KR101198109B1 - bowl structure of centrifugal separator - Google Patents

Abstract

PURPOSE: A Bowl structure of a centrifugal separator is provided to reduce manufacturing cost and to simplify the structure. CONSTITUTION: A Bowl structure of a centrifugal separator comprises a bowl main body(6), a bottom water tight cover(14) and a pilot valve. The bowl main body, the bottom water-tight cover, and a pilot valve can be separated from each other. The pilot valve is installed at the lower part of the bowl main body circumferential surface. The bottom water tight cover is combined in the outer circular direction of the pilot valve. The closing chamber(10) is formed between a piston(5) and a bowl main body. The cylinder space(17) is formed between the inner circumference of the pilot valve and the bowl main body. An opening chamber(19) is formed between the lower part of the pilot valve and the inner circumference of the bottom water tight cover. A water chamber(25) is connected to the lower central hole of the bowl main body.

Description

Bowl structure of centrifugal separator}

The present invention relates to a centrifuge Paul structure installed inside a centrifuge and rotating to separate the stock solution.

The centrifuge is a means for separating materials having different specific gravity using centrifugal force, and has been developed and patented in the related art. As an example, Korean Patent Publication No. 10-2008-0113274 discloses a centrifuge as a rotor unit. The separator includes a non-rotating housing in which the rotor unit is disposed about a central axis of rotation, an inlet for supplying the mixture of components to be separated to the rotor unit, and at least one outlet for components that are separated during operation of the rotor unit. A separation chamber formed inside the rotor unit, an inlet chamber connected to the inlet and separation chamber, radially formed in the separation chamber, and typically shielded from the separation chamber, and at least one connected to the separation chamber. A plurality of separations arranged at a predetermined distance in the axial direction from each other in the separation chamber coaxially with the outlet; In the rotor unit is made at least partially of a metal comprising a disk, at least a plurality of the metal parts of the rotor unit has a rotor unit, characterized in that to form a composite body are coupled to each other is not removable disclosure.

Korean Patent Publication No. 10-1043513 discloses a drive shaft used for loading, a drum connected to the drive shaft and having a drum casing and a drum base, a filter in which an operating space is located, and a filter and a drum casing. A centrifugal including an annular space formed therein, at least one drum base opening formed in the drum base and open to the annular space, and at least one swirl nozzle disposed to inject fluid into the annular space through the at least one drum base opening A process method of operating a separator, comprising: loading a suspension product through a drive shaft into an operating space; Centrifuging the suspension product; Drying the product, during drying the drum continues to rotate, fluid is passed through the annular space by the at least one swirl nozzle into the drum, and the drying speed of the drum causes the resulting cake formed in the drum to Process methods are disclosed which are selected so as not to collapse.

Patent Publication No. 1981-0000129 also discloses a narrow working water chamber between the outer circumference of the rotating copper, the outer rim, and the outer rim thereof engaged therewith. The operating chamber is divided into two chambers, the flange and the inner side of the outer side of the outer side, and the operating chamber is divided into two chambers.The hydraulic area of the flange upper surface is larger than the hydraulic pressure area of the lower surface. Two chambers are installed around the rotating shaft in small diameter and large diameter in order to communicate with each other in turn by water supply holes. In the water supply room, there is a water hole with a large diameter part, and it is attached to the rotating shaft to communicate with the water supply room and the water hole, which rotates simultaneously with the rotating axis. Diameter of smaller than the outer periphery of the part A water supply nozzle outside the core is installed, and a small amount of water from the water supply nozzle is passed through the conduit, and the hydraulic pressure is applied to the water supply guide room and the water supply port and the water supply port at the bottom of the flange through the water supply port. After the generation, the water level XX in the water supply guide chamber gradually moves to the center of the rotating shaft to reach the opening of the water passage nozzle.When water pressure is generated in the nozzle, the pressure adjusting valve is operated to stop the supply of the working water. When there is a leak of water or other reasons, the pressure adjusting valve is operated to supply water again when it falls out of the opening of the water supply nozzle, and the pressure adjusting valve connected to the water supply nozzle is installed through the pipe. A centrifugal separator is disclosed.

However, the prior art has a disadvantage in that the structure is somewhat complicated, the manufacturing cost is expensive, and the assembly and disassembly of the valve mechanism from the outside is difficult, and thus maintenance is difficult and expensive.

Therefore, the present invention has been made to solve the above problems, by making and combining the Paul body, the lower watertight cover, and the pilot valve of the Paul structure to the outside, respectively, the structure is simple, manufacturing cost is It is an inexpensive, easy to assemble and dismantle, to provide a centrifuge Paul structure that is easy to maintain and low cost.

The present invention relates to a centrifuge Paul structure, the rotary vertical shaft (1-2) is installed in the inner center, the rotary vertical shaft (1-2) is installed in the inner center of the upper Paul assembly, the distributor (1-1), Around the distributor 1-1, a plurality of separation plates 2 are installed up and down, and around the distributor 1-1 and the lower part of the separation plate 2, a Paul body 6 having a piston 5 and In addition, the separation space (3) formed by the gap between the plurality of separation plates (2) and the solid separation space (4) formed on the outside of the plurality of separation plates (2) is formed, the Paul body (6) side A discharge hole 7 for discharging the solid content is formed, and a hood 8 having a liquid inlet 1 formed thereon is provided at an upper portion of the Paul body 6, and between the Paul body 6 and the hood 8. In the lock ring (9) is installed, in the centrifuge Paul structure in which the pilot valve 12 and the lower watertight cover 14 is installed,

The Paul body 6, the lower watertight cover 14, and the pilot valve 12 of the Paul structure are separable,

In addition, a pilot valve 12 is installed below the circumferential surface of the Paul body 6, and a lower watertight cover 14 is coupled in the circumferential direction outside the pilot valve 12, so that the piston 5 and the Paul body ( 6) a closing chamber 10 is formed between the cylinder body 17 and a cylinder space 17 is formed between the circumferential surface of the main body 6 and the pilot valve 12, the lower and lower watertight of the pilot valve 12 An opening chamber 19 is formed between the inner circumferential surface of the cover 14, and a water chamber capable of receiving water from the operating water supply device 28 installed in the centrifuge body through the lower central hole of the Paul body 6. 25 is connected and installed.

Therefore, the present invention has a remarkable effect of simple structure, low manufacturing cost, easy assembly and disassembly, convenient maintenance and low cost.

1 is a cross-sectional view of the Paul structure of the present invention centrifuge
Figure 2 is an exploded cross-sectional view of the present invention centrifuge Paul structure
3 is a perspective view of the present invention centrifuge Paul body
Figure 4 is a bottom perspective view of the present invention centrifuge Paul body
5 is a top view of the present invention centrifuge Paul body
Figure 6 is a front view of the present invention centrifuge Paul body
Figure 7 is a bottom view of the present invention centrifuge Paul body
8 is a perspective view of the centrifugal separator operating water supply device of the present invention
9 is a vertical cross-sectional view of the centrifugal separator operating water supply device of the present invention
10 is a horizontal cross-sectional view of the centrifugal separator operating water supply device of the present invention
11 is a cross-sectional view BB horizontal water supply device of the present invention
12 is a perspective view of the lower watertight cover of the present invention centrifuge Paul body
Figure 13 is a perspective view of the lower watertight cover of the Pauline main body of the present invention centrifuge
14 is a plan view of the bottom watertight cover of the Pauline body of the present invention centrifuge
15 is a front view of the lower watertight cover of the present invention centrifuge Paul body
Figure 16 is a bottom view of the watertight cover of the present invention centrifuge Paul body

The present invention relates to a centrifuge Paul structure, the rotary vertical shaft (1-2) is installed in the inner center, the rotary vertical shaft (1-2) is installed in the inner center of the upper Paul assembly, the distributor (1-1), Around the distributor 1-1, a plurality of separation plates 2 are installed up and down, and around the distributor 1-1 and the lower part of the separation plate 2, a Paul body 6 having a piston 5 and In addition, the separation space (3) formed by the gap between the plurality of separation plates (2) and the solid separation space (4) formed on the outside of the plurality of separation plates (2) is formed, the Paul body (6) side A discharge hole 7 for discharging the solid content is formed, and a hood 8 having a liquid inlet 1 formed thereon is provided at an upper portion of the Paul body 6, and between the Paul body 6 and the hood 8. The lock ring 9 is installed in the centrifuge Paul structure in which the pilot valve 12 and the lower watertight cover 14 are installed. The main body 6, the lower watertight cover 14, and the pilot valve 12 are separable, and a pilot valve 12 is installed in the lower part of the circumferential surface of the main body 6 of the Paul body 6, and the pilot The lower watertight cover 14 is coupled in the outer circumferential direction of the valve 12 so that a closing chamber 10 is formed between the piston 5 and the Paul body 6, and the Paul body 6 and the pilot valve. (12) A cylinder space 17 is formed between the inner circumferential surface, and an opening chamber 19 is formed between the lower circumferential surface of the pilot valve 12 and the lower watertight cover 14, and the Paul body (6). The lower center hole is connected with a water chamber 25 that can receive water from the operating water supply device 28 installed in the centrifuge body, so that the water in the water chamber 25 passes through the water supply passage during the Paul closing step. It is supplied into the closing chamber 10 through the 24, and raises the piston 5, and closes Paul, and closes the closing chamber. 10 is a temporary storage space 13 formed between the pilot valve 12 and the lower watertight cover 14 through the pilot valve gap 12-1 through the passage 11 formed in the lower portion in the circumferential direction The water accumulated in the temporary storage space 13 is quickly discharged through the water discharge hole 15 and at the same time, the cylinder space 17 through the water passage 16 for the cylinder space formed in the pilot valve 12. The pressure is generated in the pressure) to push the pilot valve 12 downward to close the pilot valve gap (12-1) to form a closing chamber 10, the water in the water chamber 25 during the Paul opening step The discharge passage 23 is supplied to the opening chamber 19 between the lower part of the pilot valve 12 and the lower watertight cover 14 to push up the pilot valve 12, thereby raising the pilot valve. When the closed pilot valve gap 12-1 is opened, the water in the closing chamber 10 is pushed into the temporary storage space 13 and the same. At the instant, the piston is also lowered and the solids are discharged to the discharge hole 7 which discharges the solids as the pistons are lowered. At this time, the water pushing up the pilot valve 12 is formed in the lower watertight cover 14. It is characterized in that it is discharged through the water discharge hole 18 and pushed down again by the water accumulated in the temporary storage space 13 to close the piston 5 in a short time.

In addition, the Paul body 6, the lower watertight cover 14, and the pilot valve 12 are separable and fastened with bolts, and the Paul body 6 and the pilot valve 12, respectively. Are separated from each other to form a cylinder space 17 between the circumferential sides, and the lower watertight cover 14 and the pilot valve 12 are separated from each other to form a pilot therebetween. The valve gap 12-1, the temporary storage space 13, and the opening chamber 19 are formed.

In addition, the closing chamber 10 is filled with the closing water is supplied to the water supply passage 24 through the operating water supply device 28 and the water chamber 25, the hydraulic piston (5) is pushed upwards After this is closed, the liquid to be centrifuged is characterized in that it is supplied through the liquid inlet (1).

In addition, the operating water supply device 28 is installed outside the rotary vertical shaft of the lower portion of the Paul body 6, is fixed to the centrifuge body, is connected to the external water supply pipe for supplying water from the outside and the pressure is increased by the pump After the increased pressure water is introduced through the operating water passage 27, the water supply pipe diameter of the water injection passage 26 is narrowed and passes through the nozzle injection port formed to be inclined toward the upper rotation axis, and the water ejected at high speed from the nozzle injection hole is rotated. It is characterized by being inclined upwardly in the upper portion, and accumulated in the upper water chamber 25 while changing direction in the reverse direction by the rotating shaft.

The present invention will be described in detail with reference to the accompanying drawings. 1 is a cross-sectional view of the Paul structure of the present invention centrifuge, Figure 2 is a cross-sectional view of the Paul structure of the present invention centrifuge, Figure 3 is a perspective view of the Paul body of the present invention centrifuge, Figure 4 is a bottom perspective view of the Paul body of the present invention centrifuge, Figure 5 Top view of the invention centrifuge Paul body, Figure 6 is a front view of the present invention centrifuge Paul body, Figure 7 is a bottom view of the present invention centrifuge Paul body, Figure 8 is a perspective view of the centrifuge operating water supply device of the present invention, Figure 9 is the present invention centrifugal Separator operation water supply device vertical section, Figure 10 is the present invention centrifugal separator operation water supply device AA horizontal cross section, Figure 11 is the invention centrifuge operation water supply device BB horizontal cross-sectional view, Figure 12 is the bottom watertight of the present invention centrifuge Paul body 13 is a perspective view of the lower watertight cover of the main body of the present invention centrifuge Paul body, Figure 14 is a plan view of the lower watertight cover of the present invention centrifuge Paul body, Figure 15 is a circle of the present invention Bottom view of the lower watertight cover of the core body of the core separator Paul, Figure 16 is a bottom view of the lower watertight cover of the Paul body of the present invention centrifuge.

In the present invention, the rotary vertical shaft (1-2) is installed at the inner center, and the distributor (1-1) is installed at the inner center of the upper Paul assembly of the rotary vertical shaft (1-2). In addition, a plurality of separation plates 2 are installed up and down around the distributor 1-1, and a Paul body 6 having a piston 5 installed around the distributor 1-1 and the lower part of the separation plate 2. ), A separation space (3) formed by the plurality of separation plates (2) upper and lower gaps, and a solid component space (4) formed on the outside of the plurality of separation plates (2) are formed, the Paul body (6) side The discharge hole 7 for discharging the solid content is formed.

In addition, the upper portion of the Paul body (6) is provided with a hood (8) formed with a liquid inlet (1), the lock ring (9) is installed between the Paul body (6) and the hood (8), pilot valve ( 12) and the lower watertight cover 14 are installed.

In particular, the present invention is that the Paul body 6, the lower watertight cover 14, and the pilot valve 12 of the Paul structure are separable, respectively.

In addition, a pilot valve 12 is installed below the circumferential surface of the Paul body 6, and a lower watertight cover 14 is coupled in the circumferential direction outside the pilot valve 12, so that the piston 5 and the Paul body ( The closing chamber 10 is formed between 6). A cylinder space 17 is formed between the Paul body 6 and the inner circumferential surface of the pilot valve 12. 19) is formed, and the water chamber 25 which can receive water from the operating water supply device 28 installed in the centrifuge main body is connected to the lower central hole of the Paul body 6.

Therefore, in the Paul closing step, the water in the water chamber 25 is supplied into the closing chamber 10 through the water supply passage 24 to raise the piston 5 to close Paul. At this time, the closing chamber 10 is a temporary storage space formed between the pilot valve 12 and the lower watertight cover 14 through the pilot valve gap 12-1 through the passage 11 formed in the outer lower portion in the circumferential direction Since it is connected to the (13), water accumulated in the temporary storage space 13 is quickly discharged through the water discharge hole 15, at the same time the cylinder through the water passage 16 for the cylinder space formed in the pilot valve 12 The closing chamber 10 is formed by generating pressure in the space 17 to push the pilot valve 12 downward to close the pilot valve gap 12-1.

On the contrary, during the Paul opening step, the water in the water chamber 25 is supplied to the opening chamber 19 between the lower part of the pilot valve 12 and the lower watertight cover 14 through the discharge passage 23, thereby providing a pilot valve. When the pilot valve is raised, the pilot valve gap 12-1 is opened, so that the water in the closing chamber 10 is pushed into the temporary storage space 13 and instantaneously. The piston is also lowered, and as the piston is lowered, the solids are discharged to the discharge hole 7 which discharges the solids. At this time, the water pushing up the pilot valve 12 is a water discharge hole formed in the lower watertight cover 14. It is discharged through (18) and is pushed back down by the water accumulated in the temporary storage space 13 to close the piston (5) in a short time.

On the other hand, the present invention is the Paul body (6), the lower watertight cover (14), the pilot valve 12 is separable, each is fastened with a bolt, and also the Paul body (6) and the pilot valve (12) is separably coupled to each other to form a cylinder space (17) between the circumferential side, and the lower watertight cover (14) and the pilot valve (12) are separably coupled to each other between In the pilot valve gap 12-1, the temporary storage space 13 and the opening chamber 19 is formed.

In addition, the closing chamber 10 is filled with the closing water is supplied to the water supply passage 24 through the operating water supply device 28 and the water chamber 25, the piston (5) subjected to the hydraulic pressure is pushed upwards After this is closed, the liquid to be centrifuged is supplied through the liquid inlet (1).

And the operating water supply device 28 of the present invention is installed in the lower body of the Paul body 6, outside the rotating shaft, the centrifuge body, the pressure water is connected to the external water supply pipe and the pressure is increased by the pump operating water passage (27) After entering through), the water supply pipe diameter of the water spray passage 26 narrows and passes through the nozzle injection port formed to be inclined toward the upper axis of rotation, and the water ejected at high speed from the nozzle injection port is inclined upwardly on the rotating shaft, the rotating shaft By changing the direction in the reverse direction will be accumulated in the upper water chamber 25.

Therefore, the present invention has a remarkable effect of simple structure, low manufacturing cost, easy assembly and disassembly, convenient maintenance and low cost.

DESCRIPTION OF SYMBOLS 1 Liquid inlet 1-1 Dispenser 1-2 Rotating vertical shaft
2: Separating plate 3: Separating space 4: Solids space
5: piston 6: Paul body 6-1: gasket
6-2: Gasket 7: Ejection Hole 8: Hood
9: Lock ring 10: Closing chamber 11: Operator water passage
12: pilot valve 12-1: pilot valve gap 12-2: gasket
12-3: Gasket 13: Temporary storage space 14: Lower watertight cover
15: water discharge hole 16: water passage for the cylinder space
17: cylinder space 18: water discharge hole 19: opening chamber
20: gasket 21: gasket 22: fixing bolt
23: discharge passage 24: water supply passage 25: water chamber
26: water injection passage 27: operating water passage 28: operating water supply device

Claims (4)

A rotating vertical shaft (1-2) is installed at the inner center, and a distributor (1-1) is installed at the inner center of the upper rotary assembly (1-2) of the rotating vertical shaft (1-2), and a plurality of separations around the distributor (1-1) are provided. The plate (2) is installed up and down, the main body of the Paul (6), the piston 5 is installed around the distributor (1-1) and the lower part of the separation plate (2), and the plurality of separation plates (2) vertical gap Separation space (3) formed by the gap, and a solid component space (4) formed on the outside of the plurality of separation plates (2) is formed, the discharge hole (7) for discharging the solid content on the side of the Paul body (6) And a hood 8 having a liquid inlet 1 formed on the upper portion of the Paul body 6, and a lock ring 9 between the Paul body 6 and the hood 8. In the centrifuge Paul structure in which the lot valve 12 and the lower watertight cover 14 are installed,
The Paul body 6, the lower watertight cover 14, and the pilot valve 12 of the Paul structure are separable,
In addition, a pilot valve 12 is installed below the circumferential surface of the Paul body 6, and a lower watertight cover 14 is coupled in the circumferential direction outside the pilot valve 12, so that the piston 5 and the Paul body ( 6) a closing chamber 10 is formed between the cylinder body 17 and a cylinder space 17 is formed between the circumferential surface of the main body 6 and the pilot valve 12, the lower and lower watertight of the pilot valve 12 An opening chamber 19 is formed between the inner circumferential surface of the cover 14, and a water chamber capable of receiving water from the operating water supply device 28 installed in the centrifuge body through the lower central hole of the Paul body 6. Centrifuge Paul structure, characterized in that 25 is installed The method of claim 1, wherein the Paul body (6), the lower watertight cover (14), the pilot valve 12 is detachable, bolted, respectively, and also the Paul body (6) and the pilot The valve 12 is detachably coupled to each other to form a cylinder space 17 between the circumferential side surfaces, and the lower watertight cover 14 and the pilot valve 12 are detachably coupled to each other. Centrifuge Paul structure, characterized in that the pilot valve gap (12-1), the temporary storage space 13 and the opening chamber (19) is formed therebetween. The piston (5) of claim 1, wherein the closing chamber (10) is filled with a closing water supplied to the water supply passage (24) through the operating water supply device (28) and the water chamber (25), and receives a hydraulic pressure. Is pushed upward to close the Paul, the centrifuge Paul structure, characterized in that the liquid to be centrifuged is supplied through the liquid inlet (1) According to claim 1, wherein the operating water supply device 28 is installed outside the rotating shaft of the lower portion of the Paul body 6, is fixed to the centrifuge body, it is connected to the external water supply pipe for supplying water from the outside After the pressure-increased pressure water is drawn in through the operating water passage 27, the water supply passage of the water injection passage 26 narrows and passes through a nozzle injection port formed to be inclined toward the upper axis of rotation, and at a high speed in the nozzle injection port. The jetted water impinges on the rotary shaft inclined upwardly and changes in a reverse direction by the rotary shaft, and collects in the upper water chamber 25.

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