JPH09239291A - Decanter type continuous centrifugal separator - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent that a solid in a slurry is accumulated within a screw body and the abrasion of the inner peripheral surface of the screw body by the slurry. SOLUTION: A slot like slurry emitting port 13 discharging the slurry supplied into a screw body 2b into a bowl 3 is formed to the peripheral surface of the screw body 2b of a decanter type continuous centrifugal separator consisting of the bowl 3 and the screw 2 concentrically arranged in the bowl 3 and an inclined surface member 9 composed of an abrasion-resistant material guiding the slurry supplied into the screw body 2b toward the slurry emitting port 13 is arranged to the inner peripheral surface of the screw body 2b.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a decanter type continuous centrifuge including a ball and a screw concentrically arranged in the ball, and in particular, a slurry fed into the screw is separated in a screw cylinder. As a result, the separated solid matter accumulates in the screw cylinder, or the slurry supplied to the screw cylinder causes the slurry discharge port to form an inner peripheral surface of the screw cylinder or the peripheral surface of the screw cylinder. The present invention relates to a decanter type continuous centrifuge designed to prevent wear of the decanter.

[0002]

2. Description of the Related Art Conventionally, a decanter type continuous centrifuge has been widely used because it can perform solid-liquid separation continuously and efficiently.

An example of a decanter type continuous centrifuge conventionally used is shown in FIGS. 9 and 10. This decanter type continuous centrifuge 1'includes a substantially cylindrical ball 3'rotated at high speed with a small inner diameter on one side, and a screw blade 2a 'on the outer peripheral surface of a cylindrical screw cylinder 2b'.
And a screw 2 ′ which is concentrically arranged inside the ball 3 ′ and is rotated at a high speed with a slight rotational speed difference from the ball 3 ′, and the slurry to the screw cylinder 2
and a slurry supply pipe 4'supplied into b '. Further, the inside of the screw barrel 2b 'of the decanter type continuous centrifuge 1'is divided into a slurry supply prechamber 14' and a slurry supply chamber 15 'by partition walls 6', 8'and 11 ', and before the slurry supply. A circular slurry drain port 12 is provided on the peripheral surface of the chamber 14 ′ for discharging the slurry that has rebounded from the slurry supply chamber 15 ′ and entered the slurry supply pre-chamber 14 ′ into the slurry separation area b ′ in the ball 3 ′. ', Again
On the peripheral surface of the slurry supply chamber 15 ', the slurry supply chamber 1
Circular slurry discharge port 13 'for discharging the slurry supplied to 5'to the slurry discharge area a'in the ball 3'
Are formed respectively. Then, the slurry supplied from the slurry supply pipe 4'into the screw barrel 2b 'is passed through the circular slurry discharge port 13' formed on the peripheral surface of the screw barrel 2b ', and the slurry discharge area a'in the ball 3'. Is discharged to the slurry discharge area a ′ and the slurry separation area b ′, the slurry is separated into a solid and a liquid by a centrifugal force, and separated by a difference in rotation speed between the ball 3 ′ and the screw 2 ′. By transporting the solid to the side where the inner diameter of the ball 3'is formed small by the screw blade 2a ', solid-liquid separation of the slurry can be continuously performed.

[0004]

By the way, in the above conventional decanter type continuous centrifugal separator 1 ', the slurry supplied into the screw cylinder 2b' is the screw cylinder 2 '.
b ', and as a result, the separated solid matter is deposited in the screw barrel 2b' and formed on the peripheral surface of the slurry supply chamber 15 '.
The slurry drain port 12 'formed on the peripheral surface of 4'is closed, and the slurry supply chamber 15' and the slurry supply pre-chamber 14 'are separated and filled with the accumulated solids and contact the slurry supply pipe 4'. As a result, the slurry supply pipe 4'is damaged, and therefore the continuous centrifuge 1'for maintenance.
Had to be stopped frequently, which was a problem in that the processing of the slurry was hindered. This tendency varies depending on the properties of the slurry, but incinerator ash of municipal solid waste and industrial waste, in which this type of decanter type continuous centrifuge 1'is frequently used, other solids with a large specific gravity, and solids with a rough shape. It is particularly remarkable in the case of a slurry containing a substance, a solid substance having adhesive properties, a solid substance having poor fluidity, and the like, and it has been desired to cope with the problem.

In the conventional decanter type continuous centrifugal separator 1 ', the slurry supplied into the screw barrel 2b' causes the inner peripheral surface of the screw barrel 2b 'and the slurry supply chamber 15' of the screw barrel 2b '. It is said that the durability of the continuous centrifuge 1'is poor because the peripheral edges of the openings of the slurry discharge port 13 'formed on the peripheral surface of and the slurry drain port 12' formed on the peripheral surface of the slurry supply front chamber 14 'are worn. I had a problem.

The present invention provides a decanter type continuous centrifuge which solves the problems of the conventional decanter type continuous centrifuge described above and can prevent the solid matter in the slurry from accumulating in the screw cylinder. With the goal. At the same time, the present invention is a decanter-type continuous centrifugal device capable of preventing the slurry supplied to the inside of the screw cylinder from wearing the inner peripheral surface of the screw cylinder and the periphery of the opening of the slurry discharge port formed on the peripheral surface of the screw cylinder. The purpose is to provide a separator.

[0007]

In order to achieve the above object, a decanter type continuous centrifuge of the present invention comprises a ball and a decanter type continuous centrifuge including a screw concentrically arranged in the ball. In, while forming a long hole-shaped slurry discharge port for discharging the slurry supplied into the screw cylinder into the ball on the peripheral surface of the screw cylinder, the slurry supplied into the screw cylinder is formed on the inner peripheral surface of the screw cylinder. An inclined surface member that leads toward the slurry discharge port is provided.

In the decanter type continuous centrifuge of the present invention having the above structure, the slurry discharge port is formed in a long hole shape, and the inclined surface member for guiding the slurry toward the slurry discharge port is arranged. The slurry supplied into the screw cylinder is rapidly discharged into the balls, the slurry is difficult to separate in the screw cylinder, and the separated solid matter can be prevented from accumulating in the screw cylinder.

In this case, the inclined surface member may be made of a wear-resistant material such as a ceramic mountain-shaped member or a mountain-shaped member having a surface having a wear-resistant material layer formed thereon.

As a result, it is possible to prevent the inner peripheral surface of the screw cylinder from being abraded by the slurry supplied into the screw cylinder.

Further, the inclined surface member can be arranged so as to cover the peripheral edge of the opening of the slurry discharge port formed on the peripheral surface of the screw cylinder.

Thus, the slurry supplied into the screw cylinder can be smoothly discharged into the ball from the slurry discharge port, and the slurry supplied into the screw cylinder wears the periphery of the opening of the slurry discharge port. Can be prevented.

[0013]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of a decanter type continuous centrifuge of the present invention will be described below with reference to the drawings.

1 to 7 show an embodiment of a decanter type continuous centrifuge of the present invention. The decanter type continuous centrifuge 1 is constructed by fixing a substantially cylindrical high speed rotating ball 3 having a small inner diameter on one side, and a screw blade 2a fixedly provided on the outer peripheral surface of a cylindrical screw cylinder 2b. A screw 2 which is concentrically arranged in the ball 3 and is rotated at a high speed with a slight rotational speed difference from the ball 3, and a slurry supply pipe 4 for supplying the slurry into the screw barrel 2b.
And a cleaning liquid supply pipe 5 for supplying the cleaning liquid into the screw barrel 2b.

The decanter type continuous centrifuge 1 is also used.
The inside of the screw cylinder 2b is partitioned into a slurry supply front chamber 14 and a slurry supply chamber 15 by partition walls 6, 8 and 11. In this case, the partition wall protection plate 10 made of ceramic is provided on the surface of the partition wall 11 facing the slurry supply chamber 15 so that the partition wall 11 is not worn by the collision of the slurry supplied from the slurry supply pipe 4. ,Also,
The partition wall 8 is preferably made of a ceramic material so that the slurry colliding with the partition wall 11 bounces and is not worn by the collision.

The cleaning liquid is supplied to the slurry supplying front chamber 14 from the fine holes 5a formed in the cleaning liquid supplying pipe 5, and the slurry supplying chamber 15 is provided on the peripheral surface of the slurry supplying front chamber 14. Bounce back slurry supply front chamber 14
An elongated hole-shaped slurry drain port 1 for discharging the entered slurry together with the cleaning liquid to the slurry separation area b in the ball 3.
Form 2

The slurry is supplied to the slurry supply chamber 15 from the tip 4a of the slurry supply pipe 4, and the slurry supplied to the slurry supply chamber 15 is provided on the peripheral surface of the slurry supply chamber 15. A long hole-shaped slurry discharge port 13 for discharging to the slurry discharge area a in the ball 3 is formed.

A plurality of slurry drain ports 12 and a plurality of slurry discharge ports 13 are provided at substantially equal intervals in the circumferential direction of the peripheral surface of the slurry supply front chamber 14 or the peripheral surface of the slurry supply chamber 15, and in this embodiment, 90 °. Four pieces should be formed at intervals. The slurry drain port 12 and the slurry discharge port 13
Is formed in parallel with the axis of the screw cylinder 2b in the present embodiment, but is not limited to this, and for example, it may be formed in a spiral shape having a predetermined twist angle with respect to the axis of the screw cylinder 2b. You can also The slurry drain port 1
Since the amount of the slurry discharged from 2 to the slurry separation area b in the ball 3 together with the cleaning liquid is not so large, the slurry drain port 12 formed on the peripheral surface of the slurry supply front chamber 14
Can also be circular.

On the inner peripheral surface of the slurry supply chamber 15 of the screw 2, an inclined surface member 9 for guiding the slurry supplied to the slurry supply chamber 15 toward the slurry discharge port 13 is provided from the partition wall 8 to the partition wall protection plate 10. To do. This inclined surface member 9
As shown in FIGS. 4 and 6, is made of a ceramic mountain-shaped member, and is configured so that the end portion 9a of the inclined surface member 9 covers the opening peripheral edge 13a of the slurry discharge port 13.

The inclined surface member 9 is, in addition to the ceramic chevron member used in this embodiment, as shown in FIG.
A wear-resistant material layer 9b made of a wear-resistant material such as ceramic or cemented carbide may be formed on the surface by a chevron member 9c formed by thermal spraying, depositing, bonding, welding or screwing. Also in this case, it is desirable that the wear-resistant material layer 9b directly or indirectly through the chevron-shaped member covers the opening peripheral edge 13a of the slurry discharge port 13.
The chevron-shaped member 9c may be made of a metallic material such as stainless steel, carbon steel, or aluminum, or a non-metallic material such as synthetic resin. In the case of a material such as carbon steel having abrasion resistance by itself, The wear resistant material layer 9b may be omitted. Further, the shape of the inclined surface member 9 can be formed into a curved surface such as a quarter circle in cross section in addition to the mountain shape in this embodiment.

On the inner peripheral surface of the slurry supply front chamber 14 of the screw 2, there is provided an inclined surface member 7 which repels the slurry that has rebounded from the slurry supply chamber 15 and has entered the slurry supply front chamber 14 toward the slurry drain port 12 together with the cleaning liquid. It is arranged from the partition wall 6 to the partition wall 8. In the inclined surface member 7, since the amount of the slurry discharged from the slurry drain port 12 to the slurry separation area b in the ball 3 together with the cleaning liquid is not so large, as shown in FIG. 2, stainless steel, carbon steel, aluminum It is configured by a mountain-shaped member made of a metal material such as or non-metal material such as synthetic resin.

In addition to the angled member used in this embodiment, the inclined surface member 7 is similar to the inclined surface portion 9 provided in the slurry supply chamber 15, and the ceramic angled member and the surface thereof are made of ceramic or cemented carbide. The wear resistant material layer made of the wear resistant material can be formed by a chevron member formed by thermal spraying, depositing, bonding, welding or screwing. Also in this case, it is configured to cover the opening peripheral edge 12a of the slurry drain port 12 by the end of the ceramic mountain-shaped member,
It is also possible to directly or indirectly via a chevron member cover the opening peripheral edge 12a of the slurry drain port 12 with the wear resistant material layer. In addition, the shape of the inclined surface member 7 may be a curved surface such as a quarter circle shape in cross section, in addition to the mountain shape in this embodiment. Further, the slurry drain port 12 of the screw blade 2a and the slurry discharge port 1
It is desirable to form the wear resistant material layer 2c on the notch of the screw blade facing 3 by thermal spraying, depositing, bonding, welding, screwing or the like.

Next, a method of using the decanter type continuous centrifugal separator 1 will be described. Slurry supplied from the slurry supply pipe 4 to the slurry supply chamber 15 of the screw 2 is passed through a slot-shaped slurry discharge port 13 formed on the peripheral surface of the slurry supply chamber 15 to form a slurry discharge area a in the ball 3.
To release. At this time, since the slurry discharge port 13 is formed in a long hole shape and the inclined surface member 9 that guides the slurry toward the slurry discharge port 13 is arranged, the slurry supplied to the slurry supply chamber 15 is the ball 3. The slurry is promptly discharged to the slurry discharge area a, the slurry is hard to be separated in the slurry supply chamber 15, and the separated solid matter can be prevented from being accumulated in the slurry supply chamber 15. Further, since the inclined surface member 9 is made of a wear-resistant material such as a mountain-shaped member made of ceramic, it is possible to prevent the inner peripheral surface of the slurry supply chamber 15 from being worn by the slurry, and in particular, the inclined surface. When the member 9 is formed of a chevron-shaped member having a smooth surface, the slurry supply chamber 15
The slurry supplied to can be more smoothly guided toward the slurry discharge port 13. Further, since the inclined surface member 9 is arranged so as to cover the opening peripheral edge 13a of the slurry discharge port 13, the slurry supplied to the slurry supply chamber 15 can be smoothly discharged from the slurry discharge port 13 into the ball 3. In addition, it is possible to prevent the peripheral edge 13a of the opening of the slurry discharge port 13 from being worn by the slurry.

On the other hand, the cleaning liquid supplied from the cleaning liquid supply pipe 5 to the slurry supply prechamber 14 is formed on the peripheral surface of the slurry supply prechamber 14 together with the slurry rebounding from the slurry supply chamber 15 and entering the slurry supply prechamber 14. It is discharged to the slurry separation area b in the ball 3 through the elongated hole-shaped slurry drain port 12. At this time, since the slurry drain port 12 is formed in a long hole shape and the inclined surface member 7 for guiding the cleaning liquid containing the slurry toward the slurry drain port 12 is provided, the slurry drain port 12 is supplied to the pre-slurry supply chamber 14. The cleaning liquid containing the slurry is rapidly discharged to the slurry separation area b in the ball 3, the slurry is difficult to separate in the slurry supply prechamber 14, and the separated solid matter is the slurry supply prechamber 1
4 can be prevented from accumulating.

The slurry discharged into the balls 3 is separated into a solid and a liquid by a centrifugal force in the slurry discharge area a and the slurry separation area b, and at the same time in the slurry separation area b. It is also possible to wash the separated solids with the washing liquid discharged from the slurry drain port 12 of the pre-supply chamber 14, and the separated solids are formed to have a small inner diameter of the balls 3 due to the difference in rotation speed between the balls 3 and the screw 2. The solid-liquid separation of the slurry is continuously performed by transferring the slurry to the side.

The constitution of the present invention is not limited to the decanter type continuous centrifuge shown in the above-mentioned embodiment, and the constitution is changed without departing from the gist of the present invention (for example, in the above-mentioned embodiment, A slurry separation area b is formed on the installation side of the slurry supply pipe 4 (left side in FIG. 1), but the slurry separation area is formed on the side opposite to the installation side of the slurry supply pipe 4 (right side in FIG. 1). You can also

[0027]

According to the decanter type continuous centrifuge of the first aspect, the slurry supplied into the screw cylinder is rapidly discharged into the balls, so that the slurry is difficult to separate in the screw cylinder, and is separated. It is possible to prevent the deposited solid matter from accumulating in the screw cylinder. As a result, the decanter type continuous centrifuge can be continuously operated for a long time, and the slurry can be stably processed.

According to the decanter type continuous centrifuge described in claim 2, it is possible to prevent the inner peripheral surface of the screw cylinder from being worn by the slurry. This allows
The durability of the decanter type continuous centrifuge can be improved.

According to the decanter type continuous centrifuge described in claim 3, the inclined surface member having abrasion resistance can be formed with high precision and easily.

Further, according to the decanter type continuous centrifuge described in claim 4, the inclined surface member having wear resistance can be formed at low cost.

According to the decanter type continuous centrifuge described in claim 5, the slurry supplied into the screw cylinder is smoothly discharged into the ball, and the slurry is difficult to separate in the screw cylinder. It is possible to prevent the separated solid matter from accumulating in the screw cylinder, and to prevent the periphery of the opening of the slurry discharge port from being worn by the slurry. Thereby, the decanter type continuous centrifuge can be continuously operated for a long time, the slurry can be stably treated, and the durability of the decanter type continuous centrifuge can be improved.

[Brief description of drawings]

FIG. 1 is a front sectional view showing an embodiment of a decanter type continuous centrifugal separator of the present invention.

2 is a cross-sectional view taken along the line AA of the decanter type continuous centrifuge of FIG.

3 is a cross-sectional view of the decanter type continuous centrifuge of FIG. 1 taken along the line BB.

4 is a cross-sectional view of the decanter type continuous centrifuge of FIG. 1 taken along the line CC.

5 is a cross-sectional view of the decanter type continuous centrifuge of FIG. 1 taken along the line D-D.

6 is a development view of a screw cylinder of the decanter type continuous centrifuge of FIG. 1. FIG.

7 is a development view of the screw cylinder showing a state in which the inclined surface member of the decanter type continuous centrifugal separator of FIG. 6 is removed.

FIG. 8 is a sectional view (corresponding to a sectional view taken along the line CC of FIG. 1) showing another embodiment of the decanter type continuous centrifugal separator of the present invention.

FIG. 9 is a front sectional view showing a conventional decanter type continuous centrifuge.

10 is a development view of a screw barrel of the decanter type continuous centrifuge of FIG. 9. FIG.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Decanter type continuous centrifuge 2 Screw 2a Screw blade 2b Screw barrel 2c Abrasion resistant material layer of screw blade cutout 3 Ball 4 Slurry supply pipe 5 Cleaning liquid supply pipe 7 Inclined surface member 9 Inclined surface member 9a Inclined surface member Edge portion 9b Abrasion resistant material layer 9c Angle member 12 Slurry drain port 12a Slurry drain port opening peripheral edge 13 Slurry discharge port 13a Slurry discharge port opening peripheral edge 14 Slurry supply front chamber 15 Slurry supply chamber a Slurry discharge area b Slurry Separation area

 ─────────────────────────────────────────────────── ─── Continued Front Page (72) Inventor Akihiko Inoue 3-39-33, Higashikari, Hirakata-shi, Osaka

Claims (5)

[Claims] 1. A decanter type continuous centrifuge comprising a ball and a screw concentrically arranged in the ball, wherein the slurry supplied to the screw cylinder on the peripheral surface of the screw cylinder is discharged into the ball. A decanter type continuous characterized in that a slanted discharge port having a long hole shape is formed, and an inclined surface member for guiding the slurry supplied into the screw toward the slurry discharge port is provided on the inner peripheral surface of the screw cylinder. centrifuge. 2. The decanter type continuous centrifuge according to claim 1, wherein the inclined surface member is made of a wear resistant material. 3. The decanter type continuous centrifuge according to claim 2, wherein the inclined surface member is composed of a ceramic mountain-shaped member. 4. The decanter type continuous centrifuge according to claim 2, wherein the inclined surface member is formed of a mountain-shaped member having a wear-resistant material layer formed on the surface thereof. 5. The decanter type according to claim 1, wherein the inclined surface member is arranged so as to cover a peripheral edge of an opening of a slurry discharge port formed on a peripheral surface of a screw cylinder. Continuous centrifuge.