CN116873604B - Conveying device for antibiotic-free feed production of meat poultry - Google Patents

Abstract

The invention discloses a conveying device for producing antibiotic-free feed for meat poultry, which relates to the technical field of feed conveying, and comprises a shell component, wherein a conveying component, a transferring component and a discharging component are arranged on the shell component; through conveying component II and flexible subassembly cooperation, can transport out the material from different positions for the device can adapt to different production demands, has improved production efficiency and application range greatly.

Description

Conveying device for antibiotic-free feed production of meat poultry

Technical Field

The invention relates to the technical field of feed conveying, in particular to a conveying device for nonresistant feed production of meat poultry.

Background

At present, along with the improvement of the living standard of people, the requirements of people on meat foods are radically changed, in the traditional raising process of broiler chickens, antibiotic additives or medicines containing antibiotics are used habitually, after the broiler chickens eat the antibiotic additives for a long time, after people eat foods containing antibiotics, the drug resistance of microorganisms in bodies is increased, the health of consumers is influenced, and therefore, the production of antibiotic-free feed is necessary.

Chinese patent publication No. CN115771716a discloses a conveying device for feed production and processing, which is provided with a conveying structure inside a housing; when the conveying structure works, the material receiving structure can be synchronously driven to reciprocate, so that the situation that materials fall into the bottom end of the shell from a gap between the hopper and the shell is avoided, and the conveying efficiency of the materials is further improved; the device can realize the transportation of fodder, but when using, can not smash and stir the material for the material is piled in the device easily, causes the device to block up, influences conveying efficiency, and when transporting out to the material, can not control the whereabouts position of material, consequently need a conveyor that can break up the material, can stir the material simultaneously.

Disclosure of Invention

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a meat poultry does not have conveyor for feed production, includes the casing subassembly, install conveying subassembly, transfer subassembly, ejection of compact subassembly on the casing subassembly, conveying subassembly is including installing the crushing subassembly that is used for smashing the material on the casing subassembly, conveying subassembly still including installing the transportation subassembly I that is used for carrying the material on the casing subassembly, transfer subassembly is including installing the drive assembly that is used for power transmission on the casing subassembly, transfer subassembly still including installing the stirring subassembly that is used for stirring the material on the casing subassembly, ejection of compact subassembly is including installing the conveying subassembly II that is used for carrying the material on the casing subassembly, ejection of compact subassembly still including installing the expansion assembly that is used for the material to discharge on conveying subassembly II, the drive assembly is including rotating axis II, axis of rotation III that are installed on the casing subassembly, rotation push pedal I, axis of rotation IV, fixed mounting has drive wheel, helical gear on axis of rotation II, drive wheel and III on the drive wheel pass through the drive belt and carry out the belt drive shaft, fixed mounting drive wheel on axis of rotation IV on the axis of rotation IV is used for stirring the material, drive wheel I and rotation I on the drive plate I through the drive plate I is installed to rotation through the drive plate I on the fixed connection board, the fixed connection board is installed to the slip on the casing I.

Preferably, the stirring assembly comprises a fixed upper frame fixedly arranged on the shell assembly, the rotating shaft IV is rotatably arranged with the fixed upper frame, the stirring roller I is fixedly arranged on the rotating shaft IV, and the stirring bar is fixedly arranged on the stirring roller I.

Preferably, the crushing assembly comprises a crushing roller I rotatably mounted on the shell assembly, a gear is fixedly mounted on the crushing roller I, the crushing assembly further comprises a rotating shaft I rotatably mounted on the shell assembly, and a driving wheel is fixedly mounted on the rotating shaft I.

Preferably, the crushing roller I is provided with a plurality of crushing teeth, the crushing roller I is provided with a driving wheel close to the rotating shaft I, and the driving wheel close to the rotating shaft I and the driving wheel on the rotating shaft I are in belt transmission through a driving belt.

Preferably, the conveying assembly I comprises a rotating roller I and a rotating roller II which are rotatably arranged on the shell assembly, a driving wheel and a bevel gear are fixedly arranged on the rotating roller I, the rotating roller I and the rotating roller II are in belt transmission through a conveying belt I, a plurality of conveying hoppers are fixedly arranged on the conveying belt I, the conveying assembly I further comprises a motor I fixedly arranged on the shell assembly, a bevel gear is fixedly arranged on an output shaft of the motor I, and the bevel gear on the rotating roller I is meshed with the bevel gear on the output shaft of the motor I.

Preferably, the rotating roller II is arranged in a hollow mode, a vibrator is fixedly installed on the shell assembly, and the vibrator is installed in the rotating roller II and used for vibrating materials.

Preferably, the conveying assembly II comprises a motor II fixedly installed on the shell assembly, and further comprises a rotating shaft V rotatably installed on the shell assembly, a bevel gear is fixedly installed on an output shaft of the motor II, a bevel gear is fixedly installed on the rotating shaft V, the bevel gear on the output shaft of the motor II is meshed with the bevel gear on the rotating shaft V, a conveying cylinder I is fixedly installed on the rotating shaft V, a rotating lower frame is fixedly installed on the conveying cylinder I, a motor III is fixedly installed on the conveying cylinder I, a spiral conveying shaft is fixedly installed on an output shaft of the motor III, and the spiral conveying shaft is rotatably installed with the conveying cylinder I.

Preferably, the telescopic assembly comprises a motor IV fixedly installed on a conveying assembly II, a screw rod I is fixedly installed on an output shaft of the motor IV, a screw rod sleeve is connected to the screw rod I in a threaded mode, a material conveying barrel II is fixedly installed on the screw rod sleeve, and the material conveying barrel II and the conveying assembly II are slidably installed.

Compared with the prior art, the invention has the beneficial effects that: (1) The crushing assembly is matched with the conveying assembly I, so that the agglomerated materials are crushed into powder, the conveying device is convenient to convey, the automatic feeding is completed, the conveying assembly is used for carrying out quantitative conveying, and the working efficiency is improved; (2) The conveying assembly is communicated with the stirring assembly through the transmission assembly, so that the stirring assembly can be driven to work simultaneously when materials are transported, the cost is reduced, and the working efficiency is improved; (3) Through conveying component II and flexible subassembly cooperation, can transport out the material from different positions for the device can adapt to different production demands, has improved production efficiency and application range greatly.

Drawings

Fig. 1 is a front view of the overall structure of the present invention.

Fig. 2 is a side view of the overall structure of the present invention.

FIG. 3 is a schematic partial cross-sectional view of the overall structure of the present invention.

Fig. 4 is a schematic view in partial cross-section of the structure of the delivery assembly of the present invention.

Fig. 5 is a schematic diagram of the structure a in fig. 4 according to the present invention.

FIG. 6 is a schematic view of the overall structure of the present invention in semi-section.

In the figure: 1-a housing assembly; 2-a conveying assembly; a 3-transfer assembly; 4-a discharging component; 101-a housing I; 102-shell II; 103-a bracket plate; 201-a motor I; 202-rotating a roller I; 203-gear I; 204-crushing roller I; 205-rotating roller II; 206-conveyor belt I; 207-a hopper; 208-rotation axis I; 209-vibrator; 301-rotating shaft II; 302-rotation axis III; 303-rotating push plate I; 304-rotating ring I; 305-connecting rod I; 306-spring I; 307-sliding transport plate; 308-rotation axis IV; 309-fixing the upper frame; 310-stirring roller I; 311-stirring bar; 401-motor II; 402-rotating the lower frame; 403-rotation axis V; 404-motor III; 405-screw conveying shaft; 406-a feed delivery cylinder I; 407-feeding cylinder II; 408-motor IV; 409-lead screw I; 410-screw sleeve.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

Wherein the drawings are for illustrative purposes only and are shown in schematic, non-physical, and not intended to be limiting of the present patent; for the purpose of better illustrating embodiments of the invention, certain elements of the drawings may be omitted, enlarged or reduced and do not represent the size of the actual product; it will be appreciated by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Referring to fig. 1, 2, 3, 4, 5 and 6, the present invention provides a technical solution: the utility model provides a meat poultry does not have conveyor for feed production, including casing subassembly 1, install conveying subassembly 2 on the casing subassembly 1, transfer subassembly 3, discharging subassembly 4, conveying subassembly 2 is including installing the crushing subassembly that is used for smashing the material on casing subassembly 1, conveying subassembly 2 still includes the transportation subassembly I that is used for carrying the material on casing subassembly 1, transfer subassembly 3 is including installing the drive assembly that is used for power transmission on casing subassembly 1, transfer subassembly 3 still includes installing the stirring subassembly that is used for stirring the material on casing subassembly 1, discharging subassembly 4 includes installing the conveying subassembly II that is used for carrying the material on casing subassembly 1, discharging subassembly 4 still includes installing the telescopic subassembly that is used for the material to discharge on conveying subassembly II, the drive assembly includes rotation axis II301 that rotates to install on casing subassembly 1, rotation axis III302, rotate push pedal I303, rotation axis IV308, fixedly installed drive wheel, helical gear on rotation axis II301, fixedly installed drive wheel on rotation axis III302 and III302 drive wheel pass through the drive belt drive, fixedly installed on rotation axis IV308 drive wheel on rotation axis IV drive wheel I, rotation axis IV drive plate 307 and rotation I are installed on rotation axis I through the fixed connection rod 307 and fixed connection rod I, fixedly installed on casing I and transmission plate I is installed to the fixed plate 307, fixedly installed on the fixed plate of rotation plate I and fixed plate is installed to the first end of rotation plate 307, and fixed plate I is installed on the conveying plate is fixed plate is installed to the conveying plate is fixed to the casing I, and is fixed plate is installed to the rotation plate is fixed to the transmission plate is fixed to the casing I, and is fixed to the end 307.

The shell assembly 1 comprises a shell I101, a shell II102 is fixedly installed on the shell I101, a cavity is formed in the shell II102 and communicated with the shell I101, and two support plates 103 used for fixing the conveying assembly 2 are fixedly installed on the shell I101.

The conveying component 2 comprises a crushing roller I204 rotatably arranged on a shell II102, the crushing roller I204 is provided with a plurality of (the quantity is set according to the requirement), gears are fixedly arranged on the crushing roller I204, the gears on the crushing roller I204 are meshed with each other, a rotating shaft I208 is fixedly arranged on the crushing shell I101, two driving wheels are fixedly arranged on the rotating shaft I208, a driving wheel is fixedly arranged on the crushing roller I204 which is close to the rotating shaft I208, the driving wheel carries out belt transmission with one driving wheel on the rotating shaft I208, a motor I201 is fixedly arranged on the shell I101, a bevel gear is fixedly arranged on an output shaft of the motor I201, a rotating roller I202 and a rotating roller II205 are rotatably arranged on the shell I101, a driving wheel and a bevel gear are fixedly arranged on the rotating roller I202, the rotating roller II205 is fixedly arranged on the rotating roller I205, the bevel gear on the rotating roller I202 is meshed with the bevel gear on an output shaft of the motor I201, the driving wheel on the rotating roller I202 carries out belt transmission with the other driving wheel on the rotating shaft I208, meanwhile, the rotating roller I and the rotating roller II carries out belt transmission with the belt I205 through the conveying belt I206, a plurality of vibrating hoppers 207 are fixedly arranged on the shell I101 and are fixedly arranged on the rotating roller I205, and the vibrating roller II is fixedly arranged in a vibrator 209 is in contact with the shell II according to the requirement.

During operation, the materials to be mixed and manufactured are put into the shell II102 in proportion, the motor I201 is started, the rotating roller I202 is driven to rotate, the rotating roller II205 is driven to rotate, the conveying belt I206 is driven to move the conveying hopper 207, meanwhile, the rotating roller I202 is driven to rotate to drive the rotating shaft I208 to rotate, the crushing roller I204 is driven to rotate, all the crushing rollers I204 are driven to rotate in two-phase directions, the materials in the shell II102 are crushed and dispersed, the crushed materials enter the shell I101 through the cavity, the materials are collected and transferred through the moving conveying hopper 207, and the materials fall into the transfer assembly 3 when being transferred to the top.

The transfer assembly 3 comprises a rotating shaft II301, a rotating shaft III302, a rotating push plate I303 and a rotating shaft IV308 which are rotatably arranged on a shell I101, wherein a driving wheel and a bevel gear are fixedly arranged on the rotating shaft II301, the bevel gear on the rotating shaft II301 is meshed with the bevel gear on a rotating roller II205, two driving wheels are fixedly arranged on the rotating shaft III302, the driving wheel on the rotating shaft II301 and one driving wheel on the rotating shaft III302 are in belt transmission through a driving belt, the driving wheel on the rotating shaft IV308 is fixedly arranged on the rotating shaft IV308, the driving wheel on the rotating shaft IV308 and the other driving wheel on the rotating shaft III302 are in belt transmission through the driving belt, a rotating ring I304 is fixedly arranged on the rotating push plate I303, a connecting rod I305 is rotatably arranged on the rotating ring I304, a sliding conveying plate 307 is rotatably arranged on the connecting rod I305, a spring I306 is fixedly arranged on the sliding conveying plate 307, one end of the spring I306 is fixedly arranged on the sliding conveying plate 307, the other end of the spring I306 is fixedly arranged on the shell I101, a fixed upper frame 309 is fixedly arranged on the shell I101, the rotating shaft IV308 and the fixed upper frame 309 is rotatably arranged on the rotating shaft I, a rotating ring I304 is fixedly arranged on the rotating shaft I309, a rotating ring I304 is fixedly arranged on the rotating ring I304, a rotating ring I is fixedly arranged on the rotating ring I310, a stirring roller I is fixedly arranged on the stirring roller I and a stirring roller 310 is fixedly arranged on the stirring roller I and is rotatably arranged on the stirring roller I and is temporarily fixed to be rotatably arranged on the stirring roller I and is rotatably fixed to be rotatably arranged.

When the material conveying hopper 207 rotates to the top point, the material in the material conveying hopper 207 falls out through the vibration of the vibrator 209, slides onto the sliding conveying plate 307 and falls into a cavity formed by the fixed upper frame 309 and the rotating lower frame 402, meanwhile, the rotating roller II205 drives the rotating shaft II301 to rotate, the rotating shaft III302 is driven to rotate, the rotating shaft IV308 is driven to rotate, the stirring roller I310 and the stirring strip 311 are driven to scatter the material in the cavity for the second time, when the material conveying hopper 207 continuously moves from the top point to be in contact with the rotating push plate I303, the material conveying hopper 207 continuously moves to drive the rotating push plate I303 to rotate, the rotating ring I304 is driven to rotate, the connecting rod I305 is driven to push the sliding conveying plate 307 to move, the material conveying hopper 207 passes through a required position, and meanwhile the material remaining along the path is scraped into the cavity formed by the fixed upper frame 309 and the rotating lower frame 402, and quantitative material conveying is completed.

The discharging component 4 comprises a motor II401 fixedly arranged on the shell I101, and further comprises a rotating shaft V403 rotatably arranged on the shell I101, a bevel gear is fixedly arranged on an output shaft of the motor II401, a bevel gear is fixedly arranged on the rotating shaft V403, the bevel gear on the output shaft of the motor II401 is meshed with the bevel gear on the rotating shaft V403, a feed cylinder I406 is fixedly arranged on the rotating shaft V403, a rotating lower frame 402 is fixedly arranged on the feed cylinder I406, a motor III404 is fixedly arranged on the feed cylinder I406, a spiral conveying shaft 405 is fixedly arranged on an output shaft of the motor III404, the spiral conveying shaft 405 is rotatably arranged with the feed cylinder I406, a motor IV408 is fixedly arranged on the feed cylinder I406, a screw I409 is fixedly arranged on an output shaft of the motor IV408, a screw sleeve 410 is connected to the screw I409, a feed cylinder II407 is fixedly arranged on the screw sleeve 410, and the feed cylinder II407 and the feed cylinder I406 are slidably arranged.

During operation, mixed materials fall into the conveying cylinder I406 from the rotating lower frame 402, the motor III404 is started, the spiral conveying shaft 405 is driven to rotate, the materials are conveyed, finally the mixed materials are conveyed out through the conveying cylinder II407, the motor II401 can be started, the rotating shaft V403 is driven to rotate, the direction of the conveying cylinder II407 is adjusted, the materials are output from different directions, the motor IV408 can be started, the output length of the conveying cylinder II407 is adjusted, and finally the materials are discharged from different directions.

The invention discloses a conveying device for producing nonresistant feed for meat poultry, which has the following working principle: during operation, put into casing II102 with the material that needs to mix the preparation in proportion, smash and quantitative transportation through conveying assembly 2 to the material once, transport the material to transfer in the subassembly 3, transport and the secondary through transfer subassembly 3 and break up the mixture to make the material enter into ejection of compact subassembly 4, transport the material after mixing to different positions through ejection of compact subassembly 4 and discharge, and then accomplish the transport to the material.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (1)

1. Conveying device for production of antibiotic-free feed for meat poultry, comprising a shell assembly (1), and being characterized in that: the shell component (1) is provided with a conveying component (2), a transferring component (3) and a discharging component (4), the conveying component (2) comprises a crushing component which is arranged on the shell component (1) and used for crushing materials, the conveying component (2) also comprises a conveying component I which is arranged on the shell component (1) and used for conveying the materials, the transferring component (3) comprises a transmission component which is arranged on the shell component (1) and used for power transmission, the transferring component (3) also comprises a stirring component which is arranged on the shell component (1) and used for stirring the materials, the discharging component (4) comprises a conveying component II which is arranged on the shell component (1) and used for conveying the materials, the discharging component (4) also comprises a telescopic component which is arranged on the conveying component II and used for discharging the materials, the transmission component comprises a rotating shaft II (301), a rotating shaft III (302), a rotating push plate I (303) and a rotating shaft IV (308) which are rotatably arranged on the shell component (1), a driving wheel and a helical gear III (302) are fixedly arranged on the rotating shaft II, a driving wheel (302) is fixedly arranged on the rotating shaft III) and a driving wheel (308) and is fixedly arranged on the driving wheel (302), the driving wheel on the rotating shaft IV (308) and the driving wheel on the rotating shaft III (302) are in belt transmission through a driving belt, a rotating ring I is fixedly arranged on the rotating push plate I (303), a connecting rod I (305) is rotatably arranged on the rotating ring I, a sliding conveying plate (307) is rotatably arranged on the connecting rod I (305), a spring I (306) is fixedly arranged on the sliding conveying plate (307), a first end of the spring I (306) is fixedly arranged with the sliding conveying plate (307), a second end of the spring I (306) is fixedly arranged with the shell component (1), and the sliding conveying plate (307) is slidably arranged on the shell component (1);

the stirring assembly comprises a fixed upper frame (309) fixedly arranged on the shell assembly (1), a rotating shaft IV (308) is rotatably arranged with the fixed upper frame (309), a stirring roller I (310) is fixedly arranged on the rotating shaft IV (308), and stirring strips (311) are fixedly arranged on the stirring roller I (310);

the crushing assembly comprises a crushing roller I (204) rotatably mounted on the shell assembly (1), a gear is fixedly mounted on the crushing roller I (204), the crushing assembly further comprises a rotating shaft I (208) rotatably mounted on the shell assembly (1), and a driving wheel is fixedly mounted on the rotating shaft I (208);

the crushing rollers I (204) are provided with a plurality of crushing teeth, the crushing rollers I (204) are provided with driving wheels close to the crushing rollers I (204) of the rotating shaft I (208), and the driving wheels close to the crushing rollers I (204) of the rotating shaft I (208) and the driving wheels of the rotating shaft I (208) are in belt transmission through a driving belt;

the conveying assembly I comprises a rotating roller I (202) and a rotating roller II (205) which are rotatably arranged on the shell assembly (1), a driving wheel and a bevel gear are fixedly arranged on the rotating roller I (202), the rotating roller I (202) and the rotating roller II (205) carry out belt transmission through a conveying belt I (206), a plurality of conveying hoppers (207) are fixedly arranged on the conveying belt I (206), the conveying assembly I also comprises a motor I (201) fixedly arranged on the shell assembly (1), and the bevel gear is fixedly arranged on an output shaft of the motor I (201); the bevel gear on the rotating roller I (202) is meshed with the bevel gear on the output shaft of the motor I (201); when the conveying hopper (207) moves from the top point to be in contact with the rotary push plate I (303), the conveying hopper (207) continuously moves to drive the rotary push plate I (303) to rotate, so as to drive the rotary ring I to rotate, and further drive the connecting rod I (305) to push the sliding conveying plate (307) to move, so that the conveying hopper (207) can smoothly pass through the sliding conveying plate (307);

the rotating roller II (205) is arranged in a hollow mode, a vibrator (209) is fixedly arranged on the shell assembly (1), and the vibrator (209) is arranged in the rotating roller II (205) and is used for vibrating materials;

the conveying assembly II comprises a motor II (401) fixedly arranged on the shell assembly (1), and further comprises a rotating shaft V (403) rotatably arranged on the shell assembly (1), a bevel gear is fixedly arranged on an output shaft of the motor II (401), a bevel gear is fixedly arranged on the rotating shaft V (403), the bevel gear on the output shaft of the motor II (401) is meshed with the bevel gear on the rotating shaft V (403), a conveying cylinder I (406) is fixedly arranged on the rotating shaft V (403), a rotating lower frame (402) is fixedly arranged on the conveying cylinder I (406), a motor III (404) is fixedly arranged on the conveying cylinder I (406), a spiral conveying shaft (405) is fixedly arranged on the output shaft of the motor III (404), and the spiral conveying shaft (405) is rotatably arranged with the conveying cylinder I (406); the fixed upper frame (309) and the rotary lower frame (402) form a chamber for transferring materials, and the materials enter the chamber formed by the fixed upper frame (309) and the rotary lower frame (402) from the stirring assembly and then fall into the material conveying cylinder (I406);

the telescopic component comprises a motor IV (408) fixedly installed on a conveying component II, a screw rod I (409) is fixedly installed on an output shaft of the motor IV (408), a screw rod sleeve (410) is connected to the screw rod I (409) in a threaded mode, a conveying barrel II (407) is fixedly installed on the screw rod sleeve (410), and the conveying barrel II (407) and the conveying component II are slidably installed.