Disclosure of Invention
An object of the utility model is to provide a feed mixing production line to improve equipment's utilization ratio simplifies the production procedure, practices thrift the cost. In order to achieve the above purpose, the utility model adopts the following technical scheme:
a feed mixing production line comprises a feeding working section, a crushing working section, a blending working section, a granulating working section and a finished product packaging working section which are sequentially connected. The feeding section comprises a feeding mechanism and a feeding hoister which are connected in sequence. The crushing workshop section comprises a plurality of crushing bins, a crusher and a crushing hoister which are connected in sequence, and the feeding hoister is connected with the crushing bins through a first pipeline. The batching mixes the workshop section including distributor, a plurality of proportioning bins, weighter, the machine that mixes and the batching lifting machine that connects gradually, the feeding lifting machine pass through the second pipeline and be connected with the distributor, the crushing lifting machine pass through the third pipeline and be connected with the proportioning bins. The batching lifting machine be connected with the three-way valve, flow back to fourth pipeline or fifth pipeline through the three-way valve, the fourth pipeline is connected with crushing storehouse, the fifth pipeline is connected with batching storehouse. The granulation section comprises a plurality of granulation bins, a granulator and a granulation hoister which are connected in sequence, and the ingredient hoister is connected with the granulation bins through sixth pipelines. The finished product packaging workshop section comprises a finished product bin and a packaging mechanism which are sequentially connected, and the granulating hoister is connected with the finished product bin through a seventh pipeline. And the ingredient hoister is connected with the finished product bin through an eighth pipeline.
Preferably, a polar sieve is further arranged between the granulating and lifting machine and the finished product bin.
Furthermore, the ingredient mixing section is also provided with an adding groove and an adding pipe, one end of the adding pipe is connected with the adding groove, and the other end of the adding pipe is connected with the mixing machine.
Wherein, the pipelines below the crushing bin, the proportioning bin, the granulating bin and the finished product bin are all provided with switch control valves.
Due to the adoption of the structure, the utility model discloses following beneficial effect has: the utility model discloses a production flow is compact, and the once mixture that the batching mixing workshop section was prepared flows back to smashing the storehouse through the three-way valve and gets into the batching mixing workshop section again and carry out the secondary and mix, has improved rate of equipment utilization, simplifies the production flow, has reduced equipment cost.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
Description of the main component symbols:
1: feed section, 11: feed mechanism, 12: feeding hoister, 2: a crushing section, 21: crushing bin, 22: pulverizer, 23: crushing elevator, 3: ingredient mixing section, 31: dispenser, 32: proportioning bin, 33: weight scale, 34: mixer, 35: batching lifting machine, 4: granulation section, 41: granulation bin, 42: granulator, 43: granulation lifter, 5: finished product packaging section, 51: finished product bin, 52: packaging mechanism, 61: first pipe, 62: second pipe, 63: third pipe, 64: fourth duct, 65: fifth pipe, 66: sixth pipe, 67: seventh conduit, 68: eighth conduit, 7: three-way valve, 8: classifying screen, 91: feed tank, 92: material adding pipe, 10: and (4) switching the control valve.
Detailed Description
In order to make those skilled in the art better understand the technical solution of the present invention, the present invention is further described in detail with reference to the accompanying drawings and specific embodiments.
As shown in figure 1, the utility model discloses a feed mixing production line, including the feeding workshop section 1, crushing workshop section 2, the batch mixing workshop section 3, the pelletization workshop section 4 and the finished product packaging workshop section 5 that set gradually the connection.
The feeding section 1 comprises a feeding mechanism 11 and a feeding elevator 12 which are connected in sequence. In this embodiment, the feeding mechanisms 11 are provided with two groups, and the tail ends of the feeding mechanisms 11 are located above the feeding end of the feeding hoist 12.
The crushing section 2 comprises a plurality of crushing bins 21, a crusher 22 and a crushing lifter 23 which are connected in sequence. The discharge end of the feeding elevator 12 is connected to the crushing bin 21 through a first pipe 61.
The ingredient mixing section 3 comprises a distributor 31, a plurality of ingredient bins 32, a weighing device 33, a mixer 34 and an ingredient elevator 35 which are connected in sequence. The feed elevator 12 is connected to the distributor 31 by a second conduit 62. The pulverizing elevator 23 is connected to the surge bin 32 through a third pipe 63. The batching hoisting machine 35 is connected with the three-way valve 7 and returns to a fourth pipeline 64 or a fifth pipeline 65 through the three-way valve 7, the fourth pipeline 64 is connected with the crushing bin 21, and the fifth pipeline 65 is connected with the batching bin 32.
The granulating section 4 comprises a plurality of granulating bins 41, a granulator 42 and a granulating elevator 43 which are connected in sequence. The dosing elevator 35 is connected to the granulation chamber 41 via a sixth conduit 66.
The finished product packaging section 5 comprises a finished product bin 51 and a packaging mechanism 52 which are connected in sequence. The granulation elevator 43 is connected to the product silo 51 via a seventh conduit 67. The ingredient elevator 35 is connected to the finished product bin 51 via an eighth conduit 68.
A polar sieve 8 is also arranged between the granulating hoister 43 and the finished product bin 51. The ingredient mixing section 3 is further provided with an adding groove 91 and an adding pipe 92, one end of the adding pipe 92 is connected with the adding groove 91, and the other end is connected with the mixer 34.
The pipelines below the crushing bin 21, the proportioning bin 32, the granulating bin 41 and the finished product bin 51 are all provided with an on-off control valve 10.
The utility model discloses a use as follows detailed description:
1. an operator pours raw materials of the feed into the feeding mechanism 11, and the feeding mechanism 11 pours the raw materials into the lower feeding end of the feeding elevator 12 and lifts the raw materials to the upper discharging end through the feeding elevator 12.
2. The raw materials of part of the feed need to be firstly crushed: enters the first pipeline 61 to the crushing bin 21 from the discharge end of the feeding elevator 12, is crushed by the crusher 22 and then enters the crushing elevator 23, and enters the batching bin 32 through the third pipeline 63 after being lifted by the crushing elevator 23.
The raw materials of part of the feed do not need to be crushed firstly: enters the distributor 31 from the discharging end of the feeding elevator 12 and enters the batching bin 32 after being distributed.
3. The raw materials of the proportioning bin 32 are weighed by a weigher 33 and fed into a mixer 34 for mixing. If auxiliary materials are required to be added in the mixing process, the auxiliary materials are manually added into the material adding groove 91, and the auxiliary materials enter the mixer 34 from the material adding pipe 92 to be mixed.
4. Part of the feed only needs to be mixed once: the mixture after the first mixing by the mixer 34 is lifted by the ingredient lifter 35 and enters the granulating bin 41 through the sixth pipeline 66.
Part of the feed needs to be mixed for the second time: the mixture after the first mixing in the mixer 34 is lifted by the ingredient lifter 35 and flows back to the ingredient bin 32 through the three-way valve 7 via the fifth pipeline 65 to be mixed for the second time. The mixture after the second mixing is lifted by the ingredient lifter 35 and enters the granulating bin 41 through the sixth pipeline 66.
Part of the feed needs to be crushed for the second time: the mixture after the first mixing in the mixer 34 is lifted by the ingredient lifter 35 and flows back through the fourth pipeline 64 to the crushing bin 21 by the three-way valve 7, and is crushed for the second time. The mixture after the second crushing is lifted by the crushing lifter 23 and enters the proportioning bin 32 through the third pipeline 63 for second mixing. The mixture after the second mixing is lifted by the ingredient lifter 35 and enters the granulating bin 41 through the sixth pipeline 66.
5. The mixture is granulated in the granulator 42 to obtain a semi-finished feed product, and the semi-finished feed product is lifted by the granulator 43 through the seventh pipeline 67 to the classifying screen 8, and classified by the classifying screen 8 to the finished product bin 51.
Part of the mixture does not need to be granulated, and the mixture is directly lifted by the ingredient lifter 35 and enters the finished product bin 51 through the eighth pipeline 68.
6. Opening the switch control valve 10, and sealing the feed semi-finished product in the finished product bin 51 by a packaging mechanism 52 to obtain the feed finished product.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the present invention.