KR20190026644A - Centrifuge and Centrifugation Method - Google Patents

Abstract

A basket 2 accommodated in the basket 2 and integrally rotatable and relatively movable in the direction of the axis O and provided in the basket 2; (7) for pushing out the cake filtered by the filtration screen (2a) from the treated product to the side of the opening end (2b), and a presser (7) And a measuring section for measuring an extrusion load of the cake extrusion by the advanced and retractive driving section 11. The presser foot 7 (7a, 7b) ) And the basket (2) and the forward and backward stroke of the presser (7) and the basket (2).

Description

Centrifuge and Centrifugation Method

The present invention is characterized in that a processed material supplied in a basket rotated around an axis is filtered by a filtration screen provided in a body portion of the basket and the cake filtered from the processed material is housed in the basket and is integrally rotatable The present invention relates to an extrusion type centrifugal separator and a centrifugal separation method which are discharged from an opening end of a basket by a press work which is relatively movable in an axial direction with respect to the basket.

The present application claims priority based on Japanese Patent Application No. 2016-133666 filed on July 5, 2016, the contents of which are incorporated herein by reference.

As such an extrusion type centrifugal separator, for example, Patent Document 1 discloses a centrifugal separator having an outer basket rotated around an axis, an inner basket coaxially disposed in the outer basket, integrally rotating and axially moving back and forth relative to the outer basket And a centrifugal separator for centrifuging the centrifugal separator. In this two-stage basket-type centrifugal separating apparatus, there is a centrifugal separator in which a workpiece to be filtrated by centrifugal separation is divided into a pressurizing plate which is supported by an outer basket and arranged in the inner basket so as to face the opening of the processing water supply line, Shaped distributor arranged so as to surround the opening of the treated water supply pipe.

In such a centrifugal separator, the processed material supplied from the opening portion of the supply pipe to the pressure distributing portion and the distributor is deposited on the inner circumferential surface of the filtration screen provided in the body portion of the inner basket by centrifugal force and filtered to form a cake. The cake is also deposited in the axial direction of the inner basket by advancing the inner basket toward the opening end side of the outer basket. Subsequently, the treated water cake is extruded by the pressure-pressing by the retraction of the inner basket to the outer basket and discharged to the inner peripheral surface of the outer basket. The treated cake discharged to the inner circumferential surface of the outer basket is further filtered by the filtration screen of the outer basket in this way, and is extruded by advancing the inner basket and discharged from the opening end of the outer basket.

Japanese Patent Application Laid-Open No. 2014-091093

In the centrifugal separating apparatus, relative movement in the axial direction of the basket and the press-pushing (in the centrifugal separator described in Patent Document 1, forward and backward movement of the inner basket against press-pushing) is generally performed by hydraulic pressure driven by the hydraulic piston . Therefore, the moving stroke at the time of forward movement, the moving stroke at the time of retreating, and the moving speed at the time of advancing and the moving speed at the time of retreating are equal to each other.

In such a centrifugal separator, the load on the centrifugal separator by the solid component of the solid-liquid separation and dehydration-treated product is not always constant, but the load caused by the solid component is increased or decreased depending on the amount of the treated water or the solid component concentration in the treated product do. The thickness of the cake filtered from the treated product is increased and the thickness of the cake layer formed on the inner circumferential surface of the filtration screen is not uniform when the solid content is increased and the load is increased by the increase in the amount of treated water and the solid content, There is a possibility that an abnormal vibration is generated in the rotating basket.

On the other hand, when the relative moving speed or the moving stroke of the basket and the pressing work is set to a large value in advance with respect to the load caused by such solids, the thickness of the cake formed on the inner circumferential surface of the filtration screen becomes thin and the amount of cake retained in the basket So that the residence time of the treated material in the basket is shortened. The main factor affecting the dewatering performance by the centrifugal separator is the centrifugal force due to the rotation of the basket and the residence time in the basket. Therefore, if the operation is performed in a state in which the residence time is short, the dewatering performance of the centrifugal separator becomes excessive with respect to the load caused by the solid component, and the dewatering performance of the centrifugal separator can not be sufficiently exhibited.

The present invention has been made under the circumstances described above, and it is an object of the present invention to provide a caking machine which can cope with an increase or decrease in the load accompanied by variation in the amount of treated water or solid content, And to provide a centrifugal separation device and a centrifugal separation method which can exert such a function.

A first aspect of the centrifugal separator of the present invention is a centrifugal separator according to the first aspect of the present invention is a centrifugal separator of a first aspect of the present invention including a tubular basket having a filtration screen provided on a body thereof and rotated around an axis thereof, A pressurizing press which is movably installed and pushes out the cake filtered by the filtration screen from the processed material supplied in the basket toward the opening end side of the basket, and one of the pressurizing press and the basket is moved forward and backward in the axial direction relative to the other, And a measuring section for measuring an extruded load in a forward / backward driving section when the cake is extruded toward the opening end side of the basket by forward and backward movement of one of the pressurization by the forward / backward driving section and the forward / backward movement of the basket, Based on the measured extrusion load, the relative movement of the presser and the basket by the advancing / Help, at least one of the forward and backward stroke is controlled on the other side of one of a pressure and published basket.

A first aspect of the centrifugal separation method of the present invention is a centrifugal separation method in which a filtration screen is provided in a body part and a processed water is supplied into a tubular basket rotating around an axis and the cake filtered by the filtration screen is passed through a basket And the basket is extruded and discharged to the opening end side of the basket by a press-forming machine which is rotatable integrally with the basket and relatively movable in the axial direction relative to the basket. The centrifugal separating method is characterized in that one of the press- And the pushing load of the forward / backward driving portion when the cake is extruded toward the opening end side of the basket by forward / backward movement of one of the forward and backward driving portions and the basket The measurement is performed by the measuring unit, and based on the extrusion load measured by the measuring unit, And the relative movement speed of the pressing work and the basket by the easel and the forward and backward strokes of the other of the pressing work and the basket are controlled.

In the first embodiment of the centrifugal separator and the centrifugal separator according to the first aspect, for example, the centrifugal separator as described in Patent Document 1 has the extruded plate at a predetermined position in the axial direction, and the basket moves forward and backward in the axial direction At least one of the moving speed and the advancing and retreating stroke of the basket by the advancing / retreating drive unit for the pressing of the basket is controlled. On the other hand, when the basket is in a fixed position in the axial direction and the extruded plate moves forward and backward in the axial direction, at least one of the moving speed and the advancing and retreating stroke of the pressing and pressing drive by the advance and retreat drive unit is controlled.

Therefore, in any case, when the extruded load tends to increase, that is, when there is a possibility that the load of the solid component is increased due to an increase in the amount of treated water supplied or the solid content concentration in the processed product and the cake becomes thick, So that at least one of the strokes increases. Thereby, it is possible to reduce the supply amount of the treatment water per unit length in the axial direction of the filtration screen, thereby making it possible to equalize the thickness of the cake. As a result, a cake having a non-uniform thickness is formed on the filtration screen of the basket rotating at a high speed, thereby preventing occurrence of abnormal vibration and the like, and stable filtration can be achieved.

On the other hand, when the load due to the solid content is decreased due to the decrease in solid content concentration in the treated water or in the treated water and the extruded load tends to decrease, control is performed so that at least one of the relative moving speed and the stroke is decreased do. Thereby, it is possible to increase the supply amount of the treated water per unit length in the axial direction of the filtration screen. As a result, it is possible to prevent formation of a cake having an irregular thickness, and to secure a long residence time of the treated product in the basket, to exert sufficient dewatering performance of the centrifugal separator, and to promote efficient balanced filtration It becomes possible.

Further, in order to control the relative moving speed of the press-feeding and the basket, for example, even when one of the basket and the pressure-pressing is moved forward and backward by the hydraulic pressure driven by the conventional hydraulic piston, By providing a difference in the diameter of the flow path of the hydraulic fluid at the time of retreating, by providing a speed controller, or by bypassing the cylinder discharge side flow path, by making a difference in the discharge speed of the hydraulic fluid. However, in this case, since the hydraulic pressure becomes unstable at the time of forward / backward switching, it may be difficult to control at a predetermined relative moving speed. Further, it is almost impossible to control the compression stroke, the basket, and the retracting stroke with hydraulic pressure driven by a general hydraulic piston.

Therefore, as described above, in order to stably control at least one of the relative movement speed of the press-pushing and the basket and the back-and-forth stroke relative to the other of the press-press and the basket, It is preferable that the motor is driven by an electric motor that is highly responsive and capable of switching back and forth at an arbitrary stroke.

As a forward / backward driving portion driven by such an electric motor, for example, a nut provided coaxially with the piston rod is screwed to a screw shaft so that rotation of an electric motor (servo motor) transmitted to a screw shaft, such as a ball screw, It is possible to use a so-called electric cylinder, which converts to linear motion. In addition, it is possible to use a linear cylinder that linearly moves the piston rod directly by an electric linear motor. Further, a so-called zipper type actuator in which two or more chains are engaged with each other and released into a columnar shape by an electric motor, and the linear motion is performed by retracting the chain while releasing engagement of the chain.

In particular, when the advancing / retreating drive portion is driven by the electric motor, the pushing load can be measured from the current value of the electric motor in the advance / retreat drive portion as the measuring portion. Therefore, it is possible to measure the load of the solids actually acting on the advance / retreat drive part in real time, so that reliable and stable control can be achieved. As such a measurement unit, a load cell provided in the advance / retreat drive unit can be used, for example, not only when the advance / retreat drive unit is an electric motor, but also when it is driven by hydraulic pressure.

INDUSTRIAL APPLICABILITY According to the present invention, the thickness of the cake can be uniformly maintained, irrespective of the increase or decrease in the load accompanied by fluctuations in the amount of treated water or the concentration of solid content, thereby preventing occurrence of abnormal vibration, exhibiting sufficient dewatering performance, And it is also possible to promote efficient filtration.

1 is a cross-sectional view schematically showing the first embodiment of the centrifugal separator of the present invention.
Fig. 2 is an enlarged cross-sectional view of the vicinity of the basket showing the state in which the inner basket is retracted relative to the press-press in the embodiment shown in Fig.
Fig. 3 is an enlarged cross-sectional view of the vicinity of the basket showing the state in which the inner basket is moved forward with respect to the press-rolling in the embodiment shown in Fig.
4 is an enlarged cross-sectional view of the vicinity of the basket showing a state in which the push plate is advanced with respect to the basket in the second embodiment of the centrifugal separator of the present invention.
Fig. 5 is an enlarged cross-sectional view of the vicinity of the basket showing the state in which the extrusion plate is retracted relative to the basket in the embodiment shown in Fig. 4;

1 to 3 show a first embodiment of the centrifugal separator of the present invention. The present invention is applied to a two-stage basket-type centrifugal separator equipped with an outer basket and an inner basket as described in Patent Document 1 Yes. That is, the centrifugal separator according to the present embodiment has a cylindrical outer basket 1 centering on a horizontal axis O provided with an outer filtration screen 1a on the body part, And a cylindrical inner basket (2) which is accommodated in a coaxial manner in a body part and in which an inner filtration screen (2a) is provided. In the first embodiment, the inner basket 2 serves as a basket in the present invention. As the external filtration screen 1a or the internal filtration screen 2a, for example, a cylindrical wire screen or a plate screen is used.

1b and 2b (see Fig. 1) are provided at one end (the right end in the direction of the axis O in Figs. 1 to 3) of the cylindrical outer basket 1 and the inner basket 2 in the axial direction And the other end (left end in the direction of the axis O in Fig. 1 to Fig. 3) is provided in the disk-shaped holding plates 1c and 2c and has a cylindrical shape with a bottom. The length of the inner basket 2 in the axial direction O is shorter than the length of the outer basket 1 in the axial direction O direction. The inner basket 2 is accommodated in the casing 3 and rotated integrally with the outer basket 1 around the axis O. [ The outer diameter of the opening end portion 2b of the inner basket 2 is different from the outer diameter of the outer filtration screen 1a of the outer basket 1 by providing another annular extrusion plate not shown in the opening end portion 2b, As shown in Fig.

The holding plate 1c of the outer basket 1 is provided at one end of a hollow main shaft 5 which is rotatably supported by the bearing 4 and inserted into the casing 3 along the axis O have. A rotational force of a motor or the like is transmitted to a pulley (not shown) and the main shaft 5 rotates, so that the outer basket 1 rotates about the axis O. An extrusion shaft 6 is integrally rotatable through a key (not shown) and inserted into the main shaft 5 so as to be able to move back and forth in the direction of the axis O. The one end of the extrusion shaft 6 is provided on the holding plate 2c of the inner basket 2 so as to slidably move the holding plate 1c of the outer basket 1, (1) and is movable in the direction of the axis (O) from the other end side in the outer basket (1).

A plurality of support shafts 1d are provided on the holding plate 1c of the external basket 1 in parallel to the axis O at intervals in the circumferential direction at positions spaced apart from the axis O from the axis O, And is provided so as to extend to the one side end side. The support shaft 1d protrudes into the inner basket 2 through the holding support plate 2c so as to be slidable. At one end of the support shaft 1d is provided a disk-shaped pressure plate 7 having an outer diameter capable of sliding contact with the inner circumferential surface of the inner filtration screen 2a. The press plate 7 is integrally rotatable about the axis O coaxially with the outer basket 1 and the inner basket 2 and is integrally rotatable with respect to the inner basket 2 in the direction of the axis O It becomes relatively movable.

Further, on a further one end side of the press platen 7, a disk-shaped distributor (distributor) 8 having an opening at the center is supported integrally with the press platen 7 at an interval. Further, a treatment water supply pipe 9 is provided in the casing 3 and inserted therethrough. The supply pipe 9 passes through the opening ends 1b and 2b of the outer basket 1 and the inner basket 2 and is inserted into the opening of the dispersion plate 8 so that the supply port of the supply pipe 9 is press- (7) and the dispersion plate (8).

A substantially U-shaped cake receiving ring 3a whose cross section along the axis O is opened to the inner periphery side is supported on the casing 3 at the outer periphery of the opening end 1b of the outer basket 1, And is disposed so as to surround the end portion 1b. A cake chute (not shown) is provided in the cake receiving ring 3a. After the cake discharged from the opening end 1b of the outer basket 1 is supported by the cake receiving ring 3a, And is discharged from the discharge port 3b provided below the casing 3 through the chute.

The other end of the extruding shaft 6 protrudes from the other end of the main shaft 5. The other end of the extruding shaft 6 protrudes from the extruding shaft 6 through the bearing box 10, The forward / backward driving section 11 for moving the inner basket 2 extruding shaft 6 in the axial direction O while moving it while being allowed to rotate is connected. The bearing box 10 is structured such that it does not rotate with respect to the extrusion shaft 6 which rotates integrally with the main shaft 5 while rotatably supporting the other end of the extrusion shaft 6 by a bearing or the like And is provided so as to be capable of advancing and retreating integrally with the extrusion shaft 6 through a bearing in the direction of the axis (O).

The advancing / retracting driving portion 11 in this embodiment is driven by an electric motor, and in particular, the rotation of the electric motor (servo motor) 11a is arranged so as to extend in the axial direction O in the cylinder box 11b Such as a ball screw, not shown. A nut coaxially installed on a piston rod (not shown) is screwed to the screw shaft, and the advance and retreat drive unit 11 converts the rotation of the electric motor 11a into a linear motion of the piston rod through these screw shafts and nuts . This advance / retreat drive section 11 is a so-called electric cylinder, a servo cylinder, and an electric actuator.

In one embodiment of the centrifugal separating method of the present invention using the centrifugal separator thus configured, the outer basket 1 and the inner basket 2 are rotated integrally, The turbid treatment (slurry) is fed. The supplied processed material hits the pressure plate 7 and is dispersed to the outer circumferential side with the dispersing plate 8 in this embodiment by the centrifugal force and is dispersed on the inner circumferential surface of the inner filtration screen 2a of the inner basket 2 Respectively. 2, when the inner basket 2 is advanced from the state in which the inner basket 2 is retracted relative to the presser 7, the advancing inner basket 2 The processed water is continuously deposited on the inner peripheral surface of the inner filtration screen 2a in the direction of the axis O and filtered by the centrifugal force to form a treated water cake.

3, the processed cake deposited on the inner circumferential surface of the inner filtration screen 2a is conveyed to the retracted inner basket 2 by the retracted inner basket 2. Then, Is extruded in succession to the one end side of the inner basket (2) by the presser (7) relatively advancing relative to the inner basket (2). The treated water cake (cake) deposited on one end side is discharged from the opening end portion 2b to the inner peripheral surface of the outer filtration screen 1a of the outer basket 1 and is likewise deposited continuously in the direction of the axis O, And is further filtered. In addition, when the supply amount of the processed water to be supplied or the solid content concentration is stable, the push-out load by the forward / backward driving unit 11 when the inner basket 2 advances and the processed water cake is extruded is also stable within a predetermined range .

Subsequently, the processed cake deposited and filtered on the inner peripheral surface of the outer filtration screen 1a in this way is conveyed to the opening end of the inner basket 2 by the next advancement of the inner basket 2 reaching the retreat stroke end (Not shown) provided at the opening end portion 2b of the first end portion 2b. Subsequently, the treated water cake deposited on the one side is discharged from the opening end 1b of the outer basket 1 to the cake receiving ring 3a, and further, as described above, the casing 3 As shown in Fig.

The centrifugal separating apparatus having the above configuration is provided with a pushing mechanism 7 for pushing up and pushing the forward and backward driving unit 11 and one of the inner baskets 2 serving as a basket of the present invention (the inner basket 2 in this embodiment) And a measuring section 15 for measuring an extrusion load in the forward / backward driving section 11 when the processed cake is extruded toward the opening end 2b side of the inner basket 2. [ In the centrifugal separation method using the centrifugal separator and the centrifugal separator according to the present invention, the relative pressures of the pressurizing plate 7 and the inner basket 2 by the advancing and retreating drive unit 11 At least one of the moving speed and the advancing / retracting stroke with respect to the other of the press platen (7) and the inner basket (2) is controlled.

That is, in the centrifugal separating apparatus and the centrifugal separating method of the present embodiment, when the treated water supply amount or the solid content concentration fluctuates from the stable state as described above and the extruded load tends to increase beyond the predetermined range, So that at least one of the moving speed and the stroke is controlled to increase. On the contrary, when the extruded load tends to decrease more than the predetermined range, at least one of the relative movement speed and the stroke is controlled to decrease.

Further, in this embodiment, the measuring section 15 measures the current value of the electric motor 11a in the forward / backward driving section 11 and measures the extruded load. As described above, the control includes a known constituent member such as a CPU or a memory for controlling the electric motor 11a so as to control the electric motor 11a based on the extruded load measured by the measuring unit 15 By inputting a program in advance into a control unit such as a computer, which is capable of automatically executing the program.

Specifically, in the present embodiment, the press plate 7 is fixed to the main shaft 5 through the support shaft 1d and the holding plate 1c of the outer basket 1 and fixed in the direction of the axis O, The internal basket 2 is advanced and retreated in the direction of the axis O through the extrusion shaft 6. [ Therefore, when the control is performed so as to increase the relative movement speed when the extrusion load increases, it is controlled as follows. 2, the inner basket 2 retreats toward the other end in the direction of the axis O, so that the distance D between the opening end 2b and the platen 7 in the direction of the axis O, The inner basket 2 is advanced from the small state to the one end side in the direction of the axis O so that the opening end 2b of the inner basket 2 is spaced apart from the presser 7, And the relative moving speed in the direction in which the interval D increases is controlled to be large. Contrary to this, it is also possible to control to increase the relative moving speed in the direction from the state in which the distance D is large to the direction in which the distance D becomes small.

On the contrary, when the extrusion load decreases from the predetermined range, the relative moving speed in the direction in which the interval D shown in Fig. 3 increases from the state in which the interval D shown in Fig. 2 is small, The relative moving speed in the direction in which the interval D shown in Fig. 2 becomes smaller is controlled to be small.

On the other hand, a description will be given of a case in which the advancing / retreating stroke of one of the presser / stamper 7 and the inner basket 2 (the inner basket 2 in this embodiment) to the other (the presser 7 in this embodiment) do. For example, the advance / retreat stroke of the inner basket 2 when the pushing load is in the predetermined range is set so as to be smaller than the maximum stroke of the piston rod by the advance / retreat drive section 11. [ When the pushing load measured by the measuring section 15 exceeds the predetermined range, the inner basket 2 is moved forward and backward with a stroke larger than the advance / retreat stroke of the inner basket 2 when the pushing load is in the predetermined range . Conversely, when the pushing load becomes smaller than the predetermined range, the inner basket 2 is moved forward and backward with a stroke smaller than the retracting stroke of the inner basket 2 when the pushing load is in the predetermined range.

In the centrifugal separator and the centrifugal separator thus constructed, when the extruded load exceeds the predetermined range due to the increase in the amount of treated water and the solid content, the pressure applied by the advancing / retreating drive unit 11 and the inner basket (2) is increased, the following effects can be obtained. That is, when the gap D shown in Fig. 2 is changed from a small phase to a large gap D shown in Fig. 3, a processed material deposited on the inner peripheral surface of the internal filtration screen 2a is compressed The amount of the solid content contained in the processed product supplied to the internal filtration screen 2a after being extruded by the extruder 7 is reduced per unit length in the direction of the axis O. [ Therefore, the thickness of the cake remaining on the inner circumferential surface of the inner filtration screen 2a when the processed product is filtered by centrifugation is set to be equal to the thickness of the cake when the extruded load is in a predetermined range due to the stable supply amount or solid content concentration .

The inner basket 2 is pressed against the other end in the direction of the axis O with respect to the presser 7 in a state in which the interval D shown in Fig. 2 is small, And when the processed product on the opening end 2b side of the inner basket 2 is pushed out, the following effects can be obtained. In other words, the processing material supplied from between the press platen 7 and the dispersing plate 8 is additionally placed on the processed material (inner circumference) deposited on the one end side of the platen 7. [ At this time, since the relative movement speed of the inner basket 2 with respect to the press platen 7 is large, the solid content in the processed product further added per unit length in the direction of the axis O is reduced, And it is possible to prevent thickening.

On the other hand, in the case where the advance / retreat stroke of the inner basket 2 with respect to the press platen 7 is increased when the extruded load exceeds the predetermined range when the treated water supply amount or the solid content concentration is stable, Is obtained. That is, even when the interval D becomes large or small, the processed material having a large supply amount or solid content concentration is dispersed in a wider range in the direction of the axis O and supplied to the inner peripheral surface of the inner filtration screen 2a, Can be prevented from becoming thick. When the advance and retreat strokes of the inner basket 2 are reduced when the extrusion load becomes smaller than the predetermined range, the supply amount or the processing amount with a small solid content concentration is supplied to the inner peripheral surface of the inner filtration screen 2a in a relatively small range The thickness of the cake can be prevented from becoming excessively thin.

As described above, according to the centrifugal separator and the centrifugal separating method having the above-described structure, when the amount of the treated water and the solid content concentration in the processed product increase, the load caused by the solid content increases, By increasing at least one of the relative moving speed and the advancing and retreating stroke of the inner basket 2, it is possible to prevent the cake thickness from becoming excessively thick, and to make the cake thickness uniform. On the other hand, when the extruded load is reduced due to a decrease in the amount of the treated water or the solid content, conversely, by reducing at least one of the relative moving speed and the stroke, the thickness of the cake is prevented from being partially excessively thinned, can do.

This makes it possible to prevent unevenness in the thickness of the cake on the inner circumferential surface of the inner filtration screen 2a of the inner basket 2 rotating at high speed even if the amount of treated water or the solid content concentration fluctuates. As a result, it is possible to prevent the occurrence of abnormal vibration in the inner basket 2 due to the unevenness of the cake thickness, thereby facilitating filtration by centrifugal separation of the stable processed product.

In addition, even when the amount of treated water or the concentration of solid content is reduced, the relative moving speed and the retracting stroke are reduced, so that the residence time of the processed product in the inner basket 2 can be secured. As a result, the performance of the centrifugal separator can be exerted in an inefficient manner and efficient filtration can be achieved.

The centrifugal separator according to the present embodiment has the electric motor 11a as the advancing / retracting driving portion 11 for moving the inner basket 2 forward and backward in the direction of the axis O with respect to the platen 7, Which converts the rotation of the piston rod into a linear motion of the extrusion shaft 6. The forward / backward driving section 11 using the electric motor 11a has a high degree of immediacy when the forward / rearward switching is performed, compared with the conventional hydraulic driving, and even when the relative moving speed and the forward / backward stroke are increased / decreased as described above, The rotation of the motor 11a can be controlled so that it can be easily and quickly dealt with. Therefore, it is particularly effective in the case of performing the control such as the centrifugal separator or the centrifugal separation method having the above-described configuration.

The advance and retreat drive section 11 by the electric motor 11a is not limited to the electric cylinder that converts the rotation of the electric motor 11a into the linear motion of the piston rod by the screw shaft and the nut . For example, a linear cylinder in which the piston rod and the extruding shaft 6 are linearly moved directly by an electric linear motor may be used. Called zipper type actuator in which two or more chains connected to the extrusion shaft 6 are engaged with each other and are linearly moved by unrolling and advancing the barrel by an electric motor and returning and releasing the engagement of the chain.

In addition to employing a centrifugal separator using the electric motor 11a as the advancing / retreating drive unit 11, in the present embodiment, when measuring the extrusion load when the processed cake is extruded, The measuring unit 15 measures the current value of the electric motor 11a and measures the extrusion load. Therefore, the extruded load when extruding the processed cake can be measured in real time, and the measurement result can be quickly reflected to the control of the advancing and retreating drive section 11, thereby facilitating reliable and stable control of the further layer It becomes possible. If at least one of the extruded load measured in this manner or the relative moving speed and stroke controlled based on the extruded load becomes a predetermined upper limit value or lower limit value, an alarm is issued or the centrifugal separator is stopped .

Next, Fig. 4 and Fig. 5 show a second embodiment of the centrifugal separator of the present invention. The same reference numerals are given to the parts common to those of the centrifugal separator of the first embodiment, and the description is omitted.

In the centrifugal separator according to the second embodiment shown in Figs. 4 and 5, the portion on the other end side in the direction of the axis O, which is not shown, is the same as that of the centrifugal separator according to the first embodiment, and therefore, illustration thereof is omitted.

The inner basket 2 is accommodated in the outer basket 1 to be integrally rotatable and the inner basket 2 is provided on the extrusion shaft 6 to advance and retract in the direction of the axis O The outer basket 1 and the press plunger 7 supported thereon are held at a predetermined position in the direction of the axis O so that the press plunger 7 is held on the axis O with respect to the basket (inner basket 2) Direction relative to the direction of movement. In the second embodiment, a single basket 21 having a filtration screen 21a on the body and an opening end 21b at one end in the direction of the axis O is provided on one end of the main shaft 5 And is provided through the holding support plate 21c. The basket 21 is held at a predetermined position in the direction of the axis O and the one end of the extrusion shaft 6 inserted through the holding plate 21c is provided with an outer diameter (22) is coaxially installed and advanced in the direction of the axis (O). Thereby, the platen 22 is relatively movable in the direction of the axis O with respect to the basket 21.

Therefore, in the second embodiment, the basket 21 and the opening end portion 21 Ib of the basket 21 are positioned at a constant position in the axial direction O, and the platen 22 advances and retracts in the direction of the axis O, . The direction in which the distance D between the press platen 22 and the opening end 21 Ib of the basket 21 in the direction of the axis O becomes larger is the direction in which the plumbing 22 presses the basket 21, As shown in Fig. 5, from the state of advancing into the housing 21 as shown in Fig. 5, the direction in which the distance D becomes smaller is the direction in which the platen 22 advances from the retracted state as shown in Fig. The treated cake accumulated on the inner circumferential surface of the filtration screen 21a of the basket 21 moves from the opening end portion 21b side of the basket 21 to the cake receiving ring 3a, .

In the second embodiment, on the basis of the push-out load by the electric motor 11a measured by the measuring unit 15 provided in the advancing / retreating drive unit 11, At least one of the relative moving speed of the basket (21) and the advancing and retreating stroke of the platen (22) with respect to the basket (21) is controlled. Specifically, when the extruded load is measured based on the current value of the electric motor 11a and the extruded load tends to increase from the state where the treated water supply amount or the solid content concentration is stable and the extruded load is stable , At least one of the relative moving speed and the stroke is controlled to increase. Conversely, when the pushing load tends to decrease, at least one of the relative moving speed and the stroke is controlled to decrease.

Even in the second embodiment, at least one of the relative moving speed and the advancing / retreating stroke of the presser 22 relative to the basket 21 is controlled when the amount of treated water or the solid content in the processed product fluctuates, The thickness of the cake formed on the inner peripheral surface of the cake can be uniformly maintained. As a result, it is possible to prevent abnormal vibrations from being generated in the basket 21, thereby facilitating filtration by centrifugal separation of a stable processed product. In addition, when the amount of treated water or the concentration of solid content is reduced, the relative movement speed and the advance / retreat stroke of the pressure-pressing mechanism 22 can be reduced to secure the retention time of the processed product in the basket 21. As a result, the performance of the centrifugal separator can be exerted in an inefficient manner and efficient filtration can be achieved.

Also in this embodiment, the advancing and retracting driving portion 11 of the electric motor 11a is used, and by controlling the electric motor 11a, it is possible to easily and quickly control the relative moving speed and the advancing / retreating stroke . Further, since the extrusion load can be measured in real time on the basis of the current value of the electric motor 11a, it is possible to cope with a sudden fluctuation of the supply amount of the treated water or the concentration of the solid content.

In the second embodiment and the first embodiment, the forward / backward driving section 11 using the electric motor 11a is employed, and the current value of the electric motor 11a is measured by the measuring section 15 to determine the extrusion load . The present invention is not limited to this. For example, a load cell may be arranged as the measuring unit 15 on the extrusion shaft 6 and the like, and the pressure applied to the press plies 7, 22 and the baskets 2, 21 It is also possible to control the relative moving speed or the retracting stroke.

In the case of measuring the pushing load by the load cell, the present invention is characterized in that, when controlling the relative moving speed, centrifugal separation is performed in which one of the basket and the platen is moved forward and backward by hydraulic pressure drive by a conventional hydraulic piston Device and a centrifugal separation method. For example, by giving a difference in the diameter of the working oil at the time of forward movement and at the time of retreating, by installing a speed controller, or by bypassing the cylinder discharge-side oil passage.

However, in the forward / backward driving section by the hydraulic driving, since the hydraulic pressure becomes unstable at the time of forward / backward switching of the press platens 7, 22 and the baskets 2, 21, there is a possibility that control at a predetermined relative moving speed becomes difficult. In addition, since the viscosity of the hydraulic oil changes according to the temperature of the oil, the hydraulic pressure is hard to be stabilized. In order to control the oil temperature, cooling water for cooling the hydraulic oil is required. Maintenance such as regular replacement of the oil filter becomes troublesome. Further, in the hydraulic drive by a general hydraulic piston, it is almost impossible to control the compression stroke and the advance / retreat stroke of the basket.

Therefore, in order to control at least one of the relative movement speed of the press-pushing and the basket by the advancing / retracting drive part and the advance / retreat stroke relative to the other of the press-pushing and the basket, It is preferable to adopt a forward / backward driving portion by a motor. In the first embodiment, the outer basket 1 and the inner basket 2 are provided with two-stage baskets. In the second embodiment, the centrifugal separation apparatus and the centrifugal separation method using a single basket 21 The present invention may be applied to a centrifugal separator and a centrifugal separator having three or more stages of baskets.

According to the centrifugal separator and the centrifugal separation method of the present invention, the thickness of the cake can be uniformly maintained regardless of the increase or decrease of the load accompanied by the fluctuation of the supply amount of the treated water or the solid concentration, It is possible to exhibit the dewatering performance, and it is possible to promote stable and efficient filtration.

1: External basket
1a: External filtration screen
1b: opening end of the outer basket (1)
2: Internal basket (basket)
2a: internal filtration screen
2b: opening end of inner basket (2)
3: Casing
5:
6: Extrusion shaft
7, 22: pressure printing
8: Dispersion plate
9: Treatment water supply pipe
10: Bearing box
11:
11a: Electric motor
1lb: Cylinder box
15:
21: Basket
21a: Filtration screen
21b: opening end of the basket (21)
O: the axis of rotation of the basket 21 (outer basket 1, inner basket 2)
D: The distance in the direction of the axis O between the press plies 7 and 22 and the inner basket 2 and the opening ends 2b and 21b of the basket 21

Claims (9)

A tubular basket in which a filtration screen is installed in the body part and rotates around the axis,
A basket which is housed in the basket and which is integrally rotatable and relatively movable in the axial direction with respect to the basket, the cake filtered by the filtration screen from the processing material supplied in the basket is moved toward the opening end side of the basket And a press-
A forward / backward driving section for moving one of the press-pushing and the basket forward and backward in the axial direction relative to the other,
And a metering section for measuring an extrusion load at the advance / retreat drive section when the cake is extruded toward the opening end side of the basket by the advancing and retreating drive section and the forward and backward movement of one of the basket and the basket,
At least one of a relative moving speed of the pressing and pressing operation by the advancement and retraction driving unit and the basket is controlled based on the pushing load measured by the measuring unit and at least one of the advancing and retracting strokes of the press- , Centrifugal separator. The method according to claim 1,
Wherein at least one of the relative moving speed and the stroke is controlled to increase when the pushing load tends to increase. 3. The method according to claim 1 or 2,
Wherein at least one of the relative moving speed and the stroke is controlled to decrease when the pushing load tends to decrease. 3. The method according to claim 1 or 2,
Wherein the advancing and retracting driving portion is driven by an electric motor. 5. The method of claim 4,
And the metering section measures the extrusion load from a current value of the electric motor in the advancement / retraction drive section. 5. The method according to any one of claims 1 to 4,
Wherein the measuring unit is a load cell provided in the advancing and retreating drive unit. And a filter screen is provided in the body part to supply a processed product into a tubular basket rotating around an axis, and a cake filtered by the filtration screen is received in the basket and is integrally rotatable, A centrifugal separation method for pushing out a basket (1) by a press-forming machine provided so as to be relatively movable in the axial direction with respect to the basket,
One of the press-pushing and the basket is advanced and retracted relative to the other in the axial direction to relatively move,
The pushing load of the forward / backward driving portion when the cake is extruded toward the opening end side of the basket by the forward / backward movement of one of the pushing-out and the basket by the forward / backward driving portion is measured by the measuring portion,
And at least one of a relative moving speed of the pressing and releasing by the advancement and retraction driving unit and a forward and backward stroke of the other of the pressing and the basket is controlled based on the pushing load measured by the measuring unit , Centrifugation method. 8. The method of claim 7,
Wherein when the pushing load tends to increase, at least one of the relative moving speed and the stroke is controlled to increase. 9. The method according to claim 7 or 8,
And when at least one of the relative moving speed and the stroke is decreased when the pushing load tends to decrease.

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