CN215842561U

CN215842561U - Mix processing equipment for ruminant feed

Info

Publication number: CN215842561U
Application number: CN202122163220.4U
Authority: CN
Inventors: 尤蒙
Original assignee: Jiangsu Agriportal Co ltd
Current assignee: Jiangsu Agriportal Co ltd
Priority date: 2021-09-08
Filing date: 2021-09-08
Publication date: 2022-02-18
Anticipated expiration: 2031-09-08

Abstract

The utility model discloses a ruminant feed mixing processing device, which comprises a mixing and stirring box body and feeding ports symmetrically arranged on two sides of the top of the mixing and stirring box body, a right mixing rotating shaft and a left mixing rotating shaft are respectively arranged in the mixing and mixing box body positioned below the feeding port, a middle mixing rotating shaft is arranged in the middle of the mixing and mixing box body, and each adjacent shaft is uniformly provided with a mixing cutter, a middle bottom plate of the mixed material mixing box body is provided with a through mixing feed opening communicated with a coarse material pressing box, a smooth fixed rotating shaft and a pressing block shaft are symmetrically and longitudinally arranged in the coarse material pressing box, a plurality of groups of longitudinal pressing cutters and a plurality of groups of annular pressing cutters are longitudinally arranged on the shaft surface of the pressing block shaft, and the longitudinal pressing knife and the annular pressing knife blade which are positioned on the inner side of the pressing block shaft are in contact with the axial surface of the adjacent side of the smooth fixed rotating shaft, so that the coarse materials with specific sizes are formed by fully mixing different mixed ruminant foodstuff and then extruding and cutting the mixed foodstuff, and the output utilization rate of the produced coarse materials is greatly improved.

Description

Mix processing equipment for ruminant feed

Technical Field

The utility model relates to the technical field of feed mixing equipment, in particular to ruminant feed mixing processing equipment.

Background

Ruminants are a sub-order of the artiodactyla. Rumination refers to eating and feeding food which is half digested in the stomach and then chewing again in the mouth, and a ruminant is an animal which has a ruminant digestion mode.

For cattle and sheep rumination, the osmotic pressure of rumen fluid is generally used as a key factor, cattle and sheep secrete a large amount of alkaline saliva in the rumination process, the secretion amount of the saliva is in direct proportion to the time of ingestion and rumination, the coarser the feed, the larger the secretion amount, buffer salts in the saliva can neutralize volatile fatty acid, the feed is important for stabilizing the pH value of the rumen, and for the feed for cattle and sheep rumination, the more coarse the feed is, the finer the particles of the feed are not needed, and the better the particles are.

Chinese utility model patent application no: CN201920371353.0 processing equipment for ruminant nutrients and daily ration, the processing equipment provided in the utility model patent can not satisfy the function of fine material mixing and coarsening, and the crushed aggregates produced in the screening process satisfy the healthy and healthy edible specification of the ruminant, and the output utilization rate is lower.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems in the technical background, the utility model aims to provide a ruminant feed mixing processing device, which solves the problems that the ruminant feed processing device provided by the background technology cannot meet the requirements of fine material coarsening and the output utilization rate of produced coarse material is too low.

In order to achieve the above purpose, the utility model adopts the technical scheme that:

a ruminant feed mixing processing device, which comprises a mixing and stirring box body and feeding ports symmetrically arranged at the two sides of the top part, a right mixing rotating shaft and a left mixing rotating shaft are respectively arranged in the mixed mixing box body which is positioned below the feeding port, a middle material mixing rotating shaft is arranged between the right material mixing rotating shaft and the left material mixing rotating shaft, and each adjacent shaft is uniformly provided with a stirring cutter which is arranged in a longitudinally staggered way, a stirring feed opening is arranged below the middle stirring rotating shaft and on the bottom plate of the mixed stirring box body in a penetrating way, a coarse material pressing box is arranged below the mixing feed opening, a smooth fixed rotating shaft and a pressing block shaft are symmetrically and longitudinally arranged below the mixing feed opening in the coarse material pressing box, a plurality of groups of longitudinal pressing knives and a plurality of groups of annular pressing knives are longitudinally arranged on the surface of the pressing block shaft, and the cutting edges of the longitudinal pressing cutter and the annular pressing cutter which are positioned on the inner side of the pressing block shaft are in contact with the adjacent side shaft surface of the smooth fixed rotating shaft.

Further, the material rotation axis is mixed on the right side the material rotation axis is mixed in a left side and the material box is mixed in the mixture of material rotation axis bottom is mixed with the middle part and is equipped with the arc kerve of parallel axis, just the material rotation axis bottom is mixed in the middle part the bottom of arc kerve is equipped with mix the feed opening.

Furthermore, one side shaft ends of the right material mixing rotating shaft, the left material mixing rotating shaft and the middle material mixing rotating shaft penetrate through the wall of the mixed material mixing box and are respectively and fixedly connected to the output ends of the third motor, the second motor and the first motor.

Furthermore, one side shaft ends of the smooth fixed rotating shaft and the pressing block shaft penetrate through the wall of the coarse material pressing box and are fixedly connected to the output ends of a fourth motor and a fifth motor, and the fourth motor and the fifth motor respectively drive the smooth fixed rotating shaft and the pressing block shaft to rotate from top to bottom towards the contact side through the output ends.

Furthermore, a material brush is arranged in the coarse material pressing box on the left side of the pressing block shaft in a parallel mode, the material brush is deeply inserted into a groove formed by the longitudinal pressing knife and the annular pressing knife, and the bottom of the coarse material pressing box is connected with a discharging opening (20).

Furthermore, a material storage box is arranged below the material outlet, and supporting legs are symmetrically arranged at the left end and the right end of the bottom of the mixed material mixing box body.

Compared with the prior art, the utility model has the following advantages:

(1) according to the utility model, the right material mixing rotating shaft and the left material mixing rotating shaft are respectively arranged in the material mixing and stirring box body positioned below the material inlet, the middle material mixing rotating shaft is arranged between the right material mixing rotating shaft and the left material mixing rotating shaft, the bottom of each shaft is provided with the arc-shaped bottom groove on the floor of the material mixing and stirring box body, and the material mixing knives which are longitudinally staggered are uniformly arranged on the adjacent shafts.

(2) Different foodstuffs are added into a mixed material mixing box body to be fully mixed, and then fall into a coarse material pressing box through a mixing feed opening arranged on an arc-shaped bottom groove below a middle material mixing rotating shaft, a smooth fixed rotating shaft and a pressing block shaft are symmetrically and longitudinally arranged below the mixing feed opening in the coarse material pressing box, a plurality of groups of longitudinal pressing knives and a plurality of groups of annular pressing knives are longitudinally arranged on the shaft surface of the pressing block shaft, the cutting edges of the longitudinal pressing knives and the annular pressing knives which are arranged on the inner side of the pressing block shaft are in contact with the adjacent side shaft surface of the smooth fixed rotating shaft, the plurality of groups of longitudinal pressing knives and the plurality of groups of annular pressing knives are cast and molded by a mold, and after edge opening, particle material grooves are formed between the adjacent longitudinal pressing knives and the adjacent annular pressing knives, a fourth motor and a fifth motor respectively drive the smooth fixed rotating shaft and the pressing block shaft to rotate from top to bottom towards the contact side through output ends, and mixture enters the adjacent longitudinal pressing knives and the adjacent annular pressing knives to form particle material grooves, and coarse materials with fixed sizes are formed after being extruded and cut by the adjacent sides of the smooth fixed rotating shaft The utility model discloses a production method of ruminant coarse fodder, including the feed opening, the feed opening is equipped with the granule silo, the feed opening is equipped with the feed brush, the part glues the coarse fodder that has in the granule silo and drops after the material brush, it forms the coarse fodder of specific size through the extrusion cutting to realize the ruminant foodstuff intensive mixing back of different mixings to go up the structure, all through the coarse fodder that the extrusion cutting formed after each foodstuff mixes, the output utilization ratio of production coarse fodder has been promoted greatly, simultaneously the interval of the adjustable prefabricated vertical pressing tool of demand and annular pressing tool realizes the ruminant coarse fodder of multiple different moulds preparation multiple different particle sizes.

Drawings

FIG. 1 is a first perspective view provided in accordance with an embodiment of the present invention;

FIG. 2 is a second perspective view provided in accordance with an embodiment of the present invention;

FIG. 3 is a perspective view, partially in section, of an embodiment of the present invention;

FIG. 4 is a perspective view of the smooth fixed rotating shaft and the pressing block shaft according to the embodiment of the present invention.

In the figure: 1. a mixing and stirring box body; 2. a feeding port; 3. a material mixing knife; 4. a right mixing rotating shaft; 5. a middle mixing rotating shaft; 6. a left mixing rotating shaft; 7. an arc-shaped bottom groove; 8. mixing a feed opening; 9. a first motor; 10. a second motor; 11. a third motor; 12. pressing a coarse material box; 13. smoothly fixing the rotating shaft; 14. a pressing block shaft; 15. longitudinal pressing knife; 16. an annular pressing knife; 17. material brushing; 18. a fourth motor; 19. a fifth motor; 20. a feeding port; 21. a material storage box; 22. and (5) supporting legs.

Detailed Description

The following detailed description of embodiments of the utility model refers to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present invention, are given by way of illustration and explanation only, not limitation.

As shown in figures 1-4, a mixed processing device for ruminant feed comprises a mixed material mixing box body 1 and feed inlets 2 symmetrically arranged at two sides of the top of the mixed material mixing box body, a right material mixing rotating shaft 4 and a left material mixing rotating shaft 6 are respectively arranged in the mixed material mixing box body 1 below the feed inlets 2, the right material mixing rotating shaft 4 and the left material mixing rotating shaft 6 both rotate towards the inner side, a middle material mixing rotating shaft 5 is arranged between the right material mixing rotating shaft 4 and the left material mixing rotating shaft 6, and the adjacent shafts are uniformly provided with material mixing knives 3 which are vertically staggered, the material mixing knives 3 can cut coarse materials while mixing the mixed materials, so that the full mixing and extrusion cutting forming are facilitated, a mixing feed opening 8 penetrates through the bottom plate of the mixed material mixing box body 1 below the middle material mixing rotating shaft 5, a coarse material pressing box 12 is arranged below the mixing feed opening 8, and a smooth fixed rotating shaft 13 and a pressing shaft are symmetrically and longitudinally arranged below the mixing feed opening 8 in the coarse material pressing box 12 14, a plurality of groups of longitudinal pressing knives 15 and a plurality of groups of annular pressing knives 16 are longitudinally arranged on the axial surface of the pressing block shaft 14, and the cutting edges of the longitudinal pressing knives 15 and the annular pressing knives 16 positioned on the inner side of the pressing block shaft 14 are contacted with the axial surface of the adjacent side of the smooth fixed rotating shaft 13.

The forming principle of the rumination coarse material is as follows: smooth fixed rotating shafts 13 and pressing block shafts 14 are symmetrically and longitudinally arranged below a mixing feed opening 8 in a coarse material pressing box 12, a plurality of groups of longitudinal pressing knives 15 and a plurality of groups of annular pressing knives 16 are longitudinally arranged on the axial surface of the pressing block shaft 14, the cutting edges of the longitudinal pressing knives 15 and the annular pressing knives 16 which are arranged on the inner side of the pressing block shaft 14 are contacted with the adjacent axial surface of the smooth fixed rotating shaft 13, the longitudinal pressing knives 15 and the annular pressing knives 16 are formed by mould casting, a particle trough is formed between the adjacent longitudinal pressing knives 15 and the adjacent annular pressing knives 16 through edge cutting, a fourth motor 18 and a fifth motor 19 respectively drive the smooth fixed rotating shaft 13 and the pressing block shaft 14 to rotate towards the contact side from top to bottom through output ends, and mixture enters the adjacent longitudinal pressing knives 15 and the adjacent annular pressing knives 16 to form the particle trough and then is extruded and cut by the adjacent sides of the smooth fixed rotating shafts to form coarse materials with fixed sizes, then the coarse material falls into the material storage box through the material outlet, and part of the coarse material stuck in the particle trough falls after being brushed by the material brush.

As shown in fig. 3, the material rotation axis 4 is mixed on the right side, the material rotation axis 6 is mixed on the left side and the material box 1 is mixed in the mixture of material rotation axis 5 bottom is mixed in middle part and is equipped with the arc kerve 7 of parallel axis, and the bottom of the arc kerve 7 of material rotation axis 5 bottom is mixed in the middle part is equipped with and stirs feed opening 8, the material rotation axis 4 is mixed with the left side with the material rotation axis 6 is mixed with the foodstuff cutting and push into the middle part in the right side, the mixture is mixed through the middle part and is mixed the material rotation axis 5 stirring cutting back through the bottom and stir the 8 ejection of compact of feed opening 8.

As shown in fig. 1-3, one side shaft ends of the right mixing rotating shaft 4, the left mixing rotating shaft 6 and the middle mixing rotating shaft 5 penetrate through the wall of the mixing and mixing box body 1 and are respectively and fixedly connected to the output ends of the third motor 11, the second motor 10 and the first motor 9, and the third motor 11, the second motor 10 and the first motor 9 respectively drive the right mixing rotating shaft 4, the left mixing rotating shaft 6 and the middle mixing rotating shaft 5 to rotate through the output ends, so that the cutting and mixing effects on foodstuff are realized.

As shown in fig. 4, one side shaft ends of the smooth fixed rotating shaft 13 and the pressing block shaft 14 penetrate through the wall of the coarse material pressing box 12 and are fixedly connected to output ends of a fourth motor 18 and a fifth motor 19, the fourth motor 18 and the fifth motor 19 respectively drive the shaft ends of the smooth fixed rotating shaft 13 and the pressing block shaft 14 to rotate from top to bottom towards the contact side through the output ends, and mixed foodstuff falling from the mixing feed opening 8 enters between the smooth fixed rotating shaft 13 and the pressing block shaft 14 and is extruded and cut.

As shown in fig. 3, a material brush 17 is installed in the coarse material pressing box 12 on the left side of the pressing block shaft 14 in a parallel shaft manner, the material brush 17 extends into a groove formed by the longitudinal pressing knife 15 and the annular pressing knife 16, the bottom of the coarse material pressing box 12 is connected with a feed opening 20, and the distance between the longitudinal pressing knife and the annular pressing knife of the prefabricated mold can be adjusted according to the size of the coarse material required to manufacture the coarse material of the ruminant with various different particle sizes by using various different molds.

As shown in figures 1 and 2, a material storage box 21 is arranged below the feed opening 20, supporting legs 22 are symmetrically arranged at the left end and the right end of the bottom of the mixing and stirring box body 1, the material storage box 21 can collect produced coarse materials, and the supporting legs 22 ensure the running stability of the equipment.

The foregoing shows and describes the general principles, essential features, and advantages of the utility model. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the utility model, but that various changes and modifications may be made without departing from the spirit and scope of the utility model, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a ruminant feed mixes processing equipment, mixes material box (1) and pan feeding mouth (2) of installing at top bilateral symmetry including mixing, its characterized in that: mix and install the right side in the material box body (1) of mixing that is located pan feeding mouth (2) below respectively and mix material rotation axis (4) and the left side and mix material rotation axis (6), the right side is mixed material rotation axis (4) and the left side is mixed and is installed the middle part in the middle of material rotation axis (6) and mix material rotation axis (5), and each adjacent epaxial evenly installs mix material sword (3) of vertically staggering the setting, the middle part is mixed material rotation axis (5) below and is located it is equipped with to mix feed opening (8) to run through on the material box body (1) bottom plate of mixing, mix feed opening (8) below and install coarse fodder suppression box (12), lie in the coarse fodder suppression box (12) mix feed opening (8) below symmetry and vertically install smooth fixed pivot (13) and briquetting axle (14), vertically install multiunit vertical push broach (15) and multiunit annular push broach (16) on briquetting axle (14) axial plane, and the cutting edges of the longitudinal pressing knife (15) and the annular pressing knife (16) which are positioned at the inner side of the pressing block shaft (14) are in contact with the adjacent side axial surface of the smooth fixed rotating shaft (13).

2. The mixed processing equipment for the ruminant feed as claimed in claim 1, wherein the right mixing rotating shaft (4), the left mixing rotating shaft (6) and the mixed mixing box body (1) at the bottom of the middle mixing rotating shaft (5) are provided with arc-shaped bottom grooves (7) with parallel shafts, and the bottom of the arc-shaped bottom groove (7) at the bottom of the middle mixing rotating shaft (5) is provided with the mixing feed opening (8).

3. The ruminant feed mixing processing device as claimed in claim 2, characterized in that one side shaft ends of the right mixing rotating shaft (4), the left mixing rotating shaft (6) and the middle mixing rotating shaft (5) penetrate through the wall of the mixing and mixing box body (1) and are respectively and fixedly connected to the output ends of the third motor (11), the second motor (10) and the first motor (9).

4. The mixed processing equipment for the ruminant feed as claimed in claim 1, wherein one side shaft ends of the smooth fixed rotating shaft (13) and the briquetting shaft (14) penetrate through the wall of the coarse material pressing box (12) and are fixedly connected to output ends of a fourth motor (18) and a fifth motor (19), and the fourth motor (18) and the fifth motor (19) respectively drive the smooth fixed rotating shaft (13) and the briquetting shaft (14) to rotate from top to bottom towards the contact side through the output ends.

5. The ruminant feed mixing processing device as claimed in claim 4, characterised in that a material brush (17) is mounted in parallel in the coarse material pressing box (12) on the left side of the pressing block shaft (14), the material brush (17) extends into the groove formed by the longitudinal pressing knife (15) and the annular pressing knife (16), and a feed opening (20) is connected to the bottom of the coarse material pressing box (12).

6. The mixed processing equipment for the ruminant feed as claimed in claim 5, wherein a storage box (21) is arranged below the feed opening (20), and support legs (22) are symmetrically arranged at the left end and the right end of the bottom of the mixed material stirring box body (1).