SOD white spirit production method

文档序号:3171 发布日期:2021-09-17 浏览:66次 中文

1. The SOD liquor manufacturing method is characterized by comprising the following steps:

step A, preparing materials: 1-2% of ginseng, 1-2% of cordyceps sinensis, 0.5-1% of American ginseng, 2-3% of lucid ganoderma, 1.5-2% of pilose antler, 1-1.5% of polygonum multiflorum, 1-1.5% of poria cocos, 1-2% of safflower, 1-2% of penis cervi, 3-5% of Chinese yam, 2.5-4% of wild jujube, 7-10% of royal jelly, 2.5-3% of sea dragon and 2-3% of gecko, and also comprises 5-8% of white spirit with the concentration not lower than 55% and 50-68% of white spirit with the concentration not lower than 45%;

step B, extraction: cleaning 1kg of raw materials of Ginseng radix, Cordyceps, radix Panacis Quinquefolii, Ganoderma, cornu Cervi Pantotrichum, Polygoni Multiflori radix, Poria, Carthami flos, penis et testis Cervi, rhizoma Dioscoreae, fructus Ziziphi Spinosae, Lac Regis Apis, Syngnathus, and Gecko respectively, adding 2000ml of filtered water respectively, and extracting at high temperature under high pressure by steam pressure cooker;

step C, feeding: adding the extract liquid extracted in the step B into a charging barrel in a mixing and stirring device;

step D, mixing and stirring: mixing and stirring for 10 minutes to fully dissolve the raw material extract in the white spirit, standing for 10 days, and filtering by a 1200-mesh sieve to obtain the anti-fatigue health care wine containing SOD.

The mixing and stirring device in the step C and the step D comprises a first bracket (1), a first supporting cylinder (2) arranged above the first bracket (1), a first flange (21) arranged at the bottom of the first supporting cylinder (2), a rotating bin (8) arranged in the first supporting cylinder (2) and supported by the first flange (21), a feeding bin (3) arranged on the side surface of the first supporting cylinder (2), and a plurality of feeding devices (4) arranged below the rotating bin (8), the quantitative feeding device comprises a stirring device (6) arranged on the central axis of a rotating bin (8), a quantitative feeding device (5) connected to the stirring device (6), a control device (7) connected to a feeding device (4), a first motor (11) arranged above a first support (1), a second gear (12) connected to the first support (1), and a third gear (13) fixedly arranged on the rotating bin (8) and meshed with the second gear (12); the two first supporting cylinders (2) are symmetrically arranged on two sides of the rotating bin (8) relative to the rotating bin (8); the feeding device (4) and the quantitative adding device (5) are symmetrically arranged above and below the rotating bin (8) about the rotating bin (8) respectively; the feeding device (4) comprises a second bracket (40) fixedly arranged below the rotating bin (8), an internal gear (41) fixedly arranged on the inner wall of the first supporting cylinder (2), a first gear (42) meshed with the internal gear (41), an intermittent control assembly (43) connected with the first gear (42) and arranged on the second bracket (40), and a first screw rod (44) connected with the intermittent control assembly (43), a charging barrel (48) arranged below the rotary bin (8), a pushing assembly (45) connected to the first screw rod (44), a first pushing plate (47) arranged above the pushing assembly (45) and used for pushing the raw material extract, an elastic assembly (46) arranged above the pushing assembly (45) and used for driving the first pushing plate (47), and a magnetic cover plate (49) arranged at the uppermost part of the charging barrel (48) and used for preventing the white spirit and the extract from being mixed; the control device (7) is connected with the feeding device (4) and the quantitative adding device (5); the control device (7) comprises a second screw rod (70) which drives the quantitative adding device (5) to move through the feeding device (4) and the control device (7); the quantitative adding device (5) is arranged above the magnetic cover plate (49); the quantitative adding device (5) comprises a hollow pipe (50) fixed inside the rotating bin (8), a first sliding groove (501) arranged in the hollow pipe (50), a decagonal prism (52) arranged on the hollow pipe (50) in a sliding mode, a connecting plate (51) connected to the second screw rod (70) and used for driving the decagonal prism (52) to move, a first control assembly (53) connected to the decagonal prism (52), a second control assembly (54) connected to the first control assembly (53) and used for controlling the magnetic cover plate (49), and a third control assembly (55) connected to the second control assembly (54); the stirring device (6) is connected with the hollow pipe (50); when the equipment is used for mixing the extraction liquid of the SOD white spirit, the raw material extraction liquid is added into a charging barrel (48) through a charging bin (3); then adding white spirit into a rotating bin (8), wherein the rotating bin (8) rotates between two first supporting cylinders (2), then a first gear (42) rotates to drive an intermittent control assembly (43), the intermittent control assembly (43) drives a material pushing assembly (45) to move through a first screw rod (44), the material pushing assembly (45) drives a first material pushing plate (47) to slide upwards in a material discharging cylinder (48) through an elastic assembly (46), the first material pushing plate (47) applies extraction liquid pressure in the material discharging cylinder (48), the intermittent control assembly (43) also drives a second screw rod (70) to move up and down through a control device (7), the second screw rod (70) drives a decagonal prism (52) to move downwards to drive a second control assembly (54) through the first control assembly (53), and the second control assembly (54) moves to enable raw material extraction liquid in the material discharging cylinder (48) to be discharged outwards under the pressure action of the first material pushing plate (47), arrange the inside in rotatory storehouse (8), can drive hollow tube (50) when rotatory storehouse (8) is rotatory together, hollow tube (50) can drive agitating unit (6) motion, stir the mixture, and later the feed cylinder (48) of below are arranged in holding the raw materials extract that density is less than alcohol in rotatory storehouse (8), and the feed cylinder (48) of top are arranged in holding the raw materials extract that density is greater than alcohol in rotatory storehouse (8).

2. The method for preparing SOD white spirit according to claim 1, which is characterized in that: and C, concentrating the extracting solution under the pressure of 0.5-0.7MPa in the step B for 20-30 minutes, filtering and standing for 1-2 days, and filtering by a 1200-mesh sieve to obtain the raw material extracting solution.

3. The method for preparing SOD white spirit according to claim 2, which is characterized in that: in the step A, each kilogram of the anti-fatigue health-care wine contains 200-500 ten thousand activity units of superoxide dismutase, and the superoxide dismutase is the antler blood extract.

4. The method for preparing SOD white spirit according to claim 1, which is characterized in that: the pushing assembly (45), the elastic assembly (46) and the first pushing plate (47) are arranged inside the material placing barrel (48); the pushing assembly (45) comprises a second pushing plate (451) arranged in the material placing barrel (48) in a sliding mode, and a first spring (452) arranged between the second pushing plate (451) and the first pushing plate (47); the elastic assembly (46) comprises a first rod (461) arranged above the second material pushing plate (451) in a sliding mode, a first fixing piece (463) fixedly arranged above the first rod (461), a second spring (462) arranged between the first rod (461) and the first fixing piece (463), a second rod (464) arranged in the first fixing piece (463) in a penetrating mode, and a first sliding piece (466) arranged on the second rod (464) in a sliding mode; a tension spring (465) arranged between the first sliding piece (466) and the first fixed piece (463), a second fixed piece (467) fixedly arranged above the first sliding piece (466), a third fixed piece (469) fixedly arranged below the first material pushing plate (47), and a first connecting rod (468) hinged to the second fixed piece (467) and the third fixed piece (469); the magnetic cover plate (49) is arranged above the charging barrel (48) in an interference fit manner; the magnetic cover plate (49) is provided with a communicating channel (491) communicated with the rotating bin (8) and a second flange (492) clamped above the rotating bin (8); the intermittent control assembly (43) drives the second material pushing plate (451) to slide upwards in the first material pushing plate (47) through the first screw rod (44), then the second material pushing plate (451) is abutted against the first material pushing plate (47) through the first spring (452), then the first spring (452) is compressed, the second material pushing plate (451) moves upwards to drive the first rod (461), then the second spring (462) is compressed, then the third fixing member (469) is pressed to move downwards relative to the second fixing member (467), then the first connecting rod (468) drives the two first sliding members (466) on the second rod (464) to move towards two sides, the tension spring (465) is stretched, so that the first material pushing plate (47) is pressed upwards, the first material pushing plate (47) is pressed by the first spring (452), but the extraction liquid in the material discharging barrel (48) is discharged, the first material pushing plate (47) cannot be compressed, so the first material pushing plate (47) cannot move, but the first material pushing plate (47) can generate pressure on the extraction liquid between the first material pushing plate (47) and the magnetic cover plate (49), then when the first control assembly (53) controls the second control assembly (54) to be opened instantly, the first material pushing plate (47) can move upwards under the action of the first spring (452) and the first sliding piece (466) to rapidly push the extraction liquid on the first material pushing plate (47) outwards, the pushing distance is the distance by which the first spring (452) is compressed, and the first material pushing plate (47) is not stressed after being pushed.

5. The method for preparing SOD white spirit according to claim 4, wherein the SOD white spirit comprises: the intermittent control assembly (43) comprises a fifth rotating shaft (431) which is arranged in the fifth support (402) in a penetrating mode and fixed to the first gear (42), an incomplete gear (432) which is fixedly arranged on the fifth rotating shaft (431), an eighth gear (434) which is meshed with the incomplete gear (432), and a first thrust ball bearing (433) and a second thrust ball bearing (435) which are used for fixing positions are respectively arranged at the upper end and the lower end of each of the incomplete gear (432) and the eighth gear (434); the first screw rod (44) is connected to an eighth gear (434), and a threaded plate (441) is fixedly arranged below the charging barrel (48); the first screw rod (44) is in threaded connection with a threaded plate (441); a first groove (453) rotationally connected with the first screw rod (44) is arranged below the second material pushing plate (451); rotatory storehouse (8) is rotatory can drive feeding device (4) and rotate, namely drive second support (40) and fifth support (402) and rotate, later first gear (42) and internal gear (41) meshing drive fifth pivot (431) rotatory, fifth pivot (431) drive incomplete gear (432) rotatory, incomplete gear (432) drive eighth gear (434) rotatory, eighth gear (434) drive first lead screw (44) rotatory, later first lead screw (44) and screw plate (441) cooperation can make first lead screw (44) drive second scraping wings (451) upward movement.

6. The method for preparing SOD white spirit according to claim 5, which is characterized in that: the connecting plate (51) is connected to the second screw rod (70); the connecting plate (51) is connected to the decagonal prism (52) through the first sliding groove (501); a shielding plate piece (56) for shielding the communicating channel (491) is arranged on the magnetic cover plate (49); the first control assembly (53) comprises a plurality of fourth fixing pieces (531) fixedly arranged on the shielding piece (56), a second connecting rod (532) hinged to the fourth fixing pieces (531), a second sliding piece (533) jointed with the second connecting rod (532), a first guide piece (534) arranged above the magnetic cover plate (49) and connected to the second sliding piece (533) in a sliding manner, and fifth fixing pieces (535) arranged on two sides of the first guide piece (534) and fixed above the magnetic cover plate (49); the second control assembly (54) comprises a second guide piece (541) fixedly arranged above the magnetic cover plate (49), a second clamping piece (542) fixedly arranged above the second guide piece (541), a third sliding piece (543) slidably arranged on the second guide piece (541), a second groove (544) arranged in the third sliding piece (543), a third connecting rod (545) hinged to the second groove (544), and a sixth fixing piece (546) hinged to the third connecting rod (545) and fixedly arranged above the magnetic cover plate (49); the second screw rod (70) drives the deca-prism (52) to move downwards, then the deca-prism (52) drives the fourth fixed piece (531) to move downwards, the fourth fixed piece (531) drives the second sliding piece (533) to slide on the first guide piece (534) through the second connecting rod (532), the sliding direction is the centrifugal direction of the rotating bin (8), the second sliding piece (533) can collide with the third sliding piece (543) during movement and drive the third sliding piece (543) and the second sliding piece (533) to move together, the third sliding piece (543) can drive the third sliding piece (543) to move upwards through the third connecting rod (545) and the sixth fixed piece (546) during movement of the third sliding piece (543), then the third sliding piece (543) drives the second guide piece (541), the second guide piece (541) drives the baffle piece (56) to move, so that the baffle piece (56) does not block the communicating channel (491) any more, and the extraction liquid in the material discharging barrel (48) is pushed outwards, then, as the third sliding part (543) moves forward, the position of the third sliding part (543) is higher than that of the second sliding part (533), and then the second sliding part (533) cannot drive the third sliding part (543) to move continuously, at this time, the third sliding part (543) is reset under the action of the third control component (55), and then the communication channel (491) is closed rapidly.

7. The method for preparing SOD white spirit according to claim 6, which comprises the following steps: the second control assembly (54) further comprises a sixth bracket (547) fixedly arranged at two sides of the third sliding piece (543), a sixth rotating shaft (548) rotatably arranged on the sixth bracket (547), and an arc-shaped block (549) fixed on the sixth rotating shaft (548); the arc-shaped block (549) is provided with a first plane X, a first arc surface Y, a second plane Z and a second arc surface T of the following four surfaces; the second slider (533) does not directly contact the third slider (543); the second sliding piece (533) contacts with the arc-shaped block (549) during sliding; a torsional spring is arranged at the rotary connection position of the sixth rotating shaft (548) and the arc-shaped block (549); the second sliding part (533) drives the third sliding part (543) through the sixth bracket (547) of the quantitative adding device (5) during movement, then the second sliding part (533) can normally pass through the arc-shaped block (549) when returning to the original position without driving the third sliding part (543) to do any movement, and the arc-shaped block (549) can reset under the action of the torsion spring after rotating.

8. The method for preparing SOD white spirit according to claim 7, which comprises the following steps: the third control assembly (55) comprises a seventh fixing piece (551) fixedly arranged above the magnetic cover plate (49), two third rod pieces (552) fixedly arranged on the seventh fixing piece (551), a second piston (553) fixedly arranged on the third rod pieces (552), a piston cylinder (555) fixedly arranged on the side surface of the shielding piece (56) and a third spring (554) arranged in the piston cylinder (555); the second piston (553) is arranged in the piston cylinder (555) in a sliding way; the third spring (554) is positioned between the second piston (553) and the bottom of the piston cylinder (555); when the shutter member (56) is opened, the piston cylinder (555) is driven to move, then the piston cylinder (555) compresses the third spring (554), the second piston (553) slides in the piston cylinder (555), and then when the second slide member (533) does not exert thrust on the third slide member (543), the shutter member (56) is reset under the action of the third spring (554).

9. The method for preparing SOD white spirit according to claim 8, wherein the SOD white spirit comprises: the control device (7) comprises a first belt transmission structure (71) connected to the fifth rotating shaft (431), a first toothed belt (72) arranged on a conveying belt in the first belt transmission structure (71), a second belt transmission structure (73) fixedly connected to the first belt transmission structure (71), a fourth rotating shaft (76) fixedly connected to the second belt transmission structure (73), a sixth gear (761) fixedly connected to the fourth rotating shaft (76), a fifth gear (751) meshed with the sixth gear (761), a third rotating shaft (75) fixedly connected to the fifth gear (751), a third belt transmission structure (74) connected to the third rotating shaft (75), a second toothed belt (77) arranged on the third belt transmission structure (74), a second screw rod (70) rotatably connected to belt wheels in the first belt transmission structure (71), the second belt transmission structure (73) and the third belt transmission structure (74), A fourth gear (78) and a seventh gear (781) which are fixedly connected to the second screw rod (70) and respectively positioned above the first belt transmission structure (71) and below the third belt transmission structure (74), and a seventh bracket (79) which is fixedly connected to the rotary bin (8); the second screw rod (70) is arranged in a seventh bracket (79) in a penetrating way; fifth pivot (431) can drive first area transmission structure (71) when rotatory and transmit, first area transmission structure (71) drives first cingulum (72) transmission, first cingulum (72) drive fourth gear (78) clockwise rotation, fourth gear (78) can drive second lead screw (70) clockwise rotation, later first cingulum (72) break away from fourth gear (78), later third area transmission structure (74) drive seventh gear (781) counter-clockwise rotation, thereby seventh gear (781) drive second lead screw (70) counter-clockwise rotation, second lead screw (70) drive ten prism (52) upward movement and reset.

10. The method for preparing SOD white spirit according to claim 9, wherein the SOD white spirit comprises: the stirring devices (6) are provided with a plurality of groups; the device comprises a third support (60) fixedly arranged in a hollow pipe (50), a first rotating shaft (62) rotatably arranged in the third support (60), a first bevel gear (63) fixed on the first rotating shaft (62), a second bevel gear (64) meshed with the first bevel gear (63), a second rotating shaft (65) fixed on the second bevel gear (64) and rotatably arranged on the side surface of the hollow pipe (50), a sleeve (66) sleeved on the second rotating shaft (65), a plurality of stirring blades (67) sleeved on the sleeve (66), and a square block (61) connected to a second screw rod (70) and used for driving the first rotating shaft (62); the square block (61) is fixed on the first rotating shaft (62) and embedded in the second lead screw (70); the square block (61) is connected with the second lead screw (70) in a sliding mode, and the first rotating shaft (62) and the second lead screw (70) cannot rotate; a second permanent magnet (471) is arranged on the first material pushing plate (47); the opposite parts of the second permanent magnet (471) and the magnetic cover plate (49) are unlike magnetic poles which can attract each other; the feeding bin (3) is provided with a first push rod (31) penetrating through the first support cylinder (2), a first permanent magnet (32) arranged at the end part of the first push rod (31), a first through hole (34) arranged on the material discharge cylinder (48), a first piston (33) blocking the first through hole (34), and a first clamping piece (35) fixedly connected to the material discharge cylinder (48) and clamping the first piston (33); the first push rod (31) is fixedly connected to the feeding bin (3), the first push rod (31) is connected to the first supporting cylinder (2) in a sliding mode, and the first piston (33) is connected to the first through hole (34) in a sliding mode; the rotation speed of second lead screw (70) is different with the rotation speed of rotatory storehouse (8), that is the rotation speed of second lead screw (70) and hollow tube (50) is different, second pivot (65) follow hollow tube (50) and carry out the pivoted, but first pivot (62) and second lead screw (70) are fixed, so the rotation speed of first pivot (62) and second lead screw (70) is the same, thereby can drive second helical gear (64) through first helical gear (63) and rotate, second helical gear (64) drive second pivot (65) and carry out the rotation.

Background

Modern people have compact pace of life, intense work, fierce competition and great pressure; a plurality of factors such as ecological environment and the like are added; many people often feel general weakness, fatigue, even sleep loss at night, poor appetite, etc.; the medical science considers that fatigue and hypodynamia cause deficiency of qi and blood and imbalance of yin and yang because of overstrain, excessive thinking and excessive pressure, and viscera are involved seriously, and the dysfunction causes deficiency syndrome and fatigue symptoms; the research finds that free radicals in the human body are in dynamic equilibrium generated continuously under normal conditions, but the excessive free radicals or the slow clearance of the free radicals generate a series of damages to organisms, accelerate the aging of the human body and induce various symptoms, such as fatigue and the like; superoxide dismutase (SOD) is an antioxidant enzyme, can maintain normal metabolism in human body, and can be said as a waste scavenger for human body; SOD has been widely used in the fields of food and cosmetics due to its excellent antioxidant property, but in the field of wine, how to add SOD and keep its good enzyme activity stability and wine taste for a long time is a project which is always developed at present;

the prior SOD white spirit is mainly prepared by extracting some raw materials, extracting an extract, adding the extract into normal white spirit for one time, stirring and mixing to obtain the SOD white spirit, but in the preparation process, because the density of the extraction liquid is different, if the extraction liquid with the density less than that of the alcohol is added into the alcohol above, the extract liquid is mixed with the alcohol only in the upper layer during the mixing process with the alcohol, and hardly contacts with the alcohol in the lower layer, therefore, the mixing speed is greatly reduced, qualified SOD white spirit can not be prepared within the specified time, the preparation speed of products is greatly reduced, the viscosity of the extract liquor is very high, a large amount of time is needed for uniformly stirring after the extract liquor is added once, however, the existing stirring cannot enable the extract liquid to be rapidly dispersed to every corner in the white spirit, so that the white spirit production speed is influenced, and the quality of the white spirit is also influenced.

Disclosure of Invention

The invention provides a method for preparing SOD white spirit, which can quickly and uniformly mix extract liquor with alcohol in order to overcome the defects of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: a method for preparing SOD white spirit comprises the following steps:

step A, preparing materials: 1-2% of ginseng, 1-2% of cordyceps sinensis, 0.5-1% of American ginseng, 2-3% of lucid ganoderma, 1.5-2% of pilose antler, 1-1.5% of polygonum multiflorum, 1-1.5% of poria cocos, 1-2% of safflower, 1-2% of penis cervi, 3-5% of Chinese yam, 2.5-4% of wild jujube, 7-10% of royal jelly, 2.5-3% of sea dragon and 2-3% of gecko, and also comprises 5-8% of white spirit with the concentration not lower than 55% and 50-68% of white spirit with the concentration not lower than 45%;

step B, extraction: cleaning 1kg of raw materials of Ginseng radix, Cordyceps, radix Panacis Quinquefolii, Ganoderma, cornu Cervi Pantotrichum, Polygoni Multiflori radix, Poria, Carthami flos, penis et testis Cervi, rhizoma Dioscoreae, fructus Ziziphi Spinosae, Lac Regis Apis, Syngnathus, and Gecko respectively, adding 2000ml of filtered water respectively, and extracting at high temperature under high pressure by steam pressure cooker;

step C, feeding: adding the extract liquid extracted in the step B into a charging barrel in a mixing and stirring device;

step D, mixing and stirring: mixing and stirring for 10 minutes to fully dissolve the raw material extract in the white spirit, standing for 10 days, and filtering by a 1200-mesh sieve to obtain the anti-fatigue health care wine containing SOD.

The mixing and stirring device in the step C and the step D comprises a first support, a first support cylinder arranged above the first support, a first flange arranged at the bottom of the first support cylinder, a rotating bin arranged inside the first support cylinder and supported by the first flange, a feeding bin arranged on the side surface of the first support cylinder, a plurality of feeding devices arranged below the rotating bin, a stirring device arranged on the central axis of the rotating bin, a quantitative adding device connected to the stirring device, a control device connected to the feeding device, a first motor arranged above the first support, a second gear connected to the first support, and a third gear fixedly arranged on the rotating bin and meshed with the second gear; the two first supporting cylinders are symmetrically arranged on two sides of the rotary bin relative to the rotary bin; the feeding device and the quantitative adding device are symmetrically arranged above and below the rotary bin about the rotary bin respectively; the feeding device comprises a second support fixedly arranged below the rotary bin, an inner gear fixedly arranged on the inner wall of the first support barrel, a first gear meshed with the inner gear, an intermittent control assembly connected to the first gear and arranged on the second support, a first lead screw connected to the intermittent control assembly, a discharging barrel arranged below the rotary bin, a pushing assembly connected to the first lead screw, a first pushing plate arranged above the pushing assembly and used for pushing a raw material extracting solution, an elastic assembly arranged above the pushing assembly and used for driving the first pushing plate, and a magnetic cover plate arranged at the top of the discharging barrel and used for preventing the mixing of the white spirit and the extracting solution; the control device is connected with the feeding device and the quantitative adding device; the control device comprises a second screw rod which drives the quantitative adding device to move through the feeding device and the control device; the quantitative adding device is arranged above the magnetic cover plate; the quantitative adding device comprises a hollow pipe fixed inside the rotary bin, a first sliding chute arranged in the hollow pipe, a decagonal prism arranged on the hollow pipe in a sliding manner, a connecting plate connected with a second screw rod and used for driving the decagonal prism to move, a first control assembly connected with the decagonal prism, a second control assembly connected with the first control assembly and used for controlling the magnetic cover plate, and a third control assembly connected with the second control assembly; the stirring device is connected with the hollow pipe; when the equipment is used for mixing the extraction liquid of the SOD white spirit, the raw material extraction liquid is added into a charging barrel through a charging bin; then white spirit is added into the rotary bin, then the first motor drives the third gear to rotate through the second gear, the third gear drives the rotary bin to rotate between the two first supporting cylinders, the first supporting cylinder is fixed, the inner gear is fixed, the first gear revolves on the inner gear and can rotate under the drive of the inner gear, then the first gear rotates to drive the intermittent control assembly, the intermittent control assembly drives the pushing assembly to move upwards through the first lead screw, the pushing assembly drives the first pushing plate to slide upwards in the discharging cylinder through the elastic assembly, the extraction liquid belongs to liquid and cannot be compressed, so that the position of the first pushing plate is fixed, the pushing assembly applies upward force to the first pushing plate through the elastic assembly, the first pushing plate applies pressure to the extraction liquid in the discharging cylinder, and then the pressure acts on the magnetic cover plate, the intermittent control assembly can drive a second screw rod to move up and down through the control device while rotating, the second screw rod moves downwards at first, the second screw rod can drive a connecting plate to move downwards, then the connecting plate drives a decagonal prism to slide downwards on the hollow pipe, the decagonal prism can drive a second control assembly to move downwards through the first control assembly, the movement of the second control assembly can enable raw material extract in the discharging barrel to be discharged outwards under the pressure action of the first material pushing plate and discharged into the rotating bin, then the third control assembly enables the second control assembly to return to the original position, the extract in the discharging barrel can not be discharged continuously, then the rotating bin can drive the hollow pipe to rotate together when rotating, the stirring device in the hollow pipe does not rotate together with the rotating bin, so the hollow pipe can drive the stirring device to move for stirring and mixing, the structure principle of the interior of the first supporting barrel above the rotating bin is the same as the movement principle of the first supporting barrel below the rotating bin, then the lower discharge cylinder is used for containing the raw material extract liquid with the density smaller than that of the alcohol in the rotary bin, and the upper discharge cylinder is used for containing the raw material extract liquid with the density larger than that of the alcohol in the rotary bin; the extraction liquid with low density can flow upwards under the action of the adhesive force by selecting the method of adding above or below the rotary bin according to different densities, so that the horizontal stirring can be converted into horizontal and vertical three-dimensional stirring by using the flow of the extraction liquid while stirring, and the extraction liquid can be stirred at a second depth after being stirred at a first depth, so that the stirring effect can be increased, the mixing speed of the extraction liquid and alcohol is increased, the extraction liquid is prevented from floating on the surface of the alcohol, the phenomenon that the extraction liquid cannot be mixed with all alcohol is avoided, and the mixing speed and the mixing quality are improved; the raw material extract with the density higher than that of the alcohol and positioned above the alcohol has the same effect as the principle, and is not explained again; then the first screw rod drives the material pushing assembly to enable the first material pushing plate to apply raw material extraction liquid pressure in the material discharging barrel, the second control assembly enables the magnetic cover plate to be opened in a mode of enabling alcohol in the material discharging barrel to be added into the rotary bin through the action of the first control assembly, so that raw material extraction liquid in the material discharging barrel is in a high-pressure state, then the second control assembly enables the magnetic cover plate to be opened in a mode of instantly pressing part of raw material extraction liquid in the material discharging barrel into the rotary bin, the phenomenon that the alcohol enters the material discharging barrel can be avoided, the raw material extraction liquid in the material discharging barrel cannot be quantitatively added during adding, the adding amount is too much or too little, the stirring and mixing speed is influenced, the quantitative adding can be realized through the mode, the same amount can be added every time through the quantitative adding, then the raw material extraction liquid can be rapidly mixed with the alcohol, and the liquid solubility is limited, can make extract liquid and alcohol misce bene completely through adding a small amount of extract liquid at every turn, later at the addition of a small amount of extract liquid, divide the multiple mixing, can make the better quilt of extract liquid stir and scatter, thereby increase the speed of stirring mixture and avoided having expectedly not adding the phenomenon of entering in when realizing the ration is added, thereby increase the quality of mixing, because the inside structure of the first support section of thick bamboo in top and foretell structure are the same, so can realize adding the raw materials extract liquid at the top ration, further increase mixing effect, improve the quality of SOD white spirit.

Further, the pressure in the step B is 0.5-0.7MPa, the time is 20-30 minutes, the extracting solution is concentrated, filtered and kept stand for 1-2 days, and then filtered by a 1200-mesh filter to obtain the raw material extracting solution.

Further, each kilogram of the anti-fatigue health-care wine in the step A contains 200-500 ten thousand activity units of superoxide dismutase, and the superoxide dismutase is the antler blood extract.

Furthermore, the material pushing assembly, the elastic assembly and the first material pushing plate are arranged inside the material discharging barrel; the pushing assembly comprises a second pushing plate arranged in the material placing barrel in a sliding mode and a first spring arranged between the second pushing plate and the first pushing plate; the elastic assembly comprises a first rod piece arranged above the second material pushing plate in a sliding mode, a first fixing piece fixedly arranged above the first rod piece, a second spring arranged between the first rod piece and the first fixing piece, a second rod piece penetrating through the first fixing piece, and a first sliding piece arranged on the second rod piece in a sliding mode; the tension spring is arranged between the first sliding part and the first fixed part, the second fixed part is fixedly arranged above the first sliding part, the third fixed part is fixedly arranged below the first material pushing plate, and the first connecting rod is hinged to the second fixed part and the third fixed part; the magnetic cover plate is arranged above the discharging cylinder in an interference fit manner; the magnetic cover plate is provided with a communication channel communicated with the rotary bin and a second flange clamped above the rotary bin; the intermittent control assembly drives the second material pushing plate to slide upwards in the first material pushing plate through the first screw rod, then the second material pushing plate props against the first material pushing plate through the first spring, then the first spring is compressed, the second material pushing plate moves upwards to drive the first rod piece to move upwards, then the second spring is compressed, then the third fixing piece is pressed and moves downwards relative to the second fixing piece, then the first connecting rod drives the two first sliding pieces on the second rod piece to move towards two sides, the tension spring is stretched, so that the first material pushing plate is pressed upwards, the first material pushing plate is pressed by the first spring, but the first material pushing plate can not move because the extract in the discharging barrel is liquid and can not be compressed, but the first material pushing plate can press the extract between the first material pushing plate and the magnetic cover plate, and then when the first control assembly controls the second control assembly to open instantly, the first material pushing plate moves upwards under the action of the first spring and the first sliding part to rapidly push the extraction liquid on the first material pushing plate outwards, the pushing distance is the distance by which the first spring is compressed, and the first material pushing plate is not stressed any more after being pushed out; because the first material pushing plate needs to push a certain amount of extract liquid out of the material discharging barrel instantly but the liquid cannot be compressed, the extract liquid is pushed out quickly by the elastic force of the first material pushing plate, the elastic force of the spring changes along with the change of elastic deformation, the pushing force of the extract liquid pushed out outwards by the first material pushing plate is reduced along with the increase of the pushing distance through the spring, then the pushing is stopped without the spring returning to the original position, so that the elastic force of the first material pushing plate is applied to the first sliding part through the tension spring when the elastic force of the first material pushing plate is reduced through the elastic component, then the elastic force of the first material pushing plate is applied to the first material pushing plate through the first connecting rod, the elastic force of the first material pushing plate when the elastic force of the first spring is reduced is not changed, and therefore the extraction liquid in the material discharging barrel is pushed out to the rotary bin partially, better realization is from the mode of inside interpolation of following, and better realization ration adds and improves the mixed effect.

Furthermore, the intermittent control assembly comprises a fifth rotating shaft, an incomplete gear, an eighth gear, a first thrust ball bearing and a second thrust ball bearing, wherein the fifth rotating shaft penetrates through the fifth support and is fixed on the first gear, the incomplete gear is fixedly arranged on the fifth rotating shaft, the eighth gear is meshed with the incomplete gear, and the upper end and the lower end of the incomplete gear and the upper end and the lower end of the eighth gear are respectively provided with the first thrust ball bearing and the second thrust ball bearing which are used for fixing positions; the first screw rod is connected to the eighth gear, and a thread plate is fixedly arranged below the charging barrel; the first screw rod is in threaded connection with the thread plate; a first groove which is rotationally connected with the first screw rod is arranged below the second material pushing plate; the rotation of the rotary bin can drive the feeding device to rotate, namely drive the second support and the fifth support to rotate, then the first gear is meshed with the inner gear to drive the fifth rotating shaft to rotate, the fifth rotating shaft drives the incomplete gear to rotate, the incomplete gear drives the eighth gear to rotate, the eighth gear drives the first screw rod to rotate, and then the first screw rod can drive the second material pushing plate to move upwards by matching of the first screw rod and the threaded plate; because incomplete gear revolve several rings of eighth gear only can rotate the round, so realized agitating unit and rotated a lot of circles stirring for a long time, first lead screw just drives the second scraping wings and moves to the position of outwards pushing out the extraction liquid from the blowing section of thick bamboo, the better stability that has increased equipment operation to transmission through this kind of mode messenger equipment is compacter, better performance equipment stirs the effect of mixing, increases product quality.

Further, the connecting plate is connected to the second screw rod; the connecting plate passes through the first sliding groove and is connected to the decagonal prism; the magnetic cover plate is provided with a shielding plate piece for shielding the communicating channel; the first control assembly comprises a plurality of fourth fixing pieces fixedly arranged on the shielding piece, a second connecting rod hinged to the fourth fixing pieces, a second sliding piece connected to the second connecting rod in a connecting mode, a first guide piece arranged above the magnetic cover plate and connected to the second sliding piece in a sliding mode, and fifth fixing pieces arranged on two sides of the first guide piece and fixed above the magnetic cover plate; the second control assembly comprises a second guide piece fixedly arranged above the magnetic cover plate, a second clamping piece fixedly arranged above the second guide piece, a third sliding piece arranged on the second guide piece in a sliding manner, a second groove arranged in the third sliding piece, a third connecting rod hinged to the second groove, and a sixth fixing piece hinged to the third connecting rod and fixedly arranged above the magnetic cover plate; the second screw rod drives the decagonal prism to move downwards, then the decagonal prism drives the fourth fixing piece to move downwards, the fourth fixing piece drives the second sliding piece to slide on the first guide piece through the second connecting rod, the sliding direction is the centrifugal direction of the rotating bin, the second sliding piece can collide with the third sliding piece and drive the third sliding piece and the second sliding piece to move together when moving, the third sliding piece can move upwards through the third connecting rod and the sixth fixing piece when moving, then the third sliding piece is provided with the second guide piece, the second guide piece drives the baffle piece to move, so that the baffle piece does not block the communicating channel any more, the extract liquid in the material discharging barrel is pushed outwards, then the third sliding piece moves forwards, the position of the third sliding piece is higher than that of the second sliding piece, then the second sliding piece cannot drive the third sliding piece to move continuously, and at this time the third sliding piece can reset under the action of the third control assembly, then the communication channel is quickly closed; the decagonal prism upward movement drives the first control assembly to move firstly, then the first control assembly drives the baffle piece through the second control assembly, the process of opening the baffle piece is only a small process of the decagonal prism upward movement, the communication of the communication channel can be better controlled in a short time, then the second sliding piece drives the baffle piece through the third sliding piece to open the communication channel, the baffle piece is separated from the third sliding piece quickly after opening, the baffle piece can be closed quickly after opening, the quantitative addition of extraction liquid can be better controlled, the mutual mixing of alcohol and the extraction liquid which is not added can be avoided, the effect of the quantitative addition is influenced, and the quality of products is better guaranteed.

Furthermore, the second control assembly further comprises a sixth support fixedly arranged at two sides of the third sliding part, a sixth rotating shaft rotatably arranged on the sixth support, and an arc-shaped block fixed on the sixth rotating shaft; the arc-shaped block is provided with a first plane X, a first arc surface Y, a second plane Z and a second arc surface T of the following four surfaces; the second slide does not directly contact the third slide; the second sliding part can be contacted with the arc-shaped block in the sliding process; a torsional spring is arranged at the position where the sixth rotating shaft is rotatably connected with the arc-shaped block; the second sliding part drives the third sliding part through the sixth bracket of the quantitative adding device when moving, then the second sliding part can normally pass through the arc-shaped block when returning to the original position and can not drive the third sliding part to move, and the arc-shaped block can reset under the action of the torsion spring after rotating; the baffle plate piece can be opened normally when needing to be opened better, and when the baffle plate piece does not need to be opened, the baffle plate piece can pass through the third sliding piece smoothly in the resetting process of the second sliding piece, and the influence on the closing of the baffle plate piece can not be generated through the third sliding piece, so that the closing of the baffle plate piece can be better ensured, alcohol can not be mixed with extraction liquid which does not need to be added, and the quality of products can be better controlled.

Furthermore, the third control component comprises a seventh fixing piece fixedly arranged above the magnetic cover plate, two third rod pieces fixedly arranged on the seventh fixing piece, a second piston fixedly arranged on the third rod pieces, a piston cylinder fixedly arranged on the side surface of the baffle piece and a third spring arranged in the piston cylinder; the second piston is arranged in the piston cylinder in a sliding manner; the third spring is positioned between the second piston and the bottom of the piston cylinder; can drive the piston cylinder and move when the shielding plate piece is opened, later the piston cylinder can compress the third spring, and the second piston slides in the piston cylinder, later when the second slider no longer acts on thrust for the third slider, the shielding plate piece can reset under the effect of third spring to closing shielding plate piece that can be quick, better realization ration adds the raw materials extract, thereby the quality of better assurance product.

Furthermore, the control device comprises a first belt transmission structure connected with the fifth rotating shaft, a first toothed belt arranged on a conveying belt in the first belt transmission structure, a second belt transmission structure fixedly connected with the first belt transmission structure, a fourth rotating shaft fixedly connected with the second belt transmission structure, a sixth gear fixedly connected with the fourth rotating shaft, a fifth gear meshed with the sixth gear, and a third rotating shaft fixedly connected with the fifth gear, the third belt transmission structure is connected with the third rotating shaft, the second toothed belt is arranged on the third belt transmission structure, the second screw rod is rotatably connected with belt wheels in the first belt transmission structure, the second belt transmission structure and the third belt transmission structure, the fourth gear and the seventh gear are fixedly connected with the second screw rod and are respectively positioned above the first belt transmission structure and below the third belt transmission structure, and the seventh support is fixedly connected with the rotating bin; the second screw rod penetrates through the seventh bracket; the first toothed belt and the second toothed belt are meshed with the fourth gear and the seventh gear when in motion; the first belt transmission structure, the second belt transmission structure and the third belt transmission structure are all the prior art; when the fifth rotating shaft rotates, the first belt transmission structure is driven to transmit, the first belt transmission structure drives the first toothed belt to transmit, the first toothed belt drives the fourth gear to rotate clockwise, the fourth gear drives the second screw rod to rotate clockwise, then the first toothed belt is separated from the fourth gear, then the third belt transmission structure drives the seventh gear to rotate anticlockwise, so that the seventh gear drives the second screw rod to rotate anticlockwise, and the second screw rod drives the decagonal prisms to move upwards to reset; the directional rotation of the fifth rotating shaft drives the second screw rod to rotate in a reciprocating reversing manner, and the shielding plate piece for shielding the magnetic cover plate can be controlled to be opened and closed accurately through the number of turns of the fifth rotating shaft, so that the extract liquid in the material discharging barrel can be better quantitatively added, and the quality of a product can be guaranteed.

Furthermore, the stirring device is provided with a plurality of groups; the stirring device comprises a third support fixedly arranged in a hollow pipe, a first rotating shaft rotatably arranged in the third support, a first helical gear fixed on the first rotating shaft, a second helical gear meshed with the first helical gear, a second rotating shaft fixed on the second helical gear and rotatably arranged on the side surface of the hollow pipe, a sleeve sleeved on the second rotating shaft, a plurality of stirring blades sleeved on the sleeve, and a square block connected to a second screw rod and used for driving the first rotating shaft; the rotating speed of the second screw rod is different from that of the rotating bin, namely the rotating speeds of the second screw rod and the hollow pipe are different, the second rotating shaft rotates along with the hollow pipe, but the first rotating shaft and the second screw rod are fixed, so that the rotating speeds of the first rotating shaft and the second screw rod are the same, the first helical gear drives the second helical gear to rotate, and the second helical gear drives the second rotating shaft to rotate; then the extract liquid discharged into the rotary bin from the magnetic cover plate can be stirred and dispersed by the rotation of the stirring blades, the extract liquid can be quickly dispersed to a plurality of positions in the rotary bin when being added into the alcohol in the rotary bin, so that the extract liquid is a cluster of extract liquid due to high viscosity when being added, the phenomenon that the extract liquid is slowly stirred and dispersed to waste time is avoided, and the rotation direction of the stirring blades is changed later, so that the extract liquid can be conveyed in the alcohol according to the rotation direction of the stirring blades while being stirred and dispersed by the stirring blades, the extract liquid can be conveyed in one direction by the centrifugal direction of the rotary bin and the centripetal direction of the rotary bin, the extract liquid can be conveyed in the other direction after being stirred and dispersed, the speed of mixing with the alcohol is accelerated, and then the direction of the stirring blades rotates to convey the stirred and dispersed extract liquid to the other direction, thereby the extract can be better dispersed in the alcohol, thereby accelerating the mixing speed and improving the mixing effect, thereby improving the product quality.

Further, a second permanent magnet is arranged on the first material pushing plate; the opposite parts of the second permanent magnet and the magnetic cover plate are unlike magnetic poles which can attract each other; the second permanent magnet is fixedly connected to the first material pushing plate; finally, when the second permanent magnet is contacted with the magnetic cover plate, the first material pushing plate and the magnetic cover plate are attracted together, and then the magnetic cover plate moves upwards to not seal the charging barrel, so that a small amount of residual extraction liquid in the charging barrel is communicated with the rotary bin; the viscosity of the extraction liquid is high, so that the extraction liquid is difficult to be completely added when being added, the actual addition amount of the extraction liquid is different from the theoretical amount, the proportion of each raw material in a final product is different from the theoretical proportion, and the product quality is not the best quality.

Furthermore, a first push rod penetrating through the first support cylinder, a first permanent magnet arranged at the end part of the first push rod, a first through hole arranged on the discharge cylinder, a first piston blocking the first through hole, and a first clamping piece fixedly connected to the discharge cylinder and clamping the first piston are arranged on the feeding bin; the first push rod is fixedly connected to the feeding bin, the first push rod is slidably connected to the first supporting cylinder, and the first piston is slidably connected to the first through hole; need add the blowing section of thick bamboo through the raw materials extract before mixing, pour the raw materials extract during the joining mode into the feed bin, later add the feed bin and drive first push rod and move along, push up first through-hole through first permanent magnet, make and add feed bin and blowing section of thick bamboo and be linked together, later push away the raw materials extract in the blowing section of thick bamboo, first push rod resets after the joining completion, first piston resets with first push rod together, later first piston is blocked by first screens piece and is break away from first push rod, thereby the feeding section of thick bamboo is lived to first piston seal, it outwards exposes to prevent the extract.

The invention has the beneficial effects that:

the SOD-containing first support adopts various traditional Chinese medicine components such as ginseng, cordyceps sinensis, American ginseng, lucid ganoderma, pilose antler, polygonum multiflorum, poria cocos, safflower, penis cervi, yam, wild jujube, royal jelly, sea dragon, gecko and the like and SOD to be compatible and complement each other, so that the enzyme activity stability and the free radical resistance of the SOD are improved, and meanwhile, the synergistic effect is exerted on effective substances in various traditional Chinese medicine components, so that the SOD-containing first support has the effects of resisting fatigue, improving the immunity, producing sperm and tonifying kidney, promoting the circulation of blood and blood, refreshing and tonifying qi, promoting blood circulation to remove blood stasis, strengthening tendons and bones, promoting the metabolism of a human body and the like;

the first supporting cylinder adopts the antler blood extract with strong oxidation resistance as an SOD source to replace the SOD source of the plant extract, thereby overcoming the defects of low SOD activity of the plant extract, little homology with human and poor physiological effectiveness;

the traditional Chinese medicine soaking production technology is replaced by the technology of preparing the wine by using the Chinese medicine raw material extract in the feeding bin and the preparation method of the invention, the conditioning effect and the nutrient content of the medicine are improved, the environment is protected, the cost is reduced, and the economic benefit is improved.

In conclusion, the invention realizes that the extraction liquid is added at the upper position and the lower position by arranging the feeding device, the density of the extraction liquid is higher than that of the alcohol and the density of the extraction liquid is lower than that of the alcohol, so that the extraction liquid can be quickly mixed with each layer of the white spirit in the vertical direction under the action of buoyancy after being added, and the mixing effect is improved; the quantitative adding device is arranged, so that the extraction liquid is quantitatively added, and the mixing speed of the extraction liquid and the white spirit is increased; set up agitating unit, can stir a group of extract liquid that comes in with adding fast and scatter, later change that goes up repeatedly in the horizontal direction in white spirit, each position in better messenger's extract liquid fast scattering white spirit has increased the speed and the mixed effect of mixing to the quality of product has been improved.

Drawings

FIG. 1 is a schematic cross-sectional view of the center of the present invention;

FIG. 2 is an enlarged view of A of FIG. 1 according to the present invention;

FIG. 3 is an enlarged view of B of FIG. 1 in accordance with the present invention;

FIG. 4 is an enlarged view of C of FIG. 1 in accordance with the present invention;

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

FIG. 6 is a schematic view of the interior of the first support cylinder according to the present invention;

FIG. 7 is a schematic structural diagram of a control device according to the present invention;

FIG. 8 is a schematic view of the intermittent control assembly of the present invention;

FIG. 9 is a schematic view of the pusher assembly of the present invention;

FIG. 10 is a schematic view of the construction of the elastic member of the present invention;

FIG. 11 is a schematic structural view of a second stripper plate according to the present invention;

FIG. 12 is a schematic view of the explosion structure of the dispensing canister of the present invention;

FIG. 13 is a schematic view of the structure of the magnetic cover plate of the present invention;

FIG. 14 is a schematic illustration of an explosive structure within a hollow tube according to the present invention;

FIG. 15 is a schematic view of the quantitative addition device according to the present invention;

FIG. 16 is a schematic structural diagram of a first control assembly according to the present invention;

FIG. 17 is a schematic structural diagram of a second control assembly according to the present invention;

FIG. 18 is an exploded view of a third control assembly of the present invention;

FIG. 19 is a schematic view of the construction of the connecting plate of the present invention;

FIG. 20 is a schematic structural view of a stirring vane of the present invention;

FIG. 21 is a schematic view of the rotary bin of the present invention;

FIG. 22 is a schematic structural view of a first support cylinder according to the present invention;

FIG. 23 is an exploded view of a second control assembly of the present invention;

FIG. 24 is a schematic view of an arcuate block of the present invention;

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

Example one

As shown in fig. 1-24, a method for preparing SOD white spirit comprises the following steps:

step A, preparing materials: 1% of ginseng, 1% of cordyceps sinensis, 0.5% of American ginseng, 2% of lucid ganoderma, 1.5% of pilose antler, 1.5% of polygonum multiflorum, 1.5% of poria cocos, 1% of safflower, 1% of penis cervi, 3% of Chinese yam, 2.5% of wild jujube, 70% of royal jelly, 2.5% of sea dragon, 2% of gecko, 5% of white spirit with the concentration not lower than 55% and 508% of white spirit with the concentration not lower than 45%;

step B, extraction: cleaning 1kg of raw materials of Ginseng radix, Cordyceps, radix Panacis Quinquefolii, Ganoderma, cornu Cervi Pantotrichum, Polygoni Multiflori radix, Poria, Carthami flos, penis et testis Cervi, rhizoma Dioscoreae, fructus Ziziphi Spinosae, Lac Regis Apis, Syngnathus, and Gecko respectively, adding 2000ml of filtered water respectively, and extracting at high temperature under high pressure by steam pressure cooker;

step C, feeding: adding the extract liquid extracted in the step B into a charging barrel in a mixing and stirring device;

step D, mixing and stirring: mixing and stirring for 10 minutes to fully dissolve the raw material extract in the white spirit, standing for 10 days, and filtering by a 1200-mesh sieve to obtain the anti-fatigue health care wine containing SOD.

The mixing and stirring device in the steps C and D comprises a first support 1, a first support cylinder 2 arranged above the first support 1, a first flange 21 arranged at the bottom of the first support cylinder 2, a rotating bin 8 arranged in the first support cylinder 2 and supported by the first flange 21, a feeding bin 3 arranged on the side surface of the first support cylinder 2, a plurality of feeding devices 4 arranged below the rotating bin 8, a stirring device 6 arranged on the central axis of the rotating bin 8, a quantitative adding device 5 connected to the stirring device 6, a control device 7 connected to the feeding device 4, a first motor 11 arranged above the first support 1, a second gear 12 connected to the first support 1, and a third gear 13 fixedly arranged on the rotating bin 8 and meshed with the second gear 12; the number of the first supporting cylinders 2 is two, and the two supporting cylinders are symmetrically arranged at two sides of the rotating bin 8 relative to the rotating bin 8; the feeding device 4 and the quantitative adding device 5 are symmetrically arranged above and below the rotating bin 8 about the rotating bin 8 respectively; the feeding device 4 comprises a second support 40 fixedly arranged below the rotary bin 8, an internal gear 41 fixedly arranged on the inner wall of the first support cylinder 2, a first gear 42 meshed with the internal gear 41, an intermittent control assembly 43 connected to the first gear 42 and arranged on the second support 40, a first screw rod 44 connected to the intermittent control assembly 43, a discharging cylinder 48 arranged below the rotary bin 8, a pushing assembly 45 connected to the first screw rod 44, a first pushing plate 47 arranged above the pushing assembly 45 and used for pushing a raw material extraction liquid, an elastic assembly 46 arranged above the pushing assembly 45 and used for driving the first pushing plate 47, and a magnetic cover plate 49 arranged above the discharging cylinder 48 and used for preventing the mixing of the white spirit and the extraction liquid; the control device 7 is connected with the feeding device 4 and the quantitative adding device 5; the control device 7 comprises a second screw rod 70 which drives the quantitative adding device 5 to move through the feeding device 4 and the control device 7; the quantitative adding device 5 is arranged above the magnetic cover plate 49; the quantitative adding device 5 comprises a hollow pipe 50 fixed inside the rotary bin 8, a first sliding chute 501 arranged in the hollow pipe 50, a decagonal prism 52 arranged on the hollow pipe 50 in a sliding manner, a connecting plate 51 connected to the second screw rod 70 and used for driving the decagonal prism 52 to move, a first control component 53 connected to the decagonal prism 52, a second control component 54 connected to the first control component 53 and used for controlling the magnetic cover plate 49, and a third control component 55 connected to the second control component 54; the stirring device 6 is connected to the hollow tube 50.

Specifically, the pressure in the step B is 0.5MPa, the time is 200 minutes, the extracting solution is concentrated, filtered and kept stand for 1 day, and then filtered by a 1200-mesh filter to obtain the raw material extracting solution.

Specifically, in the step a, each kilogram of the anti-fatigue health-care wine contains 20000 activity units of superoxide dismutase, and the superoxide dismutase is a deer antler blood extract.

Specifically, the device comprises a first support 1, a first motor 11, a second gear 12, a third gear 13, a first support cylinder 2, a first flange 21, a feeding bin 3, a feeding device 4, an internal gear 41, a first gear 42, an intermittent control assembly 43, a first screw rod 44, a pushing assembly 45, a second pushing plate 451, a first spring 452, an elastic assembly 46, a first rod 461, a second spring 462, a first fixing piece 463, a second rod 464, a tension spring 465, a first sliding piece 466, a second fixing piece 467, a first connecting rod 468, a third fixing piece 469, a first pushing plate 47, a second permanent magnet 471, a discharging cylinder 48, a magnetic cover plate 49, a communication channel 491 and a second flange 492; the pushing assembly 45, the elastic assembly 46 and the first pushing plate 47 are arranged inside the material discharging barrel 48; the pushing assembly 45 comprises a second pushing plate 451 arranged in the charging barrel 48 in a sliding manner, and a first spring 452 arranged between the second pushing plate 451 and the first pushing plate 47; the elastic assembly 46 includes a first rod 461 slidably disposed above the second material pushing plate 451, a first fixing element 463 fixedly disposed above the first rod 461, a second spring 462 disposed between the first rod 461 and the first fixing element 463, a second rod 464 disposed through the first fixing element 463, and a first sliding element 466 slidably disposed on the second rod 464; a tension spring 465 arranged between the first sliding part 466 and the first fixing part 463, a second fixing part 467 fixedly arranged above the first sliding part 466, a third fixing part 469 fixedly arranged below the first material pushing plate 47, and a first connecting rod 468 hinged to the second fixing part 467 and the third fixing part 469; the magnetic cover plate 49 is arranged above the charging barrel 48 in an interference fit manner; the magnetic cover plate 49 is provided with a communicating channel 491 for communicating with the rotary bin 8 and a second flange 492 for being clamped above the rotary bin 8; wherein there are two sets of said elastic elements 46; two first rods 461 are arranged on each group of elastic assemblies 46; the second material pushing plate 451 is slidably connected to the material discharging barrel 48, the first rod 461 is slidably connected to the second material pushing plate 451, the first fixing member 463 is fixedly connected to the first rod 461, the second rod 464 is fixedly connected to the first fixing member 463, the first sliding member 466 is slidably connected to the second rod 464, the second fixing member 467 is fixedly connected to the first sliding member 466, the third fixing member 469 is fixedly connected to the first material pushing plate 47, the magnetic cover plate 49 and the material discharging barrel 48 by detachable interference fit.

Specifically, the gear comprises a fifth bracket 402, a fifth rotating shaft 431, an incomplete gear 432, a first thrust ball bearing 433, an eighth gear 434, a second thrust ball bearing 435, a threaded plate 441 and a first groove 453; a fifth bracket 402 is arranged above the second bracket 40; the intermittent control assembly 43 comprises a fifth rotating shaft 431 which is arranged in the fifth bracket 402 in a penetrating way and fixed on the first gear 42, an incomplete gear 432 which is fixedly arranged on the fifth rotating shaft 431, an eighth gear 434 which is meshed with the incomplete gear 432, and a first thrust ball bearing 433 and a second thrust ball bearing 435 which are used for fixing the upper end and the lower end of the incomplete gear 432 and the upper end and the lower end of the eighth gear 434 are respectively provided with the incomplete gear and the second gear; the first screw 44 is connected to the eighth gear 434, and a thread plate 441 is fixedly arranged below the charging barrel 48; the first lead screw 44 is in threaded connection with the thread plate 441; a first groove 453 rotatably connected with the first screw rod 44 is arranged below the second material pushing plate 451; the internal gear 41 is fixedly connected to the first support cylinder 2, the second support 40 is fixedly connected to the rotating bin 8, the fifth support 402 is fixedly connected to the second support 40, the fifth rotating shaft 431 is rotatably connected to the fifth support 402, the incomplete gear 432 is fixedly connected to the fifth rotating shaft 431, the first thrust ball bearing 433 is arranged at two gaps between the incomplete gear 432 and the fifth support 402, the eighth gear 434 is meshed with the incomplete gear 432, the second thrust ball bearing 435 is arranged at two gaps between the eighth gear 434 and the fifth support 402, the first screw 44 is slidably connected to the eighth gear 434, and the threaded plate 441 is fixedly connected to the discharge cylinder 48.

Specifically, the device comprises a fourth fixing member 531, a second connecting rod 532, a second sliding member 533, a first guiding member 534, a fifth fixing member 535, a second guiding member 541, a second blocking member 542, a third sliding member 543, a second groove 544, a third connecting rod 545, a sixth fixing member 546 and a shielding member 56; the connecting plate 51 is connected to the second screw rod 70; the connecting plate 51 is connected to the decagonal prism 52 through the first sliding groove 501; the magnetic cover plate 49 is provided with a shielding plate member 56 for shielding the communication passage 491; the first control assembly 53 includes a plurality of fourth fixing members 531 fixed on the shielding member 56, a second connecting rod 532 hinged to the fourth fixing members 531, a second sliding member 533 connected to the second connecting rod 532, a first guiding member 534 disposed above the magnetic cover plate 49 and slidably connected to the second sliding member 533, and fifth fixing members 535 disposed on both sides of the first guiding member 534 and fixed above the magnetic cover plate 49; the second control assembly 54 comprises a second guiding element 541 fixedly arranged above the magnetic cover plate 49, a second blocking element 542 fixedly arranged above the second guiding element 541, a third sliding element 543 slidably arranged on the second guiding element 541, a second groove 544 arranged in the third sliding element 543, a third connecting rod 545 hinged to the second groove 544, and a sixth fixing element 546 hinged to the third connecting rod 545 and fixedly arranged above the magnetic cover plate 49; the cross prism 52 is slidably connected to the hollow tube 50, the fourth fixing member 531 is fixedly connected to the blocking member 56, the second sliding member 533 is slidably connected to the first guiding member 534, the fifth fixing member 535 is fixedly connected to the magnetic cover plate 49, the second guiding member 541 is fixedly connected to the magnetic cover plate 49, the second locking member 542 is fixedly connected to the second guiding member 541, the third sliding member 543 is slidably connected to the second guiding member 541, the third connecting rod 545 is hinged to the second groove 544, and the sixth fixing member 546 is fixedly connected to the magnetic cover plate 49.

Specifically, the device comprises a sixth bracket 547, a sixth rotating shaft 548, an arc-shaped block 549, a first plane X, a first arc surface Y, a second plane Z and a second arc surface T; the second control assembly 54 further includes a sixth bracket 547 fixedly disposed at two sides of the third sliding member 543, a sixth rotating shaft 548 rotatably disposed on the sixth bracket 547, and an arc-shaped block 549 fixed to the sixth rotating shaft 548; the arc-shaped block 549 is provided with a first plane X, a first arc surface Y, a second plane Z and a second arc surface T of the following four surfaces; the second slider 533 and the third slider 543 may not be in direct contact; the second slide 533 will contact the arc-shaped block 549 during sliding; a torsional spring is arranged at the rotary connection position of the sixth rotating shaft 548 and the arc-shaped block 549; the middle of the third sliding piece 543 is made of stainless steel, and the two sides of the third sliding piece 543 are made of wear-resistant polyurethane rubber; the middle of the third sliding piece 543 is solid, and both sides are hollow; the sixth bracket 547 is disposed at the hollow position on both sides of the third sliding member 543; the sixth bracket 547 is fixedly connected to the third sliding member 543.

Specifically, the piston comprises a seventh fixed part 551, a third rod 552, a second piston 553, a third spring 554 and a piston cylinder 555; the third control assembly 55 comprises a seventh fixing member 551 fixedly arranged above the magnetic cover plate 49, two third rods 552 fixedly arranged on the seventh fixing member 551, a second piston 553 fixedly arranged on the third rods 552, a piston cylinder 555 fixedly arranged on the side surface of the shielding plate 56, and a third spring 554 arranged inside the piston cylinder 555; the second piston 553 is arranged inside the piston cylinder 555 in a sliding way; the third spring 554 is positioned between the second piston 553 and the bottom of the piston cylinder 555.

Specifically, the device comprises a second screw rod 70, a first belt transmission structure 71, a first toothed belt 72, a second belt transmission structure 73, a third belt transmission structure 74, a third rotating shaft 75, a fifth gear 751, a fourth rotating shaft 76, a sixth gear 761, a second toothed belt 77, a fourth gear 78 and a seventh support 79; the control device 7 comprises a first belt transmission structure 71 connected to the fifth rotating shaft 431, a first toothed belt 72 arranged on a conveying belt in the first belt transmission structure 71, a second belt transmission structure 73 fixedly connected to the first belt transmission structure 71, a fourth rotating shaft 76 fixedly connected to the second belt transmission structure 73, a sixth gear 761 fixedly connected to the fourth rotating shaft 76, a fifth gear 751 meshed with the sixth gear 761, a third rotating shaft 75 fixedly connected to the fifth gear 751, a third belt transmission structure 74 connected to the third rotating shaft 75, a second toothed belt 77 arranged on the third belt transmission structure 74, a second screw rod 70 rotatably connected to belt wheels in the first belt transmission structure 71, the second belt transmission structure 73 and the third belt transmission structure 74, a fourth gear 78 and a seventh gear 781 fixedly connected to the second screw rod 70 and respectively positioned above the first belt transmission structure 71 and below the third belt transmission structure 74, A seventh bracket 79 fixedly connected to the rotary bin 8; the second screw rod 70 is arranged in the seventh bracket 79 in a penetrating way; the first toothed belt 72 and the second toothed belt 77 will mesh with the fourth gear 78 and the seventh gear 781 when in motion; the first belt transmission structure 71, the second belt transmission structure 73 and the third belt transmission structure 74 are all the prior art; wherein, the belt wheel of the first belt transmission structure 71 is fixed to the fifth rotating shaft 431, the belt wheel of the second belt transmission structure 73 is fixed to the belt wheel of the first belt transmission structure 71, the fourth rotating shaft 76 is fixed to the other belt wheel of the second belt transmission structure 73, the third rotating shaft 75 is fixed to the belt wheel of the third belt transmission structure 74, and the second screw 70 is screwed to the seventh bracket 79.

Specifically, the device comprises a third bracket 60, a square block 61, a first rotating shaft 62, a first bevel gear 63, a second bevel gear 64, a second rotating shaft 65, a sleeve 66 and a stirring blade 67; the stirring devices 6 are provided with a plurality of groups; the device comprises a third bracket 60 fixedly arranged in the hollow pipe 50, a first rotating shaft 62 rotatably arranged in the third bracket 60, a first bevel gear 63 fixed on the first rotating shaft 62, a second bevel gear 64 meshed with the first bevel gear 63, a second rotating shaft 65 fixed on the second bevel gear 64 and rotatably arranged on the side surface of the hollow pipe 50, a sleeve 66 sleeved on the second rotating shaft 65, a plurality of stirring blades 67 sleeved on the sleeve 66, and a square block 61 connected to a second screw rod 70 and used for driving the first rotating shaft 62; the square block 61 is fixedly connected to the second lead screw 70, and the first rotating shaft 62 is fixedly connected to the square block 61.

Specifically, the first material pushing plate 47 is provided with a second permanent magnet 471; the opposite parts of the second permanent magnet 471 and the magnetic cover plate 49 are unlike magnetic poles which can attract each other; the second permanent magnet 471 is fixedly connected to the first material pushing plate 47.

Specifically, the device comprises a first push rod 31, a first permanent magnet 32, a first piston 33, a first through hole 34 and a first clamping piece 35; the feeding bin 3 is provided with a first push rod 31 penetrating through the first support cylinder 2, a first permanent magnet 32 arranged at the end part of the first push rod 31, a first through hole 34 arranged on the discharging cylinder 48, a first piston 33 blocking the first through hole 34, and a first clamping piece 35 fixedly connected to the discharging cylinder 48 and clamping the first piston 33; the first push rod 31 is fixedly connected to the feeding bin 3, the first push rod 31 is slidably connected to the first support cylinder 2, and the first piston 33 is slidably connected to the first through hole 34.

Example two

A method for preparing SOD white spirit comprises the following steps:

step A, preparing materials: 1.5% of ginseng, 1.5% of cordyceps sinensis, 0.7% of American ginseng, 2.5% of lucid ganoderma, 1.7% of pilose antler, 1.2% of polygonum multiflorum, 1.3% of poria cocos, 1.5% of safflower, 1.5% of penis cervi, 4% of Chinese yam, 3% of wild jujube, 8% of royal jelly, 2.6% of syngnathus, 2.5% of gecko, 6% of white spirit with concentration not lower than 55% and 60% of white spirit with concentration not lower than 45%;

step B, extraction: cleaning 1kg of raw materials of Ginseng radix, Cordyceps, radix Panacis Quinquefolii, Ganoderma, cornu Cervi Pantotrichum, Polygoni Multiflori radix, Poria, Carthami flos, penis et testis Cervi, rhizoma Dioscoreae, fructus Ziziphi Spinosae, Lac Regis Apis, Syngnathus, and Gecko respectively, adding 2000ml of filtered water respectively, and extracting at high temperature under high pressure by steam pressure cooker;

step C, feeding: adding the extract liquid extracted in the step B into a charging barrel in a mixing and stirring device;

step D, mixing and stirring: mixing and stirring for 10 minutes to fully dissolve the raw material extract in the white spirit, standing for 10 days, and filtering by a 1200-mesh sieve to obtain the anti-fatigue health-care wine containing SOD

Specifically, the pressure in the step B is 0.6MPa, the time is 25 minutes, the extracting solution is concentrated, filtered and kept stand for 1.6 days, and then filtered by a 1200-mesh sieve to obtain the raw material extracting solution.

Specifically, each kilogram of the anti-fatigue health-care wine in the step A contains 200-500 ten thousand activity units of superoxide dismutase, and the superoxide dismutase is a deer antler blood extract.

EXAMPLE III

A method for preparing SOD white spirit comprises the following steps:

step A, preparing materials: 2% of ginseng, 2% of cordyceps sinensis, 1% of American ginseng, 3% of lucid ganoderma, 2% of pilose antler, 1.5% of polygonum multiflorum, 1.5% of poria cocos, 2% of safflower, 2% of penis cervi, 5% of Chinese yam, 4% of wild jujube, 10% of royal jelly, 3% of sea dragon and 3% of gecko, and also comprises 8% of white spirit with the concentration not lower than 55% and 68% of white spirit with the concentration not lower than 45%;

step B, extraction: cleaning 1kg of raw materials of Ginseng radix, Cordyceps, radix Panacis Quinquefolii, Ganoderma, cornu Cervi Pantotrichum, Polygoni Multiflori radix, Poria, Carthami flos, penis et testis Cervi, rhizoma Dioscoreae, fructus Ziziphi Spinosae, Lac Regis Apis, Syngnathus, and Gecko respectively, adding 2000ml of filtered water respectively, and extracting at high temperature under high pressure by steam pressure cooker;

step C, feeding: adding the extract liquid extracted in the step B into a charging barrel in a mixing and stirring device;

step D, mixing and stirring: mixing and stirring for 10 minutes to fully dissolve the raw material extract in the white spirit, standing for 10 days, and filtering by a 1200-mesh sieve to obtain the anti-fatigue health-care wine containing SOD

Specifically, the pressure in the step B is 0.7MPa, the time is 30 minutes, the extracting solution is concentrated, filtered and kept stand for 2 days, and then filtered by a 1200-mesh filter to obtain the raw material extracting solution.

Specifically, each kilogram of the anti-fatigue health-care wine in the step A contains 500 ten thousand activity units of superoxide dismutase, and the superoxide dismutase is a deer antler blood extract.

The specific working process of the invention is as follows: when the device is used for mixing the extraction liquid of the SOD white spirit, the raw material extraction liquid is firstly added into the discharging barrel 48 through the feeding bin 3, the raw material extraction liquid is added into the discharging barrel 48 before mixing, the raw material extraction liquid is poured into the feeding bin 3 in the adding mode, then the feeding bin 3 drives the first push rod 31 to move forwards, the first through hole 34 is opened through the first permanent magnet 32, the feeding bin 3 is communicated with the discharging barrel 48, then the raw material extraction liquid is pushed into the discharging barrel 48, the first push rod 31 is reset after adding is completed, the first piston 33 and the first push rod 31 are reset together, then the first piston 33 is clamped by the first clamping piece 35 and separated from the first push rod 31, and therefore the first piston 33 seals the discharging barrel 48 and prevents the extraction liquid from being exposed outwards; during adding, the raw material extract with the density higher than that of alcohol is added into the charging barrel 48 at the upper part through the charging bin 3 at the upper part, and the raw material extract with the density lower than that of alcohol is added into the charging barrel 48 at the lower part through the charging bin 3 at the lower part; then selecting a structure at the lower position to describe the working process;

then white spirit is added into the rotating bin 8, then the first motor 11 drives the third gear 13 to rotate through the second gear 12, the third gear 13 drives the rotating bin 8 to rotate between the two first supporting cylinders 2, because the first supporting cylinders 2 are fixed, the internal gear 41 is fixed, the first gear 42 revolves on the internal gear 41 and simultaneously rotates under the driving of the internal gear 41, the rotating bin 8 rotates and drives the second bracket 40 and the fifth bracket 402 to rotate, then the first gear 42 is meshed with the internal gear 41 to drive the fifth rotating shaft 431 to rotate, the fifth rotating shaft 431 drives the incomplete gear 432 to rotate, the gear 432 drives the eighth gear 434 to rotate, the eighth gear 434 drives the first screw rod 44 to rotate, then the first screw rod 44 and the screw plate 441 are matched to drive the first screw rod 44 to drive the second material pushing plate 451 to move upwards, and the second material pushing plate 451 slides upwards in the first material pushing plate 47, then the second material pushing plate 451 abuts against the first material pushing plate 47 through the first spring 452, then the first spring 452 is compressed, the upward movement of the second material pushing plate 451 drives the first rod 461 to move upward, then the compression of the second spring 462, then the downward movement of the third fixing member 469 relative to the second fixing member 467 is performed, then the two first sliding members 466 on the second rod 464 are driven by the first connecting rod 468 to move to both sides, the tension spring 465 is stretched, so that the upward pressure is applied to the first material pushing plate 47, but since the extraction liquid in the material discharging barrel 48 is liquid and cannot be compressed, the first material pushing plate 47 cannot move, but the first material pushing plate 47 can apply pressure to the extraction liquid between the first material pushing plate 47 and the magnetic force cover plate 49;

then the fifth rotating shaft 431 drives the first belt transmission structure 71 to transmit when rotating, the first belt transmission structure 71 drives the second belt transmission structure 73 to transmit when transmitting, then the second belt transmission structure 73 drives the fourth rotating shaft 76 to rotate, the sixth gear 761 rotates with the fourth rotating shaft 76, then the sixth gear 761 drives the fifth gear 751 to rotate, the fifth gear 751 drives the third belt transmission structure 74 to transmit through the third rotating shaft 75, and the first belt transmission structure 71 directly drives the second belt transmission structure 73 to transmit, so the transmission direction of the second belt transmission structure 73 is the same as that of the first belt transmission structure 71, then the second belt transmission structure 73 drives the third belt transmission structure 74 to transmit through the engagement of the fifth gear 751 and the sixth gear 761, so the transmission directions of the third belt transmission structure 74 and the second belt transmission structure 73 are opposite, so that the second belt transmission structure 73 also transmits clockwise when the first belt transmission structure 71 transmits clockwise, however, the third belt transmission structure 74 is driven counterclockwise, the fourth gear 78 and the seventh gear 781 can rotate according to the positions of the first toothed belt 72 and the second toothed belt 77, the first belt transmission structure 71 drives the first toothed belt 72 to transmit, the first toothed belt 72 drives the clockwise rotation, the first toothed belt 72 drives the fourth gear 78 to rotate clockwise, the fourth gear 78 drives the second lead screw 70 to rotate clockwise, so that the second screw 70 drives the decagonal prism 52 to move downwards through the connecting plate 51, then the first toothed belt 72 is disengaged from the fourth gear 78, then the second toothed belt 77 on the third belt transmission structure 74 is engaged with the seventh gear 781, and drives the seventh gear 781 to rotate anticlockwise, the seventh gear 781 drives the second screw rod 70 to rotate anticlockwise, the second screw rod 70 drives the decagonal prism 52 to move upwards for resetting, and the decagonal prism 52 is driven to reciprocate up and down in such a reciprocating manner;

when the second lead screw 70 drives the deca-prism 52 to move downwards, the deca-prism 52 drives the fourth fixed member 531 downwards, the fourth fixed member 531 drives the second sliding member 533 to slide on the first guide member 534 through the second connecting rod 532, the sliding direction is the centrifugal direction of the rotary bin 8, when the second sliding member 533 slides, the fourth sliding member 531 firstly contacts the first plane X on the arc-shaped block 549, then the arc-shaped block 549 has a movement tendency of rotating around the sixth rotating shaft 548, then the second plane Z directly contacts the sixth bracket 547 so as to make the arc-shaped block 549 unable to rotate, so the second sliding member 533 drives the sixth bracket through the arc-shaped block 549, that is, the third sliding member 543 is driven to move, when the third sliding member 543 moves, the third sliding member 543 upwards moves through the third connecting rod 545 and the sixth fixed member 546, then the third sliding member 543 carries the second guide member 541, and the second guide member 541 drives the baffle 56 to move, the shutter 56 will drive the piston cylinder 555 to move, then the piston cylinder 555 will compress the third spring 554, the second piston 553 will slide in the piston cylinder 555, so that the shutter 56 will not block the communicating channel 491, the extract in the discharging cylinder 48 will be pushed out, then along with the forward movement of the third slide 543, the position of the third slide 543 will be higher than the second slide 533, then the second slide 533 will be separated from the second slide 533, when the second slide 533 can not drive the third slide 543 to move, the second slide 533 will not apply the pushing force to the third slide 543, the shutter 56 will be reset under the effect of the third spring 554, so that the shutter 56 can be closed quickly, so that the communicating channel 491 will be closed quickly, because the process of opening the shutter 56 is only a part of the movement of the first control assembly 53, so the second slide 533 will also move forward, then the decagonal prism 52 drives the second sliding member 533 to return to the original position, when the second sliding member 533 returns, the second sliding member 533 may strike the first arc surface Y on the arc-shaped block 549, and then the arc-shaped block 549 may have a movement trend of rotating clockwise around the sixth rotating shaft 548, because the second arc surface T on the arc-shaped block 549 may not contact with the sixth bracket 547 when the arc-shaped block 549 rotates clockwise, the arc-shaped block 549 may rotate normally, so the second sliding member 533 may normally pass through the arc-shaped block 549 when returning to the original position without driving the third sliding member 543 to move, and after rotating, the arc-shaped block may return under the action of the torsion spring;

the first material pushing plate 47 pushes the raw material extracting solution upwards step by step, when the last second permanent magnet 471 is pushed to contact with the magnetic cover plate 49, the first material pushing plate 47 and the magnetic cover plate 49 are attracted together, then the first material pushing plate 47 drives the magnetic cover plate 49 to move upwards through the second permanent magnet 471 so as not to seal the charging barrel 48, so that a small amount of residual extracting solution in the charging barrel 48 is communicated with the rotating bin 8, after the SOD wine is discharged outwards after stirring, the rotating bin 8 rotates reversely through the first motor 11, so that the first material pushing plate 47 can be driven to reset, the magnetic cover plate 49 is clamped on the charging barrel 48 through the second flange 492 to be separated from the second permanent magnet 471, and the charging barrel 48 is sealed again by the magnetic cover plate 49;

the second screw 70 is rotatable, but the rotation speed of the second screw 70 is different from that of the rotary bin 8, that is, the rotation speed of the second screw 70 is different from that of the hollow tube 50, the second rotating shaft 65 rotates along with the hollow tube 50, but the first rotating shaft 62 and the second screw 70 are fixed, so that the rotation speed of the first rotating shaft 62 is the same as that of the second screw 70, the first helical gear 63 drives the second helical gear 64 to rotate, the second helical gear 64 drives the second rotating shaft 65 to rotate, then the second rotating shaft 65 drives the stirring blade 67 to rotate through the sleeve 66, when the second screw 70 rotates reversely, the stirring blade 67 can be driven to rotate reversely, and the stirring blade 67 stirs and mixes the internal mixture;

the movement principle of the upper structure is the same as that of the lower structure, and is not explained.

It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

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