Patent application number | Description | Published |
20100320768 | HYDRAULIC ELECTRICITY GENERATOR - A hydraulic electricity generator has a drive device, a hydro-generator and a recovering tank. The drive device has at least one compressing unit, and each compressing unit has a storage tube and a compressor. The storage tube has a chamber, an inlet pipe, an outlet pipe and a nozzle. The pipes are connected to the storage tube. The compressor is connected to the storage tube. The hydro-generator is connected to the at least one compressing unit and has a casing, a hydraulic turbine, a windmill and a draining pipe. The hydraulic turbine is rotatably mounted in the casing and has a spindle and multiple blades. The spindle has an outer end extended out of the casing. The windmill is mounted on the outer end of the spindle. The recovering tank is connected to the draining pipe of the hydro-generator and the inlet pipe of the drive device. | 12-23-2010 |
20110305557 | WIND TURBINE - A wind turbine has a spindle, a first fan device and a second fan device. The first fan device is rotatably mounted around the spindle and has a first pivot hole and at least two first blades. The first pivot hole is formed through a center of the first fan device and is mounted around the spindle. The at least two first blades are radially mounted on and protrude from an external surface of the first fan device. The second fan device is rotatably mounted around the spindle, abuts with the first fan device and has a second pivot hole and at least two second blades. The second pivot hole is formed through a center of the second fan device and is mounted around the spindle. The at least two second blades are mounted on and protrude from an external surface of the second fan device. | 12-15-2011 |
20120043265 | Hydrocyclone Apparatus - A hydrocyclone apparatus has an input tank device, a pipe device and a first separating assembly. The input tank device has an input tank. The pipe device has a first pipe having a first end and a second end. The first end of the first pipe is connected securely to the input tank. The first separating assembly has a hydrocyclone device having a hydrocyclone. The hydrocyclone is connected to the second end of the first pipe. Accordingly, the hydrocyclone can efficiently and quickly separate mud from liquid of the raw water in the input tank. | 02-23-2012 |
20120146334 | WIND-POWER AND HYDRAULIC GENERATOR APPARATUS - A wind-power and hydraulic generator apparatus has a wind power device, a drive device, multiple pump devices, a reservoir device and a hydraulic device. When the wind blows, the wind power device generates and stores electricity and the drive device drives the pump devices to pump water into the reservoir device. Then the reservoir device generates a water jet enabling the hydraulic device to generate electricity. When the wind does not blow, the electricity stored in the wind power device still enables the water to circulate and to generate the water jet. Whether the wind blows or not, the water of the reservoir device can keep circulating to generate the water jet and the hydraulic device can keep generating electricity. Accordingly, the wind-power and hydraulic generator apparatus can use wind power to generate a water jet. | 06-14-2012 |
20140319840 | HYDROELECTRIC SYSTEM - A hydroelectric system is disclosed. The hydroelectric system may include a water reservoir, a water channel, a plurality of power generating units, a water pumping unit and a cover. In one embodiment, the water reservoir is on the ground and capable of receiving and storing water, such as a pond, lake, ocean or the like, and the water channel can be spiral and located underground. The power generating units are spacedly disposed in the water channel and when blades thereof are struck by the water flow, electricity is generated. The water pumping unit is connected to a bottom section of the water channel and the water reservoir respectively, and is able to pump the water in the water channel back to the water reservoir. In an exemplary embodiment, the power generating units can be disposed and operated in geographically flat areas. | 10-30-2014 |