DE1257546B - Sieving machine for slurries, especially pulp suspensions - Google Patents

Description

UNDESREPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. Cl .:

B07b

.: J ^ <2

German class

Number: 1257 546

File number: B 90868 VI a / 50 d

Filing date: January 24, 1967

Open date: December 28, 1967

The invention relates to a screening machine for slurries, in particular pulp suspensions for paper production and the like.

The invention follows on from a type of screening machine, which is a vertically extending one Have a sieve arrangement, consisting of an inner and an outer sieve ring that is concentric to it with their radial distance from each other an annular chamber for receiving a substance desired Form consistency, the chamber for discharging the cleaned material to be sieved with an outlet of the sieving machine communicates. Those separated from the screenings are separated through further outlet openings unwanted components discharged.

The invention is to provide a screening machine of the type described above, through which pulp suspensions can be screened in an effective and economical manner and the especially for cleaning paper stock from impurities such as bark, splinters and others undesirable ingredients is suitable.

The screening machine according to the invention leaves the desired components of the suspension in one Exhaust outlet and directs undesirable components of various characteristics to various other Outlets too. This object is achieved according to the invention by a concentric within the Housing arranged, circular sieve element, consisting of an inner sieve ring and an im radial distance therefrom lying outer sieve ring, which include an annular chamber between them, the with a first, expanding ring trough, which forms a collecting ring channel, is in communication, which is arranged essentially concentrically within the housing and has a first outlet, which extends .to outside of the housing and arranged on one side perpendicular to the axis of the annular channel is further rotatable with respect to the inner and outer sieve rings within the housing bearing and driven blades. The screening machine thus contributes to the inlet pressures the perforated sieve applied to the material to be sieved, the outside and inside around the circular sieve arrangement rotating blades prevent clogging of the sieves, for example by opening them drop-shaped cross-section is given, through which they face the screen assembly Flank exert a suction when turning, or by simply acting as a scraper and in Remove splinters or the like that have stuck in the sieve openings.

In the drawing is an embodiment of a screening machine for slurries,
especially fiber suspensions

Applicant:

Beloit Corporation, Beloit, Wis. (V. St. A.)

Representative:

Dr. jur. A. Colbus, lawyer,

St. Ingbert, Max-Braun-Str. 1

Named as inventor:

Salomon Maury Salomaon, Madison, Wis .;

Robert William Schroeder, Beloit, Wis. (V. St. A.)

Claimed priority:

V. St. v. America January 24, 1966 (522 638)

Sieve machine shown according to the invention. It shows

F i g. 1 is a side view, partly in vertical cross section, and

F i g. FIG. 2 shows a plan view with the cover partially broken away, which, compared to FIG. 1 counterclockwise by 90 ° is rotated.

The screening machine is generally designated 10 and has a foot 11, .der a housing 12 of im essentially circular outline. Near the top of the housing 12 is an inlet 14 for the screenings, e.g. B. pulp suspension for papermaking, provided. The material to be screened arrives into an annular chamber 15 located within the housing 12, from where the desired components pass through a sieve ring 16 and are collected in a receiving chamber 17. The outer one Sieve ring 16, an inner sieve ring 18, a support member 19 arranged between these sieve rings and a ring element 20 forms a cylindrical screen assembly 22. This screen assembly 22 has the shape a tube with a cavity between the inner and outer tube walls. Expressed differently the sieve ring 16 is arranged concentrically and at a radial distance from the sieve ring 18, wherein the radial distance from the ring assembly 20 is determined.

The support member 19 gives the sieve rings 16 and 18 the required rigidity against the pressure of the inflowing Good to be screened. When the annular chamber 15

709 710/296

is filled, the material to be sieved flows over the sieve arrangement 22 away and fills a chamber 25 located within the screen assembly 22 Chamber 25 reaching sieve material is insofar already vorgercinigt and contains desired components, as already heavier constituents in the outer annular chamber 15 are deposited. The material to be sieved passes out of the chamber 25 through the inner sieve ring 18 and is collected in the feed-up chamber 17. The desired components arrive from here to main outlet 27.

The heavier constituents are separated by further processes, but mainly by centrifugal force, and collect in the receiving chamber 28, which is formed by a projection of the housing 12 and from which undesired constituents are discharged via the outlet 29. Other undesirable components of the screening material, which are heavier than the desired components ¹ are deposited by gravity and fall to the bottom of the chamber 15. The bottom of this chamber 15 forms a first trough 30 which communicates with an outlet 31 in connection. A second trough 33 is located at the bottom of the chamber 25 and also collects undesirable constituents which have sunk from the partial flow of the material to be screened that has overflowed via the screen arrangement 22. An outlet 34 communicates with the second trough 33.

As best seen in Fig. 2 as can be seen, extend opposite and along the inner and outer sieve rings 16,18 known, rotatably driven blades 35 and 37, of which the Flügclblätter35 in Fig. 1 in dash-dotted lines are indicated. Preferably, several of these wing blades 37 and 35 are spaced around the circumference the screen assembly 22 is arranged. By rotating them, they clean the sieve rings 16, 18 of impurities, that could clog the sieves. Some of those released from the sieve ring 16 in this way unwanted components sink to the bottom of the chamber 15 in the trough 30 and become discharged through the outlet 31, whereas those detached from the inner wing blades 37 from the sieve ring 18 Components together with those resulting from the mentioned overflow over the sieve assembly 22 unwanted constituents are collected from the second trough 33 and via the outlet 34 be carried out.

Further structural details are described below: The housing 12 consists, as in Known principle of an upper part 40 and a lower part 41, which by a plurality of screws 42 are screwed together via their flanges 43, 44. The pick-up chamber 17, the one with the main outlet 27 is connected for the cleaned material to be screened, is formed by an enveloping ring trough 45, which has its largest diameter at the outlet 27, as shown in FIG. 1 can be seen. On one side of the Ringwannc45 is an opening 46 in one plane provided, which is perpendicular to the axis of the Ringwannc 45 and is concentric with her. This ring opening 46 is in direct connection with the space between the sieve rings 16 and 18 the sieve assembly 22.

Concentrically and uniformly with the lower housing part 41, a support column 48 is integrally formed, which extends into the upper housing part 40. A sleeve 49 is arranged concentrically within the support column 48. Inside this sleeve 49 is a vertical rotating shaft 50 via bearings 51, 52, 53 and 54 stored. Protective caps 56 and 57 are attached to the upper and lower ends of the sleeve 49. A The ring cover 60 is attached to the upper end of the support column 48, the one resting against the rotating shaft 50 Seal 61 carries.

A hub 64 is detachably attached to the upper end of the rotating shaft 50 and is fixed against rotation by means of a key 65 is connected to the shaft 50. The hub 64 is secured by a cap nut screwed onto the shaft 50 66 secured. Extending from a ring 69 which is screwed to the hub 64 is an or a plurality of radial arms 68, as in FIG. 1 indicated by dash-dotted lines. Each of these arms 68 serves to a vane 35 extending perpendicularly and along the surface of the sieve ring 16. Further arms 70 extending from the ring 69 carry wing blades 37 which extend along the surface of the inner sieve ring 18 extend. The blades 35 and 37 can be inextricably or releasably with be connected to their arms.

The wing blades 35, 37 have protruding eyes

72 and 75, which protrude radially outward and inward, respectively. There is a stiffening ring on these eyes

73 for the outer wing blades 35 and an inner stiffening ring 77 for the inner wing blades 37 connected, which prevent the blades from bending against the sieve rings 16,18 and the Always ensure that there is a gap between the blades and their associated sieves.

The upper part 40 of the housing 12 is provided with an inlet channel 80 which - as best from Fig. 2 can be seen - forms a spiral trough. The inlet channel 80 has on the inwardly curved one Part of a circumferential opening towards the interior of the housing 12 in order to insert the screenings to be cleaned to direct the housing.

On the upper housing part 40 is a cover 82 through a number of stud bolts 83 and nuts 84 attached. To connect a pipeline, a threaded nipple 85 is arranged on the cover 82.

The lower end of the rotating shaft 50 extends inside the foot 11 and is provided with a multiple V-belt pulley 89 non-rotatably connected, which is driven via V-belt 90 by a drive, not shown.

Although only outlets 29, 31 and 34 are shown in the exemplary embodiment, the invention is based on this not restricted. The housing 12 may generally have a plurality of outlets for discharging the undesired Have components of the material to be screened, which are discharged via the outlet 29. The same applies to the outlet 31, which can also be present several times. Similarly, the the Chamber 25 associated outlet 34 may be present in multiple arrangements.

As shown in FIG. 2, the housing 12 can be provided in a known manner with devices 95 for irrigation be provided. The irrigation is in the tangential direction and in the direction of rotation of the blades 35 and 37 inserted into the housing 12. The amount of water can be controlled via a valve 96 to be added to the chamber 15. Likewise, the chamber 25 can water over the device 97 received under control by means of the valve 98 to the pulp suspension dilute.

The size of the sieve openings in the sieve rings 16, 18 can be different. This allows the components of the material to be screened flow inwards or outwards from the screen assembly 22.

The rotating blades 35, 37 never pass outlets or inlet opening 14 of the housing 12. This allows the inlet 14 to be lifted upwards. Also reduced this characteristic of the amplitude of the pulsating vibrations in the introduced via the inlet 14 Material.

The illustrated, preferred embodiment of a screening machine has means for separating desired constituents of a flowable substance and for the discharge of these constituents via a Main outlet, with the undesired components via one or more different outlets be carried out. In particular, the invention discloses an improved screening machine in which the Sieve is passed through a sieve arrangement, whose concentric sieves are cylindrical Form an annular chamber between the inner and outer sieves. These inner and outer screens will be held by a support member at a radial distance from each other, which together with the sieves Forms sieve arrangement.

Claims (9)

Patent claims: 1. Screening machine for slurries, especially pulp suspensions for paper production, consisting of a housing with a plurality of openings, namely one single inlet for the screenings to be cleaned, a first outlet for discharging the desired Components and further outlets for the undesired components of the material being sieved by a circular sieve element (22) arranged concentrically within the housing (12) and consisting of a inner sieve ring (18) and an outer sieve ring (16) located at a radial distance therefrom, which between them include an annular chamber with a first, widening annular trough (45), which forms a collecting ring channel (17), in communication, which is essentially concentric Is arranged within the. Housing (12) and has a first outlet (27) which extends up to extends outside the housing and on one side perpendicular to the axis of the annular channel (17) is arranged, further characterized by opposite the inner and outer sieve rings (16,18) rotatably mounted and driven blades (35, 37) within the housing. 2. Sieving machine according to claim 1, characterized in that the housing (12) outside the sieve arrangement (22) is formed into a receiving chamber (28) which is connected to a third Outlet (29) is in connection for components to be separated off by centrifugal force. 3. Sieving machine according to claims 1 and 2, characterized by one inside the housing (12) lying concentrically and at a radial distance outside of the screen arrangement (22) first trough (30), which is connected to the inlet (14) and arranged at the top of the housing a second outlet (31) arranged at the lower region of the housing in connection stands, as well as by a second lying at a radial distance within the sieve arrangement (22) Well (33) which is in communication with a fourth outlet (34), the two wells (30, 33) collect the sinking undesirable constituents and over the second and fourth Discharge outlet (31, 34). 4. Sieving machine according to claims 1 to 3, characterized by one formed in the housing (12) second spiral trough (80), part of which forms the inlet (14) and which, the screen assembly (22) surrounding, with this runs essentially concentrically, with another Part of the tub (80) with the third outlet (29) is in connection, the centrifugal force ab-l discharges the components to be separated. 5. Sieving machine according to claims 1 to 4, characterized in that the blades (35, 37) are mounted on a common central rotating shaft (50), which is used for the sieve arrangement (22) is coaxial and rotates the blades. 6. Sieving machine according to claims 1 to 5, characterized in that the housing (12) Irrigation connections (95, 96, 97, 98) are arranged around the one located in the housing Add dilution liquid to the screenings. 7. Sieving machine according to claims I ^- to 6, characterized in that the inner sieve ring (18) compared to the outer sieve ring (16) has different sieve openings. 8. Sieving machine according to claims 1 to 7, characterized by the outer sieve ring (16) on the outside surrounding the first annular chamber (15), one enclosed by the inner sieve ring (18) second annular chamber (25), both chambers being connected across the screen arrangement (22) stand and the first annular chamber (15) with the inlet (14) for the screenings in connection stands, everything in such a way that the heavier components outside the outer sieve ring (16) in the first chamber sink, part of the material to be sieved through the outer sieve ring into the annular chamber between the two sieve rings (16, 18) and the remaining material to be sieved over the sieve arrangement (22) hung away into the second inner annular chamber (25). 9. Sieving machine according to claim 5, characterized in that the blades (35,37) · have a teardrop-shaped cross-section and on their sieves to be kept open (16, 18) facing flanks generate suction during rotation. Considered publications:
U.S. Patent No. 3,149,067. 1 sheet of drawings 709 710/296 12.67 © Bundesdruckerei Berlin