IT201800002671A1 - INDEPENDENT ASPIRATING OPERATING UNIT. - Google Patents

Description

INDEPENDENT ASPIRATING OPERATING UNIT.

The present invention relates to an independent suction operating unit. The invention in question is advantageously used in the field of exploration, excavation, reclamation, and / or equivalent treatment of sea beds in underwater environments, to which the following description will make explicit reference without thereby losing generality, in order to effectively clean and release areas or areas of such sea beds from silt, mud, mud, sand, rubble or similar elements deposited on the seabed over time.

In the field of exploration and / or excavation of seabeds, lakes or underwater environments in general, in particular at sites of archaeological, civil or military interest, the use of suction systems designed to eliminate silt from the seabed is currently known. , mud, slime, crushed stone or similar in order to highlight the possible presence of finds subsequently to be recovered / reclaimed and brought back to the surface.

Such suction systems generally comprise known suction means of the sorbonne type, or tube means that can be used by specialized underwater personnel on the seabed of the sites of interest and in which vacuum air generated by suction compressor means is able to circulate.

These compressors are positioned on board specific support vessels on the surface and are connected to a main tube of large dimensions (about 100-150 mm in diameter) and of relatively soft but non-deformable material and generally as long as the water column. above the excavation area.

To the aforementioned main pipe is connected, in a position as close as possible to the bottom, a second pipe with a smaller diameter than the main one and also generally as long as the water column above the excavation area, inside which the second tube circulates the pressurized air which is then released in the main tube to whirl up into the main tube itself, expanding proportionally to the decrease in pressure.

In this way, the strong depression created (Venturi effect) in the portion of the main tube not affected by the flow of air directed towards the surface is thus used to suck both water and silt, mud, sludge, crushed stone from the seabed. or similar stratified on the finds.

As it is easy to understand from the foregoing, the known sorbonne suction systems described above are structurally and functionally very complex and bulky and therefore entail considerable drawbacks.

In fact, these Sorbonne systems are extremely expensive and very complicated and risky to manage, necessarily involving a vast use of highly specialized and trained personnel, both underwater and on board support vessels, which must always be perfectly located above. of the exploration and excavation areas, with significant logistical problems especially in the event of adverse weather conditions (evident wave motion, gusts of wind, etc.).

Furthermore, these known systems are extremely invasive for the environment, and in many cases they are not able to ensure the perfect integrity of the finds as well as the safety of intervention by the underwater personnel.

The purpose of the invention in question is therefore to overcome the significant problems and disadvantages highlighted above.

In particular, an object of the invention in question is to create an operating unit that allows to operate with great safety and with extreme precision and effectiveness, and capable of being used even by a small number (two) specialized operators without invasiveness. environmental and without compromising the perfect integrity of the finds and of the exploration and excavation sites.

Another purpose of the invention in question is to create an operating suction unit with a lightweight modular structure, easy to transport, assemble, and use without any support vessel.

A further purpose of the invention in question is to create an operating suction unit that is economically advantageous both from the production and use point of view.

The structural and functional characteristics of the invention in question and its advantages with respect to the known art will become even clearer and more evident from the claims below, and in particular from an examination of the detailed description which follows, made with reference to the attached drawings, which illustrate a preferred but not limiting embodiment of the operative unit in question, in which:

- Figure 1 is a perspective view of a preferred embodiment of the independent suction operating unit of the present invention;

- Figure 2 shows in a perspective view from below a component element of the unit of Figure 1;

- Figure 3 is a front view of the component of the unit in question shown in Figure 2;

- Figures 4 and 5 are further perspective views, respectively from above and from below, of the component of Figure 2;

Figures 6 and 7 are further views, respectively front and bottom plan, of the component of Figure 2;

Figure 8 always shows the component of Figure 2 in another perspective view; And

- Figure 9 always shows the component of Figure 2 in a bottom plan view.

With particular reference to Figure 1, U indicates an independent operating unit that can be used in the sector of exploration, excavation, reclamation, and / or equivalent treatment of sea beds in underwater environments, in particular at sites of archaeological and civil interest. or military, in order to effectively clean up and free areas or areas of such sea beds from silt, mud, mud, sand, rubble or similar elements deposited on the seabed over time. The unit U essentially comprises a motor means M suitable for defining a source of movement and diffusion of water, a component 1 diffuser for the output of a flow of water suitable for being applied, in use, to an operative end E of the structure cylindrical S of the motor means M, and a flexible suction tube element (known and not illustrated here) of desired length, suitable in use to be connected to the aforementioned component element 1, in a hole 2 for inlet of water present in component 1 the same in correspondence with an operating suction portion 3 of the component 1, to be used by an underwater operator for the purpose of sucking water with silt, mud, mud, sand, crushed stone or the like and then cleaning the selected areas or zones of the seabed.

Preferably, although not limitedly, the aforementioned motor vehicle M is defined by a DPV (Diver Propulsion Vehicle) scooter which is used by underwater operators to obtain propulsion for advancing in the water during diving, and which, in the case of the present invention, it is also advantageously used as a water depression generator with a light, compact and extremely effective structure.

According to what is better illustrated in Figures 1 to 9, the diffuser component 1 comprises a body 4 provided with a hollow cylindrical portion 5 connected to a further portion 6, also hollow, ending with an end surface 7 substantially hyperboloid-shaped with a flap , and a curved L fin.

On the cylindrical portion 5 the body 4 is equipped with an opening 8 made so as to make the component 1 itself applicable and adaptable to the specific size of the cylindrical structure S of the motor M by means of the aid of fastening means, for example bands, laces or equivalent means (known and not illustrated), applied in holes or slots 9 present on the aforementioned peripheral surface of the component 1 itself laterally to the aforementioned opening 8.

On a hyperbolic curved part 10 of the aforementioned portion 6 there are an organ 11 for regulating the speed of the flow of water and a control means 12 for reading the ignition and charge state of the battery of the motor M.

The diffuser component 1 is preferably made of food-grade polyethylene, a material that is flexible, particularly resistant to shocks and sudden changes in temperature and pressure typical of deep sea beds, and without releasing harmful substances into the water, so as not to compromise underwater environments. in exploration.

In use, the U unit is assembled very easily and quickly by applying and fixing to the E end of the M motor (Scooter DPV), used for propulsion in water towards the exploration areas, the component 1 diffuser and applying the aforementioned tube suction hose on the hole 2 of the suction portion 3 of the component 1 itself.

In this way, while an underwater operator proceeds with the aforementioned flexible tube, preferably provided with filter means applied to the inlet mouth of the same tube, to carry out the cleaning by suction (arrow Fa in Figure 1) of the site or area desired by the silt , mud etc. thus highlighting any finds subsequently to be brought back to the surface, without compromising the integrity of the site itself, a second diver remotely adjusts the flow rate of the suction water flow in the aforementioned suction pipe by acting on the regulator member 11 unit U, and at the same time checking the correct flow of water and waste debris expelled towards the outside (arrows Fd in figure 1) through the diffuser component 1.

It should also be noted that from the foregoing, it is possible to effectively carry out the operational and reciprocal coupling of multiple U units by connecting them to a single suction pipe in order to significantly increase the suction power according to specific needs.

In order to advantageously temporarily block the unit U to the seabed during use, on the motor M there are, finally, anchoring means 13 (Fig.1) with arms 14 that can be tilted and introduced into the ground of the seabed itself.

Claims (9)

CLAIMS 1. Unit (U) operating for the reclamation and / or cleaning treatment of the seabed of underwater environments, characterized by the fact of comprising motor means (M) able to define a source of water movement, a component (1) diffuser of outlet of a flow of water adapted to be applied, in use, to an operative end (E) of said motor means (M), and a suction tube element adapted to be connected to said component (1) to effect said reclamation and / or cleaning of the said seabed. 2. Unit according to claim 1, characterized by the fact that said motor means (M) comprise propulsion means suitable, in use, to be operated by an underwater operator for advancement in the water. 3. Unit according to claim 2, characterized in that said propulsion means (M) comprise a DPV scooter. 4. Unit according to one or more of the preceding claims 1 to 3, characterized in that said component (1) comprises a body (4) provided with a first hollow cylindrical portion (5) connected to a second portion (6) also it is hollow terminating with an end surface (7) substantially shaped like a hyperboloid to a flap. 5. Unit according to claim 4, characterized in that on said first cylindrical portion (5) said body (4) is provided with an opening (8) made so as to make said component (1) itself applicable and adaptable to the specific dimension of said structure (S) of said motor means (M); fixing means being provided for fixing said diffuser component (1) to said motor means (M). 6. Unit according to one or more of claims 1 to 5, characterized in that said diffuser component (1) comprises an operating suction portion (3) provided with a hole (2) for inlet in water depression, said tube element being, in use, engaged in said inlet hole (2). 7. Unit according to one or more of claims 1 to 6, characterized in that said diffuser component (1) is made of food-grade polyethylene material. 8. Unit according to one or more of claims 4 to 7, characterized in that on a hyperbolic curved part (10) of said second portion (6) of said diffuser component (1) there is a member (11) for regulation of the flow rate / flow speed of the sucked water and of ignition and charge control means (12). 9. Unit according to one or more of the preceding claims 1 to 8, characterized in that the said motor means (M) are provided with anchoring means (13) with tilting arms (14) which can be introduced into the said bottom.