CN212017935U - Pig feed raw materials charge-in system - Google Patents

Abstract

The utility model relates to a pig feed ingredient charge-in system, including the storehouse of breaing up, its characterized in that, the coaxial rigid coupling in top in the storehouse of breaing up has the charge-in pipeline of vertical intercommunication, the bottom center rigid coupling of connecting plate has vertical vibrating motor, the coaxial ann in top of auger delivery oar has conveying motor, ann has the valve switch on the play feed cylinder. The utility model discloses a setting is ann to have the storehouse of breaing up of initiative breaing up gear and driven breaing up gear, the raw materials to taking place the caking is tentatively breaed up, through setting up the stirring storehouse of ann's stirring subassembly, the raw materials to taking place the caking is breaed up once more, through setting up the circulating line who has the auger delivery oar, the raw materials to not meeting the requirement is circulated again and is broken up, the raw materials that takes place the caking blocks up the pipeline has effectively been avoided, the problem that the pig feed ingredient takes place the caking because of weing and is difficult to the unloading has been solved, and then the machining efficiency of pig feed has been improved.

Description

A pig feed raw material feeding system

technical field

The utility model relates to the technical field of feed feeding equipment, in particular to a pig feed raw material feeding system.

Background technique

Pig breeding is an important part of livestock and poultry breeding. Pork is closely related to our daily life. With the improvement of people's living standards and the expansion of the scale of the breeding industry, the quality requirements for pork are also getting higher and higher. In the process of raising pigs, a large amount of feed needs to be consumed. In the process of feed processing, most equipment includes a feeding system. Pig feed materials are prone to agglomeration due to moisture during placement. The feeding system cannot disperse and sieve the agglomerated raw materials during feeding, which is easy to block the pipeline, making it difficult to feed the supplied pig feed raw materials, which directly affects the processing efficiency of pig feed.

SUMMARY OF THE INVENTION

The utility model aims to solve the deficiencies of the prior art, and provides a pig feed raw material feeding system.

The utility model adopts the following technical solutions for realizing the above-mentioned purpose:

A pig feed raw material feeding system, comprising a disintegrating bin, characterized in that a vertically communicating feeding pipeline is fixed coaxially at the top of the dispersing bin, and a communicating channel is coaxially fixed on the top of the feeding pipeline. The feeding hopper, the inside of the dispersing bin is meshed with an active dispersing gear and a driven dispersing gear, and the active dispersing gear and the driven dispersing gear are rotatably installed on the inner wall of the dispersing bin, so A drive motor is coaxially installed on the active dispersing gear, and the drive motor is installed on the outer wall of the dispersing bin. A connected stirring chamber is connected, a horizontal rotating motor is installed on the outer wall of the stirring chamber, a stirring assembly is installed inside the stirring chamber, and the driving end of the rotating motor is fixedly connected with the stirring assembly, and the stirring chamber is A connected screening bin is installed at the bottom of the screening bin, and a connecting plate is arranged in the inner center of the screening bin. The lower screen plate, the lower end of the screen plate is installed on the inner wall of the screen bin, the bottom center of the connecting plate is fixed with a vertical vibration motor, the side wall of the screen bin is The upper part of the connection between the screening plate and the screening bin is connected with a downwardly inclined circulating discharge pipe corresponding to the screening plate one-to-one, and the other end of each circulating discharge pipe is There is a vertical circulation pipe connected with the circulation discharge pipe, the upper side wall of the circulation pipe is connected with an inclined downward circulation feed pipe communicated with the feed pipe, and the circulation feed pipe is connected to the upper side wall of the circulation pipe. The other end of the feed pipe is communicated with the interior of the feed pipe through the side wall of the feed pipe, a screw conveyor is coaxially installed in the circulation pipe, and the top of the screw conveyor is coaxially installed with a conveyor The motor, the conveying motor is installed on the outside of the top end of the circulation pipeline, the bottom of the screening bin is arranged in a truncated cone structure that is wide at the top and narrow at the bottom, and the bottom of the screening bin is coaxially connected with a discharge cylinder, so A valve switch is installed on the discharge barrel.

The outer side of the bottom of the circulation pipe and the outer side of the bottom of the screening bin on the same side are fixedly connected with the same support column, and the support column is symmetrically arranged with respect to the discharge cylinder.

The outer side of the rotating motor is covered with a protective cover, and the protective cover is installed on the outer wall of the stirring bin.

The stirring assembly includes a horizontally arranged main shaft, one end of the main shaft is fixed coaxially with the driving end of the rotating motor, and the other end of the main shaft rotates on the inner wall of the stirring bin. A plurality of drive casings are arranged on the rotating shaft at equal intervals, the drive casings are fixed on the inner wall of the stirring bin, the main rotating shaft rotates through the drive casings, and the drive casings in each drive casing A driving bevel gear is coaxially installed on the main rotating shaft, and each driving bevel gear is meshed with a driven bevel gear, the driven bevel gear is located in the drive housing, and the driven bevel gear is coaxially mounted. A supporting rotating shaft is fixedly connected, and the bottom of the supporting rotating shaft passes through the drive casing and is rotatably connected to the top of the screening bin. The top of the screening bin is fixed with a strip-shaped mounting plate. The bottom is rotatably mounted on the strip-shaped mounting plate, a number of stirring paddles are fixed on the support shaft, and a number of vertical stirring rods are fixed on the main rotating shaft between the adjacent drive housings. There are several stirring blades on the stirring rod.

The beneficial effects of the present utility model are as follows: the present utility model preliminarily disperses the agglomerated raw materials by setting a dispersing bin equipped with an active dispersing gear and a driven dispersing gear. , Disperse the agglomerated raw materials again. By setting up a circulating pipeline with a screw conveyor, the raw materials that do not meet the requirements are circulated and scattered, which effectively avoids the caking of raw materials from clogging the pipeline and solves the problem of pig feed. The raw material is agglomerated and difficult to unload due to moisture, which improves the processing efficiency of pig feed.

Description of drawings

Fig. 1 is the structural representation of the utility model;

In the figure: 1-support column; 2-circulation pipeline; 3-circulation discharge pipe; 4-screening bin; 5-screening plate; 6-rotating motor; 7-main shaft; 8-mixing bin; 9-spiral Conveying paddle; 10- dispersing bin; 11- circulating feeding pipe; 12- conveying motor; 13- feeding hopper; 14- feeding pipeline; 15- active dispersing gear; 16- driven dispersing gear; 17- stirring rod; 18-stirring blade; 19-drive housing; 20-driving bevel gear; 21-driven bevel gear; 22-supporting shaft; 23-stirring paddle; 24-connecting plate; 25-vibration motor; barrel;

The following will be described in detail with reference to the accompanying drawings in conjunction with the embodiments of the present utility model.

Detailed ways

Below in conjunction with accompanying drawing and embodiment, the utility model is further described:

As shown in FIG. 1, a pig feed raw material feeding system includes a disintegration bin 10, characterized in that a vertically communicating feed pipe 14 is fixed coaxially at the top of the disintegration bin 10. The top end of the pipe 14 is coaxially fixed with a connected feeding hopper 13, and the inside of the dispersing bin 10 is meshed with an active dispersing gear 15 and a driven dispersing gear 16, and the active dispersing gear 15 and the driven dispersing gear 16. The dispersing gear 16 is rotatably installed on the inner wall of the dispersing bin 10, and a drive motor is coaxially installed on the active dispersing gear 15, and the driving motor is installed on the outer wall of the dispersing bin 10, and the The bottom of the bulk bin 10 is arranged in a truncated cone structure that is wide at the top and narrow at the bottom, and is coaxially fixed with a connected stirring bin 8. The outer wall of the stirring bin 8 is provided with a horizontal rotating motor 6, and the interior of the stirring bin 8 is installed. A stirring assembly is installed, the driving end of the rotating motor 6 is fixedly connected with the stirring assembly, the bottom of the stirring bin 8 is equipped with a connected screening bin 4, and the inner center of the screening bin 4 is provided with a connecting plate 24. The connecting plate 24 is installed on the inner wall of the screening bin 4, and a plurality of screening plates 5 inclined downward are correspondingly installed around the connecting plate 24, and the lower end of the screening plate 5 is installed. On the inner wall of the screening bin 4, a vertical vibration motor 25 is fixed to the bottom center of the connecting plate 24, and the side wall of the screening bin 4 is located between the screening plate 5 and the screen. Above the connection of the sub-silo 4 is connected a downwardly inclined circulating discharge pipe 3 corresponding to the screening plate 5, and the other end of each circulating discharge pipe 3 is installed with the circulating discharge pipe 3. The vertical circulation pipe 2 communicated with the feed pipe 3, the upper side wall of the circulation pipe 2 is connected with the inclined downward circulation feed pipe 11 communicated with the feed pipe 14, the circulation feed pipe The other end of 11 passes through the side wall of the feed pipe 14 and communicates with the interior of the feed pipe 14. A screw conveyor 9 is coaxially installed in the circulation pipe 2, and the top of the screw conveyor 9 is the same as the top end. A conveying motor 12 is installed on the shaft, and the conveying motor 12 is installed on the outer side of the top end of the circulation pipe 2. The bottom of the screening bin 4 is arranged in a frustum structure with a wide upper and a narrow lower. The bottom of the screening bin 4 A discharge cylinder 26 is coaxially connected, and a valve switch is installed on the discharge cylinder 26 .

The outer side of the bottom of the circulation pipe 2 and the outer side of the bottom of the screening bin 4 on the same side are fixed with the same support column 1 , and the support column 1 is symmetrically arranged with respect to the discharge cylinder 26 .

The outer side of the rotating motor 6 is covered with a protective cover, and the protective cover is installed on the outer wall of the stirring bin 8 .

The stirring assembly includes a horizontally arranged main shaft 7, one end of the main shaft 7 is coaxially fixed with the driving end of the rotating motor 6, and the other end of the main shaft 7 rotates on the inner wall of the stirring bin 8. The main shaft 7 is provided with a plurality of drive housings 19 at equal intervals, the drive housings 19 are fixed on the inner wall of the stirring bin 8, and the main shaft 7 rotates through the drive housing 19 , the main rotating shaft 7 in each of the drive housings 19 is coaxially mounted with a driving bevel gear 20, each of the driving bevel gears 20 is meshed with a driven bevel gear 21, and the driven bevel The gear 21 is located in the drive housing 19 , the driven bevel gear 21 is coaxially fixed with a support shaft 22 , and the bottom of the support shaft 22 penetrates the drive housing 19 and the screening bin 4 The top of the screening bin 4 is rotatably connected, the top of the screening bin 4 is fixed with a strip-shaped mounting plate, the bottom of the supporting shaft 22 is rotatably mounted on the strip-shaped mounting plate, and several stirring shafts are fixed on the supporting rotary shaft 22. For the paddle 23, a plurality of vertical stirring rods 17 are fixed on the main rotating shaft 7 between the adjacent driving housings 19, and a plurality of stirring blades 18 are installed on the stirring rods 17.

When the utility model works, the pig feed raw material is added from the feeding hopper 13, and enters the dispersing bin 10 through the feeding pipeline 14, and the driving motor drives the active dispersing gear 15 and the driven dispersing gear 16 to prevent the agglomerated pigs. The feed raw materials are initially scattered, and the scattered raw materials enter the stirring bin 8, and the rotating motor 6 is started at the same time. On the one hand, the main rotating shaft 7 drives the stirring rod 17 with the stirring blade 18 to rotate, and the agglomerated raw materials are stirred. On the other hand, the main shaft 7 drives the driving bevel gear 20 and the driven bevel gear 21 in the drive housing 19 to rotate, so that the supporting shaft 22 with the stirring paddle 23 rotates, and the agglomerated raw materials are stirred again. Disperse, the disintegrated raw materials enter the screening bin 4, start the vibrating motor 25 to cooperate with the screening plate 5 for screening, the raw materials that meet the requirements after screening are collected by the discharge drum 26, and the raw materials that do not meet the requirements are recycled and discharged. The pipe 3 enters the circulation pipe 2, starts the conveying motor 12, and the conveying motor 12 drives the screw conveying propeller 9 to transport the unqualified raw materials in the circulation pipe 2 to the feeding pipe 14 through the circulation feeding pipe 11, and re-enters the dispersing The warehouse 10 is repeatedly scattered, and then the raw materials that do not meet the requirements are recycled and scattered, which effectively avoids the caking of the raw materials from clogging the pipeline, and solves the problem that the pig feed raw materials are agglomerated and difficult to unload due to moisture. Processing efficiency of pig feed.

The present utility model has been exemplarily described above in conjunction with the accompanying drawings. Obviously, the specific implementation of the present utility model is not limited by the above-mentioned methods, as long as various improvements made by the method concept and technical solutions of the present utility model are adopted, or the Those applied to other occasions are all within the protection scope of the present invention.

Claims (4)

1. A pig feed raw material feeding system comprises a scattering bin (10) and is characterized in that a vertically communicated feeding pipeline (14) is fixedly connected to the top end of the scattering bin (10) in a coaxial mode, a communicated feeding hopper (13) is fixedly connected to the top end of the feeding pipeline (14) in a coaxial mode, a driving scattering gear (15) and a driven scattering gear (16) are meshed inside the scattering bin (10) in a meshed mode, the driving scattering gear (15) and the driven scattering gear (16) are rotatably installed on the inner wall of the scattering bin (10), a driving motor is coaxially installed on the driving scattering gear (15) and installed on the outer wall of the scattering bin (10), the bottom of the scattering bin (10) is in a frustum structure with a wide upper portion and a narrow lower portion and is fixedly connected with a communicated stirring bin (8) in a coaxial mode, a horizontal rotating motor (6) is installed on the outer wall of the stirring bin (8), a stirring assembly is arranged in the stirring bin (8), the driving end of the rotating motor (6) is fixedly connected with the stirring assembly, the bottom of the stirring bin (8) is provided with a communicated screening bin (4), a connecting plate (24) is arranged at the inner center of the screening bin (4), the connecting plate (24) is arranged on the inner wall of the screening bin (4), a plurality of screening plates (5) which incline downwards are correspondingly arranged on the periphery of the connecting plate (24), the lower ends of the screening plates (5) are arranged on the inner wall of the screening bin (4), a vertical vibrating motor (25) is fixedly connected at the bottom center of the connecting plate (24), circulating discharge pipes (3) which are arranged on the side wall of the screening bin (4) and are located above the connection part of the screening plates (5) and the screening bin (4) and incline downwards are connected with the circulating discharge pipes (3) which correspond to the screening plates (5) one by one, the other end of each circulating discharge pipe (3) is provided with a vertical circulating pipeline (2) communicated with the circulating discharge pipe (3), the upper side wall of the circulating pipeline (2) is connected with a downward inclined circulating feeding pipe (11) communicated with the feeding pipeline (14), the other end of the circulating feeding pipe (11) passes through the side wall of the feeding pipe (14) and is communicated with the interior of the feeding pipe (14), a spiral conveying paddle (9) is coaxially arranged in the circulating pipeline (2), a conveying motor (12) is coaxially arranged at the top end of the spiral conveying paddle (9), the conveying motor (12) is arranged outside the top end of the circulating pipeline (2), the bottom of the screening bin (4) is of a frustum structure with a wide upper part and a narrow lower part, the bottom of the screening bin (4) is coaxially connected with a discharge barrel (26), and a valve switch is arranged on the discharge barrel (26).

2. The pig feed ingredient feed system of claim 1, characterized in that the same support column (1) is fixedly connected to the bottom outer side of the circulating pipeline (2) and the bottom outer side of the screening bin (4) at the same side, and the support columns (1) are symmetrically arranged relative to the discharge barrel (26).

3. A pig feed material feed system as defined in claim 1, characterized in that the outside of the rotating motor (6) is covered with a protective cover, which is mounted on the outer wall of the stirring bin (8).

4. The pig feed ingredient feeding system of claim 1, wherein the stirring assembly comprises a horizontally arranged main rotating shaft (7), one end of the main rotating shaft (7) is coaxially and fixedly connected with the driving end of the rotating motor (6), the other end of the main rotating shaft (7) rotates on the inner wall of the stirring bin (8), a plurality of driving shells (19) are arranged on the main rotating shaft (7) at equal intervals, the driving shells (19) are fixedly connected on the inner wall of the stirring bin (8), the main rotating shaft (7) rotates to penetrate through the driving shells (19), a driving bevel gear (20) is coaxially arranged on the main rotating shaft (7) in each driving shell (19), a driven bevel gear (21) is engaged on each driving bevel gear (20), and the driven bevel gear (21) is positioned in the driving shells (19), driven bevel gear (21) are gone up coaxial rigid coupling and are had a pivot (22), wear out the bottom of pivot (22) drive casing (19) with the top in screening storehouse (4) is rotated and is connected, the top rigid coupling in screening storehouse (4) has the bar mounting panel, the bottom of pivot (22) is rotated and is installed on the bar mounting panel, the rigid coupling has a plurality of stirring paddles (23) on pivot (22), and is adjacent drive casing (19) between the rigid coupling has a plurality of vertically puddler (17) on main pivot (7), ann has a plurality of stirring leaves (18) on puddler (17).

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