KR920000245Y1 - Apparatus of dividing powder - Google Patents

Abstract

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Description

Classifier

1 is a side cross-sectional view of the classifier of the present invention.

2 is a perspective view of a sample container stand of the classifier of the present invention.

* Explanation of symbols for the main parts of the drawings

1 Stirrer 2 Stirring Tank

3: propeller 4: stirring shaft

5: stirring motor 6: hole

7, 10: valve 8: passage

9: sedimentation tank 11: outflow passage

12: powder collecting unit 14: support plate

15: sample container

The present invention relates to a device for classifying powders, and more particularly, by stirring and spraying agglomerated powders, and then spraying the powders on water or a viscous liquid substance to settle in order of particle size. It relates to a classification apparatus for powders so that they can be collected in the same size.

In order to evaluate the characteristics of the powder or to expand its field of application, it is necessary to analyze the powder. However, the powder has a different effect on each process when mixed with other compounds according to its size. Sort by size and collect.

For example, on the inner surface of the color cathode ray tube, three color phosphors are applied for color reproduction at the positions where three electron beams emitted from the electron gun are allocated by a color selection mask called a shadow mask. In order to accurately know the red, green, and blue phosphor characteristics, characteristics should be evaluated according to the particle size.

Conventionally, a so-called wind classification system is used to scatter powder using wind as a method of classifying powder.

This method is to classify powders by size by using different particle scattering distances of powders with large particles and powders with small particles when the powder is scattered by the wind. In the case of inconsistency or when the powder is partially aggregated, there is a problem in that the desired classification cannot be expected.

In addition, since the classification of the powder is inadequate when a large amount of classification is required, it has been classified into large particles and small particles until now.

In this way, if the collected samples are collected and the characteristics of the powder are evaluated, the effects of the particles on the process cannot be grasped properly.On the basis of the data obtained in this state, the process or the research data are satisfied. No obvious results will be obtained.

The present invention has been made to solve the problems of the prior art as described above, the object of the present invention is to classify the powder characteristics of the powder separation device that allows the user to accurately evaluate the characteristics of the powder by separating from the powder compound of different particle diameters To provide.

In order to achieve the object as described above, the present invention, the propeller is installed at the end of the stirring shaft and the stirring shaft is rotated by the drive of the stirring motor is located, a plurality of holes and a valve passage is installed A stirrer composed of a stirring tank formed at a lower end thereof, a settling tank having an outlet passage in which the passage is located above and a valve is installed below, and a plurality of sample containers are installed on the same circumference and driven Provided is a classification apparatus for powder consisting of a powder collecting part for holding a support plate rotatably installed in accordance with driving of a motor.

The above-mentioned powder classifying device can make the scattering of the powder more effective if the passage is formed narrower toward the bottom.

In addition, the present invention can obtain the effect that the sedimentation of the powder is subdivided by particle diameter if the ratio of the diameter and height of the sedimentation tank is 1: 3-10.

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

1 is a cross-sectional view of the powder classifying apparatus of the present invention, and FIG. 2 is a perspective view showing a state in which a sample container is installed on a pedestal, and the reference numeral 1 denotes a stirrer.

The stirrer 1 consists of the stirring shaft 4 in which the propeller 3 of the stirring tank 2 in which a powder system is contained is provided in the end, and the stirring motor 5 which rotates this stirring shaft 4.

The bevel gear G1 is axially installed at the upper end of the stirring shaft 4 and is coupled to another bevel gear G2 provided on the driving shaft of the stirring motor 5.

A plurality of holes 6 are drilled under the stirring dunk 2 and a passage 8 provided with a valve 7 for controlling the supply of powder is integrally formed. If the passage 8 is gradually narrowed downward to form a "V" shape, the scattering efficiency of the powder can be increased.

The valve 7 may be an electrically controlled solenoid valve or an electronic direction control valve.

Reference numeral 9 denotes a sedimentation tank, and an outflow passage 11 provided with the same valve 10 as the above-described valve 7 is integrally formed below.

In the sedimentation tank 9, increasing the height of the sedimentation tank 9 can effectively classify the powder during sedimentation.

The ratio of the diameter and height of the sedimentation tank 9 is preferably 1: 3-10, and when made of a synthetic resin such as transparent acrylic, it is efficient to check the sedimentation state from the outside.

The powder collecting part 12 is installed below the settling tank 9.

The powder collecting part 12 is composed of a drive motor 13 and a support plate 14, and a bevel gear 64 is installed on the drive shaft of the drive motor 13 so that another bevel gear installed on the support plate 14 ( It is geared with G3).

A plurality of sample containers 15 are equally arranged on the same circumference of the base surface of the support plate 14.

The sample container 15 is inserted into and installed in the pocket 16 protruding from the support plate 14 so that no shaking occurs during rotation and is always at a constant position.

Since the sample container 15 is divided into a plurality of parts, the driving motor 13 for rotating the sample container 15 may use a stem motor whose rotation angle is controlled.

The powder classifying apparatus of the present invention, which is constituted as described above, first inserts powder into the stirring tank 2 while the valve 7 of the stirrer 1 is locked, and then drives the stirring motor 5 to stir the stirring shaft 4. As the c) rotates, the propeller 3 rotates to stir the powder in the stirring tank 2.

After stirring for a predetermined time in this state, when the valve 7 is opened, the powders dispersed in the stirring tank 2 are pushed toward the passage 8 by their own weight and start to scatter through the hole 6.

The powder scattered in such a state starts to sediment evenly into the water contained in the settling tank 9, and as time passes, the large particles are placed at the bottom of the settling tank 9, and the particle size is placed thereon. Gradually small powder is placed.

At this time, if a dispersion such as barium acetate [Ba (CH3 COO) 2] is added, the effect is dispersed.

However, the powder of the sample having a large particle size is settled rapidly, so that accurate classification is not achieved. In this case, a viscous liquid substance may be put into the stirring tank 9 and used.

In this way, when the powder is classified and placed in the order of particle size in the stirring tank 9, the valve 10 is opened.

Then, the sedimented powders in the stirring tank 9 are discharged through the outflow passage 11 to be contained in the sample container 15 located below.

In this manner, when the large particles are discharged, the valve 10 is locked and the driving motor 13 is driven, and the support plate 14 is rotated so that the other sample container 15 is discharged. ) Is stopped on the same vertical line.

This action is possible because the rotation angle of the support plate 14 is constant by using the drive motor 13 as a stem motor.

As described above, when the other sample organ 5 is positioned below the outlet passage 11, the valve 10 is opened again to contain the second-large powder and to close the valve 10 again.

In this manner, when the powder settled in the settling tank 9 is contained in the sample container 15, it can be contained in the order of particle size.

As described above, the classification apparatus of the present invention prides and disperses the aggregated powder and then scatters it in the settling tank to settle the particles in the order of particle size, and again discharges the settled powder by particle size and collects it in the sample container, thereby classifying by size It is possible to obtain the powder of the size desired by the user, and thus it is possible to accurately evaluate the characteristics of the powder.

Claims (2)

When the end of the propeller 3 is installed and the stirring shaft 4 is rotated by the driving of the stirring motor 5 and the stirring shaft 4 is positioned, a plurality of holes 6 are drilled, and a valve ( Agitator (1) consisting of a stirring tank (2) formed at the lower end of the passage (8) where the 7 is installed, and the passage (8) is located in the upper portion, the outflow of the valve 10 is installed at the bottom A powder collecting part having a sedimentation tank 9 having a passage 11 and a plurality of sample containers 15 are installed on the same winch and a support plate 14 which is rotatably installed in accordance with driving of a driving motor. 12) A classification apparatus of powder, characterized in that consisting of. 2. The apparatus as claimed in claim 1, characterized in that the passage (8) is made smaller and smaller toward the bottom to form a "V" shape.