EP1462567A1 - Screen for purification of fibrous pulp - Google Patents

Abstract

A papermaking assembly has a sorting station to separate foreign objects from a fibre suspension. The sorting station has a housing with a parabolic rotor (4), a sieve basket (5), an acceptance chamber and a rejection outlet (9) closely co-located with the rotor. The assembly also has a feed point (10) for thinning water immediately below the reject outlet. The thinning water feed point is at the housing and sieve (5). The flow pattern is regulated by an expanding/contracting ring with a serrated edge that interrupts axial flow.

Description

The invention relates to a sorter for cleaning a fiber suspension according to the preamble of claim 1.

Sorters are machines used in the paper industry to clean one Stock suspension consisting of water, fibrous materials and dirt particles. there an inlet stream is passed over a sieving device, the acceptance stream, consisting of water and fibers, flows through the sieve. A partial flow called reject stream, consisting of water, fibers and contaminants, is in the generally deducted at the end opposite the feed stream. Consequently the sorters separate solids present in liquid Particles. In contrast, the liquid becomes a solid during filtration separated.

In general, such a sorter is rotationally symmetrical and consists of a housing with a tangentially arranged inlet, a cylindrical screen basket, usually provided with holes or vertical slots and a rotating rotor. The task of the rotor is to keep the Screen slots, which is achieved by blades rotating just above the screen surface. The acceptance stream is in a so-called acceptance room, which is often conical is collected and subtracted radially. The reject flow is generally at the the inlet of the strainer basket in a mostly ring-shaped one Rejektraum guided and subtracted tangentially from this.

Such a sorter is e.g. known from US 4,268,381.

Further known sorters are described, for example, in EP 1 122 358 A2 EP 1 124 002 A2 and EP 1 124 003 A2.

• Im Zulaufbereich ist ein zusätzlicher Siebkorb zur Vorsortierung vorgesehen.
• Im Zulaufbereich ist zwischen dem Rohrstutzen und dem freien Ende des Rotors ein stationärer Einbau, insbesondere ein Kegel, Kegelstumpf, Halbkugel, Kugelsegment, Kugelschicht, Paraboloid oder zweischaliges Hyperboloid vorgesehen.
• Der Akzeptraum ist doppelt konisch ausgestaltet, erweitert sich in Strömungsrichtung der Faserstoffsuspension und verjüngt sich ab der Mündung des Akzeptauslasses konisch zum Rejektauslass hin.

In the sorters according to EP 1 122 358 A2, EP 1 124 002 A2 and EP 1 124 003 A2, the following measures are taken in particular to improve the flow conditions:

• An additional screen basket is provided in the inlet area for pre-sorting.
• A stationary installation, in particular a cone, truncated cone, hemisphere, spherical segment, spherical layer, paraboloid or double-shell hyperboloid, is provided in the inlet area between the pipe socket and the free end of the rotor.
• The acceptance room has a double conical design, widens in the direction of flow of the fiber suspension and tapers from the mouth of the acceptance outlet to the reject outlet.

The rotor in these known sorters is for a uniform flow against the screen designed and has the shape of a parabola, so that the axial Flow velocity within the strainer basket assuming a uniform one Outflow through the sieve remains constant. Alternatively, the shape of the Rotors can also be approximated via a cone shape.

It is also known to design sorters as multi-level sorters, which have several include disconnection units connected in series.

However, the sorters known from the prior art still have Disadvantages. In particular, the flow conditions in the area of Reject outlet left something to be desired.

The object of the present invention is to provide a sorter put in which a further improvement of the flow conditions and thus a reduction in energy used with increased production and Dirt separation is achieved.

The object is achieved according to the present invention with a sorter Claim 1 solved. Further preferred embodiments of the invention Sorters are described in the subclaims.

The sorter according to the invention is characterized in that the reject outlet is arranged in the range of the maximum diameter of the rotor and that in Area of the reject outlet, in particular immediately below it at least a supply for dilution water is arranged.

This will dilute the emerging reject with water. Especially with one multi-stage design of the sorter, in which the reject one stage This is the dilution at the same time as the next stage Cheap.

One or more feeds for dilution water can be provided, which are arranged on the housing of the separation unit or on the screen basket and / or on Rotor can be arranged. In case of arranging a feed for Dilution water at the rotor, this feed is preferred by an inside the Rotor located line fed.

The possibly several inlets for dilution water can be aligned in this way be that dilution water in the direction of the rotor and / or against the Rotor running direction can be introduced.

The rotational movement of the fiber suspension can thus be reduced. The loosening of the suspension can be improved by swirling the suspension become.

Another preferred embodiment of the sorter according to the invention is characterized and that in the range of the maximum diameter of the Rotors one or more device (s) for interrupting the axial flow is / are arranged.

In the following, the term "facilities" is used (in the majority), whereby sorters according to the invention are also meant, which have only one device included to interrupt the axial flow.

Depending on their origin, the type of fiber material (recycled goods, virgin fiber etc.) have a different degree of pollution. For a stable run certain minimum carrier quantities (reject quantities) are dependent on the sorter the dirt and speck content as well as the rheological suspension properties adjust.

It has been shown that it is cheap, at the height of the maximum rotor diameter Arrange devices for interrupting the axial flow to the stable To ensure the run of the sorter.

The devices for interrupting the axial flow can be on Housing of the separation unit or arranged on the strainer and / or on the rotor of the Be arranged sorter. Thus is also an embodiment in which both sides (i.e. both on the housing and on the rotor) Interrupt devices of the axial flow are possible.

The devices are preferably one or more axial Flow interrupters rings. The flow interrupter ring can, depending on the embodiment be designed continuously or in the form of individual segments or have interruptions.

The flow interrupter ring (or the flow interrupter rings) can be adjustable so that the size of the one created by the interrupter ring Passage for the reject is changeable.

The flow interrupter ring can be adjusted, for example, in the manner of a photo iris be executed. The flow interrupter ring can also be adjusted statically (e.g. in the form of statically adjustable ring segments).

The outside diameter of a flow interrupter ring arranged on the rotor side preferably has a tooth-shaped profile.

In a further preferred embodiment of the sorter according to the invention is at least one supply for dilution water with a device for interruption coupled to the axial flow. For example, the feed for Dilution water protrude into the space between the housing and the rotor and thus serve as a device for interrupting the axial flow.

In the case of multi-stage sorters in particular, is carried out during the material flow the first to the last sorting stage on the one hand a thickening of the suspension in the Inflow area of the screen surface and on the other hand a concentration of Stipp share.

To maintain the sorting effect, the suspension consistency is the same as before described, adjusted by means of an intermediate dilution. It has proven to be cheap emphasized the concentration of the speck portion by interposing to counteract a deflaking unit.

The separation unit of the sorter according to the invention accordingly comprises preferably a deflaking unit. The deflaking unit is advantageous in shape of one or more arranged on the housing or screen basket and / or on the rotor Rings designed. The shape of the internals used corresponds to itself known types, with additional hydraulic guide elements being introduced can to adjust the pressure differences.

The sorter according to the invention can preferably have two in a manner known per se or comprise a plurality of separation units arranged one after the other, all of which Separation units comprise a common rotor, one for each separation unit Parabolic shape adapted to the flow conditions in the separation unit or has parabolic segment shape.

The height of each separation unit is preferably at least twice as large as the sum of the heights of the separation units adjoining the separation unit, that is to say that in the case of a sorter with three separation units, the height of the first stage is at least 2/3 of the total height of the unit and that of the second stage at least 2/9 of the total height.
One or more devices for interrupting the axial flow, as described above, are or are preferably arranged in each separation unit of a multi-stage sorter according to the invention in the region of the maximum diameter.

It is also preferred in each separation unit in the area of the reject outlet or below it at least one feed for dilution water is arranged.

In the case of a multi-stage sorter, the supply for dilution water in the lower limit of the rotor segment of a separation unit, so that the dilution water in the space below the rotor segment (and so that it is released into the area of the reject outlet or below it). Alternatively or in addition, the supply for dilution water can be in the upper Area of the rotor segment of the next separation unit can be arranged.

In a multi-stage sorter according to the present invention with at least three separation units is preferably at least one deflaking unit, in particular at the transition from the second to the third separation unit.

In addition to the features described above, the invention Sorter preferably one or more of the features of the in EP 1 122 358 A2, EP 1 124 002 A2 and EP 1 124 003 A2 sorters.

The following are preferred embodiments of the invention Sorters explained with reference to the figures.

Figur 1

eine Darstellung eines Sortierers gemäß dem Stand der Technik

Figur 2

eine Darstellung eines mehrstufigen Sortierers gemäß einer bevorzugten Ausführungsform der vorliegenden Erfindung

Figur 3

einen vergrößerten Ausschnitt eines Rejektauslasses des Sortierers gemäß Figur 2

Figur 4

einen vergrößerten Ausschnitt einer alternativen Ausführungsform eines Rejektauslasses

Show:

Figure 1

a representation of a sorter according to the prior art

Figure 2

an illustration of a multi-stage sorter according to a preferred embodiment of the present invention

Figure 3

3 shows an enlarged section of a reject outlet of the sorter according to FIG. 2

Figure 4

an enlarged section of an alternative embodiment of a reject outlet

The sorter 1 according to FIG. 1 comprises an inlet connection in a manner known per se 2, through which a fiber suspension is fed for cleaning. in the In the area of the inlet, an installation 3 is provided, which is shown here as a truncated cone is. The fibrous suspension occurs in the space between the parabolic Rotor 4 and sieve 5 and is passed through the sieve into the acceptance room 6 promoted. The housing of the acceptance room is in itself in this embodiment known double-conical design. With the reference number 7 is the Accepted outlet. The reject is discharged via a reject outlet 8.

In Figure 2 are devices or device parts that with those of Embodiment of the prior art according to Figure 1 are identical to the the same reference numerals. In the preferred embodiment, one 2 according to the invention, the sorter 1 consists of three Separation units 1 ', 1 "and 1"'.

The three separation units 1 ', 1 "and 1'" comprise a common rotor, the respective sections 4 ', 4 "and 4"' adapted to the flow conditions in the each separation unit parabolic or in the form of a paraboloid stump are designed. Alternatively, the sections of the rotor can also be frustoconical or approximate to the shape of a parabola.

Each separation unit has a reject outlet (9 ', 9 ", 9"'). The reject of the first or second separation unit is simultaneously the inlet for the next one Separation unit. The reject of the third and last separation unit is over the Rejek outlet 8 discharged.

10 in FIG. 2 is a line arranged inside the rotor for Dilution water referred to, the outlets of which will be closer below to be discribed.

At the transition from the second to the third separation unit there is a stripping unit 13 provided.

FIGS. 3 and 4 now show preferred configurations of a reject outlet (in this case the reject outlet 9 ') in an enlargement of that in the Figure 2 shown dash-dotted cutout.

According to the embodiment shown in Figure 3 are both housing side also on the rotor sections 4 'or 4 "in the area of the reject outlet 9' or underneath there are feeds for dilution water 10a ', 10b' and 10c '.

The feed 10a 'is in the lower limit of the rotor segment 4' of the first Separation unit 1 'arranged. The feed 10b 'is in the upper region of the rotor segment 4 "of the second separation unit 1" arranged. The feeds 10a 'and 10b 'can be arranged through a line 10 arranged inside the rotor (see Figure 2) are fed.

The feed 10c 'is, for example, in the region of a flange 11 between the first Separation unit 1 'and second separation unit 1 "is arranged and is not by a shown line fed.

With the feeds for dilution water 10a ', 10b' and 10c 'can efficiently The consistency of the fiber suspension flowing into the next separation unit is regulated become.

Furthermore, in the embodiment according to FIG. 3, an adjusting ring 12a 'is arranged at the lower end of the rotor section 4'. As explained above, the adjustment ring can be arranged so as to be adjustable, for example in the form of a photo iris (indicated by the double arrow). The outer diameter of the adjusting ring or its segments preferably has a tooth-shaped profile.
With the adjustable ring 12a 'the throughput of the axial flow through the reject outlet 9' can be regulated.

The embodiment of the reject outlet 9 'shown in FIG. 4 differs differs from the embodiment according to FIG. 3 in that in addition to the adjusting ring 12a 'a flow interrupter ring 12b' is arranged on the housing side. in the Flow interrupter ring 12b 'is also the housing-side feed 10c' for Dilution water arranged, i.e. the supply for dilution water and the Flow interrupter rings are coupled together. Of course you can also in the embodiment according to FIG. 4 further feeds for Dilution water can be provided on the rotor, as shown in FIG. 3.

Claims (19)

Sorter (1) for cleaning a fiber suspension with at least one separation unit (1 ', 1 ", 1"'), which
a housing,
a parabolic or nearly parabolic
Rotor (4, 4 ', 4 ", 4"'),
a strainer basket (5)
an acceptance room (6) and
comprises a reject outlet (9 ', 9 ", 9"'),
characterized in that
the reject outlet (9 ', 9 ", 9"') is arranged in the region of the maximum diameter of the rotor (4 ', 4 ", 4"') and that
at least one feed (10a ', 10b', 10c ') for dilution water is arranged in the area of the reject outlet (9', 9 ", 9"'), in particular immediately below it. Sorter according to claim 1, characterized in that at least one supply (10c ') for dilution water is arranged on the housing of the separation unit or on the screen basket (5). Sorter according to claim 1 or 2, characterized in that at least one feed (10a ', 10b') for dilution water is arranged on the rotor (4 ', 4 ", 4"') and fed by a line (10) located within the rotor becomes. Sorter according to one of claims 1 to 3, characterized in that at least one feed (10a ', 10b', 10c ') for dilution water is aligned so that dilution water can be introduced in the direction of rotor rotation. Sorter according to one of claims 1 to 3, characterized in that at least one supply for dilution water (10a ', 10b', 10c ') is aligned so that dilution water can be introduced against the direction of rotation of the rotor. Sorter according to one of the preceding claims, characterized in that one or more devices (12a ', 12b') for interrupting the axial flow are arranged in the area of the maximum diameter of the rotor. Sorter according to claim 6, characterized in that the device or at least one of the devices (12b ') for interrupting the axial flow is arranged on the housing of the separation unit or on the screen basket (5). Sorter according to claim 6 or 7, characterized in that the device or at least one of the devices (12a ') for interrupting the axial flow on the rotor (4', 4 ", 4"') is arranged. Sorter according to one of the preceding claims, characterized in that at least one axial flow interrupter ring (12a ', 12b') is provided as a device for interrupting the axial flow. Sorter according to claim 9, characterized in that the flow interrupter ring or at least one of the flow interrupter rings (12a ', 12b') is adjustable, for example in the manner of a photo iris. Sorter according to claim 9 or 10, characterized in that the outer diameter of the flow interrupter ring or at least one of the flow interrupter rings (12a ', 12b') has a tooth-shaped profile. Sorter according to one of claims 6 to 11, characterized in that at least one supply for dilution water (10c ') is coupled to a device for interrupting the axial flow (12b'). Sorter according to one of the preceding claims, characterized in that the separating unit (1 ', 1 ", 1"') comprises a deflaking unit (13). Sorter according to claim 13, characterized in that the deflaking unit (13) is designed in the form of one or more rings arranged on the housing or screen basket (5) and / or on the rotor (4 ', 4 ", 4"'). Sorter according to one of the preceding claims, characterized in that it comprises two or more separating units (1 ', 1 ", 1"') arranged in succession, all separating units comprising a common rotor (4 ', 4 ", 4"'), which has a parabolic shape or parabolic segment shape adapted to the flow conditions in the separation unit for each separation unit. Sorter according to claim 15, characterized in that the height of each separation unit (1 ', 1 ", 1'") is at least twice as large as the sum of the heights of the separation units adjoining the separation unit. Sorter according to claim 15 or 16, characterized in that in each separation unit (1 ', 1 ", 1'") in the area of the maximum diameter of the rotor (4 ', 4 ", 4"') one or more devices (12a ' , 12b ') is arranged to interrupt the axial flow. Sorter according to one of claims 15 to 17, characterized in that in each separation unit (1 ', 1 ", 1'") in the region of the reject outlet (9 ', 9 ", 9"'), in particular below it at least one feed ( 10a ', 10b', 10c ') is arranged for dilution water. Sorter according to one of claims 15 to 18 with at least three separation units (1 ', 1 ", 1'"), characterized in that at least one deflaking unit (13), preferably at the transition from the second (1 ") to the third separation unit (1 "'), is provided.

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