CN113797817A - Feed ingredient mixing and stirring system - Google Patents

Abstract

The invention belongs to the field of mixed feed production, and relates to a feed ingredient mixing and stirring system which comprises a shell, wherein an ingredient cavity is formed in the upper side of the shell, an ingredient device is arranged in the ingredient cavity and used for mixing and blanking different kinds of feeds according to different proportions, an agitating cavity is formed in the shell, and an agitating device is arranged in the agitating cavity and used for agitating and mixing the feeds. The invention can mix and stir the crushed feed, the periodic movement speed and the period of the control switch are different frequently, the feed can be proportioned and mixed according to different feeds, then the uniform stirring is carried out, the baffle scraping function is added in the rotating and stirring process, the scraping of the feed on the wall of the stirring cavity is completed, the adhesion is prevented, and meanwhile, the periodic switch is utilized to screen and separate sundries in the feed.

Description

Feed ingredient mixing and stirring system

Technical Field

The invention belongs to the field of mixed feed production, and particularly relates to a feed ingredient mixing and stirring system.

Background

Mixed feed is formed by simple processing of various feed ingredients, for elementary formula feed, when general fodder mixes, incomplete kibbling fodder piece can appear because of inhomogeneous problem after the crushing process is accomplished, or mix debris such as stone in the feed ingredients, will wait to smash the back of finishing and filter the fodder alone this moment, then mix again, not only the process is complicated and complicated, and batching according to the proportion, stir mixed feed, a plurality of processes such as screening can not go on simultaneously, waste time and efficiency are not high, ordinary stirring in-process, the fodder stirring inequality appears easily, or the fodder bonds on the stirring chamber wall scheduling problem, not only extravagant fodder, it can also influence the stirring to bond on the wall, it is also very unfavorable to the clearance in the machine long-term use process.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a feed ingredient mixing and stirring system which can be used for mixing and stirring crushed feed and screening and separating the uniformly stirred feed.

The purpose of the invention can be realized by the following technical scheme: the utility model provides a fodder batching mixes mixing system, includes the casing, the casing upside is equipped with the batching chamber, the batching intracavity is equipped with the dosing unit, and the dosing unit is used for batching the unloading with different kind of fodder according to different proportions, be equipped with the stirring chamber in the casing, the stirring intracavity is equipped with agitating unit, and agitating unit is used for stirring the material and mixes, be equipped with the fast chamber of accuse in the casing, the fast intracavity of accuse is equipped with the fast device of accuse, and the fast device of accuse is used for controlling the unloading speed of fodder, the casing downside is equipped with the screening separation chamber, the screening separation intracavity is equipped with screening separator, and screening separator is used for screening the fodder and filters and debris separation.

Preferably, the batching device is including fixing the three storage case of batching chamber upside, every storage case below all is equipped with the waffle slab, every the symmetry is equipped with crooked opening spout around all on the lateral wall under the storage case, every the storage incasement below all rotates and is equipped with the rotation axis, the fixed semicylinder switch that is equipped with on the rotation axis, one side is rotated and is equipped with the transmission connecting rod on the semicylinder switch, the fixed adjusting device that is equipped with on the lateral wall under the batching chamber, adjusting device is used for controlling the unloading proportion.

Preferably, adjusting device is including fixing three fixed restriction piece on the lateral wall under the batching chamber, every fixed restriction piece left side is all fixed to be equipped with fixed cover, every all rotate in the fixed restriction piece and is equipped with the rotation slider, the fixed groove slider that turns round that is equipped with in the rotation slider, fixed three buncher that is equipped with under the batching chamber on the lateral wall, every the buncher output all rotates and is equipped with L type dwang, the cover has on the L type dwang fixed cover, the fixed annular rotation post that is equipped with on the L type dwang other end, the fixed rotatory spout that is equipped with on the annular rotation post, it is in to turn round the groove slider slide in the rotatory spout, the fixed swinging arms that is equipped with on the rotation slider, the swinging arms with the drive link rotates to be connected.

Preferably, the stirring device comprises a main motor fixed outside the left side wall of the stirring cavity, an output main shaft is rotatably arranged at the output end of the main motor, a fixed rotating shell is fixedly arranged at the top end of the output main shaft, fixed blocks are symmetrically arranged on the upper side wall and the lower side wall of the fixed rotating shell, a curved rocking handle is rotatably arranged on each fixed block, a scraping plate groove is fixedly arranged at the top end of the curved rocking handle, a limiting rod is fixedly arranged in the scraping plate groove, a scraping plate is sleeved at the top end of the limiting rod, a telescopic spring is connected between the scraping plate and the scraping plate groove, a driving bevel gear is fixedly arranged at the top end of the output main shaft, L-shaped rotating shafts are symmetrically arranged on the upper side wall and the lower side wall of the fixed rotating shell in a mirror image mode, a swinging slider is rotatably arranged at the front end of each L-shaped rotating shaft, the swinging slider slides in a straight groove at the top end of the curved rocking handle, and a driven bevel gear is fixedly arranged at the bottom end of each L-shaped rotating shaft in the fixed rotating shell, the driving bevel gear is meshed with the driven bevel gear, an output auxiliary shaft is rotatably arranged on the right side wall of the fixed rotary shell, an auxiliary bevel gear is fixedly arranged at the top end of the left side of the output auxiliary shaft, the auxiliary bevel gear is meshed with the driven bevel gear, and the right end of the output auxiliary shaft is fixed with the next fixed rotary shell.

Preferably, the speed control device comprises a moving chute fixed on the upper side wall of the speed control cavity, a motor connecting rod is arranged in the moving chute in a sliding way, two sliding opening and closing door plates are symmetrically arranged on the left and right in the upper side wall of the speed control cavity, a door plate connecting rod is rotatably arranged on each opening and closing door plate, the two door plate connecting rods are rotatably connected through the motor connecting rod, the tail end of the opening and closing door plate on the right side is fixedly connected with a steel wire rope, a gear shaft is rotationally arranged on the right side wall of the speed control cavity, a first torsion spring is arranged in the gear shaft, an upper engaged inclined baffle and a lower engaged inclined baffle are rotationally arranged on the right side wall of the speed control cavity, a sliding rack is arranged in the right side wall of the speed control cavity, the left side of the rack is meshed with the meshed inclined baffle, the rack right side with the gear shaft meshing, it is equipped with torsional spring inclined baffle to rotate on the fast chamber left side wall of accuse, be equipped with the second torsional spring in the torsional spring inclined baffle.

Preferably, the screening and separating device comprises a screening and limiting plate fixed in the screening and separating cavity, a screening plate is slidably arranged in the middle of the screening and limiting plate, a screening motor is fixedly arranged on the side wall of the screening and separating cavity, the output end of the screening motor is rotatably provided with a cylindrical rotating body, a W-shaped sliding groove is formed in the cylindrical rotating body, a swinging groove is fixedly arranged on the right side of the screening and separating cavity, a reciprocating swinging block is slidably arranged in the swinging groove, the top end of the reciprocating swinging block extends out to be fixedly connected with the screening plate, a sliding groove short rod is fixedly arranged on the left side of the reciprocating swinging block and slides in the W-shaped sliding groove, a small motor is fixedly arranged on the side wall of the screening and separating cavity, the output end of the small motor is rotatably provided with a fan-shaped rotating block, two conveyor belt rotating shafts are rotatably arranged on the side wall of the screening and separating cavity, and the conveyor belt rotating shaft on the left side is fixedly connected with the fan-shaped rotating block, two the cover has the conveyer belt in the conveyer belt pivot, the last fixed periodic rotation connecting rod that is equipped with of fan-shaped turning block, it is equipped with the periodic turning block to rotate between the lateral wall around the screening separation chamber, the fixed supplementary pivot that is equipped with on the periodic turning block, the periodic rotation connecting rod with supplementary pivot meshing transmission, it is equipped with the baffle pivot to rotate between the lateral wall around the screening separation chamber, it is equipped with six long restriction baffles to surround in the baffle pivot, the periodic turning block with be connected with the driving chain between the baffle pivot.

When different kinds of fodder are smashed and get into the storage case respectively, start the buncher, L type dwang begins to rotate, turns round the groove slider and slides in rotatory spout, drives and rotates the slider motion for the swinging arms is periodic rotation, through rotating the transmission connecting rod of connection, makes the semicylinder switch open and shut, thereby the control unloading, because of every feed bin motor is different with the curved spout that establishes, thereby utilizes the size of opening and shutting and time to reach control unloading ratio.

Feed after the ratio gets into the stirring chamber, start the main motor, the output main shaft begins to rotate, it is rotatory to drive fixed rotatory shell, make scraping plate begin to rotate, through inside drive bevel gear and two upper and lower driven bevel gear meshing, it is rotatory to drive L type pivot, the swing slider slides in the bent type rocking handle, make the bent type rocking handle do the side-to-side rocking motion, when scraping plate touch stirring chamber wall body, compress inwards through the expanding spring, outwards stretch out through the expanding spring when not atress, the driven bevel gear meshing auxiliary bevel gear of two upper and lower symmetries, it begins to rotate to drive the output countershaft of fixing on auxiliary bevel gear, drive next fixed rotatory shell right simultaneously, normal running fit side-to-side rocking, make the feed stirring more abundant, when mixing the stirring to the feed, can also scrape the residual feed on the wall body.

After the fodder stirring finishes, the starter motor connecting rod, slide down along the motion spout, make the door plant that opens and shuts open, the fodder can fall, first torsion spring reversal simultaneously, drive rack rebound through the gear shaft, make the downward sloping of meshing oblique baffle, the second torsion spring reversal simultaneously, drive the downward sloping of torsional spring oblique baffle, the fodder whereabouts finishes the back, the starter motor connecting rod, slide up along the motion spout, make the door plant that opens and shuts closed, stimulate wire rope simultaneously, make rack downstream, make the meshing oblique baffle upwards lift, jack-up torsional spring oblique baffle simultaneously, through the angle of opening and baffle slope, control unloading speed, produce when avoiding the below to sieve the fodder and pile up.

When the fodder falls to screening separation chamber, start the screening motor, the cylinder is turned and is begun rotatoryly, the spout quarter butt slides in W type spout, it is reciprocating motion at the swing inslot to drive reciprocal swing piece, make the screening board begin to move the screening fodder, debris such as stone can't pass through the screening in the fodder, pile up to long restriction baffle department, start the small motor, drive the conveyer belt and convey left, the meshing of slotting in periodic rotation connecting rod and the supplementary pivot simultaneously, it opens to drive long restriction baffle discontinuity, carry debris separation such as stone to left downside, this device leaves one side with the debris screening, and the discontinuity is transported out, can effectively filter the separation with fodder and debris, avoid remaining debris in the fodder.

Compared with the prior art, this utilize fodder batching to mix mixing stirring system has following advantage:

1. because each bin motor and the bent sliding chute are different, the blanking proportion is controlled by utilizing the opening and closing size and time.

2. The fodder stirring is more abundant, when mixing the stirring to the fodder, can also scrape the residual feed on the wall body.

3. Through the angle of opening and baffle slope, control unloading speed produces when avoiding the below to sieve the fodder and piles up.

4. The sundries are screened and left on one side and are intermittently transported out, so that the feed and the sundries can be effectively screened and separated, and the residual sundries in the feed are avoided.

Drawings

Fig. 1 is a schematic structural diagram of a feed ingredient mixing and stirring system.

Fig. 2 is an enlarged view of a structure a in fig. 1.

Fig. 3 is a sectional view taken along line B-B in fig. 2.

Fig. 4 is an enlarged view of the structure at C in fig. 1.

Fig. 5 is an enlarged view of the structure at D in fig. 1.

Fig. 6 is a sectional view taken along the direction E-E in fig. 1.

Fig. 7 is an enlarged view of the structure at F in fig. 1.

In the figure, 10, the housing; 11. a dosing chamber; 12. a stirring chamber; 13. a speed control cavity; 14. a screening separation chamber; 15. a material storage box; 16. a grid plate; 17. a rotating shaft; 18. a semi-cylindrical switch; 19. a transmission connecting rod; 20. a speed-regulating motor; 21. an L-shaped rotating rod; 22. fixing a sleeve; 23. an annular rotating column; 24. rotating the slide block; 25. a groove twisting slide block; 26. fixing a limiting block; 27. rotating the chute; 28. a swing lever; 29. bending the open chute; 30. a main motor; 31. an output spindle; 32. a drive bevel gear; 33. fixing the rotating shell; 34. a driven bevel gear; 35. a fixed block; 36. a crank type rocking handle; 37. a swing slider; 38. an L-shaped rotating shaft; 39. scraping the plate groove; 40. a limiting rod; 41. a tension spring; 42. a scraping plate; 43. an auxiliary bevel gear; 44. an output countershaft; 45. a motor connecting rod; 46. a moving chute; 47. a door panel connecting rod; 48. a door panel is opened and closed; 49. a wire rope; 50. a torsion spring inclined baffle; 51. a gear shaft; 52. a first torsion spring; 53. a rack; 54. engaging the inclined baffle; 55. a second torsion spring; 56. screening a limiting plate; 57. screening the plate; 58. a cylindrical swivel; 59. a short chute rod; 60. a reciprocating swing block; 61. a swing groove; 62. a W-shaped chute; 63. screening motors; 64. a conveyor belt shaft; 65. a small motor; 66. a sector turning block; 67. periodically rotating the connecting rod; 68. a periodic turning block; 69. an auxiliary rotating shaft; 70. a conveyor belt; 71. a drive chain; 72. a baffle plate rotating shaft; 73. a long limiting baffle;

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1, a fodder batching mixes mixing system, including casing 10, casing 10 upside is equipped with batching chamber 11, be equipped with the dosing unit in the batching chamber 11, the dosing unit is used for batching the unloading with different kind of fodder according to different proportions, be equipped with stirring chamber 12 in the casing 10, be equipped with agitating unit in the stirring chamber 12, agitating unit is used for stirring the material and mixes, be equipped with the fast chamber 13 of accuse in the casing 10, be equipped with the fast device of accuse in the fast chamber 13 of accuse, the fast device of accuse is used for controlling the unloading speed of fodder, the casing 10 downside is equipped with screening separation chamber 14, be equipped with screening separation device in the screening separation chamber 14, screening separation device is used for screening the fodder and filters and the debris separation.

As shown in fig. 1, the batching device comprises three storage boxes 15 fixed on the upper side of the batching cavity 11, a grid plate 16 is arranged below each storage box 15, each storage box 15 is provided with a front opening chute 29 and a rear opening chute 29 symmetrically arranged on the lower side wall of each storage box 15, each storage box 15 is internally provided with a rotating shaft 17 in a rotating mode below the storage box in a rotating mode, a semi-cylindrical switch 18 is fixedly arranged on the rotating shaft 17, a transmission connecting rod 19 is arranged on one side of the semi-cylindrical switch 18 in a rotating mode, an adjusting device is fixedly arranged on the lower side wall of the batching cavity 11, and the adjusting device is used for controlling the blanking proportion.

As shown in fig. 1, 2 and 3, the adjusting device includes three fixed limiting blocks 26 fixed on the lower side wall of the ingredient cavity 11, a fixed sleeve 22 is fixedly arranged on the left side of each fixed limiting block 26, a rotating slider 24 is rotatably arranged in each fixed limiting block 26, a groove twisting slide block 25 is fixedly arranged in the rotating slide block 24, three speed regulating motors 20 are fixedly arranged on the lower side wall of the batching cavity 11, an L-shaped rotating rod 21 is rotatably arranged at the output end of each speed regulating motor 20, the fixing sleeve 22 is sleeved on the L-shaped rotating rod 21, the annular rotating column 23 is fixedly arranged at the other end of the L-shaped rotating rod 21, the annular rotating column 23 is fixedly provided with a rotating chute 27, the slot twisting slide block 25 slides in the rotating chute 27, a swing rod 28 is fixedly arranged on the rotating slider 24, and the swing rod 28 is rotatably connected with the transmission connecting rod 19.

As shown in fig. 1 and 4, the stirring apparatus includes a main motor 30 fixed outside the left side wall of the stirring chamber 12, an output shaft 31 is rotatably provided at an output end of the main motor 30, a fixed rotating shell 33 is fixedly provided at a top end of the output shaft 31, fixed blocks 35 are symmetrically provided on upper and lower side walls of the fixed rotating shell 33, a curved rocking handle 36 is rotatably provided on each fixed block 35, a scraping plate groove 39 is fixedly provided at a top end of the curved rocking handle 36, a limiting rod 40 is fixedly provided in the scraping plate groove 39, a scraping plate 42 is sleeved at a top end of the limiting rod 40, a telescopic spring 41 is connected between the scraping plate 42 and the scraping plate groove 39, a driving bevel gear 32 is fixedly provided at a top end of the output shaft 31, L-shaped rotating shafts 38 are symmetrically arranged on upper and lower side walls of the fixed rotating shell 33 in a mirror image manner, and a swing slider 37 is rotatably provided at a front end of each L-shaped rotating shaft 38, the swing sliding block 37 slides in a straight groove at the top end of the curved rocking handle 36, a driven bevel gear 34 is fixedly arranged at the bottom end of each L-shaped rotating shaft 38 inside the fixed rotating shell 33, the driving bevel gear 32 is meshed with the driven bevel gear 34, an output auxiliary shaft 44 is rotatably arranged on the right side wall of the fixed rotating shell 33, an auxiliary bevel gear 43 is fixedly arranged at the top end of the left side of the output auxiliary shaft 44, the auxiliary bevel gear 43 is meshed with the driven bevel gear 34, and the right end of the output auxiliary shaft 44 is fixed with the next fixed rotating shell 33.

As shown in fig. 1 and 5, the speed control device includes a moving chute 46 fixed on the upper side wall of the speed control chamber 13, a motor connecting rod 45 is slidably disposed in the moving chute 46, two sliding opening/closing door panels 48 are symmetrically disposed in the upper side wall of the speed control chamber 13 from left to right, a door panel connecting rod 47 is rotatably disposed on each opening/closing door panel 48, the two door panel connecting rods 47 are rotatably connected through the motor connecting rod 45, a wire rope 49 is fixedly connected to the end of the right opening/closing door panel 48, a gear shaft 51 is rotatably disposed on the right side wall of the speed control chamber 13, a first torsion spring 52 is disposed in the gear shaft 51, an upper and a lower engaging inclined baffles 54 are rotatably disposed on the right side wall of the speed control chamber 13, a sliding rack 53 is disposed in the right side wall of the speed control chamber 13, the left side of the rack 53 is engaged with the engaging inclined baffles 54, the right side of the rack 53 is engaged with the gear shaft 51, the left side wall of the speed control cavity 13 is rotatably provided with a torsional spring inclined baffle 50, and a second torsional spring 55 is arranged in the torsional spring inclined baffle 50.

As shown in fig. 1, 6 and 7, the screening and separating device includes a screening limiting plate 56 fixed in the screening and separating chamber 14, a screening plate 57 is slidably disposed in the middle of the screening limiting plate 56, a screening motor 63 is fixedly disposed on the side wall of the screening and separating chamber 14, the output end of the screening motor 63 is rotatably disposed with a cylindrical rotating body 58, a W-shaped sliding slot 62 is disposed on the cylindrical rotating body 58, a swinging slot 61 is fixedly disposed on the right side of the screening and separating chamber 14, a reciprocating swinging block 60 is slidably disposed in the swinging slot 61, the top end of the reciprocating swinging block 60 extends out to be fixedly connected with the screening plate 57, a sliding slot short rod 59 is fixedly disposed on the left side of the reciprocating swinging block 60, the sliding slot short rod 59 slides in the W-shaped sliding slot 62, a small motor 65 is fixedly disposed on the side wall of the screening and separating chamber 14, a fan-shaped rotating block 66 is rotatably disposed at the output end of the small motor 65, two belt rotating shafts 64 are rotatably disposed on the side wall of the screening and separating chamber 14, the left side conveyer belt pivot 64 with fan-shaped turning block 66 fixed connection, two the cover has conveyer belt 70 in the conveyer belt pivot 64, the fixed periodic rotation connecting rod 67 that is equipped with on the fan-shaped turning block 66, it is equipped with periodic turning block 68 to rotate between the lateral wall around the screening separation chamber 14, the fixed supplementary pivot 69 that is equipped with on the periodic turning block 68, periodic rotation connecting rod 67 with supplementary pivot 69 meshing transmission, it is equipped with baffle pivot 72 to rotate between the lateral wall around the screening separation chamber 14, it is equipped with six long restriction baffles 73 to surround on the baffle pivot 72, periodic turning block 68 with be connected with driving chain 71 between the baffle pivot 72.

When different kinds of fodder are smashed and respectively get into storage case 15, start buncher 20, L type dwang 21 begins to rotate, turns round groove slider 25 and slides in rotatory spout 27, drives and rotates slider 24 motion for swinging arms 28 is periodic rotation, through rotating the transmission connecting rod 19 of connecting, makes semicylinder switch 18 open and shut, thereby control the unloading, because of every feed bin motor is different with the spout that bends that establishes, thereby utilize to open and shut size and time and reach control unloading ratio.

The proportioned feed enters the stirring cavity, the main motor 30 is started, the output main shaft 31 starts to rotate, the fixed rotating shell 33 is driven to rotate, the scraping plate 42 starts to rotate, the L-shaped rotating shaft 38 is driven to rotate by the engagement of the inner driving bevel gear 32 and the upper and lower driven bevel gears 34, the swinging slide block 37 slides in the curved rocking handle 36, so that the crank handle 36 will swing left and right, when the scraping plate 42 touches the wall of the mixing cavity, the telescopic spring 41 is compressed inwards, when the force is not applied, the telescopic spring 41 extends outwards, the upper driven bevel gear 34 and the lower driven bevel gear 34 which are symmetrical are meshed with the auxiliary bevel gear 43, an output auxiliary shaft 44 fixed on the auxiliary bevel gear 43 is driven to rotate, drive next fixed rotatory shell 33 simultaneously rightwards, the normal running fit side-to-side sways for the fodder stirring is more abundant, when mixing the stirring to the fodder, can also scrape the residual feed on the wall body.

After the fodder stirring finishes, starter motor connecting rod 45, slide down along motion spout 46, make the door plant 48 that opens and shuts open, the fodder can fall, first torsion spring 52 reverses simultaneously, drive rack 53 rebound through gear shaft 51, make meshing oblique baffle 54 downward sloping, second torsion spring 55 reverses simultaneously, drive the oblique baffle 50 downward sloping of torsional spring, the fodder whereabouts finishes, starter motor connecting rod 45, slide up along motion spout 46, make the door plant 48 that opens and shuts closed, stimulate wire rope 49 simultaneously, make rack 53 downstream, make meshing oblique baffle 54 upwards lift, jack-up torsional spring oblique baffle 50 simultaneously, through the angle of opening and baffle slope, control unloading speed, produce when avoiding the below to sieve the fodder and pile up.

When the fodder falls to screening separation chamber, start screening motor 63, cylindrical swivel 58 begins to rotate, spout short rod 59 slides in W type spout 62, drive reciprocal swing piece 60 and be reciprocating motion in swing groove 61, make screening plate 57 begin to move screening fodder, debris such as stone can't pass through the screening in the fodder, pile up to long restriction baffle 73 department, start small motor 65, drive conveyer belt 70 and convey left, the slot meshing is gone up with supplementary pivot 69 to periodic rotation connecting rod 67 simultaneously, drive long restriction baffle 73 and be interrupted and open, separate debris such as stone and transport to the left downside, this device leaves debris screening in one side, and the discontinuity is transported out, can effectively screen the separation with fodder and debris, avoid remaining debris in the fodder.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (6)

1. The utility model provides a fodder batching mixes mixing system, includes casing (10), its characterized in that, casing (10) upside is equipped with batching chamber (11), be equipped with the dosing unit in batching chamber (11), the dosing unit is used for batching the unloading with different kind fodder according to different proportions, be equipped with stirring chamber (12) in casing (10), be equipped with agitating unit in stirring chamber (12), agitating unit is used for stirring the material and mixes, be equipped with fast chamber of accuse (13) in casing (10), be equipped with fast device of accuse in the fast chamber of accuse (13), the fast device of accuse is used for controlling the unloading speed of fodder, casing (10) downside is equipped with screening separation chamber (14), be equipped with screening separation device in screening separation chamber (14), screening separation device is used for screening the fodder and filters and debris separation.

2. A feed ingredient mixing and blending system according to claim 1, wherein: the batching device is including fixing three storage case (15) of batching chamber (11) upside, the fixed waffle slab (16) that is equipped with of lateral wall under batching chamber (11), every storage case (15) is gone up on the lateral wall all around the symmetry and is equipped with crooked opening spout (29), every all rotate below in storage case (15) and be equipped with rotation axis (17), fixed semicircle column switch (18) that is equipped with on rotation axis (17), articulated transmission connecting rod (19) of one side on semicircle column switch (18), be equipped with adjusting device on the lateral wall under batching chamber (11), adjusting device is used for controlling the unloading proportion.

3. A feed ingredient mixing and blending system according to claim 2, wherein: adjusting device is including fixing three fixed restriction piece (26) on the lateral wall under batching chamber (11), every fixed restriction piece (26) left side is all fixed and is equipped with fixed cover (22), every fixed restriction piece (26) are all rotated and are equipped with rotation slider (24), rotation slider (24) internal fixation is equipped with turns round groove slider (25), fixed three buncher (20) that are equipped with on the lateral wall under batching chamber (11), every buncher (20) output all rotates and is equipped with L type dwang (21), it has on L type dwang (21) fixed cover (22), fixed annular rotation post (23) that is equipped with on L type dwang (21) the other end, fixed rotatory spout (27) that is equipped with on annular rotation post (23), turn round groove slider (25) and slide in rotatory spout (27), it is equipped with swinging arms (28) to rotate slider (24) and go up the fixed, the swing rod (28) is rotatably connected with the transmission connecting rod (19).

4. A feed ingredient mixing and blending system according to claim 3, wherein: the stirring device comprises a main motor (30) fixed outside the left side wall of the stirring cavity (12), an output end of the main motor (30) is rotatably provided with an output main shaft (31), the top end of the output main shaft (31) is fixedly provided with a fixed rotating shell (33), the upper side wall and the lower side wall of the fixed rotating shell (33) are symmetrically provided with fixed blocks (35), each fixed block (35) is rotatably provided with a curved rocking handle (36), the top end of the curved rocking handle (36) is fixedly provided with a scraping plate groove (39), a limiting rod (40) is fixedly arranged in the scraping plate groove (39), the top end of the limiting rod (40) is sleeved with a scraping plate (42), a telescopic spring (41) is connected between the scraping plate (42) and the scraping plate groove (39), the top end of the output main shaft (31) is fixedly provided with a driving bevel gear (32), the upper side wall and the lower side wall of the fixed rotating shell (33) are symmetrically provided with L-shaped rotating shafts (38), every L type pivot (38) front end all rotates and is equipped with swing slider (37), swing slider (37) are in curved rocking handle (36) top straight flute slides, every L type pivot (38) bottom all is fixed in fixed rotating shell (33) inside and is equipped with driven bevel gear (34), drive bevel gear (32) with driven bevel gear (34) meshing, it is equipped with output countershaft (44) to rotate on fixed rotating shell (33) right side wall, output countershaft (44) left side top is fixed and is equipped with auxiliary bevel gear (43), auxiliary bevel gear (43) with driven bevel gear (34) meshing, output countershaft (44) right-hand member is fixed with next fixed rotating shell (33).

5. A feed ingredient mixing and blending system according to claim 4, wherein: the speed control device comprises a movement chute (46) fixed on the side wall of the speed control cavity (13), a motor connecting rod (45) is arranged in the movement chute (46) in a sliding manner, two sliding opening and closing door plates (48) are symmetrically arranged in the side wall of the speed control cavity (13) in a bilateral manner, a door plate connecting rod (47) is arranged on each opening and closing door plate (48) in a rotating manner, the two door plate connecting rods (47) are connected with each other through the motor connecting rod (45) in a rotating manner, the tail end of the opening and closing door plate (48) on the right side is fixedly connected with a steel wire rope (49), a gear shaft (51) is arranged in the right side wall of the speed control cavity (13) in a rotating manner, a first torsion spring (52) is arranged in the gear shaft (51), an upper meshing inclined baffle plate (54) and a lower meshing baffle plate (54) are arranged in the right side wall of the speed control cavity (13), and a sliding rack (53) is arranged in the right side wall of the speed control cavity (13), the rack (53) left side with meshing inclined baffle (54) meshing, rack (53) right side with gear shaft (51) meshing, the rotation is equipped with torsional spring inclined baffle (50) on the fast chamber of accuse (13) left side wall, be equipped with second torsional spring (55) in torsional spring inclined baffle (50).

6. A feed ingredient mixing and blending system according to claim 5, wherein: screening separator is including fixing screening limiting plate (56) in screening separation chamber (14), it is equipped with screening board (57) to slide in the middle of screening limiting plate (56), fixed screening motor (63) that is equipped with on screening separation chamber (14) lateral wall, screening motor (63) output rotates and is equipped with cylinder (58) of turning, be equipped with W type spout (62) on cylinder (58) of turning, screening separation chamber (14) right side is fixed and is equipped with swing groove (61), it is equipped with reciprocal swing piece (60) to slide in swing groove (61), reciprocal swing piece (60) top is stretched out and is screened board (57) fixed connection, reciprocal swing piece (60) left side is fixed and is equipped with spout stub (59), spout stub (59) are in slide in W type spout (62), the fixed small motor (65) that is equipped with on screening separation chamber (14) lateral wall, the output end of the small motor (65) is rotatably provided with a fan-shaped rotating block (66), the side wall of the screening separation cavity (14) is rotatably provided with two conveyor belt rotating shafts (64), the left side of the conveyor belt rotating shaft (64) is fixedly connected with the fan-shaped rotating block (66), two conveyor belt rotating shafts (64) are sleeved with conveyor belts (70), the fan-shaped rotating block (66) is fixedly provided with a periodic rotating connecting rod (67), the screening separation cavity (14) is rotatably provided with a periodic rotating block (68) between the front side wall and the rear side wall, the periodic rotating block (68) is fixedly provided with an auxiliary rotating shaft (69), the periodic rotating connecting rod (67) is meshed with the auxiliary rotating shaft (69) for transmission, the screening separation cavity (14) is rotatably provided with a baffle rotating shaft (72) between the front side wall and the rear side wall, and six long limiting baffles (73) are arranged on the baffle rotating shaft (72) in a surrounding manner, and a transmission chain (71) is connected between the periodic rotating block (68) and the baffle rotating shaft (72).

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