CN220630582U - Full-automatic belt feeding system - Google Patents

Abstract

The utility model discloses a full-automatic belt feeding system which comprises a conveyor belt conveying line, wherein a storage device is connected to the conveyor belt conveying line, the conveyor belt conveying line can receive feed discharged from the storage device and convey the feed to a feeding area, a pushing device is arranged on the portion, opposite to the feeding area, of the conveyor belt conveying line in a walking manner, and the pushing device can push the feed on the conveyor belt conveying line to fall to the feeding area. The fodder in the storage device is transported to the feeding area through the conveyor belt transporting line, and then the fodder is pushed down to the required feeding area through the walkable pushing device. Compared with the prior art, the full-automatic belt feeding system can uniformly distribute the quantity of the feeds falling into the corresponding feeding areas by controlling the walking position of the pushing device, thereby meeting the requirement of regulating and controlling the feeding quantity of the special feeds of the special animal groups.

Description

Full-automatic belt feeding system

Technical Field

The utility model relates to the technical field of farm equipment, in particular to a full-automatic belt feeding system.

Background

At present, in modern farms, due to large feeding amount, if manual feeding is adopted, the efficiency is low and the labor amount is large; it has become mainstream to use machine equipment instead of manual feeding. For example, there are feeding systems in the prior art that transport feed to a feeding area by means of a conveyor belt. Wherein, the fodder on the conveyor belt needs to be manually swept down so as to facilitate the feeding of animals. However, the manner of manual sweeping tends to result in uneven distribution of feed, making it more difficult to meet the need for regulating the amount of particular feed fed to a particular animal population.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provides a full-automatic belt feeding system.

The aim of the utility model is realized by the following technical scheme:

a full-automatic belt feeding system comprises a conveyor belt conveying line, a storage device is connected on the conveyor belt conveying line, the conveyor belt conveying line can receive feed discharged from the storage device, and transporting the feed to the feeding area, wherein a pushing device is arranged on the part, opposite to the feeding area, of the conveyor belt transporting line in a walking way, and the pushing device can push the feed on the conveyor belt transporting line to the feeding area.

The storage device comprises a storage tank, wherein a stirring mechanism is arranged in the storage tank and used for stirring feed placed in the storage tank.

The conveyer belt conveyer line is including the promotion conveyer belt, the conveyer belt and the conveyer belt of feeding that connect gradually, wherein, promote the conveyer belt be used for with from the fodder of storage device receipt lifts to the conveyer belt of transporting, the conveyer belt of feeding is relative with the region of raising.

The pushing device comprises a base capable of walking and arranged on the feeding conveyor belt and a pushing plate arranged on the base, and the pushing plate spans above the feeding conveyor belt.

The push plate is obliquely arranged, and a pushing included angle is formed between the pushing surface of the push plate and the transverse direction of the feeding conveyor belt.

The base is rotatably provided with a driving wheel, and the base is also provided with a driving piece for driving the driving wheel to rotate.

The side of the feeding conveyor belt is provided with a guide rail, and the base is adapted to the guide rail.

The push plate comprises a fixing part and a sliding part connected with the fixing part in a sliding way, an electric cylinder is arranged on the fixing part, and an output shaft of the electric cylinder is connected with the sliding part.

The top of the fixing part is provided with a bending part.

The mounting groove is formed in the bottom surface of the sliding part, the mounting plate is arranged in the mounting groove through spring, a toothed structure is arranged on the bottom surface of the mounting plate, an electromagnet is further arranged in the mounting groove, and the electromagnet can be electrified to suck the mounting plate into the mounting groove.

The beneficial effects of the utility model are as follows: the fodder in the storage device is transported to the feeding area through the conveyor belt transporting line, and then the fodder is pushed down to the required feeding area through the walkable pushing device. Compared with the prior art, the full-automatic belt feeding system can uniformly distribute the quantity of the feeds falling into the corresponding feeding areas by controlling the walking position of the pushing device, thereby meeting the requirement of regulating and controlling the feeding quantity of the special feeds of the special animal groups.

Drawings

FIG. 1 is a schematic diagram of an embodiment;

FIG. 2 is a schematic structural view of a pushing device;

FIG. 3 is a schematic view of the structure of the push plate;

fig. 4 is a schematic view of a tooth structure.

Reference numerals: 1. a conveyor belt transport line; 2. a storage device; 3. a pushing device; 4. lifting the conveyor belt; 5. a transport conveyor; 6. feeding a conveyor belt; 7. a base; 8. a push plate; 9. pushing an included angle; 10. a driving wheel; 11. a driving member; 12. a guide rail; 13. a fixing part; 14. a sliding part; 15. an electric cylinder; 16. a bending portion; 17. a mounting groove; 18. a spring; 19. a mounting plate; 20. a tooth-like structure; 21. an electromagnet; 22. and (5) a feeding area.

Detailed Description

The technical solutions of the present utility model will be clearly and completely described below with reference to the embodiments, and it is apparent that the described embodiments are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by a person skilled in the art without any inventive effort, are intended to be within the scope of the present utility model, based on the embodiments of the present utility model.

As shown in fig. 1 to 4, a full-automatic belt feeding system includes a conveyor belt conveyor 1, and the conveyor belt conveyor 1 is connected to a storage device 2 and a feeding area 22 in a conveying direction. For example, the conveyor line 1 may include a lifting conveyor 4, a transport conveyor 5, and a feeding conveyor 6 connected in sequence. Wherein, the discharge gate and the lifting conveyor 4 of storage device 2 are refuted, therefore lifting conveyor 4 can accept the fodder from storage device 2 exhaust to transport conveyer belt 5 with the fodder, transport conveyer belt 5's transportation through and finally transport fodder to feeding conveyer belt 6.

In order to realize automatic sweeping of the feed on the feeding conveyor belt 6, the feeding conveyor belt 6 is provided with a pushing device 3 capable of walking along the conveying direction, and the feed can be pushed to the range of a required feeding area 22 at fixed points through the pushing device 3. For example, the amount of feed drop can be regulated by controlling the time that the pushing device 3 is in a relative position to the desired feeding zone 22. Preferably, a weight sensor can be arranged on the feeding conveyor belt 6, and the quantity of the dropped feed can be regulated and controlled more accurately through the cooperation operation of the weight sensor and the control system.

In some embodiments, the pushing device 3 includes a base 7 that is walkable on the feeding conveyor 6 and a push plate 8 that is disposed on the base 7. Wherein the push plate 8 extends in the transverse direction of the feeding conveyor 6, whereas the so-called transverse extension in the feeding conveyor 6, i.e. the push plate 8 extends along the intersection of the transport directions of the feeding conveyor 6, i.e. the push plate 8 spans over the feeding conveyor 6. Thus, when an animal within a certain feeding zone 22 needs to be fed more feed, the base 7 can be controlled to walk to the opposite position of the feeding zone 22 and stay for more time, and the feed can fall into the feeding zone 22 under the interference of the push plate 8.

Preferably, the pushing plate 8 is obliquely arranged, and a pushing included angle 9 is formed between the pushing surface of the pushing plate 8 and the transverse direction of the feeding conveyor belt 6. Thus, the pushing plate 8 can guide the feed, so that the feed can more smoothly fall into the feeding area 22, and the situation that the feed is piled on the piling surface of the pushing plate 8 is not easy to occur. The pushing surface of the pushing plate 8 refers to the side surface of the pushing plate 8 facing the feeding direction of the feeding conveyor belt 6. For example, the aforesaid pushing ram angle 9 may preferably be between 30-60 degrees.

In an exemplary embodiment, the walkable function of the base 7 is achieved by rotating a driving wheel 10 provided on the base 7, while the base 7 is further provided with a driving member 11 for driving the driving wheel 10 to rotate. In addition, the side of the feeding conveyor 6 is provided with a guide rail 12, the guide rail 12 extending in the transport direction of the feeding conveyor 6, and the base 7 being fitted on the guide rail 12. Therefore, when the driving member 11 drives the driving wheel 10 to rotate, the rotating driving wheel 10 drives the base 7 to stably walk along the guide rail 12.

For example, the push plate 8 may include a fixed portion 13 and a sliding portion 14 slidably connected to the fixed portion 13, and an electric cylinder 15 is disposed on the fixed portion 13, and an output shaft of the electric cylinder 15 is connected to the sliding portion 14. Therefore, the sliding part 14 can be driven to move close to or far away from the feeding conveyor belt 6 through the electric cylinder 15, so that the distance between the bottom of the push plate 8 and the feeding conveyor belt 6 is adjusted, and the amount of the feed pushed into the feeding area 22 can be controlled more accurately.

Preferably, the fixed part 13 and the sliding part are connected in a sliding way through a sliding rail and a sliding block, so that the sliding part can move more stably under the drive of the electric cylinder 15.

In addition, the top of the fixing portion 13 has a curved portion 16, and the curved portion 16 can block the feed, thereby preventing the feed from overflowing from the top of the push plate 8.

In some embodiments, the bottom surface of the sliding portion 14 is provided with a mounting groove 17, a mounting plate 19 is arranged in the mounting groove 17 in a sprung manner through a spring 18, a toothed structure 20 is arranged on the bottom surface of the mounting plate 19, an electromagnet 21 is further arranged in the mounting groove 17, and the electromagnet 21 can be electrified to suck the mounting plate 19 into the mounting groove 17. It will be appreciated that when the electromagnet 21 is de-energized, the spring 18 will return to its natural state and will eject the mounting plate 19 from the mounting slot 17, so that the tooth-like structure 20 will act to separate the feed on the feeding conveyor 6 to prevent feed from agglomerating and falling into the feeding area 22 where it is difficult for animals to gnaw. Preferably, the spring 18 is a non-metal spring 18, such as a plastic spring 18 or a ceramic spring 18, so that the spring force is not easily affected by the magnetic force of the electromagnet 21.

For example, before the pushing plate 8 performs the pushing action, the base 7 is controlled to walk in a certain area, and the electromagnet 21 can be controlled to continuously switch the use state of power on and power off during the period, so that the toothed structure 20 can cut the feed in the area; preferably, the feeding conveyor belt 6 can temporarily stop the transportation action so as to facilitate the execution of the above-mentioned cutting action, and of course, the execution of the cutting action can be satisfied by regulating the traveling speed of the base 7; finally, the base 7 is controlled to walk to the opposite position of the range of the required feeding area 22, and the cut feed falls into the range of the feeding area 22 under the interference of the push plate 8.

Preferably, the storage device 2 comprises a storage tank, wherein a stirring mechanism (not shown) is arranged in the storage tank, the stirring mechanism can stir feed placed in the storage tank, different feeds can be stirred more uniformly in the storage tank through stirring action, and meanwhile, the feed is prevented from being agglomerated and has a certain separation effect. For example, the stirring mechanism may be an electrically driven stirring paddle.

The foregoing is merely a preferred embodiment of the utility model, and it is to be understood that the utility model is not limited to the form disclosed herein but is not to be construed as excluding other embodiments, but is capable of numerous other combinations, modifications and environments and is capable of modifications within the scope of the inventive concept, either as taught or as a matter of routine skill or knowledge in the relevant art. And that modifications and variations which do not depart from the spirit and scope of the utility model are intended to be within the scope of the appended claims.

Claims (10)

1. A fully automatic belt feeding system, characterized by: comprises a conveyor belt conveying line (1), wherein the conveyor belt conveying line (1) is connected with a storage device (2), the conveyor belt conveying line (1) can receive feed discharged from the storage device (2) and convey the feed to a feeding area, the part of the conveyor belt conveying line (1) opposite to the feeding area can be walked to be provided with a pushing device (3), and the pushing device (3) can push the feed on the conveyor belt conveying line (1) to the feeding area.

2. A fully automatic belt feeding system according to claim 1, wherein: the storage device (2) comprises a storage tank, wherein a stirring mechanism is arranged in the storage tank and used for stirring feed placed in the storage tank.

3. A fully automatic belt feeding system according to claim 1, wherein: the conveyer belt conveyer line (1) is including the promotion conveyer belt (4), transportation conveyer belt (5) and the conveyer belt of feeding (6) that connect gradually, wherein, promote conveyer belt (4) are used for with from the fodder that storage device (2) received lifts to transportation conveyer belt (5), conveyer belt of feeding (6) are relative with the feeding district.

4. A fully automatic belt feeding system according to claim 3, wherein: the pushing device (3) comprises a base (7) capable of walking on the feeding conveyor belt (6) and a pushing plate (8) arranged on the base (7), and the pushing plate (8) spans above the feeding conveyor belt (6).

5. A fully automatic belt feeding system according to claim 4, wherein: the push plate (8) is obliquely arranged, and a pushing included angle (9) is formed between the pushing surface of the push plate (8) and the transverse direction of the feeding conveyor belt (6).

6. A fully automatic belt feeding system according to claim 4, wherein: the base (7) is rotatably provided with a driving wheel (10), and the base (7) is also provided with a driving piece (11) for driving the driving wheel (10) to rotate.

7. A fully automatic belt feeding system according to claim 4, wherein: the side of the feeding conveyor belt (6) is provided with a guide rail (12), and the base (7) is adapted to the guide rail (12).

8. A fully automatic belt feeding system according to claim 4, wherein: the push plate (8) comprises a fixing part (13) and a sliding part (14) connected with the fixing part (13) in a sliding mode, an electric cylinder (15) is arranged on the fixing part (13), and an output shaft of the electric cylinder (15) is connected with the sliding part (14).

9. A fully automatic belt feeding system according to claim 8, wherein: the top of the fixing part (13) is provided with a bending part (16).

10. A fully automatic belt feeding system according to claim 8, wherein: the mounting groove (17) is formed in the bottom surface of the sliding part (14), the mounting plate (19) is arranged in the mounting groove (17) in a bouncing mode through the spring (18), the toothed structure (20) is arranged on the bottom surface of the mounting plate (19), the electromagnet (21) is further arranged in the mounting groove (17), and the electromagnet (21) can be electrified to suck the mounting plate (19) into the mounting groove (17).