CN211210958U - Two grain dish unloading mechanisms that stir - Google Patents

Abstract

The utility model provides a two mechanisms of stirring grain dish unloading relates to pet snack equipment part technical field, has solved the technical problem of the uncontrollable unloading quantity of traditional pet snack machine unloading mechanism that exists among the prior art, two mechanisms of stirring grain dish unloading are including stirring grain device and drive arrangement, drive arrangement with it links to each other and can drive to stir the transmission of grain device stir the grain device and rotate, wherein: the grain stirring device comprises an upper grain stirring disc and a lower grain stirring disc which are arranged in a layered manner, and the upper grain stirring disc and the lower grain stirring disc synchronously rotate; the upper grain stirring disc comprises at least one upper grain stirring sheet, the lower grain stirring disc comprises at least two lower grain stirring sheets, and the number of the lower grain stirring sheets is larger than that of the upper grain stirring sheets; the utility model discloses a level setting stir the grain dish on and stir the unloading that the grain dish not only can effectively promote pet snacks down, can control unloading quantity moreover, convenient to use, the unloading effect is showing.

Description

Two grain dish unloading mechanisms that stir

Technical Field

The utility model relates to a pet snacks equipment part technical field, concretely relates to two grain dish unloading mechanisms that stir.

Background

Along with people's standard of living's not short improvement, in recent years, the pet trade has had quick development, relevant industries such as pet feeding have wide development prospect, the device of pet snack machine as a storage pet snack is used widely, and unloader is an indispensable important device of pet snack machine, current pet snack machine adopts traditional unloading mechanism, card material phenomenon often can appear, the unloading effect is relatively poor, and often can't or the quantity of difficult control unloading, bring inconvenience for the use.

The novel pet feeding device disclosed by the Chinese patent document is characterized in that a roller is arranged at the position of a discharge port of a blanking hopper, a poking plate is arranged on the wall of the roller, the roller is driven by a motor to rotate, pet snacks are poked to a slide way through the poking plate and slide out of the discharge port, and therefore the blanking of the pet snacks is completed.

The applicant has found, in comparison with the prior art, that at least the following technical problems exist:

1. the device is in the mode of dialling the material through the setting aside board, and the uncontrollable unloading quantity brings the inconvenience for the use.

2. The device drives the stirring plate to rotate through the rotating roller to stir the pet snacks to the discharge port, the stirring plate rotates in a vertical plane, and when the pet snacks move to the position of the inner wall of the discharge port, the phenomenon of material blocking can occur, and the discharging effect is poor.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a double-stirring grain tray blanking mechanism to solve the technical problems that the traditional pet snack machine has poor blanking effect and the blanking quantity cannot be controlled in the prior art; the utility model provides a plurality of technical effects that the preferred technical scheme of the technical scheme can produce (the lower grain stirring plate comprises a rotating shaft, both ends of the lower grain stirring plate are respectively connected with the upper grain stirring plate and a driving device, the upper grain stirring plate and the lower grain stirring plate can synchronously rotate, the lower grain stirring sheet is inserted in the mounting groove on the outer wall of the rotating shaft through the mounting strip, on one hand, the rotating shaft can drive the lower grain stirring sheet to rotate, on the other hand, the lower grain stirring sheet with corresponding quantity can be selected and mounted according to actual requirements to control the single blanking quantity, the shape of the mounting strip is matched with that of the mounting groove, the lower grain stirring sheet is mounted and fastened, the positioning hole and the positioning groove are matched with each other, the structure is simple, the synchronous rotation effect is obvious, the upper grain stirring plate is connected with the rotating shaft more firmly through the connecting bolt, the upper grain stirring sheet is arranged into an arc-shaped blade and is arranged obliquely relative to the column part, the lower grain stirring piece can be effectively prevented from being separated from the rotating shaft; the end cover can block the first connecting hole, so that the pet snacks are prevented from being mistakenly inserted; power devices for providing kinetic energy, transmission devices for transmitting kinetic energy, etc.); see below for details.

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

the utility model provides a pair of two grain dish unloading mechanisms that stir, including stirring grain device and drive arrangement, drive arrangement with it links to each other and can drive to stir the transmission of grain device stir the grain device and rotate, wherein: the grain stirring device comprises an upper grain stirring disc and a lower grain stirring disc which are arranged in a layered manner, and the upper grain stirring disc and the lower grain stirring disc synchronously rotate; the upper grain stirring plate comprises at least one upper grain stirring sheet, the lower grain stirring plate comprises at least two lower grain stirring sheets, and the number of the lower grain stirring sheets is larger than that of the upper grain stirring sheets.

Preferably, the lower grain stirring disc comprises a rotating shaft, and all the lower grain stirring pieces are circumferentially distributed on the outer wall of the rotating shaft; one end of the rotating shaft is connected with the upper grain stirring disc, the other end of the rotating shaft is connected with the driving device, and the driving device can drive the rotating shaft to rotate so that the upper grain stirring disc and the lower grain stirring disc synchronously rotate.

Preferably, the outer wall of the rotating shaft is provided with a mounting groove, the edge part of the lower grain stirring piece is provided with a mounting strip, and the mounting strip is inserted in the mounting groove.

Preferably, the shape of the mounting bar is matched with that of the mounting groove, and the cross section of the mounting bar is T-shaped.

Preferably, the rotating shaft and the end connected with the upper grain stirring disc are arranged to be a connecting end, a positioning block is arranged on the outer wall of the connecting end, a mounting hole is formed in the middle of the upper grain stirring disc, a positioning groove is formed in the inner wall of the mounting hole, the connecting end is arranged in the mounting hole, and the positioning block is arranged in the positioning groove.

Preferably, the grain stirring device further comprises a connecting bolt, wherein: the top of the upper grain stirring disc is provided with a first connecting hole, the first connecting hole is communicated with the mounting hole, a second connecting hole is formed in the end face of the connecting end, and the connecting bolt penetrates through the first connecting hole to be in threaded connection with the second connecting hole so that the upper grain stirring disc is connected with the connecting end.

Preferably, the upper grain stirring plate further comprises a column part, wherein: all the upper grain stirring pieces are circumferentially arranged on the outer wall of the column part, and the mounting holes and the first connecting holes are respectively and oppositely arranged on two end faces of the column part; the upper grain stirring pieces are arc-shaped blades, and all the upper grain stirring pieces are obliquely arranged relative to the column parts.

Preferably, the grain stirring device further comprises a connecting sleeve, and the connecting sleeve is sleeved on the rotating shaft and is located between the upper grain stirring sheet and the lower grain stirring sheet.

Preferably, stir grain device and include the end cover, the top of going up stirring grain dish is provided with the joint groove, first connecting hole sets up the joint inslot, the end cover card is established on the joint groove.

Preferably, the drive means comprises a power means and a transmission means comprising an input gear, a transition gear and an output gear, wherein: the input gear, the transition gear and the output gear are meshed in sequence; the input gear is connected with an output shaft of the power device; the output gear is connected with the rotating shaft.

The utility model provides a pair of two grain dish unloading mechanisms that stir exist following technical problem at least:

the dual-grain-stirring-disc discharging mechanism comprises a grain stirring device and a driving device, the driving device is in transmission connection with the grain stirring device and can drive the grain stirring device to rotate, the driving device provides power for the grain stirring device and transmits the power, and the grain stirring device can stir pet snacks through rotation, so that the discharging of the pet snacks is promoted; the grain stirring disc device comprises an upper grain stirring disc and a lower grain stirring disc which are arranged in layers, the upper grain stirring disc and the lower grain stirring disc rotate synchronously, the upper grain stirring disc comprises at least one upper grain stirring sheet, the lower grain stirring disc comprises at least two lower grain stirring sheets, the number of the lower grain stirring pieces is larger than that of the upper grain stirring pieces, the upper grain stirring plate and the lower grain stirring plate are respectively arranged in the two mutually communicated bin bodies in the using process, the rotating upper grain stirring pieces stir pet snacks during blanking, and the pet snacks slide out from the first bin body, the slid pet snacks fall between the rotating lower grain stirring pieces, when the lower grain stirring pieces are pulled out from the discharge hole, because the number of the lower grain stirring pieces is larger than that of the upper grain stirring pieces, therefore, the pet food which slides out of the first bin body can be pushed out of the second bin body for multiple times, and the effect of controlling the feeding quantity is achieved; the utility model discloses a level setting stir the grain dish on and stir the unloading that the grain dish not only can effectively promote pet snacks down, can control unloading quantity moreover, convenient to use, the unloading effect is showing.

Drawings

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

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is an exploded view of the structure of the grain stirring disk device of the utility model;

FIG. 3 is a schematic view of the structure of the upper stirring plate of the utility model;

FIG. 4 is a schematic view of the structure of the lower grain stirring plate of the utility model;

fig. 5 is an exploded view of the driving device of the present invention.

Reference numerals

1. A grain stirring device; 11. feeding a grain stirring disc; 111. stirring the grain pieces; 112. a pillar portion; 1121. mounting holes; 1122. positioning a groove; 12. a grain stirring disc is arranged; 121. a rotating shaft; 1211. mounting grooves; 1212. an input end; 1213. an installation section; 1214. positioning blocks; 1215. a connecting end; 122. stirring the grain pieces; 1221. mounting a bar; 13. connecting sleeves; 14. a connecting bolt; 15. an end cap; 2. a drive device; 21. a transmission device; 211. an input gear; 212. a transition gear; 213. an output gear; 22. a power plant; 221. and an output shaft.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The utility model provides a two stir grain dish unloading mechanism, like fig. 1 the utility model discloses the structure schematic diagram, fig. 3 the utility model discloses on stir grain dish structure schematic diagram and stir grain dish structure schematic diagram down in fig. 4 shown, two stir grain dish unloading mechanism including stirring grain device 1 and drive arrangement 2, drive arrangement 2 with stir grain device 1 transmission and link to each other and can drive and stir grain device 1 and rotate, wherein: the grain stirring device 1 comprises an upper grain stirring disc 11 and a lower grain stirring disc 12 which are arranged in a layered manner, wherein the upper grain stirring disc 11 and the lower grain stirring disc 12 rotate synchronously; the upper grain stirring disc 11 comprises at least one upper grain stirring sheet 111, the lower grain stirring disc 12 comprises at least two lower grain stirring sheets 122, and the number of the lower grain stirring sheets 122 is greater than that of the upper grain stirring sheets 111; the upper grain stirring plate 11 and the lower grain stirring plate 12 are respectively arranged in two communicated bins of the pet snack machine, a communication port is arranged at the bottom of the upper bin body close to the upper grain stirring plate 11, and a discharge port is arranged at the bottom of the lower bin body close to the lower grain stirring plate 12.

When the pet snack food stirring device is used, the driving device 2 drives the upper grain stirring disk 11 and the lower grain stirring disk 12 to synchronously rotate, the rotating upper grain stirring disk 11 drives the upper grain stirring sheets 111 to rotate, the upper grain stirring sheets 111 push pet grains into the lower bin body, the rotating lower grain stirring disk 12 drives the lower grain stirring sheets 122 to rotate, and the plurality of lower grain stirring sheets 122 divide pet snacks into a plurality of parts and separate the pet snacks from each other and sequentially push the pet snacks out from the feed opening; the utility model discloses a stirring grain dish 11 on the synchronous pivoted and stirring grain dish 12 down not only can effectively improve the unloading effect, can control single unloading quantity moreover, convenient to use, the unloading effect is showing.

As an optional implementation manner, as shown in fig. 2 and fig. 4, the lower grain stirring plate 12 of the present invention includes a rotating shaft 121, the lower grain stirring pieces 122 are circumferentially distributed on an outer wall of the rotating shaft 121, and optionally, the lower grain stirring pieces 122 are integrally disposed with or detachably connected to the rotating shaft 121; one end of the rotating shaft 121 is connected with the upper grain stirring disc 11, the other end of the rotating shaft 121 is connected with the driving device 2, and the driving device 2 can drive the rotating shaft 121 to rotate so that the upper grain stirring disc 11 and the lower grain stirring disc 12 can synchronously rotate.

As an optional implementation manner, as shown in fig. 4, an installation groove 1211 is vertically arranged on an outer wall of the rotating shaft 121, an installation strip 1221 is arranged at an edge of the lower grain-stirring piece 122, and the installation strip 1221 is inserted into the installation groove 1211; a plurality of mounting grooves 1211 are uniformly formed in the outer wall of the rotating shaft 121, and a corresponding number of lower grain stirring pieces 122 can be selectively mounted according to actual requirements to control the single blanking amount; preferably, the number of the upper grain stirring pieces 111 is set to three, the number of the mounting grooves 1211 is set to six, and the number of the lower grain stirring pieces 122 is the same as the number of the mounting grooves 1211.

As an alternative embodiment, as shown in fig. 4, the mounting bar 1221 has a shape matching the shape of the mounting groove 1211, and the cross-section of the mounting bar 1221 is provided in a T shape.

As an alternative embodiment, as shown in fig. 4, one end of the rotating shaft 121 connected to the upper grain stirring tray 11 is provided as a connecting end 1215, positioning blocks 1214 are disposed on the outer wall of the connecting end 1215, the number of the positioning blocks 1214 is three, and the three positioning blocks 1214 are uniformly disposed on the outer wall of the connecting end 1215, a mounting hole 1121 is disposed at the middle position of the bottom of the upper grain stirring tray 11, positioning grooves 1122 are disposed on the inner wall of the mounting hole 1121, the number of the positioning grooves 1122 is the same as that of the positioning blocks 1214, the connecting end 1215 is disposed in the mounting hole 1121, and the positioning blocks 1214 are disposed in the positioning grooves.

As an optional implementation manner, as shown in fig. 2, the grain stirring device 1 further includes a connecting bolt 14, wherein: a first connecting hole is formed in the top of the upper grain stirring disc 11 and is communicated with the mounting hole 1121, a second connecting hole is formed in the end face of the connecting end 1215, and a connecting bolt 14 penetrates through the first connecting hole and is in threaded connection with the second connecting hole so that the upper grain stirring disc 11 is connected with the connecting end 1215; the upper grain stirring plate 11 and the lower grain stirring plate 12 are connected more tightly by the connecting bolt 14.

As an alternative embodiment, as shown in fig. 3, the upper stirring plate 11 further comprises a column part 112, wherein: all the upper grain stirring pieces 111 are circumferentially arranged on the outer wall of the column part 112, the mounting holes 1121 and the first connecting holes are respectively oppositely arranged on two end faces of the column part 112, the mounting holes 1121 are arranged on the bottom face of the column part 112, and the first connecting holes are arranged on the top face of the column part 112.

The upper grain stirring pieces 111 are arc-shaped blades, all the upper grain stirring pieces 111 are obliquely arranged relative to the column part 112, the oblique direction of the upper grain stirring pieces 111 is opposite to the rotating direction of the column part 112, and the upper grain stirring pieces 111 form propeller-like blades; the material blocking and splashing phenomena in the blanking process can be effectively avoided, and the blanking process is smoother.

As an optional embodiment, as shown in fig. 2, the grain stirring device 1 further includes a connecting sleeve 13, and the connecting sleeve 13 is sleeved on the rotating shaft 121 and is located between the upper grain stirring sheet 111 and the lower grain stirring sheet 122.

As shown in fig. 4, the rotating shaft 121 includes a first section, a second section and a third section which are arranged from bottom to top in sequence, the diameters of the first section, the second section and the third section are reduced in sequence, so that the rotation shaft 121 is formed in a stepped shape, the installation groove 1211 is provided on the first section, the top end of the third section is provided with a connecting end 1215, the outer wall of the second section is vertically and uniformly provided with a plurality of connecting strips, the outer side surfaces of the connecting strips far away from the second section are provided with cambered surfaces so that the outer side surfaces of all the connecting strips form mounting surfaces matched with the size of the inner wall of the connecting sleeve 13, the second section forms a mounting section 1213, the connecting sleeve 13 is sleeved on the mounting section 1213, the inner wall of the connecting sleeve is attached to the mounting surface, the bottom of the connecting sleeve 13 is provided with a flange, the diameter of the flange is not smaller than that of the first section, so that the lower grain stirring piece 122 is effectively prevented from being separated from the installation groove 1211.

As an optional implementation mode, as shown in fig. 2, the grain stirring device 1 includes an end cover 15, a clamping groove is formed in the top of the upper grain stirring disc 11, the first connection hole is formed in the clamping groove, the bottom of the end cover 15 is clamped on the clamping groove, and the top surface of the end cover 15 is a cambered surface, so that the blanking is facilitated.

As an alternative embodiment, as shown in fig. 5, the driving device 2 of the present invention includes a power device 22 and a transmission device 21, the transmission device 21 includes an input gear 211, a transition gear 212 and an output gear 213, wherein: the input gear 211, the transition gear 212 and the output gear 213 are engaged in sequence; the input gear 211 is connected with an output shaft 221 of the power device 22; the output gear 213 is connected to the rotating shaft 121.

As an alternative embodiment, as shown in fig. 5, one end of the rotating shaft 121 connected to the output gear 213 is provided as an input end 1212, a first fixing groove is provided at a middle position of the output gear 213, the input end 1212 is provided in the first fixing groove, the shape of the first fixing groove is matched with the shape of the input end 1212, and the shape of the first fixing groove is provided as a rounded rectangle.

As shown in fig. 5, a second fixing groove is formed at a middle position of the input gear 211, and the output shaft 221 of the power unit 22 is disposed in the second fixing groove, and the shape of the second fixing groove is matched with the shape of the output shaft 221, and the shape of the second fixing groove is rounded and rectangular.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides a two stir grain dish unloading mechanism, its characterized in that, including stirring grain device (1) and drive arrangement (2), drive arrangement (2) with it links to each other and can drive to stir grain device (1) transmission it rotates to stir grain device (1), wherein:

the grain stirring device (1) comprises an upper grain stirring disc (11) and a lower grain stirring disc (12) which are arranged in a layered manner, wherein the upper grain stirring disc (11) and the lower grain stirring disc (12) rotate synchronously;

the upper grain stirring disc (11) comprises at least one upper grain stirring sheet (111), the lower grain stirring disc (12) comprises at least two lower grain stirring sheets (122), and the number of the lower grain stirring sheets (122) is larger than that of the upper grain stirring sheets (111).

2. The double-grain-stirring-disc blanking mechanism is characterized in that the lower grain stirring disc (12) comprises a rotating shaft (121), and all the lower grain stirring sheets (122) are circumferentially distributed on the outer wall of the rotating shaft (121);

one end of the rotating shaft (121) is connected with the upper grain stirring disc (11), the other end of the rotating shaft (121) is connected with the driving device (2), and the driving device (2) can drive the rotating shaft (121) to rotate so as to enable the upper grain stirring disc (11) and the lower grain stirring disc (12) to synchronously rotate.

3. The double-grain-stirring-disc blanking mechanism according to claim 2, wherein an installation groove (1211) is formed in the outer wall of the rotating shaft (121), an installation strip (1221) is arranged at the edge of the lower grain stirring sheet (122), and the installation strip (1221) is inserted into the installation groove (1211).

4. The double-stirring grain tray blanking mechanism as claimed in claim 3, wherein the shape of the mounting bar (1221) is matched with the shape of the mounting groove (1211), and the cross section of the mounting bar (1221) is T-shaped.

5. The double-stirring grain tray blanking mechanism according to claim 2, wherein one end of the rotating shaft (121) connected with the upper stirring grain tray (11) is provided as a connecting end (1215), a positioning block (1214) is arranged on the outer wall of the connecting end (1215), a mounting hole (1121) is arranged at the middle position of the upper stirring grain tray (11), a positioning groove (1122) is arranged on the inner wall of the mounting hole (1121), the connecting end (1215) is arranged in the mounting hole (1121), and the positioning block (1214) is arranged in the positioning groove (1122).

6. The double-stirring grain tray blanking mechanism according to claim 5, wherein the stirring grain device (1) further comprises a connecting bolt (14), wherein:

the top of the upper grain stirring disc (11) is provided with a first connecting hole, the first connecting hole is communicated with the mounting hole (1121), the end face of the connecting end (1215) is provided with a second connecting hole, and the connecting bolt (14) penetrates through the first connecting hole and is in threaded connection with the second connecting hole so that the upper grain stirring disc (11) is connected with the connecting end (1215).

7. The double plate discharge mechanism according to claim 6, wherein the upper plate (11) further comprises a column (112), wherein:

all the upper grain stirring pieces (111) are circumferentially arranged on the outer wall of the column part (112), and the mounting hole (1121) and the first connecting hole are respectively and oppositely arranged on two end faces of the column part (112);

the upper grain stirring pieces (111) are arc-shaped blades, and all the upper grain stirring pieces (111) are obliquely arranged relative to the column parts (112).

8. The double-grain-stirring-disc blanking mechanism according to claim 6, wherein the grain stirring device (1) further comprises a connecting sleeve (13), and the connecting sleeve (13) is sleeved on the rotating shaft (121) and is positioned between the upper grain stirring sheet (111) and the lower grain stirring sheet (122).

9. The double-grain-stirring-disc blanking mechanism according to claim 6, wherein the grain stirring device (1) comprises an end cover (15), a clamping groove is formed in the top of the upper grain stirring disc, the first connecting hole is formed in the clamping groove, and the end cover (15) is clamped on the clamping groove.

10. The double-stirring grain tray blanking mechanism according to claim 2, wherein the driving device (2) comprises a power device (22) and a transmission device (21), the transmission device (21) comprises an input gear (211), a transition gear (212) and an output gear (213), wherein:

the input gear (211), the transition gear (212) and the output gear (213) are meshed in sequence;

the input gear (211) is connected with an output shaft (221) of the power device (22);

the output gear (213) is connected with the rotating shaft (121).

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