12F. The axle is mechanically coupled to an electromagnetic generator or other power-receiving output device. The principles illustrated in this diagram are common to all embodiments of the present invention in which deflection of the material is converted into mechanical energy, which is mechanically coupled to an electromagnetic dynamo or other output device. Since most of the embodiments of this invention utilize a plurality of deformations along a single length of material, another principal element of the mechanisms is a method for preventing the wave undulations in said length of material from combining into one single, larger deformation. The advantages of this invention for free-flow hydropower generation notwithstanding, the mechanisms of this invention are also applicable as an alternative to conventional turbines in dammed hydropower installations, and certain embodiments of this invention are designed to power a conventional electromagnetic dynamo, or other power output device such as a pump. Depending on the material strengths, the fluid flow speed and other parameters, a secondary supporting structure or frame is affixed to the rigid outer-casing 44 at the upstream-end, and is also fixed to the upstream end of the hollow tubes 47, thereby transferring loads from the small rigid tubes 47 to the rigid outer-casing 44. This secondary supporting structure or frame would be of a familiar beam or truss design and is not illustrated here for simplicity.
The embodiments of this first group all incorporate fronds, and are further categorized for convenience by their visual appearance when viewed from a plane perpendicular to the direction of fluid movement. When subject to the forces of moving fluid, the morphologies of the energy-harnessing components of the mechanisms of the present invention fluctuate in a periodic manner between states that lie within a range of possible morphology configurations. A hollow tube 47 capable of withstanding high tensile forces passes through the longitudinal axis of each of these three sides 46. These hollow tubes 47 are an eleventh restraining component which, being in tension, maintains the force 37 d, thereby preventing the Type B hexagonal tube 39 from lengthening and returning to its relaxed, non-undulating state. This first flexible crenated strip 3 has a tendency to return to its unstressed state, and therefore, maintains the applied force 75 as potential energy as long as it is restrained from returning to its unstressed state.
Dolor De Oidos
The energy state of the frond 2 and the two crenated strips 3 is in equilibrium, as the internal energy of the first crenated strip 3 causes the first strip to “want” to straighten-out in one direction, but the internal energy state of the second crenated strip 3 causes this second strip to “want” to straighten-out in the opposite direction. 46, each concentric tube 62 is in-phase with a first adjacent concentric tube 62 and is out-of-phase with a second adjacent concentric tube 62. The space between the two in-phase concentric tubes is open to the flow of the fluid, while the space between the two out-of-phase concentric tubes is closed. Further, the wave undulations of the Type A hexagonal tubes 38 and Type B hexagonal tubes 39 are out-of-phase with each other. For this dodecahedral honeycomb embodiment, the wave undulations of each frond 2 of a tube 30 are out-of-phase with the wave undulations of its adjacent two fronds 2. The wave undulations of three fronds 2 c of a tube 30 are synchronized with each other, and are out-of-phase with the wave undulations of the other three fronds 2 d of a tube 30. The wave undulations of the other three fronds 2 d are synchronized with each other.
The tubes 33 also serve as principal conduits for electrical wiring associated with the transfer of harnessed electricity. Depending on the speed of water flow and on the number of dodecahedral tubes 30 in the dodecahedral honeycomb embodiment, an additional secondary structure connecting all rigid polygonal tube 27 and fixed to the polygonal rigid outer-casing 36. This would be a familiar structure of beams or trusses and is not shown here for simplicity’s sake. FIG. 28B illustrates the arrangement of non-elastic plates 32 a, in accordance with another dodecahedral embodiment. Estomago inflamado y dolor de espalda . FIGS. 27A-E illustrate a series of sections cut through the dodecahedral honeycomb at a given position, during one half cycle of operation, in accordance with another embodiment of the present invention, and FIG. The “cells” of the honeycomb are dodecahedral tubes 30 having six sides which are fronds 2, and another six sides which are flexible or elastic strips 31. Each frond 2 is mechanically coupled to flexible or elastic strips 31 along the length of both edges of the frond 2. A plurality of dodecahedral tubes 30 aligned parallel to each other, and laterally connected to each other, comprise the dodecahedral honeycomb.
Dolores Musculares Causas
Because these hexagonal tubes are pre-stressed and restrained as described above and as shown in FIGS. Since the Type B hexagonal tubes 39 are restrained and share sides with Type A hexagonal tubes 38, the Type A hexagonal tubes 38 are also restrained. Dolor lumbar solucion . The central concentric tube 62 is closed with an elastic plate 65. The space between the outer-most concentric tube 62 and the rigid tube 60 is also closed. The Type C hexagonal tubes 49 are open at both ends allowing fluid to flow through, while the Type D hexagonal tubes 50 and the Type E hexagonal tubes 51 are closed. This tube is made of a material which allows the tube to twist clockwise and counter-clockwise but does not allow the tubes to lengthen, acting as a fourth restraining component. A first arch-shaped strip 74 of the flexible or elastic material is formed or cut from a flat sheet, multi-layered, woven or other composite sheet of the flexible or elastic material.
FIG. 1B is a diagram illustrating basic steps in the creation and operation of embodiments of the present invention utilizing the deflection of an elastic or flexible material to perform mechanical work which is then harnessed via an electromagnetic dynamo or other power output device. When three of the fronds 2 comprising the tube 30 bulge outwards their most, the other three fronds 2 comprising the tube 30 bulge inwards their most. Embodiments of the present invention cover the use of any materials which may be employed, existing or to be discovered or invented, that generate electrical energy when flexed, stretched, compressed or twisted, or otherwise receive internal material strains, during the operations described herein.
Dolor Espalda Baja
An additional advantage that the present invention has over the Piezoelectric Eel, with its reliance on vortices in the moving fluid, is scalability because there, are in principle, no upward limits on the dimensions to which embodiments of the present invention can be built. Problem 2 is solved because the mechanism primarily includes flexible and elastic components which are more capable of deflecting or absorbing shocks such as an impacting log or tree branch.
- Boca seca
- Torsión de toalla
- Fiebre constante y particularmente alta
- Ayudar a aflojar las prendas apretadas
- Secuelas de fracturas de tibia, especialmente cerca de la rodilla
- Hipertransaminasemia sin etiología filiada
The fronds 2 can be anchored in various ways to the floor of the fluid channel, to a structure spanning across the fluid channel, or through anchors 7 attached to vertical component 8. The vertical components 8 can be formed in various designs so as to improve the hydrodynamics of the anchors 7 and the anchor’s point of attachment to the frond, and therefore, how the fluid interacts with the fronds. The crenated strips 3 are mechanically coupled to a sixth restraining component from the restraining components.
Dolor De Garganta
24F illustrates the corresponding one half of a cycle of operation, in accordance with this embodiment of the present invention. FIGS. 13A-E illustrates a series of sections cut through the asterisk of the embodiment above at a given position, during one cycle of operation, while FIG. 23A-B illustrate a non-free-flow application of the polygonal ring, in accordance with another embodiment of the present invention, and FIG. FIG. 5 illustrates a frond 2 with the preferred minimum number of wave undulations per frond. FIG. 3E illustrates a perspective view of the arrangement of the frond 2 and the crenated strips 3, in accordance with the first group of embodiments of the present invention. FIGS. 20A-I illustrate a series of cross-sections at a given point during one cycle of operation, and FIG. FIG. 14 and FIGS.
Dolores Musculares Piernas
Therefore, at all times during operation, three sides of the hexagon are at one equal length and three sides of the hexagon are at another equal length. However, dams are expensive to construct and have a high environmental impact. Coskun. Pas dolor lumbar . En un modelo animal fueron examinados los efectos inmediatos de una sesión de la magnetoterapia pulsátil de 30 minutos con una frecuencia de 50 Hz e intensidad de 1 mT.
El uso del campo magnético pulsante de una frecuencia de 50 Hz e intensidad de 1 mT tuvo entonces un efecto negativo en el nervio periférico, ya que redujo el valor de la amplitud y la fase hiperpolarizante de su potencial de acción. En otras palabras, la magnetoterapia reduce significativamente los impulsos nerviosos del nervio ciático reduciendo el dolor severo causado por la inflamación del nervio ciático. El potencial de acción del nervio ciático aislado fue el tema de estudio clínico del equipo de Ö. Según los resultados de este estudio, la máxima amplitud, la fase hiperpolarizante y el potencial de acción fueron significativamente inferiores en el grupo sometido a la magnetoterapia pulsátil. El potencial de acción es un tiempo corto en el cual el potencial de la membrana celular aumenta rápidamente y disminuye de nuevo para mantener la diferencia de tensión entre el ambiente interior y exterior de la célula durante la propagación de impulsos nerviosos.
En las neuronas, los potenciales de acción se conocen también como impulsos nerviosos. Each triangular cross-section is closed by a plurality of plates stacked along a longitudinal axis, preventing the fluid from entering the triangular cross-sections. The polygonal cross-section can be closed by a plurality of rigid plates 19 stacked along the longitudinal axis. 3D illustrates how the frond 2 is attached to the two crenated strips 3, in accordance with various embodiments of the present invention. Consequently, the pressure on each wave undulation of a frond 2 is transferred to the next downstream wave undulation through the incompressible fluid in a pocket 21 a between the alternating wave undulations. As mentioned above, each frond 2 is electrically coupled to at least one electrode, so as to retrieve harnessed electricity. FIGS. 11A-I illustrate a series of sections cut through the asterisk at a given position, during one cycle of operation.