DE102012101787A1 - Pusher centrifuge and method for operating a pusher centrifuge - Google Patents

Abstract

Pusher centrifuge 1 comprising a filter drum 3 with a longitudinal axis 5 about which the filter drum 3 is rotatable, a first filter drum body 7 having an inner peripheral surface 9 defined by a first filter means 33 and an outer peripheral surface 11, and a second filter drum body 13 having one of a second filter means 47 defined inner peripheral surface 15 and an outer peripheral surface 17, a sliding bottom 5, which is arranged in the filter drum 3, wherein the first filter drum body 3 is disposed immediately adjacent the sliding bottom 25, and a relative movement mechanism 27, of which the sliding floor 25 and the second filter drum body 13 together and the first filter drum body 7 are axially movable relative to each other in the direction of the longitudinal axis 5 of the filter drum 3 back and forth.

Description

The invention relates to a pusher centrifuge and a method for operating a pusher centrifuge in filter operation.

For pusher centrifuges z. B. an effort to reduce the solids content in the material to be filtered, which z. B. is a suspension from which the solid contained therein is to be filtered / separate, to increase before a main filtration, thereby increasing the efficiency of the pusher centrifuge.

From the EP 1 468 742 A1 . EP 1 468 743 A1 and DE 1 079 551 A It is known to direct a filling distributor, via which material to be filtered is passed into a filter drum of a pusher centrifuge, directly downstream of a conical filter drum. In the DE 32 26 247 A1 are formed in a sliding bottom sieve bags, and at the DE 1 209 507 is formed in a moving floor a sieve. In the DE 195 46 019 C1 is arranged on the radial outer periphery of a sliding floor a ring cup, which may be combined with a screen formed in the sliding floor. From the GB 1 518 239 A and the DE 1 087 979 A Multi-stage pusher centrifuges are known.

According to the invention there is provided a pusher centrifuge comprising a filter drum having a longitudinal axis about which the filter drum is rotatable, a first filter drum body having an inner circumferential surface defined by a first filter means and an outer peripheral surface, and a second filter drum body containing one of a second filter means having a defined inner peripheral surface and an outer peripheral surface, a pusher tray disposed in the filter drum, the first filter drum body being disposed radially immediately adjacent the pusher tray, and a relative movement mechanism of which the pusher tray and the second filter drum body are common and the first filter drum body is longitudinal axis the filter drum are axially reciprocable relative to each other (thereby, for example, material adhering to the inner circumferential surface of the first drum body in the direction of the longitudinal axis of the filter drum l (forward) on the inner peripheral surface of the second filter drum body to push or displace and z. B. to push on the inner peripheral surface of the second filter drum body adhering material in the direction of the longitudinal axis successively forward or to displace), seen in the direction of the longitudinal axis of the second filter means has an axial extent which is greater than the axial extent of the first Filtermittel, wherein the relative movement mechanism is formed such that the sliding floor under axial displacement of adhering to the inner peripheral surface of the first drum body filter material in the context of relative reciprocation at least to half, or z. Up to at least two-thirds, or at least 75%, or at least 80%, or at least 85%, or at least 90%, or at least 95% or up to 100% of the axial extent of the first filter means being axially relatively movable and wherein the outer circumferential surface and / or the outer circumferential wall of the first filter drum body substantially (and / or, for example, mostly) parallel to the longitudinal axis and / or, as viewed in the cross section of the first filter drum body extending through the longitudinal axis, a straight line through the two axially and radially outermost end points of the cross section of the first filter drum body is substantially parallel to the longitudinal axis and the first filter drum body largely, optionally completely or in total, (seen in this cross section or cross-sectional profile) does not protrude radially beyond the straight line.

Between the inner peripheral surface and the outer peripheral surface of the first filter drum body, for. B. a drainage gap may be formed, which is limited in relation to the filter drum radial direction radially outwardly by a (radially outer) inner boundary surface which extends substantially parallel to the longitudinal axis of the filter drum.

According to the invention there is further provided a pusher centrifuge comprising a filter drum having a longitudinal axis about which the filter drum is rotatable, a first drum body having an inner peripheral surface defined by a first filter means and an outer peripheral surface between which a drainage gap is formed and a second filter drum A filter drum body having an inner peripheral surface defined by a second filter means and an outer peripheral surface, and a push floor disposed in the filter drum, the first filter drum body being radially adjacent to the push floor and wherein the push floor and the second filter drum body are common and the first filter drum body in the direction of the longitudinal axis of the filter drum by means of a relative movement mechanism are axially reciprocally movable relative to each other (to thereby, for example, on the inner peripheral surface of the first filter drum body anha ftendes to be filtered material in the direction of the longitudinal axis of the filter drum (forward) on the inner peripheral surface of the second filter drum body to push or displace and z. B. to push on the inner peripheral surface of the second filter drum body adhering material in the direction of the longitudinal axis successively forward or to displace), seen in the direction of the longitudinal axis, the second filter means has an axial extent, the is greater than the axial extent of the first filter means, wherein the relative movement mechanism is formed such that the push floor under axial displacement of adhering to the inner peripheral surface of the first filter drum body material in the context of relative reciprocation at least to half, or z. Up to at least two-thirds, or at least 75%, or at least 80%, or at least 85%, or at least 90%, or at least 95% or up to 100% of the axial extent of the first filter means being axially relatively movable and wherein the drainage gap is bounded radially outward with respect to the filter drum by a (radially outer) inner boundary surface substantially (and / or, for example, mostly) parallel to the longitudinal axis of the filter drum.

The inner peripheral surface of the first filter drum body usually extends (also) parallel to the longitudinal axis of the filter drum and thus substantially parallel to the outer peripheral surface of the first filter drum body. The inner diameter of the first filter drum body is smaller than the inner diameter of the second filter drum body, wherein due to the substantially parallel to the longitudinal axis of the filter drum designed outer peripheral surface of the first filter drum body or due to the substantially parallel to the longitudinal axis of the filter drum extending, radially outer inner boundary surface of the drainage gap the first filter drum body with a radially flat-walled or radially thin-walled outer peripheral wall can be produced, whereby the radial distance between the inner peripheral surface of the first filter drum body and the inner peripheral surface of the second filter drum body can be kept small.

Thus, a radial step or a radial step between the inner circumferential surface of the first filter drum body and the inner peripheral surface of the second filter drum body can be kept small, or the difference between the inner diameter of the first filter drum body and the inner diameter of the second filter drum body can be made small.

The first filter drum body, which is connected upstream of the second filter drum body in the material flow of an introduced into the filter drum to be filtered material, for. B. immediately upstream, thus forms a pre-filtration stage or pre-main filtration stage with an available for filtration inner peripheral surface per axial length (in the direction of the longitudinal axis of the filter drum), which is approximately equal to or slightly smaller than the (further) inner circumferential surface per length (in the direction of the longitudinal axis of the filter drum) of the second filter drum body available for (main) filtration.

The first and the second filter means may, for. B. sieves, such as. B. bar screens, which are composed of mutually parallel and circumferentially of the filter drum spaced apart rods. The filter media can, for. B. mesh and / or mesh screens or be designed in the form of any other suitable filter screen. The first and second filter means may be structurally identical or may be different filter media.

The filtration regions (in which the material to be filtered is still in a substantially liquid form) are essentially formed by those regions or portions of the inner circumferential surface of the first and second filter drum bodies which are periodically spaced during relative reciprocation essentially completely freed from the material adhering thereto (on the inner peripheral surface) by means of the pusher bottom (with respect to the inner circumferential surface of the first filter drum body) or by the first filter drum body (with respect to the inner circumferential surface of the second filter drum body). Since the sliding floor under or on the inner peripheral surface of the first filter drum body adhering (to be filtered) material to at least the axial center or z. B. to at least two-thirds or at least 75% or at least 80% or at least 85% or at least 90% or at least 95% or up to 100% of the axial extent of the first filter means (and thus the axial extent of the inner circumferential surface of the first filter drum body defined by the first filter means) is axially relatively movable, it can be achieved that the inner circumferential surface of the first filter drum body defined by the first filter medium is periodically substantially completely free of adhering material (to be filtered) is free, without risk of channeling. (With too short axial sweeping of the inner circumferential surface of the first drum body through the sliding floor, channels could form between remaining adherent material, which channels are created by the material flow of the material to be filtered entering the filter drum via rinsing.) The push floor may move in the course of its relative movement relative to the first filter drum body z. B. from a rear reversal point, in which there is a maximum for receiving material to be filtered material inner circumferential surface of the first filter drum body in front of the sliding floor, be moved relative to a front reversal point, where the sliding floor as mentioned above to at least half of the axial extent of the first filter means axially is relatively moved. The rearward reversal point of the push floor may be located adjacent to a corresponding rear axial end portion of the first filter means. Rear Reversal point can also be located further forward, z. B. even at the Axialmitte the axial extent of the first filter means (or even further forward), the front reversal point is then arranged correspondingly further forward towards the front (away from the sliding floor) end of the first filter drum body and the sliding floor accordingly over the Half the axial extent of the first filter means addition, z. B. to at least two-thirds or at least 75% or at least 80% or at least 85% or at least 90% or at least 95% or up to 100% of the axial extent of the first filter means, is relatively movable , The relative movement mechanism is z. B. designed and / or set up that of the sliding floor in the context of its relative back-and-forth movement at least half or z. B. at least two-thirds or at least 75% or at least 80% or at least 85% or at least 90% or at least 95% or 100% of the maximum present before the moving floor (or present before the rear reversal point) axial extent of the first filter means is axially painted over or be painted over axially. The maximum present before the sliding floor axial extent of the filter means defines z. B. the available filter surface available for use of the first filter drum body, so that the relative movement mechanism z. B. is designed and / or set up that of the pusher floor in the context of its relative back-and-forth movement at least half or z. B. at least two-thirds or at least 75% or at least 80% or at least 85% or at least 90% or at least 95% or 100% of this useful surface can be painted or over-painted.

Further, since the axial extent of the second filter means (and thus the axial extent of the second filter means defined / formed inner peripheral surface of the second filter drum body) is larger, z. B. at least 50% larger or at least 60% larger or at least 100% larger (ie, for example, at least twice as large as), as the axial extent of the first filter means (and thus the axial extent of the first filter means defined / formed inner peripheral surface of the first filter drum body), z. For example, the relative movement mechanism may be configured such that the first filter drum body is relatively movable or relatively moved with or around the entire axial length of its first filter means (and thus with the (or about) the total axial length of its inner peripheral surface) over the inner circumferential surface of the second filter drum body is still leaving an axial end portion (in the direction away from the pusher bottom) of the inner peripheral surface of the second filter drum body in front of the first filter drum body, which axial end portion is not cleared periodically, so that can form or form a permanent filter cake on this axial end portion, which is only partially moved further forward (away from the moving floor) and which is (further) dehumidified by the rotation of the filter drum. Thus, according to the invention, the filter drum body becomes substantially only a filtration region and the second filter drum body both a filtration region (in the axial portion of the inner circumferential surface of the second drum body between the first drum body and at approximately the position to which the first drum body reaches at most over the inner circumferential surface the second filter drum body is axially relatively moved) and a dehumidifying region (in the axial end portion of the inner circumferential surface of the second drum body between the front (remote from the sliding bottom) axial end of the second filter drum body and about (the above) that point, to which the first filter drum body is axially relatively movable or relatively movable over the inner peripheral surface of the second drum body). The inventors have also recognized that a further improved efficiency can be achieved when z. B. the dehumidifying at the second filter drum body is at least as large as the filtration area on the second filter drum body and / or if z. For example, the area size of the axial end portion of the inner circumferential surface of the second filter drum body between the front (from the sliding bottom facing away) axial end of the second filter drum body and approximately (the above) that point to which the first filter drum body axially over the inner peripheral surface of the second filter drum body (Forward) relatively moved or is relatively movable, at least as large as the area size of the maximum present before the sliding floor portion defined by the first filter means inner peripheral surface of the first filter drum body and / or if the axial extent of the axial end portion of the inner peripheral surface of the second filter drum body between the front (away from the sliding bottom) axial end of the second filter drum body and in about (the above) that point to which the first filter drum body at most over the inner peripheral surface of the second filter The drum body is axially (forwardly) relatively moved or relatively movable, at least as large as the axial extent of the maximum present before the sliding floor portion of the defined by the first filter means inner peripheral surface of the first filter drum body.

The relative movement mechanism is z. B. formed such that the first filter drum body with the entire axial length of its first filter means on the second of the filter means defined inner peripheral surface of the second filter drum body is relatively movable, wherein an axial end portion of the inner peripheral surface of the second filter drum body in front of the first filter drum body is not painted over (from the first filter drum body). The axial end portion of the second filter drum body which can not be overpainted by the first filter drum body has the axial end portion of the second filter drum body defined by the second filter means. B. an equal or larger area size than the defined by the first filter means inner peripheral surface of the first filter drum body or has z. B. an axial extent equal to or greater than the axial extent of the defined by the first filter means inner peripheral surface.

The relative movement mechanism is z. B. formed such that the first filter drum body, the inner peripheral surface of the second filter drum body as far as possible in the direction away from the pusher bottom axially sweeps or can sweep that the between the first filter drum body and a remote from the sliding bottom front end of the second filter drum body remaining end portion the inner circumferential surface of the second filter drum body defined by the second filter means, which end portion is not axially overpainted by the filter drum body, has an axial extent equal to or greater than the axial extent of the portion of the inner circumferential surface defined by the first filter means of the first filter drum body and / or which is equal to or greater than the axial extent of the inner peripheral surface of the first filter drum body and / or that between the first filter drum Köö Rper and a remote from the sliding bottom front end of the second filter drum body end portion defined by the second filter means inner peripheral surface of the second filter drum body, which end portion is not axially painted over by the filter drum body, an area size that is equal to or greater than the area size of the maximum present before the sliding floor Portion of the inner circumferential surface defined by the first filter means of the first filter drum body and / or equal to or greater than the surface area of the inner peripheral surface of the first filter drum body.

According to the invention, the total of the (main) filtration available filter area is significantly increased, z. B. substantially doubled, whereby the filter efficiency is increased accordingly, wherein the filter conditions on both the inner peripheral surface of the first filter drum body as well as at the filtration available portion of the inner peripheral surface of the second filter drum body are substantially equal. Due to the flat and / or thin-walled possible embodiment of the first filter drum body, it is z. B. easier to provide the operation (volume and / or mass flow rate of the material to be filtered, stroke length and optional speed of the filter drum and optional frequency of the reciprocating motion) such that the on the inner peripheral surface of the first filter drum body separating filter cake or the material depositing there has an equal or hardly any smaller radial distance to the longitudinal axis of the filter drum as or as the material separating on the inner circumferential surface of the second filter drum body or as the filter cake separating there, wherein e.g. B. a liquid present thereon of the material to be filtered, for. B. a suspension, still above (radially further inside) of both filter cake (filter cake on the inner peripheral surface of the first filter drum body and filter cake on a first filter drum body facing the starting portion of the inner circumferential surface of the second filter drum body), whereby for the inner peripheral surface of the first filter drum body and the filtration available portion of the inner circumferential surface of the second drum body filter in this respect approximately the same filter conditions can be achieved without additional measures such. B. a variable control of the supply of the material to be filtered (volume and / or mass flow rate) to make. D. h., The volume and / or mass flow rate can be kept substantially constant in the filter operation of the pusher centrifuge. Although such additional measures do not have to be made, they are not excluded.

In the relative movement, the push floor sweeps the inner peripheral surface of the first drum body to thereby push the material to be filtered adhered to the inner circumferential surface of the second drum body, and the first drum body sweeps the inner peripheral surface of the second drum body around the filter adhered there (in the overlined portion) Move material in a more forward (in the direction away from the sliding floor) portion of the inner peripheral surface of the second filter drum body, in which more forward section is permanently (in filter operation) forms a filter cake, which is further dehumidified / dried by the rotation and which in Frame of the relative movement is periodically pushed forward periodically towards an outlet or a discharge end of the filter drum.

In a pusher centrifuge, the (main) filtration of the material to be filtered usually takes place on that filter drum body, which a feed device, which to be filtered material in the Filter drum is placed closest to the flow of material, and also substantially only on that portion of this filter drum body whose inner peripheral surface is cleared of the sliding floor in by the relative reciprocating periodic intervals of adhering thereto to be filtered material. On the downstream in the material flow portions of the inner peripheral surface of the above filter drum body and on the / the inner peripheral surface (s) of / further downstream Filtertrommelkörpers / n contrast, in filter operation always or permanently a filter cake at the local inner peripheral surface remains (where this filter cake sections in sections periodically continue in Moved longitudinally of the filter drum to an outlet or discharge end or is pushed), so that there usually more dehumidification of the local filter cake material, but no actual filtering out of solids from a liquid suspension occurs more. In the pusher centrifuge according to the invention, on the other hand, the (main) filtration can take place both on the inner circumferential surface of the first filter drum body and on the portion of the inner circumferential surface of the second filter drum body swept by the first filter drum body because the first drum body is substantially complete can be freed from adhering to filtering material. This is because the pusher bottom can cover at least 50% of the inner circumferential surface of the first filter drum body, wherein the remaining 50% of the inner circumferential surface can be substantially flushed free by means of a sufficiently high throughput of material to be filtered without risk of channeling. Further, formed on the overstretched by the first filter drum body portion of the defined by the second filter means inner peripheral surface of the second filter drum body, because of this periodic sweeping, only a relatively thin, z. B. still standing under liquid-standing layer of material to be filtered, so that at this period of the first filter drum body swept section of the second filter means defined inner peripheral surface of the second filter drum body still takes place a filtering of the material, the dehumidifying only from the axially following (in the direction away from the sliding floor) portion of the inner peripheral surface of the second filter drum body is formed. Thus, the filtration area in the pusher centrifuge invention is considerably increased and is z. B. from a formed by the inner peripheral surface of the first filter drum body pre-filtration area and one of a first axial portion (the moving floor closer axial portion) of the inner circumferential surface of the second filter drum body formed main filtration area together.

The first and second filter drum body are provided on its inner peripheral surface respectively with the first and second filter means and the first and second filter medium, such. B. a sieve such. B. a slotted screen, and the first and second filter drum body have z. As a radially perforated or provided with radial passage openings peripheral wall through which liquid passing through the filter medium / filter medium can pass radially outward to be discharged from there away from the filter drum. The respective filter medium / filter medium may be a separate component which is releasably attached to the respective filter drum body. The respective filter medium / filter medium can also be an integral part of the respective filter drum body. The respective filter drum body may comprise an integrally formed cylindrical drum body portion having an outer peripheral wall integral therewith or formed as an integral cylindrical drum body. The respective filter drum body may also consist of assembled individual components, such as. B. two at an axial distance (in the longitudinal direction of the filter drum) spaced from each other retaining rings are arranged with interposed screen bars, which are arranged with their longitudinal direction in the longitudinal direction of the filter drum and which are arranged along the circumference of the filter drum body at a circumferential distance from each other and z. B. form an outer peripheral wall of the respective filter drum body, from which the outer peripheral surface of the respective filter drum body is formed.

The drainage gap of the first filter drum body is z. B. formed between the first filter means / filter medium and one / the outer peripheral wall of the first filter drum body. In the second filter drum body, a drainage gap may be formed which has a structure corresponding to the drainage gap of the first filter drum body.

The first filter drum body may have an integral outer peripheral wall which defines radially outward the outer surface of the first drum body and in which radially extending through holes or through holes are formed.

The first filter drum body may comprise a plurality of elongated rods (eg, screen bars) disposed along the circumference of the first filter drum body and extending with its longitudinal direction in the direction of the longitudinal axis of the filter drum, and may have a first and a second retaining ring, wherein the rods are arranged in their longitudinal direction between the first and the second retaining ring and secured to the retaining rings, and wherein the radial Outer sides of the rods together define the outer peripheral surface of the first drum body.

The drainage gap may be delimited in radial direction with respect to the filter drum by radially opposed inner boundary surfaces which run essentially parallel to one another, wherein optionally the radial distance between the two inner boundary surfaces is less than or equal to 30 mm. B. less than or equal 25 mm z. B. less than or equal to 20 mm z. B. less than or equal to 15 mm z. B. less than or equal to 10 mm z. B. less than or equal to 5 mm z. B. is less than 2 mm.

The outer peripheral surface of the first filter drum body is seen in taking place through the longitudinal axis of the filter drum cross-section z. B. formed substantially straight. The same applies z. B. for the inner peripheral surface of the first filter drum body and for the respective inner boundary surface of the drainage gap. The respective inner boundary surface also extends z. B. substantially parallel to the longitudinal axis of the filter drum.

Between z. B. the screen bars and holding them retaining rings of the respective (eg., The first) filter drum body can be radially outward z. As a paragraph, which is not prevented, however, that the outer peripheral surface of the first filter drum body, which z. B. (largely) is formed by the substantially rectilinear and parallel to the longitudinal axis extending screen bars, substantially or substantially straight and extends parallel to the longitudinal axis of the filter drum. The retaining rings can z. B. welded directly to the screen bars, and / or the retaining rings can also be axially connected to each other by radially outside the screen bars axially extending bolts. In the case that only a few such bolts are provided, such. B. less than ten bolts, then the outer peripheral surface of the first filter drum body z. B. still essentially formed by the outer surfaces of the screen bars. In the case that a plurality of such bolts is present, for. B. more than ten, so that the bolts are arranged adjacent to each other in a small circumferential distance from each other, the outer peripheral surface of the first filter drum body may also be formed (largely) of the radially outer surfaces of the bolts.

The first filter drum body can, for. B. also be one piece. For example, the retaining rings and the screen bars may be in one piece, e.g. B. be worked by laser cutting or by any other Materialabtragungsart from a single piece of material.

The term "substantially parallel to the longitudinal axis of the filter drum" or "substantially parallel to one another" is herein incorporated by reference. B. the meaning of "parallel", which certain standard tolerances are included, and / or the importance of the even further smaller angle of z. B. less than or equal to 15 ° of z. B. less than or equal to 10 ° of z. B. less than or equal to 5 ° of z. B. less than or equal to 3 ° of z. B. less than or equal to 2 ° of z. B. are smaller than 1 ° are detected. As used herein, the term "substantially rectilinear" includes the meaning "straight-line within normal tolerances" and / or "mostly straight-line" (ie, for example, a single paragraph (such as the paragraphs between the retaining rings discussed above) and the sieve bars) do not exclude the straightness.

The inner peripheral surface and the outer peripheral surface of the first filter drum body and possibly the respective inner boundary surface of the drainage gap extend z. B. substantially parallel to each other. With regard to a flat as possible or thin-walled construction of the first filter drum body, the outer peripheral surface and possibly the respective inner boundary surface of the drainage gap z. B. parallel to the longitudinal axis of the filter drum and / or parallel to each other.

The pusher centrifuge also has z. A feeder for feeding material to be filtered (e.g., suspension) into the filter drum, the feeder comprising a filler manifold disposed inside the filter drum and having an outlet formed and aligned such that the material to be filtered is discharged obliquely from the outlet with respect to the longitudinal axis of the filter drum in the direction of the sliding floor and radially outwards onto the inner peripheral surface of the first filter drum body.

The second filter drum body is seen in the direction of the longitudinal axis of the filter drum z. B. more than twice as long as the first filter drum body. It can thus be achieved that, even if the first filter drum body with its entire axial length (viewed in the longitudinal direction of the filter drum) axially overstretches the inner circumferential surface of the second filter drum body, an axial end portion of the inner peripheral surface of the second filter drum body is not overstretched, so that at this axial end portion the inner circumferential surface of the filter drum body can form a filter cake, whereby the axial end portion of the second filter drum body forms a (first) dehumidifying region for further dehumidifying the filter cake (from solid material of the material to be filtered).

The radial distance between the outer peripheral surface and the inner peripheral surface of the first filter drum body is z. B. less than or equal to 70 mm z. B. less than or equal to 60 mm z. B. smaller equal to 50 mm or z. B. less than or equal to 40 mm z. B. less than or equal to 30 mm z. B. less than or equal to 20 mm z. B. less than or equal to 10 mm z. B. less than or equal to 5 mm.

The radial distance between the inner circumferential surface of the first filter drum body and the inner peripheral surface of the second filter drum body is z. B. less than 70 mm or z. B. less than or equal to 60 mm z. B. less than or equal to 50 mm z. B. less than or equal to 40 mm z. B. less than or equal to 30 mm z. B. less than or equal to 20 mm z. B. less than or equal to 10 mm z. B. less than or equal to 5 mm.

In the event that the second filter drum body no additional filter drum body is connected downstream, the pusher centrifuge quasi a single-stage pusher centrifuge with z. The pusher centrifuge may also have one or more additional stages and thus one or more additional filter drum body, which are connected downstream of the second filter drum body and from which the material is further dehumidified or dried.

Thus, the filter drum of the pusher centrifuge z. B. a third filter drum body having an inner peripheral surface (and an outer peripheral surface) downstream of the second filter drum body, wherein the relative movement mechanism is formed such that of the relative movement mechanism of the sliding floor and the second filter drum body together and the first and third filter drum body together in the direction the longitudinal axis of the filter drum are axially reciprocable relative to each other, thereby material adhering to the inner circumferential surface of the second drum body in the direction of the longitudinal axis of the filter drum on the inner peripheral surface of the third filter drum body and from the inner peripheral surface of the third filter drum body towards a solids discharge line slide.

In the pusher centrifuge z. For example, the pusher bottom may be axially reciprocable together with the second filter drum body, and the first filter drum body may be axially fixed, or vice versa. In the pusher centrifuge z. B. the pusher floor together with the second filter drum body axially reciprocally movable, and the first Filtertrommelköper and the third filter drum body may be formed axially fixed, or vice versa.

The available for filtration inner peripheral surface of the filter drum, which z. B. composed of the sum of the area size of before (in the direction of the longitudinal axis of the filter drum for material Ausschiebe- or Ausförderrichtung out facing) the sliding bottom portion of the inner circumferential surface of the first filter drum body and the area size of the present in front of the first filter drum body portion of the inner peripheral surface of the second Filter drum body to the point at which the first filter drum body can sweep the second filter drum body most axially or sweeps over (per stroke), z. B. during the filter operation (or the reciprocating motion operation) is not (or never) less than z. B. 75% or 80% or 85% or 90% of the maximum size of this available for filtration inner peripheral surface of the filter drum.

According to the invention there is further provided a method of operating a pusher centrifuge in filter operation, the pusher centrifuge comprising a filter drum having a longitudinal axis about which the filter drum is rotatable, a first filter drum body having an inner circumferential surface defined by a first filter means, and a second filter drum body comprising an inner circumferential surface defined by a second filter means, a pusher tray disposed in the filter drum, the first filter drum body being radially adjacent to the pusher tray, and a relative movement mechanism of which the pusher tray and the second filter drum body are common and the first filter drum body in the direction of the longitudinal axis of the filter drum by a stroke length and with a stroke frequency relative to each other are axially reciprocally movable, thereby adhering to the inner peripheral surface of the first filter drum body the material to be filtered in the direction of the longitudinal axis of the filter drum on the inner circumferential surface of the second filter drum body, optionally for operating a pusher centrifuge as described herein, wherein the material to be filtered on the inner peripheral surface of the first filter drum body having such a substantially constant volume and supplied and / or mass flow rate and the relative movement mechanism can be adjusted to such a stroke length and / or controlled that the inner peripheral surface of the first filter drum body is freed in determined by the stroke frequency periodic distances substantially completely attached thereto to be filtered material and that the radial distance from at the Inner circumferential surface of the second filter drum body permanently adhering filter cake to the longitudinal axis of the filter drum is smaller than the radial distance of the inner circumferential surface of the first filter drum body to the longitudinal axis of the Filtertromm el.

The relative movement mechanism can be adjusted to such a stroke length and / or controlled that viewed from the sliding floor in the direction of the longitudinal axis of the filter drum, in each case determined by the stroke frequency periodic intervals at least 50% or z. B. at least 60% or z. B. at least two-thirds or z. B. at least three quarters or z. B. at least 80% or z. B. at least 85% or z. B. at least 90% of the (defined by the first filter means) inner peripheral surface of the first filter drum body are swept from the sliding floor.

The relative movement mechanism may, for. B. is adjusted to such a stroke length and / or is controlled, that of the first filter drum body defined by the second filter means inner peripheral surface of the second filter drum body is only axially overlapped so far that the remaining before the first filter body not swept (from the first filter drum body) surface section the inner circumferential surface of the second filter drum body is equal to or larger than the surface portion of the inner circumferential surface of the first filter drum body formed by the first filter medium, at most before the sliding bottom.

The invention further provides a method for operating a pusher centrifuge in filter operation, the pusher centrifuge comprising a filter drum having a longitudinal axis about which the filter drum is rotatable, a first filter drum body having an inner peripheral surface defined by a first filter means, and a second filter drum body. which has an inner peripheral surface defined by a second filter means, a pusher bottom disposed in the filter drum, the first filter drum body being radially adjacent to the pusher bottom, and a relative movement mechanism of which the pusher bottom and the second filter drum body are common and the first filter drum body is in Direction of the longitudinal axis of the filter drum by a stroke length and with a stroke frequency relative to each other are axially reciprocally movable, thereby adhering to the inner peripheral surface of the first filter drum body, to filter The material in the direction of the longitudinal axis of the filter drum to push on the inner peripheral surface of the second filter drum body, optionally for operating a pusher centrifuge as described herein, wherein the relative movement mechanism is adjusted to such a stroke length and / or controlled that of the pusher tray in the direction of the longitudinal axis of the filter drum seen, in each case determined by the stroke frequency periodic intervals at least 50% of the defined by the first filter means inner peripheral surface of the first filter drum body from the sliding bottom, and wherein the relative movement mechanism is set to such a stroke length and / or controlled that of the first filter drum body of the second filter means defined inner circumferential surface of the second filter drum body is only passed over axially so far that the remaining before the first filter body not swept (from the first filter drum body) Area portion of the inner peripheral surface of the second filter drum body is equal to or greater than the maximum present in front of the sliding floor surface portion of the first filter means formed by the inner peripheral surface of the first filter drum body.

The invention will be explained below with reference to embodiments with reference to the drawings. In the drawings show:

1 a schematic longitudinal section of a pusher centrifuge according to an embodiment of the invention, wherein a moving floor is shown in a rear reversing position,

2 a schematic longitudinal section of the pusher centrifuge of 1 wherein the walking floor is shown in a front reversing position,

3 a schematic longitudinal section of a pusher centrifuge according to another embodiment of the invention, wherein a sliding floor is shown in a rear reversing position, and

4 a schematic longitudinal section of the pusher centrifuge of 3 , wherein the sliding floor is shown in a front reversing position.

5 - 8th respective cross sections of a first filter drum body according to embodiments of the invention.

In the 1 in a longitudinal section schematically illustrated pusher centrifuge 1 according to one embodiment of the invention comprises: a filter drum 3 with a longitudinal axis 5 to which the filter drum 3 is rotatable, a first filter drum body 7 that has an inner peripheral surface 9 and an outer peripheral surface 11 comprising a second filter drum body 13 that has an inner peripheral surface 15 and an outer peripheral surface 17 and a third filter drum body 19 that has an inner peripheral surface 21 and an outer peripheral surface 23 has a sliding floor 25 in the filter drum 3 is arranged and fixed to the second filter drum body 13 is connected, wherein the first filter drum body 7 the moving floor 25 is disposed radially immediately adjacent, and a relative movement mechanism 27 , the z. B. in the form of axial guides and an axial drive device 29 is formed, of which the moving floor 25 and the second filter drum body 13 together relative to the first filter drum body 7 and the third filter drum body 19 , which are both axially fixed, in the direction of the longitudinal axis 5 the filter drum 3 axially relative to each other are movable back and forth (arrow P), thereby to the inner peripheral surface 9 the first filter drum body 7 adherent / adhering material / filter cake 31 in the direction of the longitudinal axis 5 the filter drum 3 forward on the inner peripheral surface 15 the second filter drum body 13 to push, with the relative movement mechanism 27 is formed such that from the sliding floor 25 in the direction of the longitudinal axis 5 the filter drum 3 seen (in the context of the back-and-forth movement) each (at each stroke) more than three quarters of the inner peripheral surface 9 the first filter drum body is swept over, and wherein the outer peripheral surface 11 the first filter drum body 7 essentially parallel to the longitudinal axis 5 the filter drum 3 runs or extends.

The first filter drum body 7 has a first filter medium or first filter means 33 in the form of a sieve, from which the inner peripheral surface 9 the first filter drum body 7 is defined or formed. The first filter drum body 7 also has an outer peripheral wall 35 , here a one-piece outer peripheral wall, on which the outer peripheral surface 11 the first filter drum body 7 is defined, wherein between the outer peripheral wall 35 and the first filter means 33 a drainage gap 37 is formed (the drainage gap 37 is shown for reasons of clarity with an oversized radial width dimension), of a radially outer inner boundary surface 39 coming from the outer peripheral wall 35 is defined, and a radially inner inner boundary surface 41 that from the first filter medium 33 is defined, radially limited or defined. The inner peripheral surface 9 , the radially outer inner boundary surface 41 and the radially inner inner boundary surface 39 the first filter drum body 7 also run parallel to the longitudinal axis 5 the filter drum 3 and parallel to each other and parallel to the outer peripheral surface 11 the first filter drum body 7 ,

In the outer peripheral wall 35 the first filter drum body 7 are radially through the outer peripheral wall 35 passing through holes 43 educated.

The second filter drum body 13 has a second filter medium or second filter means 47 , z. As a sieve, on which the inner peripheral surface 15 the second filter drum body 13 defines or forms. The second filter drum body 13 also has an outer peripheral wall 49 , here a one-piece outer peripheral wall, on, in which radially through-going through holes 51 are formed. Between the outer peripheral wall 49 and the second filter means 47 is a drainage gap 53 formed (the drainage gap 53 is shown for reasons of clarity with an oversized radial width dimension), of a radially outer inner boundary surface 55 coming from the outer peripheral wall 49 is defined, and a radially inner inner boundary surface 57 that of the second filter medium 47 is defined, radially limited or defined. The outer peripheral surface 17 , the inner circumferential surface 15 , the radially outer inner boundary surface 55 and the radially inner inner boundary surface 57 the second filter drum body 13 also run parallel to the longitudinal axis 5 the filter drum 3 and run parallel to each other.

The third filter drum body 19 has a third filter medium or third filter medium 59 , z. As a sieve, on which the inner peripheral surface 21 the third filter drum body 19 defines or forms. The third filter drum body 19 also has an outer peripheral wall 61 , here a one-piece outer peripheral wall, on, in which radially through-going through holes 62 are formed. Between the outer peripheral wall 61 and the third filter means 59 is a drainage gap 63 formed (the drainage gap 63 is shown for reasons of clarity with an oversized radial width dimension), of a radially outer inner boundary surface 65 coming from the outer peripheral wall 61 is defined, and a radially inner inner boundary surface 67 that from the filter medium 59 is defined, radially limited or defined. The outer peripheral surface 21 , the inner circumferential surface 23 , the radially outer inner boundary surface 65 and the radially inner inner boundary surface 67 the third filter drum body 19 also run parallel to the longitudinal axis 5 the filter drum 3 and run parallel to each other.

The pusher centrifuge 1 also has a feeder 69 for feeding material to be filtered 71 which z. B. is a suspension in the filter drum 3 and which comprises: one from outside the filter drum 3 in the filter drum 3 infeeding supply line 73 and a Füllverteilervorrichtung 75 with an outlet 77 from which over the outlet 77 the supplied from the feeder to be filtered material 71 in the filter drum 3 is issued. The Füllverteilervorrichtung 75 is in the context of the back-and-forth movement of the moving floor 25 axially with the sliding floor 25 formed back and forth with movable. The outlet 77 is formed and oriented such that the material to be filtered 71 from the outlet 77 with respect to the longitudinal axis 5 the filter drum 3 diagonally towards the push floor 25 and radially outwardly toward the inner circumferential surface 9 the first filter drum body 7 is issued.

At the front axial end 79 the third filter drum body 19 has the pusher centrifuge 1 a solids discharge line 81 on, over which the from the material to be filtered 71 filtered solid material 83 from the pusher centrifuge 1 is dissipated. The in the material to be filtered 71 contained and from the solid material 83 liquid to be separated, which through the radial through holes 43 . 51 . 62 radially out of the filter drum 3 is discharged, is via a liquid-discharge line 85 further dissipated.

The filter drum 3 is on a drive shaft 87 attached, which of a rotary drive 89 , z. B. an electric motor, is driven in rotation. The axial drive device 29 is z. B. a pneumatically or hydraulically or electrically operating device. The rotary drive 89 and the axial drive device 29 are controlled by an electronic control unit (not shown) for controlling the rotational speed or the axial stroke frequency and / or the axial stroke size. The control unit may also be connected to the feeder to control the flow / throughput of the filter drum 3 to control supplied material to be filtered.

The filter drum 3 is also in a housing 89 added.

In filter mode, this is accomplished via the filling distributor device 69 in the filter drum 3 issued material to be filtered 71 first on the front of the sliding floor 25 and on the inner peripheral surface 9 the first filter drum body 7 , which is the Füllverteilervorrichtung 69 immediately downstream. Due to the parallel to the longitudinal axis of the filter drum 3 extending inner circumferential surface 9 is based on the material on it 71 (due to the rotation of the filter drum 3 ) exerted an already large centrifugal force, so that the material 71 already efficiently deprived of liquid and the material 71 so that it is effectively thickened. As part of the constant axial reciprocating motion of the moving floor 25 relative to the first filter drum body 7 becomes the material 71 in from the stroke frequency of the relative movement between the sliding floor 25 and first filter drum body 7 certain time intervals on the inner peripheral surface 15 the second filter drum body 13 pushed, and in the context of the constant axial reciprocating motion of the first filter drum body 7 relative to the second filter drum body 13 becomes the material 71 in from the stroke frequency of the relative movement between the first filter drum body 7 and the second filter drum body 13 certain time intervals on the inner surface 23 the third filter drum body 19 pushed, and in the context of the constant axial reciprocating movement of the second filter drum body 13 relative to the third filter drum body 19 Ultimately, this becomes the material to be filtered 71 remaining solid material 83 in from the stroke frequency of the relative movement between the second filter drum body 13 and the third filter drum body 19 certain time intervals to the solids discharge line 81 pushed out.

The actual filtration or main filtration are available in front of the moving floor 25 lying axial portion of the inner peripheral surface 9 the first filter drum body 7 and that axial (in the direction of the longitudinal axis 5 ) (Beginning) section 97 the inner peripheral surface 15 the second filter drum body 13 which extends from (immediately) in front of the first filter drum body 7 out to that axial point 100 extends to the first filter drum body 7 relative to the second filter drum body 13 in its stroke can reach maximum forward, so that the axial initial section 97 the inner peripheral surface 15 the second filter drum body 7 At periodic intervals substantially completely free of adhering material. That axial end section 98 the inner peripheral surface 15 the second filter drum body 13 extending from the previously mentioned axial location 100 to the front axial end 102 (on which then the inner peripheral surface 21 the third filter drum body 19 follows) of the second filter drum body 13 extends, forms a (first) dehumidification, where in filter operation always a filter cake is present, which periodically sections on the inner peripheral surface 21 the third filter drum body 19 is pushed, which inner peripheral surface 21 forms another dehumidification area.

The in the 1 and 2 illustrated pusher centrifuge 1 Thus, in principle, a combination of a conventional two-stage pusher centrifuge, wherein the two conventional stages of the second and third filter drum body 13 . 19 are formed with a pre-filtration stage, which of the between the two conventional stages and the feeder 69 switched first filter drum body 7 is formed. The axial extent or length (in the direction of the longitudinal axis 5 ) of the second filter means 47 or the second filter medium 47 defined inner circumferential surface 15 is more than twice the axial extent or length of the first filter medium 33 or from the first filter means 33 defined inner circumferential surface of the first filter drum body 7 , so although the first filter drum body 7 by almost its entire axial length or by almost the entire axial extent of the first filter means 33 relative to the second filter drum body 13 is moved and the second filter means 47 to this extension / length passes, nor the above-mentioned axial end portion 98 the inner peripheral surface 15 the second filter drum body 9 remains on which permanently filter cake can deposit and which is greater than the axial beginning section 97 the inner peripheral surface 15 the second filter drum body and as the inner peripheral surface 9 the first filter drum body 7 ,

Although according to the embodiment of 1 and 2 the moving floor 25 and the second filter drum body 13 Axially moved back and forth, it is also possible that the sliding floor 25 and the second filter drum body 13 are held axially fixed and that the first filter drum body 7 , z. B. together with the third filter drum body 19 , is moved axially.

In the 3 and 4 is a pusher centrifuge 1 according to another embodiment of the invention shown schematically in longitudinal section.

The pusher centrifuge 1 according to the 3 and 4 is identical to the one in the 1 and 2 Pusher centrifuge shown, with the only difference that in the 3 and 4 illustrated pusher centrifuge 1 does not have a third filter drum body. Otherwise, in view of the structure and function of the pusher centrifuge according to 3 and 4 to the above description of the pusher centrifuge 1 according to 1 and 2 directed.

Accordingly, the material to be filtered passes 71 via the feeder 69 in the filter drum 3 and there first to the front of the sliding floor 25 and on the inner peripheral surface 9 the first filter drum body 7 , Due to the axial (in the direction of the longitudinal axis 5 the filter drum 3 ) relative back-and-forth motion between the walking floor 25 and the first filter drum body 7 becomes the material 71 from the inner peripheral surface 9 the first filter drum body 7 on the inner peripheral surface 15 the second filter drum body 13 pushed, and due to the axial relative reciprocating motion between the first filter drum body 7 and the second filter drum body 13 this will be the material to be filtered 71 resulting solid material 83 from the inner peripheral surface 15 the second filter drum body 13 in the solids discharge line 81 pushed.

Due to the parallel orientation of the outer peripheral surface 11 the first filter drum body 7 as well as due to - in the cross section of the filter drum 3 through the longitudinal axis 5 the filter drum 3 seen - rectilinear formation of the outer peripheral surface 11 the first filter drum body 7 already a relatively flat-building thin-walled first filter drum body 7 be achieved. Any optional additional measures (which may be considered individually or in any combination and, for example, individually or in any combination, may be added to the subject-matter of the independent claims also in combination with the respective dependent claims) to the flat and thin-walled construction of the first filter drum body 7 are z. B. that the radially outer inner boundary surface 41 the drainage gap 37 parallel to the longitudinal axis 5 the filter drum 3 is aligned and - in cross section of the filter drum 3 through the longitudinal axis 5 the filter drum 3 seen - for example B. is rectilinear and / or that the radially inner inner boundary surface 39 the drainage gap 37 parallel to the longitudinal axis 5 the filter drum 3 is aligned and - in cross section through the longitudinal axis 5 the filter drum 3 seen - for example B. is rectilinear and / or that inner peripheral surface 9 the first filter drum body 7 parallel to the longitudinal axis 5 the filter drum 3 is aligned and - in cross section of the filter drum 3 through the longitudinal axis 5 the filter drum 3 seen - for example B. is rectilinear and / or that the outer peripheral wall 35 the first filter drum body 7 parallel to the longitudinal axis 5 the filter drum 3 is aligned and - in cross section of the filter drum 3 through the longitudinal axis 5 the filter drum 3 seen - for example B. is rectilinear and / or and that the drainage gap 37 - In cross section of the filter drum 3 through the longitudinal axis 5 the filter drum 3 seen - in the direction of the longitudinal axis 5 the filter drum 3 is formed substantially elongated rectangular.

As in the embodiment of 1 and 2 is also in the embodiment of 3 and 4 the axial extension / length (in the direction of the longitudinal axis 5 ) of the second filter means 47 the second filter drum body 13 more than twice the axial extent / length of the first filter means 33 the first filter drum body 7 , so although the first filter drum body 7 around the entire axial length of its first filter medium 33 relative to the second filter drum body 13 over its inner peripheral surface 15 is still moving, nor the above-explained large axial end portion 98 the inner peripheral surface 15 the second filter drum body 9 between that axial point 100 , up to the first filter drum body 7 relative to the second filter drum body 13 in its stroke can reach maximum forward, and the front axial end 102 the second filter drum body 13 remains on the filter cake can permanently deposit, so this axial end portion 98 forms a dehumidifying area.

In 5 is an embodiment of a first filter drum body 7 in through the longitudinal axis 5 going cross section shown. Hereinafter, the first filter drum body 7 an integral drum-shaped body 104 on which the outer peripheral wall 35 and then the outer peripheral surface 11 forms and which at both axial ends 106 . 108 each a radially inwardly extending, circumferential collar 110 . 112 having. Between the two circumferential collars 110 . 112 are sieve bars 114 arranged, which with their longitudinal direction in the direction of the longitudinal axis 5 the filter drum 3 (please refer 1 - 4 ), with the screen bars 114 are arranged at a circumferential distance from each other, so that between adjacent screen bars 114 one sieve gap each 116 is formed (the sieve column 116 are shown oversized). One the two axially and radially outermost ends 118 . 120 the first filter drum body 7 connecting (imaginary) straight line G runs parallel to the longitudinal axis 5 the filter drum 3 , and the filter drum body 7 extends circumferentially (ie in the cross-sectional profile) with no portion radially beyond this straight line to the outside. The the first filter agent 33 forming strainers 114 further define the inner peripheral surface 9 the first filter drum body 7 ,

6 shows an embodiment of a first filter drum body 7 in one through the longitudinal axis 5 the filter drum 3 going cross section. Hereinafter, the first filter drum body 7 at its axial ends 110 . 112 each one in the circumferential direction of the first filter drum body 7 extending retaining ring 122 . 124 as well as sieve bars 114 on which between the retaining rings 122 . 124 are arranged and which of the retaining rings 122 . 124 are held. Furthermore, the first filter drum body 7 straps 126 . 128 extending along the outer periphery of the first filter drum body 7 in radial contact with the screen bars 114 around the first filter drum body 7 extend around the sieve bars 114 to support radially. The inner peripheral surface 9 the first filter drum body 7 This is the first filter medium 33 forming sieve bars 114 educated. In case the retaining straps 126 . 128 and the retaining rings 122 . 124 compared to the sieve bars 114 have a smaller radial outer surface, z. B. from the sieve bars 114 formed radial outer surface than the outer peripheral surface 11 the first filter drum body 7 be considered. In case the retaining straps 126 . 128 and the retaining rings 122 . 124 compared to the sieve bars 114 have a larger radial outer surface, z. B. from the retaining rings 122 . 124 and the sieve bars 114 formed radial outer surface than the outer peripheral surface 11 ' the first filter drum body 7 be considered. A straight line G, which defines the axial and radial extremities (endpoints) 118 . 120 the first filter drum body 7 connects to each other, extends substantially parallel to the longitudinal axis 5 the filter drum 3 , wherein (in the cross-sectional profile) no portion of the first filter drum body 7 extends radially outwardly beyond this straight line G.

7 shows an embodiment of a first filter drum body 7 in one through the longitudinal axis 5 the filter drum 3 going cross section. Hereinafter, the first filter drum body 7 at its axial ends 110 . 112 each one in the circumferential direction of the first filter drum body 7 extending retaining ring 122 . 124 as well as sieve bars 114 on which between the retaining rings 122 . 124 are arranged and which of the retaining rings 122 . 124 are held. Furthermore, the first filter drum body 7 retaining bolt 130 on, the two retaining rings 122 . 124 connect together and along the circumferential direction of the first filter drum body 7 are spaced apart. In case the retaining bolts 130 and the retaining rings 122 . 124 compared to the sieve bars 114 have a smaller radial outer surface, z. B. from the sieve bars 114 formed radial outer surface than the outer peripheral surface 11 the first filter drum body 7 be considered. In case the retaining bolts 130 and the retaining rings 122 . 124 compared to the sieve bars 114 have a larger or slightly smaller radial outer surface, z. B. from the retaining rings 122 . 124 and the sieve bars 114 formed radial outer surface than the outer peripheral surface 11 ' the first filter drum body 7 be considered. A straight line G, which has the axially and radially outermost ends (endpoints) 118 . 120 the first filter drum body 7 connects to each other, extends substantially parallel to the longitudinal axis 5 the filter drum 3 , wherein (in the cross-sectional profile) no portion of the first filter drum body 7 extends radially outwardly beyond this straight line G. The sieve bars 114 form the first filter medium 33 , which is the inner circumferential surface 9 the first filter drum body 7 Are defined.

8th shows an embodiment of a first filter drum body 7 in one through the longitudinal axis 5 the filter drum 3 going cross section. Hereinafter, the first filter drum body 7 at its axial ends 110 . 112 each one in the circumferential direction of the first filter drum body 7 extending retaining ring 122 . 124 as well as sieve bars 114 on which between the retaining rings 122 . 124 are arranged and which of the retaining rings 122 . 124 are held. The sieve bars 114 are z. B. directly to the retaining rings 122 . 124 welded and form the outer peripheral surface 11 as well as the inner circumferential surface 9 the first filter drum body 7 , which peripheral surfaces 9 . 11 both parallel to the longitudinal axis 5 the filter drum are arranged and in the cross section of the filter drum body 7 seen are straightforward. The first filter drum body 7 can z. B. also be one piece. For example, the retaining rings 122 . 124 and the sieve bars 114 be one piece, z. B. be worked by laser cutting or by any other Materialabtragungsart from a single piece of material. The retaining rings 122 . 124 and the sieve bars 114 can z. B. be welded together.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 1468742 A1 [0003]
• EP 1468743 A1 [0003]
• DE 1079551 A [0003]
• DE 3226247 A1 [0003]
• DE 1209507 [0003]
• DE 19546019 C1 [0003]
• GB 1518239A [0003]
• DE 1087979 A [0003]

Claims (15)

Pusher centrifuge ( 1 ), comprising a filter drum ( 3 ) with a longitudinal axis ( 5 ) around which the filter drum ( 3 ) is rotatable, a first filter drum body ( 7 ), one of a first filter means ( 33 ) defined inner circumferential surface ( 9 ) and an outer peripheral surface ( 11 ), and a second filter drum body ( 13 ), one of a second filter means ( 47 ) defined inner circumferential surface ( 15 ) and an outer peripheral surface ( 17 ), a moving floor ( 5 ) in the filter drum ( 3 ), wherein the first filter drum body ( 3 ) the moving floor ( 25 ) is arranged radially immediately adjacent, and a relative movement mechanism ( 27 ) from which the moving floor ( 25 ) and the second filter drum body ( 13 ) together and the first filter drum body ( 7 ) in the direction of the longitudinal axis ( 5 ) of the filter drum ( 3 ) are axially reciprocable relative to each other, wherein in the direction of the longitudinal axis ( 5 ) seen the second filter means ( 47 ) has an axial extent which is greater than the axial extent of the first filter means ( 33 ), wherein the relative movement mechanism ( 27 ) is designed such that the moving floor ( 25 ) with axial displacement of on the inner peripheral surface ( 9 ) of the first filter drum body ( 7 ) adhering material in the context of the relative reciprocating movement at least up to half of the axial extent of the first filter means ( 33 ) is axially relatively movable, and wherein the outer peripheral surface ( 11 ) and / or the outer peripheral wall ( 35 ) of the first filter drum body ( 3 ) substantially parallel to the longitudinal axis ( 5 ) and / or, in the longitudinal axis ( 5 ) extending cross section of the first filter drum body ( 7 ), a straight line through the two axially and radially outermost end points of the cross section of the first filter drum body ( 7 ) substantially parallel to the longitudinal axis ( 5 ) and the first filter drum body ( 7 ) largely does not project radially beyond the straight line. Pusher centrifuge ( 1 ) according to claim 1, wherein between the inner peripheral surface ( 9 ) and the outer peripheral surface ( 11 ) of the first filter drum body ( 7 ) a drainage gap ( 37 ) is formed, which in relation to the filter drum ( 3 ) Radial direction radially outward from an inner boundary surface ( 41 ) substantially parallel to the longitudinal axis ( 5 ) of the filter drum ( 3 ) runs. Pusher centrifuge ( 1 ), comprising a filter drum ( 3 ) with a longitudinal axis ( 5 ) around which the filter drum ( 3 ) is rotatable, a first filter drum body ( 7 ), one of a first filter means ( 33 ) formed inner peripheral surface ( 9 ) and an outer peripheral surface ( 11 ), between which a drainage gap ( 37 ), and a second filter drum body ( 13 ), one of a second filter means ( 47 ) formed inner peripheral surface ( 15 ) and an outer peripheral surface ( 17 ), a moving floor ( 25 ) in the filter drum ( 3 ), wherein the first filter drum body ( 7 ) the moving floor ( 25 ) is arranged radially immediately adjacent, and and a relative movement mechanism ( 27 ) from which the moving floor ( 25 ) and the second filter drum body ( 13 ) together and the first filter drum body ( 7 ) in the direction of the longitudinal axis ( 5 ) of the filter drum ( 3 ) are axially reciprocable relative to each other, wherein in the direction of the longitudinal axis ( 5 ) seen the second filter means ( 47 ) has an axial extent which is greater than the axial extent of the first filter means ( 33 ), wherein the relative movement mechanism ( 27 ) is designed such that the moving floor ( 25 ) with axial displacement of on the inner peripheral surface ( 9 ) of the first filter drum body ( 7 ) adhering material in the context of the relative reciprocating movement at least up to half of the axial extent of the first filter means ( 33 ) is axially relatively movable, and wherein the drainage gap ( 37 ) in relation to the filter drum ( 3 ) Radial direction radially outward from an inner boundary surface ( 41 ) substantially parallel to the longitudinal axis ( 5 ) of the filter drum ( 3 ) runs. Pusher centrifuge ( 1 ) according to claim 2 or 3, wherein the drainage gap ( 37 ) in relation to the filter drum ( 3 ) radial direction of radially opposed inner boundary surfaces ( 39 . 41 ), which are substantially parallel to each other, optionally with the radial distance between the two inner boundary surfaces ( 39 . 41 ) is less than or equal to 30 mm. Pusher centrifuge ( 1 ) according to one of claims 1 to 4, wherein the relative movement mechanism ( 27 ) is formed such that the first filter drum body ( 7 ) with the total axial length of its first filter means ( 33 ) over that of the second filter means ( 47 ) defined inner circumferential surface ( 15 ) of the second filter drum body ( 13 ) is relatively movable, wherein an axial end portion ( 98 ) of the inner circumferential surface ( 15 ) of the second filter drum body ( 13 ) in front of the first filter drum body ( 7 ) from the first filter drum body ( 7 ) is not overpaintable. Pusher centrifuge according to claim 5, wherein the non-first filter drum body ( 7 ) paintable axial end portion ( 98 ) of the second filter means ( 47 ) defined inner peripheral surface ( 15 ) of the second filter drum body ( 13 ) has a larger area size than that of the first filter means ( 33 ) defined inner circumferential surface ( 9 ) of the first filter drum body ( 7 ). Pusher centrifuge ( 1 ) according to one of claims 1 to 6, wherein the axial extent of the second filter means ( 47 ) is at least twice as large as the axial extent of the first filter means ( 33 ). Pusher centrifuge ( 1 ) according to one of claims 1 to 6, wherein the relative movement mechanism ( 27 ) is formed such that of the first filter drum body ( 7 ) the inner peripheral surface ( 15 ) of the second filter drum body ( 13 ) only as far as possible in the direction away from the moving floor ( 25 ) is painted over axially forward that between the first filter drum body ( 7 ) and one from the moving floor ( 25 ) facing away from the front end ( 102 ) of the second filter drum body ( 13 ) remaining end portion ( 98 ) of the second filter means ( 47 ) defined inner peripheral surface ( 15 ) of the second filter drum body ( 13 ), which end section ( 98 ) is not axially overstretched by the filter drum body, an axial extent which is equal to or greater than the axial extent of the maximum before the sliding floor ( 25 ) present section of the first filter means ( 33 ) defined inner peripheral surface ( 9 ) of the first filter drum body ( 7 ) or which is equal to or greater than the axial extent of the inner peripheral surface ( 9 ) of the first filter drum body ( 7 ). Pusher centrifuge ( 1 ) according to one of claims 1 to 8, further comprising a feeding device ( 69 ) for feeding material to be filtered ( 71 ) in the filter drum ( 3 ), wherein the feeder ( 69 ) a Füllverteilervorrichtung ( 75 ), which in the interior of the filter drum ( 3 ) and which has an outlet ( 77 ) which is designed and oriented such that the material to be filtered ( 71 ) from the outlet ( 77 ) with respect to the longitudinal axis ( 5 ) of the filter drum ( 3 ) at an angle towards the moving floor ( 25 ) and radially outwardly toward the inner peripheral surface ( 9 ) of the first filter drum body ( 7 ) will spend. Pusher centrifuge ( 1 ) according to one of claims 1 to 9, wherein the second filter drum body ( 13 ) in the direction of the longitudinal axis ( 5 ) seen the filter drum is more than twice as long as the first filter drum body ( 7 ). Pusher centrifuge ( 1 ) according to one of claims 1 to 10, wherein the radial distance between the outer peripheral surface ( 11 ) and the inner peripheral surface ( 9 ) of the first filter drum body ( 7 ) is less than or equal to 70 mm and / or wherein the radial distance between the inner peripheral surface ( 9 ) of the first filter drum body ( 7 ) and the inner peripheral surface ( 15 ) of the second filter drum body ( 13 ) is less than or equal to 70 mm. Method for operating a pusher centrifuge ( 1 ) in the filter operation, wherein the pusher centrifuge comprises a filter drum ( 3 ) with a longitudinal axis ( 5 ) around which the filter drum ( 3 ) is rotatable, a first filter drum body ( 7 ), one of a first filter means ( 33 ) defined inner circumferential surface ( 9 ), and a second filter drum body ( 13 ), one of a second filter means ( 47 ) defined inner circumferential surface ( 15 ), a moving floor ( 5 ) in the filter drum ( 3 ), wherein the first filter drum body ( 7 ) the moving floor ( 25 ) is arranged radially immediately adjacent, and a relative movement mechanism ( 27 ) from which the moving floor ( 25 ) and the second filter drum body ( 13 ) together and the first filter drum body ( 7 ) in the direction of the longitudinal axis ( 5 ) of the filter drum ( 3 ) are axially reciprocally movable with a stroke frequency relative to one another, thereby being displaceable on the inner circumferential surface ( 9 ) of the first filter drum body ( 7 ) adherent material to be filtered ( 71 ) in the direction of the longitudinal axis ( 5 ) of the filter drum ( 3 ) on the inner peripheral surface ( 15 ) of the second filter drum body ( 13 ), optionally for operating a pusher centrifuge according to one of claims 1 to 11, wherein the material to be filtered ( 71 ) on the inner peripheral surface of the first filter drum body ( 7 supplied with such, substantially constant volume and / or mass flow rate and the relative movement mechanism ( 27 ) are adjusted to such a stroke length and / or controlled that the inner peripheral surface ( 9 ) of the first filter drum body ( 7 ) is substantially completely freed from adhering to filtering material in periodic distances determined by the stroke frequency and that the radial distance from at the inner peripheral surface ( 15 ) of the inner circumferential surface ( 15 ) of the second filter drum body ( 13 ) permanently adhering filter cake to the longitudinal axis ( 5 ) of the filter drum ( 3 ) is smaller than the radial distance of the inner peripheral surface of the first filter drum body ( 7 ) to the longitudinal axis ( 5 ) of the filter drum ( 3 ). Method according to claim 12, wherein the relative movement mechanism ( 27 ) is adjusted to such a stroke length and / or that is controlled by the moving floor ( 25 ) in the direction of the longitudinal axis ( 5 ) of the filter drum ( 3 ), in each case at least 50% of the inner peripheral surface ( 9 ) of the first filter drum body ( 7 ) are swept from the sliding floor. Method according to one of claims 12 to 13, wherein the relative movement mechanism ( 27 ) is adjusted to such a stroke length and / or controlled that of the first filter drum body ( 7 ) from the second filter means ( 47 ) defined inner circumferential surface ( 15 ) of the second Filter drum body ( 13 ) is swept only axially so far that the front of the first filter body ( 7 ) remaining non-swept surface portion of the inner peripheral surface of the second filter drum body ( 13 ) is equal to or greater than the maximum present before the moving floor surface portion of the first filter means ( 33 ) formed inner peripheral surface ( 9 ) of the first filter drum body ( 7 ). Method for operating a pusher centrifuge ( 1 ) in the filter operation, wherein the pusher centrifuge comprises a filter drum ( 3 ) with a longitudinal axis ( 5 ) around which the filter drum ( 3 ) is rotatable, a first filter drum body ( 7 ), one of a first filter means ( 33 ) defined inner circumferential surface ( 9 ), and a second filter drum body ( 13 ), one of a second filter means ( 47 ) defined inner circumferential surface ( 15 ), a moving floor ( 5 ) in the filter drum ( 3 ), wherein the first filter drum body ( 7 ) the moving floor ( 25 ) is arranged radially immediately adjacent, and a relative movement mechanism ( 27 ) from which the moving floor ( 25 ) and the second filter drum body ( 13 ) together and the first filter drum body ( 7 ) in the direction of the longitudinal axis ( 5 ) of the filter drum ( 3 ) are axially reciprocally movable with a stroke frequency relative to one another, thereby being displaceable on the inner circumferential surface ( 9 ) of the first filter drum body ( 7 ) adherent material to be filtered ( 71 ) in the direction of the longitudinal axis ( 5 ) of the filter drum ( 3 ) on the inner peripheral surface ( 15 ) of the second filter drum body ( 13 ), optionally for operating a pusher centrifuge according to one of claims 1 to 11, wherein the relative movement mechanism ( 27 ) is adjusted to such a stroke length and / or that is controlled by the moving floor ( 25 ) in the direction of the longitudinal axis ( 5 ) of the filter drum ( 3 ), in at least 50% of the first filter means (in particular by the stroke frequency determined by the stroke frequency 33 ) Inner peripheral surface ( 9 ) of the first filter drum body ( 7 ) are swept from the walking floor, and wherein the relative movement mechanism ( 27 ) is adjusted to such a stroke length and / or controlled that of the first filter drum body ( 7 ) from the second filter means ( 47 ) defined inner circumferential surface ( 15 ) of the second filter drum body ( 13 ) is swept only axially so far that the front of the first filter body ( 7 ) remaining non-swept surface portion of the inner peripheral surface of the second filter drum body ( 13 ) is equal to or greater than the maximum present before the moving floor surface portion of the first filter means ( 33 ) formed inner peripheral surface ( 9 ) of the first filter drum body ( 7 ).

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