DE2316080A1 - SCREEN FEED - Google Patents

Description

PaientGnwöIia uipL-lng. W Scherrmann Dr.-Ing. R. Roger

73 Esslingen (Neckar), Fabrikstrasse 9, PO Box 348

March 30, 1973

Stuttgart (0711) 356539 359619

Telegrams patent protection Essllngenneckar

BAGGERMAATSCHAPPIJ BOS & KALIS BV
Rosmolenweg 20, Papendrecht, The Netherlands

Sieve feed

The invention relates to a device for feeding a to sieving mixture to a sieve system, provided with a container for the Mixture to be sieved, the container through a passage on the sieve surface the screening plant opens.

If there is a muddy water, e.g. a mixture of gravel and sand all over the sieve device is guided, the sieve surface can easily become clogged. If the sieve is to separate coarse dirt, the coarse parts remain on lie on the sieve and can accumulate more and more. After a certain Measures are then always to be taken so that one can get back over the time original useful sieve surface. According to a well-known Method, one can thereby water the excavator arlage for a certain time Let it pump, with this jet of water spraying away the material that has accumulated on the screen surface. This method has the disadvantage that no optimal products is obtained.

309842/0440

For this purpose, the container is set up for a device in such a device variable height of the mixture to be sieved in the container, while the passage is provided with an adjustable throttle element, and wherein the passage is directed in such a way that the mixture to be sieved is practically parallel_. flows out to the sieve surface. If you increase the resistance of the passage, with a constant feed, the level of the mixture in the Containers rise and thereby the outflow velocity of the Mixture on the sieve surface enlarged until a new equilibrium between the height of the mixture in the container and the outflow velocity has been received. Independent of the feed, a variable outflow speed can be obtained over the sieve surface. It can this not only removes the blockage, but also prevents blockages from occurring to a large extent by correctly regulating the outflow speed. Next is after this Method in a simple way an adjustment ah the composition of the mixture possible. It is never necessary to change the outflow velocity required to change the capacity of a dredge pump, or when the yield the dredge pump is distributed over several sieves, increasing the feed to a single sieve at the expense of the others. In all Optimal production can be obtained under circumstances.

The passage is preferably formed by a rectangular outflow opening, provided with a slide which can be adjusted in the vertical direction as Throttle body. ".

The passage from the container preferably closes practically the entire width to the sieve surface. This will open across the entire width the sieve will get a desired uniform speed. To achieve a much better control of the screening process, the device can be connected to a Sieve surface are connected, of which at least a part is adjustable to regulate the angle of inclination of the sieve surface part concerned. Addicted the type of blockages that may be expected and the. composition the mixture to be sieved can be achieved by a suitable combination 'The outflow velocity and the inclination of the screen surface are optimal Sieving process can be set

4-2 / 04 40-

To clarify the invention, with reference to the drawing, a Embodiment "described.

Show it:

Fig. 1 shows a screening plant feed container according to the invention, schematically shown, partly in vertical section, and FIG. 2 is a plan view of the device according to FIG. 1.

A container or "receiving box" generally designated 1 is with provided with a discharge, the flow area of which is adjustable by means of a vertically adjustable flap or a vertically adjustable slide 2. The container is connected to a sieve surface 3. The mixture to be sieved is via a mixture feed pipe -U au-3 of a dredging pump, which is not has been further specified, supplied. The feed stream is indicated at 5. For a certain position of the slide 2 and a certain composition of the mixture, as well as a certain constant feed flow 5 a level of the mixture designated by 6 will be established in the container 1. Depending on this level 6, the mixture will flow as indicated at 7 at a constant speed from the container over the sieve surface. The influence of this speed on blockages of the sieve surface and on the sieving process can be further regulated by adjusting the sieve surface at 8 with the container hinge-connected, and that through the Rod 9 of the inclination angle of the screen surface is adjustable. Depending on the mixing speed, as well as the removal of water through the Sieve area is determined, only the last part of the sieve area can also be used to increase the speed over this last part Part can be adjustable.

When a blockage of the sieve surface 3 begins, a large part of the Mixture that flows out at 7 easily flows away over the sieve surface, without the fine parts falling through the sieve surface. If you close the slide 2 a little further, the flow rate increases In the beginning it will remain practically constant, but the total amount flowing out will decrease. Assuming a constant output 5 will thereby rise the level 6 in the container 1, whereby gradually the discharge speed 7 increases. This speed increases by up to one

309842/0440

new balance level 6 ^! has been achieved in which the total amount of mixture supplied is the same as the amount discharged. Conversely, when the slide 2 is lifted, an equilibrium level 6 is found at a lower level, with the outflow velocity being reduced.

As can be seen from Fig. 2, the screen surface 3 is somewhat conically widening formed, wherein the container 1 adjoins the sieve surface over the entire width, whereby a uniform over the sieve surface Velocity distribution is obtained. The passage is in the example always a rectangular opening, because as a throttle device a simple flat one Slide 2 is used. It will be clear that the container 1 is attached to sieves of all types, such as sheet metal sieves, vibrating sieves, drum sieves and the like can be.

It is also possible to connect more than one sieve to the container 1, however, by changing the passage to one of the sieves and thereby changing the level of the mixture in the container likewise the outflow velocity via the other screens is influenced. ,. .

Although the mixture is fed in via an open connection in the drawing, it will be clear that the feed pipe k can also open into the container at the bottom or at the side. However, it is important that the height of the mixture in the container can be freely adjusted when the position of the slide 2 is changed. Of course, if necessary, a pre-screen can be used in front of the container to separate coarser parts.

309842/0440

Claims (3)

AHSPROCHE 1. Device for feeding a mixture to be screened to a screening plant, provided with a container for the mixture to be sieved, the ... the container opens onto the sieve surface of the sieve system via a passage, characterized in that the container is set up for a variable height of the mixture to be sieved in the container during the Passage is provided with an adjustable throttle member, and wherein the passage is directed such that the mixture to be sieved is practical flows out parallel to the screen surface. 2. Device according to claim 1, characterized in that the passage is formed by a rectangular opening, provided with an in Vertically adjustable slide as a throttle device. 3. Apparatus according to claim 1 or 2, characterized in that the The passage from the container connects to the sieve surface over practically the entire width. k. Device according to one of the preceding claims, provided with a sieve system arranged behind it, characterized in that at least part of the sieve surface can be adjusted to regulate the angle of inclination of the relevant sieve surface. 309842/0440 L e r s e i t e