KR100595474B1 - Method for manufacturing pouder by using of sericite - Google Patents

Abstract

The present invention relates to a powder production method using the mica.

The present invention is a gemstone input step (S10) for collecting only the stiff feldspar and supplying it to the hopper; A primary grinding step (S20) of grinding the sorghum gemstone (3) supplied to the hopper (1) to a size of 0.1 to 40 mm in diameter using a 100 ton Krasher (2); A secondary grinding step (S30) of grinding the raw stone crushed through the first grinding step (S20) to a size of 0.1 to 15 mm in diameter using a 50-ton Krasher 4; The sorghum pulverized product pulverized through the secondary crushing process (S30) is screened through a screen sorter (5), and the pulverized material having a diameter of 2 to 15 mm is repulverized by the hammacrascher (6) to screen sorter (5). Primary screening step (S40) and to pass again; At least 10 mesh having a diameter of 0.1 to 5 mm in the primary screening process (S40) is supplied to the silo (7), and a drying process (S50) to dry at 400 to 600 ° C. in the dry kilton (8). ; Secondary screening for sorting the grains of 10 or more meshes that are dried through the drying process (S50) by particles through each screen (9) (10) (11) having 30 meshes, 50 meshes and 30 meshes or less. Step (S60); A silo supplying step (S70) of supplying the sorghum pulverized product selected for each particle to the silos (12) (13) and (14); Characterized in that it consists of a product packaging process (S80) for packing a certain amount of the mica crushed powder supplied to the silo.

Therefore, by crushing the raw stone of the biotite, it is packaged through the sorting and drying process to be shipped, thereby reducing the manufacturing process to increase the productivity and quality, and also to use the eco-friendly agricultural materials, cost materials, feed and electrical insulation materials, etc. According to the purpose, it is possible to selectively use the required particle size.

Functional, Cicada, Crushed, Dry

Description

Powder manufacturing method using mica {METHOD FOR MANUFACTURING POUDER BY USING OF SERICITE}             

1 is a flow chart of a powder manufacturing method according to the invention.

Figure 2 is an illustration of a powder manufacturing method according to the invention.

<Brief description of symbols for the main parts of the drawings>

S10: Raw stone injection process S20: 1st grinding process

S30: Secondary grinding process S40: 1 Secondary screening process

S50: Drying process S60: Secondary sorting process

S70: Silo Supply Process S80: Product Packaging Process

The present invention relates to a powder manufacturing method using the biotite, in particular to crush the bulky biotite gemstones to be packaged and shipped through the sorting and drying process to reduce the manufacturing process to increase the productivity and quality, and Eco-friendly agricultural materials, cost materials, feed and electrical insulation materials, such as the mica that has the necessary particle size to the appropriate use can be selected.

Generally, dense or fine scaly mica is called mica or ceriteite. The mica belongs to the monoclinic system and has white or off-white pearl luster.

In addition, although it refers to the mineral that is the main component of crystalline schist rock, especially chorionic schist rock, in recent years it may refer to clay-like fine white mica that is caused by hydrothermal action. It is less than white mica and contains more water.

These mica is used only to eat or apply to the skin to discharge human waste toxic substances out of the body and prevent aging, the release of negative ions and far infrared rays, neutralization of harmful substances, insulation materials, feed, agricultural materials and the like.

In order to apply the biotite in real life to meet a variety of purposes, can not usually be used as a gemstone itself, it is produced by using a powder pulverized to have a predetermined size (particle size) using a separate grinder.

However, in the process of crushing the raw stone using a crusher, more than necessary process and at the same time there is a lot of difficulty in classifying by particles, there is a problem that the price of the product is high while its quality is low.

The present invention has been made to solve such a problem as to crush the raw stone of the mica and then to be packaged through the sorting and drying process to be shipped, to reduce the manufacturing process to increase the productivity and quality, and also to eco-friendly agricultural materials The purpose of the present invention is to provide a powder manufacturing method using biotite, which enables consumers to appropriately purchase and use the biotite having the necessary particle size according to its purpose of use, such as cost, material, feed, and electrical insulation.

The present invention for achieving the above object is a gemstone input step (S10) for collecting only the mica stone and supply to the hopper; A primary grinding step (S20) of grinding the sorghum gemstone (3) supplied to the hopper (1) to a size of 0.1 to 40 mm in diameter using a 100 ton Krasher (2); A secondary grinding step (S30) of grinding the raw stone crushed through the first grinding step (S20) to a size of 0.1 to 15 mm in diameter using a 50-ton Krasher 4; The sorghum pulverized product pulverized through the secondary crushing process (S30) is screened through a screen sorter (5), and the pulverized material having a diameter of 2 to 15 mm is repulverized by the hammacrascher (6) to screen sorter (5). Primary screening step (S40) and to pass again; At least 10 mesh having a diameter of 0.1 to 5 mm in the primary screening process (S40) is supplied to the silo (7), and a drying process (S50) to dry at 400 to 600 ° C. in the dry kilton (8). ; Secondary screening for sorting the grains of 10 or more meshes that are dried through the drying process (S50) by particles through each screen (9) (10) (11) having 30 meshes, 50 meshes and 30 meshes or less. Step (S60); A silo supplying step (S70) of supplying the sorghum pulverized product selected for each particle to the silos (12) (13) and (14); The object is achieved by providing a powder manufacturing method using the mica, characterized in that the product packaging process (S80) containing a certain amount of crushed mica crushed powder supplied to the silo.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

Powder production method using the biotite according to the present invention, as shown in Figure 1, first, by collecting only the raw material of about 20 cm or more of the stiff mica having a certain size in the ore input step (S10) and then supplied to the hopper (1) By operating the crusher (2) having a capacity of 100 tons installed, about 0.1 ~ through the first milling process (S20) in which the biotite (3) supplied to the hopper 1 is introduced into the crusher (2) It is ground to a diameter of 40 mm (including lattice size).

Next, after the primary grinding step (S30) in the first grinding step (S20) using a crusher (4) having a capacity of 50 tons of crushed stone 0.1 to 40mm in diameter to 0.1-15mm in diameter after The pulverized mica pulverized material is screened through a screen sorter (5).

At this time, the crushed crushed crushed crushed material that is about 2 to 15mm in size again by using the Hammacrascher (6) to the first screening process (S40) to pass again through the screen sorter (5) Going through.

Next, at least 10 meshes of 0.1 to 5 mm in the primary screening process (S40) are supplied to the silo 7 in a drying process (S50), and less than 10 meshes are 400 to 600 ° C. for about a few minutes in the dry kilton (8). Dry to obtain a coarse dry powder.

Subsequently, the grains of the mica that are dried under the 10 meshes through the drying process (S50) are powdered through the respective screens 9, 10 and 11 having 30 meshes, 50 meshes and 30 meshes or less. Silo supply process (S70) to classify into a state suitable for use by use through the secondary screening process (S60) for sorting and then to supply the silo pulverized material selected for each particle to the silo (12) (13) (14) (S70) To save temporarily. At this time, the unselected mica pulverized product is pulverized again through the hammacrascher 15 and then passed through the screen (9) 10 (11).

Next, through the product packaging process (S80) to pack a certain amount of the mica crushed product supplied to the silo as a final process it is possible to obtain crushed mica powder for each particle.

Among the powders obtained through this process, the powder for chorionic mica having a size of about 2 mm can be used as an eco-friendly agricultural material to increase the intellect when spraying a certain amount to scatter in the soil, that is, the field.

In addition, when coating about 0.5mm to 325 mesh and more mesh on the inner wall of the building, it can neutralize the harmful toxic substances generated from the wall to provide a stable space, and can also be used as flooring and floor finishing materials. . It can also be used for the manufacture of building materials, animal feed, and electrical insulation.

As described above, the present invention, after crushing the raw stone of the mica, screens, dries, and packs it to have a certain mesh to be shipped, thereby reducing the manufacturing process to increase productivity and quality, and also eco-friendly agricultural materials, cost materials, feed and electricity. According to the purpose of use, such as an insulating material, it is possible to obtain the effect of allowing the consumer to appropriately purchase and use the biotite having the necessary particle size.

Claims (1)

Gemstone input step (S10) for collecting only the mica stone and supplying it to the hopper; A primary grinding step (S20) of grinding the sorghum gemstone (3) supplied to the hopper (1) to a size of 0.1 to 40 mm in diameter using a 100 ton Krasher (2); A secondary grinding step (S30) of grinding the raw stone crushed through the first grinding step (S20) to a size of 0.1 to 15 mm in diameter using a 50-ton Krasher 4; The sorghum pulverized product pulverized through the secondary crushing process (S30) is screened through a screen sorter (5), and the pulverized material having a diameter of 2 to 15 mm is repulverized by the hammacrascher (6) to screen sorter (5). Primary screening step (S40) and to pass again; At least 10 mesh having a diameter of 0.1 to 5 mm in the primary screening process (S40) is supplied to the silo (7), and a drying process (S50) to dry at 400 to 600 ° C. in the dry kilton (8). ; Secondary screening for sorting the grains of 10 or more meshes that are dried through the drying process (S50) by particles through each screen (9) (10) (11) having 30 meshes, 50 meshes and 30 meshes or less. Step (S60); A silo supplying step (S70) of supplying the sorghum pulverized product selected for each particle to the silos (12) (13) and (14); Method for producing a powder using a biotite, characterized in that the product packaging process (S80) containing a certain amount of crushed biotite crushed powder supplied to the silo.

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