Subsequently, the flood gate (19) is closed by means of an electric switch and the four-way valve is activated as shown in FIG. The operation and control of the above will be further described through a detailed explanation of FIGS. A SUMMARY OF THE INVENTION An objective of the present invention is to overcome the above mentioned defects and to provide a method and apparatus for tidal electric power generation utilizing the buoyancy energy of the tide from which the greater energy can be obtained by controlling the weight of the buoyant container compared with the conventional manner. The balancing buoyant room (3) is situated beneath the buoyant container (2) and the room is filled with air for the purpose of maintaining a constant buoyant force of the buoyancy container (2). The height of the buoyant container is twice the difference between the highest level and the lowest level of the tide.
- Dificultad para concentrarse; la mente se pone en blanco
- Otras causas
- Choose lines and adapters based on the port threads and desired layout in the vehicle
- The device as recited in claim 6 wherein
- De 7 a 7.45 horas
- Lleva contigo un abrigo por si la temperatura ambiente desciende de repente
- Competencias de los profesionales de Enfermería
- Inflamación de uno de los testículos o ambos (orquitis)
In the prior art, tidal electric power was generated through the use of a dam beneath which a turbine was installed A turbine rotated according to the ebb and flow of the tide and the mechanical energy of this rotation was used to generate electricity. A third objective of this invention is to utilize a conic helical gear to uniformly maintain the driving force of the pump. When the buoyant container (2) reaches the highest position, it must stop. FIG. 8B illustrates the case in which the water from the lower reservoir (17) flows into the buoyant container (2). As shown in FIG. The lead angle of the conic helical gears (8A, 8B) increases with movement from smallest portion (ie, with a small diameter) to the largest portion (ie, with a large diameter) of the said gear whereas the pitch remains the same as shown in FIG.
Moreover, FIG. 6B illustrates the case in which the conic helical gear (8B) engages with the gear (7) when the buoyant container (2) is pulled down by its weight, (ie, after it has been filled with water). As the buoyant container moves downward, its kinetic energy increases in accordance with the increment of the water level within the buoyant container, i.e., the increment of the weight of the said container.
Dolores Musculares Y Fiebre
Thus, the kinetic energy increases in accordance with the increased weight of the container. Dolor debajo de la espalda . However, before that time, the converting apparatus (23) is changed from the position shown in FIG. Subsequently, the buoyant container is fixed by means of the brake (30) and the converting apparatus (23) is changed from the position shown in FIG. 8E are schematic views of the valve of the water pump, and demonstrate the respective valve positions changed in accordance with the operating procedures. 7 is released, the buoyant container (2) begin to rise due to the buoyant force so that the rack causes the pinion (5) to rotate, instantaneously producing the force necessary for the operation of the pump (11). At that point, the converting apparatus (23) is in the position shown in the FIG.
6A. At that point, the operating cycle has been completed.
When the said buoyant container (2) drops to the lowest position, the four-way valve is positioned as shown in FIG. 6A to FIG. 6B the conic helical gear (8B) engages with the gear (7). FIG. FIG. 2 is a side schematic view of the buoyant apparatus and the power transmission apparatus, demonstrating the effect of the high tide on the buoyancy apparatus. 6A. At that point, the operating cycle has been completed. At that point, the gear (10) is locked by means of the brake (30). Accordingly, the buoyant container (2) is suspended even at low tide. At that point, the previously pumped water drops through the duct (20) and generates electricity by means of the generator (E). 7. The shaft of the gear (10) is connected to the shaft of the pump (11) by a suitable means. Conduit (14) is connected to the lower reservoir (17). Conduit (15) is connected through the pump (11) to the upper reservoir (18). Dolor muscular de aparición tardía . The upper reservoir (18) is mounted above the lower reservoir (17). The water pumped into the upper reservoir (18) is discharged through the duct (20) into the generator (E) which, in turn, produces electric power.
The four conduits (13,14, 15,16) are respectively connected to the four-way valve (12). Conduit (13) is connected to the buoyant container (2) and conduit (16) is immersed in the sea. The present invention relates to a method and apparatus for tidal electric power generation using the buoyancy energy of the tide. As a result, the power converting apparatus (23) moves reciprocally along the shaft (28). The shaft (8C) of the conic helical gear (8A or 8B) is designed to fit the teeth of the gear. There was also a defect present ie., the enormous loss of energy during the process of transforming tidal energy to electric power.