A water wave-type power generating device is mounted on a shore, and includes a hub, a power generating unit, a transmitting track unit surrounding and movable relative to the hub along an endless course to generate a rotational force, a rotation transmitting unit coupled with the transmitting track unit and receiving the rotational force to generate the torque that is transmitted to the power generating unit by a torque transmitting unit, and a plurality of wave heading members disposed on the transmitting track unit and each having a heading surface that is subjected to waves of water in a wave ascending direction so as to actuate the movement of the transmitting track unit.

A water-flow power device includes a carrier, a first sprocket component, a second sprocket component, a first chain, a second chain, a plurality of blade structures, and an energy conversion unit. The carrier has a first end portion and a second end portion opposite to the first end portion. The first sprocket component is disposed at the first end portion of the carrier. The second sprocket component is disposed at the second end portion of the carrier. The first chain is configured to surround the first sprocket component and the second sprocket component. The second chain is configured to surround the first sprocket component and the second sprocket component. Two ends of each of the blade structures are respectively connected to the first chain and the second chain. The energy conversion unit is connected to the first sprocket component or the second sprocket component.

A blade structure of a water flow power generation system includes a blade body and a tail flap. The blade body has a side porion. The tail flap has a side connection portion. The side connection portion is pivotally connected to the side portion of the blade body.

A frame which includes adjacent, spaced-apart segments that define adjacent, spaced-apart, and parallel closed-loop tracks supporting two or more articulated foils between the adjacent frame segments. Opposite distal ends of the foils cooperate with opposite tracks of the frame segments so that the foils can traverse along the tracks when current lifts the foils and pushes them along the tracks.

An underwater device for water power conversion includes multiple cups, each cup constituted by a bottomless cup member and a bottom plate fitted pivotally in a freely rotatable manner, wherein the bottomless cup member blocks flowing water in a standing state and makes flowing water pass through in a lying down state, generating flowing water resistance difference between the two states. The cups are installed in a continuous member of a waterwheel submerged in flowing water so that the cup stands in a forward advance path and lies down in a reverse advance path. A water blocking plate is also provided in the reverse advance path so as to utilize centrifugal force to turn the bottomless cup member from the lying down state to the standing state, thereby making the cup turn or circulate continuously in flowing water.

A method is for exploiting the energy of a water current with an energy plant. The energy plant has at least one rope extending around at least two turning stations, and carries at least one at least partially submerged foil which is approximately symmetrical around its chord. The velocity and direction of flow of the water together with the moving speed and direction of the foil gives a resulting water velocity and direction acting on the foil. The method includes pivoting the foil until it has a desired angle of attack to the resulting water direction when the foil is being displaced co-currently; and pivoting the foil until it has a desired angle of attack to the resulting water direction when the foil is being displaced counter-currently, the angle of attack being the same or different co-currently and counter-currently.

A water-driven turbine has an elongated endless conveyor with down and up streaming straightaways connected by travel-reversing turns. Paddles mounted on the conveyor present high resistance to waterflow on the downstream straightaway and low resistance to waterflow or the atmosphere on the upstream straightaway, the differential allowing the flow of water to continuously drive the conveyor which is connected to a power take-off shaft facilitating connection to a variety of energy-harnessing systems. The turbine can be towed, self-driven or mooring line manipulated to a flow site and is operable in unidirectional flows such as rivers and reversing flows such as tides at depths from surface to bottom. The paddles can be mounted or changed on shore, at the flow site and anywhere in between. The turbine is efficient in low and high velocity water flow, not easily damaged by floating debris, cavitation free and fish, mammal and environmentally friendly.

A power generating apparatus using flowing water for rotating a shaft. Blades are mounted at a certain distance apart from each other on two straight sections of a chain. When the blades are immersed in water, water passes through the blades in the first straight section and then passes through the blades in the second straight section. The blades are caught on a stopper provided on the chain to be maintained in an oblique line. Direction adjusting devices are on curved sections. The oblique directions of the blades are in mutual opposition. The energy from the flow speed of water is changed into circulating power of the chain by the blades. The sprockets are driven by the chain (111), and drive rotating shafts.

The present invention relates to a way to convert energy from a fluid flow, using a fluid-flow transducer, having a frame anchorable against the flow, an elongated conveyor supported by the frame, and a plurality of vanes distributed along the conveyor, adapted to engage the fluid flow and to drive the conveyor in response to urging of the fluid flow, in combination with a power take-off coupled to be driven by the conveyor and adapted to drive a load.

A water wave-type power generating device is mounted on a shore, and includes a hub, a power generating unit, a transmitting track unit surrounding and movable relative to the hub along an endless course to generate a rotational force, a rotation transmitting unit coupled with the transmitting track unit and receiving the rotational force to generate the torque that is transmitted to the power generating unit by a torque transmitting unit, and a plurality of wave heading members disposed on the transmitting track unit and each having a heading surface that is subjected to waves of water in a wave ascending direction so as to actuate the movement of the transmitting track unit.