CN219146411U - Feeding device and system - Google Patents

Abstract

The utility model relates to the technical field of animal feeding, in particular to a feeding device and a feeding system, comprising: a main housing; the discharging bin is arranged in the inner cavity of the main shell and is provided with a feeding hole and a discharging hole; the stirring assembly is rotatably arranged in the discharging bin; the grinding piece is arranged between the stirring assembly and the discharge hole; the driving assembly is arranged on the main shell, and the power output shaft is in driving connection with the stirring assembly and is used for driving the stirring assembly and the grinding piece to rotate. The technical problems that in the existing feeding device, a stirring mechanism only carries out simple and uniform stirring on feed, the refining degree of stirring is not high, and the feeding quality is affected are solved.

Description

Feeding device and system

Technical Field

The utility model relates to the technical field of animal feeding, in particular to a feeding device and a feeding system.

Background

With the development of the age, one-household courtyard cultivation and small and medium-sized farms are not suitable for the development of the age, one is high in cost and low in labor output rate, modern technology cannot be well researched and applied, the other is low in market adaptability, poor in capability of coping with various risks and the like. Therefore, the large-scale and modern level of the livestock breeding is improved, the large-scale breeding is developed and is a necessary way for the livestock breeding industry to develop and shake according to local conditions, various modern equipment is applied to the livestock breeding industry along with the development of scientific technology, and the purposes of refinement, large-scale management and scientific breeding are achieved, wherein the feeding process can be carried out through an automatic feeding device, and the labor cost is saved.

However, the existing feeding device comprises a discharging mechanism and a stirring mechanism, wherein the stirring mechanism only carries out simple and uniform stirring on the feed, the refining degree of stirring is not high, and the feeding quality is affected.

Disclosure of Invention

The utility model provides a feeding device and a feeding system, which solve the technical problems that in the existing feeding device, a stirring mechanism only carries out simple and uniform stirring on feed, the refining degree of stirring is not high, and the feeding quality is affected.

In view of this, a first aspect of the utility model provides a feeding device comprising:

a main housing (1);

the discharging bin (2) is arranged in the inner cavity of the main shell (1) and is provided with a feeding hole and a discharging hole;

the stirring assembly is rotatably arranged in the discharging bin (2);

the grinding piece is arranged between the stirring assembly and the discharge hole;

the driving assembly (11) is arranged on the main shell (1), and the power output shaft is in driving connection with the stirring assembly and is used for driving the stirring assembly and the grinding piece to rotate.

Optionally, the quantitative distributing assembly comprises a distributing shifting piece (4) and a rotating chassis (5) which are coaxially arranged from top to bottom in sequence, wherein the distributing shifting piece (4) is rotatably connected with the rotating chassis (5);

the distributing shifting sheet (4) is arranged above the discharge hole and is fixedly connected with the inner side wall of the discharging bin (2);

the grinding piece is arranged on the rotating chassis (5) and is in sliding fit with the distributing poking piece (4);

the rotating chassis (5) is in driving connection with a power output shaft of the driving assembly (11);

at least one first material passing hole (6) corresponding to the material outlet is arranged on the rotary chassis (5).

Optionally, the grinding piece comprises a plurality of first arc-shaped raised strips (7) which are convexly arranged at the top of the rotating chassis (5), and the first arc-shaped raised strips (7) are in sliding fit with the distributing poking pieces (4); the first arc convex strips (7) are arranged along the circumferential extension of the rotating chassis (5);

and/or the grinding piece comprises a plurality of first arc-shaped raised strips (7) which are arranged on the top of the rotating chassis (5) in a protruding mode, and the first arc-shaped raised strips (7) are in sliding fit with the distributing poking pieces (4); the first arc convex strips (7) are arranged along the circumferential extension of the rotating chassis (5); the top of the rotary chassis (5) is concavely provided with a circular groove, the outer side of the rotary chassis (5) is provided with a plurality of first material passing openings (6) distributed along the circumferential direction of the rotary chassis (5), and the first material passing openings (6) are communicated with the circular groove; the first arc-shaped raised strips (7) are arranged in the circular grooves, and two ends of each first arc-shaped raised strip are respectively connected with two adjacent first material passing openings (6); a baffle (10) with preset length is arranged on one side of the material distributing shifting sheet (4) far away from the discharge hole in an outward extending way from the axis;

and/or the grinding piece comprises a plurality of first arc-shaped raised strips (7) which are arranged on the top of the rotating chassis (5) in a protruding mode, and the first arc-shaped raised strips (7) are in sliding fit with the distributing poking pieces (4); the first arc convex strips (7) are arranged along the circumferential extension of the rotating chassis (5); an arc-shaped material passing groove (8) is concavely arranged at the bottom of one side of the material distributing shifting sheet (4) close to the material outlet and corresponds to the material outlet; the first arc convex strips (7) are corresponding to the discharge holes in the radial direction of the rotary chassis (5).

Optionally, a plurality of second arc convex strips (9) are arranged at the bottom of the rotary chassis (5) in a protruding way along the circumferential direction;

the bottom of the second arc-shaped raised strip (9) is in sliding fit with the bottom of the inner cavity of the discharging bin (2);

the second arc-shaped raised strips (9) extend from the axle center to the periphery along the tangential direction;

the second arc-shaped raised strips (9) and the first material passing openings (6) are correspondingly staggered.

Optionally, the drive assembly (11) comprises a drive motor (1101) and a connector (1102);

the stirring assembly comprises a stirring pulling piece (3);

one end of the connector (1102) extends into the discharging bin (2);

the rotating chassis (5) is sleeved on the connector (1102) and is clamped with the connector (1102);

the stirring pulling piece (3) is in threaded connection with one end of the connector (1102) positioned in the discharging bin (2);

the driving motor (1101) is arranged at the bottom of the main shell (1), and the power output shaft is in driving connection with the other end of the connector (1102).

Optionally, the driving motor (1101) is connected with the main housing (1) through a flange (1103);

a framework oil seal (1104) is sleeved on the connector (1102), and a mounting groove is concavely formed in the bottom of the main shell (1) corresponding to the framework oil seal (1104); the framework oil seal (1104) is arranged in the mounting groove and is positioned between the flange (1103) and the main shell (1).

Optionally, the method further comprises:

a control panel (12) provided on the outer side wall of the main casing (1);

the mixing bin (13) is arranged at the bottom of the main shell (1) and is communicated with the discharge port;

a water storage bin (14) arranged in the main shell (1);

the water pumping bin (17) is provided with a peristaltic pump (18), the water inlet end of the peristaltic pump (18) is communicated with the water storage bin (14) through a first pipeline (19), and the water outlet end of the peristaltic pump is communicated with the mixing bin (13) through a second pipeline (20);

wherein the control panel (12) is electrically connected with the peristaltic pump (18) and the driving component (11) respectively.

Optionally, a water inlet connecting pipe (15) is arranged at the top of the water storage bin (14), and one end of the water inlet connecting pipe (15) positioned in the inner cavity of the water storage bin (14) is connected with a ball float valve (16);

and/or, further comprising a drainage bin (22), wherein the drainage bin (22) is arranged in the main shell (1) and is separated from the water storage bin (14) through a partition plate (23);

a drainage opening (24) with a preset width is formed in the top of the partition plate (23), and the drainage opening (24) is used for communicating the water storage bin (14) with the drainage bin (22);

and/or one end of the second pipeline (20) communicated with the mixing bin (13) is connected with a water spray head (21).

Optionally, a tube engagement assembly (25) is further included, the tube engagement assembly (25) being adapted to be connected to a feed pull line;

the material pipe connecting assembly (25) comprises a material pipe groove (2501), a material supply opening (2502) is formed in the bottom of the material pipe groove (2501), and the material supply opening (2502) is communicated with the material supply opening;

the inner side of the material pipe groove (2501) is rotatably and coaxially connected with an arc-shaped switch baffle plate (2503), and a second material passing opening (2504) is arranged on the arc-shaped switch baffle plate (2503) corresponding to the material feeding opening (2502);

a switch groove (2505) with a preset radian is formed in the side wall of the material pipe groove (2501) along the circumferential direction, a baffle switch (2506) is arranged on the side wall of the arc-shaped switch baffle (2503) corresponding to the switch groove (2505), and the baffle switch (2506) extends out of the switch groove (2505);

and/or the side wall of the discharging bin (2) is detachably connected with a cleaning window (26).

In a second aspect the utility model provides a feeding system comprising a feeding device according to any one of the first aspects.

The technical scheme of the utility model has the following advantages:

according to the utility model, when feeding, feed enters the blanking bin through the feed inlet, the stirring assembly and the grinding piece are driven to rotate through the power output shaft of the driving assembly, the stirring assembly uniformly stirs the feed, and the uniformly stirred feed can be ground through the grinding piece, so that the feed is more refined, and then is discharged through the discharge outlet for feeding, the refined feed is more convenient to mix with water, and is convenient to digest and absorb, and the feeding quality is improved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present utility model, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 is a top view of a feeding device provided by the utility model;

FIG. 2 is a cross-sectional view A-A of FIG. 1;

FIG. 3 is an enlarged view of FIG. 1 at B;

FIG. 4 is a front view of a feeding device provided by the utility model;

FIG. 5 is a cross-sectional view of C-C of FIG. 4;

FIG. 6 is an exploded view of the mixing assembly and dispensing assembly of the present utility model;

FIG. 7 is a bottom view of a dispensing assembly according to the present utility model;

FIG. 8 is an exploded view of a drive assembly provided by the present utility model;

FIG. 9 is a sectional view D-D of FIG. 1;

FIG. 10 is a side view of a feeding device provided by the present utility model;

reference numerals illustrate:

1. a main housing; 2. discharging the material bin; 201. a feed inlet; 202. a discharge port; 3. stirring the stirring plate; 4. a material dividing poking piece; 5. rotating the chassis; 6. a first feed port; 7. a first arc-shaped convex strip; 8. arc-shaped material passing grooves; 9. a second arc-shaped convex strip; 10. a baffle; 11. a drive assembly; 1101. a driving motor; 1102. a connector; 1103. a flange; 1104. a framework oil seal; 1105. a motor protection cover; 12. a control panel; 13. a mixing bin; 14. a water storage bin; 15. a water inlet connecting pipe; 16. a float valve; 17. a water pumping bin; 18. a peristaltic pump; 19. a first pipe; 20. a second pipe; 21. a water spray head; 22. a drainage bin; 23. a partition plate; 24. a drain opening; 25. a tube joining assembly; 2501. a material pipe groove; 2502. a feed port; 2503. an arc switch baffle; 2504. a second material passing port; 2505. a switch groove; 2506. a flap switch; 2507. a clamp; 2508. a waterproof baffle; 26. cleaning a window; 27. an electronic component bin; 28. a power supply line; 29. a signal line; 30. waterproof ventilation valve; 31. a clamping block; 32. a clamping groove; 33. and a sewage outlet.

Detailed Description

The following description of the embodiments of the present utility model will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the utility model are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In addition, the technical features of the different embodiments of the present utility model described below may be combined with each other as long as they do not collide with each other.

Example 1

Referring to fig. 1 to 10, the feeding device provided by the utility model comprises: a main housing 1; the discharging bin 2 is arranged in the inner cavity of the main shell 1 and is provided with a feed inlet and a discharge outlet; the stirring assembly is rotatably arranged in the discharging bin 2; the grinding piece is arranged between the stirring assembly and the discharge hole; the driving assembly 11 is arranged on the main shell 1, and the power output shaft is in driving connection with the stirring assembly and is used for driving the stirring assembly and the grinding piece to rotate.

It should be noted that the feed inlet of the discharging bin 2 may be used to communicate with an external feeding device.

In this embodiment, when feeding, the fodder gets into feed bin 2 under through the feed inlet, and power output shaft drive stirring subassembly and grinding member through drive assembly 11 rotate, and stirring subassembly is even to the fodder stirring, and the fodder through the stirring can grind through the grinding member simultaneously for the fodder is more meticulous, and the rethread discharge gate ejection of compact feeds, and the fodder of meticulous is convenient for more mix with water to and be convenient for digest and absorb, improve the quality of raising.

Example 2

As a further improvement on the embodiment 1, as shown in fig. 1 to 10, the quantitative dispensing assembly further comprises a dispensing dial 4 and a rotating chassis 5 which are coaxially arranged in sequence from top to bottom, wherein the dispensing dial 4 is rotatably connected with the rotating chassis 5; the distributing poking plate 4 is arranged above the discharge hole and is fixedly connected with the inner side wall of the discharging bin 2; the grinding piece is arranged on the rotary chassis 5 and is in sliding fit with the distributing poking piece 4; the rotating chassis 5 is in driving connection with a power output shaft of the driving assembly 11; at least one first material passing hole 6 corresponding to the material outlet is arranged on the rotary chassis 5.

The grinding piece of the sliding fit finger is in clearance fit with the distributing poking piece 4, and the grinding piece and the distributing poking piece can rotate relatively.

In this embodiment, the power output shaft through the drive assembly 11 drives the rotation chassis 5 in the ration allocation assembly to rotate, and then drive the grinding piece on the rotation chassis 5 and rotate together, when the fodder gets into down feed bin 2, receive the baffle of dividing the material plectrum 4, the fodder can not directly go out from the discharge gate, but fall on the rotation chassis 5, along with rotation chassis 5 rotates, when dividing the material plectrum 4, the bottom of dividing the material plectrum 4 and the cooperation of grinding piece can grind the refinement fodder, and when the bottom of dividing the material plectrum 4, if when the first material mouth 6 and the discharge gate overlap on the rotation chassis 5, then the fodder after grinding can be through the discharge gate ejection of compact in order to carry out feeding, reach the effect of grinding refinement, in addition, the space that forms between rotation chassis 5 and the material plectrum 4 makes each time only can be through the fodder of fixed material volume, the effect of ration ejection of discharging, the output power of accessible adjustment drive assembly 11 is in order to adjust the rotation speed of rotation chassis 5, and then adjust the frequency of first material mouth 6 and ejection of compact volume overlapping of discharge gate, so as to adjust the ejection of compact volume of fodder.

Specifically, the axle center protrusion of rotating chassis 5 is equipped with annular boss, divides material plectrum 4 to be equipped with the connecting axle sleeve with annular boss adaptation correspondingly, divides material plectrum 4 to establish on the annular boss of rotating chassis 5 through connecting axle sleeve cover, is convenient for divide material plectrum 4 and rotate chassis 5 relatively.

Further, a clamping groove 32 is formed in the inner side wall of the lower bin 2 corresponding to the discharge hole, a clamping block 31 matched with the clamping groove 32 is arranged on the periphery of the distributing poking plate 4, and the distributing poking plate 4 is fixedly connected with the lower bin 2 through the clamping block 31 and the clamping groove 32 in a matched and clamping manner.

On the basis of the above embodiment, in a specific embodiment, the grinding member includes a plurality of first arc-shaped raised strips 7 protruding from the top of the rotating chassis 5, and the first arc-shaped raised strips 7 are in sliding fit with the distributing shifting piece 4; the first arc-shaped raised strips 7 are arranged along the circumferential extension of the rotary chassis 5.

In this embodiment, when the rotating chassis 5 rotates, the first arc-shaped raised strips 7 rotate along with the rotating chassis 5 and pass through the bottom of the material dividing poking plate 4, and when the feed enters between the material dividing poking plate 4 and the rotating chassis, the space is reduced, meanwhile, due to the fact that the first arc-shaped raised strips 7 are in extrusion fit with the material dividing poking plate 4, when the feed with larger particles moves along with the rotating chassis 5 towards the direction of the material dividing poking plate 4, the feed is extruded and ground by the first arc-shaped raised strips 7 and the material dividing poking plate 4, so that the feed is more refined and is convenient for eating; meanwhile, the first arc-shaped raised strips 7 can drive feed when rotating, the feed is pushed into the space between the material distributing poking plate 4 and the rotating chassis 5, and the drainage function is achieved, so that the feed is discharged when the first feed passing hole 6 is overlapped with the discharge hole.

On the basis of the above embodiment, in a specific embodiment, the grinding member includes a plurality of first arc-shaped raised strips 7 protruding from the top of the rotating chassis 5, and the first arc-shaped raised strips 7 are in sliding fit with the distributing shifting piece 4; the first arc convex strips 7 are arranged along the circumferential direction of the rotary chassis 5 in an extending way; the top of the rotary chassis 5 is concavely provided with a circular groove, and the outer side of the rotary chassis 5 is provided with a plurality of first material passing openings 6 distributed along the circumferential direction of the rotary chassis 5; the first arc-shaped raised strips 7 are arranged between two adjacent first material passing openings 6, and two ends of the first arc-shaped raised strips are respectively connected with the two adjacent first material passing openings 6; the first arc convex strips 7 are arranged in the circular grooves; one side of the distributing poking plate 4 far away from the discharge hole is provided with a baffle 10 with preset length in an outward extending way from the axis.

The outer side of the bottom of the distributing poking piece 4 is contacted with the outer side of the top of the rotating chassis 5, and a space with a preset size is formed between the distributing poking piece 4 and the circular groove; the extension length of the baffle plate 10 does not exceed the shortest distance between the first arc convex strip 7 and the axle center of the rotary chassis 5, so that a space with a preset size is formed between the baffle plate and the side wall of the circular groove, and the first arc convex strip 7 can pass through the distributing poking piece 4 and is in sliding fit with the distributing poking piece 4 when rotating; the circular groove is arranged coaxially with the rotating chassis 5.

In this embodiment, through the setting of circular slot and with first arc sand grip 7 setting at the circular slot, reduce to divide the material plectrum 4 and rotate the space through between the chassis 5, so that more meticulous after the fodder is ground through dividing material plectrum 4 and first arc sand grip 7, simultaneously through increasing baffle 10, further reduce the cooperation space of first arc sand grip 7 and dividing material plectrum 4, further promoted the fineness that the fodder was ground, in addition, because first arc sand grip 7 and first feed gap 6 meet, drainage effect is better when first feed gap 6 overlaps with the discharge gate, can push the fodder into the discharge gate through first arc sand grip 7.

Further, the top of one side of the baffle plate 10 of the distributing poking piece 4 is provided with an arc-shaped guide plate, so that feed can enter the distributing poking piece 4 along the arc-shaped guide plate to be ground with the rotating chassis 5.

On the basis of the above embodiment, in a specific embodiment, the grinding member includes a plurality of first arc-shaped raised strips 7 protruding from the top of the rotating chassis 5, and the first arc-shaped raised strips 7 are in sliding fit with the distributing shifting piece 4; the first arc convex strips 7 are arranged along the circumferential direction of the rotary chassis 5 in an extending way; the bottom of one side of the distributing poking piece 4 close to the discharge hole is concavely provided with an arc-shaped material passing groove 8 corresponding to the discharge hole; the first arc convex strip 7 corresponds to the discharge hole in the radial direction of the rotary chassis 5.

In this embodiment, through the concave arc that establishes on the feed dividing plectrum 4 that corresponds in the top of discharge gate and cross silo 8, increase the space of discharge gate position, avoid the fodder to pile up, pass silo 8 through the arc in the rotation of first arc sand grip 7 simultaneously, can dredge accumulational fodder, be convenient for the fodder pass through the discharge gate when first material gate 6 overlaps with the discharge gate, improve the smoothness nature of grinding and ejection of compact.

On the basis of the above embodiment, in a specific embodiment, a plurality of second arc-shaped raised strips 9 are arranged at the bottom of the rotating chassis 5 in a protruding manner along the circumferential direction; the bottom of the second arc convex strip 9 is in sliding fit with the bottom of the inner cavity of the lower bin 2; the second arc convex strips 9 extend from the axle center along the tangential direction to the periphery; the second arc convex strips 9 are staggered with the first material passing openings 6 correspondingly.

The tangential direction along which the second arc-shaped protruding strip 9 is located is the opposite direction to the rotation direction of the rotation chassis 5.

In this embodiment, through the setting of second arc sand grip 9 for there is certain space clearance between rotating chassis 5 and the bottom of feed bin 2 down, fall into first material mouth 6 when the fodder gets into, if first material mouth 6 does not overlap with the discharge gate, then the fodder can keep at first material mouth 6, rotate chassis 5 along with rotating chassis 5 and rotate, rotate chassis 5 and the relative normal running fit in bottom of feed bin 2 down and grind the fodder that falls in first material mouth 6, go out through the discharge gate after grinding when until rotating to the discharge gate position, and promote the fodder through second arc sand grip 9, can sweep into the discharge gate with the fodder of rotating chassis 5 bottom at the rotation in-process, avoid remaining fodder to cause pollution and waste.

On the basis of the above embodiment, in a specific embodiment, the driving assembly 11 includes a driving motor 1101 and a connector 1102; the stirring assembly comprises a stirring pulling piece 3; one end of the connector 1102 extends into the discharging bin 2; the rotating chassis 5 is sleeved on the connector 1102 and is clamped with the connector 1102; the stirring pulling piece 3 is in threaded connection with one end of the connector 1102, which is positioned in the lower bin 2; the driving motor 1101 is provided at the bottom of the main casing 1, and the power output shaft is drivingly connected to the other end of the connector 1102.

It should be noted that, the direction of the threaded connection of the stirring paddle 3 and the connector 1102 is opposite to the rotating direction of the connector 1102, so as to avoid the loosening of the stirring paddle 3 during the rotation, for example, fig. 6, wherein if the rotating direction of the rotating chassis is clockwise, the direction of the threaded connection of the stirring paddle 3 and the connector 1102 is left-handed.

In this embodiment, the rotating chassis 5 is sleeved on the connector 1102 and is clamped with the connector 1102, the distributing pulling piece 4 is sleeved on the rotating chassis 5, and then the stirring pulling piece 3 is in threaded connection with the connector 1102, and the specific working process is as follows: the driving motor 1101 drives the connector 1102 to rotate through the power output shaft to drive the rotating chassis 5 and the stirring paddle 3 to rotate, and the distributing paddle 4 is kept stationary and rotates relative to the rotating chassis 5.

On the basis of the above embodiment, in a specific embodiment, the driving motor 1101 is connected to the main casing 1 through a flange 1103; the connector 1102 is sleeved with a framework oil seal 1104, and the bottom of the main shell 1 is provided with a mounting groove corresponding to the framework oil seal 1104 in a concave manner; the frame oil seal 1104 is disposed in the mounting groove and is located between the flange 1103 and the main casing 1.

In this embodiment, install driving motor 1101 to main casing 1 through flange 1103 on, be convenient for dismantle and the leakproofness is better, further improve the leakproofness through the oil blanket skeleton simultaneously, prevent that the fodder from getting into drive assembly 11 through the gap, improve drive assembly 11's life.

Further, the bottom of the main housing 1 is provided with a motor protection cover 1105 located at the periphery of the driving motor 1101, for protecting the driving motor 1101, and further improving the service life of the driving motor 1101.

Further, the bottom of the housing 1 is provided with a first annular rib position protruding from the outer periphery of the driving motor 1101, and a first annular clamping groove suitable for the first annular rib position is provided at the top of the motor protection cover 1105, so that the sealing performance is improved through the cooperation of the first annular clamping groove and the first annular rib position during installation.

On the basis of the above embodiment, in a specific embodiment, the device further comprises a control panel 12, a mixing bin 13, a water storage bin 14 and a pumping bin 17; the control panel 12 is arranged on the outer side wall of the main shell 1; the mixing bin 13 is arranged at the bottom of the main shell 1 and is communicated with the discharge port; the water storage bin 14 is arranged in the main shell 1; the water pumping bin 17 is provided with a peristaltic pump 18, the water inlet end of the peristaltic pump 18 is communicated with the water storage bin 14 through a first pipeline 19, and the water outlet end is communicated with the mixing bin 13 through a second pipeline 20; wherein, the control panel 12 is electrically connected with the peristaltic pump 18 and the driving component 11 respectively.

The control panel 12 is also connected to an external supply device in communication, and the control panel 12 can set a program to perform an automated process.

In this embodiment, when feeding is needed, the control panel 12 controls the driving assembly 11 and the peristaltic pump 18, and through a set program, the control panel 12 controls the driving assembly 11 to start stirring and grinding the feed and quantitatively discharge the feed to the mixing bin 13, meanwhile controls the peristaltic pump 18 to pump water from the water storage bin 14 to the mixing bin 13 along the second pipeline 20 through the first pipeline 19, so that the water flows out of the mixing bin 13 to feed after being matched with the feed in the mixing bin 13, and meanwhile, the water outlet speed of the peristaltic pump 18 and the discharge amount of the driving assembly 11 can be adjusted through the control panel 12 to adjust the feed and water proportion, so that the intelligent degree of the feeding device is improved.

Further, an electronic component bin 27 is arranged in the main casing 1, a control main board is arranged and is electrically connected with the control panel 12, the driving assembly 11 and the peristaltic pump 18 are controlled through the control main board, and meanwhile, other electronic components can be placed in the electronic component bin, so that the protection effect is achieved.

Further, the bottom of the main shell 1 is provided with a second annular rib position in a protruding manner corresponding to the mounting position of the mixing bin 13, the top of the mixing bin 13 is provided with a second annular clamping groove suitable for the second annular rib position, and when the mixing bin is mounted, the sealing performance is improved through the cooperation of the second annular clamping groove and the second annular rib position.

Further, a switch key and a system reset key are arranged on the main shell 1, and are respectively and electrically connected with the control main board, so that the device can be used under abnormal conditions and can be closed or adjusted in time.

Further, the main casing 1 is provided with a power supply line 28 communicating with the electronic component magazine 27, and the power supply line 28 is connected to the control main board to supply power.

Further, the electronic component bin 27 is provided with a wireless communication device, the wireless communication device is electrically connected with the control main board, and the wireless communication device is connected with a remote device such as a mobile phone or a computer for remote control, so that the intelligent degree of the feeding device is further improved. In the alternative embodiment, the main casing 1 may be provided with a signal line 29 communicating with the electronic component chamber 27, the signal line 29 is electrically connected to the control main board, and signal input may be performed through the signal line 29, and the cloud server may be connected to remotely control the feeding device.

Further, the waterproof ventilation valve 30 communicated with the electronic component bin 27 is arranged at the bottom of the main shell 1 corresponding to the electronic component bin 27, so that heat dissipation is facilitated in the working process, and the service life of the control main board is prolonged.

Further, the bottom of the main housing 1 is provided with a drain outlet 33 corresponding to the water storage bin 14 and communicated with the water storage bin 14, and the drain outlet 33 is detachably connected with a rubber plug, so that the water storage bin 14 is conveniently cleaned periodically.

On the basis of the above embodiment, in a specific embodiment, the top of the water storage bin 14 is provided with a water inlet connecting pipe 15, and one end of the water inlet connecting pipe 15, which is located in the inner cavity of the water storage bin 14, is connected with a float valve 16.

In this embodiment, the external water inlet pipe is connected through the water inlet connecting pipe 15, so that water can be introduced into the water storage bin 14, and when the water in the water storage bin 14 reaches a predetermined height, the float valve 16 can enable the water inlet connecting pipe 15 to avoid water leakage or overlarge internal pressure caused by excessive water quantity, thereby influencing the service life of the feeding device.

On the basis of the above embodiment, in a specific embodiment, the water storage tank further comprises a water discharge tank 22, wherein the water discharge tank 22 is arranged in the main shell 1 and is separated from the water storage tank 14 by a partition plate 23; the top of the partition plate 23 is provided with a drain opening 24 with a preset width, and the drain opening 24 is used for communicating the water storage bin 14 with the drain bin 22.

The bottom of the drain bin 22 is provided with a drain outlet for draining water.

In this embodiment, when the water level in the water storage bin 14 reaches the preset height, excessive water flows to the water discharge bin 22 through the water discharge opening 24 and is discharged through the water discharge opening of the water discharge bin 22, so that water leakage or excessive internal pressure caused by excessive water quantity is avoided, the service life of the feeding device is influenced, and especially when the float valve 16 is damaged and fails, the excessive water can be discharged through the water discharge opening 24.

In addition to the above embodiment, in a specific embodiment, a water spray head 21 is connected to an end of the second pipe 20 that communicates with the mixing chamber 13.

In this embodiment, the water spray pressure is increased by the sprinkler head 21 so that the feed and water are mixed more uniformly.

Further, the water spraying end of the water spraying head 21 faces the discharge outlet, so that the feed and the water are fully mixed, and meanwhile, the mixing bin 13 can be cleaned by discharging water from the water spraying head 21 after discharging is completed.

On the basis of the above embodiment, in a specific embodiment, the device further comprises a material pipe joint assembly 25, wherein the material pipe joint assembly 25 is suitable for being connected with a material drawing line for feeding; the material pipe connecting assembly 25 comprises a material pipe 2501, wherein a material supply hole 2502 is arranged at the bottom of the material pipe 2501, and the material supply hole 2502 is communicated with the material supply hole; the inner side of the material pipe groove 2501 is rotatably and coaxially connected with an arc-shaped switch baffle 2503, and the arc-shaped switch baffle 2503 is provided with a second material passing hole 2504 corresponding to the material feeding hole 2502; the side wall of the material pipe slot 2501 is provided with a switch slot 2505 with a preset radian along the circumferential direction, the side wall of the arc-shaped switch baffle 2503 is provided with a baffle switch 2506 corresponding to the switch slot 2505, and the baffle switch 2506 extends out of the switch slot 2505.

It should be noted that the material pipe 2501 is adapted to be connected to a material-feeding line.

In this embodiment, the material tube 2501 is connected to the material pulling line, the material pulling line is communicated with the material feeding hole 2502 on the material tube 2501, the feed conveyed by the material pulling line can enter the blanking bin through the material feeding hole 2502 and the material feeding hole, when feeding is not needed, the baffle switch 2506 can be rotated in the switch slot 2505 to drive the arc switch baffle 2503 to rotate along the axis, the second material feeding hole 2504 on the arc switch baffle 2503 is staggered with the material feeding hole 2502, the material pulling line is not communicated with the material feeding hole 2502 on the material tube 2501, the feed cannot enter the blanking bin 2, otherwise, the baffle switch 2506 is rotated in the switch slot 2505 to drive the arc switch baffle 2503 to rotate along the axis, and the second material feeding hole 2504 on the arc switch baffle 2503 is overlapped with the material feeding hole 2502, so that the feed can enter the blanking bin 2 through the material feeding hole 2502 when the material pulling line is conveyed.

Further, clips 2507 for fixing the pull wire are provided at both ends of the material pipe 2501, respectively, and the pull wire can be fixed by the clips 2507.

Further, the top of the trough 2501 is provided with a water-proof baffle 2508, which can prevent water from entering the blanking bin 2 through the trough 2501, and wet the feed to cause inconvenient grinding and stirring, or wet the driving assembly 11, which affects the service life of the driving assembly 11.

Further, the feed inlet 2502 is communicated with the feed inlet through a third pipeline, and the outer side wall of one end of the third pipeline connected with the feed inlet is matched with the inner cavity of the feed inlet; the lateral wall of third pipeline is equipped with the third annular draw-in groove, and the top of feed inlet is equipped with the third annular muscle position with the adaptation of third annular draw-in groove, is connected through third annular draw-in groove and the cooperation of third annular muscle position during the installation, improves the leakproofness.

On the basis of the above embodiment, in a specific embodiment, the side wall of the lower bin 2 is detachably connected with the cleaning window 26, and when the lower bin 2 is stuck or has foreign matters, the cleaning window 26 can be detached for cleaning, or the lower bin 2 is cleaned.

On the basis of the above embodiment, in a specific embodiment, the top of the main casing 1 is sealed by a detachable waterproof top cover.

In this embodiment, detachable waterproof top cap, convenient to detach maintains, carries out waterproof protection simultaneously.

In this embodiment, the pull wire is fixed in the material tube slot 2501 by the clamp 2507, the stirring baffle switch 2506 rotates in the switch slot 2505 to drive the arc switch baffle 2503 to rotate along the axis, so that the second material passing hole 2504 on the arc switch baffle 2503 is mutually overlapped and communicated with the material feeding hole 2502, the feed is convenient to pass through, then the driving motor 1101 is controlled by the control panel 12 to start, the driving connector 1102 rotates to drive the rotating chassis 5 and the stirring baffle 3 to rotate, the stirring baffle 3 uniformly stirs the passed feed, the rotating chassis 5 and the distributing baffle 4 are in relative rotation fit, the feed can not pass through the material discharging hole directly under the action of the distributing baffle 4, but can be discharged through the material discharging hole under the action of the distributing baffle 4, the feed is refined by the cooperation of the first arc convex strip 7 arranged on the rotating chassis 5 and the distributing baffle 4, and the rotating chassis 5 and the bottom of the discharging bin 2 are relatively rotated and then are matched with the second arc-shaped raised strips 9 to refine and grind the feed, so that the feed is more refined, the feeding quality is improved, the method is particularly applied to feeding of young livestock, the ground feed is more convenient for digestion of young livestock, then the ground feed enters the mixing bin 13 when the first feed passing port 6 on the rotating chassis 5 is overlapped and communicated with the discharge port of the discharging bin 2, meanwhile, the peristaltic pump 18 is controlled by the control panel 12 to pump water from the water storage bin 14 through the first pipeline 19, water is sprayed out from the water spray head 21 through the second pipeline 20 and flows out after being mixed with the feed falling into the mixing bin 13, the intelligent proportioning discharge amount and water quantity are fed, manual monitoring is not needed, manpower and material resources are saved, when the water level in the water storage bin 14 is reduced, the float ball valve 16 is lowered, the water inlet connecting pipe 15 is communicated, then water is continuously added into the water storage bin 14 until the float valve 16 rises again to disconnect the water inlet connecting pipe 15, so that normal water supply of the water storage bin 14 can be kept, if the float valve 16 is damaged, when the water level rises again, water can be discharged to the water discharge bin 22 through the water discharge opening 24, and water leakage or overlarge internal pressure caused by excessive water quantity is avoided, and the service life of the feeding device is influenced.

In specific application, the feeding device is applied to animal feeding, for example, the feeding of animal cubs (such as the feeding of young pigs), coarse fodder is inconvenient for the feeding and digestion and absorption of the cubs, the feeding quality can be reduced, the ground feed is finer, the feeding of the cubs is facilitated after water mixing, the feeding digestion and absorption effects are good, and the feeding quality is greatly improved.

Example 3

The feeding system provided by the embodiment comprises the feeding device of any one of the embodiments.

In this embodiment, through the feeding device who adopts any one of the above-mentioned embodiments for the feeding system ejection of compact is more meticulous, improves the quality of feeding, helps improving the breed productivity, but intelligent control simultaneously, does not need manual monitoring, practices thrift manpower and materials.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. While still being apparent from variations or modifications that may be made by those skilled in the art are within the scope of the utility model.

Claims (10)

1. A feeding device, comprising:

a main housing (1);

the discharging bin (2) is arranged in the inner cavity of the main shell (1) and is provided with a feeding hole and a discharging hole;

the stirring assembly is rotatably arranged in the discharging bin (2);

the grinding piece is arranged between the stirring assembly and the discharge hole;

the driving assembly (11) is arranged on the main shell (1), and the power output shaft is in driving connection with the stirring assembly and is used for driving the stirring assembly and the grinding piece to rotate.

2. Feeding device according to claim 1, further comprising a dosing assembly comprising a dispensing paddle (4) and a rotating chassis (5) coaxially arranged in sequence from top to bottom, the dispensing paddle (4) being rotatably connected to the rotating chassis (5);

the distributing shifting sheet (4) is arranged above the discharge hole and is fixedly connected with the inner side wall of the discharging bin (2);

the grinding piece is arranged on the rotating chassis (5) and is in sliding fit with the distributing poking piece (4);

the rotating chassis (5) is in driving connection with a power output shaft of the driving assembly (11);

at least one first material passing hole (6) corresponding to the material outlet is arranged on the rotary chassis (5).

3. Feeding device according to claim 2, wherein the grinding member comprises a plurality of first arc-shaped ribs (7) protruding on top of the rotating base plate (5), the first arc-shaped ribs (7) being in sliding fit with the distributing blade (4); the first arc convex strips (7) are arranged along the circumferential extension of the rotating chassis (5);

and/or the grinding piece comprises a plurality of first arc-shaped raised strips (7) which are arranged on the top of the rotating chassis (5) in a protruding mode, and the first arc-shaped raised strips (7) are in sliding fit with the distributing poking pieces (4); the first arc convex strips (7) are arranged along the circumferential extension of the rotating chassis (5); the top of the rotary chassis (5) is concavely provided with a circular groove, the outer side of the rotary chassis (5) is provided with a plurality of first material passing openings (6) distributed along the circumferential direction of the rotary chassis (5), and the first material passing openings (6) are communicated with the circular groove; the first arc-shaped raised strips (7) are arranged in the circular grooves, and two ends of each first arc-shaped raised strip are respectively connected with two adjacent first material passing openings (6); a baffle (10) with preset length is arranged on one side of the material distributing shifting sheet (4) far away from the discharge hole in an outward extending way from the axis;

and/or the grinding piece comprises a plurality of first arc-shaped raised strips (7) which are arranged on the top of the rotating chassis (5) in a protruding mode, and the first arc-shaped raised strips (7) are in sliding fit with the distributing poking pieces (4); the first arc convex strips (7) are arranged along the circumferential extension of the rotating chassis (5); an arc-shaped material passing groove (8) is concavely arranged at the bottom of one side of the material distributing shifting sheet (4) close to the material outlet and corresponds to the material outlet; the first arc convex strips (7) are corresponding to the discharge holes in the radial direction of the rotary chassis (5).

4. Feeding device according to claim 2, wherein the bottom of the rotating base plate (5) is provided with a plurality of second arc-shaped raised strips (9) protruding in the circumferential direction;

the bottom of the second arc-shaped raised strip (9) is in sliding fit with the bottom of the inner cavity of the discharging bin (2);

the second arc-shaped raised strips (9) extend from the axle center to the periphery along the tangential direction;

the second arc-shaped raised strips (9) and the first material passing openings (6) are correspondingly staggered.

5. Feeding device according to claim 2, wherein the drive assembly (11) comprises a drive motor (1101) and a connector (1102);

the stirring assembly comprises a stirring pulling piece (3);

one end of the connector (1102) extends into the discharging bin (2);

the rotating chassis (5) is sleeved on the connector (1102) and is clamped with the connector (1102);

the stirring pulling piece (3) is in threaded connection with one end of the connector (1102) positioned in the discharging bin (2);

the driving motor (1101) is arranged at the bottom of the main shell (1), and the power output shaft is in driving connection with the other end of the connector (1102).

6. Feeding device according to claim 5, wherein the drive motor (1101) is connected to the main housing (1) via a flange (1103);

a framework oil seal (1104) is sleeved on the connector (1102), and a mounting groove is concavely formed in the bottom of the main shell (1) corresponding to the framework oil seal (1104); the framework oil seal (1104) is arranged in the mounting groove and is positioned between the flange (1103) and the main shell (1).

7. The feeding device of any one of claims 1-6, further comprising:

a control panel (12) provided on the outer side wall of the main casing (1);

the mixing bin (13) is arranged at the bottom of the main shell (1) and is communicated with the discharge port;

a water storage bin (14) arranged in the main shell (1);

the water pumping bin (17) is provided with a peristaltic pump (18), the water inlet end of the peristaltic pump (18) is communicated with the water storage bin (14) through a first pipeline (19), and the water outlet end of the peristaltic pump is communicated with the mixing bin (13) through a second pipeline (20);

wherein the control panel (12) is electrically connected with the peristaltic pump (18) and the driving component (11) respectively.

8. Feeding device according to claim 7, characterized in that the top of the water storage bin (14) is provided with a water inlet connecting pipe (15), and one end of the water inlet connecting pipe (15) positioned in the inner cavity of the water storage bin (14) is connected with a float valve (16);

and/or, further comprising a drainage bin (22), wherein the drainage bin (22) is arranged in the main shell (1) and is separated from the water storage bin (14) through a partition plate (23);

a drainage opening (24) with a preset width is formed in the top of the partition plate (23), and the drainage opening (24) is used for communicating the water storage bin (14) with the drainage bin (22);

and/or one end of the second pipeline (20) communicated with the mixing bin (13) is connected with a water spray head (21).

9. Feeding device according to any one of claims 1-6, 8, further comprising a tube engagement assembly (25), said tube engagement assembly (25) being adapted to be connected to a feed pull line;

the material pipe connecting assembly (25) comprises a material pipe groove (2501), a material supply opening (2502) is formed in the bottom of the material pipe groove (2501), and the material supply opening (2502) is communicated with the material supply opening;

the inner side of the material pipe groove (2501) is rotatably and coaxially connected with an arc-shaped switch baffle plate (2503), and a second material passing opening (2504) is arranged on the arc-shaped switch baffle plate (2503) corresponding to the material feeding opening (2502);

a switch groove (2505) with a preset radian is formed in the side wall of the material pipe groove (2501) along the circumferential direction, a baffle switch (2506) is arranged on the side wall of the arc-shaped switch baffle (2503) corresponding to the switch groove (2505), and the baffle switch (2506) extends out of the switch groove (2505);

and/or the side wall of the discharging bin (2) is detachably connected with a cleaning window (26).

10. A feeding system comprising a feeding device according to any one of claims 1 to 9.

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