TW200408768A - Power generating device - Google Patents

Abstract

Disclosed is a power generating device using gravitational force and inertia, including a movable rod mounted on an active gear disc that is pivoted to a support frame for free rotation and serving as a fly wheel. The movable rod has a pair of counterweights capable of alternatively changing suspension angles with respect to the ground and axial distance. The active gear disc generates a greater moment of force by means of the rotating the counterweights for 180 DEG through a motor, or the instantaneous variation and conversion of suspension angles and axial distance, so as to drive the active gear disc to generate power, thereby achieving the effect of fully utilizing the effective source to generate on-site power.

Description

200408768 V. Description of the invention (1) The present invention relates to a device for generating power by utilizing gravity and inertial power generating devices, especially those who can make effective use of effective energy to generate power devices on the spot. According to recent years, because the earth's energy is about to face the crisis of energy depletion, countries around the world are now actively developing methods to generate electricity energy using "wind power", "solar power", "hydraulic power," or "heat". In order to slow down the rate of traditional energy consumption. However, regardless of whether the above-mentioned methods use "wind power", "solar power", "hydraulic power", or "geothermal power" to generate energy, they are all limited to four regions. For example, the wind is not strong all year round in some areas. That is, it is not possible to use "wind power" to generate energy; similarly, in some areas where the climate is rainy all year round, "solar energy" is naturally not available; and "hydropower" and "4 are also hot" must exist in some uniquely unique regions. . Therefore, it cannot be effectively applied to various regions of the world. The present inventor, in view of the shortcomings of using existing natural power to generate energy and being limited to local implementation, has continued to make improvements and finally invented a mechanical power generating device. Therefore, the main purpose of the present invention is to provide a mechanical power generating device, the movable rod of which has a set of weight blocks that can change the hanging angle and the wheelbase from the ground, and use the set of weights for different hanging angles And the change and conversion of the wheelbase, in conjunction with the effect of gravity, generates a rotational torque on the driving gear, and drives the driving gear to rotate to generate power, so as to reach the place where the effective energy is used to implement power generation on the spot. In order to achieve the above object, the present invention provides a mechanical power generating device, which is mainly provided on a main body which can be pivoted on a bracket and can rotate freely and has a flywheel function. Page 2 200408768 V. Description of the invention (2) Moving gear A movable rod is provided. The movable rod has a set of weight blocks which can alternately change the hanging angle and the wheelbase from the ground. The moment of changing the hanging angle and the wheelbase of the set of weight blocks can be changed and converted. In accordance with the gravity of the suspension angle of one of the set of weights, a large rotational force distance is generated for the driving gear, and the driving gear is driven to generate power to achieve effective use of effective energy on-site Purpose of motivation. Preferably, the mechanical power generating device further includes a disc-shaped active toothed disc that can be pivoted on the bracket and can rotate freely and has the function of a flywheel, and at least one generator is coupled under the active toothed disc to drive; A first movable pivot axis and a second movable pivot axis are fixed at a set distance from the vertical centerline of the active toothed disc on the disk surface, respectively. The first and second movable pivot systems can be controlled by electric control It protrudes or retracts into the disk surface of the driving gear; one is at the position of the disk surface of the driving gear disk with respect to the first and second movable pivots, and there is a movable rod with weight blocks fixed at both ends, The movable rod system is provided with a first shaft hole and a second shaft hole for pivoting the movable pivot at positions relative to the first and second movable pivots; the counterweight can be rotated 180 degrees; A positioning sensor located on one side of the movable lever facing the pivot is provided; the positioning sensor can be positioned against the movable lever; and a stopper movable lever is provided at a position of the edge of the active gear disc relative to its horizontal centerline. The stopper. Preferably, the other side of the disk surface of the active gear is relatively located on one side of the movable rod, and a slide rail which is parallel to the positioning of the movable rod is further fixed. The sliding page 3, 200408768 V. Description of the invention (3) The rail is provided with a weight with a set weight, and the two extreme ends of the slide rail are provided with a first positioning device and a second positioning device that can position the weight to slide on the slide rail. Preferably, two free ends of the movable rod are respectively fixed with a weight block. Preferably, the two free ends of the movable lever further include a first extension arm and a second extension arm extending horizontally from the pivot side of the active toothed disc. Preferably, at the bottom of the bracket of the active toothed disc, opposite to the two sides below the active gear, each of the pivots is provided with a first power generation gear set and a first generator and a first generator which can form a chew transmission with the active toothed disc, respectively. The second power generation gear set and its second generator, when the first power generation gear set rotates counterclockwise on the active gear plate, the first power generator can generate electricity to make the second power generation gear set idle; When the row rotates clockwise, the first power generation gear set will idle, and the second power generation gear set will enable the second generator to generate electricity. In order to obtain a more specific understanding of the above-mentioned objects, effects, and features of the present invention, and to implement the present invention, the preferred embodiments are described with drawings and numbers as follows: First, please refer to the first and second figures. The invention is mainly provided with a trapezoidal bracket (50). The bracket (50) can stand upright on the ground, and the center of the trapezoidal top edge of the bracket is pivotally provided with a disc-shaped active gear (1). 〇); a first movable pivot (11) and a second movable pivot are fixed on the disk surface of the active toothed disk (10) at a preset distance from the vertical centerline of the active toothed disk (10), respectively; Axis (12), the first and second movable pivots (11), (12) are controlled by external force (electromagnetic brake) so that these movable pivots can protrude or page 4, 200408768 熹, f Ming squat (4) retracted to the front of the disc surface of the sprocket (1 ο) at the position; the position of the disc surface of the active sprocket (10) relative to the first and second movable pivots (11), (12), A movable lever (20) is provided, and the movable lever (20) corresponds to the positions of the first and second movable pivots (11) and (12). The first shaft hole (21) and the second shaft hole (22), so that the first and second shaft holes (21), (22) can protrude for the first and second movable pivots (11), (12). The sprocket (10) can be inserted and pivoted on the surface of the sprocket (10), whereby the movable rod (20) can be fixed to the active sprocket (10) by mistake (as shown in the second and third figures). It should be explained here that the movable rod (20) in this embodiment is a U-shaped arm as shown in the figure, but the movable rod (20) can also be a straight rod in actual use. ; And the active gear (10) is located on one side of the movable rod (20) facing the pivot (51), and a positioning sensor (13) is fixedly positioned against the movable rod (20); The two free ends of the movable rod (20) are respectively provided with the free ends of the first extending arms (23) and (24) that extend horizontally, and the first weight block (25) and the second with a set weight are fixed respectively. Counterweights (26); the other (52) and (52A) are set as motors, and (53) and (53A) are set as gears, which can rotate the counterweights (25) and (26) 180 degrees, A first stopper (14) and a second stopper (14A) are fixed at the position of the edge of the active toothed disc (10) relative to its horizontal centerline, wherein the first stopper The block (14) is when the first movable pivot (11) of the movable rod (20) is separated from the first shaft hole (21), and the movable rod (20) is deflected in a counterclockwise direction to form an upward and active gear ( 10) When the edge is inclined, Stop and position (as shown in the fourth picture); and the 5th page 200408768 5. Description of the invention (5) Two stop block (14A) shell I] When the second movable pivot of the movable lever (20) (12) The second shaft hole (22) is separated from the second shaft hole (22), and the movable rod (20) is stopped in a clockwise direction to be stopped and positioned. Referring again to the first and second figures, the bottom of the bracket (50) of the active gear (10) is provided with a pivot, and each of the two sides of the lower side of the active gear (10) is provided with a group of 20) a first power generation gear set (30) and a first generator (31) and a second power generation gear set (40) and a second generator (41) forming a coupled transmission; wherein the first power generation gear set ( 30) Including a first gear (301) that is chewed with the driving gear (10), a second gear (302) that is compatible with the brother national gear (301), and a second gear (302) The third gear (303), a pulley (304) and a driving belt (305) which are the same as the third gear (303), and the second power generation gear set (40) includes a driving gear and a driving gear. The first gear (401) chewed with the plate (10), a second gear (402) chewed with the first gear (401), and a third gear (chewed with the second gear (402)) 403), a belt pulley (404) and a driving belt (405), which are the same as the third gear (403), because the second gear (302) and (402) are ratchets, they are in the active gear (1 〇 ) To When rotated counterclockwise, the first generator (31) can be driven to generate electricity through the first power generation gear set (30); and when the active gear (10) rotates clockwise, the first power generation gear set (30) will Idling is formed; and the second power generation gear set (40) can drive the second generator (41) to generate electricity when the active gear (10) rotates clockwise, and conversely, when the active gear (10) is reversed When rotating in the clockwise direction, the 'Ghaidi— ^ power generation national wheel set (40) will also form idling. Page 6 200408768 V. Description of the invention (6) By using iit, when the present invention is actuated (as shown in Figures 3 to 6), it can be controlled by external force (electrical electromagnetic force) and inserted into the movable rod (20 ) And the first movable pivot (11) of the first shaft hole (21) are retracted toward the active toothed disc (10), so that the positioning state of the upper half of the movable rod (20) is released (as shown in the third figure) (Shown), at this time, the movable lever (20) will lose the static balance and the second movable pivot (12) of the upper half is the axis, so that the movable lever (20) is turned toward the stopper (14), even if The side of the first extension arm (23) of the movable rod (20) together with the first weight (25) can be deflected in the direction of the stopper (14) with the second movable pivot (12) as the axis. . Thus, a counterclockwise pivot is formed (as shown by arrow R1 in the fourth figure); when the movable lever (20) swings against the stopper (14), the movable lever (20) and the movable toothed disc ( 10) The vertical center line is inclined at a predetermined angle (as shown in the fifth figure), and the first and second weight blocks (25), (26) that were originally located above and below the same plumb, respectively. , The (25) counterweight can be turned from right to 180 degrees to the left, and the movable rod (20) forms a rotating state as shown in the fifth figure, so that the first counterweight (25) protrudes from the active gear ( 10) the outer edge, and the second weight (26) is placed inside the active gear (10). At this time, the movable lever (20) is centered on the second movable pivot (12). The rotation moment of the first weight block (25) is significantly larger than the rotation moment of the second weight block (26); therefore, the weight of the first weight block (25) will be applied to the stop block (14) at this time. And drive the active gear (10) with flywheel to generate a large counterclockwise rotation torque; therefore, the weight of the first weight (25) will be applied to the stop (14) at this time. And drive the active toothed disc (10) with a flywheel function to produce a large counterclockwise 200408768. V. Description of the invention (7) Rotational torque in the direction (as shown by the arrow R2 in the sixth figure), and the driving gear (10) ) Drives the first power generation gear set (30) to run the first generator (31) to generate power, and at this time, the second power generation gear (40) is idling and the second generator (31) does not generate power. Please refer to Figures 7 to 11 for reference. When the first weight block (25) of the movable lever (20) continues to drive the active gear (10) to rotate counterclockwise as described above, due to this, The driving gear with the flywheel function has formed a continuous rotational inertia, so the inertia moment formed by the first weight block (25) applied to the driving gear (10) will make the driving gear (1 〇). ) Together with the first and second counterweights (25), (26), rotate to a height above the other side of the vertical centerline of the lead of the active toothed disc (10) to form the second counterweight (26) above, and The first weight block (25) is located below and slightly raised, as shown in the seventh to ninth figures. At this time, the first and second weight blocks (25), (26) are applied to the active teeth. The counterclockwise rotation torque of the disc (10) has caused the rotation angle of the active toothed disc (10) to almost 180 degrees, which is gradually cancelled by the effect of gravity, so when the rotation angle of the movable lever (20) exceeds 180 degrees, such as As shown in Table 10, it will be released from the stop (14) to form a clockwise rotation (as shown by arrow R3 in Figure 10) , Then stop after the positioning sensor (13), and at the same time realign the first shaft hole (21) on the movable rod (20) with the first movable pivot axis (1) of the active toothed disc (10)) At this instant, the first controllable positioning sensor (13) can be used to automatically trigger the first movable pivot (11) to be inserted into the first shaft hole (21), thereby positioning the movable stalk (20). On the other side of the relatively active toothed disc (10) (as shown in the eleventh _), at the same time, the second movable pivot stomach 8 page 200408768 V. Description of the invention (8) (12), also using electric control in an instant The positioning sensor (13) is automatically linked to retract the second movable pivot (12), and is separated from the second pivot hole (22), that is, the second movable pivot (12) and the second pivot hole (22) The pivotal relationship is released, so that the upper half of the positioning state of the movable rod (20) is released (similar to the reverse rotation shown in the third figure), thus completing one cycle of power generation action and also the next power generation action At the beginning of the cycle, at this time, the movable lever (20) will be moved toward the stopper (14A) side, so that the side of the first extension arm (23) of the movable lever (20) together with A weight block (25) is oscillated toward the stopper (14A) with the second movable pivot (12) as the axis, so as to form a clockwise rotation, and at the same time, the movable rod (20) can be held against The stop block (14A) drives the driving gear (10) to rotate clockwise, and then drives the second power generation gear set (40) to drive the second power generator (41) to generate electricity. This repeated action can effectively generate electricity. efficacy. The second embodiment of the present invention is shown in FIG. 12 to FIG. 14. The main creative spirit is substantially the same as that of the above-mentioned first embodiment, but on the back of the disk surface of the active toothed disk (100). Relative to one side of the movable rod (20), a slide rail (15) parallel to the positioning of the movable rod (20) is provided. As shown in the twelfth figure, the slide rail (15) slides on A weight (16) with a set weight and a limit of both ends of the slide rail (15) are provided with a first positioning device (the first positioning device capable of positioning the weight (16) on the slide rail (15)) 150) and the second positioning device (151) (where the positioning device can be implemented as an electric latch or a tenon), and when the active gear (10) is rotated clockwise, the weight is started. (16) Positioned at the first position (upper) of the slide rail (15) by the first positioning device (150), page 9, 200408768. V. Description of the invention (9), and when the active gear (1) ) When the counterclockwise rotation is started, the weight (16) is locked by the second positioning device (151) and the positioning is slipped. (15) the second position (downward), thus constituting a second preferred embodiment of the present invention. Therefore, when the second embodiment of the present invention is actuated (as shown in FIG. 12), the first movable pivot (11) can be released at the same time when it is electromagnetically actuated without any external force intervention. The pivoting relationship with the first shaft hole (21) also simultaneously triggers the first positioning device (150) on the slide rail (15) to release the weight (16), so that the weight (16) is subject to gravity And slides on the other end of the slide rail (15), and is positioned on the other end of the slide rail (15) by the clamping of the second positioning device (151), and the impact of the weight (16) falling down The force generates a counter-clockwise turning moment on the driving gear (10) (as shown by arrow R4 in FIG. 14), and then the first weight block of the movable lever (20) can be driven as described in the above embodiment. (25) Drive the active toothed disc (10) to form a counterclockwise rotation torque, and the subsequent actions are the same as the previous embodiment, so I will not repeat them here; and the active lever (20) drives the active When the toothed disc (10) is rotated to the other side, the weight (16) on the slide rail (15) is driven to the opposite position again. At the top of the slide rail (15), at this time, the falling gravity released by the weight (16) is used again to drive the movable rod (20) to drive the active gear (10) to rotate clockwise to drive the second power generation gear Group (40 ·) to generate electricity from the second generator (41), so that the second embodiment of the present invention can be driven by means of the slide rail (15) and the weight (16) without external force Effect. Page 10, 200408768 V. Description of the invention (10) In summary, the "mechanical power generating device" of the present invention uses a set of first and second counterweights that can change the angle and wheelbase suspended from the ground. The formation of rotational torque on the driving gear, which can cause the driving gear to deflect with a simple harmonic motion to drive the generator to generate electric energy in the unpowered state, has indeed an enhancement of the effects of effectively generating electricity and facilitating the implementation in various regions and places. This is a rather outstanding invention, and the company has filed an application for an invention patent in accordance with the law; however, the content of the above description is only a description of the preferred embodiment of the present invention. Any changes, modifications, or equivalent replacements extended according to the technical means of the present invention are also It should fall within the scope of the patent application of the present invention, and it is reasonable to make this statement. [Illustration of drawing number] (10) Active gear (11) First movable pivot (12) Second movable pivot (13) Positioning sensor (14) First stop (14A) Second stop (15) Slide rail (150) First positioning device (151) Second positioning device (16) Weight (20) Moving rod (21) First shaft hole (22) Second shaft hole Page 11 V. Description of the invention (11) (23) First extension arm (24) Second extension arm (25) First weight block (26) Second weight block (30) First power generation gear set (301, 401) First gear ( 302, 402) second gear (303, 403) third gear (404) pulley (405) first drive belt (31) first generator (40) second power generation gear set (41) second generator (50 ) Bracket (51) Pivot (52) Swing the first motor (52A) Swing the second motor (53) Gear (53A) Gear Page 12 200408768 V. Description of the invention (12) [Simplified illustration of the picture] The first picture series A schematic perspective view of a preferred embodiment of the present invention. The second figure is a schematic plan view of a preferred embodiment of the present invention. The third figure is a schematic view of a stationary gear of a driving gear according to a preferred embodiment of the present invention. The fourth diagram is a schematic diagram of the first operating state of the preferred embodiment of the present invention. The fifth diagram is a schematic diagram of the second operating state of the preferred embodiment of the present invention. The sixth diagram is a schematic diagram of the third operating state of the preferred embodiment of the present invention. The seventh diagram is a schematic diagram of the fourth operating state of the preferred embodiment of the present invention. The eighth diagram is a fifth operation state diagram of the preferred embodiment of the present invention. The ninth figure is a schematic diagram of the sixth operating state of the preferred embodiment of the present invention. The tenth figure is a schematic diagram of the seventh operating state of the preferred embodiment of the present invention. The eleventh figure is a schematic diagram of the eighth operating state of the preferred embodiment of the present invention. The twelfth figure is a schematic plan view of another preferred embodiment of the present invention. The thirteenth figure is a schematic diagram of the first operating state of another preferred embodiment of the present invention. The fourteenth figure is a schematic diagram of the second operating state of another embodiment of the present invention. The fifteenth figure is a schematic diagram of the third operating state of another embodiment of the present invention. The sixteenth diagram is a schematic diagram of the fourth operating state of another preferred embodiment of the present invention. Page 13

Claims (1)

200408768 VI. Scope of patent application (1) 1. A device that uses gravity to cooperate with an inertial power generation device is mainly attached to an active toothed disc that can be pivoted on a bracket and can rotate freely and has the function of a flywheel. The lever has a counterweight that can rotate the counterweight 180 degrees, a set of counterweights that can alternately change the hanging angle and wheelbase with the ground. Using the set of counterweights and the wheelbase, the moment can be changed and converted. Together with the gravity effect of the suspension angle of one of the group of weights, a large rotational torque is generated to the driving gear, and the driving gear is driven to rotate to generate power, so as to achieve effective use of effective energy and generate energy on the spot. Purpose of motivation. 2. The mechanical power generating device according to item 1 of the scope of patent application, further comprising a disc-shaped active toothed disc that can be pivoted on the bracket and can rotate freely and has a flywheel effect, and the active toothed disc is chewed underneath Drive at least one generator; a first movable pivot and a second movable pivot are fixed at a set distance from the vertical centerline of the active toothed disc on the disk surface of the active toothed disc, respectively, the first and second movable pivots It can be protruded or retracted into the disk surface of the driving gear by electric control means. One position of the disk surface of the driving gear disk relative to the first and second movable pivots is provided with one fixed at both ends. The movable lever of the weight block is provided with a first shaft hole and a second shaft hole which can be pivoted on the position of the movable lever relative to the first and second movable pivots; A positioning sensor is provided on one side of the movable shaft toward the pivot, and a positioning sensor can be positioned against the movable rod; and a stop with a movable rod is provided at the position of the edge of the active gear disc relative to its horizontal centerline. Stopper. 200408768 VI. Scope of patent application (2) 3. As described in item 1 of the scope of patent application, the other side of the disk surface of the active toothed disc is relatively located on one side of the movable rod. The positioning of the movable rod is a parallel slide rail, and a weight with a set weight is slid on the slide rail, and the two extreme ends of the slide rail are provided with a first position for positioning the weight on the slide rail. Device and second positioning device. 4. The mechanical power generating device according to item 1 of the scope of patent application, wherein a weight block is fixed at each free end of the movable rod. 5. The mechanical power generating device according to item 1 of the scope of patent application, wherein the two free ends of the movable rod further include a first extension arm and a second extension arm extending horizontally from the pivot side of the active toothed disc. 6. The mechanical power generating device according to item 1 of the scope of patent application, wherein the movable rod is a straight rod. 7. The mechanical power generating device according to item 1 of the scope of patent application, wherein the movable lever is a U-shaped arm. 8. The mechanical power generating device according to item 1 of the scope of the patent application, wherein the pivot is provided with the bottom of the bracket of the active gear, relative to the two I below the active gear, and each of the pivots is provided with a set which can be separately connected with the active gear The first power generating gear set and its first generator, and the second power generating gear set and its second generator forming an order transmission. When the first power generating gear set rotates counterclockwise on the driving gear, the first generator can be made Generate electricity, and make the second power generation gear set idle, and the second power generation gear set can make the second generator generate electricity. Page 15