CN211932494U - Multivitamin premixing additive preparation system - Google Patents

Abstract

The utility model belongs to the technical field of feed processing equipment, and relates to a multi-vitamin premix additive preparation system, which comprises a powder module, a liquid module and a mixed material collecting module, wherein the powder module comprises a powder feeding hopper, a magnetic separator, a filtering bin, a crushing barrel, a puffing bin and a fan; the liquid module comprises a first liquid bin group, a second liquid bin, a flow control pump, a liquid mixing bin and a grading bin; the mixing and collecting module comprises a mixing spraying bin and a collecting bin. According to the utility model discloses a multivitamin mixes additive preparation system in advance can adopt simpler and more convenient technology to prepare multivitamin and mix feed additive in advance to show the quality homogeneity that improves multivitamin and mix feed additive in advance.

Description

Multivitamin premixing additive preparation system

Technical Field

The utility model belongs to the technical field of the feed processing equipment, especially, relate to a multivitamin mixes additive preparation system in advance.

Background

With the development of social economy, the supply quality and quantity of livestock and poultry are improved year by year, so that higher requirements are continuously put forward to the animal husbandry. In recent years, vitamin feed additives are more and more emphasized, on one hand, because the vitamins in feed master batches are less and less; on the other hand, the demand of the livestock for vitamins is increasing due to the factors of improvement on varieties, high production rate, intensive feeding and the like.

Vitamins are subject to reduced activity due to exposure to oxygen, moisture, heat, light, metal ions, and the like. In order to meet the normal use requirement, the feed additive needs to be prepared into a premix with a stable state and then added into a feed master batch. The existing vitamin feed additive has the defects that the quality uniformity needs to be improved, and the production process is complicated.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a multivitamin premixing additive preparation system.

According to one aspect of the utility model, a multivitamin premix additive preparation system is provided, which comprises a powder module A, a liquid module B and a mixing and collecting module C; the powder module A comprises a powder feed hopper A1, a magnetic separator A2, a filter bin A3, a crushing cylinder A4, a puffing bin A5 and a fan A7; liquid module B includes first liquid bin group B1, second liquid bin B2, flow control pump B3, liquid mixing bin B4 and staging bin B5; the mixing and aggregating module C comprises a mixing and spraying bin C1 and a collecting bin C2; wherein, powder feeder hopper A1, magnet separator A2, filter storehouse A3, crushing cylinder A4 and popped storehouse A5 connect gradually, first liquid storehouse group B1 passes through flow control pump B3 and liquid mixing storehouse B4 and popped storehouse A5 is connected, popped storehouse A5 is connected with hierarchical storehouse B5, hierarchical storehouse B5 is connected with powder feeder hopper A1 through fan A7, hierarchical storehouse B5 is connected with compounding spraying storehouse C1, second liquid storehouse B2 is connected with compounding spraying storehouse C1, compounding spraying storehouse C1 is connected with collection feed bin C2.

According to the exemplary embodiment of the utility model, be equipped with first batching scale B6 between second liquid storehouse B2 and compounding spraying storehouse C1.

According to the utility model discloses an exemplary embodiment is equipped with second batching scale between hierarchical storehouse B5 and compounding spraying storehouse C1.

According to the exemplary embodiment of the present invention, a plurality of classifying screens are provided in the classifying bin B5.

According to the exemplary embodiment of the utility model, be equipped with at least one aggregate sieve in the aggregate storehouse C2.

Compared with the prior art, the utility model discloses a, through configuration optimization design, can adopt simpler and more convenient technology preparation multivitamin to mix feed additive in advance to show the quality homogeneity that improves multivitamin feed additive in advance.

Drawings

Fig. 1 is a schematic structural diagram of a multivitamin premix additive preparation system according to the present invention.

In the figure, A1-powder feed hopper, A2-magnetic separator, A3-filter bin, A4-crushing cylinder, A5-puffing bin, A6-pipeline and A7-fan; b1-a first liquid bin group, B2-a second liquid bin, B3-a flow control pump, B4-a liquid mixing bin, B5-a grading bin, and B6-a first batching scale; c1-mixing material spraying bin and C2-collecting bin.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1, according to the utility model discloses a multivitamin premix additive preparation system, it includes powder module A, liquid module B and compounding module C that gathers materials, and powder module A, liquid module B and compounding module C that gathers materials communicate through pipeline A6.

Specifically, the powder module A comprises a powder feed hopper A1, a magnetic separator A2, a filter bin A3, a crushing cylinder A4, a puffing bin A5 and a fan A7; liquid module B includes first liquid bin group B1, second liquid bin B2, flow control pump B3, liquid mixing bin B4 and staging bin B5; the mixing and aggregating module C comprises a mixing and spraying bin C1 and a collecting bin C2.

It should be noted that, a powder feed hopper a1, a magnetic separator a2, a filter bin A3, a crushing cylinder a4 and a puffing bin a5 are connected in sequence, a first liquid bin group B1 is connected with the puffing bin a5 through a flow control pump B3 and a liquid mixing bin B4, the puffing bin a5 is connected with a grading bin B5, the grading bin B5 is connected with the powder feed hopper a1 through a fan a7, the grading bin B5 is connected with a mixing spray bin C1, a second liquid bin B2 is connected with the mixing spray bin C1, and the mixing spray bin C1 is connected with a collecting bin C2. It should be noted that the magnetic separation is to remove the magnetic metal impurities by using the difference in magnetic susceptibility between the feed raw materials and the magnetic metal impurities, the magnetic metal has the property of being easily magnetized, the feed raw materials and the grains are non-magnetic materials, and the magnetic metal impurities mixed in the feed are magnetized and then mutually attracted with the different magnetic poles of the magnetic field to be separated from the feed and other materials.

A first ingredient scale B6 is arranged between the second liquid bin B2 and the mixed material spraying bin C1.

A second batching scale is arranged between the grading bin B5 and the mixed material spraying bin C1.

A plurality of classifying screens are arranged in the classifying bin B5.

At least one aggregate sieve plate is arranged in the aggregate bin C2.

According to the multivitamin premixing additive preparation system of the utility model, the additive powder raw material enters from the powder feed hopper A1 and passes through the magnetic separator A2, the filtering bin A3, the crushing cylinder A4 and the puffing bin A5 in sequence; a plurality of first liquids flow out of the first liquid bin B1 and enter the puffing bin A5 through a flow control pump B3 and a liquid mixing bin B4; after being expanded in an expansion bin A5, a plurality of first liquids and additive powder are classified and screened by a classification bin B5, the coarse powder enters a powder feed hopper A1 through a pipeline A6 under the action of a fan A7 and circulates again, and the fine powder enters a mixed material spraying bin C1 through a pipeline A6 and a batching scale B6; the second liquid flows out of the second liquid bin B2, enters the mixing and spraying bin C1 through the batching scale B6, the puffed mixture and the second liquid are mixed and sprayed in the mixing and spraying bin C1, and the multi-vitamin premixed additive is formed and enters the collecting bin C2.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above description is only the embodiments of the present invention, and is not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (5)

1. The multivitamin premix additive preparation system is characterized by comprising a powder module (A), a liquid module (B) and a mixing and aggregating module (C); wherein, the powder module (A) comprises a powder feed hopper (A1), a magnetic separator (A2), a filter bin (A3), a crushing cylinder (A4), a puffing bin (A5) and a fan (A7); the liquid module (B) comprises a first liquid bin group (B1), a second liquid bin (B2), a flow control pump (B3), a liquid mixing bin (B4) and a grading bin (B5); the mixing and aggregating module (C) comprises a mixing and spraying bin (C1) and a collecting bin (C2); wherein, powder feeder hopper (A1), magnetic separator (A2), filter storehouse (A3), crushing cylinder (A4) and popped storehouse (A5) connect gradually, first liquid storehouse group (B1) is connected with popped storehouse (A5) through flow control pump (B3) and liquid mixing storehouse (B4), popped storehouse (A5) is connected with hierarchical storehouse (B5), hierarchical storehouse (B5) is connected with powder feeder hopper (A1) through fan (A7), hierarchical storehouse (B5) is connected with compounding spraying storehouse (C1), second liquid storehouse (B2) is connected with compounding spraying storehouse (C1), compounding spraying storehouse (C1) is connected with collection feed bin (C2).

2. The multivitamin premix additive preparation system of claim 1, wherein a first ingredient scale (B6) is disposed between the second liquid bin (B2) and the mix spray bin (C1).

3. The multivitamin premix additive preparation system of claim 1 or 2, wherein a second ingredient scale is provided between the classifying bin (B5) and the mix spraying bin (C1).

4. The multivitamin premix additive preparation system of claim 1, wherein a plurality of sizing screens are provided in the sizing silo (B5).

5. The multivitamin premix additive preparation system of claim 4, wherein at least one aggregate screen is disposed in the aggregate bin (C2).

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