CN114158757B

CN114158757B - Feed production stirring and subpackaging device and subpackaging method thereof

Info

Publication number: CN114158757B
Application number: CN202111515162.5A
Authority: CN
Inventors: 薛兵; 刘林
Original assignee: Anhui Tech Bank Bio Tech Co ltd
Current assignee: Anhui Tech Bank Bio Tech Co ltd
Priority date: 2021-12-13
Filing date: 2021-12-13
Publication date: 2023-03-10
Anticipated expiration: 2041-12-13
Also published as: CN114158757A

Abstract

The invention discloses a feed production stirring and subpackaging device and a subpackaging method thereof, and belongs to the technical field of feed stirring and subpackaging. The invention provides a stirring and subpackaging device for feed production and a subpackaging method thereof.A motor drives a transmission main shaft to rotate reversely, a limiting block slowly descends and contacts with a lower spring, a discharge plate slowly extends into a stirring tank to contact with an upper sieve plate, a middle sieve plate, a lower sieve plate and a bottom cover plate, feed flows out of a discharge port along the discharge plate by rotating the upper sieve plate, the middle sieve plate, the lower sieve plate and the bottom cover plate, and whether the feed ascends and descends is controlled by controlling forward rotation and backward rotation, the rotation cannot be influenced, the feed also ascends to the highest position for stirring and descends to the lowest position for discharging.

Description

Feed production stirring and subpackaging device and subpackaging method thereof

Technical Field

The invention relates to the technical field of stirring and subpackaging of feeds, in particular to a stirring and subpackaging device for feed production and a subpackaging method thereof.

Background

The feed crushing and stirring machine consists of a feed crushing machine and a feed stirring machine 2. The feed grinder is divided into a self-suction feed grinder and a forced feed grinder, and the feed mixer is divided into a vertical feed mixer and a horizontal feed mixer 2.

The existing feed is subpackaged according to the diameter requirement, and the adopted subpackaging and stirring are separately used when the existing subpackaging equipment is used, so that the subsequent cost is increased.

Disclosure of Invention

The invention aims to provide a stirring and subpackaging device for feed production and a subpackaging method thereof, which aim to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a fodder production stirring partial shipment device, includes the agitator tank, and the top of agitator tank is inserted there is the feeding subassembly, and the top and the supporting component of agitator tank are connected, and the inboard of agitator tank is connected with rotary screen subassembly and arranges the material subassembly, and the rotatory lifting unit spare and the rotary screen subassembly that install on the supporting component are connected.

Further, the feeding assembly comprises a feeding bent pipe and a feeding seat, the feeding seat is welded on the top opening of the stirring tank, one end of the feeding bent pipe is inserted into a bearing of the feeding seat, and the feeding bent pipe is communicated with the inside of the stirring tank.

Further, the supporting component comprises an underframe, a motor base, a supporting plate and a discharging platform supporting frame, the motor base and the supporting plate are fixed at the middle of the underframe side by side from top to bottom and used for supporting the rotary lifting component, the top end of the underframe is connected with the outer side of the stirring tank, the bottom end of the discharging platform supporting frame is connected with the underframe, the discharging platform supporting frame is connected with the one-to-one discharging component, and the discharging component is used for collecting materials subpackaged by the rotary screen subassembly.

Furthermore, the rotating screen subassembly comprises an upper screen plate, a middle screen plate, a lower screen plate, a stirring shaft and a bottom cover plate, wherein the top of the stirring shaft sequentially penetrates through the circle centers of the upper screen plate, the middle screen plate, the lower screen plate and the bottom cover plate from top to bottom and is fixed with the upper screen plate, the middle screen plate, the lower screen plate and the bottom cover plate;

the upper sieve plate, the middle sieve plate, the lower sieve plate and the bottom cover plate are arranged in the stirring tank, and the upper sieve plate, the middle sieve plate, the lower sieve plate and the bottom cover plate rotate along the inner wall of the stirring tank and are in a close contact state;

and the stirring plates are respectively fixed on the inner walls of the stirring tank above the upper sieve plate, the middle sieve plate, the lower sieve plate and the bottom cover plate.

Furthermore, the rotary lifting assembly comprises a sleeve, an upper spring, a motor, a transmission main shaft, a lower spring, a transmission auxiliary shaft and a limiting block, wherein the motor is fixed on the motor base through a bolt, and the sleeve penetrates through the supporting plate to be fixed;

one end of the transmission main shaft is connected with the output end of the motor, the other end of the transmission main shaft is inserted into the sleeve and movably connected with the bearing in the sleeve, one end of the transmission auxiliary shaft is inserted into the transmission main shaft, and the other end of the transmission auxiliary shaft extends into the sleeve and is fixed with the bottom end of the limiting block;

the lower spring is fixed with the bottom wall of the sleeve, a section of internal thread is arranged in the sleeve, the lowest end of the internal thread extends to the highest position of the lower spring, and the highest end of the internal thread extends to the horizontal center line of the sleeve;

the external screw thread and the internal thread of processing on the stopper outer wall mesh to the top of stopper and the (mixing) shaft bottom mounting that inserts the sleeve, go up the spring housing in the outside of (mixing) shaft, the bottom and the stopper top surface swing joint of going up the spring, the top of going up the spring is fixed on telescopic roof.

Further, the discharge assembly comprises a discharge opening and a discharge plate, the discharge opening is arranged below the upper sieve plate, the middle sieve plate, the lower sieve plate and the bottom cover plate, the discharge plate is movable along the edge of the discharge opening, and the discharge opening is obliquely arranged.

Furthermore, the transmission main shaft and the transmission auxiliary shaft are connected through a clamping block and a clamping groove, the transmission main shaft and the transmission auxiliary shaft synchronously rotate in the radial direction, and the transmission main shaft and the transmission auxiliary shaft can relatively move in a telescopic mode.

The invention provides another technical scheme, which comprises a subpackaging method of a stirring and subpackaging device for feed production, and the method comprises the following steps:

s1: the motor drives the transmission main shaft, the transmission auxiliary shaft and the limiting block to synchronously rotate, the lower spring is slowly elongated and restored to the initial position in the process of forward rotation of the limiting block, the limiting block is meshed with the sleeve, and the limiting block rises along the internal thread and slowly compresses the upper spring;

s2: the limiting block slowly rises to a position where the limiting block is separated from the internal threads, and when the upper sieve plate, the middle sieve plate, the lower sieve plate and the bottom cover plate are all contacted with the bottom surface of the stirring plate, the limiting block cannot continuously rise due to the fact that the rotating direction of the limiting block is the same as the direction of the threads;

s3: the feed is added into the feed bent pipe and falls onto the upper sieve plate, the feed is driven to move due to the synchronous rotation of the upper sieve plate, the middle sieve plate, the lower sieve plate and the bottom cover plate, and the feed is blocked by the stirring plate and is sequentially screened by the upper sieve plate, the middle sieve plate and the lower sieve plate until the feed with the smallest diameter falls onto the bottom cover plate;

s4: the motor drives the transmission main shaft to rotate reversely, under the action of pressure, the limiting block is opposite to the sleeve thread, slowly descends and contacts with the lower spring, and slowly compresses the lower spring until the limiting block is separated from the thread, and the rotating direction is consistent with the thread direction, so that the limiting block keeps rotating;

s5: go up sieve, well sieve, lower sieve and end cap board and remove to the back of lining up with the bin outlet, arrange the flitch and slowly go deep into in the stirring jar with last sieve, well sieve, sieve and end cap board contact down, through rotatory last sieve, well sieve, sieve and end cap board down, the fodder flows the bin outlet along arranging the flitch.

Compared with the prior art, the invention has the beneficial effects that:

the invention provides a stirring and subpackaging device for feed production and a subpackaging method thereof.A motor drives a transmission main shaft, a transmission auxiliary shaft and a limiting block to synchronously rotate, the limiting block is in the process of positive rotation, a lower spring is slowly elongated and restored to an initial position, the limiting block cannot continuously rise due to the rotation direction being the same as the thread direction, feed is blocked by a stirring plate, and the feed is sequentially screened by an upper sieve plate, a middle sieve plate and a lower sieve plate until the feed with the minimum diameter falls onto a bottom cover plate; motor drive transmission main shaft reverse rotation, the stopper slowly descend and with lower spring contact, arrange the flitch and slowly go deep into in the stirring jar with last sieve, well sieve, sieve and end cap board contact down, through rotatory upper screen, well sieve, sieve and end cap board down, the fodder flows out the bin outlet along arranging the flitch.

Drawings

FIG. 1 is an overall block diagram of the present invention;

FIG. 2 is a second overall state diagram of the present invention;

FIG. 3 is a top view of the stir plate of the present invention;

FIG. 4 is a top view of a drainage plate of the present invention;

fig. 5 is an enlarged view of fig. 1 at a.

In the figure: 1. a stirring tank; 2. a feed assembly; 21. feeding a bent pipe; 22. a feeding seat; 3. a support assembly; 31. a chassis; 32. a motor base; 33. a support plate; 34. a support frame of the blanking table; 4. rotating the screen subassembly; 41. an upper sieve plate; 42. a middle sieve plate; 43. a lower sieve plate; 44. stirring the plate; 45. a stirring shaft; 46. a bottom cover plate; 5. a rotary lifting assembly; 51. a sleeve; 52. an upper spring; 53. a motor; 54. a transmission main shaft; 56. a lower spring; 57. a transmission counter shaft; 58. a limiting block; 6. a discharge assembly; 61. a discharge outlet; 62. a discharge plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-2, a stirring and sub-packaging device for feed production comprises a stirring tank 1, a feeding assembly 2 is inserted into the top end of the stirring tank 1, the top of the stirring tank 1 is connected with a supporting assembly 3, the inner side of the stirring tank 1 is connected with a rotary screen sub-assembly 4 and a discharging assembly 6, and a rotary lifting assembly 5 mounted on the supporting assembly 3 is connected with the rotary screen sub-assembly 4.

Feeding subassembly 2 includes feeding return bend 21 and feeding seat 22, and feeding seat 22 welds on the open-top of agitator tank 1, and the bearing of feeding seat 22 is inserted to the one end of feeding return bend 21 in to feeding return bend 21 and agitator tank 1's inside intercommunication, feeding return bend 21 can be rotatory around feeding seat 22, then can adapt to different feeding material according to the angle of its rotatory adjustment feeding.

The supporting component 3 comprises an underframe 31, a motor base 32, a supporting plate 33 and a discharging platform supporting frame 34, the motor base 32 and the supporting plate 33 are fixed in the middle of the underframe 31 up and down side by side and are used for supporting the rotary lifting component 5, the top end of the underframe 31 is connected with the outer side of the stirring tank 1, the bottom end of the discharging platform supporting frame 34 is connected with the underframe 31, the discharging platform supporting frame 34 is connected with a one-to-one corresponding discharging component 6, and the discharging component 6 is used for collecting materials subpackaged by the rotary screen subassembly 4.

Referring to fig. 3-5, the rotating screen subassembly 4 includes an upper screen plate 41, a middle screen plate 42, a lower screen plate 43, a stirring plate 44, a stirring shaft 45 and a bottom cover plate 46, the top of the stirring shaft 45 sequentially penetrates through the circle centers of the upper screen plate 41, the middle screen plate 42, the lower screen plate 43 and the bottom cover plate 46 from top to bottom and is fixed with the upper screen plate 41, the middle screen plate 42, the lower screen plate 43 and the bottom cover plate 46, slotted holes are distributed on the upper screen plate 41, the middle screen plate 42 and the lower screen plate 43, the slotted holes are different in arrangement diameter, and the screening of the feed is completed by sequentially reducing the diameters of the slotted holes from top to bottom;

the upper sieve plate 41, the middle sieve plate 42, the lower sieve plate 43 and the bottom cover plate 46 are arranged in the stirring tank 1, the upper sieve plate 41, the middle sieve plate 42, the lower sieve plate 43 and the bottom cover plate 46 rotate along the inner wall of the stirring tank 1 and are in a close contact state, the upper sieve plate 41, the middle sieve plate 42, the lower sieve plate 43 and the bottom cover plate 46 cannot be separated in the rotating and up-and-down moving processes, and feed cannot be leaked;

the stirring plate 44 is fixed on the inner wall of the stirring tank 1 above the upper sieve plate 41, the middle sieve plate 42, the lower sieve plate 43 and the bottom cover plate 46 respectively.

The rotary lifting assembly 5 comprises a sleeve 51, an upper spring 52, a motor 53, a transmission main shaft 54, a lower spring 56, a transmission auxiliary shaft 57 and a limiting block 58, wherein the motor 53 is fixed on the motor base 32 through a bolt, and the sleeve 51 penetrates through the supporting plate 33 to be fixed;

one end of the transmission main shaft 54 is connected with the output end of the motor 53, the other end of the transmission main shaft 54 is inserted into the sleeve 51 and movably connected with the bearing in the sleeve 51, one end of the transmission auxiliary shaft 57 is inserted into the transmission main shaft 54, and the other end of the transmission auxiliary shaft 57 extends into the sleeve 51 and is fixed with the bottom end of the limiting block 58;

the lower spring 56 is fixed with the bottom wall of the sleeve 51, a section of internal thread is arranged in the sleeve 51, the lowest end of the internal thread extends to the highest position of the lower spring 56, the highest end of the internal thread extends to the horizontal center line of the sleeve 51, and the upper spring 52 and the lower spring 56 are arranged to be capable of ascending or descending when the sleeve is rotated forwards or reversely;

the external screw thread and the internal thread that process on the stopper 58 outer wall mesh to the top of stopper 58 and the (mixing) shaft 45 bottom mounting that inserts sleeve 51, go up spring 52 cover in the outside of (mixing) shaft 45, go up the bottom of spring 52 and stopper 58 top surface swing joint, the top of going up spring 52 is fixed on the roof of sleeve 51.

The discharge assembly 6 comprises a discharge opening 61 and a discharge plate 62, the discharge opening 61 is arranged below the upper screen plate 41, the middle screen plate 42, the lower screen plate 43 and the bottom cover plate 46, the discharge plate 62 is movable along the edge of the discharge opening 61, the discharge opening 61 is obliquely arranged, and feed flows into the discharge opening 61 along the discharge plate 62 in the rotating process of the upper screen plate 41, the middle screen plate 42, the lower screen plate 43 and the bottom cover plate 46 through the oblique arrangement of the discharge plate 62, so that the discharge assembly is realized.

The transmission main shaft 54 and the transmission auxiliary shaft 57 are connected through a clamping block and a clamping groove, the transmission main shaft 54 and the transmission auxiliary shaft 57 rotate synchronously and radially, and the transmission main shaft 54 and the transmission auxiliary shaft 57 can move telescopically relative to each other.

Through control normal rotation and derotation to whether control rises and descends, and rotatory also can not receive the influence, also realize rising to the highest point stirring moreover, descend to the lowest, realize arranging the material.

A subpackaging method of a stirring and subpackaging device for feed production comprises the following steps:

the method comprises the following steps: the motor 53 drives the transmission main shaft 54, the transmission auxiliary shaft 57 and the limiting block 58 to synchronously rotate, the limiting block 58 is in the positive rotation process, the lower spring 56 slowly stretches and restores to the initial position, the limiting block 58 is meshed with the sleeve 51, and the limiting block 58 rises along the internal thread and slowly compresses the upper spring 52;

step two: the limiting block 58 slowly rises to a position where the limiting block is separated from the internal threads, when the upper sieve plate 41, the middle sieve plate 42, the lower sieve plate 43 and the bottom cover plate 46 are all contacted with the bottom surface of the stirring plate 44, the limiting block 58 cannot continuously rise due to the fact that the rotating direction of the limiting block 58 is the same as the thread direction;

step three: the feed is added into the feed elbow 21 and falls onto the upper sieve plate 41, the feed is driven to move due to the synchronous rotation of the upper sieve plate 41, the middle sieve plate 42, the lower sieve plate 43 and the bottom cover plate 46, and the feed is blocked by the stirring plate 44 and is sequentially screened by the upper sieve plate 41, the middle sieve plate 42 and the lower sieve plate 43 until the feed with the minimum diameter falls onto the bottom cover plate 46;

step four: the motor 53 drives the transmission main shaft 54 to rotate reversely, under the action of pressure, the limiting block 58 is in reverse direction with the thread of the sleeve 51, the limiting block 58 slowly descends and contacts with the lower spring 56 to slowly compress the lower spring 56 until the limiting block 58 is separated from the thread, and the rotating direction is consistent with the thread direction, so that the limiting block 58 keeps rotating;

step five: after the upper screen plate 41, the middle screen plate 42, the lower screen plate 43 and the bottom cover plate 46 are moved to be aligned with the discharge opening 61, the discharge plate 62 slowly penetrates into the stirring tank 1 to be in contact with the upper screen plate 41, the middle screen plate 42, the lower screen plate 43 and the bottom cover plate 46, and the feed flows out of the discharge opening 61 along the discharge plate 62 by rotating the upper screen plate 41, the middle screen plate 42, the lower screen plate 43 and the bottom cover plate 46.

In conclusion; according to the stirring and subpackaging device and the subpackaging method for the feed production, the feeding bent pipe 21 is communicated with the interior of the stirring tank 1, and the feeding bent pipe 21 can rotate around the feeding seat 22, so that the feeding angle can be adjusted according to the rotation of the feeding bent pipe, and different feeding materials can be adapted. Slotted holes are distributed on the upper sieve plate 41, the middle sieve plate 42 and the lower sieve plate 43, the slotted holes are different in arrangement diameter, and the diameters of the slotted holes are sequentially reduced from top to bottom to complete the sieving of the feed; through control normal rotation and derotation to whether control rises and descends, and rotatory also can not receive the influence, also realize rising to the highest point stirring moreover, descend to the lowest, realize arranging the material.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims

1. The stirring and subpackaging device for the feed production is characterized by comprising a stirring tank (1), wherein a feeding assembly (2) is inserted into the top end of the stirring tank (1), the top of the stirring tank (1) is connected with a supporting assembly (3), the inner side of the stirring tank (1) is connected with a rotary screen subassembly (4) and a discharging assembly (6), and a rotary lifting assembly (5) and a rotary screen subassembly (4) which are arranged on the supporting assembly (3) are connected;

the rotary screen subassembly (4) comprises an upper screen plate (41), a middle screen plate (42), a lower screen plate (43), a stirring plate (44), a stirring shaft (45) and a bottom cover plate (46), wherein the top of the stirring shaft (45) sequentially penetrates through the circle centers of the upper screen plate (41), the middle screen plate (42), the lower screen plate (43) and the bottom cover plate (46) from top to bottom, and is fixed with the upper screen plate (41), the middle screen plate (42), the lower screen plate (43) and the bottom cover plate (46);

the upper sieve plate (41), the middle sieve plate (42), the lower sieve plate (43) and the bottom cover plate (46) are arranged in the stirring tank (1), and the upper sieve plate (41), the middle sieve plate (42), the lower sieve plate (43) and the bottom cover plate (46) rotate along the inner wall of the stirring tank (1) and are in a close contact state;

the stirring plate (44) is respectively fixed on the inner wall of the stirring tank (1) above the upper sieve plate (41), the middle sieve plate (42), the lower sieve plate (43) and the bottom cover plate (46);

the rotary lifting assembly (5) comprises a sleeve (51), an upper spring (52), a motor (53), a transmission main shaft (54), a lower spring (56), a transmission auxiliary shaft (57) and a limiting block (58), the supporting assembly (3) comprises an underframe (31), a motor base (32), a supporting plate (33) and a blanking table supporting frame (34), the motor base (32) and the supporting plate (33) are fixed in the middle of the underframe (31) in an up-and-down side-by-side mode and used for supporting the rotary lifting assembly (5), the motor (53) is fixed on the motor base (32) through bolts, and the sleeve (51) penetrates through the supporting plate (33) to be fixed;

one end of the transmission main shaft (54) is connected with the output end of the motor (53), the other end of the transmission main shaft (54) is inserted into the sleeve (51) and movably connected with a bearing in the sleeve (51), one end of the transmission auxiliary shaft (57) is inserted into the transmission main shaft (54), and the other end of the transmission auxiliary shaft (57) extends into the sleeve (51) and is fixed with the bottom end of the limiting block (58);

the lower spring (56) is fixed with the bottom wall of the sleeve (51), a section of internal thread is arranged inside the sleeve (51), the lowest end of the internal thread extends to the highest position of the lower spring (56), and the highest end of the internal thread extends to the horizontal center line of the sleeve (51);

the outer thread and the inner thread processed on the outer wall of the limiting block (58) are meshed, the top end of the limiting block (58) is fixed to the bottom end of a stirring shaft (45) inserted into the sleeve (51), the upper spring (52) is sleeved outside the stirring shaft (45), the bottom end of the upper spring (52) is movably connected with the top surface of the limiting block (58), and the top end of the upper spring (52) is fixed to the top wall of the sleeve (51).

2. A feed production mixing and dispensing apparatus according to claim 1, wherein the feeding assembly (2) comprises a feeding elbow (21) and a feeding base (22), the feeding base (22) is welded on the top opening of the mixing tank (1), one end of the feeding elbow (21) is inserted into the bearing of the feeding base (22), and the feeding elbow (21) is communicated with the inside of the mixing tank (1).

3. The feed production stirring and split charging device as claimed in claim 2, characterized in that the top end of the bottom frame (31) is connected with the outer side of the stirring tank (1), the bottom end of the blanking table support frame (34) is connected with the bottom frame (31), the blanking table support frames (34) are correspondingly connected with the discharging assemblies (6), and the discharging assemblies (6) are used for collecting the materials split charged by the rotary screen component assembly (4).

4. A feed production stirring and split charging device as claimed in claim 3, characterized in that the discharge assembly (6) comprises a discharge opening (61) and a discharge plate (62), the discharge opening (61) is arranged below the upper screen plate (41), the middle screen plate (42), the lower screen plate (43) and the bottom cover plate (46), the discharge plate (62) is movably connected with the edge of the discharge opening (61), and the discharge opening (61) is arranged obliquely.

5. A feed production stirring and split charging device as claimed in claim 4, characterized in that the transmission main shaft (54) and the transmission auxiliary shaft (57) are connected through a clamping block and a clamping groove, the transmission main shaft (54) and the transmission auxiliary shaft (57) rotate synchronously and radially, and the transmission main shaft (54) and the transmission auxiliary shaft (57) can move telescopically relative to each other.

6. The subpackaging method of the feed production stirring and subpackaging device as defined in claim 5, which is characterized by comprising the following steps:

s1: the motor (53) drives the transmission main shaft (54), the transmission auxiliary shaft (57) and the limiting block (58) to synchronously rotate, the lower spring (56) slowly stretches and restores to the initial position in the process of forward rotation of the limiting block (58), the limiting block (58) is meshed with the sleeve (51), and the limiting block (58) rises along the internal thread and slowly compresses the upper spring (52);

s2: the limiting block (58) slowly rises to a position where the limiting block is separated from the internal threads, and when the upper sieve plate (41), the middle sieve plate (42), the lower sieve plate (43) and the bottom cover plate (46) are all contacted with the bottom surface of the stirring plate (44), the limiting block (58) cannot continuously rise due to the fact that the rotating direction of the limiting block (58) is the same as the thread direction;

s3: the feed is added into the upper sieve plate (41) through the feeding bent pipe (21) and falls onto the upper sieve plate (41), the feed is driven to move due to the synchronous rotation of the upper sieve plate (41), the middle sieve plate (42), the lower sieve plate (43) and the bottom cover plate (46), the feed is blocked through the stirring plate (44), and then the feed is sequentially screened through the upper sieve plate (41), the middle sieve plate (42) and the lower sieve plate (43) until the feed with the minimum diameter falls onto the bottom cover plate (46);

s4: the motor (53) drives the transmission main shaft (54) to rotate reversely, under the action of pressure, the limiting block (58) and the threads of the sleeve (51) are reversed, the limiting block (58) slowly descends and contacts with the lower spring (56), the lower spring (56) is slowly compressed until the limiting block (58) is separated from the threads, and the rotating direction is consistent with the thread direction, so that the limiting block (58) keeps rotating;

s5: go up sieve (41), well sieve (42), lower sieve (43) and bottom plate (46) and move to and align back with bin outlet (61), arrange material board (62) and slowly go deep into agitator tank (1) in with last sieve (41), well sieve (42), lower sieve (43) and bottom plate (46) contact, through rotatory upper sieve (41), well sieve (42), lower sieve (43) and bottom plate (46), the fodder flows out bin outlet (61) along arranging material board (62).