US10519926B2 – Traveling Wave Propeller, Pump And Generator Apparatuses, Methods And Systems – Google Patents

30, 2016 entitled, “Traveling Wave Propeller, Pump and Generator Apparatuses, Methods and Systems”. 14, 2016 entitled, “Traveling Wave Propeller, Pump and Generator Apparatuses, Methods and Systems”, which in turn claims priority under 35 U.S.C. FIELD The present innovations generally address energy conversion, and more particularly, include TRAVELING WAVE PROPELLER, PUMP AND GENERATOR APPARATUSES, METHODS AND SYSTEMS. SUMMARY Aspects of the disclosed apparatuses, methods and systems include devices which create repetitive or undulating motion, or effect, to produce useful work, such as for a propulsion system or other system, including energy-harnessing systems.

Músculos de la espalda - Conoce cuales son - La Guía de.. Some examples of applications in various embodiments include propulsion systems for sub-sea vessels, personal propulsion systems attachable to the body of a swimmer or diver, surface vessels, amphibious vehicles, lighter-than-air craft, and the pumping, mixing and transportation of fluids, powders, and aggregates. 6, fluid is primarily moved 18 in the direction of the traveling wave 19, causing the mechanism as well as a body 20 that may be attached to it via a harnessing fixture 22, to travel in a direction 21 opposite to that of the traveling wave 19. Some examples of applications include surface craft or sub-sea marine propulsion, propulsion for lighter-than-air vehicles and/or the like.

19. The common member 10 is fixed to a harnessing fixture 22 which is fixed to an immovable object or substrate 23 or the body of a vessel 20 in a similar manner as described in the embodiments above. In another embodiment, the mechanism may be attached via one or more harnessing fixtures 22 to a body 20, to provide thrust to the body 20. The body may be a sub-sea vessel, surface craft, or the body part of a person swimming or diving in water, or the body 20 may be attached to equipment worn by a person swimming or diving, FIG. 6, instead of being fixed to a body 20 via a harnessing fixture 22, may be fixed to an immovable object or substrate 23 via a harnessing fixture 22. The traveling-wave 19 along the crenated strip fin 3 induced by transmission assemblies 13, 13 a, 13 b may cause fluid such as air or water to primarily move 18 in the direction of the traveling wave 19, FIG.

Dolor Sordo Significado

In one generator implementation, the common member 10, 25 may be fixed to a harnessing fixture 22 which is fixed to an immovable object or substrate 23, FIG. 24. Tens dolor lumbar . At least one lobed transmission assembly 50 mounted to a common member 10 may be actuated via an actuator 43 such as an electric motor and a central controller 12, and powered by a battery 11 or other power source to create a mechanism that may be free-swimming, and which may have a gear box 51 between the actuator and cam shaft 47, FIG. 10 may in one embodiment be comprised of a first coupling 5, rotation-enabling component 6, lobed vertebra plate 24 and shaft 8 powered by an actuator 9 and allow three degrees of freedom of motion.

The actuator 9 induces rotation 14 of the vertebra plate 7 about the axis of the shaft 8. Since in one embodiment the vertebra plate 7 is flexible in the direction 15 parallel to the axis of the shaft 8, the end of the vertebra plate 7 where it is fixed to the rotation-enabling component 6 is able to shift 15 in a direction parallel to the axis of the shaft 8. The rotation-enabling component 6 allows the first coupling 5 to at least partially rotate 16 about an axis 17 perpendicular to the shaft 8, FIG. Where the actuators are of a type that are capable of harnessing energy, such as electromagnetic motors or dielectric elastomers, the mechanisms may also harness energy when fixed in an environment with moving fluid. 27. Moving fluid 52 may exert loads on the fins 3 which may induce the strained deformations in the fins 3 to travel 54 in the direction of the moving fluid 52 to induce rotation of the shaft 47 via transmission assemblies 13, 44, 50. The shaft 47 may be rotationally coupled to a gear box 51 coupled to an electromagnetic generator 53 or other transducer capable of turning rotational action into electrical energy.

In another embodiment, two or more composite fins 60 are each coupled to two or more transmission assemblies 13, 44 that are coupled to a common member 10, 25 to yield a vehicle that can skate over ice. 34 using a shaft 47 with conjugate cams for each composite fin 60 whereby a central controller 12 and battery 11 or other power source power a motor for each composite fin 60, allowing independent control of the speed and direction of undulation-travel for each composite fin 60. Independent control of each composite fin 60 allows for direction change and maneuverability of the vehicle over the ice. In one propulsion embodiment, two or more composite fins 60 are each coupled to two or more transmission assemblies 13, 13 a, 13 b powered by motors that are coupled to a common member 10, to create a vehicle capable of “skating” over ice, FIG.

Dolor Espalda Alta Causas

7 may also be configured, in some embodiments, to move itself on land or other substrate 23, e.g., by adjusting the position of the fins 3 to make contact with the land or other substrate 23, and by configuring the transmission assemblies 13, 13 a, 13 b, via the central controller 12, yielding a crawling or “slithering” action, to move the vessel or vehicle in a desired direction, FIG. 16 and FIG. 19, two or more transmission assemblies 13 powered by actuators 9, fixed to a common member 10, powered by a battery 11 or other power source, and controlled by a central controller 12, may be shared by two or more crenated strip fins 3, FIG.

Dolor Sordo Costado Derecho

1. The strained-deformations take on a sinusoid-like form that express the internal energy state of the flexible sheet-like material 2 after it has been configured into a crenated strip fin 3. After being incorporated into a mechanism with couplings 5, 6, 7, 10, FIG. The strained-deformations take on a sinusoid-like form that express the internal energy state of the flexible sheet-like material after it has been configured into a crenated strip fin. Actuators may be used to sequentially rotate vertebrae attached to the fins causing the travel of sinusoid-like deformations along the fins. In a fluid medium, the traveling waves of sinusoidal deformations may exert force on the fluid causing the fluid to move and/or creating thrust. 3, or other component that allows the transmission of force from the first coupling 5 and vertebra plate 7 while allowing partial rotation between the first coupling 5 and the vertebra plate 7, such as a flexible planar plate 6 b, FIG.

Flow Motion Fitness Electricity from the electromagnetic generator 53 or other transducer may be sent to a battery 11 or an electrical grid. 2. The actuators may be fixed to a common member 10 and are powered by a battery 11 or other power source. This application for letters patent disclosure document describes inventive aspects that include various novel innovations (hereinafter “disclosure”) and contains material that is subject to copyright, mask work, and/or other intellectual property protection. In alternative implementations, a single motor and/or coupled control for both composite fins may be provided.

In another embodiment, the transmission assembly 13, 44 may be coupled to two or more crenated strip fins 3 via a lobed vertebra plate 49 with more than one crenated strip fin 3 attachment to the same lobed vertebra plate 49, to create a lobed transmission assembly 50 with more than one fin attached, FIG. Dolor muscular en el ojo . The transmission assemblies 13, 44 are coupled to the crenated strip fin 3 in a similar manner as described in embodiments above. In another implementation, the mechanism described above and illustrated in FIG. 23, are mounted to the common member 10 with transmission assembly mounts 46. Rotation 46 a of the cam shaft 47 causes the vertebra plates 7, 48 of two or more transmission assemblies 13, 44 to rotate clockwise and counterclockwise 14 in a similar manner as described in embodiments above.

Dolor Muscular Post Covid

The transmission assemblies 13, 44 of each fin may be actuated by a motor 43 that operates a crank shaft, Scotch Yoke, cam shaft and/or the like. The transmission assembly 13, 28, FIG. In one implementation the transmission assembly 33, FIG. Another implementation utilizes two pairs of crenated strip fins 3, FIG. FIG. 34 shows an implementation of a shaft with conjugate cams for each composite fin in one embodiment. In one embodiment, FIG.

  • Salir a caminar
  • Por la glándula pituitaria, con la que está conectado química y biológicamente
  • The power of the wave
  • Sobrevivir a un accidente o enfermedades potencialmente mortales
  • La pareja enfocada en su relación

13, the mechanism under operation may move ambient fluid in a desired direction or desired directions for the purposes of fluid transport or for the purposes of fluid, particle and aggregate mixing, in a similar manner as shown in FIG. In one embodiment, the vertebra plate 7 may be rigid and motion of the transmission assembly 13, 13 b in a direction 15 parallel to the direction of the axis of the shaft 8 may be facilitated by a bearing track, sleeve bearings 17 a and/or the like, FIG. In one embodiment the point of attachment of the crenated strip fin 3 to the transmission assembly 13, 13 a, 13 b has three degrees of freedom of movement. Clinica dolor de espalda . In another embodiment, an arched blade 55 is added to one edge of the arc-like flexible sheet-like material 2, FIG. Once the arched blade 55 has been installed in the flexible sheet-like material 2, force or forces 1 are applied to the flexible sheet-like material 2 to which the arched blade 55 has been fixed to create a deformed crenated strip composite fin 60 with strained-deformations.