NL8005764A - Bulk material separation system - has flow moved over stationary sieve to separate according to particle size - Google Patents

Abstract

The system separates material in bulk according to particle size using a sieve, the material being positively moved in the transport direction over a stationary sieve (3). The mechanism providing this movement has a constant clearance from the sieve equal to or greater than the largest particle dia. which can pass through the latter. Water can be sprayed over the whole length of the sieve and the transport mechanism, and the latter can be vibrated in a vertical plane. The sieve can be in the form of a part-cylindrical trough, with a concentric auger working above it.

Description

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Method and device for separating bulk material by grain size.

The invention relates to a method for separating bulk material from each other by grain size using a sieve. Such a method is generally known, as is the device to be used for it. It has always been believed that for efficient separation it was necessary to move the screen surface with respect to the material to be treated. This was done by vibrating or shaking movements which, in addition to a vertical component, had a longitudinal component for transport if necessary, or by allowing the sieve to slope downwards.

Some materials, such as clay, tend to form balls under the influence of such sieves which cannot pass through the sieve openings. This results in an incorrect separation because these balls consist of particles that could have passed through the sieve openings themselves. It is also known to use a rotating sieve drum, so that the material is constantly lifted and then falls back onto the sieve surface of the drum. The interior of such a sieve device cannot be properly inspected. Moreover, such devices are usually quite heavy and require a relatively large amount of energy.

The object of the invention is to provide a simpler and cheaper method and device, respectively.

According to the invention, this object is primarily achieved in that the bulk material is positively advanced in a conveying direction over a stationary screen.

Contrary to the known principle, according to the invention the sieve is thus kept still and the material to be treated is moved over the sieve. As a result, it is turned around in such a way that all grains that could be sieved also have the opportunity to be sieved.

Preferably, the procedure is such that the means for moving the bulk material over the sieve have a constant distance to the sieve that is equal to or larger than the largest grain size which can be passed through the sieve . It is then achieved that those grains the size of which is suitable for passing through the sieve openings are not necessarily displaced by the transport means. This does happen with the oversized particles and this keeps the mass to be treated sufficiently moving to allow the small particles to move successively through the openings of the screen.

The smaller particles are also allowed to pass through the means of transport 80 05 76 4

V

Moving over the sieve surface requires a larger sieve surface, especially in the conveying direction, in order to ensure that all small particles to be sieved out have disappeared from the material.

If one is dealing with dry material, it is preferably supplied to the device with the aid of water, and further water is preferably sprayed on sieving and propelling means over the entire length of the screen. This water can be supplied from above, but also or alternatively from other directions. Adhesive particles, in particular particles that stick to the transport means, are then detached. For this release one can also use vibrations in the vertical plane, whereby the particles are thrown downwards.

The device for applying the method according to the invention preferably consists of a partly cylindrical trough-shaped stationary sieve and a drivable transport screw placed above it, the axis of rotation of which is concentric with the cylindrical part of the trough. Instead of a screw conveyor, it is also possible, however, to have the device consist of a gutter-shaped stationary sieve and to have the transport means consist of carriers movable in the direction of the sieve in the manner of a chain conveyor. The trough then need not be in the form of a semi-cylindrical or partially cylindrical trough, but may have any shape, such as a curved trough or a rectangular trough, provided that the means of transport designed as scraper blades 25, which are preferably by means of an endless chain be moved, have a window profile that runs parallel to the gutter profile.

In both cases, the trough or trough can slope upwards in the conveying direction, so that, in contrast to the known downwardly inclined sieve, height can be gained.

The starting part of the sieve can be located below a water surface which is located in a container in which the sieve is placed, so that the separation can start in a completely wet state.

This promotes separation when clay or other adhesive materials are present.

The sieve openings can be elongated with a longitudinal axis transverse to the conveying direction, so that the particles have ample opportunity to escape. This transverse direction of the elongated screen openings is particularly suitable for a screw conveyor.

40 However, the screen may also have holes extending in the longitudinal direction 80 05 76 4 4. ï v -3-.

The sieve surface may be rubber coated to reduce wear and the distance of conveying means from the sieve surface may be equal to or greater than the smallest size of the sieve perforations.

According to the invention, the sieve itself may consist of rubber or other flexible and elastic material, such as polyurethane, and the means of transport may have protrusions which engage the sieve. A wear-resistant sieve is then obtained, while the protrusions or cams each time they pass through an opening deform the sieve such that grains which have secured themselves in the openings are loosened.

With the device and method according to the invention, a lighter construction is possible, which therefore requires less power. The upwardly open trough or trough allows good inspection and corrections when unwanted parts enter the device. The rinsing water ensures good disintegration, the screw conveying positively, thereby spreading and particles adhering to the screw are removed by the rinsing water.

The invention will now be further elucidated with reference to the drawings.

FIG. 1 schematically shows, in side view, one embodiment of the device according to the invention.

Fig. 2 is a cross-sectional view of the device of FIG. 1 taken on the line II-II.

Fig. 3 shows the device of FIG. 1 but is now inclined.

Fig. A shows another embodiment of the device according to the invention and

Fig. 5 is a sectional view taken on the line V-V of FIG. A.

The device shown in Figs. 1 and 2 consists of a tray 1 with discharge pipes 2. In this tray is placed a sieve 3 which has the shape of a half-cylinder jacket, the top edges of which are extended upwards with vertical splash guards A- and 5.

In this trough 3 there is a transport screw 6 on a shaft 7, which shaft can be turned into rotation 35 by means of the motor 8 and transmission 9, 10.

At 11 there is a feed conveyor which pours the material to be separated onto a trough 12 which slopes downwards and opens above the trough 1. Flowing down the trough 12 is promoted by means of a water spraying device 13.

4-0 Furthermore, above the tray 1 there is a pipe IA- with spraying 80 05 76 4 *> -4- v openings for spraying water on the screw conveyor 6, the material on the sieve and on the sieve itself.

As can be seen from Figs. 1 and 2, a gap 15 has such a size between the conveying screw and the screen surface that it is equal to or larger than the particles which have to disappear through the screen openings.

The embodiment of FIG. 3 is similar to that of FIG. 1 except that the entire tray is inclined so that the initial portion of the screen 3 'is below the water level 16 which is in position in the tray 1'. is being held. The material flowing through the trough 12 'ends up in the water and is therefore more easily separated into particles.

As shown in fig. 2, the transport screw can be provided with cams 27 which engage on the sieve 3. The screen then consists of an apertured plate of rubber or like flexible material.

Fig. 5 shows another embodiment consisting of a tray 17 with discharge pipes 18 and a sieve 19 which, as can be seen from FIG. 5, is in the form of a rectangular gutter. Above the screen is an endless chain 20 which runs over pulleys 21 and 22, at least 20 of which are driven. On this chain there are plate-shaped carriers 23 which can move over it with the desired distance from the surface of the screen 19 in the direction of the discharge chute 24 *.

The supply of material takes place by means of a suitable device, for instance in the form of a conveyor belt 25 which opens laterally between the lower and upper part of the chain 20. The spray tube 26 ensures cleaning of the chain conveyor and the sieve 19.

80 0 5 76 4

Claims (12)

1. A method of separating bulk material from each other using a sieve, characterized in that the bulk material is positively advanced in a conveying direction over a stationary sieve. Method according to claim 1, characterized in that the means for moving the bulk material over the sieve have a constant distance to the sieve that is equal to or greater than the largest grain size that can be passed through the sieve. Method according to claim 1 or 2, characterized in that water is sprayed over sieve and propelling means over the entire length of the sieve. 4. Method according to claim 1, 2 or 3, characterized in that the propelling means are made to vibrate in a vertical plane. 5. Device for applying the method according to claims 1, 2, 3 or 4, characterized in that it consists of a partly cylindrical trough-shaped stationary sieve and a drivable transport screw placed above it, the axis of rotation of which is concentric with the cylindrical part of the trough. e. Device for applying the method according to claim 1, 2, 3 or 4, characterized in that it consists of a gutter-shaped stationary sieve and the conveying means consist of a chain conveyor movable in the longitudinal direction of the sieve cleats. Device as claimed in claim 5 or 6, characterized in that the trough or gutter is placed inclined upwards in the transport direction. 8. Device as claimed in claim 7, characterized in that the lowest part of the sieve is located below the water level of a tray in which the sieve is placed. 9. Device as claimed in one or more of the foregoing claims 5 to 8, characterized in that the screen has elongated openings. 10. Device as claimed in one or more of the foregoing claims 5 to 9, characterized in that the screen surface is coated with rubber. 11. Device according to one or more of the preceding claims 5 to 10, characterized in that the distance from the conveying means to the screen surface is equal to or greater than the smallest 80 0 5 76 4 4 * —6 " * size of the screen perforations. Device according to one or more of the preceding claims 5 to 9, characterized in that the screen consists of a flexible elastic material. Device as claimed in claim 12, characterized in that the transport means is provided with protrusions or cams which engage on the screen. 80 05 76 4