阅读说明：本技术 一种生物饲料的充分混合定量排出装置 (Intensive mixing ration eduction gear of biological feed ) 是由 杈硅竟 边边 于 2020-06-18 设计创作，主要内容包括：本发明公开了一种生物饲料的充分混合定量排出装置,包括安装箱,所述安装箱内设有安装腔,所述安装腔内设有进料机构,所述进料机构包括固定安装在所述安装腔前端壁的混合箱,所述混合箱内设有混合腔,所述混合箱上端面内转动安装有套筒,所述套筒外侧端面固定安装有连接齿轮,所述混合箱上端面固定安装有位于所述套筒中心的进料口,并根据添加的原料的量进行驱动排出相应的益微生物菌种进行混合,并将其均匀混合,还能够避免益微生物菌种混入过多而造成资金浪费,且将混合后的益微生物菌种和原料进行定量排出。(The invention discloses a fully-mixed quantitative discharge device for biological feed, which comprises an installation box, wherein an installation cavity is arranged in the installation box, a feeding mechanism is arranged in the installation cavity, the feeding mechanism comprises a mixing box fixedly installed on the front end wall of the installation cavity, a mixing cavity is arranged in the mixing box, a sleeve is rotatably installed in the upper end surface of the mixing box, a connecting gear is fixedly installed on the end surface of the outer side of the sleeve, a feed inlet positioned in the center of the sleeve is fixedly installed on the upper end surface of the mixing box, corresponding beneficial microbial strains are driven to be discharged to be mixed according to the amount of added raw materials and are uniformly mixed, the waste of funds caused by excessive mixing of the beneficial microbial strains can be avoided, and the mixed beneficial microbial strains and the raw materials are quantitatively discharged.)

1. The utility model provides a biological feed's intensive mixing ration eduction gear, includes the install bin, its characterized in that: the mounting box is internally provided with a mounting cavity, the mounting cavity is internally provided with a feeding mechanism, the feeding mechanism comprises a mixing box fixedly mounted on the front end wall of the mounting cavity, the mixing box is internally provided with a mixing cavity, the upper end face of the mixing box is internally and rotatably provided with a sleeve, the outer end face of the sleeve is fixedly provided with a connecting gear, the upper end face of the mixing box is fixedly provided with a feed inlet positioned at the center of the sleeve, the left side and the right side of the inner end face of the sleeve are symmetrically and fixedly provided with storage boxes for loading beneficial microbial strains, the feed inlet is internally and slidably provided with inclined plane baffles connected to the storage boxes and internally provided with connecting membranes for connection and connecting ports, the inner end face and the outer end face of the feed inlet are internally and externally provided with connecting grooves, the inclined plane baffles are fixedly mounted on the inclined plane baffles and positioned, mixing mechanism in the installation cavity, be equipped with discharge mechanism in the installation cavity, discharge mechanism includes slidable mounting and is in bearing plate in the mixing box, under the bearing plate terminal surface with fixedly connected with bearing spring between the mixing cavity bottom end wall, slidable mounting has and is connected to in the mixing cavity left end wall the inclined plane piece in the installation cavity, fixed mounting has the fixed block on the inclined plane piece, the axis of rotation that is equipped with the torsional spring is installed to installation cavity front end wall internal rotation, in the axis of rotation fixed mounting with the rotor plate of inclined plane piece left end face butt, be equipped with in the rotor plate right-hand member face and keep away from the rotation groove of axis of rotation upside, sliding fit has in the rotation groove and is connected to be equipped with the plane baffle of connector in the mixing box up end in and.

2. The apparatus for discharging the mixed amount of biological feed as set forth in claim 1, wherein: the feeding mechanism further comprises a motor fixedly mounted on the rear end wall of the mounting cavity, the front end of the motor is in power connection with a driving shaft, a right belt pulley is fixedly mounted on the driving shaft, a transmission bevel gear four located on the front side of the right belt pulley is fixedly mounted on the driving shaft, a cam two located on the right side of the circle center and away from the center of a circle of the front end face of the transmission bevel gear is fixedly mounted on the driving shaft, a transmission shaft is rotatably mounted in the upper end wall of the mounting cavity, a transmission gear meshed with the connection gear is fixedly mounted on the transmission shaft, and a transmission bevel gear two located on the lower side of the transmission gear and meshed with the transmission bevel gear four is fixedly mounted on the transmission shaft.

3. The apparatus for discharging the mixed amount of biological feed as set forth in claim 1, wherein: the mixing mechanism comprises a driven shaft which is rotatably installed in the rear end wall of the installation cavity, a left belt pulley is fixedly installed on the driven shaft, a belt is connected between the left belt pulley and the right belt pulley, a transmission bevel gear III which is located on the front side of the left belt pulley is fixedly installed on the driven shaft, and a cam I which is located on the left side of the circle center and is provided with a lug is fixedly installed on the driven shaft and is far away from the front side and the front end face of the transmission bevel gear III.

4. The apparatus for discharging the mixed amount of biological feed as set forth in claim 1, wherein: mixing mechanism still includes slidable mounting and just is located in the right-hand member face about the mixing box shake movable plate two of bearing plate upside, shake two left end face fixed mounting of movable plate and be connected to the catch bar of T shape in the installation cavity is one, be equipped with in the catch bar one with the lug sliding fit's of terminal surface first before the cam promotes groove, slidable mounting has to be located about the mixing box shake movable plate one of two upsides of movable plate, shake movable plate one right-hand member face fixed mounting and be connected to the catch bar two of T shape in the installation cavity, be equipped with in the mixing cavity with the lug sliding fit's of terminal surface second promotes groove two before the cam.

5. The apparatus for discharging the mixed amount of biological feed as set forth in claim 1, wherein: the discharging mechanism is characterized in that the discharging mechanism is installed in the left end wall of the mixing cavity in a rotating mode and connected to a discharging shaft in the mounting cavity, a spiral plate located in the mixing cavity is fixedly installed on the discharging shaft, a spline sleeve located in the mounting cavity and rotationally installed with the fixed block is connected to the discharging shaft in a spline mode, and a discharging bevel gear II is fixedly installed on the spline sleeve.

6. The apparatus for discharging the mixed amount of biological feed as set forth in claim 1, wherein: the discharging mechanism further comprises a connecting shaft which is rotatably installed in the bottom end wall of the installation cavity, a first transmission bevel gear which is meshed with a third transmission bevel gear is fixedly installed on the connecting shaft, a discharging shaft which is located on the lower side of the first transmission bevel gear and can be meshed with a second discharging bevel gear is fixedly installed on the connecting shaft, a pushing shaft which is provided with a torsion spring is rotatably installed in the right end face of the mixing box, and a pushing plate is fixedly installed on the pushing shaft.

7. The apparatus for discharging the mixed amount of biological feed as set forth in claim 1, wherein: discharge mechanism still includes fixed mounting and is in the case of placing in the installation chamber bottom end wall, it places the chamber to place the incasement, place chamber right-hand member wall fixed mounting have the inclined plane and can control flexible and be equipped with the platform of placing of spring about and, it has the piece of placing that can stretch out and draw back from top to bottom and be equipped with the spring to place chamber bottom end wall internal fixation and install, place the platform with place and place three holding bucket on the piece, place bench face fixed mounting have with the rightmost side hold the board of placing of holding bucket butt, place board right-hand member face with place fixedly connected with and place the spring between the chamber right-hand member wall.

Technical Field

The invention relates to the related technical field of biological feed, in particular to a device for fully mixing and quantitatively discharging biological feed.

Background

The biological feed is prepared by adding beneficial microorganisms into the feed as an additive, can effectively improve the digestibility of animals and promote the growth of the animals, and the beneficial microorganism strains are not uniformly mixed with raw materials in the production process of the biological feed, so that part of the microorganisms of the animals are not sufficiently ingested in the feeding process. If the beneficial microbial strains are mixed too much, waste is easily caused, output funds are more, and the beneficial microbial strains are not quantitatively distributed after the mixing is finished, so that the subsequent processes need to waste time, and the efficiency is influenced.

Disclosure of Invention

Aiming at the technical defects, the invention provides a device for fully mixing and quantitatively discharging biological feed, which can overcome the defects.

The invention relates to a device for sufficiently mixing and quantitatively discharging biological feed, which comprises an installation box, wherein an installation cavity is arranged in the installation box, a feeding mechanism is arranged in the installation cavity, the feeding mechanism comprises a mixing box fixedly arranged on the front end wall of the installation cavity, a mixing cavity is arranged in the mixing box, a sleeve is rotatably arranged in the upper end surface of the mixing box, a connecting gear is fixedly arranged on the end surface of the outer side of the sleeve, a feed inlet positioned in the center of the sleeve is fixedly arranged on the upper end surface of the mixing box, storage boxes for loading beneficial microbial strains are fixedly arranged on the left side and the right side of the inner end surface of the sleeve symmetrically relative to the feed inlet, an inclined baffle plate which is connected to the interior of the storage box in an annular mode and is internally provided with a connecting membrane for connection and a connecting port is arranged in the feed inlet in a sliding mode, connecting grooves, a connecting baffle is fixedly connected between the end surface of the outer side of the connecting block and the end wall of the outer side of the connecting groove, the mounting cavity is internally provided with a mixing mechanism, the mounting cavity is internally provided with a discharge mechanism, the discharge mechanism comprises a bearing plate which is slidably arranged in the mixing box, a bearing spring is fixedly connected between the lower end surface of the bearing plate and the bottom end wall of the mixing cavity, an inclined plane block connected into the mounting cavity is arranged in the left end wall of the mixing cavity in a sliding manner, a fixed block is fixedly arranged on the inclined block, a rotating shaft provided with a torsional spring is rotatably arranged on the front end wall of the mounting cavity, a rotating plate which is abutted against the left end surface of the inclined surface block is fixedly arranged on the rotating shaft, a rotating groove which is far away from the upper side of the rotating shaft is arranged in the right end surface of the rotating plate, and a plane baffle connected to the inner side of the upper end face of the mixing box and internally provided with a connecting port is in sliding fit in the rotating groove.

Preferably, feed mechanism still includes fixed mounting and is in the motor of installation cavity rear end wall, motor front end power connection driving shaft, fixed mounting has right belt pulley on the driving shaft, still fixed mounting has the transmission bevel gear four that is located right belt pulley front side on the driving shaft, still fixed mounting has the cam two that is located the centre of a circle right side is kept away from to transmission bevel gear four front sides and front end face on the driving shaft, the transmission shaft is installed to the installation cavity upper end wall internal rotation, fixed mounting has on the transmission shaft with connecting gear engaged's drive gear, still fixed mounting has on the transmission shaft be located the drive gear downside and with drive bevel gear four engaged's drive bevel gear two.

Preferably, the mixing mechanism is installed including rotating the driven shaft in the installation cavity rear end wall, fixed mounting has the left belt pulley on the driven shaft, the left side belt pulley with be connected with the belt between the right belt pulley, still fixed mounting has to be located on the driven shaft the transmission bevel gear three of left side belt pulley front side, still fixed mounting has to be located on the driven shaft transmission bevel gear three front side and preceding terminal surface keep away from the cam one that centre of a circle left side was equipped with the lug.

Preferably, mixing mechanism still includes slidable mounting and is in the right-hand member face in the mixing box just is located the board two that trembles of bearing plate upside, tremble two left end face fixed mounting of board and be connected to the catch bar of T shape in the installation cavity is one, be equipped with in the catch bar one with the lug sliding fit's of terminal surface before the cam first promotion groove, slidable mounting has and is located about the mixing box in the terminal surface the board one that trembles of two upsides of board, one right end face fixed mounting of board that trembles is connected to the catch bar two of T shape in the installation cavity, be equipped with in the mixing cavity with the lug sliding fit's of terminal surface before the cam two promotion groove two.

Preferably, the discharge mechanism further comprises a discharge shaft rotatably installed in the left end wall of the mixing cavity and connected to the mounting cavity, a spiral plate located in the mixing cavity is fixedly installed on the discharge shaft, a spline sleeve located in the mounting cavity and rotatably installed with the fixed block is connected to the discharge shaft through a spline, and a discharge bevel gear II is fixedly installed on the spline sleeve.

Preferably, the discharge mechanism further comprises a connecting shaft rotatably mounted in the bottom end wall of the mounting cavity, a first transmission bevel gear meshed with the third transmission bevel gear is fixedly mounted on the connecting shaft, a discharge shaft which is located on the lower side of the first transmission bevel gear and can be meshed with the second discharge bevel gear is fixedly mounted on the connecting shaft, a pushing shaft provided with a torsion spring is rotatably mounted in the right end face of the mixing box, and a pushing plate is fixedly mounted on the pushing shaft.

Preferably, discharge mechanism still includes fixed mounting and is in the case of placing in the installation chamber bottom wall, it places the chamber to place the incasement, place chamber right-hand member wall fixed mounting have the inclined plane and can control flexible and be equipped with the platform of placing of spring about and, it has the piece of placing that can stretch out and draw back from top to bottom and be equipped with the spring to place chamber bottom wall internal fixed mounting, place the platform with place and place three holding bucket on the piece, place bench face fixed mounting have with the rightmost side the board of placing of holding bucket butt, place board right-hand member face with place fixedly connected with and place the spring between the chamber right-hand member wall.

The beneficial effects are that: according to the device, beneficial microbial strains to be mixed are added to the raw materials, the corresponding beneficial microbial strains are driven to be discharged and mixed according to the amount of the added raw materials, and are uniformly mixed, so that the beneficial microbial strains are prevented from being mixed too much to cause fund waste, the mixed beneficial microbial strains and the raw materials are quantitatively discharged, and the time waste and the efficiency influence caused by the subsequent processes are avoided.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic front view of a device for discharging bio-feed mixed and quantitatively;

FIG. 2 is a schematic structural diagram of A-A in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is an enlarged schematic view of the structure at B-B in FIG. 2 according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of C in fig. 1 according to an embodiment of the present invention.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-4, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention discloses a sufficient mixing and quantitative discharging device of biological feed, which comprises an installation box 10, wherein an installation cavity 11 is arranged in the installation box 10, a feeding mechanism 64 which can add raw materials to be mixed and promote equal beneficial microbial strains to be uniformly added is arranged in the installation cavity 11, the feeding mechanism 64 comprises a mixing box 22 fixedly arranged on the front end wall of the installation cavity 11, a mixing cavity 23 is arranged in the mixing box 22, a sleeve 26 is rotatably arranged in the upper end surface of the mixing box 22, a connecting gear 25 is fixedly arranged on the outer end surface of the sleeve 26, a feed inlet 28 positioned at the center of the sleeve 26 is fixedly arranged on the upper end surface of the mixing box 22, storage boxes 27 loaded with the beneficial microbial strains are symmetrically and fixedly arranged on the left and right sides of the inner end surface of the sleeve 26 relative to the feed inlet 28, and an inclined discharging box 27 connected to the storage boxes 27 in a sliding manner and internally provided with a connecting film in an annular manner A connecting groove 59 is arranged in the end face of the inner side and the outer side of the feed port 28, an annular connecting block 60 is fixedly arranged on the inclined baffle 29 and positioned in the connecting groove 59, a connecting baffle 61 is fixedly connected between the end face of the outer side of the connecting block 60 and the end wall of the outer side of the connecting groove 59, a mixing mechanism 65 which can fully shake beneficial microbial strains and raw materials to ensure the mixing effect is arranged in the installation cavity 11, a discharge mechanism 66 which can quantitatively discharge the mixed beneficial microbial strains and raw materials in batches is arranged in the installation cavity 11, the discharge mechanism 66 comprises a bearing plate 48 which is slidably arranged in the mixing box 22, a bearing spring 47 is fixedly connected between the lower end face of the bearing plate 48 and the end wall of the mixing cavity 23, and an inclined block 54 which is connected to the installation cavity 11 is slidably arranged on the left end wall of the mixing cavity 23, fixed mounting has fixed block 50 on the sloping piece 54, the axis of rotation 53 that is equipped with the torsional spring is installed to the wall internal rotation of installation cavity 11 front end, fixed mounting has on the axis of rotation 53 with the rotor plate 52 of sloping piece 54 left end face butt, be equipped with in the rotor plate 52 right-hand member face and keep away from the rotation groove 67 of axis of rotation 53 upside, sliding fit has in the rotation groove 67 and is connected to be equipped with the plane baffle 24 of connector in the mixing box 22 upper end face.

Beneficially, the feeding mechanism 64 further comprises a motor 58 fixedly installed on the rear end wall of the installation cavity 11, the front end of the motor 58 is in power connection with the driving shaft 35, a right belt pulley 57 is fixedly installed on the driving shaft 35, a transmission bevel gear four 63 located on the front side of the right belt pulley 57 is also fixedly installed on the driving shaft 35, a cam two 36 located on the front side of the transmission bevel gear four 63 and having a convex block on the right side of the front end surface away from the circle center is also fixedly installed on the driving shaft 35, a transmission shaft 30 is rotatably installed on the upper end wall of the installation cavity 11, a transmission gear 31 engaged with the connecting gear 25 is fixedly installed on the transmission shaft 30, a transmission bevel gear two 34 located on the lower side of the transmission gear 31 and engaged with the transmission bevel gear four 63 is also fixedly installed on the transmission shaft 30, and the driving shaft 35 is driven to be engaged with the transmission bevel gear two 34 through the transmission bevel, thereby causing the drive shaft 30 to rotate, causing the drive shaft 30 to drive through the mesh between the drive gear 31 and the connecting gear 25, thereby causing the socket 26 to rotate.

Advantageously, the mixing mechanism 65 includes a driven shaft 20 rotatably mounted in the rear end wall of the mounting cavity 11, a left belt pulley 55 is fixedly mounted on the driven shaft 20, a belt 56 is connected between the left belt pulley 55 and the right belt pulley 57, a drive bevel gear three 62 located in front of the left belt pulley 55 is also fixedly mounted on the driven shaft 20, and a cam one 19 located in front of the drive bevel gear three 62 and having a convex block on the left side of the front end surface away from the circle center is also fixedly mounted on the driven shaft 20, and the driving shaft 35 is caused to rotate by the rotation of the driving shaft 35, so that the driving shaft 35 is driven by the belt 56 between the left belt pulley 55 and the right belt pulley 57, and the driven shaft 20 is caused to rotate, and the cam one 19.

Beneficially, the mixing mechanism 65 further includes a second shaking plate 37 slidably mounted in the left and right end faces of the mixing box 22 and located on the upper side of the bearing plate 48, a first pushing rod 18 connected to the T-shaped inside the mounting cavity 11 is fixedly mounted on the left end face of the second shaking plate 37, a first pushing slot 17 slidably engaged with the protrusion on the front end face of the first cam 19 is disposed in the first pushing rod 18, a first shaking plate 21 located on the upper side of the second shaking plate 37 is slidably mounted on the left and right end faces of the mixing box 22, a second pushing rod 32 connected to the T-shaped inside the mounting cavity 11 is fixedly mounted on the right end face of the first shaking plate 21, a second pushing slot 33 slidably engaged with the protrusion on the front end face of the second cam 36 is disposed in the mixing cavity 23, the second cam 36 rotates to drive the protrusion on the front end face of the second cam 36 to rotate around the center of the circle, so as to, and moving the shaking plate I21 to the left, mixing and shaking beneficial microorganism strains and raw materials which are required to be mixed and fall on the shaking plate I21, and making the beneficial microorganism strains and the raw materials fall on the shaking plate II 37.

Advantageously, the discharging mechanism 66 further comprises a discharging shaft 14 rotatably mounted in the left end wall of the mixing chamber 23 and connected to the mounting chamber 11, a spiral plate 49 located in the mixing chamber 23 is fixedly mounted on the discharging shaft 14, a spline housing 51 located in the mounting chamber 11 and rotatably mounted with the fixed block 50 is splined on the discharging shaft 14, a discharging bevel gear two 15 is fixedly mounted on the spline housing 51, the bearing plate 48 is urged to move downwards under the elastic force of the bearing spring 47 by the mixed probiotic strains and raw materials loaded on the bearing plate 48, and the fixed block 50 is urged to move leftwards when the bearing plate 48 moves to abut against the inclined surface of the inclined surface block 54 and pushes the inclined surface block 54 to move leftwards.

Advantageously, the discharging mechanism 66 further comprises a connecting shaft 12 rotatably mounted in the bottom end wall of the mounting cavity 11, a first transmission bevel gear 16 engaged with the third transmission bevel gear 62 is fixedly mounted on the connecting shaft 12, a discharging shaft 14 located below the first transmission bevel gear 16 and capable of being engaged with the second discharging bevel gear 15 is fixedly mounted on the connecting shaft 12, a pushing shaft 38 equipped with a torsion spring is rotatably mounted in the right end face of the mixing box 22, a pushing plate 39 is fixedly mounted on the pushing shaft 38, and the connecting shaft 12 is driven by the engagement between the first discharging bevel gear 13 and the second discharging bevel gear 15 through the leftward movement of the fixing block 50, so that the discharging shaft 14 is rotated, and the spiral plate 49 is driven to spirally rotate to push out the mixed beneficial seeds and raw materials to the right.

Beneficially, the discharging mechanism 66 further comprises a placing box 45 fixedly installed in the bottom end wall of the installation cavity 11, a placing cavity 46 is installed in the placing box 45, a placing table 43 having an inclined plane and capable of stretching left and right and being provided with a spring is fixedly installed on the right end wall of the placing cavity 46, a placing block 44 capable of stretching up and down and being provided with a spring is fixedly installed in the bottom end wall of the placing cavity 46, three material holding buckets 42 are placed on the placing table 43 and the placing block 44, a placing plate 41 abutting against the rightmost material holding bucket 42 is fixedly installed on the upper end surface of the placing table 43, a placing spring 40 is fixedly connected between the right end surface of the placing plate 41 and the right end wall of the placing cavity 46, and by pushing the mixed beneficial microorganism strains and raw materials into the leftmost material holding bucket 42, and when the bearing capacity in the material holding bucket 42 reaches a certain value, the placing block 44 is caused to extend and contract downwards, and the placing table 43 is caused to push the leftmost material holding bucket 42 to move leftwards.

In the initial state, the load bearing spring 47 is in an undeformed state, the set spring 40 is in an undeformed state, and the connecting baffle 61 is in an undeformed state.

When the mixer starts to work, raw materials to be mixed are put in the feeding hole 28, the inclined baffle 29 is driven to move outwards when bearing weight, the connecting block 60 moves outwards, the connecting port on the inclined baffle 29 is driven to be connected with the output port of the storage tank 27, beneficial microbial strains placed in the storage tank 27 are correspondingly and equivalently discharged, and the beneficial microbial strains are transmitted to the shaking plate I21 in the mixing cavity 23 through the connecting port on the plane baffle 24;

simultaneously, the motor 58 is started to drive the driving shaft 35 to rotate, the driving shaft 35 is driven to rotate through the meshing transmission between the transmission bevel gear four 63 and the transmission bevel gear two 34, so that the transmission shaft 30 is driven to rotate, the transmission shaft 30 is driven to rotate through the meshing transmission between the transmission gear 31 and the connecting gear 25, so that the sleeve 26 rotates, the storage boxes 27 on the two sides are driven to rotate, beneficial microbial strains in the storage boxes 27 are driven to uniformly fall into the raw materials, and uniform mixing is guaranteed;

the cam II 36 rotates to drive the lug on the front end face of the cam II 36 to rotate around the circle center, the push rod II 32 is driven to move leftwards, the shaking plate I21 is driven to move leftwards, beneficial microbial strains which are required to be mixed and fall on the shaking plate I21 are mixed and shaken with raw materials and fall on the shaking plate II 37, meanwhile, the driving shaft 35 is driven to rotate through a belt 56 between a left belt pulley 55 and a right belt pulley 57, the driven shaft 20 is driven to rotate, the cam I19 rotates to drive the lug on the front end face of the cam I19 to rotate around the circle center, the push groove I17 is driven to move rightwards, the shaking plate II 37 moves leftwards, the beneficial microbial strains which fall on the shaking plate II 37 and are mixed once and shaken with the raw materials again and fall on the bearing plate 48, and uniform mixing is guaranteed;

when the bearing plate 48 moves to abut against the inclined surface of the inclined surface block 54 and pushes the inclined surface block 54 to move leftwards, the rotating plate 52 is pushed to rotate around the rotating shaft 53, the planar baffle plate 24 is pushed rightwards, and the probiotic strains and the raw materials which are not mixed stop falling;

meanwhile, the inclined plane block 54 moves leftwards to cause the fixed block 50 to move leftwards, the connecting shaft 12 is caused to pass through the meshing transmission between the discharge bevel gear I13 and the discharge bevel gear II 15, so that the discharge shaft 14 rotates, the spiral plate 49 is caused to rotate spirally to push out the mixed beneficial microbial strains and the raw materials rightwards, the push plate 39 is caused to rotate around the push shaft 38 to open so that the mixture can be discharged, the mixed beneficial microbial strains and the raw materials are pushed into the leftmost material bearing barrel 42, when the bearing capacity in the material bearing barrel 42 reaches a certain value, the placing block 44 is caused to stretch downwards, the placing table 43 is caused to push the leftmost material bearing barrel 42 to move leftwards, the placing plate 41 is caused to be pushed leftwards by the elastic force of the placing spring 40, the next material bearing barrel 42 is pushed to the placing block 44 to load the mixed beneficial microbial strains and the raw materials, when all mixing is complete, the motor 58 is turned off, urging the device to return to the initial position.

The beneficial effects are that: according to the device, beneficial microbial strains to be mixed are added to the raw materials, the corresponding beneficial microbial strains are driven to be discharged and mixed according to the amount of the added raw materials, and are uniformly mixed, so that the beneficial microbial strains are prevented from being mixed too much to cause fund waste, the mixed beneficial microbial strains and the raw materials are quantitatively discharged, and the time waste and the efficiency influence caused by the subsequent processes are avoided.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.