Sonar transducer support assembly systems and methods

What is claimed is: 1. A system, comprising: a mounting bracket; a transducer support arm; a pivoting mechanism pivotably coupling the transducer support arm to the mounting bracket such that, for forces acting on the transducer support arm that are less than a preselected kick-up level, the pivoting mechanism holds the transducer support arm against those forces and at a user selectable first angular position relative to the mounting bracket, and for forces acting on the transducer support arm that are equal to or greater than the preselected kick-up level, the pivoting mechanism allows the transducer support arm to be moved by those forces to a second angular position relative to the mounting bracket; and an end stop mechanism rotatably disposed on the pivoting mechanism for rotational movement relative to the mounting bracket and the transducer support arm, the end stop mechanism including a location pin configured to engage within one of a plurality of adjustment holes disposed in the transducer support arm and arrayed in a semicircular pattern about the pivoting mechanism to prevent rotation of the end stop mechanism relative to the transducer support arm, and a stop tab disposed to abut the mounting bracket when the transducer support arm is disposed in the first angular position to prevent further rotation of the transducer support arm away from the mounting bracket. 2. The system of claim 1 , wherein the mounting bracket is coupled to a transom of a vessel disposed on a surface of a body of water and further comprising a transducer assembly coupled to the transducer support arm such that the transducer assembly is disposed substantially below a hull of the vessel when the transducer support arm is disposed in the first angular position and substantially above a lower trailing edge of the transom when the transducer support arm is disposed in the second angular position. 3. The system of claim 2 , wherein the transducer assembly is elongated and arranged on the transducer support arm to be conveyed by the vessel longitudinally through the body of water, the forces acting on the transducer support arm comprise forces acting on a forward end of the transducer assembly, and the kick-up level corresponds to a force imparted to the forward end of the transducer assembly by a collision of the transducer assembly with an object submerged below the surface of the body of water. 4. The system of claim 2 , wherein the transducer assembly has an arcuate upper surface, the transducer support arm has an arcuate lower surface corresponding to the arcuate upper surface of the transducer assembly, the arcuate lower surface of the transducer support arm has a circumferential slot extending through it, and the transducer assembly is coupled to the transducer support arm at an adjustable angular position relative to the transducer support arm with a fastener that extends through the circumferential slot and into the transducer assembly. 5. The system of claim 1 wherein the pivoting mechanism comprises a pair of ratchet plates respectively coupled to an associated one of the mounting bracket and the transducer support arm for conjoint rotation therewith, each plate having a plurality of laterally extending radial teeth interdigitated with the teeth of the other plate, the plates being biased toward each other laterally with a resilient biasing force such that rotation of one plate relative to the other causes the two plates to be forced apart laterally and against the resilient biasing force. 6. The system of claim 5 , wherein the teeth of each ratchet plate are arrayed at equal angular increments of about 10 degrees. 7. The system of claim 1 , wherein the adjustment holes of the transducer support arm are arrayed at equal angular increments of about 10 degrees. 8. The system of claim 1 , further comprising: a transducer assembly coupled to the transducer support arm, the transducer assembly being capable of producing and emitting an acoustic beam in response to the application of an electrical signal thereto, and receiving an acoustic return and converting it to an electrical signal; a controller operable to apply electrical signals to the transducer assembly and to receive electrical signals therefrom; a user interface for inputting user commands to the controller; and an electroconductive harness for interconnecting the user interface, the transducer assembly and the controller and for conveying the user commands and electrical signals between them. 9. The system of claim 8 , wherein the user interface comprises: a logic device for converting the electrical signals received from the transducer assembly into image data; and a display for visually displaying the image data to a user of the system. 10. A method, comprising: providing a mounting bracket; pivotably coupling a transducer support arm to the mounting bracket with a pivoting mechanism such that, for forces acting on the transducer support arm that are less than a preselected kick-up level, the pivoting mechanism holds the transducer support arm against those forces and at a user selectable first angular position relative to the mounting bracket, and for forces acting on the transducer support arm that are equal to or greater than the preselected kick-up level, the pivoting mechanism allows the transducer support arm to be moved by those forces to a second angular position relative to the mounting bracket; rotatably disposing an end stop mechanism on the pivoting mechanism for rotational movement relative to the mounting bracket and the transducer support arm; rotating the transducer support arm to the first angular position relative to the mounting bracket; and engaging a location pin on the end stop mechanism within one of a plurality of adjustment holes disposed in the transducer support arm and arrayed in a semicircular pattern about the pivoting mechanism such that the end stop mechanism is prevented from rotating relative to the transducer support arm, and a stop tab disposed on the end stop mechanism is disposed in abutment with the mounting bracket so as to prevent further rotation of the transducer support arm away from the mounting bracket. 11. The method of claim 10 , further comprising: coupling the mounting bracket to a transom of a vessel disposed on a surface of a body of water; and coupling a transducer assembly to the transducer support arm such that the transducer assembly is disposed substantially below a hull of the vessel when the transducer support arm is disposed in the first angular position and substantially above a lower trailing edge of the transom when the transducer support arm is disposed in the second angular position. 12. The method of claim 11 , further comprising: disposing the transducer support arm in the first angular position such that the transducer assembly is disposed substantially below the hull of the vessel; and conveying the transducer assembly through the body of water using the vessel. 13. The method of claim 12 , further comprising striking an object submerged below the surface of the body of water with the transducer assembly and with a force greater than the kick-up level, such that the pivoting mechanism allows the transducer support arm to be moved by that force to the second angular position relative to the mounting bracket. 14. The method of claim 10 , further comprising: manually rotating the transducer support arm from the first angular position relative to the mounting bracket to the second angular position relative to the mounting bracket; and manually rotating the transducer