KR101422917B1 - Automatic adjustable compression screwpress - Google Patents

Abstract

The present invention relates to a screw press for uniform dewatering of sludge, comprising: a pressure supply device (1) for supplying a fluid at an appropriate pressure; A fluid supply line (2) to which fluid is supplied; A pressure regulator 4; A pressure reducing regulator 5; A pressure sensor (6) capable of measuring the pressure of the supply fluid; A rotary joint 7 in which a bearing is incorporated; A drive shaft 8 connected to the fluid supply line 2 by the rotary joint 7 and having a hollow therein; A compression seal (9); A screw shaft (10); And a diaphragm 12 provided outside the reduced diameter of the screw shaft.
The screw press of the present invention utilizes the expansion and contraction characteristics, which are natural characteristics of the diaphragm relative to the pressure, by controlling the pressure of the fluid filled in the gap between the screw shaft and the diaphragm, Can be constantly controlled.

Description

{AUTOMATIC ADJUSTABLE COMPRESSION SCREWPRESS}

The present invention relates to a screw press, which is capable of uniform dewatering in the treatment of sludge in the field of water treatment, thereby increasing dewatering efficiency, detecting and eliminating the possibility of overloading in advance, Lt; / RTI >

The organic sludge containing a large amount of water discharged from the sewage, industrial wastewater, and livestock wastewater is generally used as a water treatment device for forming a flocculation sludge by adding a polymer flocculant and continuously dewatering the same.

A known document is the registered patent 10-1047351 filed and filed by the applicant of the present invention. The above document does not require any other concentration and filtration equipment for dewatering moisture-containing sludge discharged from sewage, industrial wastewater, manure, livestock wastewater, etc., and does not require the addition of sludge and coagulation, concentration, filtration, To an integrated screw press having a structure capable of continuous pressurizing and dewatering

An outer cylinder 27 located inside the main body frame 21 and composed of a concentration screen 22, a filtration screen 23, a compression screen 24, a screen reinforcement plate 25 and a screen reinforcement frame 26, ;

 A cleaning water supply pipe (28) installed inside the body frame to supply washing water;

 A cleaning water injection nozzle (29) formed on the surface of the cleaning water supply pipe to spray cleaning water to the outer cylinder;

 A screw shaft 10 installed to penetrate the inside of the outer cylinder and having a sludge supply port formed at a side thereof and rotated by the power transmitted by the driving chain as the screw driving motor rotates;

A pressure plate (16) positioned behind the outer cylinder to adjust the water content of the dewatering cake;

A screw drive motor (30) located at one side of the main body frame and producing power to rotate the screw shaft;

A driving chain (31) connected to the screw driving motor and the screw shaft for transmitting the power produced by the screw driving motor to the screw shaft;

A sprocket 32 positioned at one side of the screw shaft and rotating the sprocket;

A screw blade 11 spirally surrounding the screw shaft;

A scraper (33) installed in contact with the outside of the screw blade to prevent microblocking of the outer cylinder;

And a filtrate outlet 34 formed at a lower side of the main frame for discharging the filtrate.

As the conical shape shaft rotates, the coagulating sludge moves along the screw blade by rotation of the screw integrally installed in the shaft. The coagulated sludge to be conveyed moves in the volume due to the change in the relative distance between the outer cylinder and the conical screw shaft It is possible to realize a low moisture content of the final dewatering cake and also to integrate the coagulation, concentration, filtration and squeeze dehydration, so that the narrow dewatering cake It is possible to install in one place and prevent the clogging of the screen micropores and automatically detect and eliminate the clogging phenomenon, so that the dewatering cake can be stably produced.

However, since the screw press of the above-mentioned technology can not uniformly adjust the compression pressure suitable for the operation according to the phase according to the angle in the circumferential direction with respect to the central axis of the screw shaft, the coagulation state of the agglomerated sludge can not be uniformly controlled by phase As a result, during the pressing and discharging process, there occurs a difference in pressing force according to the phase with respect to the central axis of the screw shaft. At this time, when the compression force acting in the conveying direction of the agglomerated sludge at a certain phase is larger than the force applied to the sludge conveying direction by the pressure of the set pressure plate, the pressure plate is opened, which is located at a phase where the compressing pressure is relatively small The coagulated sludge containing excessive moisture is discharged to the cake in a state in which the dehydration is not sufficiently performed, whereby the dehydration rate of the whole cake is discharged in a non-uniform state, thereby causing a decrease in the overall dehydration rate.

Existing screw presses are controlled by an indirect method of raising the pressure applied to the pressure plate or raising the squeezing pressure by increasing the amount of sludge supplied when the dehydration rate is lowered. In this case, when the pressure applied to the pressure plate is increased to increase the dehydration rate in the state where different pressing forces are generated for each phase, the driving device may be overloaded due to overloading, In the case of increasing the sludge supply amount, the increased sludge affects the control of the compression pressure after passing through the coagulation and concentration process, which is a process before the compression and discharge process, in which the problem of the compression pressure occurs, It is difficult to solve the problem in real time due to the occurrence of an excessive time difference at the time of adjustment. As a result, existing screw presses are structured in such a manner that there is no way to appropriately control the difference in compression pressure between phases, which makes it difficult to control a stable dewatering rate, thereby making it difficult to achieve overall operating efficiency optimization to be.

Further, even when the screw press is operated in one place, the squeezing characteristics of the screw press are inevitably changed in accordance with the variation of the production rate of the sludge and the physical and chemical characteristics of the produced flock due to the difference of the composition of the sludge, In the case of the press, there is no way to prevent the occurrence of the problem in advance because there is no way to detect the fluctuation characteristics of the pressing pressure according to such characteristic change in advance.

Patent No. 10-1047351

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The present invention can uniformly control the squeezing pressure applied to the sludge by the phase in the circumferential direction with respect to the central axis of the screw shaft during the squeezing and discharging processes during the dewatering process of the continuously introduced sludge, The present invention provides a screw press capable of reliably dewatering and improving the operation efficiency by detecting it before the occurrence of compression and immediately eliminating it.

DISCLOSURE OF THE INVENTION In order to solve the above problems,

A pressure supply device (1) for supplying an appropriate pressure fluid to the screw press;

A fluid supply line (2), one end of which is attached to the pressure supply device (1) and the other end is attached to a screw press to supply fluid through an internal space;

A filter (3) installed between the pressure supply device (1) and the pressure regulating device (4) for removing impurities and moisture contained in the supply fluid;

A pressure regulating device 4 attached to one point of the fluid supply line 2 to control the pressure rise of the supply fluid;

(5) attached to one point of the fluid supply line (2) to control the pressure drop of the supply fluid;

A gap between the screw shaft 10 and the diaphragm 12 attached at one point between the pressure regulating device 4 or the pressure reducing regulator 5 of the fluid supply line 2 and the rotary joint 7, A pressure sensor (6) capable of measuring the pressure of the supply fluid to be filled in;

A rotary joint 7 attached to an end of the fluid supply line 2 and incorporating a bearing for connecting the fluid supply line 2 to a hollow formed inside the drive shaft 8;

A drive shaft 8 connected to the fluid supply line 2 by the rotary joint 7 and having a hollow therein;

A compression seal (9) attached to an end of the drive shaft (8);

A plurality of holes are formed perpendicular to the center of the shaft so that the fluid supplied through the hollow formed in the drive shaft 8 is connected to the drive shaft 8 by the compression seal 9, A screw shaft 10 whose diameter is reduced at a portion where the diaphragm 12 is assembled;

A diaphragm (12) installed outside of a reduced diameter of a screw shaft configured to allow the supply fluid to move;

A diaphragm 12 is assembled to the outer surface of the screw shaft 10 by means of a wrench bolt 17 and a gap between the screw shaft 10 and the diaphragm 12 is filled with a fluid having an appropriate pressure, So as to uniformly maintain the phase-by-phase squeezing pressure in the circumferential direction with respect to the central axis of the screw shaft (10) as a means for solving the problem.

The diaphragm 12 is an elastic material. However, the present invention is not limited thereto.

The upper surface of the diaphragm 12 made of an elastic material to be assembled to the screw shaft 10 does not protrude more than 5 mm beyond the outer surface of the screw shaft 10 in the range of the control pressure of the compressed fluid of 2 ± 1.5 kgf / (12) is assembled such that the shaft outer diameter of the portion where the diaphragm (12) is located is reduced. However, the present invention is not limited thereto.

The pressure sensor 6 is characterized in that it is operated to measure the actual squeezing pressure applied to the flocculating sludge or dewatering cake during the pressing and discharging process. However, the present invention is not limited thereto.

And the pressure plate (16) is removed between the screw shaft (10) and the diaphragm (12). However, the present invention is not limited thereto.

The screw shaft 10 is characterized in that the screw shaft 10 has a tapered shape. However, the present invention is not limited thereto.

Characterized in that the fluid is selected from a compressible gas comprising compressed air or an incompressible fluid comprising water. However, the present invention is not limited thereto.

The screw press according to the present invention controls the inner pressure of the gap between the outer surface of the screw shaft 10 and the diaphragm 12 to be constant, so that even if there is a difference in the squeezing pressure of the agglomerated sludge depending on the phase, So that equilibrium can be achieved at the same pressure to enable uniform dewatering of the flocculated sludge.

Further, by controlling the internal pressure of the gap between the outer surface of the screw shaft 10 and the diaphragm 12 by controlling the pressure or reducing pressure, it is possible to produce a cake having a required water content by controlling the dewatering rate by converting the coagulated sludge pressure, It is possible to perform the self-diagnosis function before the accident to enable the operation.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view schematically showing the overall structure of a screw press of Patent No. 10-1047351; Fig.
2 is a view showing main components of a screw press for dewatering sludge uniformly according to the present invention.
3 is a view showing a form in which a diaphragm is attached to the outside of the screw shaft of the present invention and a processing form of the screw shaft 10 applied to the diaphragm.
4 is a detailed view of the main part of Fig.
5 is a view showing a state in which the condensed sludge is uniformly compressed according to the fluid pressure in the diaphragm.
FIG. 6 is a view showing an outer appearance in which a diaphragm is installed in a screw press forming a pressing pressure through a tapered screw shaft. FIG.
Fig. 7 is a view showing an outer appearance in which a diaphragm is provided in a screw press for forming a compression pressure by changing the pitch of the screw. Fig.

The present invention relates to a pressure supply device (1) for supplying a fluid of an appropriate pressure to a screw press;

A fluid supply line (2), one end of which is attached to the pressure supply device (1) and the other end is attached to a screw press to supply fluid through an internal space; A filter (3) for removing impurities and moisture contained in the supply fluid; A pressure regulating device 4 attached to one point of the fluid supply line 2 to control the pressure rise of the supply fluid; (5) attached to one point of the fluid supply line (2) to control the pressure drop of the supply fluid;

A gap between the screw shaft 10 and the diaphragm 12 attached at one point between the pressure regulating device 4 or the pressure reducing regulator 5 of the fluid supply line 2 and the rotary joint 7, A pressure sensor (6) capable of measuring the pressure of the supply fluid to be filled in; A rotary joint 7 attached to an end of the fluid supply line 2 and incorporating a bearing for connecting the fluid supply line 2 to a hollow formed inside the drive shaft 8; A drive shaft 8 connected to the fluid supply line 2 by the rotary joint 7 and having a hollow therein; A compression seal (9) attached to an end of the drive shaft (8); A plurality of holes are formed perpendicular to the center of the shaft so that the fluid supplied through the hollow formed in the drive shaft 8 is connected to the drive shaft 8 by the compression seal 9, A screw shaft 10 whose diameter is reduced at a portion where the diaphragm 12 is assembled; A diaphragm (12) installed outside of a reduced diameter of a screw shaft configured to allow the supply fluid to move; A diaphragm 12 is assembled to the outer surface of the screw shaft 10 by means of a wrench bolt 17 and a gap between the screw shaft 10 and the diaphragm 12 is filled with a fluid having an appropriate pressure, And the pressurization pressure per phase in the circumferential direction with respect to the central axis of the screw shaft (10) is uniformly maintained, thereby making the screw press capable of uniform dewatering.

The present invention is based on static pressure control for keeping the pressure between the screw shaft 10 and the diaphragm 12 constant. When the pressure of the fluid supplied from the pressure supply device 1 is kept constant, The same internal pressure is also formed in the gap between the outer surface of the shaft 10 and the diaphragm 12. At this time, as shown in [static pressure control] at the top of FIG. 5, due to the characteristics of the diaphragm 12 installed, The diaphragm 12 of the pressure-applied portion 20 shrinks and the diaphragm 12 of the portion 18 to which the relatively low pressure is applied expands, thereby eliminating the pressure difference in the circumferential phase around the screw shaft axis So that the flocculated sludge is squeezed at a constant pressure in the entire phase (19), thereby enabling uniform dewatering of the flocculated sludge due to the uniform pressing pressure of the diaphragm (12) It has a structure.

Further, the present invention is characterized in that a screw press capable of uniform dewatering according to a uniform pressing pressure of the flocculating sludge is characterized by being selected from a compressible gas containing compressed air and an incompressible fluid containing water as the fluid do.

In addition, when an excessive high compression pressure is generated rather than a pressure deviation according to the phase, the pressure of the fluid which is constantly maintained in the gap between the screw shaft 10 and the diaphragm 12 is increased. On the contrary, When the pressure is generated, the pressure of the fluid that has been kept constant is lowered, which is measured through the pressure sensor 6, thereby confirming that normal dewatering is not performed. In this case, The pressure of the internal fluid of the diaphragm 12 can be controlled to the optimal compression pressure through pressurization or depressurization as shown in FIG. So that the uniform dewatering function as described above is performed in the same manner. As described above, the fluid pressure inside the diaphragm 12 can be prevented from being overloaded by operating the screw press under a constant compression pressure by the static pressure, pressure and depressurization. If an unexpected sudden overload occurs, The internal pressure of the diaphragm 12 installed in the compression and discharge process, which is a main process of the generation, is reduced and the pressure of the overloaded portion is directly controlled by the volume increase effect through the contraction of the diaphragm 12, This makes it possible to operate the screw press in a stable and efficient manner by preventing the occurrence of a problem and the time required for the control from being different. If the pressure value of the pressure sensor 6 installed on the fluid supply line 2 changes greatly in a state in which a certain amount of sludge and an optimized amount of the polymer flocculant corresponding thereto are controlled, 12). This indicates that the amount of agglomerated sludge is rapidly fluctuating. Therefore, it is necessary to warn the driver of the occurrence of the agglomerated sludge so as to take precautions for stable operation of the screw press It is possible to support. The advantage of the present invention is that the stable unattended automation of the screw press can be easily implemented by applying the pressure control method of the diaphragm 12 which can detect the possibility of such trouble in advance and can control the compression pressure simply and efficiently.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described in detail with reference to the drawings. In describing the following detailed description of the invention, various specific details are set forth in order to provide a more detailed description of the invention. However, it will be appreciated by those skilled in the art that the present invention may be understood by those skilled in the art without departing from such specific details. In some instances, it should be noted that portions of the invention that are not commonly known in the description of the invention and are not significantly related to the invention do not describe confusing reasons to explain the present invention.

1 is a view schematically showing the overall configuration of a dewatering screw press of Patent No. 10-1047351. The detailed description and the advantages and disadvantages thereof are the same as those described above and will be omitted.

2 is a view showing a configuration of apparatuses of screw presses for sludge uniform dewatering of the present invention. As shown, the screw press of the present invention comprises a pressure supply device 1; A fluid supply line (2); A filter (3); A pressure regulator 4; A pressure reducing regulator 5; A pressure sensor (6); A rotary joint 7; A drive shaft 8; A compression seal (9); And comprises a screw shaft (10) and a diaphragm (12).

As the pressure supply device 1, a compressor capable of supplying air as a compressible gas at a pressure of at least 5 kgf / cm2 is a basic specification. However, a person skilled in the art is not necessarily limited to this, and a person skilled in the art will understand that a compressible gas other than air or an incompressible fluid containing water In order to attain the object and effect of the invention, it is possible to select appropriately, in which case the components installed in the fluid supply line should be selected as products suitable for incompressible fluids.

A filter 3 is provided at the rear end of the pressure supply device 1 along the fluid supply line 2; A pressure regulator 4; A pressure reducing regulator 5; A pressure sensor 6 is attached.

At this time, by controlling the pressure adjusting device 4 and the pressure reducing device 5, the fluid supplied from the pressure supply device 1 is supplied to the gap between the outer surface of the screw shaft 10 and the diaphragm 12 at a pressure of 2 ± 1.5 kgf / To control the compression pressure. However, the present invention is not necessarily limited thereto, and those skilled in the art can appropriately design, modify, and carry out the present invention without departing from the technical spirit of the present invention.

The filter 3 removes impurities and moisture contained in the fluid supplied from the pressure supply device 1 to prevent the clogging of the fluid supply line 2 due to impurities and moisture and the clogging of the fluid supply line 2 Thereby eliminating the possibility of malfunction of the pressure regulator 4, the pressure regulator 5 and the pressure sensor 6 installed.

A pressure sensor 6 is provided between the pressure regulating device 4 of the fluid supply line 2 and the rotary joint 7 and the pressure regulating device 5.

The pressure sensor 6 can be operated to measure the actual squeezing pressure applied to the flocculating sludge or dewatering cake during the pressing and draining operations.

The pressure sensor 6 is a device for measuring the pressure of the fluid filled between the screw shaft 10 and the diaphragm 12 and the measured pressure is a value indicating the pressure at which the diaphragm 12 squeezes the flocculating sludge . When the operator inputs the cake moisture ratio to be controlled to the control panel, the control panel controls the pressure regulating device 4 so that a preset pressure of the sludge may be maintained between the screw shaft 10 and the diaphragm 12, Or the pressure-reducing regulator 5 is controlled. In the control method, when the pressure value of the pressure sensor 6 is lower than the pressure value set in accordance with the cake moisture content, the control panel opens the pressure regulating device 4, and the high-pressure fluid supplied through the pressure supply device 1 When the pressure value of the pressure sensor 6 is higher than the pressure value set in accordance with the moisture content of the cake, the control panel opens the decompression control device 4 To control the release of the pressure fluid filled between the screw shaft (10) and the diaphragm (12) to the atmosphere, and at the time when the pressure sensor (6) indicates the set pressure value, the pressure regulator By closing the opened gate of the device 5, the supply or discharge of additional compressed fluid is shut off to control the constant pressure to be maintained. When the operator modifies the moisture content of the cake to be produced, the pressure regulating device 4 or the pressure regulating device 5 is controlled in the same manner as described above so as to have a predetermined pressure difference according to the modified cake moisture content In this way, the operator can easily control the cake moisture content desired by the operator.

Only the fluid pressure between the screw shaft 10 and the diaphragm 12 controls the compression pressure and the pressure plate can be removed. In the case of an existing screw press, a tapered pressure plate is provided at the end of the cake outlet, and a resistance force is applied in a direction opposite to the direction of discharge of the cake. The resistance force applied between the screen 15 and the screw shaft 10 As shown in Fig. For this reason, the pressure generated by the resistance force applied by the pressure plate to the cake or agglomerated sludge between the screen 15 and the screw shaft 10 through the expansion and contraction of the diaphragm 12 of the present invention, It is possible to remove the pressure plate because the function of the pressure plate can be exhibited by applying a pressing pressure perpendicular to the conveying direction of the flocculating sludge. This is similar to the dehydration function of the belt press which applies dehydration by applying a pressing pressure perpendicular to the conveying direction of the sludge .

3 is a view showing a form in which a diaphragm 12 is attached to an outer surface of a screw shaft 10 applied to a screw press of the present invention and a processing mode of a screw shaft 10 applied thereto, As shown in FIG.

In order to prevent the pressure loss of the fluid at an appropriate pressure filled in the gap between the diaphragm 12 and the reduced diameter screw shaft 10 as shown, the diaphragm 12 is made of a high-pressure gasket 13) and the compression plate (14) and assembled with a wrench bolt (17).

5 is a view showing an operating state of the diaphragm 12 according to the density of the sludge.

By controlling the internal pressure of the gap between the outer surface of the screw shaft 10 and the diaphragm 12 to be constant, even if there is a difference in the squeezing pressure of the agglomerated sludge according to the instantaneous phase as shown in the [static pressure control] Due to the characteristics of the diaphragm 12, the equilibrium is established at the same pressure, which means that the coagulated sludge is squeezed at a constant pressure, which enables uniform dehydration of the flocculated sludge. 5, by controlling the internal pressure of the gap between the outer surface of the screw shaft 10 and the diaphragm 12 by controlling the pressure or the pressure reduction of the sludge squeezing pressure to control the dewatering rate as shown in [Pressure and Decompression Control] A cake having a required moisture content can be produced. At this time, a uniform dehydration function by the above-described static pressure control is also performed simultaneously.

The process of maintaining the appropriate pressure will be described as follows. If the supply of the compressed fluid is stopped as soon as the pressure value of the pressure sensor 6 reaches the pressure to be controlled while supplying the compressed fluid between the outer surface of the screw shaft 10 and the diaphragm 12, It is a simple way to complete. It is also important to assemble and manage the related components so that there is no leakage during the flow period of the compressed fluid. In the same manner, when compressed air is supplied between the outer surface of the screw shaft 10 and the diaphragm 12 through the pressure regulating device 4, the pressing pressure is increased, and the pressure of the screw shaft 10) When the compressed air between the outer surface and the diaphragm 12 is released to the atmosphere, the compression pressure is lowered. Therefore, the compression pressure can be adjusted through these two control methods and the pressure value detection and comparison of the pressure sensor 6 , The static pressure control is performed from the time when supply or discharge of compressed air is stopped. Substantially constant pressure control is performed from the differential viewpoint even while the compression pressure is changing during the process of supplying or discharging compressed air.

6 is a view showing a state in which the present invention is applied to a screw shaft 10 of a screw press which generates a mechanical pressing force of agglomerated sludge through a tapered shape of the screw shaft 10.

In the case of the screw shaft 10 having a tapered shape, the shaft outer diameter between the screw 11 and the screw in the discharge and compression process in which the diaphragm 12 is installed is secured to the screw 11) Cut along the pitch to make the outer diameter smaller than the existing outer diameter. The working depth is determined according to the outer diameter of the existing shaft, but it is stable to process to a depth of 30% or less as compared with the conventional axial outer diameter. At this time, on the central axis of the screw shaft 10, the fluid supplied from the pressure supply device 1 is supplied to the gap between the diaphragm 12 and the screw shaft 10 A hole is machined so as to be in the form of a hollow and a hole perpendicular to the hollow formed at the center of the shaft is formed in a portion where the diaphragm 12 is provided to supply a pressure fluid to the gap between the diaphragm 12 and the screw shaft 10 And has the same shape as the structure shown in the cross-sectional view of Fig. The method of manufacturing the screw shaft 10 is merely one example of the method for manufacturing the screw shaft 10 of the present invention. The method of manufacturing the screw shaft 10 is not limited to the above method, Can be carried out by appropriately changing the production method.

7 is a view showing a state in which the present invention is applied to a screw press which generates a mechanical pressing force of agglomerated sludge through a change in the pitch of the screw 11 provided on the screw shaft 10. [

The shape of the screw shaft 10 before machining of the screw shaft 10 shown in Fig. 7 is not a tapered shape but a method of manufacturing the screw shaft 10 having the same shaft diameter, the shaft outer diameter and the central shaft by the hollow machining method, And the explanation is omitted.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments described herein but may be embodied in other forms. Rather, the embodiments disclosed herein are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the invention to those skilled in the art.

The terminology used herein is for the purpose of illustrating embodiments and is not intended to be limiting of the present invention. In the present specification, the singular form includes plural forms unless otherwise specified in the specification. As used herein, the terms "comprises" and / or "comprising" do not exclude the presence or addition of one or more other elements.

1. Pressure supply 2. Fluid supply line 3. Filter 4. Pressure regulator
5. Pressure regulator 6. Pressure sensor 7. Rotary joint 8. Drive shaft
9. Compression seal 10. Screw shaft 11. Screw 12. Diaphragm
13. Compression gasket 14. Compression plate 15. Screen 16. Pressure plate
17. Wrench Bolts

Claims (7)

A pressure supply device (1) for supplying an appropriate pressure fluid to the screw press;
A fluid supply line (2), one end of which is attached to the pressure supply device (1) and the other end is attached to a screw press to supply fluid through an internal space;
A filter (3) for removing impurities and water contained in the supply fluid;
A pressure regulating device 4 attached to one point of the fluid supply line 2 to control the pressure rise of the supply fluid;
(5) attached to one point of the fluid supply line (2) to control the pressure drop of the supply fluid;
A gap between the screw shaft 10 and the diaphragm 12 attached at one point between the pressure regulating device 4 or the pressure reducing regulator 5 of the fluid supply line 2 and the rotary joint 7, A pressure sensor (6) capable of measuring the pressure of the supply fluid to be filled in;
A rotary joint 7 attached to an end of the fluid supply line 2 and incorporating a bearing for connecting the fluid supply line 2 to a hollow formed inside the drive shaft 8;
A drive shaft 8 connected to the fluid supply line 2 by the rotary joint 7 and having a hollow therein;
A compression seal (9) attached to an end of the drive shaft (8);
A plurality of holes are formed perpendicular to the center of the shaft so that the fluid supplied through the hollow formed in the drive shaft 8 is connected to the drive shaft 8 by the compression seal 9, A screw shaft 10 whose diameter is reduced at a portion where the diaphragm 12 is assembled;
A diaphragm (12) installed outside of a reduced diameter of a screw shaft configured to allow the supply fluid to move;
A diaphragm 12 is assembled to the outer surface of the screw shaft 10 by means of a wrench bolt 17 and a gap between the screw shaft 10 and the diaphragm 12 is filled with a fluid having an appropriate pressure, Wherein the pressurizing pressures in the circumferential direction with respect to the central axis of the screw shaft (10) are uniformly maintained, The method according to claim 1,
Characterized in that the diaphragm (12) is made of an elastic material, and a screw press delete The method according to claim 1,
Characterized in that the pressure sensor (6) is operated to measure the actual squeezing pressure applied to the flocculating sludge or dewatering cake during the pressing and draining process. The method according to any one of claims 1 to 3,
Characterized in that the compression pressure is controlled only by the fluid pressure between the screw shaft (10) and the diaphragm (12), and the pressure plate is removed, and a uniform dehydrating screw press The method according to claim 1,
Characterized in that the screw shaft (10) has a tapered shape with a tapered end. The screw shaft (10) The method according to any one of claims 1, 2, 4, and 6,
Characterized in that the fluid is selected from a compressible gas comprising compressed air or an incompressible fluid comprising water.

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