;

6. The raw material mixing device according to claim 5, wherein two moving parts are provided, and the two moving parts are arranged on the same horizontal plane and are separated from each other, and each moving part comprises a limiting shaft, a limiting cylinder, a first telescopic shell, a second telescopic shell and a third telescopic shell;

the axis of the limiting shaft is perpendicular to the axis of the telescopic screw rod, the limiting shaft is arranged on the supporting shell, and the outer part of the limiting shaft is coaxially provided with a rolling wheel;

7. The raw material mixing device according to claim 6, wherein one end of the guide rod is movably connected with the limiting cylinder, the other end of the guide rod is fixedly connected with the support shell, a telescopic spring is further arranged outside the guide rod, one end of the telescopic spring is connected with the support shell, the other end of the telescopic spring is connected with a positioning step arranged on the sleeve, the sleeve is driven to move away from the limiting shaft by the elastic force of the telescopic spring, and one end of the first telescopic shell away from the limiting shaft at the initial position and one end of the limiting cylinder away from the limiting shaft are on the same plane;

8. The raw material mixing device according to claim 7, wherein the second limiting rod, the first limiting rod and the third limiting rod are coaxially arranged, a mounting groove is formed in one end, facing the first limiting rod, of the second limiting rod, the second limiting rod is slidably connected with the first limiting rod, a guide direction is formed between the second limiting rod and the first limiting rod and is matched with the first limiting rod in a sliding guide mode along the axial direction of the first limiting rod, the second limiting rod in the initial position is sleeved inside the first limiting rod, a compression spring is further arranged outside the first limiting rod and the second limiting rod, one end of the compression spring is connected with one end, deviating from the limiting shaft, of the third telescopic shell, the other end of the compression spring is connected with the fixed shell, and the third telescopic shell is driven by elasticity of the compression spring to move away from the limiting shaft;

a traction wire is arranged outside the rolling wheel, one end of the traction wire extends to the bottom end of the telescopic screw rod and is fixedly connected with the telescopic screw rod, and the other end of the traction wire penetrates through the third limiting rod and the first limiting rod and is fixedly connected with the second limiting rod through the mounting groove;

the stirring mechanism is set to be in a contraction state and an extension state which are mutually switched, the initial state of the stirring mechanism is in the contraction state, and when the stirring mechanism is in the contraction state, one end of the limiting cylinder, which is far away from the limiting shaft, one end of the first telescopic shell, which is far away from the limiting shaft, one end of the second telescopic shell, which is far away from the limiting shaft, and one end of the third telescopic shell, which is far away from the limiting shaft, are positioned on the same plane; when the stirring mechanism is in an extending state, one end of the sleeve, facing the limiting barrel, is abutted against the limiting barrel, the first trigger step arranged on the first telescopic shell is abutted against the second trigger step arranged on the second telescopic shell, the third trigger step arranged on the second telescopic shell is abutted against the fourth trigger step arranged on the third telescopic shell, and one end, deviating from the limiting shaft, of the third telescopic shell is attached to the inner wall of the stirring barrel.

9. The material mixing apparatus of claim 8, wherein the transmission assembly is located inside the mounting housing, and comprises a connecting rod, a transmission shaft and a transmission motor;

the axis of the connecting rod is vertically arranged, the connecting rod is movably mounted on the supporting shell, a first bevel gear is coaxially arranged outside the connecting rod, a penetrating cylinder is coaxially arranged outside the bottom end of the connecting rod, and the penetrating cylinder is fixedly mounted on the supporting shell;

the two third gears are correspondingly arranged and are respectively meshed and connected with a first gear ring arranged on the limiting cylinder;

the transmission motor is arranged on the support shell, an output shaft of the lip motion motor is vertical, a second power transmission piece for realizing power transmission between the output end of the transmission motor and the connecting rod is arranged between the output end of the transmission motor and the connecting rod, and the second power transmission piece is of a belt transmission structure;

the first rotating shaft is movably arranged on the supporting shell, the axis of the first rotating shaft is vertically arranged, and the output end of the first rotating shaft is coaxially provided with a fourth gear;

the rotating electrical machines are arranged on the supporting shell, third power transmission pieces used for achieving power transmission between the output ends of the rotating electrical machines and the input end of the first rotating shaft are arranged between the output ends of the rotating electrical machines and the input end of the first rotating shaft, and the third power transmission pieces are of belt transmission structures.

10. The raw material mixing device according to claim 9, wherein the rotating mechanism comprises a first penetrating shaft, a second penetrating shaft, a positioning cylinder, a mounting ring and a rotating motor;

the axes of the first penetrating shaft and the second penetrating shaft are vertically arranged, the first penetrating shaft and the second penetrating shaft are both arranged on the mounting plate, a sixth gear is coaxially arranged outside the first penetrating shaft, a seventh gear is coaxially arranged outside the second penetrating shaft, and the sixth gear is meshed with the seventh gear;

the axial line of the positioning cylinder is vertically arranged, an avoiding port arranged on the mixing cylinder is coaxially and inwardly provided with an installation step, the outer circular surface of the positioning cylinder is coaxially and inwardly provided with a positioning groove, the positioning cylinder is installed in the avoiding port through the matching of the installation step and the positioning groove, the center of the positioning cylinder is also provided with a limiting port matched with the installation shell, the installation shell is in sliding connection with the positioning cylinder through the limiting port, and the installation shell and the positioning cylinder form sliding guide matching along the vertical direction in a guide direction;

the mounting ring is positioned above the stirring cylinder, is coaxially and fixedly mounted outside the positioning cylinder, and is coaxially provided with a second gear ring which is meshed and connected with the second penetrating shaft;