Self-propelled underwater vehicles and systems for underground laying a continuous elongated member in a bed of a body of water

The invention claimed is: 1. A self-propelled underwater vehicle for underground laying a continuous elongated member in a bed of a body of water, the self-propelled underwater vehicle comprising: a work assembly configured to be set, at least partly, into the bed, the work assembly including two facing supporting walls for delimiting a space therebetween and supporting two opposite scarp slopes; two drive assemblies arranged on opposite sides of the work assembly, the two drive assemblies configured to rest on the bed and advance the work assembly in a travelling direction; and two connecting assemblies each of which is located between the work assembly and a respective one of the two drive assemblies to adjust a depth of the work assembly into the body of water, each of the two connecting assemblies including: two tracks along a supporting wall; two connecting members each of which is fitted to a respective one of the two tracks; two first actuators each of which is connected to a respective one of the two connecting members to move the connecting member associated therewith along the respective one of the tracks and with respect to the supporting wall; and two articulated joints each of which includes a second actuator for adjusting the distance between the respective one of the two drive assemblies and the work assembly. 2. The self-propelled underwater vehicle as claimed in claim 1 , wherein each of the two drive assemblies includes a supporting body of adjustable buoyancy. 3. The self-propelled underwater vehicle as claimed in claim 1 , wherein each of the two drive assemblies includes a body of adjustable buoyancy and a powered crawler being looped about the body of adjustable buoyancy. 4. The self-propelled underwater vehicle as claimed in claim 1 , wherein the work assembly includes a dredging unit having at least a suction port located in the space between the two facing supporting walls and below the continuous elongated member; and a first outlet port located downstream from the suction port and over the continuous elongated member. 5. The self-propelled underwater vehicle as claimed in claim 4 , wherein the work assembly includes an auxiliary dredging unit having at least an inlet port for sucking up water; and at least a second outlet port. 6. The self-propelled underwater vehicle as claimed in claim 1 , wherein the work assembly includes a fragmenting unit having cutters configured to be set to a work position and a rest position so as to allow the self-propelled underwater vehicle to withdraw from the trench without interfering with the continuous elongated member. 7. The self-propelled underwater vehicle as claimed in claim 1 , wherein each of the two facing supporting walls includes at least a base structure, a vibrating panel connected to the base structure, and an actuator for inducing vibration of the vibrating panel, each of the vibrating panels being positioned contacting a respective soil mass along a respective one of the two opposite scarp slopes. 8. The self-propelled underwater vehicle as claimed in claim 1 , wherein each of the two facing supporting walls includes an actuator for inducing vibration of the vibrating panel in a direction crosswise to travelling direction of the self-propelled underwater vehicle. 9. The self-propelled underwater vehicle as claimed in claim 1 , further comprising a lubricating device for lubricating outer faces of the two facing supporting walls. 10. The self-propelled underwater vehicle as claimed in claim 1 , wherein the work assembly includes a supporting frame having a number of beams each of which exhibits an inverted-U-shape. 11. A system for underground laying the continuous elongated member in the bed of the body of water, the system comprising: a plurality of vehicles attached to one another to form a train; wherein each of the plurality of vehicles is configured as the self-propelled underwater vehicle of claim 1 ; wherein each of the plurality of vehicles attached to a preceding one of the plurality of vehicles is configured to set the working assembly thereof to a greater depth with respect to a depth of the work assembly of the preceding one of the plurality of vehicles.