Underwater detecting and salvage robot and working method and control system thereof
A technology of underwater robots and working methods, which is applied to underwater operation equipment, ship propulsion, ship parts, etc., can solve the problem of being unable to quickly and accurately find items salvaged or positioned on the bottom of the seabed, and achieve the goal of improving the efficiency of underwater travel Effect
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[0027] Example 1
[0028] like Figure 1 to Figure 5 As shown, the present embodiment 1 provides an underwater robot, comprising: a main body 1, a power device is provided on the outer wall of the main body 1, and a manipulator 5 is provided at the front end of the main body; a processor module is suitable for controlling the power device To control the underwater robot to travel underwater, and also to control the manipulator 5 to realize the grasping action, so as to realize the underwater salvage work.
[0029] The main body 1 is shuttle-shaped; the power unit includes three propeller-type motor propellers, which are distributed on the outer wall at 120°; the processor module is suitable for controlling the three propeller-type motor propellers to work together to control water The underwater robot travels underwater.
[0030] Specifically, the underwater traveling mode of the underwater robot includes but is not limited to ups and downs, turning, lateral movement, and pi...
Example Embodiment
[0039] As an optional implementation of the underwater robot, the underwater robot also includes: a camera and a communication device connected to the processor module; the processor module recognizes the target through the camera device, and builds a communication network through the communication device To realize tracking and positioning; specifically, the mother ship locates the corresponding underwater robots by receiving the communication devices of each underwater robot.
[0040]Specifically, the communication method of the underwater robot adopts a three-stage step-by-step approach, that is, three communication technologies are used in the process of the two robots gradually approaching, which has the characteristics of high efficiency, high intelligence, and high stability. Specifically, the complex process of approaching is divided into three different stages according to the three communication methods. Using three suitable communication methods can make multiple und...
Example Embodiment
[0046] Example 2
[0047] On the basis of embodiment 1, this embodiment 2 also provides a working method of the underwater robot.
[0048] The working method includes: controlling the underwater robot to advance underwater by controlling the power device; and controlling the manipulator to realize the grasping action.
[0049] Wherein, the structure and working mode of the underwater robot are as described in Embodiment 1.
[0050] As an optional working method for underwater robots.
[0051] When the underwater robot turns underwater, the first propeller motor propeller acts as a turning fulcrum, and the second and third propeller motor propellers move toward each other and close together, that is, with the first propeller motor propeller at the center of the main body 1 Axisymmetric setup.
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