The structure of the turbine helicoidal in depth starts by a compact cylindrical shape (1), the conical shape (5) projecting by one of the sides of the core (4). On the opposite side, its shaft (6) whose extremity incorporates the conical pinion (8) and bearing (9), extends beyond the central part of the ring (11) going around it, both side walls (12) of the ring presenting circular cylindrical cavities (13 and 14) whose concave perimeter configures half the circumference. Its medium central sector (15) is drilled on all of its longitudinal extension (16) with cylindrical holes (17) in diagonal position (18) with relation to the line of shaft (6), configuring an assembly which is helicoidal in depth. Adapted in its shape and subjected to compression, the compressible element projects through the helicoidal assembly, initiating the rotation, whose power and intensity are related to the number and diameter of the alveoles, in two or more concentric circles, to the length of the cylinder conforming them and to the angle of the diagonal line of the helicoidal assembly. It receives alternatively compression from each side without changing the initial rotation direction. The direction changes when diagonal position of the helicoidal assembly changes in the turbine. As a kinetic rotation device it is appropriate, from an industrial point of view, for liquid, atmospheric, pneumatic and eolian compression. Evidently, its structure may be comprised of parts or sections depending on the function.
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