Bursitis de rodilla sin dolor

Dolor de hombro - Sindrome subacromial - Quiromassatge Carles In detail, the unidirectional rotation members 32 may be configured to prevent a clockwise rotation and allow a counterclockwise rotation. In the present embodiment, the plurality of first tensile force transmitting members 40 may be connected to the buoyant body 1, and the plurality of first power transmitting members 11 and the plurality of first drums 12 separately connected to the first tensile force transmitting members 40, respectively, may be provided on the input shaft 10. The plurality of second power transmitting members 21 connected to the plurality of first power transmitting members 11 may be provided on the energy transmitting shaft 20, the second drums 22 may be fixed to the second power transmitting members 21, respectively, and the plurality of second drums 22 may be configured to be connected to the plurality of energy storage members 51 through the plurality of second tensile force transmitting members 50. Conversely, a single first tensile force transmitting member 40, a single first power transmitting member 11, a single first drum 12, a single second power transmitting member 21, and a single second drum 22 may be configured.

Thus, when the second power transmitting member 21 rotates by receiving a power from the first power transmitting member 11, the second power transmitting member 21 may rotate relatively freely with respect to the energy transmitting shaft 20. Conversely, when the second power transmitting member 21 rotates counterclockwise by receiving energy from the energy storage unit, the unidirectional rotation member 24 may restrict the energy transmitting shaft 20 and the second power transmitting member 21, whereby the energy transmitting shaft 20 and the second power transmitting member 21 may rotate together.

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INDUSTRIAL APPLICABILITY The present application may be applicable to an apparatus that may generate a rotation power from a linear power source that generates a linear power, for example, a wave power generation apparatus. BACKGROUND ART A wave power generation apparatus refers to facilities that rotate a generator using a flux of waves, and produce electric energy through a rotary motion of the generator. In the present embodiment, the first input member 13, the second input member 23, and the output member 31 may be configured using gears. To transmit a linear power to the input shaft 10 irrespective of a motion direction of the buoyant body 1, a plurality of first tensile force transmitting members 40 may be connected to the buoyant body 1 at predetermined intervals through direction changing members 2 such as, fixed pulleys, for example. A torque of the input shaft 10 may be transmitted to the output shaft 30 through the first input member 13 and the output member 31 connected to the first input member 13, whereby the output shaft 30 may rotate in one direction, for example, clockwise in the present embodiment.

Dolor Muscular Bayer

A portion of a torque of the first power transmitting member 11 may be used to rotate the input shaft 10, and a remaining portion of the torque may be used to relatively rotate the second power transmitting member 21 connected to the first power transmitting member 11, and the second drum 22 with respect to the energy transmitting shaft 20 so that the second tensile force transmitting member 50 may be wound over the second drum 22, whereby the spring 51 of the energy storage unit may stretch to store an elastic energy. The spring 51 may accumulate an elastic force while stretching in response to the second tensile force transmitting member 50 being wound over the second drum 22, and transmit the energy by pulling the second tensile force transmitting member 50 and rotating the second drum 22 while shrinking. In this example, when rotation power is received from the input shafts 10 and the energy transmitting shafts 20 in different periods, the output shaft 30 may have a uniform rotation velocity.

Fisioterapia A Domicilio

When an excessive load is applied to the first tensile force transmitting member 40 connected to the buoyant body 1, the first drum 12, the first power transmitting member 11, the input shaft 10, and the like by a sudden motion of the buoyant body 1, the foregoing constituent elements or the entire system of a power transmitting apparatus may be damaged. As described above, when a tensile force is applied to one of the plurality of first tensile force transmitting members 40 by a motion of the buoyant body 1, and the first drum 12 and the first power transmitting member 11 rotate, a portion of a power transmitted by the first tensile force transmitting member 40 may be converted to a torque of the input shaft 10, and a remaining portion of the power may be transmitted to the energy storage unit through the second power transmitting member 21 and the second tensile force transmitting member 50 and accumulated as an elastic energy.

Instituto Arráez. Neurocirugía avanzada- - YouTube Technical Solutions According to an aspect of the present invention, there is provided a power converting apparatus including a first tensile force transmitting member configured to transmit a tensile force generated in response to a linear motion of a linear power source; an input shaft including a first power transmitting member configured to be connected to the first tensile force transmitting member and rotate; an energy transmitting shaft including a second power transmitting member configured to be connected to the first power transmitting member and perform a rotary motion; an energy storage unit configured to be connected to the second power transmitting member, store an elastic energy or a potential energy in response to a unidirectional rotation of the second power transmitting member, and rotate the energy transmitting shaft using the stored elastic energy or the potential energy when a linear kinetic force generated by the buoyant body dissipates or decreases; an output shaft configured to rotate by receiving a torque alternately from the input shaft and the energy transmitting shaft; a first input device configured to transmit a torque of the input shaft to the output shaft; and a second input device configured to transmit a torque of the energy transmitting shaft to the output shaft.

Referring to FIGS. 1 and 2, a power converting apparatus according to an embodiment of the present invention includes a first tensile force transmitting member 40 configured to be connected to a buoyant body 1 that floats and performs a motion in the ocean and transmits a tensile force; an input shaft 10 configured to be connected to the first tensile force transmitting member 40 and perform a rotary motion by a tensile force transmitted by the first tensile force transmitting member 40; a first power transmitting member 11 configured to be coupled to the input shaft 10 through a unidirectional rotation member 14 that allows only a unidirectional rotation and rotate along with the input shaft 10 or rotate while idling with respect to the input shaft 10; an energy transmitting shaft 20 configured to be provided alongside the input shaft 10 and rotate; a second power transmitting member 21 configured to be coupled to the energy transmitting shaft 20 through a medium of a unidirectional rotation member 24 that allows only a unidirectional rotation, rotate along with the energy transmitting shaft 20 or rotate while idling with respect to the energy transmitting shaft 20, and be connected to the first power transmitting member 11 to receive a power from the first power transmitting member 11; a first input member 13 configured to be coupled to the input shaft 10 and rotate along with the input shaft 10; a second input member 23 configured to be coupled to the energy transmitting shaft 20 and rotate along with the energy transmitting shaft 20; an output shaft 30 configured to be provided alongside the input shaft 10 and the energy transmitting shaft 20 therebetween and rotate; a plurality of output members 31 configured to be coupled to the output shaft 30 through a unidirectional rotation member 32 that allows only a unidirectional rotation, be connected to the first input member 13 and the second input member 23, respectively, and receive a torque from the first input member 13 or the second input member 23; and an energy storage unit of which one end is connected to the energy transmitting shaft 20, the energy storage unit configured to store an elastic energy or a potential energy in response to a unidirectional rotation of the second power transmitting member 21, and rotate the energy transmitting shaft 20 using the stored elastic energy or the potential energy when a linear kinetic force generated by the buoyant body 1 dissipates or decreases.

Dolor De Estomago

The output shaft 30 may be provided alongside the input shaft 10 and the energy transmitting shaft 20 therebetween, and rotate by receiving a power alternately from the input shaft 10 and the energy transmitting shaft 20. The output shaft 30 may be connected directly or indirectly to a generator (not shown) configured to generate electricity. Advantageous Effects According to an embodiment of the present invention, a generation efficiency may considerably increase by receiving a power from a power source, producing electricity by rotating an output shaft connected to a generator using a portion of the received power, accumulating a remaining portion of the received power in an energy storage device, and rotating the output shaft using the accumulated energy when a power is not transmitted from a buoyant body, the power source that performs irregular motions within a predetermined range like the buoyant body floating in the ocean, and generates an intermittent linear power.