CN220610130U - Livestock feed processing device - Google Patents

Abstract

A livestock feed processing device comprising: the crushing and stirring mechanism is provided with a first shell and a first rotating shaft which is arranged in the first shell in a rotating way around a shaft, a plurality of stirring units for stirring feed and a shifting plate for shifting fibers are fixedly arranged on the first rotating shaft along the circumferential direction of the first rotating shaft at intervals, one end of the first shell is provided with a rotating plate which rotates around the shaft, a plurality of cutters are fixedly arranged on the inner side of the rotating plate along the circumferential direction of the rotating plate at intervals, each cutter consists of a plurality of blades which are arranged along the axial direction of the first shell at intervals, and a plurality of cutters matched with the blades are arranged on the shifting plate; the utility model provides a pelletization mechanism, fixed setting has saved the area of equipment and inside and the discharge gate intercommunication of first casing in the below of first casing to be used for extruding of fodder and cutting off pelletization work, belong to feed processing technical field, stirring unit, dial the rotation opposite direction of board and cutter, can improve fibrous shredding speed greatly, improve work efficiency.

Description

Livestock feed processing device

Technical Field

The utility model relates to the technical field of feed processing, in particular to a livestock feed processing device.

Background

The livestock feed is mainly fiber feed prepared by crushing and processing sweet sorghum, corn, reed, cotton and other straws, is a main feed for ruminants, and is prepared by crushing raw materials of the feed, adding additives, stirring and mixing, and granulating.

The existing feed processing device mainly comprises the steps of firstly adopting a squeeze roller to squeeze raw materials, then stirring and granulating, wherein as fiber feed contains a large amount of fibers, the crushing effect cannot be ensured only by virtue of squeezing, and the fibers can sink after entanglement, so that the fiber feed cannot be uniformly stirred; the existing feed processing device with the fiber cutting function is characterized in that a cutter is fixedly arranged on the inner wall of a rotating shaft or a container, the cutter is driven by the rotating shaft or the fiber is driven by a poking plate, so that fiber cutting is realized, the fiber crushing efficiency is low, the feed processing device with the fiber cutting function does not have a granulating function, broken feed needs to be conveyed to other granulating devices for processing through manpower, the whole occupied area of equipment is large, the use is inconvenient, and the production efficiency is seriously influenced.

Disclosure of Invention

In order to solve the technical problems in the background technology, the utility model provides a livestock feed processing device.

The technical scheme of the utility model is as follows:

the embodiment of the utility model provides a livestock feed processing device, which comprises:

the crushing and stirring mechanism is provided with a first shell and a first rotating shaft which is arranged in the first shell in a rotating way around a shaft, a plurality of stirring units for stirring feed and a stirring plate for stirring fibers are fixedly arranged on the first rotating shaft along the circumferential direction of the first rotating shaft at intervals, one end of the first shell is provided with a rotating plate which rotates around the shaft, a plurality of cutters are fixedly arranged on the inner side of the rotating plate along the circumferential direction of the rotating plate at intervals, each cutter consists of a plurality of blades which are axially arranged along the first shell at intervals, and the stirring plate is provided with a plurality of blades matched with the blades for cutting and crushing the fibers, so that the fibers are prevented from winding and sinking, the mixing uniformity of the feed is effectively ensured, the rotating directions of the stirring units and the stirring plate are opposite to the rotating directions of the cutters, the cutting speed of the fibers can be greatly improved, and the working efficiency is improved;

the pelletization mechanism is fixedly arranged below the first shell and is communicated with the discharge hole of the first shell, so that the pelletization mechanism is used for extruding and cutting off feed, the whole occupied area of the pelletization mechanism is small, the feed after crushing and stirring is not required to be manually transferred, and the working strength is greatly reduced.

As a further implementation mode, the first shell is of a cylindrical structure which is horizontally placed, one end of the first shell is plugged by a side plate which is fixedly arranged, the other end of the first shell is plugged by the rotating plate, a groove for installing the rotating plate is formed in the circumferential direction of the inner wall of the first shell, the position of the rotating plate is conveniently limited, and the phenomenon that the rotating plate deviates in the rotating process is avoided.

As a further implementation mode, the stirring units and the stirring plates are alternately arranged along the circumferential direction of the first rotating shaft at intervals, and each stirring unit consists of a plurality of stirring rods arranged along the axial direction of the first rotating shaft at intervals.

As a further implementation mode, the length of the poking plate is the same as the length of the inner space of the first shell, so that the uniformity of feed stirring and crushing in the first shell is ensured, dead angles do not exist, the crushing and stirring quality of feed is effectively improved, the poking plate is of a plate-shaped structure, one side of the poking plate, which is far away from the first rotating shaft, is adjacent to the inner wall of the first shell, and the poking plate is fixedly connected with the first rotating shaft through at least one first connecting rod, so that the poking plate is convenient to replace.

As a further implementation, the knife edges are in one-to-one correspondence with the blades.

As a further implementation mode, the cutter comprises a second connecting rod and a plurality of blades fixedly arranged on the second connecting rod, the second connecting rod is parallel to the first rotating shaft, the second connecting rod is adjacent to the inner wall of the first shell, and the blades are arranged at intervals along the axial direction of the second connecting rod, so that the fiber pulling and cutting in the first shell are effectively ensured, and the fiber sinking is avoided.

As a further implementation mode, the first rotating shaft and the rotating plate are driven by the driving unit respectively, so that independent control among the stirring unit, the shifting plate and the cutter is facilitated, and the stirring device can be suitable for different working condition demands.

As a further implementation mode, the pelletization mechanism comprises a second shell, a second rotating shaft arranged in the second shell, a discharge plate fixedly arranged at one end of the second shell, and a spiral blade and a scraper fixedly arranged on the second rotating shaft, wherein the second shell is communicated with a discharge hole of the first shell, a valve is arranged at the discharge hole, so that the crushing and stirring work and the pelletization work of the feed are synchronously carried out, the production efficiency of the feed is greatly improved, a plurality of through holes are uniformly formed in the discharge plate, the spiral blade is used for pushing and extruding the feed to the discharge plate, and the scraper is fixedly arranged at one end of the second rotating shaft extending out of the second shell so as to cut off the feed extruded from the discharge plate.

As a further implementation manner, the second rotating shaft is horizontally arranged and is coaxially arranged with the second shell, and the spiral blade is fixedly arranged on the shaft body of the second rotating shaft.

As a further implementation mode, the discharging plate is at least provided with one, the discharging plate is positioned on one side of the scraper, and the rotating scraper can be utilized to alternately scrape feeds on different discharging plates.

The utility model has the beneficial effects that:

(1) The stirring unit, the stirring plate and the cutter are matched for use, so that the stirring unit can be used for cutting and crushing fibers, winding and sinking of the fibers are avoided, the stirring unit is matched for work, the mixing uniformity of feed is effectively ensured, the rotation directions of the stirring unit and the stirring plate are opposite to the rotation direction of the cutter, the cutting speed of the fibers can be greatly improved, the working efficiency is improved, meanwhile, the crushing stirring mechanism is arranged above the granulating mechanism, the occupied area of equipment is saved, the crushed and stirred feed is not required to be carried manually, the use is convenient, and the working strength is reduced.

(2) According to the utility model, the valve is arranged at the discharge hole, and the feed can be put into the first shell for crushing and stirring in the granulating process, so that the crushing and stirring of the feed and the granulating are synchronously carried out, and the production efficiency of the feed is greatly improved.

(3) The groove for installing the rotating plate is formed in the inner wall of the first shell along the circumferential direction of the first shell, so that the position of the rotating plate is conveniently limited, and the phenomenon of deflection in the rotating process of the rotating plate is avoided.

Drawings

In the drawings:

fig. 1 is a schematic diagram of a front view of a livestock feed processing device according to one or more embodiments of the utility model;

fig. 2 is a schematic side view of a livestock feed processing device according to one or more embodiments of the utility model;

FIG. 3 is a schematic cross-sectional view of a crushing and stirring mechanism according to one or more embodiments of the utility model;

FIG. 4 is a schematic illustration of the mating relationship of a paddle and blade according to one or more embodiments of the utility model;

FIG. 5 is a schematic cross-sectional view of a pelletization mechanism according to one or more embodiments of the utility model;

the components represented by the reference numerals in the figures are:

1. a crushing and stirring mechanism; 2. a granulating mechanism; 3. a first housing; 4. a first driving unit; 5. a second driving unit; 6. a first rotating shaft; 7. a stirring rod; 8. a first connecting rod; 9. a poking plate; 10. a blade; 11. a second connecting rod; 12. a rotating plate; 13. a knife edge; 14. a feed inlet; 15. a discharge port; 16. a second housing; 17. a third driving unit; 18. a second rotating shaft; 19. a helical blade; 20. a discharge plate; 21. a scraper.

Detailed Description

As described in the background art, most of the existing feed processing devices adopt extrusion rollers to extrude raw materials, then stir and granulate, and as fiber feed contains a large amount of fibers, the crushing effect cannot be ensured only by extrusion, and the fibers sink after entanglement, so that the fibers cannot be stirred uniformly; the existing feed processing device with the fiber cutting function is mainly characterized in that a cutter is fixedly arranged on the inner wall of a rotating shaft or a container, the cutter is driven by the rotating shaft or the fiber is driven by a poking plate to move, so that fiber cutting is realized, the fiber crushing efficiency is low, the feed processing device with the fiber cutting function does not have a granulating function, broken feed needs to be manually conveyed to other granulating devices for processing, the whole occupied area of equipment is large, the use is inconvenient, and the production efficiency is seriously influenced.

Example 1

In an exemplary embodiment of the present utility model, as shown in fig. 1 to 5, there is provided a livestock feed processing device comprising: a broken rabbling mechanism 1 for fodder breakage and stirring work and be used for pelletization mechanism 2 of fodder pelletization work, broken rabbling mechanism 1 fixed mounting is in the top of pelletization mechanism 2, and the discharge gate 15 of broken rabbling mechanism 1 communicates with pelletization mechanism 2's inside to be used for throwing broken, the fodder after the stirring into pelletization mechanism 2 and pelletize.

The crushing and stirring mechanism 1 consists of a first shell 3, a first driving unit 4, a second driving unit 5, a stirring unit, a stirring plate 9 and a cutter.

Wherein, first casing 3 is the cylindric structure that the level was placed, and the one end of first casing 3 passes through the curb plate shutoff, and the other end passes through the commentaries on classics board 12 shutoff, and the curb plate is fixed through welded mode, and commentaries on classics board 12 and first casing 3 rotate to be connected, is equipped with the recess along its hoop on the inner wall of first casing 3, and commentaries on classics board 12 rotate and install in the recess to make commentaries on classics board 12 not only can rotate around the axle, can also limited restriction commentaries on classics board 12 position.

The first driving unit 4 and the second driving unit 5 are oppositely arranged at two ends of the first shell 3, the output end of the first driving unit 4 is connected with the stirring unit and the stirring plate 9 through the first rotating shaft 6, and the stirring unit and the stirring plate 9 are positioned inside the first shell 3, so that the stirring unit and the stirring plate 9 can be driven to rotate around the shaft by the first driving unit 4.

Specifically, the first rotating shaft 6 penetrates through the side plate and goes deep into the first shell 3, the stirring units and the stirring plates 9 are all provided with a plurality of stirring units and stirring plates 9 which are fixedly installed on the first rotating shaft 6, and the stirring units and the stirring plates 9 are alternately arranged along the circumferential direction of the first rotating shaft 6 at intervals, namely, a stirring unit is arranged between the two stirring plates 9.

Each stirring unit consists of a plurality of stirring rods 7 which are arranged at intervals along the axial direction of the first rotating shaft 6, and the stirring rods 7 are fixedly arranged on the first rotating shaft 6 in a welding, bolting mode and the like and are mainly used for stirring the feed in the first shell 3 so as to ensure the uniformity of feed mixing;

the length of the poking plate 9 is the same as the length of the inner space of the first shell 3, so that the uniformity of feed stirring and crushing in the first shell 3 is ensured, dead angles do not exist, and the crushing and stirring quality of the feed is effectively improved.

Each shifting plate 9 is fixedly connected with the first rotating shaft 6 through at least one first connecting rod 8, so that the overall width of the shifting plate 9 can be reduced, and the quality of the shifting plate 9 is reduced; on the other hand, the shifting plate 9 can be replaced conveniently, and the first rotating shaft 6 is not damaged.

The cutters are provided with a plurality of cutters which are arranged at intervals along the circumferential direction of the first shell 3, and each cutter consists of a plurality of blades 10 which are arranged at intervals along the axial direction of the first shell 3.

The poking plate 9 is of a plate-shaped structure, one side, far away from the first rotating shaft 6, of the poking plate 9 is adjacent to the inner wall of the first shell 3, a plurality of knife edges 13 are arranged on the poking plate 9 at intervals along the length direction of the poking plate, the sizes of the knife edges 13 are matched with those of the knife edges 10, the knife edges 10 on the cutter correspond to the knife edges 13 on the poking plate 9 one by one, the poking plate 9 can be used for poking fibers, and the fibers are cut and crushed under the cooperation of the knife edges 10 and the knife edges 13.

It should be noted that the end of the stirring rod 7 is not in contact with the cutter, so as to avoid collision damage between the stirring rod 7 and the cutter.

The cutter comprises a plurality of blades 10 and second connecting rod 11, a plurality of blades 10 set up along the axial interval of second connecting rod 11, second connecting rod 11 is parallel with first pivot 6, second connecting rod 11 is adjacent to the inner wall of first casing 3, the fixed one side that sets up of first casing 3 inner wall is kept away from at second connecting rod 11 to blade 10, the one end of second connecting rod 11 is through welding, mode fixed mounting such as bolting on rotating plate 12, the outer wall of rotating plate 12 and the output shaft fixed connection of second drive unit 5, thereby second drive unit 5 can drive rotating plate 12 around the axle rotation, and then drive the cutter around the axle rotation through rotating plate 12.

The rotation directions of the output ends of the first driving unit 4 and the second driving unit 5 are different, namely, the rotation directions of the stirring unit and the poking plate 9 are opposite to the rotation direction of the cutter, so that the cutting speed of fibers can be greatly improved, and the working efficiency is improved.

It will be appreciated that the rotational speeds of the output ends of the first driving unit 4 and the second driving unit 5 may be the same or different, and specifically may be selected according to actual requirements, which is not limited in any way.

The top of first casing 3 is equipped with feed inlet 14, and the bottom of first casing 3 is equipped with discharge gate 15, and the top of first casing 3 fixed mounting in pelleting mechanism 2, and discharge gate 15 and the inside intercommunication of pelleting mechanism 2 to can put in pelleting mechanism 2 with the fodder that broken rabbling mechanism 1 inside accomplished broken stirring and carry out pelleting work, discharge gate 15 department is equipped with the valve, in order to be used for controlling the break-make of discharge gate 15.

The granulating mechanism 2 consists of a second shell 16, a third driving unit 17, a second rotating shaft 18, a helical blade 19, a discharging plate 20 and a scraper 21.

The third driving unit 17 is disposed at one end of the second casing 16, the output end of the third driving unit 17 is fixedly connected with the second rotating shaft 18, the second rotating shaft 18 is located inside the second casing 16, the spiral blade 19 is fixedly mounted on the second rotating shaft 18, the discharging plate 20 and the scraper 21 are mounted at one end of the second casing 16 far away from the third driving unit 17, and the scraper 21 is also fixedly mounted on the second rotating shaft 18, so that the spiral blade 19 can be utilized to extrude the feed from the discharging plate 20, and the scraper 21 is utilized to scrape the feed with a set length to realize pelletization.

Specifically, the discharging plate 20 is provided with at least one, one end of the second housing 16 is provided with an extrusion port, the discharging plate 20 is fixedly arranged at the extrusion port, and the discharging plate 20 is uniformly provided with a plurality of through holes with preset sizes for extrusion molding of feed.

The second rotating shaft 18 is horizontally arranged and is coaxially arranged with the second shell 16, both ends of the second rotating shaft 18 extend out of the second shell 16, wherein one end of the second rotating shaft 18 is connected with the third driving unit 17, the other end of the second rotating shaft is fixedly connected with the scraper 21, so that the scraper 21 can be driven to rotate around the shaft by the second rotating shaft 18, and the spiral blade 19 is fixedly arranged on the shaft body of the second rotating shaft 18 and used for pushing feed in the second shell 16 to the discharge plate 20.

The discharge plates 20 are located at one side of the scraper 21, so that when several discharge plates 20 are arranged, the rotating scraper 21 can be used to scrape the feed on different discharge plates 20 alternately, wherein the length of the scraper 21 should be larger than the size of the discharge plate 20, so as to ensure that the feed at any position on the discharge plate 20 can be cut in the cutting process.

It will be appreciated that the outfeed plate 20 may be any shape, such as circular, square, etc.; the rotational speed of the second shaft 18 is determined according to the pelletization length of the feed actually required, and is not limited in particular here.

The specific working principle is as follows:

firstly, feeding feed into a first shell 3 through a feed inlet 14, starting a first driving unit 4 and a second driving unit 5, enabling the rotation directions of a first rotating shaft 6 and a rotating plate 12 to be opposite, driving a stirring rod 7 and a stirring plate 9 to rotate around a shaft by using the first rotating shaft 6, stirring fibers by using the stirring plate 9, driving a cutter to rotate by using the rotating plate 12, cutting the fibers under the cooperation of a blade 10 and a knife edge 13, and uniformly stirring and mixing the feed by using the stirring rod 7;

the valve at the discharge opening 15 is opened, so that the uniformly mixed feed is put into the second housing 16, the valve is closed, the third driving unit 17 is started, the feed is pushed to the discharge plate 20 by the spiral blade 19 and extruded, and the extruded feed is cut into pellet feed with a set length under the scraping action of the scraper 21.

Wherein, in the pelletization process, still can throw in the fodder again to first casing 3 in and carry out broken stirring work, make broken stirring work and the pelletization work of fodder go on in step, improved the production efficiency of fodder greatly.

Because broken rabbling mechanism 1 sets up in the top of pelletization mechanism 2, saved the area of equipment, simultaneously, need not the manual work to carry the fodder after broken, the stirring, made things convenient for the use, reduced working strength.

Claims (10)

1. A livestock feed processing device, comprising:

the crushing and stirring mechanism (1) is provided with a first shell (3) and a first rotating shaft (6) which is arranged in the first shell (3) in a rotating way around a shaft, a plurality of stirring units for stirring feed and a shifting plate (9) for shifting fibers are fixedly arranged on the first rotating shaft (6) along the circumferential interval of the first rotating shaft, a rotating plate (12) which rotates around the shaft is arranged at one end of the first shell (3), a plurality of cutters are fixedly arranged on the inner side of the rotating plate (12) along the circumferential interval of the rotating plate, each cutter consists of a plurality of blades (10) which are arranged along the axial interval of the first shell (3), a plurality of cutters (13) which are matched with the blades (10) are arranged on the shifting plate (9) for cutting and crushing fibers, and the rotating directions of the stirring units and the shifting plate (9) are opposite to the rotating directions of the cutters;

the granulating mechanism (2) is fixedly arranged below the first shell (3) and is internally communicated with a discharge hole (15) of the first shell (3) so as to be used for extruding and cutting off granulating work of feed.

2. The livestock feed processing device according to claim 1, wherein the first housing (3) is of a horizontally placed cylindrical structure, one end of the first housing is plugged by a fixedly arranged side plate, the other end of the first housing is plugged by the rotating plate (12), and a groove for installing the rotating plate (12) is formed in the inner wall of the first housing (3) along the circumferential direction of the inner wall of the first housing.

3. A livestock feed processing device according to claim 1, characterized in that the stirring units and the stirring plates (9) are alternately arranged along the circumferential direction of the first rotating shaft (6), and each stirring unit consists of a plurality of stirring rods (7) arranged along the axial direction of the first rotating shaft (6) at intervals.

4. The livestock feed processing device according to claim 1, wherein the length of the shifting plate (9) is the same as the length of the inner space of the first housing (3), the shifting plate (9) is of a plate-shaped structure, one side of the shifting plate (9) away from the first rotating shaft (6) is adjacent to the inner wall of the first housing (3), and the shifting plate (9) is fixedly connected with the first rotating shaft (6) through at least one first connecting rod (8).

5. A livestock feed processing device according to claim 1, characterized in that the knife edges (13) are in one-to-one correspondence with the blades (10).

6. A livestock feed processing device according to claim 1, characterized in that the cutter consists of a second connecting rod (11) and a plurality of blades (10) fixedly arranged on the second connecting rod (11), the second connecting rod (11) is parallel to the first rotating shaft (6), the second connecting rod (11) is adjacent to the inner wall of the first shell (3), and the plurality of blades (10) are arranged at intervals along the axial direction of the second connecting rod (11).

7. A livestock feed processing device according to claim 1, characterized in that the first rotation shaft (6) and the rotation plate (12) are driven by a driving unit, respectively.

8. The livestock feed processing device according to claim 1, wherein the granulating mechanism (2) comprises a second shell (16), a second rotating shaft (18) rotatably arranged in the second shell (16), a discharging plate (20) fixedly arranged at one end of the second shell (16), and a spiral blade (19) and a scraper (21) fixedly arranged on the second rotating shaft (18), the inside of the second shell (16) is communicated with a discharging hole (15) of the first shell (3), a valve is arranged at the discharging hole (15), a plurality of through holes are uniformly formed in the discharging plate (20), the spiral blade (19) is used for pushing feed to the discharging plate (20) and extruding the feed, and the scraper (21) is fixedly arranged at one end of the second rotating shaft (18) extending out of the second shell (16) and is used for cutting off the feed extruded from the discharging plate (20).

9. A livestock feed processing device according to claim 8, characterized in that the second shaft (18) is arranged horizontally and coaxially with the second housing (16), and the helical blade (19) is fixedly mounted on the shaft body of the second shaft (18).

10. A livestock feed processing device according to claim 8, characterized in that the discharge plate (20) is provided with at least one, the discharge plate (20) being located on one side of the scraper (21).