ITUA20164773A1 - HEAD ROLLING POLE - Google Patents

Description

SWINGING WIND BLADES

The topic I want to expose is a new system for building WIND BLADES for wind generators, which improve their performance, and above all for the possibility of being able to mount them, on low environmental impact generators, because the model to which I am I am inspired does not require considerable heights.

The blade can have any shape suitable to capture the force of the wind, round rectangular etc. it must be as light as possible, because it must swing easily around its side, with the thrust of the wind, and without creating unwanted noises. The main materials for the construction are plastic materials, blades can be built, embedded in them armatures of metal material, to increase their resistance, fig 1 to which the hinges are then connected. Or, they can be built with resistant sheets kept in tension by light metal profiles developed on a perimeter that outlines a rounded surface fig 2

the hinges connect the blades to the swivel arm, they must be lubricated and cause little frictional losses. The blades connected to the supporting arms move on them from 0 ° to 180 ° from 180 ° to 0 ° oscillating around one side of the same blade, and stopping the stroke, on one side and the other of the arm. For example, on an arm of 20 meters in length and two heights we can place 5 blades of 3 meters x 5 meters with a total area of 75 square meters fig 3. Another arm must be connected to this arm, on the opposite side in order to make static balance with the first. Then a second pair of arms must be connected, perpendicular to the first, staggered in height so as not to go behind the wind used by the first pair. These four arms must be connected to a single vertical axis rotor. After that it must be placed on the tower, where we connect everything. You can think of an iron tower, with a lattice that can be raised and lowered by means of pulleys and steel cables, useful for maintenance, and for securing lowering when necessary. To increase the power you can operate by adding another set of arms, and you need to increase Γ height. Or by extending the arms, due to the additional torsional stresses that the blades cause, it is possible to put tie rods that distribute the stresses on the other arms.

Concluding this type of system can work with low wind speed, and should fear strong winds.The useful phase in which the wind is exploited is half a turn like all vertical axis systems, the difference compared to the others, it is that in this case in the second half of the turn, the blades have almost zero aerodynamic resistance in fig 4, which shows a principle diagram with only one blade per arm, of which I have also built a test model.

Referring to the constructive example fig 3, the blades that are constantly under the pressure of the wind can be assimilated to five, the area of five blades is 75 square meters, the wind speed we put 10 meters per second we have 750 kgm to the sec. therefore 7.3 kw.

Claims (3)

CLAIMS 1) the construction of tilting wind blades, free to swing around one side by means of hinges. 2) The tilting blades connected by the hinges, on three or more arms, rotating around a vertical axis. The axis of the hinges is parallel to the vertical axis, and the blades move on the arms, by half a turn, from right to left and vice versa. 3) The system, with the wind, is able to turn around the axis of the arms. 4) the use of the system on vertical axis wind turbines.