DE2002384A1 - Artificial seaweed and method of anchoring the seaweed in the bottom of a body of water - Google Patents

Description

The invention relates to a method for anchoring artificial seaweed in the form of artificially produced elongated flexible elements exposed to buoyancy in water, which are attached to anchoring bodies, at the bottom of a body of water.

It is already known to place artificial seaweed or seaweed underwater for the purpose of wandering materials to influence. For example, you can use artificial seaweed in lakes, rivers or other bodies of water to use the Bottom of the water or channels dredged from the seabed or the coast of a water body against erosion protect or promote the deposition of sand *

In order to ensure a satisfactory effect of the artificial seaweed for a long period of time, it is required to anchor seaweed reliably to the bottom of the water. For this purpose you can anchor the seaweed with anchors, e.g. concrete blocks or steel wire ropes, which are laid out on the seabed and the Keep seaweed in the desired position by its weight.

009831/1121

2Ü0238A

Since the elongated Ll ε rente of; artificial ceetangs, hereinafter referred to as strands for short, have a specific gravity which is lower than that of Water, and since the artificial seaweed is also commonly used in places with strong underwater currents occur, the anchoring material must have a fairly large weight if there is to be a guarantee that the seaweed is reliably anchored. Therefore, even with the use of cheap weighting materials, the costs an installation with artificial seaweed become unacceptably high, and even when using heavy anchoring bodies there is still a risk that the seaweed will shift under unfavorable conditions, e.g. during strong storms « In certain applications, e.g. to protect channels dredged from the seabed from silting up, it is necessary to allow the seaweed to be placed exactly in the desired location and whichever is chosen Maintains location.

The anchoring bodies can act under the action of their Their own weight sink into the seabed in a certain nusir. so that better anchoring of the seaweed is achieved, but such a condition is only achieved after the seaweed has not been properly anchored for a fairly long time, and during the In the initial part of its useful life, the seaweed is more sensitive to displacement or climbing than after the lapse of this initial period of time during which there is a certain amount of sand at the base of the seaweed has deposited. Because of the rapid increase in the resistance the sea floor has to the sinking of an anchor also, the ultimate depth to which the anchoring bodies penetrate the seabed is very high limited so that the ^ anchoring bodies by the seabed cannot be held reliably.

009831/1126

200238A - 3 -

According to the invention will now a simple, but very convenient method to be created to artificial seaweed to be anchored at the bottom of a water body, wherein the seaweed may be arranged genauan the desired ^{east-adjusting,} and in which less using and lighter anchoring means a large anchorage force is achieved.

The inventive method for anchoring artificial seaweed in the form of artificially cut elongated, flexible elements that are buoyant in the water and attached to the anchoring body at the bottom of a body of water includes the measures that a lower end of a flood line is detachably connected to a seaweed anchoring body, that the anchoring body attached to the lower end of the flood line is lowered into the bottom of the water, while at the same time a pressurized fluid is conveyed down through the conduit, that under the anchoring body escapes, so that the material of the seabed is fluidized, that then the supply of the flud via the line is interrupted and that finally the connection between the line and the anchoring body is broken and the line is removed.

The seaweed can be laid from a boat or other watercraft, on which the anchoring body is temporarily connected to the lower end of the fluid supply line which is usually a pipe. The pipe preferably has a sufficient one Rigidity so that it can be used to move the anchor body down in the body of water. The anchor body in the body of water is connected to the lower end of the pipe by coupling means that allow the Withdraw the tube from the anchoring body after this has reached the desired depth in the seabed. The coupling means can expediently be a bayonet lock be formed, or the lower end of the tube is threaded so that it is in a with

009831/1126

200238A

a tubular component provided with a corresponding thread screwed in the Veraiikerungskörpers or on such Component can be screwed on. In these cases the anchoring body is connected to the pipe through or from solved him that the tube is rotated relative to the anchoring body. More options, the anchoring body To detachably connect them to the Hohr, you have to brace the two ■■■ ropes together or connect them with a To connect snap-acting devices together. Furthermore, the anchoring body with a tubular Be provided with a tight fit in the lower ^ end of the ear or pushed onto this, ^ so that the anchoring body remains frictionally connected to the pipe while it is moved downwards in the water, and that the anchoring body is then released thereby It can be done by applying a small amount of pulling force to the top of the itohr. As soon as the anchoring body is in the Has been embedded in the seabed, it can offer resistance to considerable torsional or tensile forces, so that the it is separated from the anchoring body without difficulty after the anchoring body has been embedded in the seabed.

The disease bodies preferably have one ^ j-'orm, ate them easily penetrate the empty ground, However that "pull out of the empty ground to oppose a resistance. The anchoring body is appropriately shaped a plate with a tubular component for attaching the fiohrs or another fluid line. This plate has preferably a conical shape, and the tubular component is attached to a central opening of the plate.

The anchoring body is preferably made of a thermoplastic such as polyvinyl chloride or polypropylene, UDd it is expedient as a component to be attached e.g. with the help of the injection molding process.

0 0 9 8 3 1/112 6

BATH ORIGINAL

200238A - 5 -

After the anchoring body has been connected to the pipe, the two parts are lowered into the water until the anchoring body has reached the bottom of the sea or another body of water, which is indicated by the sudden increase in resistance to the downward movement of the pipe. Air or another fluid, preferably VVass; r, is pumped down through the tube so that the fluid is discharged from the tube near the seabed on the underside of the anchoring body. The water can be released directly from the lower end of the pipe and fed to the water surrounding the pipe released through openings to the water surrounding the component. The exiting water currents fluidize the seabed material so that the anchoring body can be embedded to a substantial depth in the seabed with little or no force being required to cause the anchoring body to penetrate the bottom of the water . For discharging the water supplied to the lower end of the pipe or ^v erankerungskörpers may be provided with a set of small outlet openings. Normally, the water does not need to be pumped through these openings under high pressure. Usually a pressure of 2 to

t> kg / cm above the hydrostatic pressure at the bottom of the water, but you can also work with a higher pressure if necessary. While the water is being pumped down through the tube, the tube is lowered to embed the mooring body in the seabed. If the pipe protrudes above the surface of the water, a worker on the boat can guide the pipe down with his hand.

The pipe can be provided with weighting means in order to lower the anchoring body in the water

009831/1126

2 O O 2 3 B A

or the tube can be lowered or guided by a mechanical device, but it is Generally not necessary, the anchoring body to the required depth of e.g. about 500 mm has been embedded in the seabed, with this working step within less than one kinute can be carried out, the pumping of water through the pipe is interrupted. The tube preferably has one , ^ ** 7 length that its upper land is always at this moment is still above the vi / ater surface, so that the The depth to which the anchoring body has penetrated the sea boa can easily be determined on the boat. * that mar: determines the distance along which the upper y ^ end of the Tube has been moved down.

Once the pumping process is interrupted, the body surrounding the anchoring Laterial begins to settle quickly, which is ^v erankerungskörper reliably anchored in the bottom of the water. Then you can loosen the αοϊύο by turning and / or pulling up the ixohrs / on the anchoring body. The pipe is then pulled up to the surface of the water and the working steps described are repeated in order to embed the next anchoring body in the bed.

It is possible to arrange several events next to each other. anchoring body at the same time with the help of several pipes or with the help of a single pipe with branches is provided, the number of which corresponds to the number of anchoring body to be lowered, with the lower end of each Rohrs or each branch an anchoring body is temporarily connected. In this way you can put a curtain out artificial seaweed to which the anchoring bodies have previously been connected, the distances being smaller than that Depth of the water, anchoring, and it is possible when installing the seaweed in the seabed. borrowed time savings to achieve.

■ 009831/1 126

BAD ORlGiNAL.

■■■■ ..- ■. ■■ 'V 200-238A.

The invention and advantageous details of the invention are explained in more detail in the following on the basis of schematic drawings of exemplary embodiments.

Fig. 1 shows schematically in which way more artificial Seaweed anchored with the help of the method according to the invention. will. -. . "....

Fx £. ' 2 shows an embodiment of a body for "Anchoring artificial seaweed"

According to Fig. 2 comprises the total designated 10 ^v erankerungskörper a conical member 11 and a tubular member 12 which is coaxially arranged with the conical part and of the ^ conical with the hand of a central opening - is "fruteils connected -The components or elements 11 and. 12 preferably form a one-piece anchoring body. The overhanging strands 14 are attached to the anchoring body in any way, e.g. between a clamping ring 13 and the outer band of the conical component or section 11 with which the clamping ring is tensioned or resiliently cooperates. The strands 14 consist of a synthetic material, and its specific gravity is lower than that of water so that _t the strands assume a aufi-real position in the water. The strands 14 are expediently designed as strips made of a thermoplastic film or as endless threads made of a foamed thermoplastic material. Strands having a low specific gravity can consist of strands of foamed polypropylene which are produced by means of extrusion, a volatile liquid, for example pentane, being used as the foaming agent, and the strands thus produced being then stretched Furthermore, in order to transform them into thin ribbons. The length of the: Stz'.aBge 14- can suitably vary between 500 and 2000 mm or- more, and it depends on the application and the local conditions note that strands of artificial seaweed are attached to the conical

0 0983 1/11 26

Component or section 11 attached and distributed over its entire circumference.

In order to anchor the anchoring body in the bottom of a body of water, one connects the anchoring body with the lower end of a tube 15, which can be made of steel or a plastic such as polyvinyl chloride or polyethylene. The wall of the tubular component or section 12 of the Anchoring body 10 has a slot 16 for receiving a pin 17 built into the tube 15. The slot 16 and the pin 17 form the parts of a bayonet lock, which makes it possible to connect the pipe to the anchoring body and to release this connection again. That Tube 15 fits into tubular member 12 and 12 with a sliding fit rajigt down beyond this component. The wall of the downwardly projecting portion 19 of the tube 15 is with several bores 18 of small diameter to the side Dispensing of the i-trip from the tube 15 provided at the lower end the tube 15 is closed below the bores 18 by an end wall, which is also with one or more Bores for dispensing the fluid from the pipe 15 is provided downwards.

Referring to FIG. 1, the ^v erankerungskörper 10 by means of the tube 15 lowered from a KoJbn 20 from floating on a body of water 21 and is firmly anchored. As soon as the anchoring body 10 has reached the bottom of the water, which is indicated by the fact that the further downward movement of the pipe is suddenly opposed to a considerably greater resistance, water is introduced under pressure into the upper end of the pipe 15 above the water 21; a pump is provided on the boat for this purpose. The water pumped down through the pipe 15 is discharged via the bores and further bores in the end wall of the lower end 19 of the pipe, whereby a turbulent flow is generated in the 'water under the anchoring body, so that Ii'ateriel of the empty bottom 22 with Water is mixed and

009831/1 12G

begins to behave like a liquid. Then the anchoring body can easily go into the "seabed" be lowered, while water continues to be pumped down through the pipe 15 until the anchoring body has reached the desired run under the seabed, the between 200 and 1000 mm or more can vary. Then the supply of pressurized water is interrupted, whereupon the ^ a-: material of the sea floor in the vicinity of the anchorage body and settles on this. In this way, the anchoring body is reliably fixed in the seabed, and thereafter the tube 15 is rotated and moved upwards to the To bring the pin 17 out of engagement with the slot 16. So-. more the pipe is moved upwards until its lower one is End is above the water level, so that you can attach the next anchoring body to the pipe, whereupon the steps described can be repeated.

In an attempt to demonstrate the effectiveness of the anchoring effected with the aid of the method according to the invention, an anchoring body made of polyvinyl chloride of the type shown in FIG. 2 was used. The outer diameter of the conical component was 110 mm and its height was 25 mm. The wall thickness of ^v erankerungskörpers mm was in all parts. 4 The tube, by means of which the anchor body has been lowered, consisted of polyvinyl chloride and had an outer diameter of 16 mm _o The lower end of the pipe was provided with six lateral openings or nozzles, while the end wall at the lower end of the tube having a centrally disposed aperture $ all Nozzle openings had a diameter of 5 Dna.Through these ^ -openings water was pumped, des-

2
sen pressure was about 2 kg / cm higher than the hydrostatic pressure at the bottom of the body of water, and the anchoring body was embedded to a depth of 500 mm in the sandy bottom of a body of water. After separating the pipe from the anchoring body, a force of 150 kg had to be applied to pull the anchoring body out of the sandy soil.

Patent claims: 009831/1126

Claims (6)

Claims 1st, method of anchoring artificial seaweed in shape Synthetic elongated, flexible, buoyant in water, attached to anchoring bodies Elements in the bottom of a body of water, characterized in that the lower end of a flow line is releasably connected to an anchoring body of the seaweed that the anchoring body at the lower end of the flow line is lowered into the bottom of a body of water, while at the same time a pressurized flow passes through the line is conveyed, the flud from the lower end of the line on the underside of the anchoring body near the bottom of the body of water escapes, so that part of the soil material is fluidized that the supply of the fluid is interrupted via the line, and that the connection between the line and the anchoring body is released and the line is removed. 2. The method according to claim 1, characterized in that a rigid pipe is used as the flow line is used, by means of which the anchoring body is lowered into the water and into the bottom of the water is embedded. 3. The method according to claim 1 or 2, characterized in that the lower end of the flow line is detachable is connected to a tubular part of the anchoring body which is in flow connection with the flow line. 009831/112 6 - ■. ■■■ .. "- "■■ -." '14 ■ ■' ■ ■■■■■■■ 4-. Artificial seaweed in the form of synthetic, long stretched, flexible elements that are exposed to buoyancy in water and are attached to corrugated bodies. $ the. with the help of a method according to one of claims 1 to J? GEK s are anchored solleni characterized η i ze net _f that at least one of the anchoring body (10) is formed as tellerförw jnigeg component (11) on which is mounted a rphrformigeg "component (12). 5? Artificial seaweed naph claim 4, characterized in that ge · * ke η η ζ eich η e. t that the plate-shaped component (11) is conical.-i'St, - and that the tubular component (12) is attached to the conical component coaxially therewith, 6. Artificial seaweed according to "Claim 4 or 5" thereby g e k e η η ζ e i c h net that the tubular. Component (12) is provided with itohr coupling means (16). 009831/1126 Blank page