KR101190289B1 - High Speed Mixer For Nickel Pulverization - Google Patents

Abstract

The present invention relates to a high-speed mixer for pulverizing nickel metal, and more particularly, to a mixer for crushing nickel metal in the form of agglomerates, the tube body being hollow and having a pair of bearings provided therein and a fastening portion formed on an outer surface thereof. Is disposed in the longitudinal direction inside the tube body and the rotating shaft rotatably installed in the bearing and the mechanical seal is installed to maintain the watertight between the rotary shaft and the tube body and the upper end of the tube body to rotate the rotating shaft It is installed at the lower end of the drive motor and the tube main body and has a nickel inlet part having a plurality of inlets on the outer surface, and is installed at the lower end of the rotating shaft, and provided with a plurality of crushing wings on the outer surface to crush the nickel metal and an induction groove formed on the upper surface. The rotor and the rotor surround the rotor and are fastened to the nickel inlet and have a plurality of outlets formed on the outer surface thereof. It is installed so as to keep the watertight portion in the fastening part while surrounding the lean and the lower part of the tube body, and consists of a housing having a crushing space in which nickel metal and fluid are filled therein. As a result, the grinding efficiency is improved, thereby enabling mass production and reducing production costs.

Description

High Speed Mixer For Nickel Pulverization}

The present invention relates to a high-speed mixer for pulverizing nickel metal, and more particularly, having a rotor and a circulating rotor for pulverizing a metal to a nanometer size. The present invention relates to a high-speed mixer for crushing nickel metal that can be mass-produced to reduce production costs.

Generally, metal (nickel) agglomerates are used in the form of nanoparticles to study and commercialize cutting-edge technologies such as pharmaceuticals, fine chemicals, cosmetics, foods, and life cycles.

The pulverization of such metals into nanoparticles is widely carried out by techniques for preparing nanoparticles in the gas phase, such as aerosol method and evaporation / condensation method, and coprecipitation method for preparing metal nanoparticles by mixing a solution containing a reducing agent in a metal ion solution. Developed.

However, in the case of the vapor phase method, mass production is impossible and the nanoparticle manufacturing cost is not widely used industrially, and the coprecipitation method has a simple manufacturing process, but the size of the obtained metal particles is difficult to crush into the nanometer range.

As an alternative to the coprecipitation method and the vapor phase method, various techniques such as ultrasonic method, microemulsion method, cavitation processing, and high energy ball milling have recently been reported in the literature, but the efficiency of manufacturing nano metal particles in large quantities is low and the manufacturing cost is excessive. It is happening. Although the nano-metal particles are industrially important, they are not yet widely used in the industry.

Recently, the industrial importance of the nano-metal particles is recognized, the production of a large number of them, and economically commercialized development of a production apparatus has been actively progressed.

The present invention was developed to meet the above-mentioned demands, and is provided with a rotor and a circulating rotor to crush the metal to a nanometer size, and the grinding efficiency is improved by the grinding due to the grinding and the collision between the metal particles by the rotor The purpose is to provide a high-speed mixer for nickel metal grinding that can be mass-produced and the production cost is reduced.

The present invention is a mixer for crushing nickel metal powder in the form of agglomerate. The mechanical shaft is installed so that the watertight is maintained between the rotating shaft and the rotating shaft and the tube body and the driving motor is installed at the upper end of the tube body to rotate the rotating shaft and the lower end of the tube body. It is installed at the lower end of the rotating shaft and the nickel inlet portion having an inlet of the plurality of blades are provided on the outer surface to crush the nickel metal, and the rotor is formed on the upper surface and the guide groove is fastened to the nickel inlet to surround the rotor The watertight part is wrapped around the screen and the lower part of the tube body in which a plurality of outlets are formed on the outer surface. Installed so support and is characterized by being a housing having a crushing space where the nickel metal and the fluid filled therein.

The rotating shaft may further include a circulation rotor having a plurality of circulation wings corresponding to the rotor, such that the crushed nickel powders collide with each other.

In addition, the crushing wing formed in the rotor is curved in the forward direction, the circulation wing formed in the circulation rotor is characterized in that the curved in the reverse direction.

In addition, the upper portion of the circulation rotor is further provided with a cutting rotor having a plurality of cutting blades so as to first crush the lumped nickel metal flowing into the inlet is characterized in that it is prevented from being caught during the process of being crushed by the rotor. It is done.

High speed mixer for pulverizing nickel metal of the present invention is provided with a rotor and a circulating rotor to pulverize metal to nanometer size, and the pulverization efficiency is improved by pulverization due to pulverization and collision between metal particles by the rotor, thereby enabling mass production. Cost savings

1 is a cross-sectional view showing a high speed mixer for nickel metal grinding according to the present invention,
Figure 2 is a plan view showing a rotor in the high speed mixer for nickel metal grinding according to the present invention.
3 is a view showing another embodiment of a high speed mixer for nickel metal grinding according to the present invention.
4 is a view showing another embodiment of a high speed mixer for nickel metal grinding according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of a high-speed mixer for nickel metal grinding according to the present invention with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions in the present invention, and this may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

In addition, the following examples are not intended to limit the scope of the present invention but merely presented by way of example, and there may be various embodiments implemented through the present invention.

1 is a cross-sectional view showing a high-speed mixer for nickel metal grinding according to the present invention, Figure 2 is a plan view showing a rotor in the high-speed mixer for nickel metal grinding according to the present invention.

As shown in the drawings, the high speed mixer 10 (hereinafter, high speed mixer) for pulverizing the nickel metal of the present invention is to crush the nickel metal in the form of agglomerate in powder form, and the high speed mixer 10 has a tube body 20 and a rotating shaft. 30, the mechasil 40, the drive motor 50, the nickel inlet 60, the rotor 70, the screen 80, and the housing 90.

The tube body 20 is made of a metal material and is formed in the form of a hollow tube, inside a pair of bearings 21 are installed to correspond to each other up and down, the outer surface is formed with a ring-shaped fastening portion 22 on the upper side The housing 90 is fastened to the fastening part 22 so that watertightness is maintained.

The rotary shaft 30 is disposed in the longitudinal direction inside the tube body 20 and rotatably installed on the bearing 21, the mecha seal 40 is the rotary shaft 30 and the tube body 20 Watertight is installed between the), the drive motor 50 is installed on the upper end of the tube body 20 to rotate the rotary shaft (30).

The nickel inlet 60 is formed in a tubular shape, welded or bolted to the lower end of the tube body 20, and a plurality of inlets 61 are formed on an outer surface thereof. At this time, it is also possible to form a screw thread (not shown) on the lower outer surface of the tube main body 20 and the inner circumference of the nickel inlet portion 60 so as to screw the top.

The rotor 70 is installed at the lower end of the rotating shaft 30 and rotated in conjunction with the rotating shaft 30 by the operation of the drive motor 50, the plurality of shredding blades 71 on the outer surface to crush the nickel metal ) Is provided and the guide groove 72 is formed on the upper surface.

The screen 80 is welded or bolted to the lower portion of the nickel inlet 60 while surrounding the rotor 70 and a plurality of outlets 81 are formed on the outer surface. This screen 80 is formed to be tapered downward. At this time, a screw portion (not shown) is formed on the inner circumference of the nickel inflow portion 60 and the outer circumference of the screen 80 so that the screen 80 surrounds the rotor 70 while the nickel inflow portion 60 is formed. It is also possible to screw on).

In addition, the rotor 70 is formed to be inclined downward on one side so that the shredding blade 71 is rotated in the tapered screen 80. At this time, forming the screen 80 to be tapered and to form one side of the crushing blade 71 to be inclined, filling the housing 90 with a nickel metal mass and a fluid having a viscosity, the area is reduced to the rotor The resistance caused by the rotation of 70 can be reduced.

The housing 90 is installed to surround the lower portion of the tube body 20 so that the fastening portion 22 is kept watertight, and a crushing space in which the nickel metal and the fluid are filled is formed therein.

At this time, the housing 90 is screwed to the fastening portion 22, it is also possible to fasten the bolt. In addition, the jaw portion is formed in the housing 90, and the water-tight ring is disposed on the jaw portion, and then, the fastening portion 22 is fastened to maintain watertightness.

Here, the housing 90 is filled with a fluid and nickel metal lumps therein, the fluid may be used as long as the fluid is viscous, and the size of the nickel metal lumps are to pass through the inlet 61 It does not suggest its size.

The high speed mixer 10 for pulverizing nickel metal configured as described above first inserts a fluid and nickel metal into the housing 90, and then fastens the housing 90 to the tube body 20 and the driving motor 50. Rotate the rotating shaft 30 by operating.

Then, the rotor 70 is rotated by the rotating shaft 30, the fluid is vortexed and the nickel metal lump is moved with the fluid is crushed by the rotor 70, which is introduced through the inlet 61 and rotates at a high speed. After being discharged through the discharge port 81 of the screen 80 and again, the process of pulverizing while repeating the process of moving to the inlet 61 again, after a predetermined time elapses the housing 90 pipe main body 20 After separation from the metal pulverized metal nickel extracted in the fluid and dried to obtain a metal nickel in powder form.

In this case, an induction groove 72 is formed in the rotor 70 so that fluid rotates about the induction groove 72 when rotated, so that nickel metal is guided in the rotor direction through the inlet.

3 is a view showing another embodiment of a high speed mixer for nickel metal grinding according to the present invention.

As illustrated in the drawings, the rotor 70 is installed on the rotation shaft 30 to crush the nickel metal lumps by the rotation of the rotor 70, but the description and drawings are not limited thereto.

For example, the rotation shaft 30 is further provided with a circulation rotor 100 having a plurality of circulation wings 110 to correspond to the rotor 50 so that the crushed nickel powders collide with each other.

That is, before the nickel metal lumps are crushed by the rotor 50 or the crushed nickel metal lumps are collided with each other and crushed by the circulation wing 110, the circulation rotor (above the upper side of the rotor 50). 100 is formed, but the circulation rotor 100 is formed in the same shape as the rotor 70 and is formed in half the size compared to the size of the rotor 70, one side is inclined downward One side of the circulation wing 110 is inclined upward to correspond to the crushing wing 71.

In addition, it is preferable to form the inlet groove 120 in the upper portion of the circulation rotor 100 to guide the fluid during rotation.

In this case, the shredding blade 71 formed in the rotor 70 may be curved in the forward direction, and the circular blade 110 formed in the circulation rotor 100 may be curved in the reverse direction.

That is, by reducing the friction by forming the curved blade 71 and the circular blade 110 to be curved, increase the rotational speed of the swirling fluid to increase the fracture efficiency by the collision and to form a curved curve in a symmetrical direction By intersecting the vortex direction, it is collided in the opposite direction to increase the crushing efficiency.

4 is a view showing another embodiment of a high speed mixer for nickel metal grinding according to the present invention.

Referring to FIG. 4, in the above description, the nickel metal lump is crushed by the rotor 70 and the circulation rotor 100, but is not limited thereto.

For example, a cutting rotor 200 having a plurality of cutting blades 210 is further installed on the upper portion of the circulation rotor 100 so as to primary crush the lumped nickel metal flowing into the inlet 61. During the grinding process by the rotor 70, the nickel metal lump is prevented from being caught between the crushed wing and the outlet.

10: high speed mixer 20: pipe main body
30: rotation axis 40: mechasil
50: drive motor 60: nickel inlet
70: rotor 80: screen
90 housing 100 circulation rotor
200: cutting rotor 21: bearing
22: fastening portion 61: inlet
71: broken wing 72: guide groove
81: outlet 110: circular wing
111: inlet groove 210: cutting wing

Claims (4)

A mixer for crushing nickel metal in the form of agglomerates,
A hollow body having a pair of bearings provided therein and a fastening portion formed on an outer surface thereof;
A rotation shaft disposed in the longitudinal direction inside the tube body and rotatably installed on the bearing;
Mecha seal is installed so that the watertight is maintained between the rotating shaft and the tube body;
A drive motor installed at an upper end of the tube body to rotate the rotating shaft;
A nickel inlet unit installed at a lower end of the tube body and having a plurality of inlets on an outer surface thereof;
A rotor installed at a lower end of the rotating shaft and provided with a plurality of crushing blades on an outer surface thereof to crush the nickel metal, and a guide groove formed on an upper surface thereof;
A screen that is fastened to the nickel inlet part while surrounding the rotor and having a plurality of outlets formed on an outer surface thereof; And
The high-speed mixer for crushing nickel metal, characterized in that the housing is formed to surround the lower portion of the tube body to maintain the watertightness in the fastening portion and to form a shredding space in which the nickel metal and the fluid are filled.
The method of claim 1,
The rotating shaft is provided with a plurality of circulation rotors having a plurality of circulation wings to correspond to the rotor to break the nickel powder crushed nickel powder, characterized in that the mutual collision.
delete The method of claim 2,
An upper portion of the circulation rotor is further provided with a cutting rotor having a plurality of cutting blades so as to primary crush the lumped nickel metal flowing into the inlet is characterized in that it prevents the jam during the process of being crushed by the rotor. High speed mixer for grinding nickel metal.

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