CN117342149B

CN117342149B - Farm agricultural cereal fodder storage facilities

Info

Publication number: CN117342149B
Application number: CN202311644007.2A
Authority: CN
Inventors: 王献玲; 陈思聿
Original assignee: Shanxi Fulushou Agricultural Technology Co ltd
Current assignee: Shanxi Fulushou Agricultural Technology Co ltd
Priority date: 2023-12-04
Filing date: 2023-12-04
Publication date: 2024-04-05
Anticipated expiration: 2043-12-04
Also published as: CN117342149A

Abstract

The utility model discloses farm agricultural grain feed storage equipment, which relates to the technical field of feed storage and comprises a storage tank and a heat dissipation cylinder, wherein the top surface of the storage tank is communicated with a feed hopper, and the heat dissipation cylinder is communicated with the storage tank; the middle part of the top surface of the storage tank is rotationally connected with a hollow sleeve, the middle part of the bottom surface of the storage tank is rotationally connected with a fixed sleeve, and a vertically placed central shaft is arranged in the storage tank; the bottom end part of the hollow sleeve is fixedly connected with a fixed disc, the outer ring surface of the fixed disc is fixedly provided with a plurality of circularly distributed extension arms, and the outer end part of each extension arm is rotationally connected with a stirring shaft; the middle part of center pin rotates and is connected with the carousel, fixedly connected with scraper blade of bending between carousel and the fixed disk, the bottom of center pin is fixed with helical blade. The utility model is used for storing grain feed and solves the problems of inconvenient storage and poor ventilation effect of the grain feed.

Description

Farm agricultural cereal fodder storage facilities

Technical Field

The utility model relates to the technical field of feed storage, in particular to farm agricultural grain feed storage equipment.

Background

The common farm agricultural grain feed storage equipment is storage equipment, and the common equipment is provided with a grain bin, a feed bin and a silo, so that the equipment can provide better fresh-keeping effect and convenient management, but certain investment and maintenance cost are required, and the application condition depends on the scale and the requirement of the farm. As disclosed in the Chinese patent, the feed storage device (publication No. CN 216944486U) for livestock and poultry farms comprises a storage tank body, wherein a base is arranged below the storage tank body, the storage tank body and the base are connected through a plurality of support columns, a discharge pipe is arranged at the bottom end of the storage tank body, a screw conveyer is arranged below the discharge pipe, a feed pipe is arranged on the screw conveyer, a movable seat is arranged below the screw conveyer, two threaded columns are fixedly connected on the screw conveyer, and two threaded sleeves are arranged at the top of the movable seat; the top of the movable seat is provided with a driving component matched with the threaded sleeve, the movable seat is connected with the base through a sliding unit, and the base is provided with a positioning clamping component for positioning the position of the movable seat.

In the cultivation process of common farms, grain feeds are generally stacked in storage rooms, are disordered and easy to cause bacterial breeding and germ transmission, and are stacked together for a long time, lack of ventilation and drying, so that the phenomenon of stuffy mold is easy to occur, and the cultivation risk is increased.

Disclosure of Invention

The utility model aims to solve the defects of inconvenient storage and poor ventilation effect of cereal feed in the prior art, and provides farm agricultural cereal feed storage equipment.

In order to solve the problems existing in the prior art, the utility model adopts the following technical scheme:

the agricultural grain feed storage equipment for the farm comprises a storage tank and heat dissipation cylinders, wherein the top surface of the storage tank is communicated with a feed hopper, a plurality of heat dissipation cylinders are arranged, the plurality of heat dissipation cylinders are annularly distributed in the middle of the storage tank, and each heat dissipation cylinder is communicated with the storage tank;

the middle part of the top surface of the storage tank is rotationally connected with a hollow sleeve, the middle part of the bottom surface of the storage tank is rotationally connected with a fixed sleeve, a vertically placed central shaft is arranged in the storage tank, and the upper end and the lower end of the central shaft are respectively rotationally connected with the hollow sleeve and the fixed sleeve;

the bottom end part of the hollow sleeve is fixedly connected with a fixed disc, a plurality of circularly distributed extension arms are fixed on the outer ring surface of the fixed disc, the outer end parts of the extension arms are respectively and rotatably connected with stirring shafts, and stirring paddles are respectively arranged on the stirring shafts;

the middle part of center pin rotates and is connected with the carousel, fixedly connected with scraper blade of bending between carousel and the fixed disk, the bottom of center pin is fixed with helical blade.

A first filter disc, a hollow disc and a second filter disc are sequentially fixed in the radiating cylinder from inside to outside; and a heat radiation fan is arranged in the middle of the hollow disc.

The inner bottom wall of the storage tank is provided with a plurality of elliptical blanking holes, the fixed sleeve is fixedly connected with a concentric disc, and the concentric disc is provided with a plurality of elliptical communication holes which are circularly arranged.

The bottom of the storage tank is provided with a first motor, and the fixed sleeve is driven to rotate by the first motor.

The top wall in the storage tank is fixed with a gear ring, and the top end parts of the stirring shafts are all fixed with planetary gears meshed with the gear ring.

The hollow sleeve is provided with a pair of linkage shafts, each linkage shaft is rotationally connected with the top surface of the storage tank, a pair of linkage gears are fixed on each linkage shaft, and the two linkage gears are meshed.

The hollow sleeve is characterized in that a limiting gear is fixed at the top end of the hollow sleeve, a plurality of limiting notches are formed in the outer ring surface of the limiting gear, a plurality of limiting pins are fixed on each linkage gear, and a plurality of limiting pins are alternately meshed with the limiting notches.

The top of the storage tank is provided with a second motor, and one of the linkage shafts is driven to rotate by the second motor.

The top end of the central shaft is fixed with a driven gear, and the top end of the other linkage shaft is fixed with a driving gear meshed with the driven gear.

The middle part of the storage tank is fixed with a fixed ring, the bottom surface of the fixed ring is fixed with a plurality of circularly distributed supporting legs, and a reinforcing ring is fixed between the middle parts of the supporting legs.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, under the driving action of the second motor, the grain feed is uniformly stirred through the stirring paddle and the bending scraping plate, and under the combined action of the plurality of cooling fans, the outside air is driven to be uniformly exchanged with the air in the storage tank, so that the phenomenon of stuffiness mould caused by long-time accumulation of the grain feed is avoided;

2. under the combined driving action of the first motor and the second motor, a plurality of elliptical communication holes are communicated with a plurality of elliptical blanking holes, and under the action of the helical blades, grain feed in the storage tank is driven to be discharged along the elliptical communication holes and the elliptical blanking holes;

in summary, the utility model is used for grain feed storage, solves the problems of inconvenient storage and poor ventilation effect of grain feed, has compact overall structural design, can select storage tanks with different sizes and capacities according to requirements, and can meet the requirements of farms with different scales.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this application, illustrate embodiments of the utility model and together with the description serve to explain the utility model and do not constitute a limitation on the utility model. In the drawings:

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of the overall structure of the present utility model in section;

FIG. 3 is a schematic view showing the distribution of the internal structure of the storage tank according to the present utility model;

FIG. 4 is an exploded view of FIG. 3 in accordance with the present utility model;

FIG. 5 is a schematic view of the connection between the hollow sleeve and the central shaft according to the present utility model;

FIG. 6 is a schematic diagram showing the distribution of the internal structure of the heat dissipation cylinder according to the present utility model;

number in the figure: 1. a storage tank; 11. a feed hopper; 12. a fixing ring; 13. a support leg; 14. a reinforcing ring; 15. a heat dissipation cylinder; 16. a first filter tray; 17. a hollow disc; 18. a heat radiation fan; 19. a second filter tray; 2. a hollow sleeve; 21. a fixed plate; 22. a stirring shaft; 23. stirring paddles; 24. a planetary gear; 25. a gear ring; 26. bending the scraping plate; 3. a central shaft; 31. a helical blade; 32. a fixed sleeve; 33. a concentric disc; 34. a first motor; 35. a first chain belt; 36. a turntable; 4. a limit gear; 41. a linkage shaft; 42. a linkage gear; 43. limiting pin shafts; 44. a second motor; 45. a second chain belt; 46. a drive gear; 47. a driven gear.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Embodiment one: the present embodiment provides a farm agricultural grain feed storage apparatus, see fig. 1 to 6, comprising a storage tank 1, the shape of which is specifically: the top part is a round thick cylinder, the middle part is an inverted cone cylinder, and the bottom part is a round thin cylinder. A plurality of heat dissipation cylinders 15 which are fixedly connected in a penetrating way are fixed at the middle upper part of the outer annular surface of the storage tank 1;

the middle part of the top surface of the storage tank 1 is rotationally connected with a hollow sleeve 2, the middle part of the bottom surface of the storage tank 1 is rotationally connected with a fixed sleeve 32, a vertically placed central shaft 3 is arranged in the storage tank 1, and the upper end and the lower end of the central shaft 3 are respectively rotationally connected with the hollow sleeve 2 and the fixed sleeve 32;

a fixed disc 21 is fixed at the bottom end of the hollow sleeve 2, a plurality of circularly distributed extension arms are fixed on the outer ring surface of the fixed disc 21, the outer end of each extension arm is rotationally connected with a stirring shaft 22, and a plurality of stirring paddles 23 are fixed at the middle section and the bottom section of each stirring shaft 22;

a rotary table 36 is rotatably connected to the middle part of the central shaft 3, bending scrapers 26 are fixed between the rotary table 36 and the fixed plate 21, and a plurality of bending scrapers 26 are arranged. A spiral blade 31 is fixed to the bottom of the center shaft 3.

In the implementation process, as shown in fig. 3 and 4, a gear ring 25 is fixed on the inner top wall of the storage tank 1, a planetary gear 24 is fixed on the top end of each stirring shaft 22, a plurality of planetary gears 24 are circularly distributed around the outer ring of the gear ring 25, and each gear ring 25 is meshed with a plurality of planetary gears 24;

the planetary gear 24 drives the planetary gear 24, the stirring shaft 22 and the stirring paddle 23 to rotate under the meshing action of the gear ring 25, and the stirring paddle 23 uniformly stirs the grain feed.

In the implementation process, as shown in fig. 4 and 5, a pair of linkage shafts 41 are arranged in front of and on the right side of the hollow sleeve 2 in a staggered manner, the bottom end part of each linkage shaft 41 is rotatably arranged on the top surface of the storage tank 1, a linkage gear 42 is fixed on each pair of linkage shafts 41, and the pair of linkage gears 42 are in meshed connection;

a limiting gear 4 is fixed at the top end of the hollow sleeve 2, a plurality of limiting notches are formed in the outer ring surface of the limiting gear 4, a plurality of limiting pins 43 are fixed on each linkage gear 42, and the limiting pins 43 are alternately meshed with the limiting notches; when the pair of linkage gears 42 are meshed to rotate relatively, the limiting notch on the limiting gear 4 and the limiting pins 43 form a limiting effect, so that the limiting gear 4, the hollow sleeve 2, the fixed disc 21, the extending arms, the stirring shaft 22, the stirring paddles 23 and the bending scrapers 26 are driven to rotate in a reciprocating forward and reverse direction.

A second motor 44 is provided at the top of the storage tank 1, and one of the linkage shafts 41 is driven to rotate by the second motor 44. Specific: a third sprocket wheel is fixed at the end part of a motor shaft of the second motor 44, a fourth sprocket wheel is fixed at the middle part of one linkage shaft 41, and the third sprocket wheel and the fourth sprocket wheel are in meshed transmission connection through a second chain belt 45; the motor shaft of the second motor 44 drives the third sprocket to synchronously rotate, and the third sprocket drives the fourth sprocket and a linkage shaft 41 to synchronously rotate through the second chain belt 45.

A driven gear 47 is fixed to the tip end portion of the center shaft 3, and a driving gear 46 is fixed to the tip end portion of the other coupling shaft 41, and the driving gear 46 is engaged with the driven gear 47 to drive the center shaft 3 and the helical blade 31 to rotate in the forward direction.

The description is as follows: in this embodiment, a feed hopper 11 is connected to the left side of the top surface of the storage tank 1, and a proper amount of grain feed is fed into the storage tank 1 through the feed hopper 11. A fixed ring 12 is fixed in the middle of the storage tank 1, a plurality of circularly distributed supporting legs 13 are fixed on the bottom surface of the fixed ring 12, and a reinforcing ring 14 is fixed between the middle parts of the supporting legs 13.

Embodiment two: the present embodiment further includes, on the basis of the first embodiment:

in a specific implementation process, as shown in fig. 1 and 6, a first filter disc 16 is fixed at an inner port of a heat dissipation cylinder 15, a hollow disc 17 is fixed at a middle part of the heat dissipation cylinder 15, a plurality of hollow through holes are formed in the hollow disc 17, a heat dissipation fan 18 is mounted at a middle part of the hollow disc 17, and a second filter disc 19 is fixed at an outer port of the heat dissipation cylinder 15. The cooling fans 18 in one part of the cooling drums 15 blow inwards, the cooling fans 18 in the other part of the cooling drums 15 exhaust outwards, and under the combined action of the cooling fans 18, the outside air is driven to be uniformly exchanged with the air in the storage tank 1, so that the phenomenon of stuffy mold caused by long-time accumulation of grain feed is avoided. The first filter disc 16 and the second filter disc 19 are provided with filter holes which can be used for filtering impurities; the first filter tray 16 may also be provided as a desiccant tray as desired.

Embodiment III: the second embodiment further includes, on the basis of the second embodiment:

in the specific implementation process, as shown in fig. 3 and 4, a plurality of oval blanking holes in circular arrangement are formed in the inner bottom wall of the storage tank 1, a concentric disc 33 is fixed on the top of the fixed sleeve 32, a plurality of oval communication holes in circular arrangement are formed in the concentric disc 33, and the oval communication holes and the oval blanking holes are distributed in a staggered manner.

A first motor 34 is provided at the bottom of the storage tank 1, and the fixed sleeve 32 is driven to rotate by the first motor 34. Specific: a first sprocket is fixed to the end of the motor shaft of the first motor 34, a second sprocket is fixed to the bottom end of the fixing sleeve 32, and the first sprocket and the second sprocket are engaged and connected through a first chain belt 35.

The motor shaft of the first motor 34 drives the first sprocket to synchronously rotate, and the first chain belt 35 drives the second sprocket, the fixed sleeve 32 and the concentric disc 33 to synchronously rotate, so that a plurality of elliptical communication holes are communicated with a plurality of elliptical blanking holes, and under the action of the helical blades 31, the grain feed in the storage tank 1 is driven to be discharged along the elliptical communication holes and the elliptical blanking holes.

Specifically, the working principle and the operation method of the utility model are as follows:

step one, adding a proper amount of grain feed into a storage tank 1 through a feed hopper 11, starting a second motor 44, driving a third chain wheel to synchronously rotate by a motor shaft of the second motor 44, driving a fourth chain wheel and a linkage shaft 41 to synchronously rotate by a third chain wheel through a second chain belt 45, driving the other linkage shaft 41 and a driving gear 46 to reversely rotate under the meshing action of a pair of linkage gears 42, and driving the driving gear 46 to further mesh and drive a driven gear 47, a central shaft 3 and a helical blade 31 to positively rotate, wherein the helical blade 31 drives the grain feed to roll upwards;

step two, when a pair of linkage gears 42 are meshed to rotate relatively, a limiting gap on a limiting gear 4 and a plurality of limiting pins 43 form a limiting effect, so that the limiting gear 4, the hollow sleeve 2, the fixed disc 21, a plurality of extension arms, the stirring shaft 22, the stirring paddles 23 and a plurality of bending scrapers 26 are driven to rotate in a reciprocating forward and reverse direction;

the planetary gear 24 drives the planetary gear 24, the stirring shaft 22 and the stirring paddle 23 to reciprocate automatically along the meshing action of the gear ring 25, so that the stirring shaft 22 and the stirring paddle 23 are driven to reciprocate and rotate, and the cereal feed is uniformly stirred through the stirring paddle 23 and the bending scraping plate 26;

step three, a plurality of cooling fans 18 are started, a plurality of cooling fans 18 which are distributed at intervals are controlled to blow inwards, and the other part of cooling fans 18 are controlled to exhaust outwards, and under the combined action of the plurality of cooling fans 18, external air is driven to exchange with air in the storage tank 1 uniformly, so that the phenomenon of stuffy mold caused by long-time accumulation of grain feed is avoided;

step four, when the storage tank 1 is discharged, a first motor 34 is started, a motor shaft of the first motor 34 drives a first chain wheel to synchronously rotate, and a first chain belt 35 drives a second chain wheel, a fixed sleeve 32 and a concentric disc 33 to synchronously rotate, so that a plurality of elliptical communication holes are communicated with a plurality of elliptical blanking holes;

then the second motor 44 is controlled to rotate slowly and reversely, and the grain feed in the storage tank 1 is driven to be discharged along the elliptical communication hole and the elliptical discharging hole under the action of the helical blade 31.

The utility model solves the problems of inconvenient storage and poor ventilation effect of grain feed, has compact overall structural design, can select storage tanks with different sizes and capacities according to requirements, and can meet the requirements of farms with different scales.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims

1. Farm agricultural cereal fodder storage equipment, its characterized in that: the novel heat dissipation device comprises a storage tank (1) and heat dissipation cylinders (15), wherein the top surface of the storage tank (1) is communicated with a feed hopper (11), a plurality of heat dissipation cylinders (15) are arranged, the heat dissipation cylinders (15) are annularly distributed in the middle of the storage tank (1), and each heat dissipation cylinder (15) is communicated with the storage tank (1);

the middle part of the top surface of the storage tank (1) is rotationally connected with a hollow sleeve (2), the middle part of the bottom surface of the storage tank (1) is rotationally connected with a fixed sleeve (32), a vertically placed central shaft (3) is arranged in the storage tank (1), and the upper end and the lower end of the central shaft (3) are respectively rotationally connected with the hollow sleeve (2) and the fixed sleeve (32);

the bottom end part of the hollow sleeve (2) is fixedly connected with a fixed disc (21), a plurality of circularly distributed extension arms are fixed on the outer ring surface of the fixed disc (21), stirring shafts (22) are rotatably connected to the outer end parts of the extension arms, and stirring paddles (23) are arranged on the stirring shafts (22);

the middle part of the central shaft (3) is rotationally connected with a rotary table (36), a bending scraping plate (26) is fixedly connected between the rotary table (36) and the fixed disc (21), and a spiral blade (31) is fixed at the bottom of the central shaft (3);

a first filter disc (16), a hollowed-out disc (17) and a second filter disc (19) are sequentially fixed in the radiating cylinder (15) from inside to outside; a heat radiation fan (18) is arranged in the middle of the hollowed-out disc (17);

the grain feed is uniformly stirred through the stirring paddles and the bending scraping plates, and under the combined action of the cooling fans, the outside air is driven to be uniformly exchanged with the air in the storage tank, so that the phenomenon of stuffy mold caused by long-time accumulation of the grain feed is avoided;

a plurality of elliptical blanking holes are formed in the inner bottom wall of the storage tank (1), a concentric disc (33) is fixedly connected to the fixed sleeve (32), and a plurality of elliptical communication holes which are circularly arranged are formed in the concentric disc (33); a first motor (34) is arranged at the bottom of the storage tank (1), and the first motor (34) drives the fixed sleeve (32) to rotate;

a gear ring (25) is fixed on the inner top wall of the storage tank (1), and a planetary gear (24) meshed with the gear ring (25) is fixed on the top end part of each stirring shaft (22); a pair of linkage shafts (41) are arranged at the hollow sleeve (2), each linkage shaft (41) is rotationally connected with the top surface of the storage tank (1), a pair of linkage gears (42) are fixed on each linkage shaft (41), and the two linkage gears (42) are meshed; a limiting gear (4) is fixed at the top end of the hollow sleeve (2), a plurality of limiting notches are formed in the outer ring surface of the limiting gear (4), a plurality of limiting pins (43) are fixed on each linkage gear (42), and the limiting pins (43) are alternately meshed with the limiting notches; the top of the storage tank (1) is provided with a second motor (44), and one of the linkage shafts (41) is driven to rotate by the second motor (44); a driven gear (47) is fixed at the top end of the central shaft (3), and a driving gear (46) meshed with the driven gear (47) is fixed at the top end of the other linkage shaft (41);

the operation method is as follows:

step one, adding a proper amount of grain feed into a storage tank (1) through a feed hopper (11), starting a second motor (44), driving a third chain wheel to synchronously rotate by a motor shaft of the second motor (44), driving a fourth chain wheel and a linkage shaft (41) to synchronously rotate by a second chain belt (45), driving the other linkage shaft (41) and a driving gear (46) to reversely rotate under the meshing action of a pair of linkage gears (42), and driving the driven gear (47), a central shaft (3) and a helical blade (31) to positively rotate by the driving gear (46) in a re-meshing mode, and driving the grain feed to roll upwards by the helical blade (31);

step two, when a pair of linkage gears (42) are meshed to rotate relatively, limiting gaps on the limiting gears (4) and a plurality of limiting pins (43) form limiting action, and the limiting gears (4), the hollow sleeve (2), the fixed disc (21), a plurality of extension arms, the stirring shaft (22), the stirring paddles (23) and a plurality of bending scrapers (26) are driven to rotate forward and backward in a reciprocating manner;

the planetary gear (24) drives the planetary gear (24), the stirring shaft (22) and the stirring paddle (23) to reciprocate automatically along the meshing action of the gear ring (25), so that the stirring shaft (22) and the stirring paddle (23) are driven to reciprocate in a planetary mode, and the stirring paddle (23) and the bending scraping plate (26) are used for uniformly stirring grain feed;

step three, a plurality of cooling fans (18) are started, a plurality of cooling fans (18) which are distributed at intervals are controlled to blow inwards, the other part of cooling fans (18) are controlled to exhaust outwards, and under the combined action of the plurality of cooling fans (18), external air is driven to exchange with air in the storage tank (1) uniformly, so that the phenomenon of stuffy mold caused by long-time accumulation of grain feed is avoided;

step four, when the storage tank (1) is discharged, a first motor (34) is started, a motor shaft of the first motor (34) drives a first sprocket to synchronously rotate, and a first chain belt (35) drives a second sprocket, a fixed sleeve (32) and a concentric disc (33) to synchronously rotate, so that a plurality of elliptical communication holes are communicated with a plurality of elliptical blanking holes;

then the second motor (44) is controlled to rotate slowly and reversely, and under the action of the helical blade (31), the grain feed in the storage tank (1) is driven to be discharged along the elliptical communicating hole and the elliptical discharging hole.

2. A farm agricultural grain feed storage device according to claim 1, wherein: the middle part of the storage tank (1) is fixed with a fixed ring (12), the bottom surface of the fixed ring (12) is fixed with a plurality of circularly distributed supporting legs (13), and a reinforcing ring (14) is fixed between the middle parts of the supporting legs (13).