1. The utility model provides a fermentation engineering sterilization apparatus, includes fermentation box mechanism (1), sterilization box mechanism (2), cooperation baffle mechanism (3), rocks device (4), reciprocal agitating unit (5), intermittent type mechanism (6), microorganism hold device (7) and stack and break up device (8), its characterized in that: degerming case mechanism (2) connect in fermenting case mechanism (1), cooperation baffle mechanism (3) is connected in fermenting case mechanism (1), fermenting case mechanism (1) is connected on rocking device (4), reciprocal agitating unit (5) are connected on fermenting case mechanism (1), intermittent type mechanism (6) is connected on reciprocal agitating unit (5), the microorganism holds device (7) and connects on reciprocal agitating unit (5), stack and break up device (8) and connect on fermenting case mechanism (1).

2. The fermentation engineering sterilization device according to claim 1, characterized in that: the fermentation box mechanism (1) comprises a fermentation box body (101), an L-shaped baffle plate (102), a feeding hole (103), a first air cylinder (104), a rotating column (105), a scraping plate (106), a sliding groove I (107), a spring I (108), a sliding groove II (109), a sliding groove III (110) and a sensing baffle plate (111), wherein the L-shaped baffle plate (102) is positioned inside the fermentation box body (101), the feeding hole (103) is positioned in the middle of the front end of the fermentation box body (101), a seat is fixed at the upper end of the first air cylinder (104), the seat at the upper end of the first air cylinder (104) is connected to the right end of the fermentation box body (101) in a sliding mode, the left end of the fermentation box body (101) is connected to the rotating column (105) in a rotating mode, a nut is used at the rear end of the rotating column (105) to limit the fermentation box body (101), the scraping plate (106) is positioned above the L-shaped baffle plate (102), the sliding groove I (107) is positioned at the front end of the upper side inside the fermentation box body (101), scraper blade (106) front end sliding connection is in I (107) of spout, spring I (108) left end fixed connection is in I (107) left end of spout, spring I (108) right-hand member fixed connection is in scraper blade (106) left side, spout II (109) are located L type baffle (102) upside, spout III (110) are located fermentation box (101) inside right side front end, both ends around two sensing baffle (111) fixed connection are respectively in L type baffle (102) right side, L type baffle (102) upper end is equipped with a plurality of through-holes.

3. The fermentation engineering sterilization device according to claim 2, characterized in that: degerming case mechanism (2) include second cylinder (201), sterilization box (202) and spout IV (203), sterilization box (202) fixed connection is in second cylinder (201) upper end, two spouts IV (203) are located sterilization box (202) left end front and back both sides respectively, sterilization box (202) front end is equipped with the slide, sterilization box (202) pass through slide sliding connection in spout III (110).

4. The fermentation engineering sterilization apparatus according to claim 3, characterized in that: cooperation baffle mechanism (3) including sheltering from dog (301), striker plate (302) and spring II (303), both ends around striker plate (302) are fixed respectively to two sheltering from dog (301), striker plate (302) right-hand member sliding connection is in two spout IV (203), spring II (303) upper end fixed connection is at striker plate (302) lower extreme, spring II (303) lower extreme fixed connection is at the inside lower extreme of fermentation box (101), two sheltering from dog (301) and lie in two sensing baffle (111) below respectively.

5. The fermentation engineering sterilization device according to claim 4, characterized in that: rocking device (4) including link I (401), first motor (402), eccentric wheel I (403), spout V (404) and slip post (405), first motor (402) fixed connection is in link I (401) left end, eccentric wheel I (403) fixed connection is on the output shaft of first motor (402), slip post (405) sliding connection is at link I (401) lower extreme, spout V (404) are located slip post (405) middle part, eccentric wheel I (403) sliding connection is in spout V (404), it is connected at slip post (405) front end to rotate post (105) lower extreme fixed connection, first cylinder (104) lower extreme fixed connection is at slip post (405) rear end.

6. The fermentation engineering sterilization device according to claim 5, characterized in that: reciprocating stirring device (5) including spliced pole (501), double-shaft motor (502) and stirring post (503), double-shaft motor (502) fixed connection is in spliced pole (501) left end, the equal fixed connection of a plurality of stirring posts (503) is on the output shaft of double-shaft motor (502) lower extreme, spout II (109) are passed through to the output shaft of double-shaft motor (502) lower extreme, spliced pole (501) right-hand member fixed connection is at scraper blade (106) left end.

7. The fermentation engineering sterilization device of claim 6, wherein: the intermittent mechanism (6) comprises an eccentric wheel II (601), a bacteria baffle plate (602) and a hinged plate (603), the right end of the hinged plate (603) is rotatably connected to the eccentric wheel II (601), the left end of the hinged plate (603) is rotatably connected to the bacteria baffle plate (602), and the eccentric wheel II (601) is fixedly connected to an output shaft at the upper end of the double-shaft motor (502).

8. The fermentation engineering sterilization device according to claim 7, characterized in that: microorganism hold device (7) including microorganism box (701), spout VI (702), inclined plane board (703), go out fungus mouth (704) and link II (705), microorganism box (701) fixed connection is in link II (705) front end, inclined plane board (703) are located the inside right-hand member of microorganism box (701), a plurality of fungus mouths (704) are located the inside left end of microorganism box (701), spout VI (702) are located microorganism box (701) lower extreme, keep off fungus board (602) sliding connection in spout VI (702), link II (705) fixed connection is at scraper blade (106) left end.

9. The fermentation engineering sterilization device according to claim 8, characterized in that: the stacking and scattering device (8) comprises a second motor (801) and scattering plates (802), the scattering plates (802) are fixedly connected to an output shaft of the second motor (801), and the second motor (801) is fixedly connected to the lower side of the left end of the L-shaped baffle (102).

10. The fermentation engineering sterilization device of claim 9, wherein: the slide way in the square sliding groove III (110) is trapezoidal in shape.

Background

The invention discloses a conveying, fermenting and sterilizing device for organic fertilizer production, which is disclosed by the patent number CN202010943314.0, and is used for solving the problems of low automation level and low production efficiency in use, and the technical scheme has the key points that: including the fermenting case, still include: a stirring assembly disposed within the fermentation tank; an aeration component used for aerating the fermentation box; the fixing box is fixed on one side of the fermentation box; a transfer assembly for transferring the material in the fermentation tank into the stationary tank; the ultraviolet sterilization component is used for sterilizing the materials in the fixed box; the ozone sterilization component is used for sterilizing the materials in the fixed box; a storage bin for storing material; and a toggle assembly for transferring the materials in the fixed box to the storage box, but the invention can not realize the purpose of adding microorganisms into the fermentation box and stirring all around while fermenting and sterilizing, and can not improve the fermentation effect while sterilizing.

Disclosure of Invention

The invention provides a fermentation engineering sterilization device which has the beneficial effects that microorganisms can be added into a fermentation box and all-round stirring can be carried out while fermentation sterilization is carried out, and the fermentation effect can be improved while sterilization is carried out.

The invention relates to the field of fermentation equipment, in particular to a fermentation engineering sterilization device, which comprises a fermentation box mechanism, a sterilization box mechanism, a matched baffle mechanism, a shaking device, a reciprocating stirring device, an intermittent mechanism, a microorganism containing device and a stacking and scattering device, and is characterized in that: degerming case mechanism connect in fermenting case mechanism, cooperation baffle mechanism connects in fermenting case mechanism, fermenting case mechanism connects on rocking the device, reciprocal agitating unit connects in fermenting case mechanism, intermittent type mechanism connects on reciprocal agitating unit, the microorganism holds the device connection on reciprocal agitating unit, stacks and breaks up the device and connect in fermenting case mechanism.

As a further optimization of the technical scheme, the sterilization device for the fermentation engineering comprises a fermentation box body, an L-shaped baffle plate, a feed inlet, a first air cylinder, a rotating column, a scraping plate, a sliding groove I, a spring I, a sliding groove II, a sliding groove III and a sensing baffle plate, wherein the L-shaped baffle plate is positioned in the fermentation box body, the feed inlet is positioned in the middle of the front end of the fermentation box body, a seat is fixed at the upper end of the first air cylinder, the seat at the upper end of the first air cylinder is connected to the right end of the fermentation box body in a sliding manner, the left end of the fermentation box body is connected to the rotating column in a rotating manner, the rear end of the rotating column is used for limiting the fermentation box body by using a nut, the scraping plate is positioned above the L-shaped baffle plate, the sliding groove I is positioned at the front end of the upper side in the fermentation box body, the front end of the scraping plate is connected in the sliding manner, the left end of the spring I is fixedly connected to the left end of the sliding groove I, the right end of the spring I is fixedly connected to the scraping plate, the sliding groove II is positioned on the upper side of the L-shaped baffle plate, spout III is located the inside right side front end of fermenting case, and both ends around two sensing baffles fixed connection are in L type baffle right side respectively, and L type baffle upper end is equipped with a plurality of through-holes.

As a further optimization of the technical scheme, the sterilization box mechanism of the sterilization device for the fermentation engineering comprises a second air cylinder, a sterilization box body and sliding chutes IV, wherein the sterilization box body is fixedly connected to the upper end of the second air cylinder, the two sliding chutes IV are respectively positioned on the front side and the rear side of the left end of the sterilization box body, sliding plates are arranged at the front end of the sterilization box body, and the sterilization box body is slidably connected in the sliding chutes III through the sliding plates.

As a further optimization of the technical scheme, the matched baffle plate mechanism of the fermentation engineering sterilization device comprises two baffle plates, a baffle plate and a spring II, wherein the two baffle plates are respectively fixed at the front end and the rear end of the baffle plate, the right end of the baffle plate is slidably connected in the two sliding grooves IV, the upper end of the spring II is fixedly connected at the lower end of the baffle plate, the lower end of the spring II is fixedly connected at the lower end in the fermentation box body, and the two baffle plates are respectively positioned below the two sensing baffle plates.

As a further optimization of the technical scheme, the shaking device of the fermentation engineering sterilization device comprises a connecting frame I, a first motor, an eccentric wheel I, a sliding groove V and a sliding column, wherein the first motor is fixedly connected to the left end of the connecting frame I, the eccentric wheel I is fixedly connected to an output shaft of the first motor, the sliding column is slidably connected to the lower end of the connecting frame I, the sliding groove V is located in the middle of the sliding column, the eccentric wheel I is slidably connected into the sliding groove V, the lower end of a rotating column is fixedly connected to the front end of the sliding column, and the lower end of a first air cylinder is fixedly connected to the rear end of the sliding column.

As a further optimization of the technical scheme, the reciprocating stirring device of the fermentation engineering sterilization device comprises a connecting column, a double-shaft motor and stirring columns, wherein the double-shaft motor is fixedly connected to the left end of the connecting column, a plurality of stirring columns are fixedly connected to an output shaft at the lower end of the double-shaft motor, the output shaft at the lower end of the double-shaft motor passes through a sliding groove II, and the right end of the connecting column is fixedly connected to the left end of a scraper.

As a further optimization of the technical scheme, the intermittent mechanism of the fermentation engineering sterilization device comprises an eccentric wheel II, a bacteria baffle plate and a hinged plate, wherein the right end of the hinged plate is rotatably connected to the eccentric wheel II, the left end of the hinged plate is rotatably connected to the bacteria baffle plate, and the eccentric wheel II is fixedly connected to an output shaft at the upper end of a double-shaft motor.

As a further optimization of the technical scheme, the microorganism containing device of the fermentation engineering sterilization device comprises a microorganism box body, a sliding groove VI, an inclined plane plate, a microorganism outlet and a connecting frame II, wherein the microorganism box body is fixedly connected to the front end of the connecting frame II, the inclined plane plate is located at the right end inside the microorganism box body, the microorganism outlet is located at the left end inside the microorganism box body, the sliding groove VI is located at the lower end of the microorganism box body, the microorganism baffle is connected in the sliding groove VI in a sliding mode, and the connecting frame II is fixedly connected to the left end of the scraper.

As a further optimization of the technical scheme, the stacking and scattering device of the fermentation engineering sterilization device comprises a second motor and scattering plates, wherein the scattering plates are fixedly connected to an output shaft of the second motor, and the second motor is fixedly connected to the lower side of the left end of the L-shaped baffle.

As a further optimization of the technical scheme, the shape of the slide way in the square chute III is trapezoidal.

The fermentation engineering sterilization device has the beneficial effects that:

the fermentation engineering sterilization device has the advantages that microorganisms can be added into the fermentation box and are stirred in all directions while fermentation and sterilization are carried out, the fermentation effect can be improved while sterilization is carried out, the whole device can be moved while sterilizing agents and the microorganisms are added into objects needing fermentation, the sterilizing agents and the microorganisms are added uniformly, and the fermentation and sterilization effects are improved.

Drawings

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

FIG. 1 is a schematic structural diagram of a sterilization apparatus for fermentation engineering according to the present invention.

FIG. 2 is a schematic structural view of a sterilization device in fermentation engineering in another direction.

FIG. 3 is a schematic structural view of a fermenter mechanism.

FIG. 4 is a schematic structural view of the sterilization box mechanism.

Fig. 5 is a schematic structural view of the cooperative barrier mechanism.

Fig. 6 is a schematic structural view of the shaking device.

FIG. 7 is a schematic structural view of a reciprocating stirring apparatus.

Fig. 8 is a schematic structural view of the intermittent mechanism.

FIG. 9 is a schematic view showing the structure of the microorganism-containing apparatus.

Fig. 10 is a schematic structural view of the stacking and scattering device.

In the figure: a fermentation box mechanism 1; a fermentation tank 101; an L-shaped baffle 102; a feed inlet 103; a first cylinder 104; a rotating post 105; a squeegee 106; a chute I107; a spring I108; a chute II 109; a chute III 110; a sensing baffle 111; a sterilization box mechanism 2; a second cylinder 201; a sterilization box 202; a chute IV 203; a shaking device 4; a connecting frame I401; a first motor 402; an eccentric wheel I403; a chute V404; a sliding post 405; a reciprocating stirring device 5; a connecting column 501; a dual-shaft motor 502; a stirring column 503; an intermittent mechanism 6; an eccentric wheel II 601; a bacteria baffle 602; a hinge plate 603; a microorganism housing means 7; a microorganism box 701; a chute VI 702; a bevel plate 703; a bacteria outlet 704; a connecting frame II 705; a stacking and scattering device 8; a second electric machine 801; a breakup plate 802.

Detailed Description

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, and 10, the present invention relates to the field of fermentation equipment, and more specifically to a sterilization device for fermentation engineering, which comprises a fermentation box mechanism 1, a sterilization box mechanism 2, a baffle mechanism 3, a shaking device 4, a reciprocating stirring device 5, an intermittent mechanism 6, a microorganism containing device 7, and a stacking and scattering device 8, and is characterized in that: degerming case mechanism 2 connect in fermenting case mechanism 1, cooperation baffle mechanism 3 connects in fermenting case mechanism 1, fermenting case mechanism 1 connects on rocking device 4, reciprocal agitating unit 5 connects on fermenting case mechanism 1, intermittent type mechanism 6 connects on reciprocal agitating unit 5, the microorganism holds device 7 and connects on reciprocal agitating unit 5, it connects on fermenting case mechanism 1 to stack scattering device 8, can add the microorganism and carry out all-round stirring in the fermenting case in the fermentation sterilization, can improve the fermentation effect in the sterilization, can make whole device motion when the object that germicide and microorganism added needs the fermentation, it is even to make germicide and microorganism add, the effect of fermentation and sterilization is improved.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, and 10, and the present embodiment further describes an embodiment, where the fermentation box mechanism 1 includes a fermentation box 101, an L-shaped baffle 102, a feed inlet 103, a first cylinder 104, a rotation column 105, a scraper 106, a chute i 107, a spring i 108, a chute ii 109, a chute iii 110, and a sensing baffle 111, the L-shaped baffle 102 is located inside the fermentation box 101, the feed inlet 103 is located in the middle of the front end of the fermentation box 101, a seat is fixed on the upper end of the first cylinder 104, the seat on the upper end of the first cylinder 104 is slidably connected to the right end of the fermentation box 101, the left end of the fermentation box 101 is rotatably connected to the rotation column 105, the rear end of the rotation column 105 is limited to the fermentation box 101 by a nut, the scraper 106 is located above the L-shaped baffle 102, the chute i 107 is located at the upper front end inside the fermentation box 101, the front end of the scraper 106 is slidably connected to the chute i 107, the left end of a spring I108 is fixedly connected to the left end of a sliding groove I107, the right end of the spring I108 is fixedly connected to the left side of a scraping plate 106, a sliding groove II 109 is located on the upper side of an L-shaped baffle plate 102, a sliding groove III 110 is located at the front end of the right side inside a fermentation box body 101, two sensing baffle plates 111 are respectively and fixedly connected to the front end and the rear end of the right side of the L-shaped baffle plate 102, a plurality of through holes are formed in the upper end of the L-shaped baffle plate 102, an article to be fermented is placed below the L-shaped baffle plate 102 through a feeding hole 103, the feeding hole 103 is covered with a cover plate, an infrared sensor is arranged in the sensing baffle plate 111, a sterilizing agent is added into a sterilizing box mechanism 2, the sterilizing box mechanism 2 moves upwards to enable a matching baffle plate mechanism 3 to be in contact with the sensing baffle plates 111 and shield the infrared sensor in the sensing baffle plate 111, so that, at this time, the scraper 106 slides towards the left end of the sliding groove I107 to compress the spring I108 due to the self gravity and the gravity of the sterilizing agent, so that the sterilizing agent falls into the L-shaped baffle 102 through the hole arranged at the upper end of the L-shaped baffle 102, the fermented products in the L-shaped baffle 102 are sterilized, then the first air cylinder 104 contracts, the scraper 106 slides rightwards again under the force given by the spring I108, and the sterilizing agent which is left above the L-shaped baffle 102 and does not fall into the L-shaped baffle 102 through the hole in the L-shaped baffle 102 can enter the L-shaped baffle 102.

The third concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, and 10, and the present embodiment further describes the first embodiment, the sterilization box mechanism 2 includes a second cylinder 201, a sterilization box 202, and a chute iv 203, the sterilization box 202 is fixedly connected to the upper end of the second cylinder 201, the two chutes iv 203 are respectively located at the front and rear sides of the left end of the sterilization box 202, a slide plate is arranged at the front end of the sterilization box 202, the sterilization box 202 is slidably connected to the chute iii 110 through the slide plate, a sterilization agent is added into the sterilization box 202, the cooperating baffle mechanism 3 is pressed against the uppermost end of the chute iv 203 so that the sterilization agent does not slide out of the sterilization box 202, the second cylinder 201 extends out to drive the sterilization box 202 to move upward, the cooperating baffle mechanism 3 is always pressed against the uppermost end of the chute iv 203, and stops when the cooperating baffle mechanism 3 encounters the shielding sensing baffle 111, because the sterilizing agent in the sterilizing box 202 slides out of the sterilizing box 202 and falls onto the L-shaped baffle plate 102 because the sterilizing agent is not shielded by the baffle plate mechanism 3 and the second cylinder 201 still extends out, the sterilizing agent falls into the L-shaped baffle plate 102 through the hole on the L-shaped baffle plate 102 for sterilization.

The fourth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, and 10, and the present embodiment further describes the first embodiment, the cooperating baffle mechanism 3 includes a baffle 301, a baffle 302, and a spring ii 303, the two baffle 301 respectively fix the front and rear ends of the baffle 302, the right end of the baffle 302 is slidably connected in the two chutes iv 203, the upper end of the spring ii 303 is fixedly connected to the lower end of the baffle 302, the lower end of the spring ii 303 is fixedly connected to the lower end of the fermentation box 101, the two baffle 301 are respectively located below the two sensing baffles 111, the second cylinder 201 ascends to drive the sterilization box 202 to ascend, the baffle 302 has an upward force under the action of the spring ii 303, so that the uppermost of the baffle 302 always abuts against the uppermost of the chute iv 203, when encountering the sensing baffle 111, the baffle 111 is shielded by the sensing baffle 111 to prevent the baffle 302 from ascending, the sterilizing agent in the sterilizing box 202 slides out of the sterilizing box 202 and falls on the L-shaped baffle plate 102, the sterilizing agent falls into the L-shaped baffle plate 102 through the hole on the L-shaped baffle plate 102 for sterilization, meanwhile, the blocking piece 301 blocks the infrared sensor in the sensing baffle 111 to enable the sensor in the sensing baffle 111 to send out a signal, the first cylinder 104 is lifted, the first cylinder 104 is lifted to enable the fermentation box body 101 to rotate a certain angle by taking the joint with the rotating column 105 as an axis, then the sterilizing agent in the sterilizing box mechanism 2 falls onto the L-shaped baffle plate 102, at this time, the scraper 106 slides to the left end of the sliding chute I107 due to the self-gravity and the gravity of the sterilizing agent to compress the spring I108, therefore, the sterilizing agent falls into the L-shaped baffle plate 102 through the hole arranged at the upper end of the L-shaped baffle plate 102, and the fermented products in the L-shaped baffle plate 102 are sterilized.

The fifth concrete implementation mode:

the embodiment will be further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, and 10, where the shaking device 4 includes a connecting frame i 401, a first motor 402, an eccentric wheel i 403, a chute v 404, and a sliding column 405, the first motor 402 is fixedly connected to the left end of the connecting frame i 401, the eccentric wheel i 403 is fixedly connected to the output shaft of the first motor 402, the sliding column 405 is slidably connected to the lower end of the connecting frame i 401, the chute v 404 is located in the middle of the sliding column 405, the eccentric wheel i 403 is slidably connected in the chute v 404, the lower end of the rotating column 105 is fixedly connected to the front end of the sliding column 405, the lower end of the first cylinder 104 is fixedly connected to the rear end of the sliding column 405, when the shielding block 301 shields the infrared sensor in the sensing baffle 111, the infrared sensor sends a signal to start the operation of the first motor 402, thereby drive eccentric wheel I403 and rotate, eccentric wheel I403 rotates and drives slip post 405 and slide around the spacing of link I401 and make fermenting case mechanism 1 slide to make the germicide can be even drop on spout II 109, make the germicide add evenly, reach better sterilization effect.

The sixth specific implementation mode:

the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, and 10, and the present embodiment further describes the first embodiment, the reciprocating stirring apparatus 5 includes a connection column 501, a dual-axis motor 502, and a stirring column 503, the dual-axis motor 502 is fixedly connected to the left end of the connection column 501, the multiple stirring columns 503 are all fixedly connected to the output shaft of the lower end of the dual-axis motor 502, the output shaft of the lower end of the dual-axis motor 502 passes through a chute ii 109, the right end of the connection column 501 is fixedly connected to the left end of the scraper 106, the infrared sensor sends a signal to rotate the dual-axis motor 502, the dual-axis motor 502 rotates to drive the stirring column 503 to rotate, the stirring column 503 rotates to stir the object to be fermented, when the scraper 106 moves leftwards, the reciprocating stirring apparatus 5 rotates to drive the intermittent mechanism 6 to allow the microorganisms to intermittently fall from the microorganism containing apparatus 7, after the microorganisms fall into the L-shaped baffle plate 102, the stirring column 503 rotates to stir the articles to be fermented and the microorganisms, so that the fermentation effect is improved, and when the scraper 106 moves rightwards, the sterilizing agent falling into the L-shaped baffle plate 102 and the articles to be fermented are stirred, so that the sterilization effect is improved.

The seventh embodiment:

the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, and 10, and the present embodiment further describes the first embodiment, where the intermittent mechanism 6 includes an eccentric wheel ii 601, a bacteria baffle 602, and a hinged plate 603, the right end of the hinged plate 603 is rotatably connected to the eccentric wheel ii 601, the left end of the hinged plate 603 is rotatably connected to the bacteria baffle 602, the eccentric wheel ii 601 is fixedly connected to an output shaft at the upper end of the dual-shaft motor 502, the dual-shaft motor 502 rotates to drive the eccentric wheel 601 to rotate, the eccentric wheel 601 rotates to drive the right end of the hinged plate 603 to rotate, and the right end of the hinged plate 603 rotates to drive the bacteria baffle 602 to slide in the microorganism containing device 7, so that microorganisms intermittently fall and stir, thereby achieving a better fermentation effect.

The specific implementation mode is eight:

the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, and 10, and the present embodiment further describes an embodiment, the microorganism containing device 7 includes a microorganism box 701, a chute vi 702, a slope plate 703, a bacteria outlet 704, and a connection frame ii 705, the microorganism box 701 is fixedly connected to the front end of the connection frame ii 705, the slope plate 703 is located at the right end inside the microorganism box 701, a plurality of bacteria outlet 704 are located at the left end inside the microorganism box 701, the chute vi 702 is located at the lower end of the microorganism box 701, the bacteria baffle 602 is slidably connected inside the chute vi 702, the connection frame ii 705 is fixedly connected to the left end of the scraper 106, microorganisms capable of improving fermentation effect are added into the microorganism box 701, since the slope plate 703 is an inclined plane, the microorganisms all slide on the left lower side of the microorganism box 701, the microorganisms intermittently drop from the bacteria outlet 704 to the upper side of the L-type baffle 102 as the bacteria baffle 602 slides back and forth in the chute vi 702, the microorganism enters the feed inlet 103 through the hole arranged on the L-shaped baffle plate 102, and the microorganism uniformly falls into the lower part of the L-shaped baffle plate 102 to improve the fermentation effect due to the stirring of the rotation of the stirring column 503.

The specific implementation method nine:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9 and 10, and the present embodiment will further describe the first embodiment, the stacking and scattering device 8 comprises a second motor 801 and scattering plates 802, the scattering plates 802 are all fixedly connected to an output shaft of the second motor 801, the second motor 801 is fixedly connected to the lower side of the left end of the L-shaped baffle plate 102, because the first cylinder 104 extends out to make the fermentation box 101 rotate a certain angle, the objects to be fermented in the L-shaped baffle plate 102 may slide to the left part of the L-shaped baffle plate 102, at this time, the second motor 801 rotates to drive the scattering plates 802 to rotate, so that the scatter plate 802 scatters the articles sliding down the left portion of the L-shaped baffle 102, after the first cylinder 104 is contracted, articles can be uniformly stained with sterilizing agents and microorganisms when moving rightwards, so that the effects of fermentation and sterilization are improved.

The detailed implementation mode is ten:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9 and 10, and the present embodiment will be further described with reference to the first embodiment, in which the slide rail in the square slide groove iii 110 has a trapezoidal shape to prevent leakage of the sterilizing agent caused by the sliding movement of the slide rail 202 due to its own weight when the protrusion 201 is extended.

The working principle of the sterilization device in the fermentation engineering is as follows: the object to be fermented is placed below the L-shaped baffle plate 102 through the feeding hole 103, then the feeding hole 103 is covered by the cover plate, the second air cylinder 201 extends out to drive the sterilization box body 202 to move upwards, the baffle plate 302 always has an upward force under the action of the spring II 303, so that the uppermost part of the baffle plate 302 is always propped against the uppermost part of the chute IV 203, when the sensing baffle plate 111 is met, the sensing baffle plate 111 is shielded to prevent the baffle plate 302 from rising along with the rising of the baffle plate 203, the sterilizing agent in the sterilization box body 202 slides out of the sterilization box body 202 and falls onto the L-shaped baffle plate 102, the sterilizing agent falls into the L-shaped baffle plate 102 through the hole on the L-shaped baffle plate 102 to be sterilized, meanwhile, the shielding block 301 shields an infrared sensor in the sensing baffle plate 111 to enable the sensor in the sensing baffle plate 111 to send a signal, the first air cylinder 104 rises to enable the fermentation box body 101 to rotate by taking the joint of the first air cylinder 104 and the rotating column 105 as an axis for a certain angle, then, the sterilizing agent in the sterilizing box mechanism 2 falls onto the L-shaped baffle plate 102, at the moment, the scraper 106 slides to the left end of the sliding groove I107 to compress the spring I108 due to the left and right under the gravity of the self gravity and the sterilizing agent, so that the sterilizing agent falls into the L-shaped baffle plate 102 through the hole formed in the upper end of the L-shaped baffle plate 102, and the fermented objects in the L-shaped baffle plate 102 are sterilized, when the shielding block 301 shields the infrared sensor in the sensing baffle plate 111, the infrared sensor sends a signal to enable the first motor 402 to start working, so as to drive the eccentric wheel I403 to rotate, the eccentric wheel I403 rotates to drive the sliding column 405 to slide back and forth under the limit of the connecting frame I401, so that the fermenting box mechanism 1 slides, so that the sterilizing agent can uniformly fall onto the sliding groove II 109, the sterilizing agent is uniformly added, a better sterilizing effect is achieved, the, the double-shaft motor 502 rotates to drive the stirring post 503 to rotate, the stirring post 503 rotates to stir the objects to be fermented, microorganisms capable of improving the fermentation effect are added into the microorganism box body 701, the microorganisms all slide on the lower left side of the microorganism box body 701 due to the inclined plane 703, the eccentric wheel 601 is driven to rotate by the double-shaft motor 502, the right end of the hinged plate 603 is driven to rotate by the eccentric wheel 601, the right end of the hinged plate 603 rotates to drive the bacteria baffle plate 602 to slide in the sliding groove VI 702 in a reciprocating manner to intermittently drop to the upper side of the L-shaped baffle plate 102 from the bacteria outlet 704, the microorganisms enter the feed inlet 103 through the holes arranged on the L-shaped baffle plate 102, the microorganisms are stirred by the rotation of the stirring post 503 to uniformly drop to the lower side of the L-shaped baffle plate 102 to improve the fermentation effect, the fermentation box body 101 rotates for a certain angle due to the extension of the first air cylinder 104, so that the objects to be fermented in the L-shaped baffle plate 102 possibly slide to the left side of the L-shaped baffle plate 102, at this moment, the second motor 801 rotates to drive the plurality of scattering plates 802 to rotate, so that the scattering plates 802 scatter the articles sliding to the left part of the L-shaped baffle plate 102, the articles can be uniformly stained with sterilizing agents and microorganisms when moving rightwards after the first air cylinder 104 contracts, the fermentation and sterilization effects are improved, then the first air cylinder 104 contracts the scraper 106 to slide rightwards again under the action of the force given by the spring I108, and the sterilizing agents which are left above the L-shaped baffle plate 102 and do not fall into the L-shaped baffle plate 102 through the holes in the L-shaped baffle plate 102 can enter the L-shaped baffle plate 102, and waste of the sterilizing agents generated in fermentation products is reduced.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.