Automated dredging with vacuum assist
First Claim
1. A pressure displacement dredging system operable over a wide depth range under varying bottom conditions, comprising:
- a submersible dredging head including a plurality of at least three pressure vessels, each vessel having a material intake port and a material discharge port, each material port including a check valve, and each vessel having an operating fluid inlet port and an operating fluid exhaust port, the material discharge ports of all of the vessels being connected to a common material discharge conduit;
a corresponding plurality of low level sensors, one in each pressure vessel;
a source of operating fluid, under pressure;
an inlet valve for each pressure vessel, connecting the inlet port of the vessel to the operating fluid source;
an exhaust valve for the exhaust port of each pressure vessel;
a vacuum pump;
a corresponding plurality of vacuum exhaust valves, each connecting the exhaust port of one of the pressure vessels to the vacuum pump;
and cycle control means coupled to the level sensors and to the inlet, exhaust, and vacuum exhaust valves of all of the vessels in a predetermined closed sequence, the cycle control means being responsive to sensing of the absence of material at the low level sensor in a first vessel to open the inlet valve for the next vessel in the sequence and initiate pressure displacement discharge of material therefrom with no appreciable time delay, and thereafter close the inlet valve and open the exhaust valve of the first vessel to initiate filling of the first vessel by pressure displacement with no appreciable time delay;
the cycle control means further including vacuum changeover means for closing the exhaust valve and opening the vacuum exhaust valve of each pressure vessel during its filling phase to accelerate and complete filling of the vessel when dredging in shallow depths;
the operating sequence being such that each pressure vessel is full when the material in the preceding vessel in the sequence has discharged to the level of its low level sensor.
0 Assignments
0 Petitions
Accused Products
Abstract
A pressure displacement dredging system capable of effective and efficient operation, without surging, over a wide depth range and under varying bottom conditions, comprises a submersible dredging head including at least three pressure vessels each having a material intake port and a material discharge port with appropriate check valves, each having an inlet port for air or other operating fluid connected to a high pressure fluid source through an inlet valve and each having an operating fluid exhaust port vented to the atmosphere through an exhaust valve. The system provides cycle control means, actuated by low level sensors in each pressure vessel, which actuates the vessels between discharge and filling phases in a predetermined closed sequence; when the level of material in a first discharging vessel drops below the low level sensor the cycle control opens the inlet valve and closes the exhaust valve for the next vessel in the sequence to initiate pressure displacement discharge of material from that next vessel, and thereafter closes the inlet valve and opens the exhaust valve of the first vessel so that the first vessel fills by pressure displacement, the sequence being such that each pressure vessel is full before discharge of that vessel is initiated. One modification of the system provides a vacuum assist for dredging in extremely shallow conditions.
-
Citations
6 Claims
-
1. A pressure displacement dredging system operable over a wide depth range under varying bottom conditions, comprising:
-
a submersible dredging head including a plurality of at least three pressure vessels, each vessel having a material intake port and a material discharge port, each material port including a check valve, and each vessel having an operating fluid inlet port and an operating fluid exhaust port, the material discharge ports of all of the vessels being connected to a common material discharge conduit; a corresponding plurality of low level sensors, one in each pressure vessel; a source of operating fluid, under pressure; an inlet valve for each pressure vessel, connecting the inlet port of the vessel to the operating fluid source; an exhaust valve for the exhaust port of each pressure vessel; a vacuum pump; a corresponding plurality of vacuum exhaust valves, each connecting the exhaust port of one of the pressure vessels to the vacuum pump; and cycle control means coupled to the level sensors and to the inlet, exhaust, and vacuum exhaust valves of all of the vessels in a predetermined closed sequence, the cycle control means being responsive to sensing of the absence of material at the low level sensor in a first vessel to open the inlet valve for the next vessel in the sequence and initiate pressure displacement discharge of material therefrom with no appreciable time delay, and thereafter close the inlet valve and open the exhaust valve of the first vessel to initiate filling of the first vessel by pressure displacement with no appreciable time delay; the cycle control means further including vacuum changeover means for closing the exhaust valve and opening the vacuum exhaust valve of each pressure vessel during its filling phase to accelerate and complete filling of the vessel when dredging in shallow depths; the operating sequence being such that each pressure vessel is full when the material in the preceding vessel in the sequence has discharged to the level of its low level sensor. - View Dependent Claims (2, 3, 4)
-
-
5. The improved method of operating a displacement dredge comprising a vacuum pump and a submersible dredging head including a plurality of at least three pressure vessels, each vessel having a material intake port and a material discharge port adjacent its bottom, each material port including a check valve, and each vessel having an operating fluid inlet port and an operating fluid exhaust port vented to the atmosphere, the material discharge ports of all of the vessels being connected to a common material discharge conduit, the dredge further comprising a source of operating fluid, under pressure, connected to all of the fluid inlet ports of the pressure vessels, the operating method including the following sequence of steps:
-
A. immersing the dredging head in a body of water to be dredged to a lever such that the intake ports of the pressure vessels are located immediately above the bottom of the body of water; B. venting the pressure vessels to allow them to fill with water and entrained bottom material by hydrostatic pressure of the body of water; C. opening the inlet port and closing the exhaust port of a first pressure vessel to discharge water and entrained bottom material from that vessel; D. sensing the drop of material in the first pressure vessel below a low level in that vessel; E. opening the inlet port of a second pressure vessel in response to step D to initiate discharge from the second vessel; F. after step E, closing the inlet port and opening the exhaust port of the first vessel, to initiate refilling of the first vessel; and G. repeating steps D, E and F for each pressure vessel in sequence, returning the first pressure vessel to discharge following discharge of the last vessel; the number of pressure vessels and the operating pressure being selected to assure that each pressure vessel in the sequence is filled at least a short time interval prior to initiation of discharge from that vessel; the improvement comprising the additional steps of; F1. sensing the rise of material in the first pressure vessel to an intermediate level above the low level; F2. closing the vent connection for the exhaust port and connecting the exhaust port of the first vessel to the vacuum pump in response to step F1 to accelerate and complete filling of the vessel; F3. sensing the rise of material in the first vessel to a level near the top of the vessel, indicating the vessel is full; and F4. disconnecting the exhaust port from the vacuum pump when the first vessel is full.
-
-
6. The improved method of operating a pressure displacement dredge comprising a vacuum pump and a submersible dredging head including a plurality of at least three pressure vessels, each having a material intake port and a material discharge port adjacent its bottom, each material port including a check valve, and each vessel having an operating fluid inlet port and an operating fluid exhaust port vented to the atmosphere, the material discharge ports of all of the vessels being connected to a common material discharge conduit, the dredge further comprising a source of operating fluid, under pressure, connected to all of the fluid inlet ports of the pressure vessels, the operating method including the following sequence of steps:
-
A. immersing the dredging head in a body of water to be dredged to a level such that the intake ports of the pressure vessels are located immediately above the bottom of the body of water; B. venting the pressure vessels to allow them to fill with water and entrained bottom material by hydrostatic pressure of the body of water; C. opening the inlet port and closing the exhaust port of a first pressure vessel to discharge water and entrained bottom material from that vessel; D. sensing the drop of material in the first pressure vessel below a low level in that vessel; E. opening the inlet port of a second pressure vessel in response to step D to initiate discharge from the second vessel; F. after step E, closing the inlet port and opening the exhaust port of the first vessel to initiate refilling of the first vessel; and G. repeating steps D, E and F for each pressure vessel in sequence, returning the first pressure vessel to discharge condition following discharge of the last vessel; the number of pressure vessels and the operating pressure being selected to assure that each pressure vessel in the sequence is filled at least a short time interval prior to initiation of discharge from that vessel; the improvement comprising the additional steps of; F1. sensing a drop of pressure in the first pressure vessel to slightly above atmospheric pressure; F2. closing the vent connection for the exhaust port and connecting the exhaust port of the first vessel to the vacuum pump in response to step F1 to accelerate and complete filling of the vessel; F3. sensing the rise of material in the first vessel to a level near the top of the vessel, indicating the vessel is full; and F4. disconnecting the exhaust port from the vacuum pump when the first vessel is full.
-
Specification