Abstract: A system for automatically deploying a moored sensor array utilizing an elongated cylindrical container with a semispherical weighted nose which will assume a glide angle with respect to the horizontal and descend in a glide path. Cable to a surface buoy is dispensed from the container during the descent with sufficient scope (ratio of cable length to depth) to permit the surface buoy to move about in response to ocean currents without overstressing the cable. A sea anchor suspended from the buoy by an elastic member with extra length of cable between the suspended sea anchor and the buoy isolates wave motion of the buoy from the anchor on the ocean floor. Upon impact with the ocean floor, a switch in the nose of the container is closed to lock up the cable and eject an array package from the container. The array package contains buoyant material to cause it to float upwardly while paying out sensors attached along a length of cable packed in the array package.
Abstract: A banner in the form of an elongated sheet of flexible material is attached to an air dropped sonobuoy for stabilization of the sonobuoy during descent as well as for descent speed control, entry angle control, and wave action damping once the sonobuoy is floating at the surface of the ocean. The banner is roller furled and stored on top of the sonobuoy. When the sonobuoy is dropped, the banner unrolls and streams out behind the sonobuoy during descent. It is a feature of this drogue apparatus that it is deployed by the time that the sonobuoy has descended a distance corresponding approximately to the length of the banner. The banner is not released when the sonobuoy hits the water in order to enable it to stream out over the surface of the water to provide wave damping action.
Abstract: 1. In a method for communicating information between a submerged vessel and a buoy, the improvement comprising the steps ofA. allowing said buoy to assume substantially the same horizontal velocity as the water in which it is floating,B. feeding out a communication cable interconnecting said buoy with said vessel at substantially the rate at which the distance between said vessel and said buoy increases,C. destroying said buoy upon command, andD. releasing the fed-out cable from said vessel.
Abstract: A linear sensor array is deployed horizontally on the ocean floor by first deploying a vertical array, between an anchor and a float from which the array is suspended, and then decreasing the buoyancy of the float gradually as the float is carried away from the anchor by ocean currents. The float is comprised of a suitably large volume of buoyant material such as hollow glass microspheres freely floating inside a liquid filled plastic container. To gradually reduce buoyancy, the microspheres are allowed to flow out through a neck near the top of the container while water is allowed to enter the bottom of the container through a liquid permeable membrane. The diameter of the neck is selected for optimum sinking rate of the float.
Abstract: A suspension system for an air-dropped sonobuoy includes a transducer housing wherein the upper portion is emptied upon deployment of a float. The weight distribution of the transducer and housing provides for a center of mass and a center of buoyancy at a location beneath a pivot in the upper portion of the housing. A suspension line connects the pivot with the float, and a pair of opposed extensible fins at the top of the housing locate the center of hydrodynamic pressure at the pivot. Thereby, the housing is maintained in a stabilized vertical attitude during descent through the water and during deployment at a predetermined depth independently of a difference in velocity of fluid movement at the float and at the sonobuoy.
Type:
Grant
Filed:
September 5, 1978
Date of Patent:
January 29, 1980
Assignee:
Raytheon Company
Inventors:
John Cupolo, David J. Salisbury, Charles W. Ouellette