Bio-inspired underwater robot

What is claimed is: 1 . A bionic robot for underwater use, comprising: a head; and one or more tail structures, wherein: each of the one or more tail structures comprises one or more joint structures; each of the one or more joint structures comprises a connection plate, and a modular assembly motorized for performing various movement motions of the joint structure; and the modular assembly comprises an upper servo motor, a lower servo motor, and a bevel gear mechanism. 2 . The bionic robot of claim 1 , wherein the bevel gear mechanism is integrally formed by an intermediate bevel gear, a first bevel gear, and a second bevel gear, wherein: the upper servo motor drives the first bevel gear from a first side of the modular assembly; and the lower servo motor drives the second bevel gear from a second side of the modular assembly. 3 . The bionic robot of claim 2 , wherein the connection plate is fixedly attached to or screwed to the intermediate bevel gear for achieving a yaw motion or a pitch motion of the joint structure. 4 . The bionic robot of claim 2 , wherein: the upper servo motor drives an upper motor gear coupled to a first reduction gear via a first middle gear; the lower servo motor drives a lower motor gear coupled to a second reduction gear via a second middle gear; the first reduction gear and the first bevel gear are fixed; and the second reduction gear and the second bevel gear are fixed. 5 . The bionic robot of claim 4 , wherein: the first reduction gear has a larger number of teeth than the first middle gear; and the second reduction gear has a larger number of teeth than the second middle gear. 6 . The bionic robot of claim 1 , wherein each tail structure comprises a fin structure fixed to an end plate sealed at a longitudinal distal end of the tail structure. 7 . The bionic robot of claim 6 , wherein the fin structure is a bionic fishtail with an emarginate caudal fin shape. 8 . The bionic robot of claim 1 , wherein the joint structure is mechanically sealed within a silicone tube and a skeleton, thereby the modular assembly is sealed inside the joint structure. 9 . The bionic robot of claim 8 , wherein the silicone tube is tightly clamped to the skeleton using a clamp and silicone glue to prevent water seepage. 10 . The bionic robot of claim 1 , wherein the head comprises one or more tail drive assemblies for controlling movement of the one or more tail structure. 11 . The bionic robot of claim 10 , wherein the tail drive assembly comprises a head servo motor, a motor pinion, a spur gear, a motor shaft, and a rotary shaft, wherein the motor shaft is fixed to the motor pinion for driving the spur gear and the rotary shaft. 12 . The bionic robot of claim 11 , wherein the motor pinion has a smaller number of teeth than the spur gear for reducing the rotational speed of the rotary shaft. 13 . The bionic robot of claim 11 , wherein the rotary shaft is connected to the tail structure for driving the tail structure with a good sealing effect from an external water environment. 14 . The bionic robot of claim 1 , wherein the head comprises three sealed connectors for connecting to an underwater acoustic transceiver or other accessory devices, wherein the underwater acoustic transceiver is configured to communicate based on an underwater acoustic network. 15 . The bionic robot of claim 1 , wherein the head comprises a plurality of infrared sensors. 16 . The bionic robot of claim 1 , wherein the head comprises one or more pressure sensors. 17 . The bionic robot of claim 1 , wherein the modular assembly is cable driven, or hydraulic driven. 18 . A bionic robot for underwater use, comprising: a head; and three tail structures, wherein: each of the three tail structures comprises one or more joint structures; each of the one or more joint structures comprises a connection plate, and a modular assembly motorized for performing various movement motions of the joint structure; and the modular assembly comprises an upper servo motor, a lower servo motor, and a bevel gear mechanism. 19 . The bionic robot of claim 18 , wherein one of the three tail structures comprises three joint structures, and each of the other two tail structures comprises two joint structures. 20 . The bionic robot of claim 18 , wherein one of the three tail structures comprises two joint structures, and each of the other two tail structures comprises three joint structures.