Disclosed are an underwater moving apparatus and a moving method thereof. The underwater moving apparatus of an exemplary embodiment of the present invention includes a body; a propelling device installed on a rear side of the body; a thruster unit including an up and down directional thruster and a
Disclosed are an underwater moving apparatus and a moving method thereof. The underwater moving apparatus of an exemplary embodiment of the present invention includes a body; a propelling device installed on a rear side of the body; a thruster unit including an up and down directional thruster and a left and right directional thruster installed at the body; and a plurality of leg units positioned at both side portions of the body and including a multi-joint module.
대표청구항▼
1. An underwater moving apparatus, comprising: a body;a propelling device installed on a rear side of the body;a thruster unit including an up and down directional thruster and a left and right directional thruster installed at the body; anda plurality of leg units positioned at both side portions o
1. An underwater moving apparatus, comprising: a body;a propelling device installed on a rear side of the body;a thruster unit including an up and down directional thruster and a left and right directional thruster installed at the body; anda plurality of leg units positioned at both side portions of the body and including a multi joint module,wherein the multi joint module includes a first frame member coupled to one side of the body to be rotatable and a second frame member coupled to one end portion of the first frame member to be rotatable,wherein the second frame member is arranged in a state of being folded with respect to the first frame member by being rotated. 2. The underwater moving apparatus of claim 1, wherein: the body has a cross section in a forward and rearward direction having a circular or elliptical shape, andthe body has a streamlined shape from a front end portion to a rear end portion. 3. The underwater moving apparatus of claim 1, further comprising: at least one arm unit positioned at a front side of the body and including the multi joint module. 4. The underwater moving apparatus of claim 1, further comprising: a tail wing unit positioned at a front side of the propelling device. 5. The underwater moving apparatus of claim 1, further comprising: a buoyancy generating unit positioned in the body,wherein the buoyancy generating unit includes:a fluid storage tank;an extendable pocket member connected to the fluid storage tank; anda pump installed between the fluid storage tank and the pocket member to transfer a fluid stored in the fluid storage tank to the pocket member. 6. The underwater moving apparatus of claim 5, wherein: a pair of buoyancy generating units is formed at a front portion and a rear portion of the body. 7. The underwater moving apparatus of claim 1, further comprising: a gravity center moving unit installed in the body,wherein the gravity center moving unit includes:a weight body formed to be movable in the body;a ball screw coupled to the weight body in order to move the weight body;a driving motor configured to rotate the ball screw; anda pair of LM guides arranged in parallel with the ball screw so as to guide a movement of the weight body. 8. The underwater moving apparatus of claim 1, wherein: the multi-joint module further includes:a rotating shaft member coupled to the body to be rotatable about a first rotating axis extended in an outward direction of the body; anda joint member coupled to one end portion of the rotating shaft member to be rotatable about a second rotating axis which is vertical to the first rotating axis,wherein the first frame member coupled to one end portion of the joint member to be rotatable about a third rotating axis which is vertical to the first rotating axis and the second rotating axis,wherein the second frame member coupled to one end portion of the first frame member to be rotatable about a fourth rotating axis which is in parallel to the third rotating axis. 9. The underwater moving apparatus of claim 8, wherein: the leg unit further includes a foot member rotatably installed on an end portion of the second frame member. 10. The underwater moving apparatus of claim 8, wherein: the second frame member is arranged in a state of being folded with respect to the first frame member by being rotated about the fourth rotating axis. 11. The underwater moving apparatus of claim 8, further comprising: a first frame member cover unit configured to enclose the first frame member; anda second frame member cover unit configured to enclose the second frame member. 12. The underwater moving apparatus of claim 11, wherein: each of the first frame member cover unit and the second frame member cover unit includes:a streamlined cover having an airfoil shaped cross section;a plate shaped cover coupled to a concave surface of the streamlined cover and having a fourth rotating axis hole through which the fourth rotating axis penetrates; anda support formed on any one of the streamlined cover and the plate shaped cover to fix the first frame member or the second frame member to inner sides of the streamlined cover and the plate shaped cover. 13. The underwater moving apparatus of claim 12, wherein: a third rotating axis hole where the first frame member is coupled to a joint member and through which the third rotating axis penetrates, and a cylinder guide hole formed so as not to hinder a movement of an end portion of a piston of a hydraulic cylinder of the first frame member, are formed in the plate shaped cover of the first frame member cover unit, andholes corresponding to the fourth rotating axis hole and cylinder guide hole of the plate shaped cover of the first frame member cover unit are formed in the plate shaped cover of the second frame member cover unit. 14. The underwater moving apparatus of claim 12, wherein: the streamlined cover of the first frame member cover unit and the streamlined cover of the second frame member cover unit are formed to form an airfoil shape in a state in which the second frame member is rotated about the fourth rotating axis to be in parallel to the first frame member, andthe plate shaped cover of the first frame member cover unit and the plate shaped cover of the second frame member cover unit are formed to be overlapped with each other in a state in which the second frame member is rotated about the fourth rotating axis to be parallel to the first frame member. 15. A moving method of the underwater moving apparatus disclosed in claim 1 to a target location on a sea floor while overcoming the tide, the method comprising: a) converting a posture of the body into a vertical posture oriented toward the target location when the underwater moving apparatus is put into a water surface;b) decreasing a velocity or stopping when the underwater moving apparatus moves down vertically to the target location and reaches a predetermined water depth;c) converting a posture of the body into a horizontal posture; andd) moving the underwater moving apparatus to the target location by using at least one of the propelling device, the thruster unit, and the leg unit. 16. The moving method of claim 15, wherein: step a) includes converting a posture into the vertical posture in which the front portion is oriented toward the target location by adjusting buoyancy so that negative buoyancy is generated on the front portion of the body, and positive buoyancy is generated on the rear portion; andgenerating moment for changing and maintaining the vertical posture by moving a center of gravity to the front portion side. 17. The moving method of claim 15, further comprising: between step a) and step b), driving the propelling device when it is determined that a slope of the body is vertical within an allowable range. 18. The moving method of claim 15, wherein: step b) includes determining whether the underwater moving apparatus reaches any one of a predetermined target water depth and the target distance from the sea floor; andstopping the underwater moving apparatus by stopping an operation of the propelling device or generating reverse thrust. 19. The moving method of claim 18, wherein: step c) includes generating neutral buoyancy when the horizontal posture is made by adjusting buoyancy so that negative buoyancy is generated on the rear portion of the body, and positive buoyancy is generated on the front portion; andgenerating moment for changing and maintaining the horizontal posture by moving a center of gravity of the front portion side to a central portion. 20. The moving method of claim 15, further comprising: before step a), folding the plurality of leg units. 21. The moving method of claim 15, further comprising: after step d), converting a posture into the vertical posture in which the front portion is oriented toward the water surface by adjusting buoyancy so that the positive buoyancy is generated on the front portion, and the negative buoyancy is generated on the rear portion, in a case in which the underwater moving apparatus moves up after completing work; andgenerating moment for changing and maintaining the vertical posture oriented toward the water surface by moving a center of gravity to the rear portion side; andraising the underwater moving apparatus vertically to the water surface by generating thrust of the propelling device. 22. The underwater moving apparatus of claim 1, wherein: in the state of being folded, the leg unit has an airfoil shaped cross-section.
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