DE1152992B - Device for cleaning a cylindrical sieve - Google Patents

Description

The invention relates to a device for cleaning a cylindrical screen from residues a liquid suspension with an inlet chamber on one side of the sieve for receiving the suspension, in which at least one profiled rod is arranged, which is in constant Distances from the cylindrical screen extending essentially axially parallel to this, wherein rod or sieve are subject to an orbital movement around the vertical central axis and in the circumferential direction measured entire width of the rod has a central angle of at most 45 °. As a result of his distance the rod does not come into contact with the sieve and therefore does not act as a scraper. Rather, it causes through its airfoil profile that the flow flowing through the screen in the The area of action of the rod is reversed and thereby the particles of the stuck on the sieve Dissolves sieve residue from the sieve, so that these particles can sink under their gravity. To As the rod passes, these become large particles to pass through the mesh of the sieve washed up again to the sieve and stick to it until they come through again the temporary reversal of the flow caused by the passing profiled rod can be solved and sink down. Each particle of the residue therefore moves downwards step by step.

The invention is based on the task of extending these individual steps so that the Sieve residue is removed from the area of the sieve as quickly as possible.

For this purpose, according to the invention, the hydrofoil-like rod has at least one backwards cantilevered projecting in the direction of the outlet inclined flag, which the sieve residue particles loosened by the rod in the direction of the Promotes material flow, the total length of the wing-like rod measured in the circumferential direction including the flag, has a central angle of no more than 45 °. This configuration differs the device according to the invention differs from a known device of the initially explained Design in which the wing-like rods have no flags.

It has also already been proposed that the device to be provided with two sieves, which form an annular shaft between them, into which the hydrofoil-like rod protrudes. If this rod is now according to the invention with the inclined flags provided, then these flags preferably extend as far as the vicinity of the two sieves.

Device for cleaning
of a cylindrical sieve

Applicant:

IBIS Enterprises Limited

Hamilton (Bermuda),
and Bird Machine Company,

South Walpole, Mass. (V. St. A.)

Representative:

Dipl.-Ing. M. Licht, Munich 2, Sendlinger Str. 55, and Dr. R. Schmidt, Oppenau (Renchtal),
Patent attorneys

Claimed priority:
V. St. v. America, September 24, 1958 (No. 763 003)

An embodiment has proven particularly useful in which the flag is also inclined to one on the sieve surface erected perpendicular is arranged.

Exemplary embodiments of the invention are illustrated in the drawings. It shows

Fig. 1 is a vertical section through the device,

Fig. 2 is an elevation of the wing-like profiled rod with the sohrägiger flags,

FIG. 3 the side view belonging to FIG. 2 seen from the right,
Fig. 4 shows the section along the line 4-4 of Fig. 2,

Fig. 5 is a plan view of the device shown in Fig. 1,

FIG. 6 shows a representation corresponding to FIG. 5

a modified embodiment of the invention, FIG. 7 the section along the line 7-7 of FIG. 6, FIG. 8 shows a representation corresponding to FIG. 7

a slightly modified embodiment,

FIG. 9 shows a side view corresponding to FIG. 3 of a wing-shaped profiled rod with the Flags and the sieve behind them,

Fig. 10 is a side view of the parts shown in Fig. 9 viewed from the left and

309 668/226

11 shows a representation corresponding to FIG. 4 of a further embodiment of the invention.

The frame 10 (FIG. 1) carries an annular housing with a vertical axis, the inner wall 12 coaxially surrounds a drive shaft 18, the bearings 14 and 16 of which are carried by the inner wall 12. This shaft goes above through a stuffing box 22 of a housing cover 20 and carries below this a sling plate 23 to protect the bearing

radial direction outwards, i.e. into the stock feed chamber 32 into it.

As far as the device is described up to here, it forms the subject of an earlier right.

According to the invention, the rods 64, 66 now have lugs 65 or 67 on. These flags are inclined in the direction of the outlet 34, 35, as FIGS. 2 and 3 show. That has the effect that the sieve as it passes by

14 from seeping down liquid. On the upper part of the wing-shaped profiled rod, paint the end the shaft 18 is a rubber ring 27 a loosened particle of the sieve residue in addition to Arm cross 26, 29 attached, the radially outward effect of its own weight downwards through the Ströragende Arms 29, the wing-like profiled mung are accelerated by the flags 67 Rods 64, 66 carry. is brought about as a result of their inclination. Therefore

These rods protrude into a ring-shaped, inside and 15 these particles get faster to the substance drain 34, outside of concentric cylindrical sieves 28 35, than would be possible without the lugs 65, 67, and 36 delimited stock inlet chamber 32 which is the total length measured in the circumferential direction

forms an annular shaft. The inner sieve 28 of the wing-like rod 64 or 66, including is at the top of a cover 20 surrounding the flag 65 or 67, has a central angle, the ring 21 and separates the stock inlet chamber 20 does not exceed 45 °. The lugs 65 32 from an inner material drainage chamber 30. At the bottom close to the screen 28 and the lugs 67 close, the material supply chamber 32 has individual drainage pipes up to the screen 36 without, however, touching it 34, 35. The outer screen 36 of the material supply chamber stir.

is at its upper end by a ring 41. The number of assigned to each sieve, with the

carry, the aerofoil-shaped profiled rods occupied on the outer wall 37, 38, 40 of the flag house is supported. Between this wall and 64 or 66 runs in the embodiment the outer sieve 36 is a further material of FIGS. 1 to 5 on 2, but can also be higher drainage chamber 42. Measure the inner wall 12 of the housing.

is connected to the outer wall 37, 38, 40 by a liquid suspension for which the bulges Connected to the bottom 44, through which the embodiment of the figures is determined, it is pass 34, 35 for the sieve residue through. is a suspension of paper stock. Flows between the individual tubular outlets 34 as a result of the narrowness of the stock inlet chamber 32

35 stand the two material discharge chambers 30 and 42 which are introduced tangentially through the pipe socket 54 in free connection with each other. From them suspension flows evenly over the ring 41 and on the fabric through a side outlet 46 (Fig. 1 35 down the vertical sieves, then and 5). The housing is at the top of a hood, the particles forming the sieve residue, the larger 50, 60 surrounded by a pipe socket 54 as the screen mesh, explained in the introduction the substance is introduced tangentially. He arrives periodically with each passing the into an annular channel 48 which rinsed the upper rods 64, 66 away from the sieve and cut it off step by step 40 of the outer wall 37, 38, 40 of the housing 40 are moved downwards. Without flags 65, 67 would be surrounds, and then flows over the ring 41 away, the liquid in the middle between the two sieves 28, 36 flow downwards much faster than near the sieves. By attaching the Flags 65 and 67 on the rods, however, have reached 45 that the liquid in the stock feed chamber 32 flows downwards more evenly.

While in the embodiment of Fig. 1, the flags 65, 67 only on the lower half of the Rods 64, 66 are arranged, it is advisable to use the wing-shaped profiled rods 64, 66, which are divided into 50 flags evenly over the entire length of the rods evenly spaced from the cylindrical.

Seven are essentially axially parallel to these. In the embodiment shown in FIG

stretch. Since the sieves are fixed, the rods 64 run the wing-shaped profiled rod 70 in the and 66 carrying ring 68 but rotates, a center is created between the two screens 28 and 36 and has relative Umlaufbewegungimg around the sieve axis between 55 of these a greater distance than with the first the sieves and bars 66, 64. Tightly above their described embodiment. The flags are 71 The lower ends of the rods are sized by a ring 68 so wide that they are tight to the rigidly connected to each other, sieves protrude. The effect of the vehicle

As a result of its airfoil profile, the rod 71 has the effect of being significantly greater than the effect of the 66 when passing over the inside of the sieve 36, ⁶⁰ flags 65, 67 of the embodiment described first that the flow around it in its area of action.

turns and flows inward. As a result, Fig. 7 shows that the flag 71 is also

dde the particles forming the sieve residue, which tends to form a solder which reaches the sieve surface Mesh of the sieve can not pass through, right is arranged. That has the effect that entrained inward and detached from the sieve, so that 65 each lug 71 the particles of the loosened from the sieve they can sink under their gravity. Sieve residue not only down, but also

In a corresponding manner, they accelerate the screen inwards into the stock feed chamber 28 overriding rods 64 accelerate the liquid in. This is particularly clear in the

from above into the stock feed chamber 32, from there through the two coaxial screens 28, 36 through into the stock discharge chambers 30 and 42 and from there through the outlet 46.

In the upper end of the stock feed chamber 32 there is a horizontal ring 68, which is supported by rods 62 is rigidly attached to the arms 29 and therefore rotates with the shaft 18. This ring now bears the

FIGS. 9 and 10 are represented by the arrows shown there. There is the wing-shaped profiled one Rod with 72 and its flags with 73, while the particles of the sieve residue at 74 are indicated.

In the embodiment according to FIG. 11, the flag 76 is on the wing-shaped profiled rod fastened pivotably by means of a hinge 77 and pressed by a leaf spring 78 in the direction of the screen. The flag can therefore through particularly large particles of the sieve residue adhering to the sieve be pivoted to the side. This prevents the sieve 36 from being damaged.

The embodiments described can also be modified in such a way that the airfoil-shaped profiled rods provided with the flags and their support cross are fixed and the housing around the vertical axis revolves.

Claims (3)

PATENT CLAIMS: 1. Device for cleaning a cylindrical sieve of residues from a liquid suspension with an inlet chamber on one side of the sieve for receiving the suspension, in which at least one profiled rod is arranged, which is at a constant distance from the cylindrical sieve essentially axially parallel extends to this, wherein the rod or sieve are subject to a revolving movement around the vertical central axis and the total width of the rod measured in the circumferential direction has a central angle of at most 45 °, furthermore a drainage opening is provided at the bottom of the inlet chamber for the residue, characterized in that the wing-like rod (64, 66, 70, 72) has at least one backwardly cantilevered projecting flag (65, 67, 71, 73) which is inclined towards the outlet and which carries the screen residue particles loosened by the rod towards the material drain (35 ) promotes, the total pulp measured in the circumferential direction te of the wing-like rod including the flag has a central angle of at most 45 °. 2. Apparatus according to claim 1 with two sieves which have an annular shaft between them form into which the wing-like rod (70) protrudes, characterized in that the flags (71) reach up to the vicinity of the two sieves (28, 36). 3. Apparatus according to claim 2, characterized in that the flag (67) is also inclined is arranged to a perpendicular erected on the screen surface. Considered publications:
German Patent Nos. 342 017, 599 616;
U.S. Patent No. 2,835,173. Legacy Patents Considered:
German Patent No. 1112 046. 1 sheet of drawings © 309 668/226 8.63