NL8105887A - Crude sand is classified and fractions stored in separate silos - with outlets metered to mix predetermined grain size distribution - Google Patents

Abstract

The arrangement is intended for preparing a sand mixture with predetermined grain size distribution starting from unclassified crude sand (2). This sand is separated into a number of grain size fractions by classifier units (7-13; 7'-13'; 16,17,13"; 18,19,13"') and stored in separate silos (13-13"'). Each silo is provided with a metering unit (14-14'") at its outlet which permit selected quantities of each fraction to be withdrawn and moved (15-15"') to a mixing unit for preparing the required mixture. The classifier unit may receive the crude sand, pumped (4) in water, via a hydro-cyclone (5) which removes the transport water, grain size classification then by upward water flow (8,8') in classifier vessels (7,7') followed by screening on a vibrator screen (16) and dewatering screen (18) to produce the final coarse fractions.

Description

81.5091 / Rey / jz

Brief designation: Method for preparing a sand mixture with a predetermined grain size distribution from extracted rough sand, and an apparatus for applying this method.

The invention relates to a method for preparing a sand mixture with a predetermined grain size distribution from extracted rough sand.

There is currently a great need for sand with a certain predetermined grain size distribution for various purposes. Sand, in particular, which is used as concrete sand, masonry sand or molding sand and the like, must meet fairly precise requirements with regard to the grain size distribution.

To date, raw sand with water has been sucked up or dredged at the extraction site, the mixture of raw sand with water being fed into a sorting device. Such a classifying device has a number of outlets, each of which provides a type of sand with a different grain size distribution. It will be clear that the grain size distribution of the emerging sands depends to a large extent on the composition of the rough sand extracted, so that large fluctuations can occur therein.

The object of the invention is to provide a method in which the above-mentioned drawbacks are avoided. This object is achieved according to the invention in that the raw sand is divided into several fractions of a certain grain size by means of a number of classifying devices, the fractions are dewatered and stored in separate silos, and to obtain a type of sand with the desired grain size distribution from each silo the required amount of sand is extracted by means of a metering device, which quantities are then mixed together.

8105887 · '* * - 2 -

Because the rough sand is first divided into a number of fractions according to grain size, which fractions are subsequently mixed with measured quantities, a type of sand can be manufactured that accurately meets the desired grain size distribution. When the rough sand extracted contains little or no sand of a certain fraction, it is desirable that it is easy to switch to the production of a type of sand in which this fraction does not occur, or to a lesser extent.

To this end, according to the invention, the degree of filling of each silo is measured and the type of sand to be produced is determined on the basis of the amounts of each fraction present. In general, there will be a demand for different types of sand, which have a certain grain size distribution. By now continuously measuring the available quantity of each fraction in each silo, it is thus possible to determine how much of this type of sand can be produced. In this way, production can thus be continuously adapted to the demand and the available quantities of each fraction, the composition of the rough sand extracted having no disturbing influence on the grain size distribution of the types of sand produced.

The present invention is also embodied in a device for applying the above-mentioned method, which device is distinguished by a number of classifying devices arranged in series, wherein a watering device and a storage silo with a metering device are successively connected to each classifying device.

The invention is further elucidated with reference to the drawing, which schematically shows an embodiment of the device according to the invention.

The vacuumed mixture 1 of coarse sand with water is poured into a collecting vessel 2 from which it is fed via a conduit 3 and a pump 4 to a hydrocyclone 5. In this hydrocyclone, the transport water is extracted at 6, after which the crude sand is introduced into an upflow classifier 7. Such an upflow classifying device is known per se and works by supplying water at the bottom at 8, which moves upwards through the device while the raw sand is supplied from above. Depending on the flow rate, for example, the fraction from the rough sand of 0 to 0.3 mm is entrained by the upward water flow and leaves the device at 9, after which this fraction can optionally be removed from the water is separated and from there ends up on a dewatering screen 11. From the dewatering screen, the fraction is poured into a silo 13 via a conveyor belt 12. The silo 13 is provided with a dosing device 14 at the bottom, while a conveyor belt 15 is arranged under the silo, which can convey the fraction to a mixing device (not shown).

The portion of the rough sand over-graded in the classification device 7 leaves this at the bottom and enters a second classification device 7 '. This classifier 7 'is, for example, set to separate the fraction 0.3 to 0.6 mm, which separated fraction undergoes the same treatment as indicated above for the fraction 0 to 0.3 mm.

The remaining part of the rough sand leaving the classifying device 7 'comes on a vibrating screen device 16, from which the largest fraction of, for example, 1 to 3 mm is led via a conveyor belt 17 into a silo 13 ". This silo 13" is also provided with a dosing device 14 ", while a conveyor belt 15" is also arranged below. The fraction of for instance 0.6 to 1 mm falling through the first screen deck ends up on a dewatering screen 18 on 8105887 «τ - 4 - and is then fed via a conveyor belt 19 into the silo 13".

In this way, the rough sand, which has an example here of a composition of 0 to 3 mm, is divided into four fractions, each of which is stored in a separate silo.

The device described above divides it. coarse sand in four fractions, but it will be clear that the number of fractions can be increased by adding an additional classification stage 7-15.

To produce a sand mixture with a predetermined grain size distribution, it is only necessary to control the dosing devices of the different silos in order to extract a certain quantity of a fraction from each silo, which quantities are subsequently mixed.

The different dosing devices 14, 14 ', 14 ”, 14” * are controlled preferably with the aid of a computer which contains a memory register. The required amount of each fraction is stored in the memory register for each type of sand to be produced. By means of an adjusting member, it is possible to set the type of sand and the quantity to be produced with a certain priority. In addition, the content of each silo is measured, which data is also entered into the calculator. On the basis of the quantities present in the silos and the types of sand requested in a specific order, the calculator then determines which types of sand can be prepared and in which order they can be prepared. In this way it will thus always be possible to supply sand to a number of clients with a grain size distribution that accurately corresponds to the desired grain size distribution and which is thus independent of the composition of the extracted rough sand.

8105887

Claims (4)

1. Method for preparing a sand mixture with a predetermined composition resp. grain size distribution from extracted coarse sand, characterized in that the coarse sand is divided into several fractions of a given grain size with the aid of a number of classifying devices, the fractions are dewatered and stored in separate silos and to obtain the desired composition from each silo the required amount of sand is extracted by means of a dosing device and which quantities are subsequently mixed together. Method according to claim 1, characterized in that the degree of filling of each silo is measured and the type of sand to be produced is determined on the basis of the amounts of each fraction present. 3. Device for applying the method according to one of the preceding claims 1 or 2, characterized by a number of classifying units arranged in series, wherein a dewatering device and a storage silo with a metering device are successively connected to each classifying device, the different silos being connected stand with a mixer. 4. Device as claimed in claim 3, characterized in that the dosing devices of the different silos are provided with control means controlled by a calculator, which calculator is provided with a memory register in which the required amounts of each fraction for each type of sand to be produced. is stored and each silo has a measuring device, 8105887 - 6 - which is also connected to the calculator, to which calculator an adjusting device is also connected for setting the requested sand types, 8105887