CN217523565U - Vertical grain conveying device - Google Patents

Abstract

A vertical grain conveying device is applied to a feeding barrel, a granary and a grain outlet are arranged in the feeding barrel, the vertical grain conveying device comprises a shell, a grain conveying belt and a driving mechanism, the shell is installed in the granary, a working cavity is arranged in the shell, an inlet for communicating the working cavity with the granary is formed in the lower side of the shell, an outlet is further formed in the upper side of the working cavity, and the outlet is communicated with the grain outlet; the grain conveying belt is vertically arranged in the working cavity in a closed annular structure, and a plurality of shifting pieces are arranged on the grain conveying belt; the driving mechanism is arranged in the granary, and one end of the driving mechanism extends into the working cavity to be in driving connection with the grain conveying belt. Grain in the granary enters into the working cavity from the entrance, and grain can be taken away through the plectrum to the fortune grain area of operation, makes grain by perpendicular up-transport and when the plectrum moved to the top side of fortune grain area or fortune grain area opposite side, and grain breaks away from the back from the plectrum and falls out from the export again, then breaks away from feeding bucket through going out the grain mouth, the vertical setting of this fortune grain device, the high upper limit of liberation device and feeding bucket.

Description

Vertical grain conveying device

Technical Field

The utility model relates to a pet articles for use field specifically is a perpendicular fortune grain device.

Background

The existing automatic pet feeder generally adopts a grain dropping mode to discharge grains, and the cat/dog grains in the granary are transported by utilizing a lifting mechanism and then fall out from a grain outlet, so that the grain discharging amount can be effectively controlled. However, the lifting mechanism applied to the existing pet feeding device is generally disposed in an inclined manner, for example, in an automatic pet feeding device described in patent No. 201710797074.6, the grain transporting device therein almost spans the entire internal space of the feeding device, the occupied space is large, and the height of the automatic pet feeding device is limited by the width of the feeding device.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In order to solve the problems, the utility model provides a pair of perpendicular fortune grain device saves the granary space that occupies, liberates the high upper limit.

(II) technical scheme

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a perpendicular fortune grain device, applies to on feeding the bucket, is equipped with granary and grain outlet in feeding the bucket, and this perpendicular fortune grain device includes:

the shell is arranged in the granary, a working cavity is arranged in the shell, an inlet communicated with the working cavity and the granary is formed in the lower side of the shell, an outlet is also formed in the upper side of the working cavity, and the outlet is communicated with a grain outlet;

the grain conveying belt is in a closed annular structure and is vertically arranged in the working cavity, and a plurality of shifting pieces are arranged on the grain conveying belt;

and the driving mechanism is arranged in the granary, and one end of the driving mechanism extends into the working cavity to be in driving connection with the grain conveying belt.

Preferably, the drive mechanism comprises:

the output assembly is arranged on the feeding barrel or the shell;

the driving wheel is in driving connection with the output assembly, is arranged at the lower side of the working cavity and is in driving connection with the grain conveying belt;

the driving wheel is arranged on the upper side of the working cavity and is in transmission connection with the grain conveying belt.

Preferably, the driving wheel and the driving wheel are in transmission connection with the inner annular surface of the grain conveying belt, the poking sheet is arranged on the outer annular surface of the grain conveying belt, and the front end of the poking sheet is arranged close to the side wall of the working cavity.

Preferably, the plectrum is the slope setting for fortune grain area, and the traffic direction of fortune grain area is the slope orientation of plectrum front end.

Preferably, the plectrum inclines 45 to 80 degrees relative to the surface of the grain conveying belt.

Preferably, the grain conveying belt is internally provided with a first toothed structure on the inner ring surface, the driving wheel is provided with a second toothed structure, and the first toothed structure and the second toothed structure are in meshing transmission.

(III) advantageous effects

The utility model has the advantages that: a vertical grain conveying device is applied to a feeding barrel, a granary and a grain outlet are arranged in the feeding barrel, the vertical grain conveying device comprises a shell, a grain conveying belt and a driving mechanism, the shell is installed in the granary, a working cavity is arranged in the shell, an inlet for communicating the working cavity with the granary is formed in the lower side of the shell, an outlet is further formed in the upper side of the working cavity, and the outlet is communicated with the grain outlet; the grain conveying belt is vertically arranged in the working cavity in a closed annular structure, and a plurality of shifting pieces are arranged on the grain conveying belt; the driving mechanism is arranged in the granary, and one end of the driving mechanism extends into the working cavity to be in driving connection with the grain conveying belt. Grain in the granary enters into the working cavity from the entrance, and grain can be taken away through the plectrum to the fortune grain area of operation, makes grain by perpendicular up-transport and when the plectrum moved to the top side of fortune grain area or fortune grain area opposite side, and grain breaks away from the back from the plectrum and falls out from the export again, then breaks away from feeding bucket through going out the grain mouth, the vertical setting of this fortune grain device, the high upper limit of liberation device and feeding bucket.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description, do not constitute a limitation of the invention, in which:

FIG. 1 is a schematic view of an embodiment of the present invention as applied to a feeding barrel;

FIG. 2 is a schematic view of the overall structure of the present embodiment;

FIG. 3 is a schematic view of the internal structure of the working chamber;

FIG. 4 is a schematic view of the housing outlet;

FIG. 5 is a schematic view of the inlet of the housing;

in the figure, a feeding barrel 1, a shell 2, a grain conveying belt 3, a driving mechanism 4, a grain bin 10, a chute 20, a poking sheet 30, a first tooth-shaped structure 31, an output assembly 40, a driving wheel 41, a driving wheel 42, a second tooth-shaped structure 410, a grain outlet a, an inlet b, an outlet c and a working cavity g.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 5, a vertical grain conveying device is applied to feeding barrel 1, and feeding barrel 1 is internally provided with a granary 10 and a grain outlet a, and the vertical grain conveying device comprises:

the grain bin comprises a shell 2, wherein the shell 2 is arranged in a grain bin 10, a working cavity g is arranged in the shell 2, an inlet b for communicating the working cavity g with the grain bin 10 is formed in the lower side of the shell 2, an outlet c is also formed in the upper side of the working cavity g, and the outlet c is communicated with a grain outlet a;

the grain conveying belt 3 is in a closed annular structure and is vertically arranged in the working cavity g, and a plurality of shifting pieces 30 are arranged on the grain conveying belt 3;

and the driving mechanism 4 is arranged in the granary 10, and one end of the driving mechanism 4 extends into the working cavity g to be in driving connection with the grain conveying belt 3.

Specifically, a plurality of plectrums 30 distribute along fortune grain area 3 equidistance, and fortune grain area 3 wholly is soft construction and can carries out elastic deformation, and all still is equipped with spout 20 on the both sides wall of working chamber g, and in the both sides of fortune grain area 3 all can inserting spout 20, two spout 20 are used for restricting the skew range around of fortune grain area 3 when the operation. In this embodiment, one side of the grain conveying belt 3 for conveying grains upwards is defined as a working side, the other side of the grain conveying belt 3 is defined as an idle side, and the idle side is arranged towards the outlet c. Grain in the granary 10 enters into working chamber g from entry b in, along working chamber g around the fortune grain area 3 of operation, can take up the grain of working chamber g bottom through the plectrum 30 of its protruding setting, make grain bear and be transported up perpendicularly on the work side plectrum 30 of fortune grain area 3, until plectrum 30 moves the idle side to fortune grain area 3 top side or fortune grain area 3, grain no longer is born in plectrum 30 top this moment, grain will follow along fortune grain area 3 to its idle side gliding and leave working chamber g from export c after the plectrum 30 bounce-back of idle side, follow grain outlet a department and break away from feeding bucket 1. This perpendicular vertical setting of fortune grain device saves the granary space that occupies, does not restrict feeding bucket 1's width to liberation device and the high upper limit of feeding bucket make its height can not receive the restriction of width, thereby can design higher bigger feeding bucket according to the user demand, in order to be used for storing more pet grain, and build higher grain mouth, more can adapt to large-scale pet's head position.

Further, the drive mechanism 4 includes:

the output assembly 40, the output assembly 40 is mounted on the feeding barrel 1 or the shell 2;

the driving wheel 41 is in driving connection with the output assembly 40, and the driving wheel 41 is arranged on the lower side of the working cavity g and is in driving connection with the grain conveying belt 3;

a driving wheel 42, the driving wheel 42 is arranged on the upper side of the working cavity g and is connected with the grain conveying belt 3 in a driving way.

Specifically, the driving wheel 41 and the driving wheel 42 are respectively used as two turning support shafts of the grain conveying belt 3, and when the plectrum 30 on one side of the grain conveying belt 3 passes through the driving wheel 41 or the driving wheel 42, the plectrum is operated to the opposite side of the grain conveying belt 3. The output assembly 40 in this embodiment includes a motor and a transmission gear set, the motor is in driving connection with the transmission gear set, the transmission gear set drives the driving wheel 41 to rotate, the driving wheel 41 rotates to enable the grain transporting belt 3 to obtain the running power, although the two sliding chutes 20 limit the position and the shape of the grain transporting belt 3, the transmission wheel 42 is used as a fixing point at the other end of the grain transporting belt 3, and the functions of supporting the grain transporting belt and improving the strength of the grain transporting belt can also be achieved.

Further, the driving wheel 41 and the driving wheel 42 are in transmission connection with the inner annular surface of the grain conveying belt 3, the poking piece 30 is arranged on the outer annular surface of the grain conveying belt 3, the front end of the poking piece 30 is arranged close to the side wall of the working cavity g, and grains are prevented from falling out of a gap between the front end of the poking piece 30 and the inner wall of the working cavity g, so that the grain conveying efficiency is low.

Furthermore, the shifting sheet 30 is obliquely arranged relative to the grain conveying belt 3, and the running direction of the grain conveying belt 3 is the oblique direction of the front end of the shifting sheet 30, namely, the conveying direction of the grain conveying belt 3 is the side where an acute angle included angle exists between the shifting sheet 30 and the grain conveying belt 3. The poking sheet 30 positioned on the working side of the grain conveying belt 3 is in an upward inclined state, and a hook-shaped space is formed between the poking sheet 30 and the grain conveying belt 3, so that more grains can be better borne; and the plectrum 30 that is located the idle side of fortune grain area 3 then is the downward sloping state, and plectrum 30 at this moment can be regarded as the excessive slide board that the grain that drops after preceding plectrum upset glided toward export c, makes the grain of gliding have a passageway that leads to export c to let the transportation of grain more accurate.

Further, considering the reason that the small included angle between the pulling plate 30 and the grain conveying belt 3 can cause the grain to be blocked at the acute included angle therebetween, and the large included angle is not favorable for hooking the grain, in this embodiment, the pulling plate 30 is inclined by 45 ° to 80 ° with respect to the surface of the grain conveying belt 3, as shown by the angle α in fig. 4.

Further, the grain conveying belt 3 and the driving wheel 41 can be matched through rolling connection, and can also be matched through transmission of a chain structure, or as in the preferred embodiment, the inner annular surface of the grain conveying belt 3 is provided with the first toothed structure 31, the driving wheel 41 is provided with the second toothed structure 410, and the first toothed structure 31 and the second toothed structure 410 are in meshing transmission, so that the phenomenon of slipping does not occur in the transmission of the grain conveying belt 3 and the driving wheel 41, and the abrasion phenomenon of the grain conveying belt 3 is reduced. In addition, in the embodiment, the first tooth structures 31 are circular arc-shaped tooth platforms, and the second tooth structures 410 are circular arc-shaped grooves matched with the first tooth structures, as shown in fig. 5.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments in accordance with the present application. Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes may be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a perpendicular fortune grain device, applies to on feeding bucket (1), be equipped with granary (10) and grain outlet (a) in feeding bucket (1), its characterized in that, this perpendicular fortune grain device includes:

the grain bin comprises a shell (2), wherein the shell (2) is arranged in a grain bin (10), a working cavity (g) is arranged in the shell (2), an inlet (b) communicated with the working cavity (g) and the grain bin (10) is formed in the lower side of the shell (2), an outlet (c) is further formed in the upper side of the working cavity (g), and the outlet (c) is communicated with a grain outlet (a);

the grain conveying belt (3) is vertically arranged in the working cavity (g) in a closed annular structure, and a plurality of shifting pieces (30) are arranged on the grain conveying belt (3);

the driving mechanism (4) is installed in the granary (10), and one end of the driving mechanism (4) extends into the working cavity (g) to be in driving connection with the grain conveying belt (3).

2. A vertical grain handling device according to claim 1, characterized in that the driving mechanism (4) comprises:

an output assembly (40), the output assembly (40) being mounted on the feeding barrel (1) or housing (2);

the driving wheel (41), the driving wheel (41) is in driving connection with the output assembly (40), and the driving wheel (41) is installed on the lower side of the working cavity (g) and is in transmission connection with the grain conveying belt (3);

the driving wheel (42), the driving wheel (42) is installed on the upper side of the working cavity (g) and is in transmission connection with the grain conveying belt (3).

3. The vertical grain conveying device as claimed in claim 2, characterized in that the driving wheel (41) and the driving wheel (42) are both connected to the inner annular surface of the grain conveying belt (3) in a driving manner, the shifting sheet (30) is arranged on the outer annular surface of the grain conveying belt (3), and the front end of the shifting sheet (30) is arranged close to the side wall of the working cavity (g).

4. A vertical grain conveyor according to claim 3, characterized in that the plectrum (30) is arranged obliquely relative to the grain conveyor belt (3), and the running direction of the grain conveyor belt (3) is the oblique direction of the front end of the plectrum (30).

5. A vertical grain conveyor according to claim 4, characterized in that the plectrum (30) is inclined 45-80 ° in relation to the surface of the grain conveyor belt (3).

6. A vertical grain conveying device according to claim 2, characterized in that the inner ring surface of the grain conveying belt (3) is provided with a first tooth-shaped structure (31), the driving wheel (41) is provided with a second tooth-shaped structure (410), and the first tooth-shaped structure (31) and the second tooth-shaped structure (410) are in meshing transmission.

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