KR20050099143A - Amplified electric energy produceing system - Google Patents

Abstract

The present invention can be equipped with environmentally friendly power equipment by supplying to the industrial site at low cost by generating the mechanical energy by the lifting power unit operating on the principle of seesaw and lever by the initial input power to amplified electric energy than the initial input power. To a hydroelectric power generation system;

Electric energy is generated by using the physical force generated by implementing the principle of seesaw and lever as a component including starting drive unit, circular motion lever base, circular action lever base, moving coordinate switching unit, additional elastic rotating body, and amplification power generator. Lift power generation system to convert

More specifically, the angular momentum momentum conversion power generation device of the positive force, that is, the angular motion (moment of force) of the moving coordinates is a constant angle rotation of the operating points of both the internal and external seesaw. I do plural double action such as exercise,

Secondly, the cam of the moving coordinate bound to the working point is changed according to the rotation angle of the force point,

Thirdly, in order to overcome the force gap inevitably generated in the repetitive rotational movement of the circular lever, it overcomes this with the additional elastic rotation device, and thus, the two-way power generation device is composed of a three-in-one system.

Fourth, in order to offset the rotational elasticity of the repetitive motion, it is offset by the collision of the force corresponding to this force and reversed. At this time, the rotation speed increase is changed according to the angle of the repetitive motion, and this is the speed energy increase and the above four factors become one. The invention relates to a novel electrical energy amplification system that is integrated to amplify electrical energy.

Description

Lifting Power Generation System {AMPLIFIED ELECTRIC ENERGY PRODUCEING SYSTEM}

The present invention relates to a lifting power generation system, and more particularly, the mechanical energy by the lifting power unit that operates on the principle of seesaw and lever by the initial input power as electric energy amplified than the initial input power. The present invention relates to a two-way power generation system that can be generated and supplied to an industrial site at low cost so that an environment-friendly power facility can be provided.

Conventional thermal power plants obtain electrical energy by operating steam turbines using energy sources such as coal or oil, and nuclear power plants operate steam turbines using thermal energy generated by using uranium as an energy source. Getting

In order to prepare power generation facilities of the conventional thermal power plant or nuclear power plant, it is necessary to establish a long-term plan and promote the high cost, and many household appliances are used as the industrial facilities and the living environment become more favorable. Although expansion of power generation facilities is required, there was a problem in that it cannot actively cope with economic reasons.

In addition, the search for a suitable place due to the construction of a power plant cannot be avoided as it has to be constructed to avoid existing facilities.In particular, nuclear power plants and thermal power plants, etc., cause civil complaints from local residents due to air pollution, water pollution, and radiation pollution. There has been a problem.

The present inventors have already proposed a device for generating power using a lifting power unit in Patent Applications Nos. 1998-54443, 1999-55000, 2002-8637, 2002-82174, and 2002-82175. In addition, the present inventors have better efficiency of electricity than the generator using the lifting force applied to the patent application No. 2003-64853 based on the patents 2002-82174, 2002-82175, and 2002-60825 The new method is to improve the production method.

An object of the present invention has been proposed to solve the problem of the prior art, it has been proposed to solve this problem and mechanical energy by the lifting power unit operating on the principle of seesaw and lever by the initial input power than the initial input power It is to provide a lifting power generation system that can generate amplified electric energy and supply it to industrial sites at low cost and equip with environmentally friendly power facilities.

Hereinafter, as specific means for realizing the present invention,

A starting drive unit configured to alternately rotate in a time difference with a gravity collision device member controlled by an electronic control device for sensing an operation of an operation switch for applying power;

A circular movement lever provided by the plurality of drive gears of the starting drive unit to rotate at a predetermined interval to rotate repeatedly in a predetermined angle range so that the repeating rotational movement is operated within a predetermined angle range;

A circular action lever installed in parallel between the circular movement levers at a predetermined interval on both sides of the horizontal line of the rotation axis and installed in parallel so as to operate the repetitive rotation movement within a predetermined angle range;

It is output between the first and second moving coordinate cams to generate rotational force by converting the up and down movement into rotational movement by connecting the eccentric to the working point of the predetermined interval and the lower end of the connecting rod to both sides of the rotation center axis of the circular action lever A moving coordinate switching unit having a gear box in which gears are arranged;

Lifting power generation system consisting of an amplification generating device that is installed to be rotated at an increased rotational force through the additional elastic rotor connected to both sides of the output shaft connected to the output gear of the gearbox and connected to supply the amplified power to other electrical equipment To provide.

Here, the starting drive unit is provided with an operation switch for energizing the power source, an electronic control device for sensing the ON of the operation switch, a driving motor, a reducer, an electromagnetic clutch, a driving gear, and a plurality of first movements disposed on both sides of the circular lever lever; And a two-start motor group, and a gravity collision device member which double-operates with the driving of the first and second start-up motor groups.

In addition, the circular action lever unit has a shaft support, a multi-ply circular rotating body which is pivotally installed by the shaft support, a ball joint shaft slide-assembled at both ends of a horizontal line of the multi-ply circular rotating body, and the rotation of the multi-ply circular rotating body. Provides a two-way power generation system that is coupled to the operating point and the connecting rod is connected to the moving coordinate switching unit at regular intervals on both sides of the central axis.

And, the moving coordinate switching unit is connected to the first and second connecting rods connected to the circular action lever installed on the shaft support, and the cam is eccentrically connected to the lower end of the first and second connecting rods of the connecting rod is fixed to the support shaft Provided is a two-way power generation system comprising an output gear that is engaged between the first and second moving coordinate cams to rotate in one direction, and the output shaft is installed.

Finally, the amplifying power generator is connected to the additional elastic rotor by the gear combination for increasing the rotational force transmitted through the output shaft, and the power is supplied to the electronic control device by generating power to the start drive unit and other electrical components by generating power. It provides a positive power generation system comprising a generator to be supplied by.

The principle of the bipolar power generation system of the present invention in which the aforementioned means is provided is as follows.

Hereinafter, terms used in the present invention are defined.

Circular exercise lever and circular action lever

When the repetitive movement is carried out at a certain angle with the lever principle, it is made circular in order to evenly rotate the center of gravity of the rotating body, and it is made in several layers so as not to twist or bend, and named according to its functionality.

Circular movement lever

The force of the lifting power generator is a basic device that obtains the force by proportional to the magnitude of the force applied to the power point.

Circular lever

It is called working lever because it is bound to the power point of circular working lever and working point of circular movement lever.

Moving coordinates

The cam of the moving coordinates bound by the operating point and the rod of the circular action lever is the central engine of the present invention in which the force and speed change according to the rotation angle.

Additional elastic body

The lever is inevitably generated in the repetitive rotation of a certain angle, the force gap is inevitably installed to overcome this, and the force required for the rotation of the lever is obtained from the circular movement lever, which is the basic device, through the moving coordinates. It is a device that supplies and reduces its elasticity through the same path.

Gravity and Gravity Collision Energy

When the rotor rotates repeatedly, the center of gravity of the center of gravity occurs at a fixed distance. To reverse it, it must be reversed by colliding with a force corresponding to its elasticity. This force is called the collision energy.

In the following, the integrated principles of the present invention are explained through the terms defined above.

The circular movement lever generates distance proportional force at the point of action when a force is applied to both points of force centered on the sin mark.

For example, when the ratio of the force point to the action point is 10: 1, the following equation is established. Lever length 100m ÷ 2 = 50m When the ratio of the force point and the operating point is 10: 1, the distance from the central axis to the operating point is 5m.

When it is bound to the working point of the circular working lever of 10m in length, the moving distance of the working point of the circular working lever is 0.5m when it is 10: 1 and it is 1m when it is 5: 1. One)

Table 1. Circular Crowbar and Related Factors

Division of lever Length of crowbar Center Shaft Length Action point distance ratio Force on the power point Force Calculation ratio Remarks Circular movement lever 100 m 50 m 5m 10: 1 100kw 1000kw 100 × 10 = 1000kw 10 times 3 times speed 10 × 3 = 30 times Circular lever 10 m 5 m 10: 1 1000kw 10000kw 1000 × 10 = 10000kw 100 times 100 x 3 = 300 times 1/2 = 150 times Circular lever 10 m 5 m 5: 1 5000kw 5000kw 1000 × 5 = 5000kw 50 times 50 × 3 = 150 ÷ 1/2 = 75 times

Note: All values are mathematical calculations without calculating friction.

Moving coordinates

The mobile coordinate cam, which is connected to the rod on both sides of the seesaw, which operates on the lever principle, plays a central role in changing the force.

180 ° of circular motion is an external motion of 180 °. This is the characteristic of relative motion of moving coordinates.

In other words, the relative movement characteristics mean that the circular action levers on both sides of the central axis and the force received by the action points on both sides of the lever are unified by double acting of different forces at 180 ° boundaries.

The cam of the moving coordinates, which is bound by rods on both sides of the circular working lever, is a relatively external double-pull movement that pushes and pulls the moments of force on both moving coordinates to the central axis, and the force of the working lever is transmitted as it is.

In the case of the dual internal motion, both forces are transmitted in double because the moment of force reaches the middle point of the central axis and the moving cam.

This force is continuously generated on both sides of the lever, so it is automatically filled with additional elastic rotational force.

Gravity Collision and Velocity Energy

In order to offset the rotational elasticity of the repetitive cloud of the circular motion lever, it is reversed by the collision of the force corresponding to this force. At this time, as shown in Figure 5, the length and speed of the moving coordinate cam connected to the rod bound to the action lever acts according to the angle of the repeating cloud changes. This is the amount of velocity energy amplification.

Hereinafter, exemplary embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

FIG. 1 is a view schematically showing a lifting power generation system according to the present invention, and FIG. 2 is a view showing A-A of FIG. 1 of the lifting power generation system according to the present invention.

And, Figure 3 is a view showing the arrangement of the moving coordinate switching unit and the additional elastic rotor, generator applied to the lifting power generation system according to the present invention, Figure 4 is a lifting force according to the present invention Fig. 1 shows the BB of FIG. 1 of the power generation system.

In addition, Figure 5 is a view showing the change in the length and speed of the moving coordinate cam of the lift power generation system according to the present invention.

The lifting power generation system 2 is largely composed of a starting drive unit 4, a circular motion lever unit 6, a circular action lever unit 8, a moving coordinate switching unit 10, and an amplification generator 12. It is made up.

The starting drive unit 4 is operated to operate the circular lever lever 6 by interlocking rotation with each other by preset information of the electronic control device 16 that detects the operation of the operation switch 14.

The starting drive unit 4 includes an operation switch 14 for energizing power, an electronic control device 16 for sensing the on of the operation switch 14, and information set in the electronic control device 16. First and second starting motor groups 20 and 22 disposed on both sides of the circular motion lever base 6 while being provided with a driving gear 18 operated by being repeatedly applied to each other by The driving of the two starter motor group 20 and 22 and a plurality of gravity collision device members 24 are interlocked.

Although the above-mentioned first and second starter motor groups 20 and 22 are not shown in detail, they are connected in the order of one motor, two reducers, three electromagnetic clutches, and four gears by conventional techniques.

The motor rotates continuously, and the electromagnetic clutch operates so that both sides cross and rotate.

Alternatively, the motor may be optimally changed according to the design, and is not limited to any one type motor.

The drive gear 18 of the starting drive unit 4 is engaged with the gear 26 formed within a predetermined angular range of the outer circumferential surface of the circular lever lever 6 so as to transmit a repetitive rotational force within a predetermined angular range.

The circular movement lever unit 6 is a rotary body, meshed with the drive gear 18 and the gear 26 of the starting drive unit 4, for example, a shaft support 28 spaced apart at a predetermined angle range, for example, 60 °. It is installed in pairs, and it is made to exercise the lifting force.

Circular movement lever unit (6) is installed to reciprocate rotation operation to the shaft support (28), between the circular action lever unit (8) is installed between the intermittent rotation action within a certain angle range It is generating the rotational force.

In addition, the circular movement lever unit 6 is formed on the outer circumferential surface to form a plurality of impingement parts 30 protruding within a predetermined angle range with a predetermined distance from the gear 26 to be blocked by the gravity impact device member 24 and have.

The gravity collision device member 24 is installed in a suitable position at a position capable of satisfying the maximum operation, the number or shape is changed in accordance with the design specifications, where the gravity collision device (32) (34) and have.

The gravity collision device member 24 is a damper which cushions the collision with the collision part 30 by a conventional technique, and is produced by employing an explosion device such as a driving force, for example.

The circular movement lever large portion 6 is formed in the center portion to increase the thickness width, the edge portion is thin thickness width for durability.

The circular action lever base 6 has a shaft support 36 as a rotating body, a multi-ply circular rotating body 38 which is installed to be rotated by the shaft supporting body 36, and the horizontal of the multi-ply circular rotating body 38. Connection rod part connected to the ball joint shaft 40, which is assembled to slide on both ends of the line and the moving coordinate switching unit 10 at regular intervals on both sides of the rotation center shaft 42 of the multi-ply circular rotating body 40 ( 44).

The ball joint shaft 40 is connected to the circular movement lever large portion 6 in a ball joint type, and the other end is slide-assembled in the circular action lever large portion 8 so as to operate variably.

The moving coordinate switching unit 10 is connected to the connecting rod portion 44 connected to the first and second connecting rods 46 and 48 to the circular action lever base 8 installed in the shaft support 36, and the connecting rod While being eccentrically connected to the lower end of the first and second connecting rods 46 and 48 of the part 44 by the cam 50, the first and second moving coordinate cams 52 and 54 which are fixed to the shaft are engaged with each other. The output gear 56 is installed so as to rotate.

That is, the lower side of the first and second connecting rods 46 and 48 connected at regular intervals to both sides of the central axis of rotation of the circular action lever unit 8 is connected to the first and second moving coordinate cams 52 and 54. The first and second mobile coordinate cams, which have 180 degrees of internal movement and 180 degrees of external movement, and are bound by first and second connecting rods on both sides of the working point, The force moments are gathered to the central axis so that the force at the working point of the circular action lever portion 8 is transmitted as it is.

In the dual cabinet motion, since the moment of the force reaches the middle point of the central axis and the first and second moving coordinate cams (52, 54), the two-sided force is transmitted in double, and this force is the circular working lever base (8) both sides Since the extra force is continuously generated on one side, the extra force is automatically covered by the rotational force of the additional elastic rotating body 58, and the additional elastic rotating body 58 obtains the force necessary for the rotation from the circular movement lever base 8, which is a basic device. Is supplied from the first and second moving coordinate cams (52, 54) and the central axis through the first and second connecting rods (46, 48) bound to the action point of the circular working lever (8), and its elasticity is provided through the same path. It is to be reduced.

In order to offset the rotational elasticity during the gravity collision of the circular movement lever part 6 and the repetitive movement due to the velocity energy, the force is offset by the collision of the force corresponding to this force, and the circular action lever according to the angle of the repeated movement The length and speed of the first and second moving coordinate cams 52 and 54 connected to the first and second connecting rods 46 and 48 bound to the negative point 8 are changed to drive by the amplification amount of the speed energy. .

The output gear 56 is connected to the output gears 56, and the output shaft 60 is installed to transmit the rotational force to the additional elastic rotating body 58 to convert the upper and lower movements to the rotational movement.

The circular action lever unit 6, the moving coordinate switching unit 10, the additional elastic rotating body 58, the amplification generator 12, etc. can be installed in a large number according to the design, and is not limited to a specific number of quantities. Do not.

The first and second moving coordinate cams 52 and 54 and the output gear 56 of the moving coordinate switching unit 10 are mounted in the gear box 62 and fixed to the cam 50 while being connected to the rod 50. ) And is being installed.

The connecting rod 44 is the first and second connecting rods 46 and 48 so as not to interfere with the movement of the circular acting lever 8 at regular intervals from the center of the circular acting lever 8 to both sides. It is installed.

The additional resilient rotating body 58 is installed as an output shaft 60 which forms an axis of the output gear 56 at a predetermined distance on one side of the moving coordinate switching unit 10 so as to receive the rotational force of the circular action lever 8. It is done.

The additional elastic rotating body 58 is made so that the output rotational speed is increased and output than the rotational force input by the normal gear combination.

The amplification generator 12 is connected to the additional elastic rotor 58, and is provided with a generator 64 driven by the increased rotational force.

The power generated by the generator 64 is supplied to an industry or the like through a general power transmission device 66 or the like, and the electricity generated here is first and second starting motor groups of the starting and driving unit 4 by the electronic control device 16. (20) and (22) and other power generation components 68 are connected to supply power.

Referring to the operation of the lifting power generation system 2 made as described above, if the user turns on the operation switch 14 to use the initial power source by the battery or other power supply device, the electronic control device 16 Recognizes this and supplies power to the first and second start-up motor groups 20 and 22 of the starting drive unit 4 by preset information.

Accordingly, the drive gear 18 of the first and second starter motor groups 20 and 22 causes the motor to repeatedly rotate in the 60 ° angle range based on predetermined information.

When the driving gear 18 rotates forward by the operation of the first and second starting motor groups 20 and 22, the circular movement lever 6 is rotated in the counterclockwise direction, in which case the electronic controller 16 is rotated. By the predetermined signal, the first and second gravity impact device members 32 and 34 of the gravity collision device member 24 are in a retracted state, and do not prevent the rotation of the collision part 30 from interfering with each other.

Accordingly, when the electronic control device 16 recognizes that the circular motion lever 6 rotates left at an angle of 60 °, the first gravity collision device member 32 is advanced to advance the circular motion lever 6. The overhang is prevented by being caught by the collision part 30 protruding from the outer circumferential surface.

At the same time, the electronic controller 16 rotates the first and second starter motor groups 20 and 22 in reverse direction following the operation of the first rotary collision unit 32 based on predetermined information, thereby causing the drive gear 18 to operate. The circular movement lever 6 is rotated clockwise, and the first rotational collision part 32 is also retracted here so as not to disturb the rotation.

Therefore, when the circular motion lever 6 continues to rotate and reaches a 60 ° range, the electronic control device 16 advances the second rotary collision part 34 by the preset information so as to be caught by the collision part 30 to rotate. It will pause.

Then, the electronic controller 16 again rotates the first and second starter motor groups 20 and 22 according to the preset information to continuously repeat the circular movement lever 6 and repeat the rotation within the range of 60 °. Let's do it.

On the other hand, when the circular movement lever 6 repeats the repeated rotation within the 60 ° angle range, the circular action lever 8 connecting them between the circular movement lever 6 is also repeatedly rotated within a certain angle range. Will be repeated.

Here, since the circular action lever 8 can be added or subtracted according to the installation purpose, the output force can be adjusted.

That is, as the circular action lever 8 repeatedly rotates, the displacement difference with the circular action lever 6 is absorbed by the ball joint 40 that is slide-assembled. The first and second connecting rods 46 and 48 of the rod 44 alternately repeat the lifting movement.

The first and second moving coordinate cams 52 and 54 are rotated as the cam 50 in the gear box 62 connected by the lifting and repeating motions of the first and second connecting rods 46 and 48 rotates. Is rotated, and the output gear 56 disposed therebetween rotates the output shaft 60.

As described above, the first and second moving coordinate cams 52 and 54 are arranged on the lower end side of the connecting rod 44 connected at regular intervals to both sides of the central axis of rotation of the circular action lever base 8. First and second moving coordinates connected to the moving cams (52, 54) to perform an internal movement of 180 degrees and an external movement of 180 degrees, and are bound by first and second connecting rods 46 and 48 on both sides of the working point. The cams 52 and 54 are relatively pushed and pulled, and the moments of force of both moving coordinates on both sides of the external movement are gathered into the central axis, so that the force of the circular working lever base 8 acting point is transmitted as it is.

In the dual cabinet motion, since the moment of force reaches the middle point of the central axis and the first and second moving coordinate cams 52 and 54, the two-sided force is transmitted in double, and this force is the circular action lever base 8. Since the extra force is continuously generated on both sides, the extra force is automatically covered by the rotational force of the additional elastic rotating body 58, and the additional elastic rotating body 58 obtains the force necessary for rotation from the circular movement lever base 6, which is a basic device. Force is supplied from the first and second moving coordinate cams (52, 54) and the central axis through the first and second connecting rods (46, 48), which are connected to the working point of the circular action lever (8). Through the reduction.

Therefore, in order to offset the rotational elasticity during the repetitive motion caused by the gravity collision and the velocity energy of the circular motion lever portion 6, the force corresponding to this force is offset and reversed, and the circular action is performed according to the angle of the repetitive motion. The length and speed of the first and second moving coordinate cams 52 and 54 connected to the first and second connecting rods 46 and 48 bound to the lever point 8 are changed to be driven by the amplification amount of the speed energy.

The rotational force generated by the rotation of the output shaft 60 is increased through the additional elastic rotating body 58 of the amplifying generator 12 and is output to the generator 64 to amplify the amount of power generated.

The moving coordinate switching unit 10 is to compensate for the portion where the gap of the action force occurs in the direction of the turning point of the upper and lower rotation of the circular action lever 8 to perform an auxiliary function.

Meanwhile, as the circular action lever 8 repeats the seesaw operation of reciprocating rotation within a predetermined angle range as described above, it operates through the output shaft 60 by the rotation of the output gear 56 of the gearbox 62. The rotational force increased through the additional elastic rotating body 58 is generated by operating the generator 64 of the amplifying generator 12 and is applied to the first and second starting motor groups 20, 22 and other electric parts 68. Supply enough electricity for the

In addition to the first and second starter motor groups 20 and 22 constituting the above-mentioned starting and driving unit 4, it can be installed as long as allowed in addition to the left and right sides as necessary, but is not limited to the number.

In addition, it is natural that at least one pair of circular action levers 8 may be installed between the circular motion levers 6 according to the design characteristics.

The diameter of the circular motion lever base 6 or the circular action lever base 8, which can be repeatedly and semi-permanently operated such that the rotation between the circular motion lever bases 6 is alternately reciprocated by repeated rotational operation, has a design It can be variously changed according to the present invention, and is not limited only to the technical spirit disclosed herein.

The parts applied to the circular motion lever unit 6 or the circular action lever unit 8 can be made of a material that promotes torsion or weight reduction, and various materials and shapes can be changed and shown here. It is not limited only to a drawing.

The present invention as described above implements an electric energy amplification apparatus by applying the lifting force according to the principle of the seesaw and lever, thereby enabling the supply of cheap and sufficient electricity to the industrial site through the simplification of the structure of equipment and the maximization of the production of energy for power generation. In other words, it can be applied to power plants at low construction costs.

Accordingly, it is possible to provide a power generation facility at a low cost by using a facility that generates electric energy, a power generation facility at a production site, or a place requiring other power.

In addition, after driving the starter motor using the initial power source, the power produced by the amplification generator is used, and there is also an effect that can continuously supply sufficient power to other electrical components.

In addition, the construction cost of the power generation facility and the construction of less air is required less construction costs, in particular because it has an excellent effect without the generation of resources and pollution is very useful invention for the energy industry.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view schematically showing a lifting power generation system according to the present invention.

FIG. 2 shows A-A of FIG. 1 of a lifting power generation system according to the present invention; FIG.

Figure 3 is a view showing the arrangement of the moving coordinate switching unit and the additional elastic rotor, generator applied to the lifting power generation system according to the present invention.

4 shows B-B of FIG. 1 of a lifting power generation system according to the present invention;

5 is a view showing a change in the length and the speed of the moving coordinate cam of the lifting power generation system according to the present invention.

Explanation of symbols on main parts of drawing

4: starting drive 6: circular exercise lever

8: circle action lever loan 10: moving coordinate switching unit

12: amplifier generator 14: operation switch

16: Electronic control device 18: Drive gear

20, 22: 1st and 2nd starting motor group 24: Gravity collision device member

28: shaft support 30: crash

32, 34: gravity collision device 36: shaft support

38: multi-round circular rotor 40: ball joint shaft

42: rotation axis 44: connecting rod

46,48: 1st, 2nd connecting rod 52, 54: 1st, 2nd moving coordinate cam

56: output gear 58: added elastic rotor

60: output shaft 64: generator

Claims (2)

 Circular movement lever while having an operation switch for energizing power, an electronic control device for sensing the ON of the operation switch, and a reducer for operating the drive gear by repeatedly applying power to each other by preset information on the electronic control device. A first driving unit comprising a first and second starting motor groups disposed on both sides of the unit, a gravity collision device member interlocking with the driving of the first and second starting motor groups at a time difference, and By the plurality of drive gears of the starting drive unit is installed to be rotated at a predetermined interval in the axial support to repeat the rotation in a predetermined angle range, the gear is engaged with the drive gear and the gear of the starting drive unit so that the repeating rotation movement to move within a certain angle range. It is installed in the axial support spaced apart in the 60 ° range to repeat the rotation, the gear formed on the outer circumferential surface, formed by forming a number of collisions protruding in a certain angle range at a certain interval to be blocked by the gravity collision device member Exercise levers, Connected in parallel with a certain distance on both sides of the horizontal axis of the rotation axis between the circular movement lever unit installed in parallel so that the repeating rotation movement to operate within a certain angle range and installed by the shaft support A multi-fold circular rotor, a ball joint shaft slide-assembled at both ends of a horizontal line of the multi-round circular rotor, and a connecting rod connected to the moving coordinate switching unit at regular intervals on both sides of the central axis of rotation of the multi-round circular rotor. A circular lever lever, It is connected to the lower side of the connecting rod portion connected to the rotation center axis of the circular action lever large part by the cam of the moving coordinates to 180 degrees internal movement, 180 degrees external movement, the first, both sides of the working point The first and second mobile coordinate cams bound by two connecting rods have the moments of the moving coordinates on both sides of the two external movements, which are pushed and pulled, relative to the central axis, so that the force of the circular action lever is applied as it is. In the dual cabinet motion, since the moment of force reaches the middle point of the central axis and the first and second moving coordinate cams, the two-sided force is transmitted in double, and since the force is continuously generated at both sides of the circular lever lever, The force is automatically covered by the additional elastic rotor rotation force, and the additional elastic rotor receives the force obtained from the circular movement lever base, which is the basic device, for the first and second connection rods connected with the action point of the circular action lever unit. It is supplied from the first and second moving coordinate cam and the central axis through the elasticity is made to be reduced through the same path, In order to offset the rotational elasticity during the repetitive movement of the circular movement lever, the force is offset by the collision of the force corresponding to this force, and in this case, the first and second connection rods bound to the action point of the circular action lever according to the angle of the repeated movement The length and speed of the connected first and second moving coordinate cams are changed and driven by the amount of amplification of the velocity energy. The additional elastic rotor is connected to both sides of the output shaft in which the output gear of the gear box is installed and rotated at an increased rotational force to be configured to include an amplification power generator installed to supply amplified power to other electric equipment. Lifting power generation system. The first and second connection rods of claim 1, wherein the moving coordinate switching unit is eccentrically connected to the first and second moving coordinate cams to convert the up and down movements into rotational movements to generate rotational force. An output gear that is engaged between the connecting rod portion connected to the first rod and the first and second moving coordinate cams fixed to the support shaft while being eccentrically connected to the lower end of the first and second connecting rods by the cam, Lifting power generation system characterized in that it comprises a gear box including an output shaft arranged to connect the output gears.