CN210726647U

CN210726647U - Automatic change fodder production line

Info

Publication number: CN210726647U
Application number: CN201921041736.8U
Authority: CN
Inventors: 黄威龙; 王文河
Original assignee: Kaiping City Lvhuang Agriculture And Stockbreeding Development Co ltd
Current assignee: Kaiping City Lvhuang Agriculture And Stockbreeding Development Co ltd
Priority date: 2019-07-04
Filing date: 2019-07-04
Publication date: 2020-06-12
Anticipated expiration: 2029-07-04

Abstract

The utility model discloses an automatic change feed production line, receive including the raw materials and just clear device, reducing mechanism, batching mixing arrangement, pelletization cooling device, hierarchical packing apparatus and control panel, the raw materials is received and is just clear device transports to reducing mechanism after tentatively screening the raw materials, and the reducing mechanism gets into the batching mixing arrangement after smashing the raw materials and mixes the batching, and the material after mixing gets into pelletization cooling device, gets into hierarchical packing apparatus and packs after pelletization, cooling, breakage. The control screen is provided with a switch button indicator lamp of a corresponding device, and the operation of each device is controlled by controlling the switch button indicator lamp. The whole production process is mainly completed by corresponding devices, the labor participation is less, the operation is convenient, the time is saved, and the improvement of the production efficiency is facilitated.

Description

Automatic change fodder production line

Technical Field

The utility model relates to a feed production technical field, in particular to change fodder production line.

Background

Feed is a generic term for food that can be ingested by an animal and that can provide one or more nutrients to the animal. Such as raw material feed of corn, wheat, etc., compound feed of F183, F166F, etc., and livestock feed. The production process of the feed is complex, the feed is generally processed by the processes of screening, crushing, mixing and proportioning, granulating and cooling, grading and packaging and the like of raw materials, in the prior art, the production process of the feed is mainly finished manually, time and labor are wasted, the production efficiency is extremely low, and the increasing market needs cannot be met. Therefore, the development of an automatic feed production device is urgently needed to improve the production efficiency.

SUMMERY OF THE UTILITY MODEL

Problem to prior art exists, the utility model provides an automatic change fodder production line, the production processes of fodder are mainly accomplished by corresponding machine, the operation of manual control machine, convenient operation and save time improve production efficiency.

The utility model adopts the technical proposal that:

an automated feed production line, comprising:

the raw material receiving and primary cleaning device comprises a feeding device, an outlet of the feeding device is connected with a vibrating screen for removing impurities, outlets of the vibrating screen are connected with a plurality of independent cylindrical bins, and outlets of the cylindrical bins are connected with a plurality of bins to be crushed;

the crushing device comprises a crusher, an inlet of the crusher is connected with an outlet of the bin to be crushed, and an outlet of the crusher is connected with a plurality of independent proportioning bins;

the batching and mixing device comprises a mixer, the inlet of the mixer is connected with the outlet of the batching bin, and the outlet of the mixer is connected with a bin to be pressed;

the granulating and cooling device comprises a granulator, an inlet of the granulator is connected with an outlet of the material bin to be pressed, an outlet of the granulator is connected with a cooler, and an outlet of the cooler is connected with a crusher;

the grading and packaging device comprises a finished product bin, an inlet of the finished product bin is connected with an outlet of the crusher, an outlet of the finished product bin is connected with a sack closer, and an outlet of the sack closer is connected with a conveyor;

the control screen is provided with switch button indicator lamps for respectively controlling the vibrating screen, the pulverizer, the mixing machine, the granulator, the cooler, the crusher, the bag sewing machine and the conveyor.

Furthermore, be provided with between silo and the storehouse of treating smashing to the appointed the rotatory distributor of the storehouse transported substance material is treated to smashing, rotatory distributor is connected with first power device, first power device is first motor, first motor electric connection the control panel.

Furthermore, a feeder enabling materials to uniformly enter the pulverizer is arranged between the bin to be pulverized and the pulverizer, and an outlet of the bin to be pulverized is connected with an inlet of the feeder through a valve.

Further, the proportioning bin with be provided with between the machine that mixes relatively proportioning bin horizontal migration's weighing hopper, the export of weighing hopper passes through the valve and connects the entry that mixes the machine.

Preferably, the inlet of the mixer is connected with an auxiliary adder and an oil weighing hopper.

Furthermore, the cooler is connected with a cooling fan, and the cooling fan is electrically connected with the control screen.

Furthermore, a grading sieve is arranged between the crusher and the finished product bin, the grading sieve is connected with a second power device, the second power device is a second motor, and the second motor is electrically connected with the control screen.

Further, the silo, treat to smash storehouse, proportioning bins, treat to press feed bin, finished product storehouse all to be provided with the material level ware that is used for monitoring the interior material degree of depth of feed bin, material level ware electric connection the control panel.

Furthermore, a dust collector is arranged on one side of the feeding device and electrically connected with the control screen.

Furthermore, a magnetic cylinder for removing magnetic impurities in the materials is arranged between the outlet of the cylindrical bin and the rotary distributor and between the mixer and the material bin to be pressed.

The beneficial effects of the above technical scheme are: this automatic change feed production line includes that the raw materials is received and is just cleared up device, reducing mechanism, feed proportioning device, pelletization cooling device, hierarchical packing apparatus and control panel, and the raw materials is received and just cleared up the device and transport to reducing mechanism after tentatively screening the raw materials, and the reducing mechanism gets into feed proportioning device after smashing the raw materials and mixes the batching, and the material after mixing gets into pelletization cooling device, gets into hierarchical packing apparatus after pelletization, cooling, breakage and packs. The control screen is provided with a switch button indicator lamp of a corresponding device, and the operation of each device is controlled by controlling the switch button indicator lamp. The whole production process is mainly completed by corresponding devices, the labor participation is less, the operation is convenient, the time is saved, and the improvement of the production efficiency is facilitated.

Drawings

FIG. 1 is a plan view of the overall structure of a production line according to an embodiment of the present invention;

FIG. 2 is a plan view of a raw material receiving scarfing apparatus according to an embodiment of the present invention;

fig. 3 is a plan view of a crushing apparatus according to an embodiment of the present invention;

FIG. 4 is a plan view of a ingredient mixing device according to an embodiment of the present invention;

fig. 5 is a plan view of a pellet cooling apparatus in an embodiment of the present invention;

fig. 6 is a plan view of the grading and packaging device according to the embodiment of the present invention.

Detailed Description

The structure of an automatic feed production line of the present invention will be described in detail below with reference to preferred examples and accompanying drawings.

Referring to fig. 1, in an embodiment of the present invention, an automatic feed production line has the following overall structure: the utility model provides an automatic change feed production line includes that raw materials receive first clearing device 1, reducing mechanism 2, batching mixing arrangement 3, pelletization cooling device 4, hierarchical packing apparatus 5 and control panel, the operation of each device of control panel control. The raw materials is received and is just cleared up device 1 and will screen qualified raw materials through scraper conveyor and bucket elevator after tentatively screening the raw materials and transport to reducing mechanism 2, and reducing mechanism 2 smashes the raw materials to satisfy the different demands of raising the animal in object, different stages of raising to the raw materials granularity, increase the digestion area of raw materials simultaneously, improve material utilization and digestibility. The raw materials are crushed and then enter a batching and mixing device 3 through the conveying of a batching auger according to the formula amount and batching sequence set by a system, the mixed materials enter a granulating and cooling device 4, the palatability of the materials can be improved after granulating and cooling, and then the materials enter a grading and packaging device 5 for packaging.

The concrete structure is as follows:

referring to fig. 2, the raw material receiving and initial cleaning device 1 includes a feeding device 11, a dust collector 12 is disposed on one side of the feeding device 11, when the feeding device 11 is manually fed, the dust collector 12 can absorb dust, so as to reduce dust, protect the health of feeding personnel, and reduce the loss of raw materials to a certain extent. The dust collector 12 is electrically connected with the control screen, and a switch button indicating lamp for controlling the dust collector 12 to work is arranged on the control screen. The exit linkage of feeding device 11 has shale shaker 13 that is used for getting rid of impurity, be provided with the shift knob pilot lamp of control shale shaker 13 work on the control panel, the dustpan of the exit linkage bucket elevator of shale shaker 13, the raw materials after will tentatively screening is transported to the entrance of three-way valve 15, a silo 14 is connected respectively in two exits of three-way valve 15, be provided with the shift knob pilot lamp of control three-way valve 15 on the control panel, through operating the control panel, open/close the export of three-way valve 15, make the material get into in the corresponding silo 14, the quantity of silo 14 can change according to raw materials kind volume, the quantity of corresponding three-way valve 15 also can change. A material level device used for monitoring the depth of materials in the cylindrical bin 14 is arranged in the cylindrical bin 14, a valve is arranged at the bottom end of the cylindrical bin 14, a control screen controls the opening and closing of the valve, and a winnowing pan of a lifting machine is arranged below the valve.

Referring to fig. 3, the crushing apparatus 2 includes a crusher 24, a feeder 23, four independent bins 22 to be crushed, a rotary distributor 21, a magnetic cylinder 25 for removing magnetic impurities in the material, and a three-way valve 15. The outlet of the three-way valve 15 is connected with the inlet of the magnetic cylinder 25, the outlet of the magnetic cylinder 25 is connected with the inlet of the rotary distributor 21, the outlet of the rotary distributor 21 is connected with the bin 22 to be crushed, the number of the bins 22 to be crushed can be set according to the type quantity of materials, the outlet of the bin 22 to be crushed is connected with the feeder 23 through a valve, the outlet of the feeder 23 is connected with the inlet of the crusher 24, the feeder 23 can enable the materials to uniformly enter the crusher 24, and four hammer sheets for crushing the raw materials are arranged in the crusher 24. The rotary distributor 21 is connected with a first power device which is electrically connected with the control screen. The control screen is provided with a switch button indicator lamp which respectively controls the crusher 24, the feeder 23, the bin 22 to be crushed, the rotary distributor 21 and the three-way valve 15, and each bin 22 to be crushed is provided with a switch button indicator lamp and a material level indicator for monitoring the depth of materials in the bin 22 to be crushed. The material is conveyed to a three-way valve 15 by the elevator, is demagnetized by a magnetic cylinder 25, enters a rotary distributor 21, is distributed by the rotary distributor 21 to enter a bin 22 to be crushed, and then enters a crusher 24 through a feeder 23. In this embodiment, the first power device is a first motor, the crusher 24 is a hammer crusher, and the magnetic cylinder 25 is a permanent magnetic cylinder.

Before the materials are conveyed, the control screen sends out a position adjusting instruction, the bin number of the bin 22 to be crushed, which needs to be fed, is pressed, the switch is automatically locked, the first motor immediately drives the rotary distributor 21 to rotate, after the rotary distributor is operated to the required bin position and aligned, the switch button indicator lamp on the control screen displays the corresponding bin number, and the materials can be conveyed to the designated bin at the moment. The number of shredders 24 can be increased depending on the application.

Referring to fig. 4, the ingredient mixing apparatus 3 includes a mixer 35, a weighing hopper 32, twelve independent ingredient bins 31, an auxiliary adder 33, and an oil weighing hopper 34. The quantity of proportioning bins 31 can be according to the kind volume setting of material, and weigh hopper 32 can be relative proportioning bins 31 horizontal migration through batching auger. The inlet of the proportioning bin 31 is connected with the outlet of the crusher 24, the outlet of the proportioning bin 31 is connected with the inlet of the weighing hopper 32, the outlet of the weighing hopper 32 is connected with the inlet of the mixer 35 through a valve, and the inlet of the mixer 35 is also connected with an auxiliary adder 33 and an oil weighing hopper 34. The control screen is provided with a switch button indicator lamp for respectively controlling the mixing machine 35, the weighing hopper 32, the batching bin 31, the auxiliary adding device 33 and the oil weighing hopper 34, and each batching bin 31 is provided with a switch button indicator lamp and a material level indicator for monitoring the depth of materials in the batching bin 31.

The materials enter a weighing hopper 32 for accumulative metering through the conveying of a batching auger according to the formula amount and the batching sequence set by the system, auxiliary materials are manually added through an auxiliary adding device 33, and the auxiliary materials enter a mixer 35 for mixing. Four paddles for stirring materials are uniformly distributed in the mixer 35, and each material enters the mixer 35 and is gradually and uniformly mixed under the mechanical action of the paddles.

Referring to fig. 5, the granulation cooling device 4 includes a granulator 42, a cooler 43, a cooling fan 44, a crusher 45, a material to be pressed bin 41, a magnetic cylinder 25, and a three-way valve 15. In the present embodiment, the magnetic cylinder 25 is a permanent magnetic cylinder. An inlet of the three-way valve 15 is connected with an outlet of the mixer 35, an outlet of the three-way valve 15 is connected with an inlet of the magnetic cylinder 25, an outlet of the magnetic cylinder 25 is connected with an inlet of the material pressing bin 41, an outlet of the material pressing bin 41 is connected with an inlet of the granulator 42, an outlet of the granulator 42 is connected with an inlet of the cooler 43, the cooling fan 44 is connected with the other inlet of the cooler 43, and an outlet of the cooler 43 is connected with an inlet of the crusher 45. The control screen is provided with switch button indicator lamps which respectively control the granulator 42, the cooler 43, the cooling fan 44, the crusher 45, the material pressing bin 41, the magnetic cylinder 25 and the three-way valve 15. A material level indicator used for monitoring the depth of the material in the material waiting bin 41 is arranged in the material waiting bin 41. After the material is pressed by the granulator 42, the material enters the cooler 43, the control screen is operated, the cooling fan 44 is started, the cooling air volume is set according to the diameter of the material particles, and the outlet of the cooler 43 is connected with the crusher 45.

Referring to fig. 6, the classifying and packing device 5 includes a classifying screen 51, a finished product bin 52, a sack closer 53, and a conveyor 54. The classifying screen 51 is connected with a second power device which is electrically connected with the control screen, in the embodiment, the classifying screen 51 is a rotary classifying screen, the second power device is a second motor, and the conveyor 54 is a belt conveyor. An inlet of the grading sieve 51 is connected with an outlet of the crusher 45, an outlet of the grading sieve 51 is connected with an inlet of the finished product bin 52, an outlet of the finished product bin 52 is connected with an inlet of the sack closer 53, and an outlet of the sack closer 53 is connected with the conveyor 54 through a valve. The control screen is provided with switch button indicator lights which respectively control the grading screen 51, the finished product bin 52, the sack closer 53 and the conveyor 54.

The finished product crushed by the crusher 45 enters the classifying screen 51 through a lifter to complete classification. Qualified finished products enter the finished product bin 52, the finished product bin 52 is provided with a material level indicator for monitoring the depth of the materials in the finished product bin 52, and the quantity of the materials entering the packaging bags can be determined according to the depth of the materials in the finished product bin 52.

While the above detailed description describes the preferred embodiment of the present invention, it is not intended to limit the scope of the present invention, but rather, the present invention is intended to cover by those skilled in the art all such modifications and equivalents as may be included within the spirit and scope of the present invention.

Claims

1. An automated feed production line, comprising:

the raw material receiving and primary cleaning device (1) comprises a feeder (11), an outlet of the feeder (11) is connected with a vibrating screen (13) used for removing impurities, an outlet of the vibrating screen (13) is connected with a plurality of independent cylindrical bins (14), and an outlet of each cylindrical bin (14) is connected with a plurality of bins (22) to be crushed;

the crushing device (2) comprises a crusher (24), the inlet of the crusher (24) is connected with the outlet of the bin (22) to be crushed, and the outlet of the crusher (24) is connected with a plurality of independent proportioning bins (31);

a batching and mixing device (3), wherein the batching and mixing device (3) comprises a mixer (35), the inlet of the mixer (35) is connected with the outlet of the batching bin (31), and the outlet of the mixer (35) is connected with a bin (41) to be pressed;

the granulating and cooling device (4), the granulating and cooling device (4) comprises a granulator (42), the inlet of the granulator (42) is connected with the outlet of the material bin (41) to be pressed, the outlet of the granulator (42) is connected with a cooler (43), and the outlet of the cooler (43) is connected with a crusher (45);

the grading and packaging device (5) comprises a finished product bin (52), the inlet of the finished product bin (52) is connected with the outlet of the crusher (45), the outlet of the finished product bin (52) is connected with a bag sewing machine (53), and the outlet of the bag sewing machine (53) is connected with a conveyor (54);

the control screen is provided with switch button indicating lamps for respectively controlling the vibrating screen (13), the pulverizer (24), the mixer (35), the granulator (42), the cooler (43), the crusher (45), the sack closer (53) and the conveyor (54).

2. An automated feed production line according to claim 1, characterized in that: the rotary distributor (21) for conveying materials to the specified bin (22) to be crushed is arranged between the cylindrical bin (14) and the bin (22) to be crushed, the rotary distributor (21) is connected with a first power device, the first power device is a first motor, and the first motor is electrically connected with the control screen.

3. An automated feed production line according to claim 1, characterized in that: a feeder (23) enabling materials to uniformly enter the pulverizer (24) is arranged between the bin (22) to be pulverized and the pulverizer (24), and an outlet of the bin (22) to be pulverized is connected with an inlet of the feeder (23) through a valve.

4. An automated feed production line according to claim 1, characterized in that: proportioning bins (31) with be provided with between the mixer (35) relatively proportioning bins (31) horizontal migration's weighing hopper (32), the export of weighing hopper (32) is connected through the valve the entry of mixer (35).

5. An automated feed production line according to claim 1, characterized in that: the inlet of the mixer (35) is connected with an auxiliary adder (33) and an oil weighing hopper (34).

6. An automated feed production line according to claim 1, characterized in that: the cooler (43) is connected with a cooling fan (44), and the cooling fan (44) is electrically connected with the control screen.

7. An automated feed production line according to claim 1, characterized in that: a grading sieve (51) is arranged between the crusher (45) and the finished product bin (52), the grading sieve (51) is connected with a second power device, the second power device is a second motor, and the second motor is electrically connected with the control screen.

8. An automated feed production line according to claim 1, characterized in that: silo (14), treat to smash storehouse (22), proportioning bins (31), treat to press feed bin (41), finished product storehouse (52) and all be provided with the material level ware that is used for monitoring the interior material degree of depth of feed bin, material level ware electric connection the control panel.

9. An automated feed production line according to claim 1, characterized in that: and a dust collector (12) is arranged on one side of the feeder (11), and the dust collector (12) is electrically connected with the control screen.

10. An automated feed production line according to claim 2, characterized in that: between the export of silo (14) and rotary distributor (21), mix machine (35) with wait to press and all be provided with the magnetism section of thick bamboo that is arranged in getting rid of the material magnetic impurity between feed bin (41).