TW201132849A - Zero-carbon energy clean engine and device structure - Google Patents

Abstract

A device performs single swing and oscillation utilizing naturally inertial motion of article gravity and earth's gravity and incorporates mechanical devices and means of liquid object flowing at the settlement and balancing to change the gravity position of the object such that the downward acting force arm L is larger than that of an upward acting force arm L while the downward acting power W at the same direction is greater than the anti-upward counter-reaction power W, wherein its mechanical efficiency must be greater than 1. The device includes: a plurality of parallel-connected driving shafts that taking one rotary shaft as main shaft and fulcrum and externally cascaded with a coaxial dual-flywheel structure that are combined into an integral body capable of performing clockwise/counterclockwise bi-directional flywheel motions; a plumb internally loaded with fluid; and an external linked driving shaft coaxially connected with the plumb to mutually affected such that the above-mentioned three types of shafts are connected in series or parallel to affect at the same axis. Alternative and repetitive swing motions of the plumb drive the driving shafts to produce rotational torque for driving the main shaft to rotate toward a fixed direction and produce dynamic power, thereby producing continuous effective power that is further converted into energy in-situ.

Description

201132849 VI. Description of the invention: [Technical field to which the invention belongs] Human life has increased energy demand; while the limited resources of the earth have been exhausted by greedy humans and cause environmentally unsustainable damage, such as: oil depletion, greenhouses Effects and extreme weathers produce species extinctions and sequelae such as changes in the Arctic and the Arctic. Many countries and research groups or companies are now aware of the seriousness of environmental damage and are eager to seek solutions to improvement, hoping to delay or eliminate damage to the global environment, including: reducing pollution sources, saving energy consumption, innovation or substitution. Energy, etc.; and innovative or alternative energy sources are represented by the use of “biomass fuel”, “geothermal or hydropower development”, “nuclear energy”, “wind energy” and “solar energy”. However, the energy generated by the above-mentioned innovations, alternatives and other means of use have their own conditions and pollution disposal issues; for example, the "biomass fuel" is also a special natural land, "nuclear energy". Light pollution and waste problems, but "wind energy" and "solar energy" also have many restrictions to cooperate to play its » economic benefits, such as climate, environment, correction and other factors; (d) and need to be sunny during the day to benefit With the development of "solar energy", it is necessary to have a large-scale and windy season and location to operate "windmills" to generate electricity. The power plant mechanism is an innovative energy device design, which is to use the gravity of the object and is a means of self-bribery and free to use the basic mechanical device to cover the rod as the main shaft. The rotating rod is used as a fulcrum, and the outer shaft is provided with a plurality of parallel drive shaft devices which are combined with the double shaft structure of the same shaft and can be used as positive and negative two-way flywheels, and the heavy hammer with the liquid body of the 201132849 body is connected. The externally-connected drive shafts of the same weight are connected to each other, so that the two types of shafts are connected in parallel to the same axis; this inertial motion is converted into an energy source that can be effectively utilized; this device will not Under the influence of sunrise, sunset, geographical environment or climate, it should be said that as long as there is gravity, the place where the power is generated can be used. SUMMARY OF THE INVENTION The device of the present invention is a single pendulum oscillation of the natural inertial motion of gravity and gravity of the object, and the basic mechanical design device (such as the third figure) and the liquid body flowing in the static balance can be used as a means. Change the weight of the object, so that the downward swing force arm α> swings the force arm fL upward, and the downward swing action of the same direction... the anti-upward swing reaction force tw, the mechanical efficiency must be greater than 1; The motive force of the rotating torque and reaching the end of the inertia can be the kinetic energy of the paste. The main system consists of a rotating rod as the main turning and rotating rod as the fulcrum, and the outer stringing shaft-axis double-flying wheel structure is combined with the body-shaped body, which can be used as a multi-drive shaft parallel device for the smooth and counterclockwise two-way flywheel operation. The weight of the heavy hammer with the built-in liquid fluid and the external connection of the same weight of the concentric core drive each other to make the three shafts and the side of the same shaft function; and the hammer can be alternately oscillated back and forth. The natural pendulum effect can drive the driving shaft to rotate and generate a rotating torque to drive the spindle rod to rotate in a fixed direction to generate power. It is generally believed that when any object (such as a pendulum) is subjected to a single pendulum vibration plate, if the external pendulum is not applied with a certain pendulum length, the angle of the wealth is at a horizontal position, that is, the pendulum angle is zero. 'The force and position can affect the left and right swings. Page 4 ί Si 201132849 Dynamic oscillation, its oscillation swing will gradually shrink and stop the swing. The outer edge of the object will be #172°' at the highest point of the maximum swing angle and the maximum pendulum (four) degree will depend on the pendulum axis of the weight of the object and its outermost corner. Preferably, the balance of the angle of the hammer caused by the weight swing, the phenomenon of high and low parallax in the body of the clock and the balance of the liquid body naturally flowing downward are used as a means to change the original clock. The position of the center of gravity; the change of the position of the center of gravity of the weight and the distance of the fulcrum produces a phenomenon of long and short force arms, that is, large force and small resistance. • Let the force and reaction force of this kind of application and reaction force cooperate with the mechanical device to make the permanent mechanical efficiency greater than 1; that is, let the heavy hammer move down and move in parallel with the machine to make the weight swing back to Starting swing position ==> The swing angle is zero. To suspend the action: Place multiple pendulums (4)(8)(6)(8)(8)(7) on the same side of the swing position and use the angle induction control, the pneumatic and the seat plate as the action means, and the thin shaft and the main shaft are inclined to the high state. ::> is zero; each heavy hammer has a hollowed-out position such as a three-scale fine-grained shape, and a liquid test body or a spherical solid object with rolling rudder is placed (the present invention does not have Hybrid liquid metal mercury fluid is the best example). At this time, the built-in mercury of each weight will be stably at a low position near the axis of the spindle shaft. The heart of each clock is about the position of the hammer, and the force arm is 赃, and the force is zero. Step 1. When the pendulum (Α) starts the hem, the hammer body changes its angular rotation due to the pendulum movement, causing the angle of the shape of the hollow inverted triangular cone bottle in the clock body to change, so that the built-in mercury naturally flows quickly to the spindle shaft. The lower end of the shaft is at a lower position, and the center of gravity of the clock is moved from Xr to the position of Yr. The force arm is extended to 赃 to increase the rotational moment; therefore, the hammer is at 60 of 0 1 . When you use the arm, you can make the hammer forward in time. Page 5 * t vj 201132849 The needle movement acceleration has a phase _ until the surface is straight (four). . Step 2. When the heavy hammer starts to sway downward, the drive _ rod is driven by the heavy clock to rotate in the clockwise direction. The telescopic convex gear with the flywheel in the rod and the fixed concave gear of the main shaft Produce a feeding start _ directional rotation: This fixed direction of rotation can generate an effective rotational torque and can be converted into an effective power or energy - electricity. When the pendulum (A) passes the vertical angle of the lead, the 'clock body shifts from the downward swing to the upward swing, and the influence of the difference between the left and right turns is negative, and the downward balance is exerted. That is, the reaction force of the pendulum in the reverse direction, the reaction force increases with the increase of the swing angle and the position difference, and the gradual positive direction _ force slows down to lie down the swing speed, step 3.: the mercury built in the hammer body at this time The fluid will turn left as the angle of rotation of the ship's vertical angle changes;; ^ set from the lining to balance the rest, the clock weight ~ is moved back to the h point by the Υ ί point, the side arm is also · Shortened to _; The same anti-side force arm is also produced, the young is π, so that the opposite force has a lowering and lowering effect.杈佳地' The invention uses six pendulums as an example to illustrate the use of an angle-sensing controller to set the start-up as a means to move the first pendulum (Α) hem about Θ! when the angle starts the second pendulum clock (8)' The pendulum (Β) begins to swing downward; the remaining pendulums are also about 60° apart as described above. When the pendulum (a) passes the vertical angle of the lead, the direction of the swing is turned clockwise downwards upwards. The swing speed is gradually slowed down due to the influence of the gravity and the upward displacement, which also causes the drive shaft to rotate. The speed slows down, but the rotation speed of the main shaft is the next pendulum (Β) yaw acceleration and the drive shaft of the drive shaft does not fall.

Page 6 〖W 201132849 f slow; when the ship (A) _ pin up fresh speed her __ (8) 顺 = ten r swing speed is slow, the face hammer (1) drive the telescopic convex gear of the mast i the fixed concave gear of the spindle cup Temporarily separated from the cooperation. Preferably, the rotation of the largest limb and the external linkage _ rod is performed at the outermost edge 172. And at a predetermined distance from the pivot axis of each of the pendulums, the card retainer is fixed to control the fixed concave gear that activates the movement of each pendulum. After the pendulum (A) has passed (4), the straight sway is turned from the downward direction to the upper sway, and the effect of the difference between the center of the hammer and the upward swing is generated, and the downward balance is exerted. The reaction force; when the upward force and the downward reaction force are balanced, the maximum pendulum 'angle' of the pendulum (1) pendulum axis is also clockwise and downward. At the hem of the pendulum, the highest point on the outer edge of the hammer is 'spoon' at the Θ position 172. Step 4.···And the right side of the connected drive shaft is connected to the right side of the S-concave gear. The card on the red side of the hammer will contact the card and move it. Therefore, the left side of the cassette will be pushed forward. The belt is also pushed to push down and then pushes the shrinking card to launch the side movable fixed concave gear; the fixed concave gear on the right side of the drive shaft and the left side telescopic convex gear of the other parallel drive shaft start to reverse The hour hand side ★ back to the side of the pendulum. Back swing pendulum action · When the pendulum (1) begins to swing back and forth naturally, the liquid metal mercury fluid set in the center of the clock begins the reverse flow action of step 1. The phase is up until the right angle 9". After passing through the (four) right angle, the pendulum (Α) turns counterclockwise and turns upwards. The body of the clock is also affected by the difference in gravity and upward swing, and the downward balance is exerted.反第7页___ L : 201132849 The reaction force of the upward swing back' This reaction force increases with the swing angle and the difference of the amplitude and gradually offsets the force of the swing back to slow down the swinging speed; the mercury fluid in the hammer body Start step 2. Reverse flow action, so that the reaction force has the effect of reducing the reduction effect, and the upward swing back swing speed has a slowing effect. When the pendulum of the first pendulum (A) swings back to a slower speed than when the pendulum pendulum (β) swings back down, step 5.: the two pendulum (Α) (Β) connection The two parallel drive shafts with flywheels on the side of the shaft will quickly produce a cooperative action, so that the rear-pendulum (8) in the downward acceleration can slow down the front-pendulum (4), because of the force arm (IB). QY 〖 > (丨Α) Li's pendulum speed varies with (8) the multiply acceleration of the downward swing and the average fluctuation speed of the (Α) up and down acceleration and deceleration; until the pendulum (Α) Go back to the stand and set it to 0. Only get rid of the match. ^Step 6·叾 pendulum (Α) oscillation ^7 pendulum swing axis will be close to the horizontal swing position 0. When the pendulum is connected to the drive shaft, the fixed concave gear that is movable on the right side is fixed to the clock.

The card on the right side will touch the card actuator, and then the telescopic bar will be quickly retracted back to the active solid (four) gear; the two pendulum clocks (Α) (8) will be disconnected from the drive shaft. Temporarily end the flywheel side. The pendulum (1)-period single pendulum oscillation actuation procedure is also completed, and due to the influence of gravity and potential energy, the swinging action of the next cycle is naturally started downward. Preferably, the top is for the tk + L, the early pendulum oscillation period is 2, the pendulum clock, the needle, the deismia, the (4) face movement, the operation step 1 · step 2., step 3., (4) 4., step 5 , Acting. (4) 5·, step materials and other means of synchronization Page 8

l SJ 201132849 车乂佳地' The invention is a ride-type external drive, as shown in the fifth figure; with its structural characteristics and connected with a heavy hammer, the main shaft can be connected in series and the drive shafts of the parallel pendulums can be dried. Five®; and inside and outside the rod _ set the half-edge structure (3FL) (3FR) with the same function as the non-moving shaft; this shaft can make the first pendulum clock and the last pendulum have parallel action effect, and solid Let the maximum swing loss of each hammer (four) rotate the operating space to 172, and the remaining angle is 8. As an external connection of the drive shaft and support and strengthen the support angle (15) to facilitate the rotation of the shaft, the left side of the shaft is provided with a ♦ 1: click device, the left side of the control rod can be driven Rod structure (3) The introduction and retraction of the old active fixed concave gear. [Embodiment] In order to obtain a more specific understanding of the above objects, functions and features of the present invention, and can be implemented according to the preferred embodiment, The description and figure number are as follows: First, please refer to __, the main record is set to be the main branch (4) and the pole is pivoted and the outer string is connected in parallel with five pendulums (7A) (7B) (7C)(7D)(7E) Φ's drive shaft (5)(10)(3〇(10)(10) and an externally mounted crane shaft with a drive shaft structure (3F1) (June) on both sides and a pendulum (3F) The rods (2) are placed on the same axis and placed on the support (5-丨) (5_2). Place the six pendulums (7A) (7B) (7C) (7D) (7E) (7F) on the same-right side To swing the swinging position, as shown in the seventh figure, let the pivot axes of the pendulum shaft and the spindle shaft (4) be horizontally bear 0 = 〇 '· and the inverted triangular cones in the heart of each pendulum hammer Shape (8a) (8b) (8c) (8D) (8E) (8F) The built-in liquid metal fluid mercury, its position will be lower at the lower part of the spindle shaft, and at each pendulum (Α) (β (c) (D) (E) (F) above a preset

Page 9 LSJ 201132849 Distance and support (5-1) on the 'solid-set device stick actuator (μ) (a) (ic) (1D) (1E) (1F) to start the activities of each swing Fixed gear (12Α) (12β) (12〇U2D) (12E) (12F); mystery, the center of gravity of the pendulum is in red, and the distance between the center of gravity and the axis is OXr. When the pendulum (7Α) starts to start the downward swing, its clockwise force Fa begins. The liquid fluid (16) placed inside the hammer core (8A) starts to flow in the opposite direction to the lower axis. Step 1. Start the operation; also affect the position of the center of gravity of the Wei clock (4). The center of gravity moves in the opposite direction of the axis. At the same time, the 111 fixed concave gear (4A) of the spindle shaft (4) is driven by the telescopic male gear (3A) in the drive shaft (3A) of the hammer (7A) to start the rotation, and the swing The downward acceleration of the hammer increases the speed of rotation, and the drive shaft (3A) interacts with the spindle shaft (4) clockwise to the flywheel. Step 2. Start the operation. As shown in the eighth figure, when the pendulum (7A) is released downward to 60 of Θ1. When using the set angle to sense the controller to control the relay as a means, the miscellaneous hammer (7B) starts to swing downward,

The clockwise gamma Fb begins; at the same time, the steps of the pendulum clock (10) are started 与· and step 2. When the pendulum (7A) continues to swing downwards, it passes through the vertical angle of lead 9 〇. Before, its swing speed reached the highest swing speed. 〃 : In the ninth picture, face (7B) is swung down to Θ1 (four). When, _ set angle i should control H control starting means, miscellaneous hammer (7 〇 _ start downward swing == force Fe start; _, _ pendulum clock (7g) _ 1. and step ^. At this time pendulum clock ( 7A) Shifting about 120 to Θ2. At the beginning of step 3, the center of gravity moves the opening angle 90. When moving, the #pendulum clock (7A) swings through the oblique vertical body and shifts from downward to upward. The effect of the potential difference and the downward shift to the position difference appearing on page 31, 2011, the counter-effect of the downward balance is the reaction force of the reverse swing, and the angle of the swing increases with the swing angle and the difference The increase and the gradual abutment/short positive force slows down the swinging speed of the pendulum (7A), and the rotational speed of the spindle shaft (4) is driven by the drive shaft (3B) of the pendulum (7B) and the downward swing The shoulder of the acceleration is slowed down; when the lance speed of the pendulum (7Α) is slowed down to a slower downward swing than the pendulum (7Β), the telescopic crown (14Α) in the drive shaft (3Α) of the pendulum (7Α) ) The main storage (4) age is turned off. #面(7Β) Continue to swing downwards before passing through the straight (four). Before that, the speed of the yaw is the highest yaw rate. When the pendulum (7C) is swung down to 6〇 of w., using the set angle sensing to control H_start as a means, the brain (10) also begins to swing downward, and its clockwise force Fd begins; ah, start the fiber (7D) steps 丨. and step 2. At this point the pendulum (7)) is swung about 120 to Θ2. Step 3. Acting begins 'the center of gravity begins to move toward the axis and direction; when the female (7B) swings past the wrong vertical angle 90, the shell 'J moves the same as the pendulum (7A), and the hammer is swung down. The shifting steering shifts the influence of the H-gravity and the downward steering to the upper discriminating force, and the downward balancing working force is the reaction force of the reverse upper nucleus. This reaction force increases with the swing angle and the position difference. The individual _ force slows down the pendulum clock (7B) to swing upward, and the rotational speed of the spindle rod (4) is slowed down by the driving of the pendulum drive shaft (3C) and its downward yaw acceleration; The pendulum (7B) oscillates upwards faster than the brain (7 〇 downward swing speed, the telescopic convex gear (14β) in the pendulum (7B) of the pendulum (7B) is disengaged from the main shaft (4)嗔Cooperate. When the pendulum (7C) continues to swing downwards, it will reach the highest yaw rate before passing through the wrong vertical angle on page 1 U1 201132849 9〇°. At the same time, the surface (7A) is weakened. When the hour hand goes to the pendulum force and the declination force in the reinforcement reaches equilibrium, the brain (7A) is driven The rotation force of the shaft (Μ) is zero, which is also the maximum swing angle of the pendulum (8) in the clockwise direction. The position of the pendulum axis is about 162 of Θ3. 'The outermost edge of the pendulum (7A) swing direction While reaching the highest point of the swing angle, and (4) turning (3A) the edge of the movable fixed concave gear (10) on the left side of the hammer body (chaotic) will be the reward card holding the actuator (1A) as the tenth A picture; starting the operation of step 4·, pushing the left side (9AL) forward and pushing the meter (10)), the card will be the telescopic rod (called the start of the drive shaft (3A) side The movable fixed concave gear (12A); completes the entire de-swinging movement of the pendulum (4). This is also the starting position of the counter-clockwise back-swinging movement, which naturally starts to swing downwards and starts with force Fa, the hammer core (10) The liquid metal mercury fluid (16) set inside starts the reverse flow action of the step, so that the downward swing acceleration has a multiplication effect until the vertical angle of the lead. As shown in the eleventh figure, when the pendulum (7D) is placed downward Move to 6 (). When using the set angle sensor controller to control the start-up as a means to let the pendulum (7E) also begin to swing The pendulum action 'and the continuous direction of the shaft (4) produces a clockwise rotation torque; the pendulum clock (10) (10) is also moved to θ2, θ3, and the actuation procedure is the same as the previous one (5), so no more At this time, the pendulum (7A) returns to the 02 position and is about the same angle as the pendulum clock (7C) but the direction of the pendulum is opposite. The lion (8) at the 02 position 切 speed cuts the brain (10) Therefore, the movable fixed concave gear (10) on the right side of the drive shaft (3A) is not connected to the drive shaft of the cymbal (7B)

Page 12 t W 201132849 (3B) The left telescopic male gear (13B) is engaged. As in the thirteenth figure, when the pendulum (7E) is swung downward to 60 of Θ1. At the same time, the angle-sensing controller is used to control the start-up, so that the pendulum clock (7F) also starts to swing. The external drive shaft (2) connected to the pendulum clock (7F) also starts to rotate, and the vertical cassette (10F) on the left side of the shaft (2) is disengaged from the cassette provided on the left support (5-丨) I. The actuator (1FR), and the same direction continues to drive the spindle rod (4) to produce a clockwise rotation torque; the pendulum (7C) (7D) is also moved to Θ2, 03, and the pendulum (7B) is swayed back to the Θ2 position. The time and the pendulum clock (7D) are about the same angle but opposite to the direction of the swing. The action is the same as the pendulum clock (7A), so I won't go into details here. At this time, the view (7A) is tilted to the Θ 1 position at about the same angle as the pendulum (7E) but in the opposite direction. The pendulum (7A) is at a wrong vertical angle of 9 〇. When the position is shifted from the downward swing to the upward swing, the bell body is affected by the gravity of the gravity and the downward shift, and the downward balance is exerted, that is, the reaction force of the returning upward swing is the reaction force. As the swing angle and the difference of the swing increase, and gradually offset the back swing, the force slows down and swings upwards » speed; the mercury fluid in the hammer begins to step 2. The reverse flow action shortens the force arm to make the reaction force The effect of reducing the reduction effect is reduced, and the speed of the upward return movement is reduced; when the swing of the pendulum (7A) is slowed down to a slower downward swing than the rear pendulum (7B), The side of the drive shaft (3a) of the two pendulums starts the salivation drive of step 5. The force arm (| > (OXr until the pendulum (7A) returns to the swing position 0 As shown in Figure 14, when the pendulum (7F) is swung down to 6 (Γ, the pendulum (7D) (7E) is also moved to <93, and the pendulum (7C) and (7B) Also returning to the swing on page 13 U j 201132849 Position 'The way of acting is the same as the pendulum clock (7A), so it is no longer a matter of time At this time, the pendulum (7A) is driven back by the pendulum (7B) and will swing back to the swing position θ. When the pendulum (7A) swing axis approaches the horizontal swing position θ, step 6. The sewing _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The operation procedure of the pendulum oscillation period and the influence of gravity and potential energy begin to naturally do the other-period swing action, and the clockwise pendulum force Fa is the other pendulum oscillation period of the other faces (8)(6)(9)(8)(8)_ It is the same as the pendulum (A), so it is not necessary to repeat it. The 'pendulum (F) is connected to the left side of the drive shaft (2), the left side of the card (1〇F), 1 and The card retainer (w) on the seat (5-1) is used to start the push-back of the movable fixed concave gear (1)F) in the control shaft; the external drive shaft (7) enables the head and tail two pendulums U) (8) There are _ touch effects. This allows the simple loops to interact with each other. 'There is no need for external force to drive the spindle shaft (4) and achieve continuous continuation without stopping. The above-mentioned "non-energy-consuming clean source power mechanical device" of the present invention utilizes a rotating shaft as a main shaft and a rotating rod as a fulcrum, and is provided with a double shaft structure of the same shaft center. The body-shaped, multi-parallel-driven shaft device that can be operated as a smooth and counter-clockwise two-way flywheel, and is connected with a heavy clock with a built-in liquid fluid, and an externally driven shaft rod that is coaxially connected with the same weight. The three shafts are arranged in series and in parallel with the same-axis; the driving shaft can be rotated to generate a rotational torque, and the spindle shaft is driven to rotate in a fixed direction to generate power as the kinetic energy of the mechanism of the mechanism, and can be driven on page 14 201132849 The electric motor generates electric energy to achieve effective power, and can be implemented on-site to convert and generate electric energy. The rider is the best position for the job, so the invention patent is filed according to law. However, the content of the above system is only the (4) reading good example, The invention of the invention means that the ship is extended, and (4) the scales are also included in the scope of the patent application of the invention, and it is reasonable to comply with this statement. BRIEF DESCRIPTION OF THE DRAWINGS The first drawing is a perspective view of a preferred embodiment of the invention.

The second figure is a schematic diagram of a device tree decomposition of a preferred embodiment of the present invention. The third figure is a schematic diagram of a preferred embodiment of the present invention. The fourth figure is a schematic cross-sectional view of a preferred complement of the present invention. The fifth picture is a schematic diagram of the _ movement view outside the present. Figure 6 is a schematic cross-sectional view of a drive shaft of a preferred embodiment of the present invention. The seventh figure is a horizontal sound map of each of the hammer and the shaft of the preferred embodiment of the present invention. The eighth figure is a plan view of the hammer hem of the preferred embodiment of the present invention to 5»1. The ninth drawing is a B hammer hem to 01 sound map of a preferred embodiment of the present invention. The tenth embodiment is a hammer hem to the 01 sound 曰 of the preferred embodiment of the present invention. The eleventh drawing is a schematic view of a click contact point of a preferred embodiment of the present invention. The twelfth figure is a D hammer hem to a sound map of a preferred embodiment of the present invention. The thirteenth drawing is an E hammer hem to g/ι diagram of a preferred embodiment of the present invention. Figure 14 is a diagram showing the F-hammer hem to 01 of the preferred embodiment of the present invention. The fifteenth diagram is a schematic view of the detailed components of the apparatus of the present invention.

Claims (1)

201132849 VII. Patent application scope: The natural inertia motion using the gravity of the object and the gravity of the earth is used as the pendulum oscillation, and cooperates with the Chu machinery. also. The ten device and the liquid body flow in the static balance are characterized by the weight position of the object, so that the downward swinging force arm I L> the upward swinging force arm L in the same direction downward swinging action work IW> The counter-acting work tW' has a mechanical efficiency that is greater than and produces a _torque_force and reaches the inertia without stopping. The kinetic energy for utilization. It mainly consists of a rod-based rotation and a rotation lever as a fulcrum. The outer string is provided with the same-private double-flywheel structure, which can be used as a parallel and counterclockwise two-way flywheel to drive multiple parallel drive scale devices. The weight of the liquid fluid and the externally connected drive shafts of the same weight are connected to each other, so that the two types of shafts are connected in parallel to the same axis, and the hammers can be alternately oscillated back and forth. The pendulum effect can drive the driving shaft to rotate to generate a rotating torque and drive the spindle rod to rotate in a fixed direction to generate power, so that the effective power can be implemented locally and converted to generate energy. 2. As stated in the item Scope of the application, it is a kind of natural inertia of the gravity and gravity of the object, with the rhyme of the base rhyme - flattened, and then the rotating rod is the main shaft and rotates concurrently. The rod is a fulcrum, and the outer string is provided with a double-flywheel structure of the same-axis core, and can be used as a slewing and counterclockwise two-way flywheel for _ multi-parallel driving shaft device and connecting a heavy hammer with a built-in liquid fluid, and The external drive shafts of the same weight are connected to each other, so that the three shaft strings are connected in parallel to the same axis. Page 16 Uj 201132849 3. As stated in the third paragraph of Shenqing Patent (4), it is a kind of single inertia motion using the gravity and gravity of the object as a single pendulum, ge<the basic design of the device and the liquid body flowing in the static position The characteristic of balance is the means to change the position of the body weight. The feed-pure is mainly composed of a rotating rod and the rotating rod is used as a fulcrum. The material is provided with a double-flywheel structure of the same shaft and a double-flywheel structure, which can be used as a parallel and counterclockwise two-way flywheel to drive multiple parallel drive shafts. The rod device is connected to a weighted hammer with a liquid fluid, and the externally driven shaft rods that are connected to the same weight by the Lang axis are mutually actuated, so that the three shaft strings are connected in parallel to the same shaft. The towel's multiple parallel drive shafts with heavy hammers are turned over and the telescopic convex gears with the flywheel function can be driven in conjunction with the main rotation _ ding concave recording production, and the flywheels are also provided on both sides of the rod. The action of the fixed concave gear (right side) and the retractable convex gear (left side), in parallel, can generate a reverse direction of the saliva drive; this counter-clockwise two-way flywheel acts as a greedy one. 3 Yi Ruyi asks for the device described in the patent scope, in which the plurality of "1 drive shaft cups connected to the pendulum clock should be at least two or more, so that the external drive shaft can be actuated. According to the first item of the π patent shed, the rotating rod is used as the main shaft and the rotation # is used as the fulcrum, and the same shaft and the double flywheel structure are integrated into one body, which can be used as the counterclockwise two-way flywheel. A plurality of parallel-drive shaft devices are connected to a weighted hammer with a W·· body, and an externally driven shaft that is coaxially connected to the same weight clock, so that the two types of shafts are connected in series and in parallel in the same axial center. . Among them, the external drive 梓 is characterized by the inner series of the main shaft and the drive shaft of the parallel pendulum and the half of the inner side of the drive shaft is provided with the same function as the side of the drive shaft. The structure ' enables the first pendulum and the last pendulum clock to produce a parallel action effect; and the solid m 丨 7 page 201132849 sets the rotational movement space of the maximum swing angle of each hammer to 172. , put the remaining angle 8 . As an integral connection of the external drive shaft and strengthen the support angle to facilitate the rotation of the shaft 4-1. As claimed in the patent scope! The device described in the item. Among them, the outer side of the outer side of the outer side of the drive shaft is provided with a g-clamping device' to push the push-back of the movable fixed concave gear of the inner side of the control shaft. 5. As stated in the application of the patent, the slewing rod is supported by the rotating rod and the rotating cup is used as the fulcrum. The outer shaft is provided with the same shaft and the double flywheel structure, which can be used as a counter-clockwise two-way flywheel. Multiple parallel drive shaft devices are connected to a pendulum with a liquid k body built in, # an externally connected drive shaft with a concentric pendulum connected to each other, so that the three shaft strings are connected in parallel to the same axis . Among them, the angle of the outermost edge of the observation edge is extended and the point on both sides of the hammer edge is extended and extended, and the point must fall between the pivot axis and the center of gravity; and the pendulum hammer has a hollow space in the heart. The scope of Shenyue paste is as described in item 5; among them, the space inside the pendulum is hollowed up by the triangular cone bottle_the position of the triangle, and the rib is placed without the record of rot or lamming or rolling, round 幵v solid The solid can change the position of the center of gravity of the pendulum itself after moving, and change the length of the working galax arm. On the sides of the pendulum's hammer's side in the direction of the swaying--the fixed-carrying two control card ou + Γ 棒 棒 棒 在 在 接触 接触 在 在 在 在 在 在 在 在 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触2 When the telescopic cassette in the drive shaft connected to the clock body is activated, the movable solid phase gear on the side of the rod can be controlled to make the concave gear produce a merging or disengaging action. Page 18 201132849 8. The device described in claim 2 of the Patent Secrets... is pre-arranged with the axis above each lion. It is also located at the distance from the top of the hammer to the top of the hammer, so as to touch the pendulum. Μ· As claimed in claim 2, a device is mounted on the support of the device, the support is placed on the side of the external drive shaft, and the drive sleeve is externally connected. The lever rotates to set the tilt angle to facilitate the vertical click of the shaft. H applies for the device described in item 1 of the patent scope, which is a kind of _ object gravity and ground energy f Γ self-breaking m lion, and the frequency machine observation device and the liquid i are placed in the static balance. Changing the center of gravity of the object; wherein, the moving and pendulum program includes pendulum swing, clockwise shifting, 4, + squatting, and _step 1. Step 2, Step 3, Step, Step 6. Wait for the means to act. Page 19 i.SJ