CN107996976B - Ultra-fine corn powder processing device and processing method - Google Patents

Abstract

The invention relates to an ultra-fine corn powder processing device, which comprises a corn storage bin, a primary residue removing machine, a secondary residue removing machine, a primary embryo selecting machine, a secondary embryo selecting machine, a primary crusher, a secondary crusher, a vibrating screening machine and a rack-type corn shearing machine which are sequentially connected; multilayer screening nets are integrated inside the toothed rail type corn separating and shearing device. The method is beneficial to thoroughly removing the corn epidermis and the corn germ, eliminating the aspergillus flavus remained on the corn, improving the quality of the obtained corn flour and ensuring the use safety of the corn flour.

Description

Ultra-fine corn powder processing device and processing method

Technical Field

The invention relates to the technical field of food processing, in particular to a processing device and a processing method for ultrafine corn powder.

Background

Corn is an important traditional food. The corn kernel is rich in nutrition, the protein content is higher than that of rice, the fat content is higher than that of flour, rice and millet, and the calorie is higher than that of the flour, the rice and sorghum. According to the research, the corn contains a large amount of magnesium, which can promote the elimination of wastes in vivo and inhibit the formation and development of cancer cells, and the corn is rich in anticancer elements such as selenium, vitamins, crude cellulose, zinc and the like, which can accelerate the decomposition of peroxide in vivo, so that malignant tumors can be inhibited because molecular oxygen can not be supplied.

In many developed countries, corn is regarded as a fashionable health food and "gold food", and in recent years, corn food has been sold in international markets, and its varieties and demands have been increased. However, the existing processing method of the corn flour is simple, basically only a single product can be produced, the efficiency is low, and the processing cost is high; meanwhile, aspergillus flavus is easy to grow in the production and storage processes of the corn kernels for preparing the corn flour, the aspergillus flavus is a common harmful substance and is mainly planted in the corn husks and the corn germs under the common conditions, in order to ensure the edible safety of the corn flour and improve the quality of the obtained corn flour, the corn husks and the corn germs need to be thoroughly removed as far as possible in the corn flour processing technology section, and the requirements are difficult to meet under the common conditions of the prior art.

Based on the analysis, a research and development group is established by our company, and a processing device and a processing method for the ultrafine corn powder are designed through long-term experimental tests and scientific researches, so that the corn epidermis and the corn germ are thoroughly removed, the aspergillus flavus remained on the corn is eliminated, the quality of the obtained corn flour is improved, and the use safety of the corn flour is ensured.

Disclosure of Invention

The invention aims to design an ultra-fine corn powder processing device and an ultra-fine corn powder processing method aiming at the technical problems of the existing corn powder preparation device, so that corn epidermis and corn germ are thoroughly removed, aspergillus flavus remained on corn is eliminated, the quality of obtained corn powder is improved, and the use safety of the corn powder is ensured.

The invention is realized by the following technical scheme:

a superfine corn powder processing device is characterized by comprising a corn storage bin (1), a primary residue removing machine (2), a secondary residue removing machine (3), a primary embryo selecting machine (4), a secondary embryo selecting machine (5), a primary crusher (6), a secondary crusher (7), a vibrating screen classifier (8) and a rack-type corn shearing and cutting machine (9) which are sequentially connected; a plurality of layers of screening nets are integrated inside the rack rail type corn slitting cutter (9);

a dust removal fan (123) is arranged at the left side end of the primary slag removal machine (2), and the dust removal fan (123) is externally connected with a water film dust removal tower (124);

a meshed isolation plate (100) is arranged on the side wall of a connecting pipeline between the corn storage bin (1) and the primary residue removing machine (2), and the connecting pipeline between the corn storage bin (1) and the primary residue removing machine (2) is communicated with a dust removal fan (123) through the meshed isolation plate (100);

the primary slag removing machine (2) and the secondary slag removing machine (3) are respectively communicated to a dust removing fan (123) through sealed pipelines;

a primary cyclone separator (41) is arranged between the primary embryo sorting machine (4) and the secondary embryo sorting machine (5), and a secondary cyclone separator (51) is arranged between the secondary embryo sorting machine (5) and the primary crusher (6);

a high-pressure blower (11) is arranged at the top of the primary crusher (6), and the air outlet of the high-pressure blower (11) is respectively communicated with the primary crusher (6), the secondary crusher (7) and the vibrating screening machine (8);

screening laminated plates are integrated inside the primary crusher (6), the secondary crusher (7) and the vibrating screening machine (8), and the bottoms of the primary crusher (6), the secondary crusher (7) and the vibrating screening machine (8) are communicated to a material slag absorption tank (10) through slag discharge pipelines;

the screening laminated plates in the primary crusher (6), the secondary crusher (7) and the vibrating screening machine (8) are increased in number in sequence.

Furthermore, a high-pressure draught fan is externally connected with the material residue absorption tank (10).

Further, a first-stage quick lock catch type discharge valve (201) is arranged on a conveying pipeline between the first-stage slag removing machine (2) and the second-stage slag removing machine (3).

Further, a second-stage quick lock catch type discharge valve (402) is arranged on a conveying pipeline between the second-stage slag removing machine (3) and the first-stage blank selecting machine (4).

Furthermore, a three-level quick lock catch type discharge valve (401) is arranged on a conveying pipeline between the primary embryo selecting machine (4) and the primary cyclone separator (41).

Furthermore, corn storage silo (1) is provided with bayonet defeated material return bend (101), is provided with defeated material pump (102) on bayonet defeated material return bend (101).

Further, the air outlet ends of the primary cyclone separator (41) and the secondary cyclone separator (51) respectively extend to the vertical floating dust collecting barrel (12).

A method for processing superfine corn powder is characterized by comprising the following steps:

step 1): inputting corn kernels for processing into a corn storage bin (1) through an inserted material conveying bent pipe (101);

step 2): starting a vacuum fan, and conveying the corn kernels input in the step 1) to a primary residue removing machine (2), a secondary residue removing machine (3), a primary embryo selecting machine (4), a secondary embryo selecting machine (5), a primary crusher (6), a secondary crusher (7), a vibrating screening machine (8) and a rack-type corn shearing machine (9) in sequence;

step 3): opening a primary cyclone separator (41) and a secondary cyclone separator (51) to clean and transfer the corn husk and germ layers generated in the processing process;

step 4): corn kernels entering the toothed rail type corn slitting device (9) are crushed and screened to obtain a corn flour finished product.

The invention provides an ultramicro corn powder processing device, which has the following beneficial effects compared with the prior art:

1. according to the ultra-fine corn powder processing device designed by the invention, the left side end of the primary residue removing machine (2) is provided with the dust removing fan (123), and the dust removing fan (123) is externally connected with the water film dust removing tower (124); a meshed isolation plate (100) is arranged on the side wall of a connecting pipeline between the corn storage bin (1) and the primary residue removing machine (2), and the connecting pipeline between the corn storage bin (1) and the primary residue removing machine (2) is communicated with a dust removal fan (123) through the meshed isolation plate (100); the primary slag removing machine (2) and the secondary slag removing machine (3) are respectively communicated to a dust removing fan (123) through sealed pipelines; above-mentioned design, the cooperation of the dust exhausting fan (123) that utilizes the design and water film gas wash tower (124), carry the dust that produces and corn deslagging in-process and corn granule surface is itself remaining dirty to clear away, realizes the dustlessness in the whole preparation process, is favorable to improving the machining efficiency of maize flour to and the whole quality of the maize flour that obtains.

2. The invention designs an ultra-fine corn powder processing device, wherein a primary cyclone separator (41) is arranged between a primary embryo sorting machine (4) and a secondary embryo sorting machine (5), and a secondary cyclone separator (51) is arranged between the secondary embryo sorting machine (5) and a primary crusher (6); above-mentioned design is convenient for in time separate the transfer to the maize embryo after cleaing away, improves the clearance, avoids the maize embryo after cleaing away to mix in the maize granule, causes the influence to obtaining maize meal purity.

3. The invention designs an ultra-fine corn powder processing device, wherein a high-pressure blower (11) is arranged at the top of a primary crusher (6), and the air outlet of the high-pressure blower (11) is respectively communicated to the primary crusher (6), a secondary crusher (7) and a vibrating screen classifier (8); screening laminated plates are integrated inside the primary crusher (6), the secondary crusher (7) and the vibrating screening machine (8), and the bottoms of the primary crusher (6), the secondary crusher (7) and the vibrating screening machine (8) are communicated to a material slag absorption tank (10) through slag discharge pipelines; the mesh number of the screening layer plates in the primary crusher (6), the secondary crusher (7) and the vibrating screening machine (8) is increased in sequence; above-mentioned design adopts the cooperation of one-level breaker (6), second grade breaker (7) and vibration screening machine (8), realizes the continuous breakage of kernel of corn, and the high-pressure wind that utilizes high-pressure hair-dryer (11) output can directly carry out further shift and clear away to the maize epidermis that produces and remaining maize embryo in the crushing process, makes finally get into rack-and-pinion formula maize and divides shear cutter (9) purity higher, provides basic raw materials for obtaining high quality, high-purity maize meal.

Drawings

FIG. 1 is a schematic view of the structure of an apparatus for processing ultra-fine corn powder designed in the present invention.

Detailed Description

The invention is further described with reference to figure 1.

The invention relates to an ultra-fine corn powder processing device which is characterized by comprising a corn storage bin (1), a primary residue removing machine (2), a secondary residue removing machine (3), a primary embryo selecting machine (4), a secondary embryo selecting machine (5), a primary crusher (6), a secondary crusher (7), a vibrating screening machine (8) and a toothed rail type corn shearing and cutting machine (9) which are connected in sequence; a plurality of layers of screening nets are integrated inside the rack rail type corn slitting cutter (9);

a dust removal fan (123) is arranged at the left side end of the primary slag removal machine (2), and the dust removal fan (123) is externally connected with a water film dust removal tower (124);

a meshed isolation plate (100) is arranged on the side wall of a connecting pipeline between the corn storage bin (1) and the primary residue removing machine (2), and the connecting pipeline between the corn storage bin (1) and the primary residue removing machine (2) is communicated with a dust removal fan (123) through the meshed isolation plate (100);

the primary slag removing machine (2) and the secondary slag removing machine (3) are respectively communicated to a dust removing fan (123) through sealed pipelines;

a primary cyclone separator (41) is arranged between the primary embryo sorting machine (4) and the secondary embryo sorting machine (5), and a secondary cyclone separator (51) is arranged between the secondary embryo sorting machine (5) and the primary crusher (6);

a high-pressure blower (11) is arranged at the top of the primary crusher (6), and the air outlet of the high-pressure blower (11) is respectively communicated with the primary crusher (6), the secondary crusher (7) and the vibrating screening machine (8);

screening laminated plates are integrated inside the primary crusher (6), the secondary crusher (7) and the vibrating screening machine (8), and the bottoms of the primary crusher (6), the secondary crusher (7) and the vibrating screening machine (8) are communicated to a material slag absorption tank (10) through slag discharge pipelines;

the screening laminated plates in the primary crusher (6), the secondary crusher (7) and the vibrating screening machine (8) are increased in number in sequence.

Furthermore, a high-pressure draught fan is externally connected with the material residue absorption tank (10).

Further, a first-stage quick lock catch type discharge valve (201) is arranged on a conveying pipeline between the first-stage slag removing machine (2) and the second-stage slag removing machine (3).

Further, a second-stage quick lock catch type discharge valve (402) is arranged on a conveying pipeline between the second-stage slag removing machine (3) and the first-stage blank selecting machine (4).

Furthermore, a three-level quick lock catch type discharge valve (401) is arranged on a conveying pipeline between the primary embryo selecting machine (4) and the primary cyclone separator (41).

Furthermore, corn storage silo (1) is provided with bayonet defeated material return bend (101), is provided with defeated material pump (102) on bayonet defeated material return bend (101).

Further, the air outlet ends of the primary cyclone separator (41) and the secondary cyclone separator (51) respectively extend to the vertical floating dust collecting barrel (12).

A method for processing superfine corn powder is characterized by comprising the following steps:

step 1): inputting corn kernels for processing into a corn storage bin (1) through an inserted material conveying bent pipe (101);

step 2): starting a vacuum fan, and conveying the corn kernels input in the step 1) to a primary residue removing machine (2), a secondary residue removing machine (3), a primary embryo selecting machine (4), a secondary embryo selecting machine (5), a primary crusher (6), a secondary crusher (7), a vibrating screening machine (8) and a rack-type corn shearing machine (9) in sequence;

step 3): opening a primary cyclone separator (41) and a secondary cyclone separator (51) to clean and transfer the corn husk and germ layers generated in the processing process;

step 4): corn kernels entering the toothed rail type corn slitting device (9) are crushed and screened to obtain a corn flour finished product.

Compared with the prior art, the ultrafine corn powder processing device designed by the invention has the advantages that the left side end of the primary residue removing machine (2) is provided with the dust removing fan (123), and the dust removing fan (123) is externally connected with the water film dust removing tower (124); a meshed isolation plate (100) is arranged on the side wall of a connecting pipeline between the corn storage bin (1) and the primary residue removing machine (2), and the connecting pipeline between the corn storage bin (1) and the primary residue removing machine (2) is communicated with a dust removal fan (123) through the meshed isolation plate (100); the primary slag removing machine (2) and the secondary slag removing machine (3) are respectively communicated to a dust removing fan (123) through sealed pipelines; above-mentioned design, the cooperation of the dust exhausting fan (123) that utilizes the design and water film gas wash tower (124), carry the dust that produces and corn deslagging in-process and corn granule surface is itself remaining dirty to clear away, realizes the dustlessness in the whole preparation process, is favorable to improving the machining efficiency of maize flour to and the whole quality of the maize flour that obtains.

The invention designs an ultra-fine corn powder processing device, wherein a primary cyclone separator (41) is arranged between a primary embryo sorting machine (4) and a secondary embryo sorting machine (5), and a secondary cyclone separator (51) is arranged between the secondary embryo sorting machine (5) and a primary crusher (6); above-mentioned design is convenient for in time separate the transfer to the maize embryo after cleaing away, improves the clearance, avoids the maize embryo after cleaing away to mix in the maize granule, causes the influence to obtaining maize meal purity.

The invention designs an ultra-fine corn powder processing device, wherein a high-pressure blower (11) is arranged at the top of a primary crusher (6), and the air outlet of the high-pressure blower (11) is respectively communicated to the primary crusher (6), a secondary crusher (7) and a vibrating screen classifier (8); screening laminated plates are integrated inside the primary crusher (6), the secondary crusher (7) and the vibrating screening machine (8), and the bottoms of the primary crusher (6), the secondary crusher (7) and the vibrating screening machine (8) are communicated to a material slag absorption tank (10) through slag discharge pipelines; the mesh number of the screening layer plates in the primary crusher (6), the secondary crusher (7) and the vibrating screening machine (8) is increased in sequence; above-mentioned design adopts the cooperation of one-level breaker (6), second grade breaker (7) and vibration screening machine (8), realizes the continuous breakage of kernel of corn, and the high-pressure wind that utilizes high-pressure hair-dryer (11) output can directly carry out further shift and clear away to the maize epidermis that produces and remaining maize embryo in the crushing process, makes finally get into rack-and-pinion formula maize and divides shear cutter (9) purity higher, provides basic raw materials for obtaining high quality, high-purity maize meal.

When the corn processing device is used, corn kernels are input into the corn storage bin (1) through the inserted material conveying bent pipe (101) for processing; starting a vacuum fan, and conveying the corn kernels input in the step 1) to a primary residue removing machine (2), a secondary residue removing machine (3), a primary embryo selecting machine (4), a secondary embryo selecting machine (5), a primary crusher (6), a secondary crusher (7), a vibrating screening machine (8) and a rack-type corn shearing machine (9) in sequence; opening a primary cyclone separator (41) and a secondary cyclone separator (51) to clean and transfer the corn husk and germ layers generated in the processing process; corn kernels entering the toothed rail type corn slitting device (9) are crushed and screened to obtain a corn flour finished product.

The invention can be applied in light of the above description.

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 person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (6)

1. A superfine corn powder processing device is characterized by comprising a corn storage bin (1), a primary residue removing machine (2), a secondary residue removing machine (3), a primary embryo selecting machine (4), a secondary embryo selecting machine (5), a primary crusher (6), a secondary crusher (7), a vibrating screen classifier (8) and a rack-type corn shearing and cutting machine (9) which are sequentially connected; a plurality of layers of screening nets are integrated inside the rack rail type corn slitting cutter (9);

a dust removal fan (123) is arranged at the left side end of the primary slag removal machine (2), and the dust removal fan (123) is externally connected with a water film dust removal tower (124);

a meshed isolation plate (100) is arranged on the side wall of a connecting pipeline between the corn storage bin (1) and the primary residue removing machine (2), and the connecting pipeline between the corn storage bin (1) and the primary residue removing machine (2) is communicated with a dust removal fan (123) through the meshed isolation plate (100);

the primary slag removing machine (2) and the secondary slag removing machine (3) are respectively communicated to a dust removing fan (123) through sealed pipelines;

a primary cyclone separator (41) is arranged between the primary embryo sorting machine (4) and the secondary embryo sorting machine (5), and a secondary cyclone separator (51) is arranged between the secondary embryo sorting machine (5) and the primary crusher (6);

the top of the primary crusher (6) is provided with a high-pressure blower (11), the air outlet of the high-pressure blower (11) is respectively communicated with the primary crusher (6), the secondary crusher (7) and the vibrating screening machine (8), screening laminates are integrated inside the primary crusher (6), the secondary crusher (7) and the vibrating screening machine (8), the bottoms of the primary crusher (6), the secondary crusher (7) and the vibrating screening machine (8) are communicated with a slag absorption tank (10) through slag discharge pipelines, and the number of the screening laminates inside the primary crusher (6), the secondary crusher (7) and the vibrating screening machine (8) is increased in sequence;

the corn storage bin (1) is provided with an inserted material conveying bent pipe (101), and a material conveying pump (102) is arranged on the inserted material conveying bent pipe (101);

the air outlet ends of the primary cyclone separator (41) and the secondary cyclone separator (51) respectively extend to the vertical floating dust collecting barrel (12).

2. The apparatus for processing ultra-fine corn meal according to claim 1, wherein the slag absorption tank (10) is externally connected with a high-pressure induced draft fan.

3. The apparatus for processing ultra-fine corn flour as claimed in claim 1, wherein a first quick lock catch type discharge valve (201) is provided on the transportation pipeline between the first stage residue remover (2) and the second stage residue remover (3).

4. The ultra-fine corn flour processing device according to claim 1, wherein a secondary quick lock type discharge valve (402) is arranged on the conveying pipeline between the secondary deslagging machine (3) and the primary embryo selecting machine (4).

5. The apparatus for processing ultra-fine corn flour as claimed in claim 1, wherein a three-stage quick lock type discharge valve (401) is provided on the transportation pipeline between the primary embryo separator (4) and the primary cyclone separator (41).

6. A method for processing ultra-fine corn flour using the apparatus of claim 1, comprising the steps of:

step 1): inputting corn kernels for processing into a corn storage bin (1) through an inserted material conveying bent pipe (101);

step 2): starting a vacuum fan, and conveying the corn kernels input in the step 1) to a primary residue removing machine (2), a secondary residue removing machine (3), a primary embryo selecting machine (4), a secondary embryo selecting machine (5), a primary crusher (6), a secondary crusher (7), a vibrating screening machine (8) and a rack-type corn shearing machine (9) in sequence;

step 3): opening a primary cyclone separator (41) and a secondary cyclone separator (51) to clean and transfer the corn husk and germ layers generated in the processing process;

step 4): corn kernels entering the toothed rail type corn slitting device (9) are crushed and screened to obtain a corn flour finished product.

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