CN115820360B - White spirit preparation method and brewing system - Google Patents

Abstract

The invention provides a white spirit preparation method and a brewing system, and relates to the technical field of white spirit preparation, wherein the white spirit preparation method and the brewing system are characterized in that materials are added into a crushing mechanism for crushing; the crushed materials enter a feeding mechanism and are then sent into a fermentation tank for fermentation treatment; the power mechanism drives the extrusion bottom plate to rise, and the extrusion bottom plate is matched with the cover plate to extrude the materials on the extrusion bottom plate. The invention has the beneficial effects that: extrusion bottom plate and apron cooperation extrude the material on the extrusion bottom plate, and liquid is discharged into the liquid reserve tank through the filter, and the movable strip corresponds with the slot on the movable block, then the elastic component drives the movable block and removes, in pushing it into the slot, and remove the in-process, extrude the lug into, break away from the recess for the scraper blade is connected with the movable block, and the scraper blade scrapes the residue on the extrusion bottom plate to the collecting box in, and the extrusion can accelerate the filtration to liquid, can clear up the residue simultaneously, uses manpower sparingly, has improved work efficiency.

Description

White spirit preparation method and brewing system

Technical Field

The invention relates to the technical field of white spirit preparation, in particular to a white spirit preparation method and a brewing system.

Background

The distilled spirit is prepared by using cereal as main material, daqu, xiaoqu or bran koji and yeast as saccharification starter, and through steaming, saccharification, fermentation and distillation, and features colorless and transparent spirit quality, fragrant and pure smell, soft and sweet taste, high alcohol content, and compound fragrance of esters as main body. The prior art generally adopts standing precipitation, distillation or stirring to treat residues in white spirit.

The filtering method adopted in the traditional white spirit production process generally comprises the steps of standing for precipitation, filtering for a long time, cleaning out residues after fermentation, cleaning out liquid on the residues again, and filtering out the liquid on the residues.

Disclosure of Invention

The invention aims to provide a white spirit preparation method and a brewing system, and aims to solve the problems of complicated steps, long time consumption and low working efficiency in the prior art for filtering white spirit from residues in a fermentation tank.

In order to achieve the above purpose, the invention adopts the following technical scheme: the white spirit preparation method and the brewing system are characterized in that materials are added into a crushing mechanism for crushing;

the crushed materials enter a feeding mechanism and are then sent into a fermentation tank for fermentation treatment;

the power mechanism drives the extrusion bottom plate to rise, the extrusion bottom plate is matched with the cover plate to extrude the material on the extrusion bottom plate, and the liquid is discharged through the filter plate;

the scraping plate is connected with the moving part of the power mechanism in a butt joint way and is separated from the extrusion bottom plate, and the power mechanism continuously drives the scraping plate to move so as to clean residues;

the scraping plate is reset and separated from the power mechanism, is connected with the extrusion bottom plate again, and then the extrusion bottom plate descends to return to the original position.

According to a further technical scheme, the power mechanism comprises a lifting assembly for driving the extrusion bottom plate to extrude materials and a reciprocating assembly for driving the scraping plate to scrape residues on the extrusion bottom plate through the lifting assembly.

According to the further technical scheme, the extruding bottom plate is of an L-shaped structure and is in sealed sliding connection with the fermentation tank, a collecting box is arranged on one side of the fermentation tank, and a liquid storage tank is arranged on the fermentation tank at a position corresponding to the filter plate.

According to the further technical scheme, an accommodating groove is formed in the position, close to the bottom, of the extrusion bottom plate, the scraping plate is arranged in the accommodating groove, a telescopic lug is arranged on the extrusion bottom plate, a moving strip is slidably arranged on the scraping plate, an elastic piece pushing the moving strip out of the moving strip is arranged at one end of the moving strip, and a groove capable of being inserted into the scraping plate by the lug to position the scraping plate is formed in the moving strip.

According to a further technical scheme, the lifting assembly comprises a first motor and a toothed plate which are arranged on an extrusion bottom plate, a driving gear is arranged at the output end of the first motor, a transmission gear meshed with the toothed plate is connected to the driving gear in a meshed mode, a ratchet mechanism is arranged at the position, close to the upper end, of the toothed plate, a mounting column is arranged on the transmission gear, and a first side gear is arranged on the mounting column.

According to a further technical scheme, the reciprocating assembly comprises a reciprocating screw rod rotatably arranged on the fermentation box, a first gear is arranged at one end of the reciprocating screw rod, a power conversion mechanism which transmits power to the first gear when the lifting assembly moves to a high position is meshed with the first gear, a moving block which is connected with the fermentation box in a sliding mode is connected to the reciprocating screw rod in a threaded mode, a slot matched with the moving strip is formed in the moving block, and the scraping plate can be driven to move when the moving strip is located in the slot.

The fermentation box is characterized in that the fermentation box is provided with side plates which are connected with the fermentation box in a sliding mode, one side of each side plate is provided with a tooth groove frame, lifting gears are meshed with the tooth groove frames, connecting columns are connected to the lifting gears, second-side gears are mounted on the connecting columns, mounting plates are arranged on the connecting columns, horizontal gears meshed with the second-side gears are arranged on the mounting plates, the horizontal gears are meshed with the first-side gears, and a separating mechanism which is separated from the horizontal gears when the transmission gears move to a high position is arranged on the extrusion bottom plate.

According to a further technical scheme, the separating mechanism comprises an adjusting block which is telescopically arranged on the extrusion bottom plate, a clutch frame is arranged on the adjusting block, a notch is arranged on the clutch frame, the mounting plate is positioned in the notch, and the toothed plate is provided with a boss which extrudes the adjusting block to enable the clutch frame to be separated from the mounting plate.

According to the further technical scheme, one end of the reciprocating screw rod is provided with an opening and closing mechanism for opening and closing the cover plate in the process of keeping the reciprocating screw rod to rotate in the same direction.

According to a further technical scheme, the opening and closing mechanism comprises a symmetrical gear set arranged at one end of a reciprocating screw, a first gear is meshed with one side tooth of the symmetrical gear set, a movable gear is connected to the first gear, a second gear is meshed with the movable gear, a pulling rack for pulling the movable gear to move is connected to the movable gear, a pull rod is connected to a moving block, a transmission gear set for enabling the pull rod to pull the pulling rack to move in the moving process of the moving block is arranged on the pull rod, a rack is arranged on a fermentation box, a connecting rod assembly arranged on the fermentation box is connected to the second gear, a turning frame is connected to a cover plate through a rotating shaft, a vertical groove is formed in the fermentation box, an arc-shaped turning groove is communicated with the fermentation box, the rotating shaft can move along the vertical groove and then enters the turning groove, and the cover plate is enabled to turn.

The beneficial effects of the invention are as follows:

1. according to the white spirit preparation method and the brewing system, the first motor drives the driving gear to rotate, the driving gear is driven to rotate, the extruding bottom plate is driven to rise along the toothed plate, the extruding bottom plate is matched with the cover plate to extrude materials on the extruding bottom plate, liquid is discharged into the liquid storage tank through the filter plate, the driving gear keeps rotating in situ under the action of the ratchet mechanism, but cannot rise, the driving gear is matched with the power conversion mechanism to drive the reciprocating screw to rotate, when the extruding bottom plate moves to the highest position, the moving bar corresponds to the slot on the moving block, then the elastic piece drives the moving block to move, the moving block is pushed into the slot, in the moving process, the protruding block is extruded into and separated from the groove, the scraping plate is connected with the moving block, the reciprocating screw drives the moving block to reciprocate, the scraping plate scrapes residues on the extruding bottom plate into the collecting tank, the filtering of the liquid can be quickened, meanwhile, the residues can be cleaned, the labor is saved, and the working efficiency is improved.

2. According to the white spirit preparation method and the brewing system, all actions are realized by one power source, and complex sensors are not needed for detection, so that the cost is reduced, and faults are not easy to occur.

Drawings

Fig. 1 is a perspective view of an embodiment of the present invention.

Fig. 2 is a first structural schematic diagram of an embodiment of the present invention.

Fig. 3 is a second structural schematic diagram of an embodiment of the present invention.

Fig. 4 is a third structural schematic diagram of an embodiment of the present invention.

Fig. 5 is a fourth structural schematic diagram of an embodiment of the present invention.

Fig. 6 is a schematic structural view of a toothed plate according to an embodiment of the present invention.

Fig. 7 is a schematic view of the structure of a flight according to an embodiment of the present invention.

Fig. 8 is a cross-sectional view of a flight of an embodiment of the present invention.

Fig. 9 is a cross-sectional view of an embodiment of the present invention.

Fig. 10 is a schematic structural view of an opening and closing mechanism according to an embodiment of the present invention.

FIG. 11 is a schematic diagram of a symmetrical gearset according to an embodiment of the invention.

In the figure: 1. a crushing box; 101. a crushing shaft; 102. a power source; 2. feeding pipes; 201. a feeding motor; 3. a fermentation tank; 4. a motor I; 5. a toothed plate; 6. a reciprocating screw; 7. a scraper; 8. a tooth slot frame; 301. extruding the bottom plate; 302. a side plate; 303. a cover plate; 304. a filter plate; 305. a liquid storage tank; 306. a collection box; 401. a drive gear; 402. a transmission gear; 403. a mounting column; 404. a first side gear; 501. a ratchet mechanism; 601. a first gear; 602. a moving block; 603. a power conversion mechanism; 701. moving the bar; 702. an elastic member; 703. a groove; 704. a bump; 801. a lifting gear; 802. a connecting column; 803. a second side gear; 804. a mounting plate; 805. a horizontal gear; 901. an adjusting block; 902. a boss; 903. a clutch frame; 110. a symmetrical gear set; 1101. a first gear; 111. a movable gear; 112. a second gear; 113. pulling the rack; 114. a pull rod; 115. a drive gear set; 116. a rack; 121. a connecting rod assembly; 122. and a roll-over stand.

Detailed Description

The following describes the embodiments of the present invention further with reference to the drawings.

1-9, a white spirit preparation method and a brewing system are disclosed, wherein materials are added into a crushing mechanism for crushing; the power source 102 drives the crushing shaft 101 to rotate through the transmission mechanism so as to crush materials, the crushed materials enter the feeding mechanism, the feeding pipe 2 is of an L-shaped structure, the transverse pipe and the vertical pipe are internally provided with spiral feeding shafts, the transmission mechanism drives the spiral feeding shafts in the transverse pipe to rotate, and the feeding motor drives the spiral feeding shafts in the vertical pipe to rotate and then are sent into the fermentation tank 3 for fermentation treatment; the power mechanism drives the extrusion bottom plate 301 to rise, the material on the extrusion bottom plate 301 is extruded by being matched with the cover plate 303, and liquid is discharged through the filter plate 304; the filter plate 304 is made of macroporous resin and active carbon, the scraping plate 7 is connected with the moving part of the power mechanism in a butt joint way, the scraping plate is separated from the extrusion bottom plate 301, and the power mechanism continuously drives the scraping plate 7 to move to clean residues; the scraper 7 is reset, is separated from the power mechanism, is connected with the extrusion bottom plate 301 again, and then the extrusion bottom plate 301 descends to return to the original position.

In this embodiment, the first motor 4 drives the driving gear 401 to rotate, and then drives the driving gear 402 to rotate, so that the extruding bottom plate 301 is driven to rise along the toothed plate 5, the extruding bottom plate 301 and the cover plate 303 cooperate to extrude the material on the extruding bottom plate 301, the liquid is discharged into the liquid storage tank 305 through the filter plate 304, the liquid is acted by the ratchet mechanism 501 at this time, the driving gear 402 keeps rotating in situ, but cannot rise, and cooperates with the power conversion mechanism 603 to drive the reciprocating screw 6 to rotate, when the extruding bottom plate 301 moves to the highest position, the moving bar 701 corresponds to a slot on the moving block 602, then the elastic piece 702 drives the moving block 602 to move, the moving block 602 is pushed into the slot, and in the moving process, the protruding block 704 is extruded into and is separated from the groove 703, so that the scraper 7 is connected with the moving block 602, the reciprocating screw 6 drives the moving block 602 to reciprocate, and the scraper 7 scrapes residues on the extruding bottom plate 301 into the collecting tank 306.

In another embodiment of the invention, the power mechanism comprises a lifting assembly for driving the extrusion bottom plate 301 to extrude materials and a reciprocating assembly for driving the scraping plate 7 to scrape residues on the extrusion bottom plate 301 through the lifting assembly.

Specifically, as shown in fig. 5 and 7, the extrusion bottom plate 301 has an L-shaped structure, and is in sealed sliding connection with the fermentation tank 3, a collecting box 306 is arranged on one side of the fermentation tank 3, and a liquid storage tank 305 is arranged on the fermentation tank 3 at a position corresponding to the filter plate 304; the liquid storage tank 305 is provided with a plurality of liquid discharge valves.

Further, as shown in fig. 7 and 8, a receiving groove is formed in the bottom of the extrusion bottom plate 301, a scraper 7 is installed in the receiving groove, a telescopic bump 704 is installed on the extrusion bottom plate 301, a spring is arranged at the upper end of the bump 704, the lower end of the bump is of a semicircular structure, a moving bar 701 is slidably installed on the scraper 7, an elastic piece 702 pushing the moving bar 701 out is installed at one end of the moving bar 701, the elastic piece 702 is a spring, and a groove 703 capable of being inserted into the bump 704 to position the scraper 7 is formed in the moving bar 701; after the scraping plate 7 finishes scraping and resetting, when the extrusion bottom plate 301 descends, one end of the moving bar 701 is of an arc-shaped structure and is stressed to leave from the slot on the 602 and retract into the scraping plate 7, and meanwhile, the protruding block 704 is clamped into the groove 703, so that the scraping plate 7 is fixed on the extrusion bottom plate 301.

Preferably, as shown in fig. 2-6, the lifting assembly comprises a first motor 4 and a toothed plate 5 which are installed on the extrusion bottom plate 301, a driving gear 401 is installed at the output end of the first motor 4, a transmission gear 402 meshed with the toothed plate 5 is connected to the driving gear 401 in a meshed manner, a ratchet mechanism 501 is installed at the position, close to the upper end, of the toothed plate 5, a mounting column 403 is installed on the transmission gear 402, and a first side gear 404 is installed on the mounting column 403.

Specifically, as shown in fig. 5 and 7, the reciprocating assembly comprises a reciprocating screw rod 6 rotatably installed on the fermentation tank 3, a first gear 601 is installed at one end of the reciprocating screw rod 6, a power conversion mechanism 603 for transmitting power to the first gear 601 when the lifting assembly moves to a high position is meshed with the first gear 601, a moving block 602 in sliding connection with the fermentation tank 3 is screwed on the reciprocating screw rod 6, a slot matched with the moving bar 701 is formed in the moving block 602, and the scraping plate 7 can be driven to move when the moving bar 701 is positioned in the slot; the power conversion mechanism 603 is a gear and transmission wheel structure, and transmits the power of the first-side gear 404 to the first-side gear 601.

Further, as shown in fig. 2, 3, 4 and 9, the fermentation tank 3 is provided with a side plate 302 which is connected with the fermentation tank in a sliding way, one side of the side plate 302 is provided with a tooth slot frame 8, a lifting gear 801 is meshed with the tooth slot frame 8, a connecting column 802 is connected with the lifting gear 801, a second side gear 803 is installed on the connecting column 802, a mounting plate 804 is arranged on the connecting column 802, a horizontal gear 805 meshed with the second side gear 803 is arranged on the mounting plate 804, the horizontal gear 805 is meshed with the first side gear 404, and a separating mechanism which is separated from the horizontal gear 805 when the transmission gear 402 moves to a high position is arranged on the extrusion bottom plate 301; when in use, the utility model is characterized in that: the first side gear 404 drives the second side gear 803 to rotate through the horizontal gear 805, so as to drive the lifting gear 801 to rotate, further drive the tooth slot frame 8 to descend, drive the side plates 302 on two sides to move downwards simultaneously, connect the side plates 302 with the cover plate 303, accelerate extrusion of materials, improve working efficiency, keep the first side gear 404 on the lifting assembly in a continuous rotation state, and keep driving the side plates 302 to descend while avoiding driving the reciprocating assembly to move, so that the horizontal gear 805 and the first side gear 404 can be separated in time through the separating mechanism.

Preferably, as shown in fig. 4 and 9, the separating mechanism comprises an adjusting block 901 which is telescopically installed on the extrusion bottom plate 301, the adjusting block 901 is fixed on the extrusion bottom plate 301 through a sliding rod and a spring, a clutch frame 903 is arranged on the adjusting block 901, a notch is arranged on the clutch frame 903, a mounting plate 804 is positioned in the notch, and a lug boss 902 which is used for extruding the adjusting block 901 to enable the clutch frame 903 to be separated from the mounting plate 804 is arranged on the toothed plate 5; when in use, the utility model is characterized in that: when the adjusting block 901 rises, it hits the boss 902 and is pressed backward, at this time, the clutch frame 903 is separated from the mounting plate 804, and further, the transmission to the horizontal gear 805 is stopped, and when it descends, the clutch frame 903 is in re-butt joint with the mounting plate 804, and the transmission is performed.

Preferably, one end of the reciprocating screw 6 is provided with an opening and closing mechanism for opening and closing the cover 303 during the same rotation.

Preferably, as shown in fig. 2, 7, 10 and 11, the opening and closing mechanism comprises a symmetrical gear set 110 installed at one end of the reciprocating screw 6, a first gear 1101 is engaged with one side tooth of the symmetrical gear set 110, a movable gear 111 is connected to the first gear 1101, a second gear 112 is engaged with the movable gear 111, a pulling rack 113 for pulling the movable gear 111 to move is connected to the movable gear 111, a pull rod 114 is connected to a moving block 602, a driving gear set 115 for enabling the pull rod 114 to pull the pulling rack 113 to move is arranged on the pull rod 114 in the moving process of the moving block 602, the driving gear set 115 is a plurality of groups of gears engaged with each other, so that the pull rod 114 can accurately open and close the cover plate 303 in the moving process, a rack 116 is arranged on the fermenting case 3, a connecting rod assembly 121 installed on the fermenting case 3 is connected to the second gear 112, a turnover frame 122 is connected to the cover plate 303 through a rotating shaft, a vertical groove is formed in the fermenting case 3, an arc-shaped turnover groove is communicated to the rotating shaft can move along the vertical groove, and then enters the turnover groove 303 to turn over the cover plate 303; when in use, the utility model is characterized in that: the movable block 602 drives the pull rod 114 to move, the transmission gear set 115 is meshed with the rack 116 above, and then drives the pull rack 113 below to move, so that a first gear 1101 at one end of the pull rack 113 is meshed with teeth at one side of the symmetrical gear set 110, the reciprocating screw 6 continuously drives the symmetrical gear set 110 to rotate along one direction, and then drives the movable gear 111 to rotate with a second gear 112, the second gear 112 drives the connecting rod assembly 121 to rotate, the vertical groove and the arc-shaped turnover groove communicated with the vertical groove can enable the cover plate 303 to finish the actions of lifting and then turning open, the inner side of the device is convenient to clean, otherwise, the transmission gear set 115 drives the movable gear 111 to be meshed with teeth at the other side of the symmetrical gear set 110, and when the symmetrical gear set 110 rotates along one direction, the movable gear 111 rotates in the opposite direction, so that the cover plate 303 is closed.

In the description of the present invention, unless explicitly stated and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (5)

1. A white spirit making wine system, its characterized in that: the method comprises the following steps:

adding the materials into a crushing mechanism for crushing;

the crushed materials enter a feeding mechanism and are then sent into a fermentation tank (3) for fermentation treatment;

the power mechanism drives the extrusion bottom plate (301) to rise, the extrusion bottom plate (301) is matched with the cover plate (303) to extrude materials on the extrusion bottom plate (301), and liquid is discharged through the filter plate (304);

the scraping plate (7) is connected with the moving part of the power mechanism in a butt joint way and is separated from the extrusion bottom plate (301), and the power mechanism continuously drives the scraping plate (7) to move so as to clean residues;

the scraping plate (7) is reset and separated from the power mechanism, is connected with the extrusion bottom plate (301) again, and then the extrusion bottom plate (301) descends to return to the original position;

the power mechanism comprises a lifting assembly for driving the extrusion bottom plate (301) to extrude materials and a reciprocating assembly for driving the scraping plate (7) to scrape residues on the extrusion bottom plate (301) through the lifting assembly;

the extruding bottom plate (301) is of an L-shaped structure, is in sealing sliding connection with the fermentation tank (3), a collecting box (306) is arranged on one side of the fermentation tank (3), and a liquid storage tank (305) is arranged on the fermentation tank (3) at a position corresponding to the filter plate (304);

the extrusion bottom plate (301) is provided with an accommodating groove near the bottom, the scraping plate (7) is arranged in the accommodating groove, the extrusion bottom plate (301) is provided with a telescopic lug (704), the scraping plate (7) is provided with a moving bar (701) in a sliding manner, one end of the moving bar (701) is provided with an elastic piece (702) pushing the moving bar out of the moving bar, and the moving bar (701) is provided with a groove (703) which can be inserted into the lug (704) to position the scraping plate (7);

the lifting assembly comprises a first motor (4) and a toothed plate (5) which are arranged on the extrusion bottom plate (301), a driving gear (401) is arranged at the output end of the first motor (4), a transmission gear (402) meshed with the toothed plate (5) is connected to the driving gear (401) in a meshed manner, a ratchet mechanism (501) is arranged at the position, close to the upper end, of the toothed plate (5), a mounting column (403) is arranged on the transmission gear (402), and a first side gear (404) is arranged on the mounting column (403);

the reciprocating assembly comprises a reciprocating screw (6) which is rotatably arranged on the fermentation tank (3), a gear (601) is arranged at one end of the reciprocating screw (6), a power conversion mechanism (603) which transmits power to the gear (601) when the lifting assembly moves to a high position is meshed with the gear (601), a moving block (602) which is slidably connected with the fermentation tank (3) is connected to the reciprocating screw (6) in a threaded manner, a slot matched with the moving strip (701) is formed in the moving block (602), and the scraper (7) can be driven to move when the moving strip (701) is positioned in the slot.

2. The white spirit brewing system of claim 1, wherein: the fermentation tank is characterized in that side plates (302) which are connected with the fermentation tank in a sliding mode are arranged on the fermentation tank (3) front and back, a tooth groove frame (8) is arranged on one side of each side plate (302), lifting gears (801) are meshed on the tooth groove frame (8), connecting columns (802) are connected to the lifting gears (801), second-number side gears (803) are arranged on the connecting columns (802), mounting plates (804) are arranged on the mounting plates (804), horizontal gears (805) meshed with the second-number side gears (803) are arranged on the mounting plates (804), the horizontal gears (805) are meshed with the first-number side gears (404), and a separating mechanism which is separated from the horizontal gears (805) when the transmission gears (402) move to a high position is arranged on the extrusion bottom plate (301).

3. The white spirit brewing system of claim 2, wherein: the separating mechanism comprises an adjusting block (901) which is telescopically arranged on the extrusion bottom plate (301), a clutch frame (903) is arranged on the adjusting block (901), a notch is arranged on the clutch frame (903), the mounting plate (804) is positioned in the notch, and a lug boss (902) which extrudes the adjusting block (901) and enables the clutch frame (903) to be separated from the mounting plate (804) is arranged on the toothed plate (5).

4. A white spirit brewing system according to claim 3, wherein one end of the reciprocating screw (6) is provided with an opening and closing mechanism for opening and closing the cover plate (303) in the process of keeping the reciprocating screw rotating in the same direction.

5. The white spirit brewing system of claim 4, wherein: the opening and closing mechanism comprises a symmetrical gear set (110) arranged at one end of a reciprocating screw (6), a first gear (1101) is meshed with one side gear of the symmetrical gear set (110), a movable gear (111) is connected to the first gear (1101), a second gear (112) is meshed with the movable gear (111), a pulling rack (113) for pulling the movable gear (111) to move is connected to the movable gear (111), a pull rod (114) is connected to a moving block (602), a driving gear set (115) for enabling the pull rod (114) to pull the pulling rack (113) to move is arranged on the pull rod (114) in the moving process, a rack (116) is arranged on a fermentation box (3), a connecting rod assembly (121) arranged on the fermentation box (3) is connected to the second gear (112), a turnover frame (122) is connected to a cover plate (303) through a rotating shaft, an arc-shaped turnover groove is formed in the fermentation box (3), and the arc-shaped turnover groove can be communicated with the turnover frame and can move along the vertical groove and then enter the turnover groove to enable the rotating shaft to enter the turnover box (303).