JP6673947B2 - Extrusion type centrifuge and method of operating the same - Google Patents

Description

  According to the present invention, a processed product supplied into a basket rotated around an axis is filtered by a filtration screen provided on a body of the basket, and a cake filtered from the processed product is stored in the basket. The present invention relates to an extrusion-type centrifugal separator that is ejected from an open end of a basket by an extrusion plate that is rotatable integrally and relatively movable in the axial direction with respect to the basket, and a method of operating the same.

  As such an extrusion-type centrifugal separator, for example, Patent Literature 1 discloses an outer basket that is rotated around an axis, and that is coaxially arranged in the outer basket and is rotated integrally with the outer basket. In a two-stage basket type centrifugal separator provided with an inner basket moved forward and backward and cylindrical filtration screens provided in these inner and outer baskets, the two-stage basket type centrifuge is supported by the outer basket and faces the opening of the supply pipe of the processed material. An extruding plate disposed in the inner basket, an annular plate-shaped distributor disposed so as to surround the opening of the supply pipe with an interval between the extruding plate, and an outer plate outside the inner basket. Disposed on the side of the extrusion plate facing the forward direction with respect to the basket so as to surround the outer periphery of the distributor. It has been described having a Pureshikkuna inclined filter screen is provided which is inclined toward the.

  In such a centrifugal separator, the processed material supplied between the extruding plate and the distributor from the opening of the supply pipe moves to the outer peripheral side on the inclined filtration screen of the presicener by centrifugal force, and the liquid component and the granules are removed. Particles such as crystals in the processed product having a small diameter are filtered to some extent and pre-concentrated. Next, the processed material is filtered while accumulating on the inner peripheral surface of the cylindrical filtration screen of the inner basket by centrifugal force to form a cake, and the axis of the inner basket is advanced by advancing the inner basket toward the open end side of the outer basket. It is also pushed in the direction and then pushed out by the extruded plate by the retraction of the inner basket with respect to the outer basket, and is discharged to the inner peripheral surface of the outer basket. Further, the cake of the processed product discharged to the inner peripheral surface of the outer basket is further filtered by the cylindrical filtration screen of the outer basket, pushed out by the advance of the inner basket, and discharged from the opening end.

  As described above, in the extrusion-type centrifuge provided with the presicener, since the processed material is pre-concentrated by the inclined filtration screen of the presicna, the filtration efficiency in the cylindrical filtration screen of the inner basket or the outer basket can be improved. . Further, for example, when crystal particles are separated from a processed product obtained in a crystallization step of ammonium sulfate or the like, it is required to selectively separate large crystal particles having a predetermined particle size or more into a product. Even at this time, as described above, the particles having a small particle size can be separated from the processed material together with the liquid component and classified by the inclined filtration screen of the presicener, so that there is no need to separately provide a classification device or the like at the subsequent stage of the centrifuge. In addition, large particles can be efficiently obtained with reduced equipment costs and running costs.

JP 2014/091093 A

  However, in the extrusion type centrifugal separator equipped with such a presicener, the movement of the processed material deposited on the cylindrical filtration screens of the inner and outer baskets is caused by the mechanical advance and retreat of the inner basket. The movement of the particles of the treated material after being filtered in the filtration screen depends only on the centrifugal force generated by the rotation of the basket. For this reason, when the solid content concentration of the processed material to be supplied is high or high, the fluidity of the processed material is poor, and the solid content is accumulated or deposited on the inclined filtration screen. May be blocked.

  In addition, when the flow rate of the processed material becomes poor when the solid content concentration of the supplied processed material is high or high, the movement of the solid content in the processed material is easily restricted. And, by this, the particles having a small particle size that should be separated and removed from the processed material together with the liquid component are captured by the solid cake on the inclined filtration screen and moved to the inner basket, which is required. Classification performance may not be obtained.

  The present invention has been made under such a background, and even when the solid content concentration of the processed material is high or high, the flowability of the processed material on the inclined filtration screen of the presicener is ensured, and the retention and the retention of the processed material are prevented. An extrusion-type centrifugal separator capable of preventing sedimentation and obstruction of an inclined filtration screen, and efficiently separating and removing small particles with a liquid component to obtain a required classification performance and its operation. It is intended to provide a way.

In order to solve the above problems and achieve such an object, an extrusion-type centrifugal separator of the present invention includes a cylindrical basket which is provided with a cylindrical filtration screen on a body thereof and is rotated around an axis, A processing object supply pipe inserted into the basket along the axis and supplying the processing object into the basket; and a processing object supply pipe housed in the basket and rotatable integrally with the basket and in the axial direction with respect to the basket. The extruding plate is provided so as to be able to relatively advance and retreat, and is spaced apart from the opening of the processed material supply pipe, and is provided on a side surface of the extruded plate facing the opening of the processed material supply pipe, A presicator having an inclined filtration screen directed radially outward with respect to the axis toward the treated material supply pipe, and Te cleaning liquid supplies, characterized by comprising a cleaning liquid supply means for supplying the cleaning liquid to the treated product to be extruded with preconcentration on an outer peripheral side on the inclined filter screen by centrifugal force. In addition, the operating method of the present invention is such that, using such an extrusion-type centrifugal separator, the processing object is centrifuged while supplying the cleaning liquid by the cleaning liquid supply means toward the inclined filtration screen of the pressurizer. It is characterized by.

In the extrusion-type centrifugal separator and the operation method thereof configured as described above, the washing liquid is supplied to the inclined filtration screen of the presicener, and preconcentration is performed while being pushed to the outer peripheral side by the centrifugal force on the inclined filtration screen. be provided with a cleaning liquid supply means for supplying the cleaning liquid to the treated product, while supplying a cleaning liquid by the cleaning liquid supply means toward said inclined filter screen of Pureshikkuna, Runode to centrifugation the treated product, processed product Even when the solid content concentration of the product is high or high, the fluidity of the processed product on the inclined filtration screen can be ensured. For this reason, it is possible to discharge the processed product to the cylindrical filtration screen of the basket while reliably pre-concentrating the processed product by the centrifugal force generated by the rotation of the basket. Also, the movement of solids in the processed material is prevented from being restrained, and the movement of small particles to the liquid side is promoted by the washing liquid, so that mainly large particles can be discharged to the basket. Therefore, it is possible to obtain necessary classification performance.

  Here, as the cleaning liquid supply means, one having a cleaning liquid supply pipe inserted into the basket, for example, and a spray nozzle attached to the tip of the cleaning liquid supply pipe toward the inclined filtration screen is used. Can be. Since the inclined filtration screen of Presicna rotates with the basket, even if the cleaning liquid supply pipe and the spray nozzle are fixed, it is possible to supply the cleaning liquid uniformly to the processed material of the inclined filtration screen over the entire circumference. Become.

  Further, it is desirable that the opening amount in the inclined filtration screen is larger than the opening amount in the cylindrical filtration screen. Thereby, the discharge of the liquid having a small particle diameter, the processed material, and the cleaning liquid from the inclined filtration screen is further promoted, and the classification performance can be further improved.

  As described above, according to the present invention, even when the solid content concentration of the processed product is high or high, the fluidity of the processed product on the inclined filtration screen can be ensured, and the retention and accumulation of the processed product can be ensured. In addition, the obstruction of the inclined filtration screen can be prevented, and the movement of the particles having a small particle diameter to the liquid side can be promoted by the cleaning liquid, so that the required classification performance can be obtained.

It is sectional drawing along the axis of the basket which shows one Embodiment of this invention.

  FIG. 1 shows an embodiment of an extrusion-type centrifuge according to the present invention. The present invention relates to a two-stage basket provided with an outer basket 1 and an inner basket 2 as described in Patent Document 1. It is applied to a centrifugal separator of the type. That is, the centrifugal separator according to the present embodiment has a horizontal outer filter in which a cylindrical outer filtration screen 1a is attached to one end side (the right side in FIG. 1) of the inner peripheral surface of the cylindrical body centered on the axis O. A basket 1 and an inner basket 2 coaxially accommodated in the outer basket 1 and having a cylindrical inner filtration screen 2a attached to one end of an inner peripheral surface of a cylindrical body. The inner basket 2 is the basket in the present invention, and the inner filtration screen 2a is the cylindrical filtration screen in the present invention. As the outer filtration screen 1a or the inner filtration screen 2a, for example, a cylindrical wire screen or a plate screen is used.

  These cylindrical outer basket 1 and inner basket 2 have circular open ends 1b, 2b at one end, and the other ends (left ends in FIG. 1) are attached to disk-shaped holding plates 1c, 2c. The inner basket 2 is held in a cylindrical shape with a bottom, and the length of the inner basket 2 in the direction of the axis O is shorter than that of the outer basket 1. Rotated together. The outer diameter of the open end 2b of the inner basket 2 is slightly smaller than the inner peripheral surface of the outer filtration screen 1a of the outer basket 1. A large number of through holes 1d and 2d are formed in the body of the outer basket 1 and the inner basket 2, and a gap between the outer filtration screen 1a and the inner filtration screen 2a communicates with these through holes 1d and 2d, respectively. doing.

  At the positions of both ends of the outer basket 1 in the direction of the axis O in the casing 3, partition walls 3 a having an inner diameter slightly larger than the outer diameter of the outer basket 1 extending toward the inner peripheral side toward the outer peripheral surface of the outer basket 1 are provided. Each is provided. In the casing 3, the portion between the partition walls 3a is a discharge chamber 3b for the liquid separated from the processed material, and the inside of the casing 3 further on one end side than the partition wall 3a on one end is outside. The outer filtration screen 1a of the basket 1 serves as a discharge chamber 3c for solids (cake) in which the liquid is separated from the processed material.

  The holding plate 1c of the outer basket 1 is attached to one end of a hollow cylindrical main shaft 5 rotatably supported by a bearing 4 and inserted into the casing 3 along the axis O, and is provided with a motor or the like (not shown). The outer basket 1 rotates at a high speed around the axis O by the rotation of the main shaft 5 due to the transmission of the rotational force of the rotational drive means. Further, inside the main shaft 5, a pushing shaft 6 is inserted so as to be rotatable integrally with the main shaft 5, and to be able to advance and retreat with a constant stroke in the direction of the axis O by an advance and retreat driving means such as a hydraulic cylinder or an electric cylinder (not shown). The one end of the push-out shaft 6 penetrates through the holding plate 1c of the outer basket 1 and is attached to the holding plate 2c of the inner basket 2, so that the inner basket 2 is also rotatable integrally with the outer basket 1 and the outer basket 1 At the other end of the inside 1, it is possible to advance and retreat in the direction of the axis O.

  Further, a plurality of support shafts 1e are provided on the holding plate 1c of the outer basket 1 at circumferentially spaced positions away from the axis O to the outer peripheral side so as to extend to the one end side in parallel with the axis O. These support shafts 1e penetrate the holding plate 2c and protrude into the inner basket 2, and one end of each of the support shafts 1e is provided with a disc-shaped extrusion plate 7. Therefore, the pushing plate 7 can be integrally rotated around the axis O coaxially with the outer basket 1 and the inner basket 2 and can advance and retreat with respect to the inner basket 2 at a constant stroke in the direction of the axis O.

  Further, on one end side of the extruded plate 7, a ring-shaped dispersion plate (distributor) 8 having a smaller radius than the extruded plate 7 and having an opening in the center is integrally supported at an interval from the extruded plate 7. Have been. Further, a processed material supply pipe 9 is attached to and inserted into the casing 3, and the processed material supply pipe 9 passes through the open ends 1 b and 2 b of the outer basket 1 and the inner basket 2, and opens the dispersion plate 8. The supply port is opened between the extrusion plate 7 and the dispersion plate 8. Therefore, the extruded plate 7 faces the opening of the processed material supply pipe 9 with an interval.

  Further, on the side surface of the extruded plate 7 facing the opening of the processing object supply pipe 9, the opening of the processing object supply pipe 9 is provided on the outer peripheral side of the opening of the processing object supply pipe 9 in the radial direction with respect to the axis O. Are provided so as to surround. The presicener 10 has a truncated cone-shaped inclined filtration screen 10a composed of a wire screen or the like that extends radially outward with respect to the axis O from the side surface of the extrusion plate 7 toward the treated material supply pipe 9 side. In the embodiment, the opening amount in the inclined filtration screen 10a, that is, the size of the gap portion of the inclined filtration screen 10a is larger than the opening amount in the inner filtration screen 2a which is the cylindrical filtration screen of the present invention. .

  Further, the inner peripheral portion of the inclined filtration screen 10a is covered with a cover 10b at least at the other end of the dispersion plate 8 toward the one end at the other end in the direction of the axis O. As a result, the portion on the other end side of the other end side of the dispersion plate 8 is not exposed to the inner periphery of the presicener 10. Further, an annular plate-shaped scraper 10c having an outer diameter slightly smaller than the inner diameter of the inner filtration screen 2a is attached to the outer peripheral portion of the presicener 10.

  The extrusion-type centrifugal separator thus configured is further provided with cleaning liquid supply means 11 for supplying a cleaning liquid to the inclined filtration screen 10a of the presicener 10. In the present embodiment, the cleaning liquid supply means 11 is provided with a cleaning liquid supply pipe 11a inserted into the inner basket 2 from one end side of the inner basket 2, and attached to the tip of the cleaning liquid supply pipe 11a toward the inclined filtration screen 10a. And a spray nozzle 11b.

  More specifically, the cleaning liquid supply pipe 11a is inserted into the inner basket 2 below the processed material supply pipe 9 in parallel with the axis O. Also, the spray nozzle 11b is bent obliquely downward with respect to the cleaning liquid supply pipe 11a so as to be downward toward the other end, at the front end in the inner basket 2 which is the other end of the cleaning liquid supply pipe 11a. As shown in FIG. 1, the supplied cleaning liquid can be jetted in a conical radial form about a center line perpendicular to the inclined filtration screen 10 a in a cross section along the axis O.

  In the extrusion-type centrifuge configured as described above, the processed material (slurry) in which the solid-liquid component supplied from the processed material supply pipe 9 is turbid hits the extruding plate 7 that rotates at a high speed together with the outer basket 1 and the inner basket 2. In the present embodiment, due to the centrifugal force, the particles are dispersed to the outer peripheral side from between the dispersion plate 8 and adhere to the inner peripheral surface of the inner filtration screen 2 a of the inner basket 2. Therefore, when the inner basket 2 is advanced from the state in which the inner basket 2 is retracted with respect to the extruding plate 7 while supplying the processed material in this manner, the processed material is deposited on the inner peripheral surface of the inner filtration screen 2a of the advanced inner basket 2. Filtration is performed by centrifugal force while continuously depositing in the direction of the axis O, and a cake of the processed product is formed.

  Next, when the inner basket 2 thus advanced reaches the stroke end of the advance and starts to retreat, the cake of the processed material deposited on the inner peripheral surface of the inner filtration screen 2a is relatively moved with respect to the inner basket 2 which retreats. The outer filtration screen of the outer basket 1 is sequentially pushed out from one end of the inner basket 2 by the scraper 10c of the presicener 10 attached to the extruding plate 7 which is to be advanced forward, and accumulated from this one end through the open end 2b. It is discharged to the inner peripheral surface of 1a and further filtered by centrifugal force while continuously depositing in the direction of the axis O. That is, in the present embodiment, the extruded plate 7 pushes the processed material to the outer basket 1 via the presicener 10.

  Next, the cake deposited and filtered on the inner peripheral surface of the outer filtration screen 1a is sequentially moved to one end side by the open end 2b of the inner basket 2 by the next advance of the inner basket 2 reaching the retreat stroke end. After being extruded and also deposited on one end side, it is discharged from the open end 1b of the outer basket 1 to the cake discharge chamber 3c of the casing 3. The liquid separated from the processed material by the outer filtration screen 1a and the inner filtration screen 2a passes through the through-holes 1d and 2d formed in the body of the outer basket 1 and the inner basket 2, and the liquid in the casing 3 passes therethrough. Is discharged to the discharge chamber 3b.

  Here, in the extrusion-type centrifugal separator having the above-described configuration provided with the presicener 10, the processed material supplied from the processed material supply pipe 9 and dispersed on the outer peripheral side by centrifugal force adheres to the inner peripheral surface of the inner filtration screen 2a. Before the cleaning, the particles adhere to the inclined filtration screen 10a of the presicener 10, and the liquid filtration and the solid particles having a small particle diameter are removed to some extent by the inclined filtration screen 10a, and the processed product is pre-concentrated. The treated matter adhering to the inclined filtration screen 10a is pushed to the outer peripheral side by centrifugal force, and is deposited on the inner peripheral surface of the inner filtration screen 2a as described above.

  The extruder centrifuge having the above-described configuration includes a cleaning liquid supply unit 11 that supplies a cleaning liquid toward the inclined filtration screen 10a of the presicener 10. According to an embodiment of the operation method of the present invention, the inclined filtration The cleaning liquid is supplied to the processed material that is pre-concentrated while being pushed to the outer peripheral side by the centrifugal force on the screen 10a. Therefore, even when the solid content concentration of the processed material is high or becomes high, the flowability of the processed material on the inclined filtration screen 10a can be ensured by the cleaning liquid supplied by the cleaning liquid supply means 11 in this manner.

  Therefore, even when the solid content concentration of the processed material is high or high, the processed material deposited on the inclined filtration screen 10a is pre-concentrated by the centrifugal force caused by the rotation of the inner basket 2, and the inner basket is surely concentrated. 2 can be discharged to the filtration screen 2a, thereby preventing stagnation and accumulation of the processed material and clogging of the inclined filtration screen 10a. Further, since the fluidity of the processed material is ensured in this way, it is possible to prevent the movement of the solid content in the processed material from being restrained, so that particles having a small particle diameter are prevented from being captured by the solid content. The cleaning liquid can promote the movement to the liquid side by discharging the particles having a large particle diameter into a basket, and ensuring the classification performance necessary for obtaining many such particles having a large particle diameter. Is also possible.

  In the present embodiment, the cleaning liquid supply means 11 includes a cleaning liquid supply pipe 11a inserted into the inner basket 2, and a spray nozzle 11b attached to the tip of the cleaning liquid supply pipe 11a toward the inclined filtration screen 10a. Are used. Here, since the inclined filtration screen 10a of the presicener 10 rotates together with the inner basket 2 and the extruding plate 7, even if the cleaning liquid supply pipe 11a of the cleaning liquid supply means 11 and the spray nozzle 11b are fixed, the inclined filtration screen 10a The cleaning liquid can be supplied evenly to the above processed material over the entire circumference.

  Further, in the present embodiment, the opening amount in the inclined filtration screen 10a is set to be larger than the opening amount in the inner filtration screen 2a which is the cylindrical filtration screen of the inner basket 2. That is, for example, when the inclined filtration screen 10a and the inner filtration screen 2a are both wire screens, the interval between adjacent wires of the inclined filtration screen 10a is set to be larger than the interval between adjacent wires of the inner filtration screen 2a. ing. Accordingly, it is possible to further promote the discharge of the particles having a small particle size, the liquid content of the processed product, and the cleaning liquid from the inclined filtration screen 10a, and it is possible to further improve the classification performance of the inclined filtration screen 10a. .

  The cleaning liquid supplied by the cleaning liquid supply means 11 may be water depending on the processed material, and the liquid component and the cleaning liquid in the processed material separated from the processed material by the inclined filtration screen 10a are also separated from the processed material. The liquid filtered from the small-sized particles may be circulated and supplied. Further, in the present embodiment, the case where the present invention is applied to a two-stage basket type centrifugal separator provided with the outer basket 1 and the inner basket 2 has been described. It is also possible to apply the present invention to an apparatus or a centrifuge having three or more stages.

  Furthermore, in addition to the cleaning liquid supply means 11 for supplying the cleaning liquid toward the inclined filtration screen 10a of the presicener 10, a cleaning liquid supply means for supplying the cleaning liquid to the inner filtration screen 2a or the outer filtration screen 1a may be provided. Good.

Reference Signs List 1 outer basket 1a outer filtration screen 1b open end of outer basket 1 inner basket (basket)
2a Inner filtration screen (cylindrical filtration screen)
2b Open end of inner basket 2 3 Casing 5 Main shaft 6 Extrusion shaft 7 Extruding plate 8 Dispersion plate 9 Processed product supply pipe 10 Presicina 10a Inclined filtration screen 11 Cleaning liquid supply means 11a Cleaning liquid supply pipe 11b Spray nozzle O of inner basket 2 (basket) Axis

Claims (4)

A cylindrical basket provided with a cylindrical filtration screen on the body and rotated around an axis,
A processing object supply pipe inserted into the basket along the axis to supply the processing object into the basket;
An extruding plate that is housed in the basket, is rotatable integrally with the basket, and is provided so as to be able to advance and retreat in the axial direction relative to the basket, and faces the opening of the processing material supply pipe at an interval. When,
A pre-thickener provided on a side surface of the extrusion plate facing the opening of the processed material supply pipe, and having a tilted filtration screen directed toward a radially outer peripheral side with respect to the axis as headed toward the processed material supply pipe side,
By supplying a cleaning liquid toward the inclined filter screen of the Pureshikkuna, with a cleaning liquid supply means for supplying the cleaning liquid on the inclined filter screen in the treated product to be preconcentrated while being pushed out to the outer peripheral side by centrifugal force An extrusion-type centrifugal separator characterized by the above-mentioned.   The cleaning liquid supply means includes a cleaning liquid supply pipe inserted into the basket, and a spray nozzle attached to a tip of the cleaning liquid supply pipe toward the inclined filtration screen. 3. The extrusion-type centrifuge according to item 1.   The extrusion centrifuge according to claim 1 or 2, wherein the opening amount in the inclined filtration screen is larger than the opening amount in the cylindrical filtration screen.   The extruded centrifugal separator according to any one of claims 1 to 3, wherein the processing liquid is supplied to the inclined filtration screen of the presicener by the cleaning liquid supply means while the cleaning liquid is supplied. A method for operating an extrusion-type centrifuge, comprising centrifuging.

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