NL8200375A - Sieving device. - Google Patents

Abstract

The invention is relating to a sieving device comprising a pervious sieve surface (22) adapted to rotate about an upwardly rotary axis, whereby the sieve surface (22) has a curved sectional area in a manner such that parts of the sieve surface located near the rotary axis and near the outer periphery are at a higher level than the parts of the sieve surface located there between.

Description

-1- 22344 / CV / tl r Α ί

Short Designation: Screening device.

The invention relates to a sieve device provided with a sieve surface rotatable about an upwardly extending axis of rotation.

Such a sieve device is known from Dutch patent application 7605572. In this known sieve device, the sieve surface forms part of the shell surface of a cone, the part closest to the axis of rotation and the part furthest from the axis of rotation. the highest of the sieve surface. During operation, the material to be sieved must move outwards over the sieve surface, the fine particles to be separated fall down through the sieve surface and the coarse parts are thrown away from the outer circumference of the sieve surface.

In this known construction the speed of the material to be sieved now increases as this material moves further away from the axis of rotation, while the size of the screen surface also increases quadratically with the distance from the axis of rotation.

If the rotation speed is now chosen to be low, the discharge speed of the material to be sieved in the direction of the outer circumference of the screen is relatively low near the axis of rotation 20, so that only relatively little material can be processed per unit time. However, if the rotational speed of the sieve is increased, the product will pass through most of the sieve surface located np from the axis of rotation at such a speed that there can no longer be an effective sieving effect.

A further drawback of this known sieving device is that particles can easily settle in the perforation openings of the sieve surface and no longer become detached therefrom, but because of the influence of the centrifugal force or gravity they simply clamp in the perforation openings.

The object of the invention is to obtain a sieve device of the above type, wherein the disadvantages associated with the known sieve device can be avoided.

According to a first aspect of the invention, this can be achieved in that the screen surface is curved in a cross section, such that 8200375

V

-22- 22344 / CV / tl parts of the sieve surface located near the axis of rotation and near the outer circumference of the sieve surface are situated higher than parts of the sieve surface situated between them. This embodiment makes it possible to achieve that in the vicinity of the axis of rotation the centrifugal force acting on the material particles is enhanced by the component of the gravity acting on the particles parallel to the sieve surface, while near the outer circumference of the sieve surface the centrifugal force, on the other hand, is counteracted by the component of the gravitational force extending parallel to the screen surface. The shape of the curved screen surface can thus influence the speed at which the material particles move over the screen surface, such that an optimum screen effect is achieved. ”·

According to a second aspect of the invention, the screen surface 15 is rotatable about two at least substantially parallel axes of rotation. As a result, an additional rotational movement is superimposed on the usual rotation of the screen surface, as a result of which the screen surface performs, as it were, small circular movements under the material to be sieved, which will prevent clogging of the screen by particles adhering in the perforations of the screen surface. .

According to a third aspect of the invention, means are provided by means of which a tilting movement about a pivot axis extending transversely of the axis of rotation of the screen surface can be imparted to the screen surface. As a result, an up and down movement of the screen surface is effected, with the deflection of the screen surface increasing with the distance from the axis of rotation. This will also effectively prevent clogging of the screen surface.

The invention will be explained in more detail below with reference to the accompanying figures.

Fig. 1 schematically shows a cross-section through an exemplary embodiment of a sieve device according to the invention.

Fig. 2-4 show different embodiments of shafts with the aid of which the sieve surface can be supported.

8200375 V * -3- 22344 / CV / tl

The sieve device shown in fig. 1 comprises a round section housing 1, the lower part of which tapers downwards. In the housing 1, a supporting frame 2 is arranged, as well as a stationary disposed circumferential gutter 3. The upper end 5 of a discharge pipe 4, which extends outside the housing 1, is connected to the gutter.

Attached to the frame 2 is a housing 5 in which a vertically standing shaft 6 is supported by means of bearings 7. At the bottom end of the shaft 6 a toothed wheel 8 is attached, which is coupled by means of a toothed belt 10 to a toothed wheel 10, which is attached to the shaft of a motor 11 supported by the support frame 2. The shaft 6 forms a whole with a shaft 12 extending above the shaft 6 on which a cap 13 is rotatably mounted by means of bearings 14. The cap 13 is integral with a toothed wheel 15, which is coupled by means of a toothed belt 16 to a toothed wheel 17, which is attached to the output shaft of an electric motor 18, which is also attached to the support frame 2.

Attached to hood 13 is a plate 19 forming part of a cone-jacket which extends obliquely downwards and outwards from hood 13. The bottom edge of the conical plate 19 is secured by means of a few strips 20 to a circumferential jacket 21. Between the top edge of the jacket 21 and the cap 13 a sieve surface 22 is arranged. As will be apparent from Fig. 1, this screen surface is curved, such that the edge of this annular screen surface attached to the hood 13 and the circumferential edge of this screen surface 22 attached to the top edge of the jacket 21 are higher than the portions of the sieve surface located therebetween.

The housing is furthermore provided at the top with a centrally located supply opening 23 for supplying the material to be sieved.

The possible arrangements of the unitary 30 shafts 6 and 12 are further illustrated in FIGS. 2, 3 and 4.

As shown in Fig. 2, the axes of the shafts 6 and 12 can extend parallel to each other, displaced by a distance e from each other. Preferably, this distance e is, for example, 2 mm.

Another possibility is that the axes of the two axes enclose an angle with each other, which angle pC preferably carries 35 '8200375-4-22344 / CV / tl Λ. The center line of the shaft 12 can intersect the center line of the shaft 6 in the plane in which the two shafts connect to each other, as shown in Fig. 3, or in this plane the shafts can again be spaced e from each other, as shown in fig. 4.

During operation, material will now be fed through the feed opening 23 and thus end up on the screen surface. With the aid of the motor 18, the screen surface is rotated about the axis of rotation formed by the axis of the shaft 11, so that the material dropped on the screen surface is subjected to a centrifugal force and will move outwards over this screen surface. The fine material can thereby fall through the perforations of the sieve surface and, if guided or not, end up on the gutter 3 with the aid of the conical plate 19, using the strips 23 this material will be moved to the opening where the pipe 4 is connected to the gutter 3, so that the fine material can thus be discharged via the pipe 4. The coarser material will move outwards over the sieve surface 22, be thrown out over the outer edge of this sieve surface and can be discharged via a discharge opening 24 arranged on the underside of the housing 1.

Because initially the supplied material moves over an obliquely downwardly inclined part of the sieve surface 22, the movement of this material will also be accelerated under the influence of the decomposition of gravity extending parallel to the sieve surface. This decomposition of gravity thus supports the centrifugal force which causes a displacement of the material to the outside.

After passing the lowest point of the sieve surface, denoted by A, the material moving over the sieve surface will have to move up to the outer edge of the sieve surface. In the case of a movement of upwardly directed movement, the decomposed gravity extending parallel to the sieve surface will counteract the centrifugal force. Thus, through a suitable design of the curved sieve surface 22, the most favorable displacement of the material over the sieve surface can be effected. Preferably such that the speed at which the material particles move outward from the axis of the screen surface in a horizontal direction, calculated at least substantially 8200375 yr n.

v -5- 22344 / CV / tl remains constant.

In the preferred embodiment of the invention described and illustrated here, however, the screen surface not only rotates about the axis of rotation formed by the axis of the axis 12, but the axis 6 carrying the axis 5 12 is also rotated with the aid of the electric motor 11. If the shaft is arranged as shown in fig. 2, the screen surface will perform a swinging movement in the horizontal direction, the deflection of the screen surface being equal to twice the distance e between the axes of the two shafts. Preferably, the speed of the shaft 6 is considerably greater than the speed of the sieve surface on the shaft 12, so that the sieve surface will perform a strong rocking movement, which will prevent clogging of the pores of the sieve surface.

If the shaft arrangement is as shown in fig.

3 and 4, the screen surface will also perform a tilting movement about an imaginary tilting axis extending perpendicular to the axis of the axis 6. It will be appreciated that, as a result, the screen surface will perform an up and down movement during operation, with the deflection of the screen surface increasing the further away from the axis of rotation. This will effect both an intensification of the sieving effect and an anti-clogging of the sieve surface.

8200375

Claims (7)

Screening device provided with a screen surface which is rotatably rotatable about an upwardly extending axis of rotation, characterized in that the screen surface is curved in cross section, such that parts 5 of the screen surface located near the axis of rotation and near the outer circumference of the screen surface are higher. parts of the screen surface situated therebetween. 2. Sieve device according to claim 1, characterized in that the sieve surface is curved such that when the sieve surface is rotated with the normal operating speed, the displacement of the material to be sieved under the influence of the centrifugal force and the parallel to the sieve surface extending gravity decomposition takes place at least substantially at a constant radial speed from the center of the screen surface outward. - ' 3. Sieve device provided with a sieve surface rotatably rotatable about an upwardly extending axis of rotation, characterized in that the sieve surface is rotatable about two at least substantially parallel axes of rotation. 4. Screening device provided with a surface which is rotatably rotatable about an upwardly extending axis of rotation, characterized in that means are provided by means of which a tilting movement about a pivot axis extending transversely of the axis of rotation of the screen surface is arranged on the screen surface. be communicated. Sieve device according to any one of the preceding claims, characterized in that the sieve surface is rotatably mounted on a shaft supporting the sieve surface and is coupled to a drive source, while the sieve surface supporting shaft is attached to a second ss, which also is coupled to a drive source. Screening device according to claim 5, characterized in that the shafts attached to each other extend parallel to each other. Screening device according to claim 5, characterized in that the shafts attached to each other enclose an angle with each other. 8200375 35