KR20060081362A - Apparatus for generating power - Google Patents

Abstract

The power generating device of the present invention is characterized in that power can be continuously obtained by a force that converts a linear motion into a rotary motion by pulling and pushing the lever in conjunction with a given force of a spring or an oil pressure.

Fixed rail part, rotary rail part, oil press, bearing

Description

Power generating device {APPARATUS FOR GENERATING POWER}

1 is a perspective view showing a power generator of the present invention.

Figure 2 is an exploded perspective view showing a power generator of the present invention.

Figure 3 is a perspective view showing the power generator of the present invention.

Figure 4 is a plan view showing a power generator of the present invention.

Explanation of symbols on the main parts of the drawings

1: Power generating device 2: Fixed rail part

3: Rotating rail part 4: Motor shaft

5: turntable 6: mounting ball

7: Spring 8: hinge shaft

9: pin 10: wire

11: hydraulic rod 12: first hydraulic

13: Rotating rail central axis 14: Rotating groove

15: Second Hydraulic Press 16: Bearings

17: cradle 18: round rail shaft

19: rotating piece 20: rotating body

21: extruded body 22: interval holding zone

23: the first lever 24: the second lever

25: the third lever 26: the fourth lever

27: the fifth lever 28: the sixth lever

29: the seventh lever 30: the eighth lever

31: ninth lever 32: tenth lever

33: eleventh lever 34: round rail

35: gear 36: bearing shaft

According to the present invention, the lever is interlocked with a given force of a spring or an oil pressure, and the rotary rail unit in which the bearing and the circular rail are inherently rotated along the edge of the fixed rail is rotated to convert the vertical motion into a rotary motion to obtain power by the force. It relates to a power generating device, characterized in that.

In general, the power generating device refers to generating a series of energy such as rotational force or reciprocating motion by using energy supplied from the outside such as a motor.

Since the power generating device (motor) used in the related art is mostly generating rotational force by using an electromagnet and a core, it is possible to produce only a rotational force proportional to the input energy. .

In addition, there is a problem that the energy efficiency is greatly reduced because the power generator must continue to supply the amount of power in proportion to the power generator while driving.

In addition, in order to operate the power generating device, the fuel is continuously supplied, and the seriousness of environmental destruction due to the high fuel purchase cost and environmental pollution is on the rise.

Therefore, recently, due to the rise of environmental problems, it is desirable to use clean energy such as hydro, solar, and wind power, but there is a problem that the amount of clean energy used is limited.

Therefore, an object of the present invention for solving the above problems is to provide a power generating device that can supply environmentally friendly power by interlocking the hydraulic, the spring and the lever.

According to an aspect of the present invention, there is provided a gear on the edge of the power generating apparatus, wherein the gear is formed on the edge to rotate in engagement with a gear formed on the fixed rail and the gear formed on the fixed rail. It is formed of a rotating rail having a symmetrical structure in the upper and lower pairs, between the fixed rail and the rotating rail portion, the first oil pressure and a plurality of levers are pushed in the horizontal or intersecting direction with the direction of the first oil pressure It is fastened by pins, springs, and wires so that it can be pulled, and the second rail, the cylindrical rail, the bearing, and the plurality of levers are fastened to the rotary rail part so that the first and second hydraulic parts are connected to the central shaft of the motor and the rotary rail part. When the pressure applied to both sides between the center shaft and the bearing shaft reaches the highest point, it is fastened to the rear of the center shaft of the bearing, lever and motor. It was converted to rotary motion by a spring to provide a power generating device, characterized in that is capable of generating a constant power.

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

1 is a perspective view showing a power generator of the present invention.

The power generating apparatus 1 of the present invention has a pair of fixed rail parts 2 having a vertically symmetrical structure so that the gear 35 is formed in a cylindrical shape along an edge thereof to face the opening, and the fixed rail part ( A pair having a structure in which the fixed rail portion 2 is smaller in size and the cylinder 35 is formed along the edge of the cylinder 35 so as to rotate together with the gear 35 of FIG. 2 so as to face the opening. It has a structure in which the cradle 17 is fastened to the rotating rail portion 3 and the fixed rail portion 2 to be mounted by mounting the rotary rail portion (3).

2 is an exploded perspective view showing the power generator of the present invention, Figure 3 is a perspective view showing the power generating portion of the power generator of the present invention.

The power generator 1 of the present invention comprises a pair of upper and lower fixed rail portions 2 and a rotating rail portion 3, the fixed rail portion 2 located in the lower portion of the rotating body 20 and the rotating plate ( 5) is stacked, the mounting plate is formed in the rotating plate 5 is fitted with a mounting plate 17 is provided with a mounting plate.

In addition, the mounting rail 17 is fixed to the mounting rail rotating portion 3 so as to maintain a close engagement with the fixed rail (2).

Therefore, in the center of the fixed rail portion (2), the central axis of the motor (4) and the rotary rail portion (3) in the center of the rotary rail central axis 13 and the central axis of the circular rail 34 and the circular rail in the center One side of the shaft 18 and the circular rail shaft 18, the bearing 16 and the bearing shaft 36 in the center of the bearing 16 is placed.

Accordingly, the first oil pressure 12 is positioned between the stationary rail portion 2, the motor shaft 4, and the bearing shaft 36 in the rotary rail portion 3, and is pushed to both sides by the hydraulic rod 11. It pressurizes, and the 2nd hydraulic pressure 15 is fastened between the central shaft 13 and the circular rail shaft 18 of the said rotating rail part 3.

"형상의 제1지렛대(23)는 선단이 베어링축(36)과 연동되도록 삽입되고 타단은 제1유압기(12)와 수평하게 위치한 "│"형상의 제2지렛대(24) 중앙은 핀(9)에 의해 체결된다.So as to be horizontally and intersected with the first hydraulic pressure unit 12 fastened between the motor shaft 4 of the fixed rail portion 2 and the bearing shaft 36 of the rotary rail portion 3 "

The first lever 23 is shaped so that the tip is interlocked with the bearing shaft 36 and the other end is positioned horizontally with the first hydraulic 12. The center of the second lever 24 is shaped as a pin 9 Is fastened by

"형상의 제7지렛대(29)가 핀(9)에 의해 체결되고, 상기 체결된 제7지렛대(29) 선단은 제1지렛대(23)와 와이어(10)와 후단은 핀(9)에 의해 제11지렛대(33)가 체결된다.The tip of the second lever 24 is "

"The seventh lever 29 of the shape is fastened by the pin 9, the front end of the fastened seventh lever 29 is the first lever 23, the wire 10 and the rear end by the pin (9) The eleventh lever 33 is fastened.

"형상의 제3지렛대(25)가 핀(9)에 의해 체결되고, 상기 체결된 제3지렛대(25) 일단에는 제4지렛대(26)가 핀(9)에 의해 체결되며, 우측 후단은 반대방향에 대응하게 위치하는 제6지렛대(28)가 와이어 (10)에 체결된다.In addition, the tail of the second lever 24 is "

&Quot; Shape third lever 25 is fastened by pins 9, and the fourth lever 26 is fastened by pins 9 at one end of the fastened third lever 25, and the right rear end is reversed. A sixth lever 28 positioned corresponding to the direction is fastened to the wire 10.

The fourth lever 26, which is horizontally fastened to the hydraulic rod 11 on the side of the third lever 25, is formed by the fifth lever 27 which is formed by the rotation groove 14 formed in the shape of " When pulled, it plays a role in smoothing the rotation.

"형상의 제6지렛대(28)가 위치하여 선단부는 회전레일부 중심축(13)에 끼워지고, 후미는 제5지렛대(27)와 핀(9)에 의해 체결된다.In addition, the side of the fourth lever 26 is "

&Quot; The sixth lever lever 28 of the shape is positioned so that the front end portion is fitted to the central axis 13 of the rotary rail portion, and the rear end is fastened by the fifth lever lever 27 and the pin 9.

The rear end of the fifth lever 27 is fastened by the hydraulic rod 11 and the spring 7 which protrude through the central axis 4 of the motor of the fixed rail unit 2.

In addition, the sixth lever 28 is fastened by the hinge shaft 8 to an adjacent portion fastened by the fourth lever 26 and the pin 9.

"형상의 제8지렛대(30)가 위치하여 선단은 회전레일부 중심축(13)과 후미는 원형레일(34)에 위치한 힌지축(8)에 끼워진다.In addition, the upper surface of the sixth lever 28 fitted to the central axis 13 of the rotary rail portion "

"The eighth lever 30 of the shape is positioned so that the front end is fitted to the hinge rail 8 located on the rotary rail central axis 13 and the rear end of the circular rail (34).

"형상의 제10지렛대(32)가 핀(9)에 의해 체결된다.In the middle of the sixth lever 28, the 9th lever 31 of the shape " │ " is fastened by the pin 9, and the rear end is fitted to the circular rail shaft 18 "

"The tenth lever 32 of the shape is fastened by the pin (9).

Then, the tip of the tenth lever 32 is fastened by the tip of the eighth lever 30 and the wire 10.

On the other hand, the fourth lever 26 and the first hydraulic pressure 12 when the rotation is spaced apart so that the spaced apart interval 22 is in close contact with each other to the fourth lever 26 and the hydraulic rod (11) To the pin (9).

The space holder 22 protruding in the opposite direction to the fourth lever 26 has a wire 10 on the protruding plate body 21 protruding from the hydraulic rod 11 of the first oil pressure unit 12 at the end thereof. Tighten.

In addition, the bearing 16 is fitted in the upper portion of the motor shaft 4 of the fixed rail portion 2, the rotating piece 19 is formed integrally to the front and rear of the fitted bearing 16 inclined to the front The rotating piece 19 positioned is fixed to the spacing holder 22, and the rotating piece 19 located on the rear side is fastened by the spring 7 and the rear end of the fifth lever 27.

Figure 4 is a plan view showing the power generating device of the present invention, when explaining the operating state of the stationary rail portion to obtain power by the force to push or pull the respective lever by the hydraulic (12, 15) or the spring (7) When the hydraulic rod 11 is pushed to both sides through the first oil pressure 12 provided between the central shaft 4 of the power motor 2 and the bearing shaft 36 in the rotary rail portion 3, the bearing shaft 36 ) Pulls the seventh lever 29 through the eleventh lever 33 while pushing the first lever 23 forward and pulling the bearing 16 rearward in the direction of the fixed rail portion 2, The second lever 24 is pushed to the right side of the motor shaft 4 by the force generated, and the seventh lever 29 is a third lever through the second lever 24 by the force of the ninth lever 31. 25), and the center of the motor through the wire (10) tied to the first lever 23 and the seventh lever 29 with the force generated in reverse (4) pulling in the right direction, in this case, the third lever 25 pulls the fourth lever 26 by the force of the second lever 24, and at this time, the third lever 25 and the third lever The sixth lever 28 is pulled to the right side of the motor shaft 4 through the wire 10 tied to the sixth lever 28, and the fourth lever 26 is the sixth lever by the force of the third lever 25. (28) the sixth lever 28 and the fifth lever through the pin 9 and the fifth lever 27 fastened to the fourth lever 26, the rotary groove 14 by the force generated in the reverse direction at this time The pin 9 fastened to the 27 is pushed to the right side of the central axis of the motor 4, and the sixth lever 28 is rotated by the force of the fourth lever 26 and the wire 10 to pull the rotary rail portion 3. Push the hydraulic rod 11 of the second hydraulic pressure (15) fastened to the central shaft (13) to the right side of the central shaft (4) of the motor, by the force of the rotary rail portion 3 as a lever lever circular rail (34) ), The circular rail (34) is levered by the force The second hydraulic unit 15 pushes the bearing 16 to the right side of the motor shaft 4 at the same time, and the second hydraulic unit 15 pushes the hydraulic rods 11 to each other in opposite directions. The circular rail shaft 18 is pushed to the right side of the motor shaft through the 9 lever lever 31 and the 8 lever lever 30, and at this time, the 8th lever 30 and the 10th lever 32 are bundled by the force generated in reverse. The eighth lever 30 is pushed to the right side of the motor shaft 4 through the wire 10, and at the same time, the ninth lever 31 is pushed to the right of the motor shaft 4 through the wire 10. When the puller is pulled by the rotary rail part 3 with the force of the lever and pushes the hydraulic rod 11 fastened to the tenth lever 32, the circular rail 34 by the force of the lever (16) ) Is pushed to the right of the motor shaft 4, the bearing 16 and the circular rail 34 inherent in the rotary rail portion (3) is fixed together with the rotary rail portion (3) Part (2) gear 35 and engaged with each other are formed on the outer peripheral surface of the rotational center axis as dongryeokgi 4, the right-hand direction (counter-clockwise) will be obtained in the engine.

On the other hand, the first hydraulic pressure 12 is formed by integrally forming the protruding plate body 21 on the hydraulic rod 11 located in the direction of the central axis 4 of the motor of the fixed rail portion (2) when the first hydraulic pressure ( 12) and the hydraulic rod 11, which is tied by the gap holder 22 and the wire 10 fastened to prevent the close contact with the fourth lever 26, protrudes and fixed to the rear end of the motor shaft 4, 5 Powered by the lever (27) and the spring (7) to pull the hydraulic rod 11 to the left side of the central axis of the motor 4 so that the linear motion can be converted into rotational movement and at the same time to reinforce the rotational force Fit the bearing 16 with the rotating piece 19 attached to the front and rear of the central shaft 4 so that the tip rotating piece 19 is fixed to the space holder 22, and the rear rotating piece 19 is the fifth lever. (27) and the spring (7) by tightening to reinforce the rotational force.

As described above, the present invention is environmentally friendly and industrially useful because it can be continuously supplied by an oil press, a spring and a lever without the need for a separate energy source.

Claims (1)

The power generating device has a structure in which a gear is formed at an edge side and has a symmetrical structure in a pair of up and down pairs, and a gear is formed in the edge side so as to rotate in engagement with a gear of the fixed rail portion. Consists of a rotating rail, The fixed rail portion has a cylindrical rail shape, the rotor and the rotating plate is stacked on the inner bottom surface, the central axis of the motor is installed in the center so as to rotate like the rotating plate, the mounting hole is formed on the left and right of the central axis has a mounting plate at the tip A fixed rail portion to which a cradle is fitted; The rotary rail seated on the mounting plate of the holder so as to rotate in engagement with the gear of the fixed rail portion, the circular rail shaft inside the circular rail and the circular rail eccentrically to the central axis and one side in the center of the inner bottom surface, the inside of the circular rail In the eccentrically positioned bearing and the bearing shaft placed in the center of the bearing is pushed by the hydraulic rod of the first hydraulic pressurized by the central axis of the motor shaft and the bearing shaft of the fixed rail portion so that the rotating rail portion can rotate in the fixed rail portion A first hydraulic press coupled to both sides of the hydraulic rod to push and press the first rod, a first lever coupled to convert the linear movement applied to the bearing shaft coupled to the hydraulic rod of the first hydraulic press to a rotational movement, and the first hydraulic press 1 in the center that is pulled by the lever, the second lever is fastened by a pin, and one side of the first lever is interlocked with the second lever The seventh lever is fastened by the pin so as to be pulled by the air, and the eleventh lever is fastened by the pin to be pulled by the pin, and the third lever is pushed by the pin, and the rear end of the second lever is pushed by the pin. One end of the third lever is fastened by a pin to pull the fourth lever, and the other end of the third lever and the wire are fastened so that the other end is pulled, and the fourth lever is provided with a rotating groove at the end positioned horizontally with the hydraulic rod. The spacer is fastened by the pin and the fifth lever protruding to the side, and the interval holder is fastened by the hydraulic rod and the pin so as to intersect to maintain the interval at the rotation, and the interval holder coupled with the fourth lever protrudes from the hydraulic rod. The protruding plate body and the wire are fastened, and the tip of the fifth lever having the side fastened to the rotary groove of the fourth lever is fastened to the sixth lever, and the rear end is turned to the motor shaft. The spring is fastened to pull the hydraulic rod, and the bearing is inserted into the central shaft of the motor so that the tip is fixed with the spacing holder, and the spring is fastened with the fifth lever to pull the protruding tail, and the fourth and fifth lever A sixth lever and a second hydraulic press which is pushed in both directions of the central rail and the circular rail shaft in order to increase the rotational force to the sixth lever with which the tip is engaged with the central axis of the rotary rail, and the rotary rail The eighth lever is fastened to the central shaft by the end, and the rear end is fastened by the hinge shaft, and the end is fastened by the pin by the pin to the eighth lever, and the rear is connected to the tenth lever and the pin fitted to the circular rail shaft. When the wire is engaged to pull the tenth lever and the tenth lever and the one side and the nineth lever are fastened and pulled, the wire is pulled to pull the eighth lever inserted in the central axis of the rotating rail. Connected by a first lever 10 by pulling pushed to work with each other to convert the linear motion into rotary motion the power generator, characterized in that for generating the power.

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