KR101321078B1 - A centrifugal separator having hybrid type bush for reducing resistance force and changing caliber - Google Patents

Abstract

PURPOSE: A centrifuge with multiple bushes reducing friction force and with a varied discharge aperture is provided to drastically increase efficiency for cake discharge as the discharge of the cake is facilitated by minimizing the friction force generated. CONSTITUTION: A centrifuge with multiple bushes reducing friction force and with a varied discharge aperture is the centrifuge which is composed to install multiple bushes in a certain shape being detachable from outside of a cake discharge hole (11) which is perforated with a fixed interval along the external diameter of a ball (1). The cake discharge hole is formed in a square shape in which a lower surface is inclined in a certain angle heading to the outside from the inside of the ball to form a straight line with a rotation direction and a discharge direction of the cake. Multiple bushes, which are installed in the cake discharge hole being detachable, have a couple of side bushes which have an inclined shape in a lower part corresponding to both side shapes of the cake discharge hole; a square board shape upper bush (21) which corresponds to an upper shape and an inclined part which corresponds to a lower surface shape inclined; an inner ball side covering part with a shape which surrounds the inner ball and the parts are installs in the cake discharge hole in a fixed order through bolts from the outside of the ball by molding as the lower surface bush which is equipped with a solid bottom allowing detachment.

Description

A centrifugal separator having hybrid type bush for reducing resistance force and changing caliber}

The present invention relates to a centrifugal separator having a frictional force reduction and a variable discharge diameter multiple bush, and more particularly, a cake discharge port formed in a ball of the centrifuge so that one surface of the centrifuge forms a straight line with the rotation direction and the discharge direction of the cake. The multi-bush, which is formed into a quadrangle having a photographic surface and is installed to be interchangeable with the cake outlet from the outside, is also configured to have a rectangular cylindrical shape by being assembled on the upper surface, the inclined surface and both sides, respectively, but the bush installed on the upper surface has a variable installation position. By making it easy to discharge the cake, the wear of multiple bushes can be minimized, and the diameter of the discharge port (ie, the inner diameter) can be arbitrarily adjusted in consideration of the concentration and discharge amount of the cake. To invent it.

Generally, one of the most difficult problems in the treatment of manure, livestock wastewater and high concentration organic wastewater is solid-liquid separation. Conventional solid-liquid separation is performed by screen separation such as drum screen and sieve screen, centrifugal separation using special sponge suction separation, A filter method, a vibration type solid-liquid separation device, a method of dewatering the entire liquid after the injection of the medicine, or a method of dewatering after the floating or sediment separation after the injection of the medicine.

However, such a conventional solid-liquid separation method has a problem that not only the efficiency of solid-liquid separation is low but also the phenomenon that the screen or the screen is clogged frequently due to abnormal clusters such as hair is frequently generated, .

In addition, there is a problem in that the method of dewatering after the injection of the medicines is required to dehydrate the entire amount of the wastewater, so that it is impossible to apply the system due to the complexity of the process as well as the consumption of the excessive dehydrator capacity and the chemicals.

Accordingly, in order to solve the conventional problems as described above, a solid-liquid separator or centrifugal separator using centrifugation has been recently proposed, which does not use a screen or net as in the prior art, and thus, clogging does not occur, Dehydration of the entire wastewater, such as the method of dehydration after injection, has the advantage that the complexity of the process is not required along with excessive dehydrator capacity and chemical consumption.

However, the solid-liquid separator which has been applied to the wastewater treatment facility to date among the solid-liquid separator or the centrifuge has only a simple dehydration function, which has a problem in that the uncertainty and efficiency of the solid-liquid separation fall.

In addition, such a centrifugal separator has a problem of wearing the sludge inlet and the discharge port in the step of discharging the sludge from the screw chamber or discharging the final sludge.

 That is, since most of the conventional centrifuges (for example, see FIGS. 2 and 8 of Korean Patent Publication No. 10-0740608), the sludge inlet and outlet are formed at right angles along the circumferential surface of the ball. The sludge input amount and output amount are generated more than that originally planned due to wear in the sludge inlet or output from the discharge port, so that the sludge cake cannot be made smoothly.

At this time, since the sludge contains a component that wears the steel, when the discharge port is formed in a right direction (ie, a straight hole) along the circumferential surface of the ball as described above, the sludge having a rotating shape passes through the discharge port. Since the inner surface of the discharge hole having a straight hole shape is worn, expensive balls themselves have to be frequently replaced, which causes unnecessary economic and time loss.

Accordingly, Korean Utility Model Publication No. 20-380922 (name: bush for the cake discharge port of the centrifuge) and 20-0445181 (name: multiple bush for the centrifuge having an external exchangeable variable discharge aperture) and domestic registered patent 10- 1224309 (name: sludge centrifugal separator) has a bolt or a single bush having a cylindrical shape in a discharge hole drilled in a straight line at a predetermined angle and a predetermined interval. It can be replaced by bolts so that the outlet hole formed in the ball does not wear out when the sludge or cake is discharged, but only the bush, which is a consumable, can be replaced, and the bushes that are relatively inexpensive than the ball can be replaced without replacing the entire expensive ball. To make it work.

However, a centrifuge having a configuration in which a bush having a predetermined shape is installed in the sludge or cake discharge port in this manner is also a straight hole having a hole perpendicular to the discharge hole and a bush detachably coupled thereto. As the sludge or cake is discharged through the bush installed in the discharge port, a large amount of frictional force is applied at the part which is in contact with the rotation of the sludge or cake, causing large wear in a short time. The need for frequent exchanges of low-cost or many bushes has the problem that time-consuming losses occur, including unnecessary economic losses.

In addition, most of the bushes used in the conventional centrifuge are basically different from the initial design, depending on the concentration or property of the sludge, which is a practical problem.

In other words, the necessity of changing the cake outlet size is often caused in the field commissioning stage rather than at the time of design, and until now, the centrifugal dehydrator is recovered to the factory for the bush adjustment determined according to the site situation. The balance is being delivered to the final site.

On the other hand, in the case of high concentration of sludge, it is necessary to increase the size of the discharge port size even in the case of the same model, but most bushings have a cylindrical shape having a predetermined diameter (that is, a fixed shape inside Diameter (diameter)), if the designed sludge concentration is variable, there is not a problem to obtain the required efficiency because it does not respond actively.

1. Republic of Korea Patent Publication No. 10-0740608 (July 11, 2007) 2. Korean Utility Model Registration Publication No. 20-380922 (March 29, 2005) 3. Republic of Korea Utility Model Registration Publication No. 20-0445181 (June 30, 2009) 4. Republic of Korea Patent Publication No. 10-1224309 (January 14, 2013)

The present invention has been made to solve such a conventional problem, the cake discharge port is formed at a predetermined interval on the ball of the centrifuge is a non-circular surface (bottom surface tangential to the rotation direction of the cake) of the cake rotation is the rotation of the cake The multi-bush which is formed in the shape of a rectangle having an inclined surface so as to form a straight line with the direction and the discharge direction, and is installed so as to be interchangeable in the cake discharge port from the outside is also configured to have a rectangular cylindrical shape is assembled on the upper surface, the inclined surface and both sides, respectively, The bush installed on the cake can minimize the frictional force generated between the cake discharged through the discharge hole formed in the ball in the centrifuge and the inclined bottom bush of the multiple bush installed in the discharge hole. Can be easily discharged to greatly increase the efficiency In addition, the wear of multiple bushes can be minimized to prevent unnecessary economic damage and time loss, and in particular, the aperture size (ie, inner diameter) of the discharge port can be arbitrarily adjusted in consideration of the concentration of the cake and the discharge amount. An object of the present invention is to provide a centrifugal separator having a frictional force reduction and variable discharge aperture multiple bushing, which can greatly improve the merchandise and reliability of the centrifuge.

In order to achieve the above object, the centrifuge of the present invention is a centrifuge having a multi-bush which is configured to detachably install a multi-bush having a predetermined shape outside the plurality of cake outlets perforated at a predetermined interval along the outer diameter of the ball. In the cake discharge port is formed in a rectangular inclined at a predetermined angle toward the outside from the inside of the ball to form a straight line with the rotation direction and the discharge direction of the cake, the multi-bush is detachably installed in the cake discharge port A pair of side bushes having inclined bottom portions corresponding to both side shapes of the discharge port, a square plate-shaped upper bush corresponding to the top shape, and an inclined portion corresponding to the inclined bottom shape and a ball inner surface wrapping form Molded by bottom bush with integral part It characterized in that a respective removable enables the inner surface of the cake discharge ports in sequence.

In this case, the installation order of the multi-bush is characterized in that the side bush is fixed to each side of the cake discharge port, respectively, and the bottom bush and the top bush is fixed between the two side bush in order or in reverse order.

In addition, the upper bush is formed to have a variety of thickness and fixed to the upper surface of the cake discharge port by selecting any one having a predetermined thickness to have a predetermined discharge aperture by design corresponding to the concentration of the cake discharged through the centrifuge Or selecting two or more upper surface bushes having different thicknesses and fixing the upper surface bushes to the upper surface of the cake discharge port in a state in which they are folded to a desired thickness.

In addition, the bottom bush is characterized in that the free end of the inclined portion is installed so as to protrude to the outside of the ball by a predetermined length through the bottom of the cake discharge port.

In addition, the multiple bush consisting of the pair of side bushes, the top bush and the bottom bush is characterized in that the cemented carbide.

In addition, in order to form a bolt fastening hole for fastening the bolt from the outside of the ball at the bottom of the bottom bush and at the same time to reduce the frictional force with the cake integrally through extrusion of a metal plate material It is characterized by the addition.

At this time, it is characterized in that the concave-convex portions for preventing the mutually separated by increasing the bonding force on the bottom surface of the ball inner surface wrapping portion of the bottom bush and the metal plate material to be in close contact with each other is further formed.

In addition, the chamfer portion is further formed to be inclined at a predetermined angle on the top edge of the inclined end portion of the bottom bush.

As described above, according to the centrifuge having the friction force reduction and the discharge aperture variable multiple bushing of the present invention, the bottom of the cake discharge port formed at a predetermined interval on the ball of the centrifuge is in a tangential to the rotation direction of the cake rather than a circular shape. Four bushes formed in a quadrangular shape having a slope inclined to form a straight line with the rotation direction and the discharge direction of the cake, and interchangeably installed in the cake discharge port from the outside, are also assembled on the top, inclined surfaces (bottom) and both sides, respectively. Assembled into a rectangular cylindrical shape using, but the bush is installed on the upper surface by varying the installation position, firstly the cake discharged through the discharge port formed in the ball in the centrifuge and the slope of the multi-bush installed in the cake discharge port Cakes can be minimized as the friction between the bottom bushes can be minimized It is easy to discharge and can greatly increase the efficiency of cake discharge. Second, minimizing the wear of multiple bushes can prevent unnecessary economic damage and time loss due to frequent bush replacements. In consideration of the amount and the like, the diameter of the cake discharge port (ie, the inner diameter) can be freely adjusted arbitrarily, and thus it is a very useful invention such that the reliability of the centrifuge itself and the reliability of centrifugation can be greatly improved.

Figure 1 is a perspective view of the ball of the centrifuge installed with multiple bushes of the present invention.
Figure 2 is an exploded perspective view of the ball and the multi-bush of the centrifuge to which the present invention is applied.
Figure 3 is a cross-sectional perspective view of the centrifuge ball is installed multiple bushing of the present invention.
Figure 4 is a plan cross-sectional view of the centrifuge ball is installed multiple bushes of the present invention.
5 is an exploded perspective view of the bottom bush of the multiple bush used in the present invention.
Figure 6 is a cross-sectional view and a partially enlarged view of the centrifuge ball for explaining different embodiments of the upper bush of the multiple bush used in the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention and their operation and effect will be described in detail with reference to the accompanying drawings.

Figure 1 shows a perspective view of the ball of the centrifuge with a multi-bush of the present invention, Figure 2 shows an exploded perspective view of the ball and the multi-bush of the centrifuge to which the present invention is applied, Figure 3 is a multi-bush of the present invention 4 shows a cross-sectional perspective view of the centrifuge ball, FIG. 4 shows a cross-sectional plan view of the centrifuge ball with the multi-bush of the present invention installed, and FIG. 5 shows an exploded perspective view of the bottom bush of the multi-bush used in the present invention. Figure 6 shows a planar cross section and part enlarged view of the centrifuge ball for explaining different embodiments of the upper bush of the multiple bush used in the present invention.

According to the present invention,

In the centrifuge having multiple bushes configured to detachably install the multiple bushes (2) having a predetermined shape outside the plurality of cake outlets (11) perforated at predetermined intervals along the outer diameter of the ball (1),

 The cake discharge port 11 is formed in a square inclined at a predetermined angle from the inside of the ball 1 to the outside so as to form a straight line with the rotation direction and the discharge direction of the cake, and is detachably installed in the cake discharge port 11. The multiple bushes 2 are a pair of side bushes 22 having a bottom portion inclined to correspond to both side shapes of the cake discharge port 11 and a top bush 21 having a rectangular plate body shape corresponding to the top surface shape. Bolts (3) from the outside of the ball (1) by molding into an inclined portion (231) corresponding to the inclined bottom shape and a bottom bush (23) integrally provided with a ball inner surface wrapping portion (232) having a shape surrounding the inner surface of the ball (3) It includes a removable installation on the inner surface of the cake discharge port 11 in a predetermined order through).

At this time, the installation order of the multi-bush (2) is fixed to the side bush 22 on both sides of the cake discharge port 11, respectively, the bottom bush 23 and the top bush 21 between the two side bush (22). ) In a fixed or sequential order.

In addition, the upper bush 21 is formed by forming a plurality of various thicknesses to correspond to the concentration of the cake discharged through the centrifuge by selecting any one having a predetermined thickness to have a predetermined discharge aperture in the design by the cake outlet 11 It is fixed to the upper surface of the) or by selecting two or more upper bush 21 having a different thickness and fixed to the upper surface of the cake discharge port 11 in the folded state by a desired thickness.

In addition, the bottom bush 23 includes a free end of the inclined portion 231 is provided so as to protrude to the outside of the ball 1 through the bottom of the cake discharge port 11 by a predetermined length.

In addition, the multiple bush (2) consisting of the pair of side bush 22, the top bush 21 and the bottom bush 23 is characterized in that it is molded from a cemented carbide with very high hardness and wear.

In addition, in order to form a bolt fastening hole 233b for fastening the bolt 3 from the outside of the ball 1 to the bottom of the bottom bush 23 and to reduce the frictional force with the cake. It includes the metal plate 233 having a predetermined thickness integrally added through extrusion.

At this time, the inner surface of the ball wrapping portion 232 of the bottom bush 23 in close contact with each other on the bottom surface and the upper surface of the metal plate 233 to increase the bonding force to prevent the uneven portions 232a (233a), respectively And more molded opposite one another.

In addition, the upper edge of the end surface of the inclined portion 231 of the bottom bush 23 further includes a chamfered portion 231a inclined at a predetermined angle.

Referring to the operation and effect of the present invention centrifuge having such a configuration as follows.

First, as shown in FIGS. 1 to 6, the plurality of cake outlets 11 are formed in a cylindrical shape at a right angle with respect to the inner surface of the ball, having a cylindrical shape, perforated at a predetermined interval along the outer diameter of the ball 1. Unlike the conventional art, the bottom surface is formed in a rectangular shape inclined at a predetermined angle from the inside of the ball 1 to form a straight line with the rotational direction and the discharge direction of the cake, and is detachably installed in the cake discharge port 11. The bush 2 is formed by forming both side bushes 22, the top bush 21 and the bottom bush 23, respectively, which are respectively installed on four sides including the bottom and the bottom and inclined at a predetermined angle as described above. Removably installed, the friction force generated between the cake discharged through the cake discharge port 11 and the inclined bottom bush 23 of the multi-bush (2) installed in the cake discharge port 11 can be minimized. And that the lock as a key technology components.

At this time, looking at the multi-bush (2) in detail, a pair of side bush 22 having a shape in which the bottom is inclined to correspond to the both sides of the cake discharge port 11 and the rectangular plate body shape corresponding to the top shape It is formed by the upper surface bush 21 having a lower surface bush 23 having integrally the upper surface bush 21 and the inclined portion 231 corresponding to the inclined bottom shape and the ball inner surface wrapping portion 232 having a form surrounding the inner surface of the ball, Such multiple bushes 2 are detachably installed on the inner surface of the cake discharge port 11 in a predetermined order via bolts 3 from the outside of the ball 1, respectively.

In addition, in the present invention, the multi-bush (2) consisting of the pair of side bush 22, the top bush 21 and the bottom bush 23 is molded into a strong cemented carbide having very high hardness and wear characteristics of the cake. By minimizing the wear of the multi-bush (2) by the friction generated during the discharge can be prevented unnecessary economic damage and time loss due to frequent bush replacement.

In addition, the installation order of the multiple bushes 2 each formed by cemented carbide as described above is determined in consideration of the work diameter and the discharge diameter variable described later, including the mutual bonding force, and both sides of the cake discharge port 11. The side bushes 22 having the bottom inclined shape are first fixedly installed using bolts 3, and the bottom bush 23 or the top bush 21 is interposed between the two side bushes 22 fixed in this manner. After positioning, the bottom bush 23 and the top bush 21 may be fixed or the top bush 21 and the bottom bush 23 may be fixed by using the bolt 3.

On the other hand, in forming the bottom bush 23, in addition to the inclined portion 231 formed so as to correspond to the bottom inclined surface angle of the cake discharge port 11 (that is, the inclination angle which forms a straight line with the rotation direction and the discharge direction of the cake), (1) The reason why the ball inner surface wrapping part 232 is further bent and formed integrally with the view to wrap a part of the inner part is that the bottom bush 23 is smoothly fixed using the bolt 3 from the outside of the ball 1. At the same time, it is possible to securely fix the bottom bush 23 having a large pressure when discharging the cake, and the pressure and frictional force applied when discharging the cake are inclined at the bottom of the cake discharge port 11. Ball inner surface wrap portion 232 and inclined portion 231 having a predetermined area without being concentrated on the inner surface exposed portion of the ball 1 and the inner edge portion of the bottom bush 23, including the inner corner portion of the ball 1 to be started. ) Distributed throughout To to in order to prevent the two edge portions, and inner ball significant wear.

In addition, in the present invention, in forming the inclined portion 231 of the bottom bush 23, the length is slightly longer than the length of the bottom inclined surface of the cake discharge port 11, so that the free end of the inclined portion 231 of the bottom bush 23 is formed. Inclined portion 231 of the bottom bush 23 through the multiple bushes 2 installed in the cake discharge port 11 by protruding a predetermined length outwardly of the ball 1 through the bottom surface of the cake discharge port 11. A part of the cake discharged to the outside with an angle corresponding to the inclination angle can be accurately discharged to the outside without sticking to the outer surface of the ball 1.

In addition, the present invention is inclined at a predetermined angle to the upper surface edge of the inclined portion 231 end of the bottom bush 23 protruding outward of the ball 1 through the bottom of the cake discharge port 11 as described above. By further molding the chamfer 231a, the cake discharged through the inside of the multiple bushes 2 may be more easily formed, and thus the efficiency of the cake discharge may be further increased.

In addition, in the present invention, when the bottom bush 23 is molded using a cemented carbide, the side bush 22 has a single cross section and is fixed to the side and the top surface by a bolt 3 in the cake discharge port 11, respectively. Unlike the upper surface bush 21) and the bottom surface 21, the metal plate 233 having a predetermined thickness is molded by extrusion so as to be integrally attached.

That is, when the bottom bush 23 is molded to have a single cross section, the ball inner surface wrapping part 232 of the bottom bush 23 is used to fix the bottom bush 23 using the bolt 3 from the outside. When the bolt fastening hole must be drilled in this way, when the bolt fastening hole is drilled in the ball inner surface wrapping portion 232 of the bottom bush 23 to fasten the bolt from the outside, the bolt is fastened when viewed from the inside of the ball (1). A part of the ball has a recessed shape or a part of the bolt has a form protruding into the ball through the bolt fastening hole, there is a fear that a large friction force with the cake.

Therefore, in the present invention, the metal plate member 233 having a predetermined thickness is integrally attached to the bottom surface of the bottom bush 23 having the inclined portion 231 and the ball inner surface wrapping portion 232 integrally. Extrusion and bolt fastening holes 233b for fastening the bolts 3 from the outside of the ball 1 are formed in the metal plate positioned on the bottom surface of the ball inner surface wrapping part 232 of the metal plate 233. By maintaining the outer surface of the ball inner surface wrapping portion 232 exposed to the inside of the ball (1) to maintain a smooth state can significantly reduce the friction with the cake.

At this time, when the extrusion molding so that the metal plate 233 having a predetermined thickness on the bottom of the bottom bush 23 is simply integrally bonded, the bottom bush 23 and the metal plate 233 made of cemented carbide due to external impact, etc. There is a fear that the joints between the two parts may be separated from each other.

Accordingly, in the present invention, as shown in FIG. 5, the bottom surface of the ball inner surface wrapping portion 232 of the bottom bush 23 which is in close contact with each other and the top surface of the metal plate 233 are opposed to each other (that is, alternately interlocked with each other). Coupling force between the bottom surface of the inner surface wrapping part 232 of the bottom bush 23 and the upper surface of the metal plate 233 of the bottom bush 23 having a form in close contact with each other by forming the uneven parts 232a and 233a, respectively. Can be greatly increased and can be prevented from being separated from each other.

In addition, in the present invention, when forming the upper bush 21, any one having a predetermined thickness so as to have a discharge diameter determined by design in response to the concentration of the cake discharged through the centrifuge by forming a plurality of various thicknesses. Selectively fixed to the upper surface of the cake discharge port 11 as shown in the enlarged view of Figure 6 or by selecting two or more top bush 21 having a different thickness and folded to the desired thickness of the cake discharge port 11 It was to be fixed to the upper surface.

Therefore, the diameter of the cake discharge port 11 can be freely adjusted to an arbitrary diameter in consideration of the concentration or discharge amount of the cake by changing the thickness of the upper bush 21, so that the product performance of the centrifuge itself can be adjusted. The reliability by centrifugation can be greatly improved.

Although the preferred embodiments of the present invention have been described for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. Which will be apparent to those skilled in the art.

1: ball 11: cake outlet
2: multiple bush
21: top bush 22: side bush
23: bottom bush
231: inclined portion 231a: chamfered portion
232: inner wrap part of the ball 232a: irregularities
233: metal plate 233a: uneven portion
233b: Bolt Fasteners
3: Bolt

Claims (8)

In the centrifuge having a multi-bush configured to detachably install a multi-bush having a predetermined shape outside the plurality of cake outlets perforated at predetermined intervals along the outer diameter of the ball,
The cake discharge port is formed in a rectangle inclined at a predetermined angle toward the outside from the inside of the ball so as to form a straight line with the rotation direction and the discharge direction of the cake,
The multiple bushes detachably installed in the cake discharge port correspond to a pair of side bushes having inclined bottom portions corresponding to both side shapes of the cake discharge port, and square plate-shaped top bushes corresponding to the top shape and inclined bottom shapes. Friction force, characterized in that formed by the bottom bush having a ball inner surface wrapping portion having a form surrounding the inclined portion and the inner surface of the ball integrally attached to the inner surface of the cake discharge port in a predetermined order through a bolt from the outside of the ball Centrifuge with multiple bushings with variable reduction and discharge apertures.
The method according to claim 1,
The installation order of the multiple bush,
The side bushes are fixed to both sides of the cake discharge port, respectively, and the bottom bush and the top bush are fixedly installed in a sequential or reverse order between the two side bushes. .
The method according to claim 1,
The upper bush,
Molded to have a variety of thickness and by selecting any one having a predetermined thickness to have a discharge diameter specified by design in response to the concentration of the cake discharged through the centrifuge to be fixed to the upper surface of the cake outlet or to different thicknesses Selecting two or more top bush having a fixed thickness on the upper surface of the cake discharge port in the state of a desired thickness, characterized in that the centrifugal separator having a frictional force reducing and variable discharge diameter multiple bushing.
The method according to claim 1,
The bottom bush,
A centrifugal separator having a frictional force reduction and variable discharge aperture multiple bushing, wherein the free end of the inclined portion protrudes outward from the ball through a bottom of the cake discharge port.
The method according to claim 1,
The multi-bush composed of the pair of side bushes, the top bush and the bottom bush is a centrifugal separator having a frictional force reduction and variable discharge diameter multiple bushing, characterized in that formed by cemented carbide.
The method according to claim 1,
The bottom surface of the bottom bush to integrally add a metal plate having a predetermined thickness through extrusion in order to form a bolt fastening hole for fastening the bolt from the outside of the ball and at the same time to reduce friction with the cake. A centrifugal separator with variable friction and reduced frictional force.
The method of claim 6,
The lower surface of the inner surface of the ball bushing portion of the bottom bush and the upper surface of the metal plate material to be in close contact with each other to further increase the bonding force to form a concave-convex portion to prevent the mutual separation from each other to further reduce the frictional force and variable discharge diameter multiple bushing Centrifuge.
The method according to claim 1,
A centrifuge having a reduced frictional force and variable discharge aperture type multiple bushing, characterized in that the chamfer portion is further formed to be inclined at a predetermined angle on the upper edge of the inclined end portion of the bottom bush.

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