CN113749000B

CN113749000B - Grain discharging assembly for feeder

Info

Publication number: CN113749000B
Application number: CN202111152514.5A
Authority: CN
Inventors: 黄楚华; 吴珍册
Original assignee: Hohmann Technology Guangzhou Co ltd
Current assignee: Hohmann Technology Guangzhou Co ltd
Priority date: 2021-09-29
Filing date: 2021-09-29
Publication date: 2022-08-16
Anticipated expiration: 2041-09-29
Also published as: CN113749000A

Abstract

The application discloses a grain discharging assembly for a feeder, which relates to the technical field of feeders and comprises a grain discharging bin, a grain pushing structural part and a transmission connecting part; the transmission connecting piece comprises a transmission piece, a first rotating piece and a second rotating piece; the first rotating piece is rotatably arranged on the grain discharging bin and is provided with a first clamping table; the second rotating piece is provided with a first buckle capable of elastically deforming; the first buckle is buckled with the first buckle table; the transmission piece is detachably arranged between the first rotating piece and the second rotating piece and can move along the direction close to or far away from the second rotating piece; the transmission connecting piece is provided with an extrusion part; the pushing part is used for extruding the first buckle to elastically deform in the direction of separating from the first buckle table until the first buckle separates from the first buckle table when the transmission part is close to the second rotating part; the grain poking structural part is arranged on the second rotating part. Can realize dialling the swift convenient dismouting of grain structure, improve the convenience of clearance maintenance, promote user experience.

Description

Grain discharging assembly for feeder

Technical Field

The application relates to the technical field of feeders, especially, relate to a feed feeder is with going out grain subassembly.

Background

Along with the improvement of living standard, the resident who raises the pet is more and more, in order to solve people's diet problem of pet on business trip or journey, pet feeding machine arises as soon as possible.

The most fundamental role of the pet feeder is feeding, so that the grain discharging mechanism in the pet feeder is a core component of the pet feeder, and most of the pet feeders are designed for rotary grain discharging at present. The process of its grain of going out does, driving motor drives through a transmission connecting piece synchronization and dials the grain structure and go out the grain structure and rotate, dials the grain structure and is located storage grain bin bottom and is used for stirring grain for storage grain bin's grain can fall on the play granary of below, goes out the grain structure setting and separates into a plurality of separate chambeies in going out the granary and with going out the granary, and each separate chamber is along with the rotation of the structure of going out grain and the transposition position can be used for quantitative splendid attire grain. When the grain discharging structural member rotates to the separated cavity and is communicated with the grain discharging opening of the grain storage bin, grains in the grain storage bin fall to the separated cavity. When the grain outlet structural member rotates to be communicated with a grain outlet of the grain outlet bin, the grains in the partition cavity are conveyed out through the grain outlet channel to be eaten by the pet, and thus the grain outlet is finished.

Present rotatory grain design of putting out, dial grain structure, go out and be connected through fasteners such as screw between grain structure and the transmission connecting piece, this kind of connected mode is very difficult to unpack apart and install to the user for this partial washing becomes very difficult, though can wash under the condition of not dismantling, but this not only can wash unclean, also is difficult to dry after the washing in addition, can lead to the condition such as pet grain wets because of drying thoroughly easily. Therefore, the existing design of the rotary grain discharging mechanism still has defects, so that the cleaning difficulty and the cleaning time of a user are greatly increased, the cleaning is difficult, and the use experience of the user is seriously influenced.

Disclosure of Invention

In view of this, the purpose of this application is to provide a grain subassembly of going out for feeder, can solve current rotatory grain mechanism because of the design exists not enough, not only increased user's the clearance degree of difficulty and clearance time widely that leads to, be difficult to the sanitization moreover, seriously influence user's use experience's technical problem.

In order to achieve the technical purpose, the application provides a grain discharging assembly for a feeder, which comprises a grain discharging bin, a grain pushing structural part and a transmission connecting part;

the transmission connecting piece comprises a transmission piece, a first rotating piece and a second rotating piece;

the transmission piece, the first rotating piece and the second rotating piece are in rotating fit along the same rotating center line;

the first rotating piece is mounted on the grain discharging bin and is provided with a first clamping table;

the second rotating piece is provided with a first buckle capable of elastically deforming;

the first buckle is buckled with the first buckle table;

the transmission piece is detachably arranged between the first rotating piece and the second rotating piece and can move in the direction close to or far away from the second rotating piece;

the transmission part is provided with an extrusion part;

the pushing part is used for pushing the first buckle to elastically deform in the direction of separating from the first buckle table until the first buckle separates from the first buckle table when the transmission part is close to the second rotating part;

the grain poking structural part is arranged on the second rotating part.

Furthermore, the grain poking structural part is detachably sleeved on the second rotating part.

Furthermore, the first rotating piece is provided with a through cavity along the direction of the rotating central line of the first rotating piece;

the outer diameter of the transmission part is smaller than or equal to the inner diameter of the opening at the upper end of the through cavity.

Further, the first buckle comprises an arm section and a hook part;

the clamping hook part is provided with a stop surface and a first inclined surface which is connected with the stop surface at an angle;

the stop surface is connected with the outer side surface of the arm section and can be abutted against the first buckle platform in a contact manner;

when the first buckle is matched with the first buckle platform, the outer side surface of the arm section is contacted and propped against the first buckle platform;

the pushing part is provided with a second inclined surface matched with the first inclined surface;

when the second rotating part is arranged on the first rotating part, the distance from the bottom of the first inclined surface to the rotating center line of the transmission part is smaller than the distance from the top of the second inclined surface to the rotating center line of the transmission part.

Furthermore, a stopping part which is contacted and abutted with the first buckle platform in the horizontal direction is arranged on one surface of the first buckle matched with the first buckle platform.

Furthermore, a first circumferential limiting part is arranged on the first rotating part;

the second rotating part is provided with a first limiting groove part for the first circumferential limiting part to be movably clamped in;

the second rotating piece is provided with a second circumferential limiting part;

and the transmission piece is provided with a second limiting groove part for the movable clamping of the second circumferential limiting part.

Furthermore, a limiting rib group is arranged on the outer peripheral wall of the transmission part;

the limiting rib group consists of two third rib plates;

the two third rib plates are arranged at intervals, and a second clamping groove is formed between the two third rib plates;

the second clamping groove forms the second limiting groove part.

Further, the transmission piece and the second rotating piece are connected in a relatively movable mode, so that the transmission piece and the second rotating piece can be separated from the first rotating piece together.

Furthermore, the second rotating part is provided with a second buckle capable of elastically deforming;

the second buckle is clamped into the second clamping groove and is in sliding fit with the second clamping groove to form the second circumferential limiting part;

and a second buckle platform buckled with the second buckle is arranged on the second clamping groove.

Further, the device also comprises an elastic piece;

the elastic piece is arranged between the second rotating piece and the connecting piece, one end of the elastic piece is in contact and abutted with the transmission piece, and the other end of the elastic piece is in contact and abutted with the second rotating piece.

Further, the elastic member is a spring.

Further, a first rib plate is horizontally arranged in the through cavity;

the transmission part extends into the through cavity and is arranged on the first rib plate;

the top of the first rib plate is provided with a second rib plate which extends vertically and upwards;

the second rotating piece is arranged at the top of the second rib plate;

the first buckle platform is arranged on the inner wall of the through cavity;

the top of the second rib plate is convexly provided with a clamping tooth part;

the clamping tooth part forms the first circumferential limiting part;

the second rotating part is provided with a first clamping groove for clamping the clamping tooth part;

the first clamping groove forms the first limiting groove part.

Furthermore, a positioning hole is formed in the center of the first rib plate;

the transmission part comprises a first transmission section and a second transmission section;

the second transmission section movably penetrates through the positioning hole and is connected to the bottom of the first transmission section;

the first transmission section is arranged at the top of the first rib plate;

the second limiting groove part and the pushing part are arranged on the first transmission section.

Furthermore, the second rib plates are distributed at intervals around the circumference of the positioning hole and used for forming a positioning cavity for accommodating the first transmission section;

a clearance between at least one arbitrary two adjacent second rib plates forms an avoidance clearance for avoiding the pushing part and the first buckle;

the first buckle platform is arranged on the inner wall of the through cavity and corresponds to the position of the avoiding gap.

Further, the pushing part is of a block structure or an annular flange structure.

Further, the pushing part is of a block-shaped structure;

the number of the first buckling platforms is at least two, and the first buckling platforms are distributed around the circumference of the rotation center line of the first rotating piece;

the number of the first buckles is at least two, and the first buckles correspond to the first buckle platforms one to one;

the number of the pushing parts is at least two, and the pushing parts correspond to the first buckles one by one.

According to the technical scheme, the application provides a grain discharging assembly, by a grain discharging bin, a grain discharging structural part and a transmission connecting part, wherein the transmission connecting part is constructed by a transmission part, a first rotating part and a second rotating part which can be synchronously and rotatably matched along the same rotation central line, and when the grain discharging assembly is matched with the grain discharging structural part, the rotation of the grain discharging structural part can be guaranteed. The second rotating part is matched with the first buckle platform through the elastic first buckle to realize separable connection with the first rotating part, the transmission part is arranged between the first rotating part and the second rotating part and movably arranged, and the first buckle is extruded by the extrusion part on the transmission part to enable the second rotating part to be separated from the first rotating part. The transmission connecting piece with the structural design does not need fasteners such as screws and the like, and has simple structure and convenient assembly and disassembly. When needing to wash, can unblock the second through pressing the driving medium and rotate the piece to can tear out and dial grain structure and driving medium. The cleaning difficulty of the user is greatly reduced, the cleaning time is saved, the pet food is convenient to dry after cleaning, the situation that the pet food is affected with damp due to incomplete drying is avoided, and the user use experience is improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive exercise.

Fig. 1 is an exploded view of a discharge assembly for a feeder in cooperation with a grain storage bin as provided herein;

FIG. 2 is a cross-sectional view of a food dispenser discharge assembly provided herein in cooperation with a storage bin;

FIG. 3 is a first exploded view of the drive connection of a food outlet assembly for a feeder provided herein without a resilient member;

FIG. 4 is a second exploded view of the drive connection with the resilient member of a food outlet assembly for a feeder provided herein;

FIG. 5 is a cross-sectional view of the drive connection of a feeder spout assembly provided herein when the pushing portion is not in a first latched position;

fig. 6 is a first cross-sectional view of the drive connection of a feeder pour assembly provided herein, as the push section squeezes the first snap-fit condition;

fig. 7 is another cross-sectional view of the drive connection of a food outlet assembly for a feeder provided herein when the pushing portion does not press the first snap;

in the figure: 1. a first rotating member; 11. a first buckle stage; 12. a second rib plate; 121. a latch part; 13. a first rib plate; 131. positioning holes; 2. a transmission member; 21. a first transmission section; 210. a second inclined surface; 211. a pushing section; 212. a third rib plate; 213. a second buckle table; 214. a cavity; 22. a second transmission section; 3. a second rotating member; 31. a first buckle; 301. a stop surface; 310. a first inclined surface; 311. a stopper portion; 32. a second buckle; 33. a first card slot; 4. an elastic member; 5. a grain pulling structure member; 6. a grain discharging structural part; 7. discharging from a granary; 8. and (7) storing the granary.

Detailed Description

The technical solutions of the embodiments of the present application will be described clearly and completely with reference to the accompanying drawings, and it is obvious that the described embodiments are some, but not all, of the embodiments of the present application. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without making creative efforts belong to the protection scope of the embodiments in the present application.

In the description of the embodiments of the present application, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the embodiments of the present application and simplifying the description, but do not indicate or imply that the referred devices or elements must have specific orientations, be configured in specific orientations, and operate, and thus, should not be construed as limiting the embodiments of the present application. 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 embodiments of the present application, it should be noted that the terms "mounted," "connected," and "connected" are used broadly and are defined as, for example, a fixed connection, an exchangeable connection, an integrated connection, a mechanical connection, an electrical connection, a direct connection, an indirect connection through an intermediate medium, and a communication between two elements, unless otherwise explicitly stated or limited. Specific meanings of the above terms in the embodiments of the present application can be understood in specific cases by those of ordinary skill in the art.

The embodiment of the application discloses a grain discharging assembly for a feeder.

Referring to fig. 1 and 3, an embodiment of a food outlet assembly for a feeder provided in an embodiment of the present application includes:

a grain outlet bin 7, a grain pushing structural part 5 and a transmission connecting part.

The transmission connecting piece comprises a transmission piece 2, a first rotating piece 1 and a second rotating piece 3. The transmission member 2, the first rotating member 1 and the second rotating member 3 are synchronously and rotationally matched along the same rotation center line, and when the synchronous rotation device is applied, the transmission member 2 is connected with a driving motor and used for driving the first rotating member 1 and the second rotating member 3 to synchronously rotate.

The first rotating part 1 is rotatably installed on the grain outlet bin 7 and is provided with a first buckle platform 11, the second rotating part 3 is provided with a first buckle 31 capable of elastically deforming, the first buckle 31 is buckled with the first buckle platform 11, and the second rotating part 3 is detachably connected with the first rotating part 1 along the direction of the rotation center line of the transmission connecting part through the matching of the first buckle 31 and the first buckle platform 11. The transmission piece 2 is detachably mounted between the first rotating piece 1 and the second rotating piece 3 along the rotation center line direction of the transmission connecting piece, and can move along the direction close to or far away from the second rotating piece 3. The transmission connecting piece is provided with an extrusion part 211 for extruding the first buckle 31 to elastically deform in the direction of separating from the first buckle platform 11 until the first buckle 31 separates from the first buckle platform 11 when the transmission piece 2 is close to the second rotation piece 3. The pushing portion 211 is provided with another inclined surface matched with the inclined surface of the first buckle 31, and the movement of the pushing portion 211 is converted into the movement of the first buckle 31 toward the direction away from the first buckle table 11 through the relative movement between the inclined surfaces, so that the first buckle 31 is separated from the first buckle table 11.

In this application, dial grain structure 5 and install in the second and rotate piece 3, and play grain structure 6 in the feeder then can install in first rotation piece 1. The driving motor drives the first rotating part 1 and the second rotating part 3 to synchronously rotate through the transmission part 2, and further drives the first rotating part 1 and the second rotating part 3 to synchronously rotate, and when the grain discharging structural part 6 rotates to the separation cavity and is communicated with a lower grain opening of the grain storage bin 8, grains in the grain storage bin 8 fall to the separation cavity. When the grain outlet structural member 6 rotates to be communicated with a grain outlet of the grain outlet bin 7, the grains in the separation cavity are conveyed out through the grain outlet channel to be eaten by the pet, and thus the grain outlet is finished.

According to the technical scheme, the application provides the grain discharging assembly, by grain discharging bin 7, dial grain structure 5 and transmission connecting piece and establish, wherein the transmission connecting piece is established by can following synchronous normal line of rotation's driving medium 2, first rotation piece 1 and the second rotation piece 3, when with dialling the cooperation of grain structure 5, can guarantee to dial the rotation of grain structure 5. The second rotating member 3 is detachably connected to the first rotating member 1 by the cooperation of the elastic first engaging member 31 and the first engaging platform 11, the transmission member 2 is movably disposed between the first rotating member 1 and the second rotating member 3, and the pushing portion 211 of the transmission member 2 is used to push the first engaging member 31 to separate the second rotating member 3 from the first rotating member 1. The transmission connecting piece with the structural design does not need fasteners such as screws and the like, and has simple structure and convenient assembly and disassembly. When needing to wash, can unblock the second through pressing driving medium 2 and rotate piece 3 to can tear out group grain structure 5 and driving medium 2. The clearance degree of difficulty that has reduced the user widely practices thrift clearing time, also conveniently dries after the clearance moreover, avoids having promoted user's use experience because of drying the condition such as thoroughly leading to pet grain to wet not thoroughly.

The above is a first embodiment of a food discharging component for a feeder according to the embodiments of the present application, and the following is a second embodiment of a food discharging component for a feeder according to the embodiments of the present application, please refer to fig. 1 to 7 specifically.

The scheme based on the first embodiment is as follows:

further, dial grain structure 5 detachably suit in this application in the second rotates 3, goes out grain structure 6 also detachably suit in first rotation 1 on the same reason, dials grain structure 5 and goes out grain structure 6 and all adopt the mode detachable that the cover was established to be connected fixedly, has improved the convenience of installing and removing.

Further, with regard to the setting of dismantling of driving medium 2, can be equipped with logical chamber along self rotation center line direction at first rotating member 1, can make things convenient for driving medium 2 and first rotating member 1 to be connected with nested mode, it is more convenient to connect, and the external diameter less than or equal to of driving medium 2 leads to the open-ended internal diameter in chamber, guarantees the setting of dismantling of driving medium 2.

Further, as shown in fig. 6, the first buckle 31 includes an arm section and a hook section. The hook portion has a stop surface 301 and a first inclined surface 310 connected to the stop surface 301 at an angle, and the stop surface 301 is connected to the outer side surface of the arm section and can contact and abut against the first buckle platform 11. When first buckle 31 and first buckle platform 11 cooperate, the lateral surface of arm section offsets with first buckle platform 11 contact, and backstop face 301 then with first buckle platform 11 at the spacing cooperation of rotation center line direction, guarantee the locking cooperation between first buckle 31 and the first buckle platform 11. The pushing portion 211 has a second inclined surface 210 matching with the first inclined surface 310, so as to ensure that the pushing portion 211 can smoothly push the first buckle 31 to exit the first transmission member 1. When the second rotating member 3 is mounted on the first rotating member 1, the distance from the bottom of the first inclined surface 310 to the rotation center line of the transmission member 2 is smaller than the distance from the top of the second inclined surface 210 to the rotation center line of the transmission member 2.

Further, a stopping portion 311, which is in contact with and abuts against the first buckle stage 11 in the horizontal direction, is disposed on a surface of the first buckle 31, which is matched with the first buckle stage 11, that is, the stopping portion 311 is disposed on an outer side surface of the arm section, or the stopping portion 311 is disposed on a stopping surface, which is not limited specifically, the stopping portion 311 may be a boss structure. Through setting up backstop portion 311 and can be used for restricting the cooperation width between first buckle 31 and the first buckle platform 11, guarantee that first buckle 31 can be smooth break away from first buckle platform 11 under the extrusion of crowded portion 211 that pushes away, cooperation width can design according to actual need, does not do the restriction.

Further, as for the rotation cooperation between driving medium 2, first rotation piece 1 and the second rotation piece 3, can be equipped with the spacing portion of first circumference on first rotation piece 1, be equipped with the first spacing slot part that supplies the spacing portion activity of first circumference to go into on the second rotation piece 3, utilize the spacing portion of first circumference and the cooperation of first spacing slot joint to realize first rotation piece 1 and the spacing connection of second rotation piece 3 on the rotation direction to realize the synchronous normal running fit between first rotation piece 1 and driving medium 2. Similarly, can be equipped with the spacing portion of second circumference on the second rotates piece 3, be equipped with the spacing slot part of second that supplies the spacing portion activity card of second circumference to go into on driving medium 2, utilize the joint cooperation between spacing portion of second circumference and the spacing slot part of second, realize driving medium 2 and the spacing connection of second rotation piece 3 in the rotation direction, thereby realize that the second rotates the synchronous normal running fit of piece 3 and driving medium 2, the synchronous normal running fit between the piece 3 is rotated to the recombination above-mentioned first rotation piece 1 and second, can realize holistic normal running fit design. In this embodiment, realize synchronous rotation through the mode of joint and connect, also can make the installation dismantle more convenient, do not do the restriction.

Further, in terms of the synchronous rotational coupling engagement between the transmission member 2 and the second rotating member 3, a set of limit ribs is provided on the outer peripheral wall of the transmission member 2. The limiting rib group is designed to be composed of two third rib plates 212, the two third rib plates 212 are arranged at intervals, a second clamping groove is formed between the two third rib plates 212, a second limiting groove part is formed in the second clamping groove, and the second clamping groove is matched with a second circumferential limiting part on the second rotating part 3 to realize limiting connection between the transmission part 2 and the second rotating part 3.

Furthermore, the transmission element 2 and the second rotary part 3 are designed to be connected in a relatively movable manner, so that the transmission element 2 and the second rotary part 3 can be separated from the first rotary part 1 together. That is to say to connect driving medium 2 and second rotation piece 3 into a whole under the prerequisite that keeps between driving medium 2 and the second rotation piece 3 relative movement, like this through pressing driving medium 2 in order the unblock second to rotate piece 3 the time, the second rotates piece 3 and can take driving medium 2 out certainly, avoids producing too much finding after taking apart and increases the installation degree of difficulty that is used for.

Further, but be equipped with elastic deformation's second buckle 32 on second rotation piece 3, with second buckle 32 design for can block into the second draw-in groove and with second draw-in groove sliding fit, be used for forming the spacing portion of second week, still can make driving medium 2 and second rotate and can move relatively between the piece 3 when realizing driving medium 2 and second rotation piece 3 synchronous rotation connection cooperation like this. A second fastening platform 213 fastened with the second fastening 32 is further disposed on the second slot, and the driving member 2 and the second rotating member 3 can be connected to form a whole under the premise of relative movement by fastening the second fastening 32 and the second fastening platform 213, and the design of the first fastening 31 and the first fastening platform 11 can be referred to for the matching design between the second fastening 32 and the second fastening platform 213, which is not repeated.

Further, in the case of a design in which the transmission member 2 and the second rotating member 3 are connected to each other in a relatively movable manner as a whole, the elastic member 4 may be additionally provided. The elastic component 4 is arranged between the second rotating component 3 and the connecting component, one end of the elastic component is contacted and propped against the transmission component 2, and the other end of the elastic component is contacted and propped against the second rotating component 3. Realize elastic activity between driving medium 2 and the second rotation piece 3 through elastic component 4, utilize elastic component 4 can make and have a certain distance between driving medium 2 and the second rotation piece 3 when not receiving to press external force, and when needing to come unblock second rotation piece 3 through pushing portion 211, then can press driving medium 2 and overcome the elastic force of elastic component 4 and produce the motion, until pushing portion 211 presses first buckle 31 and make the second rotation piece 3 unblock, the setting of elastic component 4 has further improved the cooperation reliability between driving medium 2 and the second rotation piece 3.

Further, the elastic element 4 may be designed in particular as a spring. In order to facilitate the installation and arrangement of the spring, a cavity 214 is provided in the transmission member 2 to facilitate the positioning and installation of the spring.

Furthermore, a second rib plate 12 extending vertically upwards is arranged at the top of the first rib plate 13, the second rotating part 3 is arranged at the top of the second rib plate 12, and the second rotating part 3 buckled on the first rotating part 1 is supported and limited by the second rib plate 12, so that the second rotating part 3 is connected and matched with the first rotating part 1. Correspondingly, install in the design that leads to the intracavity for adaptation driving medium 2, first buckle platform 11 is located and is led to intracavity wall for first buckle 31 stretches into logical chamber and cooperates with first buckle platform 11, guarantees to push portion 211 and first buckle 31 at same installation area, and it can extrude first buckle 31 to push portion 211. Furthermore, when the synchronous rotation limiting connection is connected, a clamping tooth portion 121 is convexly arranged at the top of the second rib plate 12, the clamping tooth portion 121 is used for forming a first circumferential limiting portion, correspondingly, the second rotating member 3 is provided with a first clamping groove 33 for clamping the clamping tooth portion 121, and the first clamping groove 33 forms a first limiting groove portion. With this structural design, the transmission member 2, the first rotating member 1, and the second rotating member 3 can be more compactly engaged.

Further, the center of the first rib plate 13 is provided with a positioning hole 131, the transmission member 2 comprises a first transmission section 21 and a second transmission section 22, the second transmission section 22 movably penetrates through the positioning hole 131 and is connected to the bottom of the first transmission section 21, the cross section of the second transmission section 22 can be designed into a cross shape, a quincunx shape and the like, the shape of the corresponding positioning hole 131 is matched with that of the second transmission section 22, so that the positioning and mounting effects can be achieved, the limiting effect on the second transmission section 22 in the rotating direction can be achieved, and the transmission member 2 is connected with the first transmission member 1 in a synchronous rotating mode. The first transmission section 21 is installed at the top of the first rib plate 13, and the second limiting groove part and the pushing part 211 are arranged on the first transmission section 21. In the present application, the third rib plate 212 is disposed on the first transmission section 21, and the cavity 214 is disposed on the first transmission section 21.

Furthermore, the second rib plates 12 are distributed at intervals around the circumference of the positioning hole 131 and used for forming a positioning cavity for accommodating the second transmission section 22, the formed positioning cavity can play a role in primary positioning for the transmission piece 2, the installation convenience between the transmission piece 2 and the first rotating piece 1 is further improved, and meanwhile, the number of the second rib plates 12 is increased, so that the second rotating piece 3 and the first rotating piece 1 are more reliable in matching. In order to ensure that the arrangement of the second rib plates 12 does not interfere with the matching between the first buckle 31 and the first buckle platform 11 and the extrusion of the extrusion part 211 on the first buckle 31, the clearance between at least one arbitrary two adjacent second rib plates 12 forms an avoiding clearance for avoiding the extrusion part 211 and the first buckle 31, and the first buckle platform 11 is arranged on the inner wall of the through cavity at a position corresponding to the avoiding clearance.

Further, as for the structure of the pushing part 211, a block structure or an annular flange structure may be used.

Further, the number of the first snapping tables 11 is at least two, and the first snapping tables are distributed circumferentially around the rotation center line of the first rotating member 1. Correspondingly, the number of the first snap 31 is at least two, and the first snap 31 corresponds to the first snap table 11 one by one. Correspondingly, taking the pushing portion 211 as a block structure as an example, the number of the pushing portions is at least two, and the pushing portions correspond to the first fasteners 31 one by one. The first snap table 11, the first snap 31 and the first pushing portion 211 can improve the reliability of the overall matching to a certain extent by properly increasing the number, and the specific number can be designed according to actual needs without limitation.

While the above disclosure provides a food dispenser assembly, those skilled in the art will appreciate that there are numerous variations and permutations of the above described embodiments and applications, and accordingly, the above disclosure should not be construed as limiting the present invention.

Claims

1. A grain discharging assembly for a feeder is characterized by comprising a grain discharging bin, a grain poking structural member and a transmission connecting member;

the transmission part, the first rotating part and the second rotating part are in rotating fit along the same rotating center line;

the first buckle is buckled with the first buckle table;

the transmission part is provided with an extrusion part;

the grain poking structural part is arranged on the second rotating part;

the first buckle comprises an arm section and a clamping hook part;

the stop surface is connected with the outer side surface of the arm section and can be contacted and propped against the first buckle platform;

2. A feeder spout assembly of claim 1 wherein said dip structure is removably attached to said second rotatable member.

3. A food outlet assembly for a feeder as claimed in claim 1, wherein said first rotatable member is provided with a through cavity along a central line of rotation thereof;

4. A food outlet assembly for a feeder as claimed in claim 1, wherein a stop portion is provided on a surface of said first engaging portion which engages with said first engaging portion, said stop portion abutting against said first engaging portion in a horizontal direction.

5. A food outlet assembly for a feeder as claimed in claim 3, wherein the first rotatable member is provided with a first circumferential stop;

the second rotating piece is provided with a first limiting groove part for the first circumferential limiting part to be movably clamped in;

6. A food outlet assembly for a feeder as claimed in claim 5, wherein the drive member has a set of retaining ribs on its peripheral wall;

the limiting rib group consists of two third rib plates;

the second clamping groove forms the second limiting groove part.

7. A feeder spout assembly of claim 6 wherein the drive member is movably coupled to the second rotatable member such that the drive member and the second rotatable member are both separable from the first rotatable member.

8. A feeding utensil discharge assembly according to claim 7 wherein the second rotating member is provided with a second resiliently deformable latch;

9. A feeder spout assembly of claim 8 further comprising a resilient member;

10. A feeder spout assembly of claim 9 wherein the resilient member is a spring.

11. A food outlet assembly for a feeder according to claim 5, wherein a first rib plate is horizontally arranged in the through cavity;

the second rotating piece is arranged at the top of the second rib plate;

the first buckle platform is arranged on the inner wall of the through cavity;

the clamping tooth part forms the first circumferential limiting part;

the first clamping groove forms the first limiting groove part.

12. A food outlet assembly for a feeder according to claim 11, wherein the first rib has a locating hole in the center;

the first transmission section is arranged at the top of the first rib plate;

13. The food outlet assembly of claim 12, wherein the plurality of second rib plates are spaced around the circumference of the positioning hole to form a positioning cavity for receiving the first transmission section;

14. A feeder spout assembly of claim 1 wherein the pushing portion is a block or annular flange.

15. A feeder spout assembly of claim 14 wherein the pushing portion is a block-like structure;