The diameter of drum 118-3 is at least 50 times the diameter of flexible connector 118-4. This ensures that flexible connector 118-4 is not excessively bent around drum 118-3 in a way that would damage, fatigue, or otherwise impart damage to the components comprising flexible connector 118-4. This is especially important for cases where drum 118-3 is oscillating and flexible connector 118-4 does not slip relative to the surface of drum 118-3, thereby causing flexible connector 118-4 to pass back and forth repeatedly over drum 118-3. In many embodiments, the flexible connector passes multiple times around the drum (not shown). FIG. 59 shows a perspective view of a pulley 200 that illustrates the pulling of the pulley’s associated cable 208 from a range 207 of directions confined to the pulley’s plane of rotation 203 turn 202 the pulley, and potentially impart rotational kinetic energy and/or torque to it, while minimizing damage to either the pulley or the cable.
- Relevancia y Evidencia de la Exploración Neurodinámica
- Incomodidad en la garganta
- Paso número 1: limpiar y secar el rostro perfectamente
- Normaliza el tamaño de la próstata
When such an inertial mass is moving upward, it can likewise have an “effective mass” that includes the mass of the water confined inside it, owing to the fact that the bottom portion of the inertial mass directly encloses said water. FIG. 177 is an enlarged top down view of the inertial mass of the embodiment of FIGS.
Dolor Muscular Cadera
1-151. By not situating the depending connector’s point of connection to the inertial mass solely at an outer periphery of the inertial mass, resonant oscillating rotations (rocking) of the inertial mass can be reduced or eliminated. By using a suspended inertial mass, embodiments of the converter are deployed economically in deep offshore waters (e.g. A rudder 143 allows the device’s control system (e.g. In the control system depicted in subfigure B, the countertorque processor 22-1020 can send a digital data packet or an analog signal, or return a value (e.g. Dolor constante zona lumbar . Such a rotation is not helpful to the behavior of a point-absorbing wave energy device that extracts power from heave-induced vertical motions of its buoy. This embodiment’s hemi-spherical buoy hull 5, and its facility for rotation so as to preserve a common and/or constant alignment with the inertial mass 10, tends to preserve a desirable alignment of the ribbon cables with the rollers about which they rotate, i.e.
The common feature of any component options comprising PTO module 91-8 is that they can provide torque opposite the direction of drums’ 91-3 rotation. A significant tension can develop in at least the portion of the depending connector 1-150 connecting the flotation module to the inertial mass. Restoring weight 220 is shown to be attached to mating flexible connector 219. The other end of flexible connector 213 also is shown to attach to a ribbon junction bar 215 in a similar manner as the side possessing the restoring weight. As it does so, an inertial mass 103, and/or reaction mass, preferably positioned at a depth that places it below the wave base 104, resists the buoy’s upward acceleration, creating a tension or downward pull 108 in a flexible connector 102 and/or cable that connects the inertial mass 103 to a rotatable pulley 106, gear, drum, rotatable capstan, or other rotatable mechanism, mounted on, and/or attached to, the buoy 100. When the pulley 106 rotates in response to the downward force created between the buoy and the inertial mass, then electrical power may be generated by means of a generator (not shown), driven by the pulley.
Another end and/or part of depending connector 1-150 can then descend through aperture 1-115 and be connected at 1-161 to restoring weight 1-160. One end of depending connector 1-150 is connected to inertial mass 1-140 and the other end is connected to restoring weight 1-160. An intermediate portion of depending connector 1-150 is operatively connected to pulley/capstan 1-125, e.g.
Inertial mass 1-140 has a relatively large effective mass and can tend to resist acceleration due to this upward force, especially as it may have previously developed a downward momentum due to phase dynamics and/or the converter’s descent into the most recent wave trough. The use of a cable-and-pulley system as part of a power-take-off scheme enables a direct conversion of the force of waves into rotary motion suitable to rotate a shaft. As the rollers of the tension winch “unwind” under the tension responsible for the cable’s unwinding, the PTO 507 extracts power from rotation of the rollers. At a threshold level of tension (primarily determined by the PTO and/or by its control system) the rollers of the torsion winch “unwind” allowing cable to joining the buoy to the inertial mass to effectively get longer.
Dolor Espalda Y Abdomen
170, this embodiment utilizes an inertial damping vessel composed of a tube 1321 sectioned and/or partitioned by a “dividing” wall 1327 normal to its longitudinal axis. FIG. 181 is an enlarged top down view of the inertial mass of the embodiment of FIG. PTO-specific cables, e.g. 133, chains, ropes, linkages, and/or flexible connectors, connect each respective PTO to the approximate center of a submerged inertial mass 134. The cables pass through a hole 135 and/or aperture in a top surface of the inertial mass 134 and connect to a mounting point located approximately at the inertial mass’s 134 geometric center, which is also its center of mass. 11, that connect the two, the buoy tends to rotate so as to preserve a buoy-specific longitudinal axis that is coaxial with the vertical longitudinal axis of the inertial mass, and/or which passes through the inertial mass’s center of mass. A buoy 900 has a hemi-spherical hull 902 and as a result tends to rotate easily away from its nominally vertical longitudinal axis so as to keep that longitudinal axis passing through the approximate center(s) of gravity of the connected set of inertial masses, e.g.
567, are connected. As each set of three interconnected pulleys resists the paying out of its respective cables, the associated and/or rotatably connected slack-minimization weights are lifted. And, the inertial mass’s open upper mouth 3118 facilitates the fabrication of the vessel, and reduces material costs, while not significantly diminishing the vessel’s inertial properties. 175, this embodiment utilizes an inertial damping vessel 1223 that does not possess, incorporation, nor benefit from the utilization of flaps. This embodiment’s use of weights 302-303, each of which is connected to the flotation module 291 and the inertial mass 299 at opposite ends of said weight, allows the upward movement of inertial mass 299 to be stopped and/or arrested relatively “gently” as the imposition of the opposing force of each weight, 302 and 303, is applied progressively as the weight is raised from an approximately vertical orientation to an approximately horizontal orientation.
The flotation module’s tendency to pitch and/or roll due to forces from waves is significantly reduced, if not eliminated, at least in the relevant vertical plane(s). Dolor fuerte en la mano derecha . In the illustrated embodiment, there are two apertures: 5-115 a and 5-115 b. Another cable 555-556 is wound about the same roller 552. One end 555 of that cable is likewise affixed to the roller 552. And, the other end of that cable is connected to a submerged restoring weight (below the buoy and not visible from the illustrated perspective). Because the pulley’s axis of rotation 1021 is about an axis normal to the page and passing through the planes normal to the page and intersecting the page at lines 1017 and 1019, the point 1015 at which the cable leaves the pulley and travels on to the traction winch remains unchanged. 1013. Those bracket arms are attached to, and/or integral with, a hollow cylindrical tube 1003. And that tube 1003 is rotatably connected to a radial bearing 1004, mounted atop a strut 1014, that allows the tube 1003 to rotate about the tube’s longitudinal axis.
Tipos De Dolor Pdf
A fleet angle can be defined as the angle of incidence of a flexible connector to the pulley sheave with which it is associated, or, more precisely the angle of incidence of a flexible connector to a pulley’s plane of rotation (a plane normal to a pulley’s axis of rotation), relative to the optimal or nominal design angle. Flexible connector 92-4 is shown to pass over sheave 91-9, through aperture 92-8, and merge at confluence point 91-6 (in a similar manner to FIG.
140 and 141, that work together as a “traction winch.” By passing over and around a pair of rollers, e.g. 120. This figure illustrates the relative diameter of flexible connectors 121-4 passing around drum 121-3. The diameter of drum 121-3 should be at least 50 times larger than the diameter of flexible connectors 121-4 to resist fatigue and ensure their longevity. 30. Dolor de estomago y espalda muy fuerte . Many of the embodiment’s components have already been discussed in relation to FIG. FIG. 160 shows a schematic side view of the same embodiment shown in FIG. The ribbon cable passes from the inertial mass through the aperture and onto and around a three-roller torsion winch.
Lifting module 571 is buoyant and floats on the surface of a body of water 570. Inertial mass 581 is submerged and suspended beneath the lifting module and can contain and/or at least partially entrap a large mass of water. At least a portion of the heat generated by the computing devices within the computational chamber 216 is convectively transmitted to the thermally conductive side and bottom walls of the chamber 216, and thereafter and/or therethrough to the heat-conductive fluid surrounding the chamber 216. At least a portion of the heat in the fluid 218 is transferred and/or transmitted to the plate 227, and thereafter and/or therethrough to lower fins, e.g. The motion differential between the two bodies can enable a power-take-off system (e.g., an electrical power-take-off system, mechanical-electrical power-take-off system, or an hydraulic-electrical power-take-off system) to be actuated and power (e.g., electrical power) to be generated. And/or, countertorque can be controlled by providing an electromagnetic and/or mechanical clutch that transmits different amounts of shaft 1-122’s torque to the generator at different times, subject to a control system.