CN111254006A

CN111254006A - Shea butter extraction element for soap

Info

Publication number: CN111254006A
Application number: CN202010110705.4A
Authority: CN
Inventors: 刘钟远
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-02-24
Filing date: 2020-02-24
Publication date: 2020-06-09

Abstract

The invention relates to soap, in particular to a shea butter extraction device for soap. The invention aims to provide a shea butter extraction device for soap. A shea butter extraction device for soap comprises a main frame, a control display screen, a feeding and impurity removing mechanism, a cleaning, drying and crushing mechanism and an extraction and filtration mechanism; a control display screen is arranged at the middle top of the right end of the main frame; a feeding impurity removing mechanism is arranged at the left top part in the main frame; a cleaning, drying and crushing mechanism is arranged at the left bottom in the main frame, and the top of the cleaning, drying and crushing mechanism is connected with a feeding impurity removal mechanism. The invention achieves the industrial production of the shea butter, solves the problems of complex process, low yield, high impurity content and low shea utilization rate in the traditional shea butter extraction process, and can solve the effects of low shea butter supply and high impurity content in the current market.

Description

Shea butter extraction element for soap

Technical Field

The invention relates to soap, in particular to a shea butter extraction device for soap.

Background

Shea butter belongs to the elaeagnus, shea, also called shea butter and cedar, originally produced in western african countries such as wuganda, nigeria, bukinawa, marie, senegal and Guinea, is a plant with high scientific and economic values for all trees, and is a woody oil material to be developed urgently.

Products made of shea butter are frequently seen on the market, the body shadow of shea butter can be seen in female skin care products, sun-screening products, color cosmetic products, even daily necessities such as shampoo, shower gel, soap and the like, besides the products are made into cosmetics, shea butter is also used on traditional percussion instruments, people can coat shea butter on a wooden carved African drum stand to increase the durability of the instruments, in addition, shea butter is also used in the construction field as waterproof wax by people, the kernels of shea butter are very large, and shea butter is rich in inside.

In the prior art, the extraction of the shea butter is realized by manual extraction, and the shea butter is extracted by some very original methods, so that the extraction process is slow, the time and the labor are consumed, the impurity content of the finished product is high, the utilization rate of the shea butter is low, the shea butter in the shea butter can not be completely extracted, and the shea butter in the market is in short supply.

Disclosure of Invention

The invention aims to overcome the defects that the extraction of shea butter in the prior art is carried out by manual extraction and very original methods are used for extraction, the extraction process is slow, the time and the labor are consumed, the impurity content of the finished product is high, the utilization rate of shea butter is low, and shea butter in shea butter can not be completely extracted, so that the shea butter in the market is in short supply.

The invention is achieved by the following specific technical means:

a shea butter extraction device for soap comprises a main frame, a control display screen, a feeding and impurity removing mechanism, a cleaning, drying and crushing mechanism and an extraction and filtration mechanism; a control display screen is arranged at the middle top of the right end of the main frame; a feeding impurity removing mechanism is arranged at the left top part in the main frame; a cleaning, drying and crushing mechanism is arranged at the left bottom in the main frame, and the top of the cleaning, drying and crushing mechanism is connected with a feeding impurity removal mechanism; the right part is provided with in the main frame and draws filtering mechanism to draw the left top of filtering mechanism and be connected with feeding edulcoration mechanism, draw in the filtering mechanism moreover the left part and wash the broken mechanism of drying and be connected.

The feeding impurity removing mechanism comprises a first driving wheel, a second driving wheel, a first driving rod, a spiral feeding rod, a supporting plate, a feeding cabin, a first feeding valve, an impurity removing cabin, a first discharging pipe, an impurity storage cabin, a third driving wheel, a first reverse driving impurity removing roller, a fourth driving wheel, a second reverse driving impurity removing roller, a fifth driving wheel, a third reverse driving impurity removing roller, a sixth driving wheel, a fourth reverse driving impurity removing roller, a seventh driving wheel, a fifth reverse driving impurity removing roller, a limiting plate, a first shaking spring, a second shaking spring, a double cam, a first bevel gear, a second bevel gear, an eighth driving wheel and a second driving rod; the right side of the first driving wheel is in transmission connection with a second driving wheel through a belt; the inner surface of the first transmission wheel is rotationally connected with the second transmission rod; the middle part of the bottom end of the second driving wheel is rotationally connected with the first driving rod; the bottom end of the first transmission rod is rotationally connected with the spiral feeding rod; a supporting plate is arranged at the middle bottom of the outer surface of the first transmission rod; a feeding cabin is arranged at the left end of the supporting plate, and the top of the feeding cabin is connected with a first transmission rod; a first feeding valve is arranged at the left part of the top end of the feeding cabin; the bottom of the feeding cabin is connected with the impurity removing cabin; the right bottom of the impurity removing cabin is connected with a first discharge pipe; a sundries storage cabin is arranged at the left bottom of the impurity removal cabin; a third driving wheel is arranged at the left part in the impurity removing cabin; a limiting plate is arranged at the right part of the bottom end in the impurity removing cabin; a first shaking spring is arranged at the left part of the bottom end of the impurity removing cabin; a second shaking spring is arranged at the right part of the bottom end of the impurity removing cabin; a double cam is arranged below the middle part of the bottom end of the impurity removing cabin; the middle part of the rear end of the third driving wheel is rotationally connected with the first reverse driving impurity removing roller; the right side of the third driving wheel is in transmission connection with the fourth driving wheel through a belt; the middle part of the rear end of the fourth driving wheel is rotationally connected with the second reverse driving impurity removing roller; the right side of the fourth driving wheel is in transmission connection with a fifth driving wheel through a belt; the middle part of the rear end of the fifth driving wheel is rotationally connected with the third reverse driving impurity removing roller; the right side of the fifth driving wheel is in transmission connection with the sixth driving wheel through a belt; the middle part of the rear end of the sixth driving wheel is rotationally connected with the fourth reverse driving impurity removing roller; the right side of the sixth driving wheel is in driving connection with the seventh driving wheel through a belt; the middle part of the rear end of the seventh driving wheel is rotationally connected with the fifth reverse driving impurity removing roller; the bottom end of the double cam is rotationally connected with the first bevel gear; the rear part of the bottom end of the first bevel gear is meshed with the second bevel gear; the middle part of the rear end of the second bevel gear is rotationally connected with an eighth transmission wheel; the right side of the second driving wheel is connected with the extraction and filtration mechanism; the top of the left end of the feeding cabin is connected with the main frame; the top of the right end of the feeding cabin is connected with the extraction and filtration mechanism; the right part of the first discharge pipe is connected with a cleaning, drying and crushing mechanism; the left lower part of the third driving wheel is connected with a cleaning, drying and crushing mechanism; the bottom end of the first shaking spring is connected with the main frame; the bottom end of the second shaking spring is connected with the main frame; the bottom end of the double cam is connected with the main frame; the top end of the first bevel gear is connected with the main frame; the left lower part of the eighth driving wheel is connected with a cleaning, drying and crushing mechanism; the outer surface of the second transmission rod is connected with the main frame; the bottom of the outer surface of the second transmission rod is connected with the cleaning, drying and crushing mechanism.

The cleaning, drying and crushing mechanism comprises a motor, a ninth driving wheel, a tenth driving wheel, an eleventh driving wheel, a conveying belt, a baffle, a guide plate, a twelfth driving wheel, a third bevel gear, a fourth bevel gear, a thirteenth driving wheel, a fourteenth driving wheel, a fifteenth driving wheel, a fifth bevel gear, a sixth bevel gear, an isolation limiting block, a crushing wheel, a crushing cabin, a grinding plate, a grinding roller, a sixteenth driving wheel, a seventeenth driving wheel, a cleaning cabin, a water outlet, a first filter screen, a first water inlet, a stirring and cleaning device, a discharge valve, a second discharge pipe, a hot air cabin, a heating rod, a micro air feeder, a connecting cabin and a fan-shaped expanding disc; the middle part of the front end of the motor is rotationally connected with a ninth driving wheel; a cleaning cabin is arranged above the top end of the motor; the left upper part of the ninth driving wheel is in transmission connection with the tenth driving wheel through a belt; the left side of the tenth driving wheel is in transmission connection with an eleventh driving wheel through a belt; the middle part of the rear end of the tenth driving wheel is rotationally connected with the conveyor belt, and the left part of the front end of the conveyor belt is connected with the eleventh driving wheel; the left lower part of the tenth driving wheel is in transmission connection with the twelfth driving wheel through a belt; the top of the conveyor belt is connected with the baffle; a guide plate is arranged at the left end of the baffle plate; a hot air cabin is arranged above the top end of the baffle; the middle part of the front end of the twelfth transmission wheel is rotationally connected with the third bevel gear; the middle part of the rear end of the twelfth transmission wheel is connected with the crushing cabin; the bottom of the front end of the third bevel gear is meshed with the fourth bevel gear; the bottom end of the fourth bevel gear is rotatably connected with a thirteenth driving wheel, and the bottom end of the thirteenth driving wheel is connected with the crushing cabin; the left side of the thirteenth driving wheel is in transmission connection with a fourteenth driving wheel through a belt, and the bottom end of the fourteenth driving wheel is connected with the crushing cabin; the left side of the fourteenth driving wheel is in transmission connection with a fifteenth driving wheel through a belt, and the bottom end of the fifteenth driving wheel is connected with the crushing cabin; the bottom end of the fourteenth driving wheel is rotatably connected with the grinding roller, and the top of the grinding roller is connected with the crushing cabin; the top end of the fourteenth driving wheel is rotationally connected with the sixteenth driving wheel; the bottom end of the fifteenth transmission wheel is rotationally connected with a fifth bevel gear; the left part of the bottom end of the fifth bevel gear is meshed with the sixth bevel gear; an isolation limiting block is arranged on the outer side of the sixth bevel gear, and the bottom end of the isolation limiting block is connected with the crushing cabin; the left end of the sixth bevel gear is rotationally connected with the crushing wheel; a grinding plate is arranged in the middle of the rear end in the crushing cabin; a connecting cabin is arranged at the right top of the crushing cabin; the left side of the sixteenth driving wheel is in transmission connection with the seventeenth driving wheel through a belt; a water outlet is formed in the bottom of the right end of the cleaning cabin; a first filter screen is arranged at the bottom in the cleaning cabin; a first water inlet is formed in the right top of the cleaning cabin; a stirring cleaner is arranged in the middle of the cleaning cabin; a discharge valve is arranged at the left bottom of the cleaning cabin; the left part of the discharge valve is connected with a second discharge pipe; a heating rod is arranged at the top in the hot air cabin; a miniature air blower is arranged at the middle left part of the bottom end in the hot air cabin; a fan-shaped expansion disc is arranged at the left part of the bottom end of the connecting cabin; the bottom end of the motor is connected with the main frame; the right upper part of the eleventh transmission wheel is connected with the third transmission wheel; the top of the left end of the guide plate is connected with the main frame; the upper right side of the twelfth driving wheel is connected with an eighth driving wheel; the bottom end of the crushing cabin is connected with the main frame; the inner surface of the seventeenth driving wheel is connected with the second driving rod; the left top of the cleaning cabin is connected with a first discharge pipe; the top of the stirring cleaner is connected with the extraction and filtration mechanism; the top end of the hot air cabin is connected with the main frame; the right part of the top end of the connecting cabin is connected with the extracting and filtering mechanism.

The extraction and filtration mechanism comprises a shea butter extraction cabin, an impurity removal valve, a stirrer, an eighteenth drive wheel, a nineteenth drive wheel, a third drive rod, a second feeding valve, a first conduit, an air pump, a second conduit, a seven-shaped push plate, an electric push rod, a second water inlet, a third conduit, a fourth conduit, a heating sleeve, a high-temperature filtration cabin, an impurity discharge pipe, a second filter screen, a connecting pipe, a condensation cabin, a first condensation plate, a second condensation plate, a third filter screen, a twentieth drive wheel and a connecting block; an impurity removal valve is arranged at the left bottom of the shea butter extraction cabin; a stirrer is arranged at the bottom of the shea butter extraction cabin; a second feeding valve is arranged in the left middle part of the rear end in the shea butter extraction cabin; the left top of the shea butter extraction cabin is connected with the seven-shaped push plate; a second water inlet is formed in the middle left part of the top end of the shea butter extraction cabin; a third conduit is arranged at the right top of the shea butter extraction cabin; a third filter screen is arranged at the middle top part in the shea butter extraction cabin; the bottom end of the stirrer is rotationally connected with an eighteenth driving wheel; the left side of the eighteenth driving wheel is in transmission connection with the nineteenth driving wheel through a belt; the inner surface of the nineteenth driving wheel is rotationally connected with the third transmission rod; the top of the outer surface of the third transmission rod is rotationally connected with a twentieth transmission wheel; the rear part of the second feeding valve is connected with the first conduit; the air pump is arranged at the left end of the first conduit; a second conduit is arranged at the right part of the bottom end of the air pump; the top end of the air pump is provided with a connecting block; the left top of the seven-shaped push plate is connected with the electric push rod, and the left end of the electric push rod is connected with the connecting block; the bottom end of the third conduit is connected with the fourth conduit; the middle part of the outer surface of the fourth conduit is provided with a heating sleeve; the bottom of the fourth conduit is connected with the high-temperature filtering cabin; the middle part of the left end of the high-temperature filtering cabin is provided with a trash discharging pipe; a second filter screen is arranged at the bottom in the high-temperature filter cabin; the left part of the bottom end of the high-temperature filtering cabin is provided with a connecting pipe; the bottom of the connecting pipe is connected with the condensing cabin; a first condensing plate is arranged at the left part of the condensing cabin; a second condensing plate is arranged at the right part of the condensing cabin; the middle right part and the right end of the top end of the shea butter extraction cabin are connected with the main frame; the bottom end of the third transmission rod is connected with the stirring cleaner; the bottom of the second conduit is connected with the connecting cabin; the top of the outer surface of the heating sleeve and the middle bottom of the outer surface are both connected with the main frame; the top of the right end of the high-temperature filtering cabin is connected with the main frame; the bottom end of the condensation cabin is connected with the main frame; the left side of the twentieth driving wheel is connected with the second driving wheel; the left end of the connecting block is connected with the feeding cabin.

A flexible gasket is arranged at the joint of the feeding cabin and the bottom of the impurity removing cabin.

The bottom plate at the bottom of the impurity removing cabin is provided with an inclination angle from right to left.

The distance between the left end of the first reverse transmission impurity removing roller and the left end in the impurity removing cabin is smaller than the diameter of the shea nut.

The miniature air blowers are provided with six groups in total and are arranged at the bottom of the hot air cabin at equal intervals.

A gap is formed between the bottom end of the fan-shaped expanding disc and the bottom end in the crushing cabin.

Compared with the prior art, the invention has the following beneficial effects:

in order to solve the problems that the extraction of the shea butter depends on manual extraction and uses quite original methods for extraction, the extraction process is slow, the time and the labor are consumed, the impurity content of a finished product is high, the utilization rate of the shea butter is low, the shea butter in the shea butter can not be completely extracted, and the shea butter supply on the market is not in demand, a feeding impurity removal mechanism, a cleaning, drying and crushing mechanism and an extraction and filtration mechanism are designed, when the shea butter extraction and filtration mechanism is used, the shea butter added into the feeding impurity removal mechanism is subjected to impurity removal treatment, then the cleaning, drying and crushing mechanism is used for cleaning, drying and crushing the shea butter after impurity removal, so that shea butter pulp is obtained, then the extraction and filtration mechanism extracts shea butter in the shea butter, high-yield impurity-free shea butter is obtained, and the industrial production of the shea butter is achieved, solves the problems of complex process, low yield, high impurity content and low utilization rate of shea butter in the traditional shea butter extraction process, and can solve the effects of low shea butter supply and high impurity content in the current market.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of a feeding and impurity removing mechanism according to the present invention;

FIG. 3 is a schematic structural view of a cleaning, drying and crushing mechanism of the present invention;

FIG. 4 is a schematic view of the extraction filter mechanism of the present invention;

FIG. 5 is an enlarged view of the region X of the present invention.

The labels in the figures are: 1-a main frame, 2-a control display screen, 3-a feeding impurity removing mechanism, 4-a cleaning, drying and crushing mechanism, 5-an extracting and filtering mechanism, 301-a first driving wheel, 302-a second driving wheel, 303-a first driving rod, 304-a spiral feeding rod, 305-a supporting plate, 306-a feeding cabin, 307-a first feeding valve, 308-an impurity removing cabin, 309-a first discharging pipe, 3010-an impurity storage cabin, 3011-a third driving wheel, 3012-a first reverse driving impurity removing roller, 3013-a fourth driving wheel, 3014-a second reverse driving impurity removing roller, 3015-a fifth driving wheel, 3016-a third reverse driving impurity removing roller, 3017-a sixth driving wheel, 3018-a fourth reverse driving impurity removing roller, 3019-a seventh driving wheel and 3020-a fifth reverse driving impurity removing roller, 3021-a limiting plate, 3022-a first shaking spring, 3023-a second shaking spring, 3024-a double cam, 3025-a first bevel gear, 3026-a second bevel gear, 3027-an eighth drive wheel, 3028-a second drive rod, 401-a motor, 402-a ninth drive wheel, 403-a tenth drive wheel, 404-an eleventh drive wheel, 405-a belt, 406-a baffle, 407-a deflector, 408-a twelfth drive wheel, 409-a third bevel gear, 4010-a fourth bevel gear, 4011-a thirteenth drive wheel, 4012-a fourteenth drive wheel, 4013-a fifteenth drive wheel, 4014-a fifth bevel gear, 4015-a sixth bevel gear, 4016-an isolation stopper, 4017-a crushing wheel, 4018-a crushing cabin, 4019-a grinding plate, 4020-grinding roller, 4021-sixteenth driving wheel, 4022-seventeenth driving wheel, 4023-cleaning cabin, 4024-water outlet, 4025-first filter screen, 4026-first water inlet, 4027-stirring cleaner, 4028-discharge valve, 4029-second discharge pipe, 4030-hot air cabin, 4031-heating rod, 4032-micro air blower, 4033-connecting cabin, 4034-fan-shaped expansion disc, 501-shea butter extraction cabin, 502-impurity removal valve, 503-stirrer, 504-eighteenth driving wheel, 505-nineteenth driving wheel, 506-third driving rod, 507-second feeding valve, 508-first conduit, 509-air pump, 5010-second conduit, 5011-seven-shaped push plate, 5012-electric push rod, 5013-second water inlet, 5014-third conduit, 5015-fourth conduit, 5016-heating jacket, 5017-high temperature filtration cabin, 5018-impurity removing pipe, 5019-second filter screen, 5020-connecting pipe, 5021-condensation cabin, 5022-first condensation plate, 5023-second condensation plate, 5024-third filter screen, 5025-twentieth transmission wheel and 5026-connecting block.

Detailed Description

The invention is further described below with reference to the figures and examples.

Examples

A shea butter extraction device for soap, as shown in figures 1-5, comprises a main frame 1, a control display screen 2, a feeding and impurity removing mechanism 3, a cleaning, drying and crushing mechanism 4 and an extraction and filtration mechanism 5; a control display screen 2 is arranged at the middle top of the right end of the main frame 1; a feeding impurity removing mechanism 3 is arranged at the left top part in the main frame 1; a cleaning, drying and crushing mechanism 4 is arranged at the left bottom in the main frame 1, and the top of the cleaning, drying and crushing mechanism 4 is connected with a feeding impurity removal mechanism 3; the right part is provided with in the main frame 1 and draws filtering mechanism 5 to draw filtering mechanism 5 left side top and be connected with feeding edulcoration mechanism 3, draw filtering mechanism 5 in addition the left part be connected with washing stoving crushing mechanism 4.

The feeding and impurity removing mechanism 3 comprises a first driving wheel 301, a second driving wheel 302, a first driving rod 303, a spiral feeding rod 304, a supporting plate 305, a feeding cabin 306, a first feeding valve 307, an impurity removing cabin 308, a first discharging pipe 309, an impurity storage cabin 3010, a third driving wheel 3011, a first reverse-transmission impurity removing roller 3012, a fourth driving wheel 3013, a second reverse-transmission impurity removing roller 3014, a fifth driving wheel 3015, a third reverse-transmission impurity removing roller 3016, a sixth driving wheel 3017, a fourth reverse-transmission impurity removing roller 3018, a seventh driving wheel 3019, a fifth reverse-transmission impurity removing roller 3020, a limiting plate 3021, a first shaking spring 3022, a second shaking spring 3023, a double cam 3024, a first bevel gear 3025, a second bevel gear 3026, an eighth driving wheel 3027 and a second driving rod 3028; the right side of the first driving wheel 301 is in driving connection with a second driving wheel 302 through a belt; the inner surface of the first driving wheel 301 is rotatably connected with a second driving rod 3028; the middle part of the bottom end of the second driving wheel 302 is rotationally connected with a first driving rod 303; the bottom end of the first transmission rod 303 is rotatably connected with a spiral feeding rod 304; a support plate 305 is arranged at the bottom of the outer surface of the first transmission rod 303; a feeding cabin 306 is arranged at the left end of the supporting plate 305, and the top of the feeding cabin 306 is connected with a first transmission rod 303; a first feeding valve 307 is arranged at the left part of the top end of the feeding cabin 306; the bottom of the feeding cabin 306 is connected with the impurity removing cabin 308; the right bottom of the impurity removing cabin 308 is connected with a first discharge pipe 309; a sundries storage cabin 3010 is arranged at the left bottom of the impurity removing cabin 308; a third driving wheel 3011 is arranged at the left part in the impurity removing cabin 308; a limiting plate 3021 is arranged at the right part of the bottom end in the trash bin 308; a first shaking spring 3022 is arranged at the left part of the bottom end of the impurity removing cabin 308; a second shaking spring 3023 is arranged at the right part of the bottom end of the impurity removing cabin 308; a double cam 3024 is arranged below the middle part of the bottom end of the impurity removing cabin 308; the middle part of the rear end of the third driving wheel 3011 is rotationally connected with the first reverse driving impurity removing roller 3012; the right side of the third transmission wheel 3011 is in transmission connection with a fourth transmission wheel 3013 through a belt; the middle part of the rear end of the fourth driving wheel 3013 is rotationally connected with the second reverse driving impurity removing roller 3014; the right side of the fourth driving wheel 3013 is in transmission connection with a fifth driving wheel 3015 through a belt; the middle part of the rear end of the fifth driving wheel 3015 is rotationally connected with a third reverse driving impurity removing roller 3016; the right side of the fifth transmission wheel 3015 is in transmission connection with a sixth transmission wheel 3017 through a belt; the middle part of the rear end of the sixth driving wheel 3017 is rotationally connected with the fourth reverse driving impurity removing roller 3018; the right side of the sixth transmission wheel 3017 is in transmission connection with a seventh transmission wheel 3019 through a belt; the middle part of the rear end of the seventh driving wheel 3019 is rotationally connected with the fifth reverse driving impurity removing roller 3020; the bottom end of the double cam 3024 is rotatably connected with a first bevel gear 3025; the rear part of the bottom end of the first bevel gear 3025 engages with the second bevel gear 3026; the middle part of the rear end of the second bevel gear 3026 is rotationally connected with an eighth driving wheel 3027; the right side of the second driving wheel 302 is connected with an extraction and filtration mechanism 5; the top of the left end of the feeding cabin 306 is connected with the main frame 1; the top of the right end of the feeding cabin 306 is connected with the extraction and filtration mechanism 5; the right part of the first discharge pipe 309 is connected with the cleaning, drying and crushing mechanism 4; the left lower part of the third transmission wheel 3011 is connected with a cleaning, drying and crushing mechanism 4; the bottom end of the first shaking spring 3022 is connected with the main frame 1; the bottom end of the second shaking spring 3023 is connected with the main frame 1; the bottom end of the double cam 3024 is connected with the main frame 1; the top end of the first bevel gear 3025 is connected with the main frame 1; the left lower part of the eighth driving wheel 3027 is connected with the cleaning, drying and crushing mechanism 4; the outer surface of the second transmission rod 3028 is connected with the main frame 1; the bottom of the outer surface of the second transmission rod 3028 is connected with the cleaning, drying and crushing mechanism 4.

The cleaning, drying and crushing mechanism 4 comprises a motor 401, a ninth driving wheel 402, a tenth driving wheel 403, an eleventh driving wheel 404, a conveying belt 405, a baffle 406, a guide plate 407, a twelfth driving wheel 408, a third bevel gear 409, a fourth bevel gear 4010, a thirteenth driving wheel 4011, a fourteenth driving wheel 4012, a fifteenth driving wheel 4013, a fifth bevel gear 4014, a sixth bevel gear 4015, an isolation limit block 4016, a crushing wheel 4017, a crushing cabin 4018, a grinding plate 4019, a grinding roller 4020, a sixteenth driving wheel 4021, a seventeenth driving wheel 4022, a cleaning cabin 4023, a water outlet 4024, a first filter screen 4025, a first water inlet 4026, a stirring and cleaning device 4027, a discharge valve 4028, a second discharge pipe 4029, a hot air cabin 4030, a heating rod 4031, a micro air blower 4032, a connecting cabin 4033 and a fan-shaped expansion disc 4034; the middle part of the front end of the motor 401 is rotationally connected with a ninth driving wheel 402; a cleaning cabin 4023 is arranged above the top end of the motor 401; the upper left side of the ninth driving wheel 402 is in transmission connection with a tenth driving wheel 403 through a belt; the left side of the tenth driving wheel 403 is in driving connection with an eleventh driving wheel 404 through a belt; the middle part of the rear end of the tenth driving wheel 403 is rotatably connected with the conveyor belt 405, and the left part of the front end of the conveyor belt 405 is connected with the eleventh driving wheel 404; the left lower part of the tenth driving wheel 403 is in driving connection with a twelfth driving wheel 408 through a belt; the top of the conveyor belt 405 is connected with a baffle 406; a guide plate 407 is arranged at the left end of the baffle 406; a hot air cabin 4030 is arranged above the top end of the baffle 406; the middle part of the front end of the twelfth driving wheel 408 is rotationally connected with a third bevel gear 409; the middle part of the rear end of the twelfth driving wheel 408 is connected with a crushing cabin 4018; the bottom of the front end of the third bevel gear 409 is meshed with a fourth bevel gear 4010; the bottom end of a fourth bevel gear 4010 is rotatably connected with a thirteenth driving wheel 4011, and the bottom end of the thirteenth driving wheel 4011 is connected with a crushing cabin 4018; the left side of a thirteenth driving wheel 4011 is in driving connection with a fourteenth driving wheel 4012 through a belt, and the bottom end of the fourteenth driving wheel 4012 is connected with a crushing cabin 4018; the left side of the fourteenth driving wheel 4012 is in transmission connection with a fifteenth driving wheel 4013 through a belt, and the bottom end of the fifteenth driving wheel 4013 is connected with a crushing cabin 4018; the bottom end of a fourteenth driving wheel 4012 is rotatably connected with a grinding roller 4020, and the top of the grinding roller 4020 is connected with a crushing cabin 4018; the top end of the fourteenth driving wheel 4012 is rotationally connected with the sixteenth driving wheel 4021; the bottom end of a fifteenth driving wheel 4013 is rotatably connected with a fifth bevel gear 4014; the left part of the bottom end of the fifth bevel gear 4014 is meshed with a sixth bevel gear 4015; an isolation limiting block 4016 is arranged on the outer side of the sixth bevel gear 4015, and the bottom end of the isolation limiting block 4016 is connected with a crushing cabin 4018; the left end of a sixth bevel gear 4015 is rotatably connected with a crushing wheel 4017; a grinding plate 4019 is arranged in the middle of the inner rear end of the crushing cabin 4018; a connecting cabin 4033 is arranged at the right top of the crushing cabin 4018; the left side of the sixteenth driving wheel 4021 is in transmission connection with a seventeenth driving wheel 4022 through a belt; a water outlet 4024 is formed in the bottom of the right end of the cleaning cabin 4023; a first filter screen 4025 is arranged at the bottom in the cleaning cabin 4023; a first water inlet 4026 is formed in the right top of the cleaning cabin 4023; a stirring cleaner 4027 is arranged in the middle of the cleaning cabin 4023; a discharge valve 4028 is arranged at the left bottom of the cleaning cabin 4023; the left part of the discharge valve 4028 is connected with a second discharge pipe 4029; a heating rod 4031 is arranged at the top in the hot air cabin 4030; a micro air blower 4032 is arranged at the middle left part of the inner bottom end of the hot air cabin 4030; a fan-shaped expansion disc 4034 is arranged at the left part of the bottom end of the connecting cabin 4033; the bottom end of the motor 401 is connected with the main frame 1; the upper right side of the eleventh driving wheel 404 is connected with a third driving wheel 3011; the top of the left end of the guide plate 407 is connected with the main frame 1; the upper right side of the twelfth driving wheel 408 is connected with an eighth driving wheel 3027; the bottom end of the crushing cabin 4018 is connected with the main frame 1; the inner surface of the seventeenth driving wheel 4022 is connected with a second driving rod 3028; the left top of the cleaning cabin 4023 is connected with a first discharge pipe 309; the top of the stirring cleaner 4027 is connected with the extraction and filtration mechanism 5; the top end of the hot air cabin 4030 is connected with the main frame 1; the top right part of the connecting cabin 4033 is connected with an extraction filtering mechanism 5.

Wherein, the extraction and filtration mechanism 5 comprises a shea butter extraction cabin 501, an impurity removal valve 502, a stirrer 503, an eighteenth transmission wheel 504, a nineteenth transmission wheel 505, a third transmission rod 506, a second feeding valve 507, a first conduit 508, an air pump 509, a second conduit 5010, a seven-shaped push plate 5011, an electric push rod 5012, a second water inlet 5013, a third conduit 5014, a fourth conduit 5015, a heating jacket 5016, a high-temperature filtration cabin 5017, an impurity discharge pipe 5018, a second filter screen 5019, a connecting pipe 5020, a condensation cabin 5021, a first condensation plate 5022, a second condensation plate 5023, a third filter screen 5024, a twentieth transmission wheel 5025 and a connecting block 5026; an impurity removal valve 502 is arranged at the left bottom of the shea butter extraction cabin 501; a stirrer 503 is arranged at the bottom in the shea butter extraction cabin 501; a second feeding valve 507 is arranged in the left middle part of the rear end in the shea butter extraction cabin 501; the left top of the shea butter extraction cabin 501 is connected with a seven-shaped push plate 5011; a second water inlet 5013 is formed in the middle left portion of the top end of the shea butter extraction cabin 501; a third conduit 5014 is arranged at the right top of the shea butter extraction cabin 501; a third filter screen 5024 is arranged at the middle top part in the shea butter extraction cabin 501; the bottom end of the stirrer 503 is rotatably connected with an eighteenth driving wheel 504; the left side of the eighteenth driving wheel 504 is in driving connection with a nineteenth driving wheel 505 through a belt; the inner surface of the nineteenth transmission wheel 505 is rotatably connected with a third transmission rod 506; the top of the outer surface of the third transmission rod 506 is rotatably connected with a twentieth transmission wheel 5025; the rear part of the second feeding valve 507 is connected with a first conduit 508; the left end of the first conduit 508 is provided with an air pump 509; the air pump 509 is provided with a second conduit 5010 at the bottom right portion thereof; the top end of the air pump 509 is provided with a connecting block 5026; the left top of the seven-shaped push plate 5011 is connected with an electric push rod 5012, and the left end of the electric push rod 5012 is connected with a connecting block 5026; the bottom end of third conduit 5014 is connected to fourth conduit 5015; a heating sleeve 5016 is arranged in the middle of the outer surface of the fourth guide pipe 5015; the bottom of the fourth conduit 5015 is connected to the high temperature filter capsule 5017; the middle part of the left end of the high-temperature filtering cabin 5017 is provided with a trash discharging pipe 5018; a second filter screen 5019 is arranged at the middle bottom in the high-temperature filter cabin 5017; the left part of the bottom end of the high-temperature filtering cabin 5017 is provided with a connecting pipe 5020; the bottom of the connecting pipe 5020 is connected with the condensing cabin 5021; a first condensation plate 5022 is arranged at the left part of the condensation cabin 5021; a second condensing plate 5023 is arranged at the right part of the condensing cabin 5021; the right and middle parts of the top end of the shea butter extraction cabin 501 are connected with the main frame 1; the bottom end of the third transmission rod 506 is connected with the stirring cleaner 4027; the bottom of the second conduit 5010 is connected to the connection bay 4033; the top of the outer surface and the middle bottom of the outer surface of the heating sleeve 5016 are both connected with the main frame 1; the top of the right end of the high-temperature filtering cabin 5017 is connected with the main frame 1; the bottom end of the condensation cabin 5021 is connected with the main frame 1; the left side of the twentieth driving wheel 5025 is connected with the second driving wheel 302; the left end of the connecting block 5026 is connected with the feeding cabin 306.

Wherein, a flexible gasket is arranged at the connection part of the feeding cabin 306 and the bottom of the impurity removing cabin 308.

Wherein, the bottom plate at the bottom of the impurity removing cabin 308 has an inclination angle from right to left.

Wherein, the distance between the left end of the first reverse transmission edulcoration roller 3012 and the left end in the edulcoration cabin 308 is less than the diameter of the shea nut kernel.

Six groups of micro air blowers 4032 are arranged, and are equidistantly arranged at the bottom of the hot air cabin 4030.

Wherein, a gap is reserved between the bottom end of the fan-shaped expanding disc 4034 and the bottom end in the crushing cabin 4018.

The working principle is as follows: when in use, the device is horizontally placed at a place to be used, enough dry shea nuts are prepared, water is introduced into the cleaning, drying and crushing mechanism 4 and the extraction and filtration mechanism 5, then the control device of the control display screen 2 is opened, a proper amount of shea nuts are added into the feeding and impurity removal mechanism 3, the feeding and impurity removal mechanism 3 removes impurities from the shea nuts added, the cleaning, drying and crushing mechanism 4 cleans, dries and crushes the shea nuts after impurity removal, shea oil pulp is obtained, then the extraction and filtration mechanism 5 extracts shea oil from the shea oil pulp, high-yield shea oil without impurities is obtained, the industrial production of shea oil is achieved, and the problems of complex working procedures, low yield, high impurity content and low shea oil utilization rate existing in the traditional shea oil extraction are solved, and can solve the effects of small supply amount of shea butter and high impurity rate in the current market.

Firstly, a first feeding valve 307 is opened, then a proper amount of shea nuts are placed into a feeding cabin 306, then the first feeding valve 307 is closed, at the moment, a second driving rod 3028 rotates to drive a first driving wheel 301 on the top of the outer surface of the first driving wheel to rotate, the first driving wheel 301 drives a second driving wheel 302 on the right side of the first driving wheel to rotate through a belt, then the second driving wheel 302 drives a first driving rod 303 on the bottom end of the second driving wheel to rotate, the first driving rod 303 drives a spiral feeding rod 304 on the bottom end of the first driving rod to rotate, the spiral feeding rod 304 stirs the shea nuts added into the feeding cabin 306, so that a part of the shea nuts can enter the impurity removing cabin 308 through a gap between the spiral feeding rod 304 and the feeding cabin 306, and most of the shea nuts can be continuously left in the feeding cabin 306, thereby realizing the effect of slowly feeding the shea nuts into the impurity removing cabin 308, meanwhile, an eleventh driving wheel 404 drives a third driving wheel 3011 on the right side of the third driving wheel, then the third driving wheel 3011 drives the fourth driving wheel 3013 on the right side to rotate through a belt, and further the fourth driving wheel 3013 drives the fifth driving wheel 3015 on the right side to rotate through a belt, the fifth driving wheel 3015 drives the sixth driving wheel 3017 on the right side to rotate through a belt, then the sixth driving wheel 3017 drives the seventh driving wheel 3019 on the right side to rotate through a belt, at the same time of the third driving wheel 3011, the fourth driving wheel 3013, the fifth driving wheel 3015, the sixth driving wheel 3017 and the seventh driving wheel 3019 rotating, the third driving wheel 3011 drives the first reverse transmission cleaning roller 3012 in the middle of the rear end to rotate counterclockwise, the fourth driving wheel 3013 drives the second reverse transmission cleaning roller 3014 in the middle of the rear end to rotate counterclockwise, the fifth driving wheel 3015 drives the third reverse transmission cleaning roller 3016 in the middle of the rear end to rotate counterclockwise, the sixth driving wheel 3017 drives the fourth reverse transmission cleaning roller 3018 in the middle of the rear end to rotate counterclockwise, the seventh driving wheel 3019 drives the fifth reverse-driving impurity removing roller 3020 in the middle of the rear end of the seventh driving wheel to rotate counterclockwise, so that the first reverse-driving impurity removing roller 3012, the second reverse-driving impurity removing roller 3014, the third reverse-driving impurity removing roller 3016, the fourth reverse-driving impurity removing roller 3018 and the fifth reverse-driving impurity removing roller 3020 which rotate counterclockwise perform impurity removing treatment on the shea pit in the impurity removing cabin 308, the impurities on the outer surface of the shea pit are separated from the shea pit by the tiny protrusions on the outer surface of the shea pit, the separated impurities fall onto the bottom plate at the bottom of the impurity removing cabin 308 through the first reverse-driving impurity removing roller 3012, the second reverse-driving impurity removing roller 3014, the third reverse-driving impurity removing roller 3016, the fourth reverse-driving impurity removing roller 3018 and the fifth reverse-driving impurity removing roller 3020, and then fall into the impurity storing cabin 3010 for collection, the limiting plate 3021 can prevent the shea pit from falling from the right bottom of the fifth reverse-driving impurity removing roller 3020 to the impurity storing cabin 3010, because the first reverse-drive impurity removing roller 3012, the second reverse-drive impurity removing roller 3014, the third reverse-drive impurity removing roller 3016, the fourth reverse-drive impurity removing roller 3018 and the fifth reverse-drive impurity removing roller 3020 all rotate anticlockwise, the shea nut can be accumulated at the left part of the impurity removing cabin 308, so as to realize long-time impurity removing treatment on the shea nut, along with the accumulation of the shea nut, the shea nut can slide to the right part of the impurity removing cabin 308, then leave the impurity removing cabin 308 from the first discharge pipe 309 and enter the cleaning, drying and crushing mechanism 4, while the shea nut is subjected to impurity removing in the impurity removing cabin 308, the twelfth driving wheel 408 drives the eighth driving wheel 3027 at the upper right part thereof through a belt, the eighth driving wheel 3027 drives the second bevel gear 3026 at the middle part of the front end thereof to rotate, the second bevel gear 3026 drives the first bevel gear 3025 at the top part of the front end thereof to rotate, the first bevel gear 3025 rotates to drive the double cams 3024 at the top end thereof to rotate, because the central point of the rotation of the double cam 3024 is not the center of gravity of the double cam 3024, the double cam 3024 rotates to drive the edulcoration chamber 308 at the top end to slightly shake, and further drive the first reverse drive edulcoration roller 3012, the second reverse drive edulcoration roller 3014, the third reverse drive edulcoration roller 3016, the fourth reverse drive edulcoration roller 3018, and the fifth reverse drive edulcoration roller 3020 in the edulcoration chamber 308 to slightly shake, so that the impurities separated from the shea butter cores can more quickly fall down instead of remaining in the piled shea butter cores, the first shaking spring 3022 and the second shaking spring 3023 enable the edulcoration chamber 308 to keep the stability of the edulcoration chamber 308 when shaking, and the mechanism realizes the separation of the shea butter cores and the impurities.

Firstly, a water pipe is communicated with a first water inlet 4026, then a certain amount of water is added into a cleaning cabin 4023, the shea nut kernels subjected to impurity removal by a feeding impurity removal mechanism 3 enter the cleaning cabin 4023 from a first discharge pipe 309, a third transmission rod 506 drives a stirring cleaner 4027 at the bottom end of the stirring cleaner 4027 to rotate, a stirring rod at the bottom of the stirring cleaner 4027 acts on the shea nut kernels and removes dust on the shea nut kernels by water, after the shea nut kernels are cleaned, the sewage is discharged from a water discharge port 4024, the shea nut kernels are continuously left in the cleaning cabin 4023 under the action of a first filter screen 4025, then a discharge valve 4028 is opened, the shea nut kernels leave the cleaning cabin 4023 from a second discharge pipe 4029 under the continuous action of the stirring cleaner 4027 and then fall on a conveyor belt 405, a motor 401 rotates anticlockwise to further drive a ninth driving wheel 402 at the middle of the front end of the shea nut kernels to rotate through a tenth driving wheel 403 driving the left driving wheel to rotate, the tenth driving wheel 403 drives the eleventh driving wheel 404 on the left side to rotate through a belt, the conveyer belt 405 rotates counterclockwise under the combined action of the tenth driving wheel 403 and the eleventh driving wheel 404, the conveyer belt 405 drives the shea kernels which just fall from the cleaning cabin 4023 on the right side of the top end to move leftward, the heating rod 4031 in the hot air cabin 4030 is heated while the shea kernels move leftward, so that the air temperature in the hot air cabin 4030 is raised, the micro-blower 4032 blows the hot air in the hot air cabin 4030 downward and acts on the shea kernels, therefore, the shea kernels which do not contain impurities can be completely dried after moving from the right side of the top end of the conveyer belt 405 to the left side of the top end of the conveyer belt 405, the baffle 406 can prevent the shea kernels from falling from the conveyer belt 405, and then the shea kernels enter the crushing cabin 4018 under the limiting action of the baffle 407 and are accumulated on the left portion of the crushing cabin 4018, along with the increase of the number of the shea nuts, the shea nuts enter a working area of the crushing wheel 4017, at this time, the tenth driving wheel 403 drives the twelfth driving wheel 408 at the lower left part to rotate through a belt, the twelfth driving wheel 408 drives the third bevel gear 409 at the middle front end to rotate, the third bevel gear 409 drives the thirteenth driving wheel 4011 at the middle bottom end to rotate, the thirteenth driving wheel 4011 drives the fourteenth driving wheel 4012 at the left side to rotate through a belt, the fourteenth driving wheel 4012 drives the fifteenth driving wheel 4013 at the left side to rotate through a belt, the fifteenth driving wheel 4013 drives the fifth bevel gear 4014 at the middle bottom end to rotate, the fifth bevel gear 4014 drives the sixth bevel gear 4015 at the left bottom end to rotate, then the sixth bevel gear 4015 drives the crushing wheel 4017 at the left end to rotate, the crushing wheel 4017 rotates at a high speed and finishes crushing of the shea nuts by using the sharp protrusions at the left end, so as to obtain a mixture of fine shea nutlet and shea butter, then the mixture moves to the right and enters the working range of the grinding roller 4020, the fourteenth driving wheel 4012 drives the grinding roller 4020 at the bottom end to rotate, the grinding roller 4020 is matched with the grinding plate 4019 to grind the shea butter mixture entering the working area, so as to obtain shea butter slurry, then the shea butter slurry enters the connecting cabin 4033 from the fan-shaped expanding disc 4034 and finally enters the extraction and filtration mechanism 5, the fourteenth driving wheel 4012 drives the sixteenth driving wheel 4021 at the top end to rotate, further the sixteenth driving wheel 4021 drives the seventeenth driving wheel 4022 at the left side to rotate through a belt, then the seventeenth driving wheel 4022 drives the second driving rod 3028 connected with the inner surface to rotate, and simultaneously the twelfth driving wheel 408 drives the eighth driving wheel 3027 at the right side to rotate through a belt, thereby providing power for the feeding and impurity removing mechanism 3, the mechanism realizes the cleaning and crushing treatment of the shea nut, thereby obtaining shea nut oil slurry without impurities.

Firstly, a water pipe is communicated with a second water inlet 5013, and after shea butter is obtained, shea butter enters a connecting cabin 4033 through a fan-shaped expanding disc 4034 under the action of an air pump 509, then enters a first conduit 508 through a second conduit 5010, further flows through a second feeding valve 507, and then enters a shea butter extraction cabin 501, at this time, a second driving wheel 302 drives a twentieth driving wheel 5025 on the right side of the second driving wheel to rotate through a belt, further the twentieth driving wheel 5025 drives a third driving rod 506 connected with the inner surface of the third driving wheel to rotate, the third driving rod 506 drives a nineteenth driving wheel 505 on the bottom of the outer surface of the third driving wheel to rotate, further the nineteenth driving wheel 505 drives an eighteenth driving wheel 504 on the right side of the nineteenth driving wheel to rotate through a belt, the eighteenth driving wheel 504 drives a stirrer 503 on the top end of the eighteenth driving wheel to rotate, and the stirrer 503 stirs, adding a small amount of water into the shea butter extraction cabin 501 through the second water inlet 5013 while stirring, adding water while stirring, separating solid shea butter, floating on the water surface, passing through the third filter 5024 and remaining above the third filter 5024, leaving residue below the third filter 5024, opening the impurity removal valve 502 to discharge water and shea kernel residue out of the shea butter extraction cabin 501 after completely extracting shea butter, leaving the shea butter on the third filter 5024 because the shea butter is solid and stuck together, closing the impurity removal valve 502, pushing the electric push rod 5012 to the right to drive the seven-shaped push plate 5011 at the right end, extruding the solid shea butter to the right by the seven-shaped push plate 5011, leaving the shea butter extraction cabin 501 from the third conduit 5014, and then enters a third conduit 5014, at the part shrunk and wrapped by the heating sleeve 5016, the heating sleeve 5016 heats and conducts heat through the third conduit 5014, so that the solid shea butter is liquefied, the shea butter flows more easily, then the shea butter enters a high-temperature filter cabin 5017, the temperature of the high-temperature filter cabin 5017 can ensure that the shea butter is always in a liquid state, then the shea butter is filtered by a second filter screen 5019, so that impurities are completely removed, and finally the shea butter flows into a condensation cabin 5021, the first condensation plate 5022 at the left part and the second condensation plate 5023 at the right part of the condensation cabin 5021 reduce the temperature in the condensation cabin 5021, so that the shea butter is solidified, and the mechanism realizes extraction and purification of the shea butter in the shea butter, and thus obtains pure solid shea butter.

Wherein, the junction of feed bin 306 and edulcoration cabin 308 bottom is provided with a flexible gasket for edulcoration cabin 308 still can keep being connected with feed bin 306 when rocking, thereby prevents that the dust that produces from getting into in the air.

The bottom plate at the bottom of the impurity removing cabin 308 has an inclination angle from right to left, so that impurities falling onto the bottom plate can automatically fall into the impurity storage cabin 3010 under the action of gravity.

The distance between the left end of the first reverse transmission impurity removing roller 3012 and the left end in the impurity removing cabin 308 is smaller than the diameter of the shea nut, so that the shea nut is prevented from falling into the impurity storage cabin 3010 from a gap between the left end of the first reverse transmission impurity removing roller 3012 and the left end in the impurity removing cabin 308, and economic loss is caused.

Six groups of micro air blowers 4032 are arranged, and the micro air blowers are arranged at the bottom of the hot air cabin 4030 at equal intervals, so that hot air blown out of the micro air blowers 4032 can dry the shea nuts with the ground, and further the complete drying of the shea nuts is realized.

A gap is formed between the bottom end of the fan-shaped expansion disc 4034 and the bottom end in the crushing cabin 4018, so that the fan-shaped expansion disc 4034 can generate a large suction force under the action of the air pump 509, and therefore shea butter slurry in the crushing wheel 4017 is conveyed into the shea butter extraction cabin 501.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are only exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims

1. A shea butter extraction device for soap comprises a main frame (1) and a control display screen (2), and is characterized by also comprising a feeding impurity removal mechanism (3), a cleaning, drying and crushing mechanism (4) and an extraction and filtration mechanism (5); a control display screen (2) is arranged at the middle top of the right end of the main frame (1); a feeding impurity removal mechanism (3) is arranged at the left top part in the main frame (1); a cleaning, drying and crushing mechanism (4) is arranged at the left bottom in the main frame (1), and the top of the cleaning, drying and crushing mechanism (4) is connected with a feeding impurity removal mechanism (3); the right part is provided with in main frame (1) and draws filtering mechanism (5) to draw filtering mechanism (5) left side top and be connected with feeding edulcoration mechanism (3), draw filtering mechanism (5) middle and left part moreover and wash stoving crushing mechanism (4) and be connected.

2. The shea butter extraction device of soap as claimed in claim 1, wherein the feeding and impurity removing mechanism (3) comprises a first driving wheel (301), a second driving wheel (302), a first driving rod (303), a spiral feeding rod (304), a supporting plate (305), a feeding cabin (306), a first feeding valve (307), an impurity removing cabin (308), a first discharging pipe (309), an impurity storage cabin (3010), a third driving wheel (3011), a first reverse driving impurity removing roller (3012), a fourth driving wheel (3013), a second reverse driving impurity removing roller (3014), a fifth driving wheel (3015), a third reverse driving impurity removing roller (3016), a sixth driving wheel (3017), a fourth reverse driving impurity removing roller (3018), a seventh driving wheel (3019), a fifth reverse driving impurity removing roller (3020), a limiting plate (3021), a first shaking spring (3022), a second shaking spring (3023), a double cam (3024), a first bevel gear (3025), a second bevel gear (3026), an eighth transmission wheel (3027) and a second transmission rod (3028); the right side of the first transmission wheel (301) is in transmission connection with a second transmission wheel (302) through a belt; the inner surface of the first driving wheel (301) is rotatably connected with a second driving rod (3028); the middle part of the bottom end of the second driving wheel (302) is rotationally connected with the first driving rod (303); the bottom end of the first transmission rod (303) is rotationally connected with the spiral feeding rod (304); a support plate (305) is arranged at the middle bottom part of the outer surface of the first transmission rod (303); a feeding cabin (306) is arranged at the left end of the supporting plate (305), and the top of the feeding cabin (306) is connected with the first transmission rod (303); a first feeding valve (307) is arranged at the left part of the top end of the feeding cabin (306); the bottom of the feeding cabin (306) is connected with the impurity removing cabin (308); the right bottom of the impurity removing cabin (308) is connected with a first discharge pipe (309); a sundries storage cabin (3010) is arranged at the left bottom of the impurity removing cabin (308); a third driving wheel (3011) is arranged at the left part in the impurity removing cabin (308); a limiting plate (3021) is arranged at the right part of the bottom end in the impurity removing cabin (308); a first shaking spring (3022) is arranged at the left part of the bottom end of the impurity removing cabin (308); a second shaking spring (3023) is arranged at the right part of the bottom end of the impurity removing cabin (308); a double cam (3024) is arranged below the middle part of the bottom end of the impurity removing cabin (308); the middle part of the rear end of the third transmission wheel (3011) is rotationally connected with the first reverse transmission impurity removal roller (3012); the right side of the third driving wheel (3011) is in transmission connection with a fourth driving wheel (3013) through a belt; the middle part of the rear end of the fourth transmission wheel (3013) is rotationally connected with a second reverse transmission impurity removal roller (3014); the right side of the fourth transmission wheel (3013) is in transmission connection with a fifth transmission wheel (3015) through a belt; the middle part of the rear end of the fifth transmission wheel (3015) is rotationally connected with a third reverse transmission impurity removal roller (3016); the right side of the fifth transmission wheel (3015) is in transmission connection with a sixth transmission wheel (3017) through a belt; the middle part of the rear end of the sixth transmission wheel (3017) is rotationally connected with a fourth reverse transmission impurity removal roller (3018); the right side of the sixth transmission wheel (3017) is in transmission connection with a seventh transmission wheel (3019) through a belt; the middle part of the rear end of the seventh driving wheel (3019) is rotationally connected with a fifth reverse-driving impurity removing roller (3020); the bottom end of the double cam (3024) is rotationally connected with a first bevel gear (3025); the rear part of the bottom end of the first bevel gear (3025) is meshed with the second bevel gear (3026); the middle part of the rear end of the second bevel gear (3026) is rotationally connected with an eighth driving wheel (3027); the right side of the second driving wheel (302) is connected with an extraction and filtration mechanism (5); the top of the left end of the feeding cabin (306) is connected with the main frame (1); the top of the right end of the feeding cabin (306) is connected with the extraction and filtration mechanism (5); the right part of the first discharge pipe (309) is connected with a cleaning, drying and crushing mechanism (4); the lower left side of the third transmission wheel (3011) is connected with a cleaning, drying and crushing mechanism (4); the bottom end of the first shaking spring (3022) is connected with the main frame (1); the bottom end of the second shaking spring (3023) is connected with the main frame (1); the bottom end of the double cam (3024) is connected with the main frame (1); the top end of the first bevel gear (3025) is connected with the main frame (1); the lower left side of the eighth driving wheel (3027) is connected with the cleaning, drying and crushing mechanism (4); the outer surface of the second transmission rod (3028) is connected with the main frame (1); the bottom of the outer surface of the second transmission rod (3028) is connected with the cleaning, drying and crushing mechanism (4).

3. The shea butter extraction device for soap according to claim 2, characterized in that the cleaning, drying and crushing mechanism (4) comprises a motor (401), a ninth driving wheel (402), a tenth driving wheel (403), an eleventh driving wheel (404), a conveyor belt (405), a baffle (406), a deflector (407), a twelfth driving wheel (408), a third bevel gear (409), a fourth bevel gear (4010), a thirteenth driving wheel (4011), a fourteenth driving wheel (4012), a fifteenth driving wheel (4013), a fifth bevel gear (4014), a sixth bevel gear (4015), an isolation limiting block (4016), a crushing wheel (4017), a crushing cabin (4018), a grinding plate (4019), a grinding roller (4020), a sixteenth driving wheel (4021), a seventeenth driving wheel (4022), a cleaning cabin (4023), a water outlet (4024), a first filter screen (4025), a first water inlet (4026), the device comprises a stirring cleaner (4027), a discharge valve (4028), a second discharge pipe (4029), a hot air cabin (4030), a heating rod (4031), a micro air blower (4032), a connecting cabin (4033) and a fan-shaped expansion disc (4034); the middle part of the front end of the motor (401) is rotationally connected with a ninth driving wheel (402); a cleaning cabin (4023) is arranged above the top end of the motor (401); the upper left side of the ninth driving wheel (402) is in transmission connection with a tenth driving wheel (403) through a belt; the left side of the tenth driving wheel (403) is in driving connection with an eleventh driving wheel (404) through a belt; the middle part of the rear end of the tenth driving wheel (403) is rotationally connected with the conveyor belt (405), and the left part of the front end of the conveyor belt (405) is connected with the eleventh driving wheel (404); the lower left side of the tenth driving wheel (403) is in transmission connection with a twelfth driving wheel (408) through a belt; the top of the conveyor belt (405) is connected with a baffle (406); a guide plate (407) is arranged at the left end of the baffle (406); a hot air cabin (4030) is arranged above the top end of the baffle (406); the middle part of the front end of the twelfth transmission wheel (408) is rotationally connected with a third bevel gear (409); the middle part of the rear end of the twelfth driving wheel (408) is connected with a crushing cabin (4018); the bottom of the front end of the third bevel gear (409) is meshed with the fourth bevel gear (4010); the bottom end of a fourth bevel gear (4010) is rotatably connected with a thirteenth driving wheel (4011), and the bottom end of the thirteenth driving wheel (4011) is connected with a crushing cabin (4018); the left side of the thirteenth driving wheel (4011) is in transmission connection with a fourteenth driving wheel (4012) through a belt, and the bottom end of the fourteenth driving wheel (4012) is connected with a crushing cabin (4018); the left side of the fourteenth driving wheel (4012) is in transmission connection with a fifteenth driving wheel (4013) through a belt, and the bottom end of the fifteenth driving wheel (4013) is connected with a crushing cabin (4018); the bottom end of the fourteenth driving wheel (4012) is rotatably connected with the grinding roller (4020), and the top of the grinding roller (4020) is connected with the crushing cabin (4018); the top end of the fourteenth driving wheel (4012) is rotationally connected with the sixteenth driving wheel (4021); the bottom end of a fifteenth driving wheel (4013) is rotationally connected with a fifth bevel gear (4014); the left part of the bottom end of the fifth bevel gear (4014) is meshed with a sixth bevel gear (4015); an isolation limiting block (4016) is arranged on the outer side of the sixth bevel gear (4015), and the bottom end of the isolation limiting block (4016) is connected with a crushing cabin (4018); the left end of a sixth bevel gear (4015) is rotationally connected with a crushing wheel (4017); a grinding plate (4019) is arranged in the middle of the rear end in the crushing cabin (4018); a connecting cabin (4033) is arranged at the right top of the crushing cabin (4018); the left side of the sixteenth driving wheel (4021) is in transmission connection with a seventeenth driving wheel (4022) through a belt; a water outlet (4024) is formed in the bottom of the right end of the cleaning cabin (4023); a first filter screen (4025) is arranged at the bottom in the cleaning cabin (4023); a first water inlet (4026) is formed in the right top of the cleaning cabin (4023); the middle part in the cleaning cabin (4023) is provided with a stirring cleaner (4027); a discharge valve (4028) is arranged at the left bottom of the cleaning cabin (4023); the left part of the discharge valve (4028) is connected with a second discharge pipe (4029); a heating rod (4031) is arranged at the top in the hot air cabin (4030); a micro air blower (4032) is arranged at the middle left part of the inner bottom end of the hot air cabin (4030); a fan-shaped expansion disc (4034) is arranged at the left part of the bottom end of the connecting cabin (4033); the bottom end of the motor (401) is connected with the main frame (1); the upper right side of the eleventh driving wheel (404) is connected with a third driving wheel (3011); the top of the left end of the guide plate (407) is connected with the main frame (1); the upper right part of the twelfth driving wheel (408) is connected with an eighth driving wheel (3027); the bottom end of the crushing cabin (4018) is connected with the main frame (1); the inner surface of the seventeenth driving wheel (4022) is connected with a second driving rod (3028); the left top of the cleaning cabin (4023) is connected with a first discharge pipe (309); the top of the stirring cleaner (4027) is connected with the extraction and filtration mechanism (5); the top end of the hot air cabin (4030) is connected with the main frame (1); the right part of the top end of the connecting cabin (4033) is connected with the extraction and filtration mechanism (5).

4. The shea butter extraction device for soap according to claim 3, wherein the extraction and filtration mechanism (5) comprises a shea butter extraction compartment (501), an impurity removal valve (502), a stirrer (503), an eighteenth transmission wheel (504), a nineteenth transmission wheel (505), a third transmission rod (506), a second feed valve (507), a first conduit (508), an air pump (509), a second conduit (5010), a heptad push plate (5011), an electric push rod (5012), a second water inlet (5013), a third conduit (5014), a fourth conduit (5015), a heating jacket (5016), a high temperature filtration compartment (5017), a trash extraction pipe (5018), a second filter screen (5019), a connection pipe (5020), a condensation compartment (5021), a first condensation plate (5022), a second condensation plate (5023), a third filter screen (5024), a twenty transmission wheel (5025) and a connection block (5026); an impurity removal valve (502) is arranged at the left bottom of the shea butter extraction cabin (501); a stirrer (503) is arranged at the bottom in the shea butter extraction cabin (501); a second feeding valve (507) is arranged in the left middle part of the rear end in the shea butter extraction cabin (501); the left top of the shea butter extraction cabin (501) is connected with a seven-shaped push plate (5011); a second water inlet (5013) is formed in the middle left part of the top end of the shea butter extraction cabin (501); a third conduit (5014) is arranged at the right top of the shea butter extraction cabin (501); a third filter screen (5024) is arranged at the middle top part in the shea butter extraction cabin (501); the bottom end of the stirrer (503) is rotationally connected with an eighteenth driving wheel (504); the left side of the eighteenth driving wheel (504) is in transmission connection with a nineteenth driving wheel (505) through a belt; the inner surface of the nineteenth driving wheel (505) is rotationally connected with a third driving rod (506); the top of the outer surface of the third transmission rod (506) is rotationally connected with a twentieth transmission wheel (5025); the rear part of the second feeding valve (507) is connected with a first conduit (508); an air pump (509) is arranged at the left end of the first conduit (508); a second conduit (5010) is arranged at the right part of the bottom end of the air pump (509); the top end of the air pump (509) is provided with a connecting block (5026); the left top of the seven-shaped push plate (5011) is connected with an electric push rod (5012), and the left end of the electric push rod (5012) is connected with a connecting block (5026); the bottom end of the third guide pipe (5014) is connected with the fourth guide pipe (5015); the middle part of the outer surface of the fourth conduit (5015) is provided with a heating sleeve (5016); the bottom of the fourth conduit (5015) is connected with the high-temperature filter cabin (5017); the middle part of the left end of the high-temperature filtering cabin (5017) is provided with a trash discharging pipe (5018); a second filter screen (5019) is arranged at the middle bottom in the high-temperature filter cabin (5017); a connecting pipe (5020) is arranged at the left part of the bottom end of the high-temperature filtering cabin (5017); the bottom of the connecting pipe (5020) is connected with the condensing cabin (5021); a first condensing plate (5022) is arranged at the left part of the condensing cabin (5021); a second condensing plate (5023) is arranged at the right part of the condensing cabin (5021); the right part and the middle part of the top end of the shea butter extraction cabin (501) are connected with the main frame (1); the bottom end of the third transmission rod (506) is connected with the stirring cleaner (4027); the bottom of the second conduit (5010) is connected with the connecting cabin (4033); the top of the outer surface and the middle bottom of the outer surface of the heating sleeve (5016) are connected with the main frame (1); the top of the right end of the high-temperature filtering cabin (5017) is connected with the main frame (1); the bottom end of the condensation cabin (5021) is connected with the main frame (1); the left side of the twentieth driving wheel (5025) is connected with the second driving wheel (302); the left end of the connecting block (5026) is connected with the feeding cabin (306).

5. The extraction apparatus of shea butter for soap according to claim 4, wherein a flexible gasket is provided at the connection between the feeding compartment (306) and the bottom of the trash compartment (308).

6. The apparatus for extracting shea butter for soap as claimed in claim 5, wherein the bottom plate of the trash chamber (308) has an inclination angle from right to left.

7. The shea butter extraction device of claim 6, wherein the distance between the left end of the first reverse-drive trash removal roller (3012) and the left end in the trash bin (308) is smaller than the diameter of the shea kernel.

8. The device for extracting shea butter for soap according to claim 7, wherein the micro-blowers (4032) are provided with six groups, and are equidistantly installed at the bottom of the hot air compartment (4030).

9. The device for extracting shea butter for soap as claimed in claim 8, wherein there is a gap between the bottom end of the fan-shaped expanding plate (4034) and the bottom end of the crushing chamber (4018).