KR19980073288A - Distributor Plate of Classifier Centrifugal Rotor - Google Patents

Abstract

The present invention is to supply the raw material pulverized in the crusher from the powder inlet to disperse the raw material by centrifugal force and to send it to the classification chamber, and in particular, while the raw material introduced into the top plate of the centrifugal rotor to smoothly disperse, The present invention relates to a dispersion plate of a classifier centrifugal rotor which prevents coarse powder from being mixed and improves classification efficiency. The upper plate of the centrifugal rotor (3) rotated in accordance with the rotation of the central shaft (2) is discharged upward. Air sealing between the flat plate portion 10 of the disk-shaped discharge port 11 is formed in the center and the fine portion discharge pipe (4) formed protruding upwards along a predetermined radius on the upper surface of the flat plate portion 10 is installed thereon Comprising an annular partition wall 20 to form a hole (A), and the dispersion pieces 30 are radially attached to the upper surface of the plate portion at regular intervals, the partition While the wing pieces 40 are vertically mounted upwardly at equal intervals around the outer circumferential surface of the 20, the outer side 41 lower portion of the wing pieces 40 has an inner end portion 31 of the dispersion pieces 30. It is to be molded integrally with.

Description

Distributor Plate of Classifier Centrifugal Rotor

The present invention is to separate the raw material pulverized in the pulverizer from the powder inlet to the crude powder and centrifugation by centrifugal separation by centrifugal force, in particular, while smoothly dispersing the raw material introduced into the top plate of the centrifugal rotor The present invention relates to a dispersion plate of a classifier centrifugal rotor, which prevents coarse powder from being mixed in separated fractions to improve classification efficiency.

As shown in FIG. 1, the dispersion plate 1 of the centrifugal rotor of the conventional classifier is an upper structure of the centrifugal rotor 3 that rotates in accordance with the rotation of the central shaft 2, and the discharge port from which the fraction is discharged upwards ( An air sealing hole (11) is formed between the disk-shaped flat plate portion 10 is formed in the center and the top portion of the flat plate portion 10 is formed protruding upwards along a predetermined radius and installed in the upper portion of the flat discharge pipe (4). It consists of an annular partition wall 20 to achieve A) and dispersion pieces 30 radially attached to the upper surface of the flat plate 10 at regular intervals.

The conventional structure configured as described above serves to disperse raw materials by the dispersion pieces 30 radially attached to the upper portion of the flat plate portion 10 at regular intervals as the dispersion plate 1 is rotated. The partition wall 20 rotated according to the rotation of the flat plate part 10 forms a minute gap between the lower end of the circumferential discharge pipe 4, which is a fixed body installed on the upper part, and the shielding wall 4a formed on the outer circumferential surface of the lower end thereof. By forming the air layer in the air sealing hole (A) it serves to prevent the inflow of the coarse fractions classified in the classification chamber.

Therefore, in the conventional dispersion plate, the partition pieces 20 are disposed on the inner circumferential surface of the plate portion 10 while smoothly dispersing the raw materials by attaching the dispersion pieces 30 radially attached to the upper portion of the plate portion 10 at regular intervals. It is true that the air layer is formed in the fine air sealing hole (A) between the lower end portions of the fractional discharge pipe (4) which is formed at the upper portion and is installed on the upper portion thereof, thereby preventing the inflow of classified powders in the classification chamber. .

However, when the number of revolutions of the centrifugal rotor 3 is increased in order to obtain the fine powder in the classification process of the classification raw material, the partition wall 20 and the fraction discharge pipe 4 rotated integrally with the centrifugal rotor 3 are separated. As the air layer becomes thin in the air sealing hole (A) between the lower ends, a reverse flow phenomenon occurs in which external air is introduced, so that the coarse powder flows into the refinery discharge pipe (4) together with the air flowing back through the air sealing hole (A). There was a problem that is mixed with the already separated fractions.

An object of the present invention is to prevent the mixing of coarse powder by preventing the backflow of the air layer inside the air sealing hole formed finely between the lower end of the fractional discharge pipe installed in the upper part even when the rotation speed of the centrifugal rotor is increased It is to provide a dispersion plate of the rotor.

Still another object of the present invention is to smoothly disperse the raw material introduced into the upper surface of the flat plate portion 10 by the wing pieces 40 and the dispersion pieces 30.

1 is an overall cross-sectional view of a classifier illustrating a state where a conventional centrifugal rotor is installed;

Figure 2 is a full cross-sectional view of the classifier illustrating a state in which the centrifugal rotor of the present invention is installed

Figure 3 is a partial excerpt perspective view of the present invention

4 is a top view of FIG. 3

* Explanation of symbols for the main parts of the drawings

DESCRIPTION OF REFERENCE NUMERALS 1 dispersion plate, 2 central shaft rod, 3 centrifugal rotor, 3a top plate, 3b bottom plate, 3c blade, 4 part discharge pipe, 4a shield wall, 10 flat plate, 11 outlet port, 20 compartment Wall, 30: dispersion piece, 31: inner end, 40: wing piece, 41: outer side, A: air sealing hole

Hereinafter, the technical configuration of the present invention will be described.

Dispersion plate (1) of the classifier centrifugal rotor of the present invention is the top plate of the centrifugal rotor (3) of the classifier rotated together with the rotation of the central shaft (2), the discharge port 11 is discharged upwardly Air sealing hole (A) between the disk-shaped flat plate portion 10 is formed in the center and the top portion of the flat plate portion 10 is formed protruding upwards along a predetermined radius and installed in the upper portion of the flat discharge pipe (4) Consisting of an annular partition wall 20 to be formed, and the dispersion pieces 30 radially attached to the upper surface of the flat plate at regular intervals, there is no difference from the conventional technical concept.

However, the present invention is attached to the wing piece 40 which is vertically mounted upward at equal intervals around the outer circumferential surface of the partition wall 20, the lower side of the outer side 41 of the wing piece 40 is the dispersion piece ( It is characterized in that it is molded integrally with the inner end 31 of the 30.

As such, the present invention is configured such that the wing pieces 40 which are vertically erected at equal intervals around the outer circumferential surface of the partition wall 20 are attached, the lower side of the outer side 41 of the dispersion piece 30 By integrally molding on the inner end 31 of the field, the blade pieces 40 smoothly disperse the raw materials falling to the dispersion plate 1 through the powder inlet, and also increase the number of revolutions of the centrifugal rotor. Since air is generated to the outside of the air sealing hole (A) it prevents the backflow of the inner air layer to prevent the mixing of coarse powder.

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

In the embodiment of the present invention, as shown in Figure 2, the outlet portion 11 is discharged upwardly formed in the center portion of the centrifugal rotor upper plate of the classifier rotated together with the rotation of the central shaft (2) An annular plate 10 is formed in an annular shape so as to form an air sealing hole A between the flat plate portion 10 and an upper portion of the flat plate portion 10 which is formed to protrude upward along a predetermined radius and the fractional discharge pipe 4 installed thereon. Comprising a partition wall 20 and the dispersion pieces 30 which are radially attached to the upper surface of the flat plate at regular intervals, the partition wall 20 is vertically erected vertically around the outer circumferential surface of the partition wall 20 As the wing pieces 40 are attached, the lower side of the outer side 41 of the wing pieces 40 is integrally formed with the inner end 31 of the dispersion pieces 30 to implement the basic technical idea of the present invention. will be.

As shown in FIG. 2, the flat plate portion 10 includes a top plate 3a and a bottom plate 3b and a top plate of a centrifugal rotor 3 including a blade 3c for interconnecting the upper and lower plates. It is a structural part.

In addition, an outlet 11 is formed in the central portion of the centrifugal rotor 3 so that the fraction discharge pipe 4 can be fitted upward.

Therefore, when the centrifugal rotor 3, which receives power from the central shaft rod 2, is rotated, the flat plate portion 10 also rotates together.

The partition wall 20 protrudes upward along a predetermined radius on the upper surface of the flat plate 10, and a shielding wall protruding horizontally outward from the lower end of the circumferential discharge pipe 4, which is a fixed body installed at the upper side thereof, and the lower end of the flat wall 10. It is a structural part to form a fine air sealing hole (A) between 4a).

As shown in FIG. 3, the dispersion piece 30 is radially installed at regular intervals on the upper surface of the flat plate 10 to smoothly disperse the raw material introduced through the powder inlet 11. .

On the other hand, the dispersion piece 30 may be a straight line formed in a straight line, it may be a folding type bent in the reverse rotation direction near the circumference, may be made of other spiral shape, etc., and also toward the center direction It may be formed to be inclined upward.

As shown in FIG. 3, the wing pieces 40 are vertically erected upwardly at equal intervals around the outer circumferential surface of the partition wall 20, and the lower portion of the outer side 41 of the wing pieces 40 is dispersed in the above. It is a structural part molded integrally with the piece 30.

Therefore, the wing piece 40 is attached to the periphery of the outer circumferential surface of the partition wall 20 forming the air sealing hole (A), and when rotated to cause wind to the outside of the air sealing hole (A) air sealing hole (A) This prevents the back of the air layer inside.

In addition, the wing piece 40 is integrally molded with the lower portion of the outer side 41 of the dispersion piece 30.

That is, when manufacturing the wing piece 40, instead of manufacturing it as a separate part, it is molded integrally with the dispersion piece 30 so that the dispersion piece 30 and the wing piece 40 are made into one part to form the flat plate 10 and It is to be welded against the partition wall 20 has the advantage of easy manufacturing.

At this time, the wing piece 40, as shown in Figure 4, in the embodiment of the present invention has been shown to have been made in the form of a square having the same thickness as the dispersion piece 30, but only one side of each angle Note that they may be rounded or rounded on both sides.

On the other hand, a detailed description of the other components of the classifier is omitted in the present invention because it is described in detail in the specification filed with the present invention.

In this way, the present invention is constructed and implemented by the wing pieces 40 are vertically attached at regular intervals around the outer circumferential surface of the partition wall 20 forming the air sealing hole (A), first, with a centrifugal rotor It is rotated to cause wind to the outside of the air sealing hole (A) to prevent the back of the air layer inside the air sealing hole (A) has the effect of preventing the mixing of powder, and second, to produce the wing piece (40) In this case, the dispersion piece 30 is made of a single part and molded integrally to be welded against the partition wall 20 and the flat plate part 10 so as to be easily manufactured, and also by the dispersion pieces 30. It has the effect of smoothly dispersing the raw material introduced into the upper surface of 10).

Claims (1)

As the centrifugal rotor upper plate of the classifier that rotates in accordance with the rotation of the central shaft (2), a disk-shaped flat plate portion 10, the discharge port 11 is discharged upwardly formed in the center and the flat plate portion 10 An annular partition wall 20 protruding upwardly along a predetermined radius on an upper surface of the upper surface of the upper portion of the flat portion to form an air sealing hole A between the fractional discharge pipes 4 installed at the upper portion thereof, and radially at regular intervals on the upper surface of the flat plate. In the configuration consisting of the dispersing pieces 30 attached to the outside, the outer side of the wing piece 40 while the wing pieces 40 which are vertically erected upright at equal intervals are attached around the outer circumferential surface of the partition wall 20. Dispersion plate of the classifier centrifugal rotor, characterized in that the lower side (41) is molded integrally with the inner end portion 31 of the dispersion pieces (30).