FI94596B - Use of a conveyor moving near the bottom of a basin to collect sediment - Google Patents

Description

The present invention relates to the transfer and removal of sediment and / or sludge accumulated at the bottom of a basin in sedimentation ponds and similar facilities. 5,94596 Use of a conveyor near the bottom of the basin for collecting sediment

10 Numerous sedimentation ponds have so far used chain scrapers to remove sludge settling to the bottom of the basin over time. These chain scrapers consist of one or more scraper blades extending from the edge of the bottom of the basin to the edge and pulled forward in movements similar to the paternoster device by means of continuously moving chains. The advantages of these devices are that they have a good cleaning result and usually work reliably as long as the device is in good condition. However, despite a solid infrastructure, serious damage often occurs. This is due to the strong 20 corrosion to which all parts, including the chains, are exposed. The environment of the sedimentation ponds of the treatment plants is very corrosive due to the acidic aluminum and iron salts used in connection with the chemical precipitation stage of the treatment plant, which are utilized e.g.

25 in phosphate precipitation.

A bridge crane for use on the water surface of the pool has also been proposed. A lifting and lowering scraper is installed on the arms of the bridge crane. The disadvantage of this structure is that it is difficult to use in existing pools, above which various equipment, such as footbridges and other obstructive structures, are usually installed. The vertical part of the device holding the scraper also interferes with sedimentation.

It has also been proposed to use rope-operated scrapers or scrapers in which one or more ropes pull a scraper carriage or sledge at or near the bottom of the pool in forward and backward movements. (SE-B-423-94596 2,968; US-A-2,866,557; US-A-2,768,749; US-A-4,090,966; GB-A-1,504,518). This technology represents an improvement over previous chain drive scrapers in that they are simpler, lighter, and less expensive in construction. However, the system 5 requires various devices for turning and controlling the turning of the scraper blades from a vertical position to a horizontal position and vice versa during the forward and backward movement caused by the rope (s). Scraper blades, which consist of metal blades inclined in the direction of the scraper, often with a rubber edge strip, extend from the edge of the basin to the edge and perpendicular to the conveying direction. The forward and backward movement of the scraper blades lifts the sludge upwards, the so-called sludge exhaust, due to the vortices formed behind the blades, and the maximum efficiency 15 cannot therefore be achieved. The load on the equipment is such that it must be made of metal, and in order to prevent corrosion from consuming the equipment too soon, it must be made of acid-resistant materials, resulting in increased costs.

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Thus, there is a need to disclose other types of scraping and conveying equipment for sediment and sludge transport in sedimentation tanks, which have a different load and would thus be easier to manufacture, albeit also from corrosion-resistant materials. In addition, it is desired to increase the efficiency by reducing the sludge discharge.

It is an object of the present invention to provide a device that meets these requirements.

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It has surprisingly been found possible to meet the above requirements by means of the present invention using a forward and backward moving conveyor near the bottom of the basin, with sediment and / or sludge 35 moving towards the other end of the basin for collection in forward and backward movements, the conveyor being in the form of a strip-like support member, the support member having wedge-shaped members 3 to 94596 arranged substantially perpendicular to the direction of movement of the conveyor, the members having a wedge tip in the sedimentation basin or the like in a forward-facing direction to remove sediment and / or sludge accumulated in the direction of the bottom of the basin.

The invention is described in more detail in the appended claims.

The present invention achieves minimal turbulence for "scraper" devices and the entire mat essentially forms a transport unit. According to the invention, the length of the device can be precisely adapted to the shape and length of the pool available. In addition, the stroke length of the forward and rearward movement can be varied widely, and in particular it is possible to make it very short, which is why simple hydraulic or pneumatic technology can be used.

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The invention will now be described in more detail with reference to the accompanying drawings, in which Figure 1 is a side view of a sedimentation tray having a device according to the present invention; Figure 2 is a top view of a device according to the present invention; Fig. 3 is a side view of an embodiment of the present invention; Fig. 4 is a top view of another embodiment of the present invention.

The number 1 refers to an elongated sedimentation basin. The basin 1 consists of a base 2, two longitudinal sides 35 3, a rear end 4 and a front end 5. The front of the basin has a sludge pocket 6.

94596 4

The number 7 denotes a reinforced plastic net, a loop size of 150 mm, with a certain number of transport members 8 attached to the net 7 and located perpendicular to the longitudinal direction of the basin 1. As can be seen from Figure 1, the cross-section of the conveying members 8 is wedge-shaped and rectangular triangular. The members 8 may well be pressure impregnated wood in which a board of rectangular cross-section is sawn in two along the diagonal of the cross-section to give two members 8. The wedge tip 9 of the member is directed to the rear end 4 of the basin and its short catheters 10 are directed to the foreground end 5. In the middle of the net 7 there is a longitudinally running traction stainless steel strip 11. The strip 11 can, if desired, be replaced by a more inelastic support. The strip or traction support 11 is attached at its ends to a rope 12, which four reversing rollers 13a, b, c, d, two of which at each end of the basin 1, lead to a rope 12 drive device 14 which pulls the rope 12 alternately in each direction. The drive device 14 can thus be a rack-and-pinion motor with a rope spool or a hydraulic piston system with forward and backward movements, to the ends of which the rope 12 is attached. By placing the reversing rollers 13a and b on the one hand slightly above the bottom 2 of the basin, tightening the rope 12 on the one hand and the density of the members 8 on the other hand, the net 7 with the members 8 25 only touches the bottom 2 very lightly, | which means minimal wear and minimum wear resistance. By applying so-called sliding plastic below the net to areas subject to wear, such as the traction support 11, wear of the unit can be prevented.

30

If the pool is wide, several tow ropes 12, as well as * several tow supports, can be installed if the smooth operation of the device requires it.

35 The length of the impact of the reciprocating movement of the device shown in Fig. 1 is 40-50 cm.

li 5 • 94596

The length of the stroke can be shortened by using a series of wedge-shaped elements connected to each other as shown in Figure 3, with the traction support 11 or the traction belt / rope 11/12 passing through the elements. The members 8 then form the carpet itself.

In one embodiment, the net 7 can be replaced by flexible, non-elastic bands 15 to which the members 8 are attached. The strips 15 are then attached to the end of the drawbar of the drawbar 16. The straps can also be replaced with non-elastic ropes. The tow bar 16 is in turn connected to the tow rope (s) 12 for operating the device.

The members 8 may be of wood as above, but they may also be shaped plastic elements, whereby the elements may be provided with coupling devices 17, 18 for reversibly or rigidly connecting the elements to each other according to FIG.

Experiments have shown that the capacity of the device according to the present invention is the same as that of a chain scraper, which, as described above, has been considered the best sludge conveyor for sedimentation ponds, and is thus superior to the above-mentioned so-called rope scrapers. It has also been found that energy consumption during use is very low, as is wear.

In the embodiment described above, the mat is provided with a traction rope 12 which acts at each end of the mat. In another embodiment, the retractable rope 12 can be removed and replaced with a suspension device that tightens when the rope 12 is pulled and collapses when the rope 12 is released.

It is important that the mat has flow openings so that the nes-35 te / slurry can pass from below the mat to the top, otherwise sediment may accumulate under the mat. In the embodiment shown in Figure 3, this is implemented with a gap between the elements.

Claims (5)

6 - 94596 Use of a conveyor moving in forward and backward movements close to the bottom (2) of the basin (1), wherein the sediment and / or sludge is moved towards the other end 5 (5) of the basin (1) for collection in forward and backward movements, the conveyor being in the form of a strip-like support member, the support member having wedge-shaped members (8) arranged substantially perpendicular to the direction of movement of the conveyor, the wedge tip (9) of the members (8) being rearward in the sedimentation basin or the like 10 ) in a forward direction to remove accumulated sediment and / or sludge from the bottom of the basin. 15 2. An invention according to claim 1, wherein a matt organic body (7) is used to provide a shaped body (8) which does not fall within the scope and the base of the body. 15 Use according to claim 1, wherein the strip-like support member (7) is formed by a plurality of wedge-shaped members (8) mounted side by side and extending over the width of the basin. 20 3. An invention according to claim 1, wherein the matt organic body (7) is used to see (7) an account of an organ of form (8). Use according to claim 1, wherein the strip-like support member (7) consists of a net (7) in which a plurality of wedge-shaped members (8) are arranged. 4. An embodiment according to claim 1, wherein a matt organic body (7) is used to provide a parallel line (15) to the molded organ (8). Use according to claim 1, wherein the strip-like support member (7) consists of a plurality of parallel ropes (15) supporting wedge-shaped members (8). Use according to claims 1 and 4, wherein the strip-like support member (7) consists of a plurality of parallel flexible, non-elastic strips (15) supporting the wedge-shaped members (8). 35 l Användning av en transportör som är anordnad att för-skjutas närä bottnen (2) av en bassäng (1) i fram- och tillbakagäende rörelse, varvid sediment och / eller slam för-skjuts mot bassängens (1) ena ända ( 5) for the purposes of Regulation (EEC) No 94596 7, on the basis of the conditions of transport, and on the basis of the transport of a maternal body, (8) with the form of a means of transport and of the other means of transport, (9) does not affect the use of sediment in the medium (10) does not affect the use of sediment in the sediment and / or in the sludge of the basin. 10 5. An embodiment according to claims 1 and 4, said matte-25. A further organ (7) is provided with a parallel, flexible, elastic band (15) up to the shaped organ (8). t *