KR20150074267A - Generating system - Google Patents

Abstract

Disclosed in the present invention is a generating system including a frame, a main shaft, a weight movement stand, a weight movement means, a first driving gear, a second driving gear, a first driven gear, a first driving force delivery shaft, a second driven gear, a second driving force delivery shaft, a first driving force delivery gear, a second driving force delivery gear, an acceleration gear box, and a generator. The generating system according to the present invention convert a pendular movement into rotation, when the weight movement stand swings left and right, rotates the first driving force delivery shaft always in the same direction, and supplies the rotation force to the generator through the acceleration gear box, thereby having an effect of producing electric energy.

Description

{GENERATING SYSTEM}

More particularly, the present invention relates to a power generating apparatus, and more particularly, to a power generating apparatus, more particularly, to a power generating apparatus, To a power generating device configured to be able to obtain a power generating device.

General power generation and power generation systems use natural environments and resources such as hydro, thermal, nuclear, wind, and tidal power.

However, in order to realize such a power generation system, it is necessary to construct an infrastructure suitable to the conditions of the power generation system, which causes a lot of equipment cost, pollution of surrounding environment due to environmental development, and destruction of ecosystem. In addition, there is a disadvantage in that the energy efficiency is lower than the facility cost.

On the other hand, Korean Patent Registration No. 10-1246920 discloses a power generation apparatus that obtains electric energy by using power supplied from an engine using fossil fuel. However, the power generation apparatus disclosed in this patent can also produce efficient electric energy, but there is a problem that the fossil fuel must be constantly consumed constantly.

1) Korean Patent Laid-Open No. 10-2006-0008665 (Published on Jan. 27, 2006), entitled "Small Generator Using Weight Centered Weight & 2) Korean Patent Laid-Open No. 10-2012-0026765 (Publication date: March 20, 2012), title of invention: "Swing type play device which can be driven by self- 3) Korean Patent Application No. 10-2011-0102460 (Published on September 16, 2011), entitled " 4) Korean Registered Patent No. 10-1246920 (Registered Date: Mar. 18, 2013)

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the problems described above, and an object of the present invention is to provide an apparatus and a method for efficiently performing a weight movement while lifting and lowering a cold motor connected to a main shaft in one direction, And to provide a power generation device that can generate electric energy by driving a generator using a rotational force generated in a main shaft while rotating.

The above-mentioned objects are achieved by a frame structure comprising a frame provided on an upper portion thereof and constituting a basic frame; A main shaft rotatably installed on the mounting table; A cold pedestal extending downward from the main shaft and pivotally moving in the left and right direction and rotating the main shaft while pendulum movement to repeatedly rotate counterclockwise to the normal rotation; An acceleration means for pivoting the cold pedestal; A first driving gear installed at one end of the main shaft and rotated together with the main shaft; A second driving gear provided at the other end of the main shaft and rotating together with the main shaft; When the first driving gear rotates in the reverse direction, the first driving gear is engaged with the first driving gear, and when the first driving gear rotates forward, the first driving gear is not engaged with the first driving gear, A first driven gear having a smaller diameter than the first drive gear; A first power transmission shaft coupled to the first driven gear and configured to rotate together; When the second drive gear rotates in the reverse direction, the second drive gear is not engaged with the second drive gear, so that only the second drive gear rotates. When the second drive gear rotates forward, A second driven gear having a smaller diameter than the second drive gear; A second power transmission shaft coupled to the second driven gear and configured to rotate together; A first power transmission gear coupled to a portion of the second power transmission shaft and rotating together; And a second power transmission shaft that is coupled to a portion of the first power transmission shaft and is engaged with the first power transmission gear so that when the second power transmission shaft rotates together with the second driven gear, A second power transmission gear for forward rotation; A speed increasing gear box connected to an end of the first power transmitting shaft for increasing the rotational force of the first power transmitting shaft through a combination of a plurality of gears and outputting the rotational force; And a generator connected to an output portion of the speed increasing gear box to generate electric energy while being driven by receiving the power of the speed increasing gear box, wherein the teeth of the driving gear formed on the first driving gear and the second driving gear are arranged in an equilateral triangle The first driving gear and the second driving gear transmit power when they rotate in opposite directions, so that the directions of the teeth of the driving gears are different from each other Wherein the driven gear teeth formed on the first driven gear and the second driven gear have a tooth structure of a right triangular shape in which the corresponding driving gear teeth and the vertical surface and the inclined surface are formed in opposite directions, And is rotatably coupled to the body of the driven gear and the second driven gear through a pin so that the vertical surface of the driven gear teeth and the teeth of the driven gear teeth When the face is interposed, the power is transmitted to rotate together, and when the inclined face of the driving gear teeth and the inclined face of the driven gear teeth are interfaced, the power is not transmitted while the driven gear teeth rotate about the pin do.

The auxiliary weight is configured to have an anchor shape. The main weight is installed at the left end of the cold stand and the auxiliary weight is installed at the right end to assist the pendulum movement of the cold stand. When the main weight portion is lifted upwards through the weight lifting means, the auxiliary weight is lowered to push up the main weight so that the main weight is lifted up. When the weight is lowered, since the auxiliary weight is lighter than the main weight, the auxiliary weight portion is lifted upwardly so that the cold pedestal smoothly pivots right and left.

The weighting means may include a first connecting ring formed on the left end of the main weight, a second connecting ring formed on a lower portion of the main weight, and a second connecting ring provided on the left upper end of the frame, A drive sprocket coupled to a shaft of the drive motor and rotated by receiving power of the drive motor; a driven sprocket rotatably installed in the frame below the main weight; And a chain connecting the drive sprocket and the driven sprocket, wherein the drive shaft is connected to the first connection ring and the second ring is formed at the other end and connected to the second connection ring, When the forward rotation is performed, the chain rotates in one direction, the main weight is lifted, the cold hoist moves to the left, and when the drive motor reverses, the chain moves in the opposite direction So that the weight of the main body is lowered and the cold leg is rotated to the right.

The power generating device according to the present invention converts the pendulum motion into a rotational motion to rotate the first power transmission shaft in the same direction at all times and supplies the rotational force to the generator through the speed increasing gear box, And the electric energy is produced from the electric power.

The power generation device according to the present invention is provided with both the main weight and the auxiliary weight at both ends of the cold stand when the cold stand moves in the left and right directions to assist the pendulum movement of the cold stand, It is possible to smoothly perform pendulum motion in the cold earth, and therefore, it is possible to continuously produce electric energy continuously by providing an accurate amount of rotational energy to the generator.

1 is a front view showing a configuration of a power generation apparatus according to the present invention;
2 is a plan view for explaining a configuration of a power generating apparatus according to the present invention,
3 is a perspective view showing only the power transmitting means in the present invention,
4 is an enlarged view showing a tooth structure of a first driven gear and a first driven gear according to the present invention,
5 and 6 are views showing a state in which the first drive gear and the first driven gear are not meshed when the first drive gear rotates in the opposite direction in FIG. 4,
7 is an enlarged view showing a tooth structure of a second driven gear and a second driven gear according to the present invention,
FIG. 8 and FIG. 9 show a state in which the second drive gear and the second driven gear are not meshed when the second drive gear rotates in the opposite direction in FIG. 7,
10 and 11 are operational views of the present invention.

The present invention will now be described in detail with reference to the accompanying drawings.

1 to 6, the power generating apparatus according to the present invention includes a frame 10 constituting a basic frame, and a mounting table 10 is installed on an upper portion of the frame 10.

On the mounting table 10, a main shaft 100 is provided so as to be rotatable to the left and right, and a cold pedestal 200 extending downward is installed on the main shaft 100. The cold pedestal 200 is coupled to the main shaft 100 to pivotally move about the main shaft 100. When the cold pedestal 200 performs the pendulum movement, the main shaft 100 transmits its power And then performs forward rotation and reverse rotation repeatedly.

Here, it is preferable that the cold pedestal 200 is configured to have the shape of an anchor, but it is not necessarily limited to the shape of the cold pedestal 200, and any shape can be applied as long as the pendulum can move right and left. A main weight 210 is installed at a left end of the cold pedestal 200 and an auxiliary weight 220 is installed at a right end of the cold pedestal 200 to assist pendulum movement of the cold pedestal 200.

At this time, the main weight 210 is heavier than the auxiliary weight 220. Preferably, the auxiliary weight 220 may have a weight of about half of the weight 210. [ This is because when the main weight 210 is lifted upwardly by the weighting means, the auxiliary weight 220 is lowered to push up the main weight 210 so that the main weight 210 can be lifted up, When the main weight 210 is lowered by dropping the main body 210, the auxiliary weight 220 is lighter than the main weight 210, so that the auxiliary weight 220 is lifted upward. That is, the auxiliary weight 220 and the main weight 210 help the cold pedestal 200 to smoothly pivot left and right.

And the cold pedestal 200 is configured to pendulum movement through an acceleration exercise means. The weighting means includes a first connection ring 212 formed at the left end of the main weight 210, a second connection ring 214 formed at a lower portion of the main weight 210, A driving sprocket 310 coupled to the shaft of the driving motor 300 and rotated by receiving the power of the driving motor 300, A driven sprocket 320 rotatably mounted on the frame 10 below the main weight 210 and a first ring 332 formed at one end thereof and connected to the first connection ring 212 and a second ring And a chain 330 connecting the driving sprocket 310 and the driven sprocket 320 with a ring 334 formed therein and connected to the second connecting ring 214. Between the drive sprocket 310 and the driven sprocket 320, an auxiliary sprocket 340 is installed to hold the chain 330 sagged.

Therefore, when the drive motor 300 rotates in the normal direction, the chain 330 rotates in one direction to lift the main weight 210 and the cold base 200 rotates to the left, When the chain 330 rotates in the opposite direction, the main weight 210 descends and the cold platform 200 rotates to the right. At this time, when the main motor 210 is lifted up while the driving motor 300 rotates in a forward direction, the auxiliary weight 220 is lowered to relieve the driving motor 300 from lifting the main weight 210, When the driving motor 300 rotates in the reverse direction to lower the main weight 210, the main motor 210 has a force to be lowered by the weight of the main weight 210, so that no load is applied to the driving motor 300. That is, the driving motor 300 is assisted by the auxiliary weight 220 when lifting the main weight 210. When the main weight 210 is lowered, the main weight 210 is slowly lowered Because it is only a role to hold, it will not be burdened.

When the cold pedestal 200 is rotated to the left or right via the weighting means, the main shaft 100 receives the power and rotates when it alternates left and right. The rotational force of the main shaft 100 is transmitted to the power transmitting means To the generator (600) to produce electrical energy in the generator (600).

That is, the power transmission means converts the left and right rotational force of the main shaft 100 into a rotational force in one direction and transmits it to the speed increasing gear box 500. In the speed increasing gear box 500, the rotational force is increased and transmitted to the generator 600, (600).

The power transmission unit includes a first driving gear 400 and a second driving gear 410 that are installed at one end and the other end of the main shaft 100 and rotate together with the main shaft 100. A first driven gear 420 having a diameter smaller than that of the first driving gear 400 is installed on the first driving gear 400 so as to be selectively engaged with the first driven gear 400, When the first driving gear 400 and the first driven gear 420 engage with each other and rotate together and the first driving gear 400 rotates forward, the first driving gear 400 and the first driven gear 420 rotate in the forward rotation direction, The first drive gear 400 is rotated only because the first drive gear 420 is not engaged. A second driven gear 430 having a diameter smaller than that of the second driving gear 410 is installed in the second driving gear 410 so as to be selectively engaged with the second driven gear 410, The second drive gear 410 and the second driven gear 430 are not engaged with each other to rotate only the second drive gear 410. When the second drive gear 410 rotates forward, The driving gear 410 and the second driven gear 430 are engaged with each other and rotate together. A first power transmission shaft 440 is coupled to the first driven gear 420 so as to rotate together and a second power transmission shaft 450 is coupled to the second driven gear 430 so as to rotate together .

Therefore, when the main shaft 100 rotates, the first driving gear 400 and the second driving gear 410 rotate together. When the main shaft 100 rotates in the reverse direction, the first driving gear 400 rotates in the reverse direction The first driven gear 420 engaged with the first driving gear 400 is rotated in the forward direction and the first power transmitting shaft 440 is also rotated in the forward direction. At this time, since the second drive gear 410 and the second driven gear 430 are not meshed with each other, the second driven gear 430 does not rotate and thus the second power transmission shaft 450 does not rotate either . On the contrary, when the main shaft 100 is rotated in the normal direction, the second driven gear 410 rotates in the normal direction while the second driven gear 430 engaged with the second driven gear 410 rotates in the reverse direction, The power transmission shaft 450 also rotates together. At this time, since the first driven gear 400 and the first driven gear 420 are not meshed with each other, the first driven gear 420 does not rotate, and therefore, the first power transmitting shaft 440 does not rotate either .

A first power transmission gear 460 is coupled to a portion of the second power transmission shaft 450 so as to rotate together. A second power transmission gear 470 is connected to a portion of the first power transmission shaft 440, When the second power transmission shaft 450 rotates together with the second driven gear 430 in the reverse direction, the first power transmission shaft 440 is engaged with the first power transmission shaft 440, ). Accordingly, the first power transmission shaft 440 is always rotated in the forward direction, and provides rotational energy regardless of whether the main shaft 100 rotates in the forward or reverse direction.

In order to enable the above-described operation, the present invention improves the structure of the gear teeth. 4 and 7, the drive gear teeth G1 formed on the first drive gear 400 and the second drive gear 410 may have tooth structures of substantially right triangular shape, And the other surface is formed as an inclined surface. Of course, since the first drive gear 400 and the second drive gear 410 transmit power when they rotate in opposite directions, the directions of the drive gear teeth G1 are formed in directions opposite to each other. The driven gear teeth G2 formed on the first driven gear 420 and the second driven gear 430 have a tooth structure of a substantially right triangle in which the corresponding driving gear teeth G1 and the vertical surface and the inclined surface are formed in opposite directions, The driven gear teeth G2 are rotatably coupled to the bodies of the first driven gear 420 and the second driven gear 430 via the pins P. [ Accordingly, when the vertical surface of the drive gear teeth G1 and the vertical surfaces of the driven gear teeth G2 are in contact with each other, the power is transmitted and rotated together as shown in Figs. 4 and 7 and the inclined surfaces of the drive gear teeth G1 and the driven gear teeth When the inclined surface of the driven gear G2 is interposed, the driven gear G2 rotates around the pin P as shown in FIGS. 5, 6, 8, and 9 so that the power is not transmitted. Of course, since the first driven gear 420 and the second driven gear 430 transmit power when they rotate in opposite directions to each other, the direction of the driven gear teeth G2 is opposite to that of the driving gear teeth G1 Direction.

Next, the rotational force of the first power transmission shaft 440 is increased in the speed increasing gear box 500 to be transmitted to the generator. This speed increasing gear box 500 is configured to transmit the first power transmission through the combination of the plurality of gears The rotational force of the shaft 440 is increased and output, and a detailed description thereof will be omitted because it is a known technique.

Next, a drive pulley 700 is installed on the output shaft 510 output from the speed increasing gear box 500, a driven pulley 710 is installed on the shaft of the generator 600, and a drive pulley 700 and a driven pulley 710 Is connected through a belt 720 so that the power of the output shaft 510 is transmitted to the generator 600.

In the meantime, the present invention further includes a motion control means for limiting the movement radius when the cold pedestal 200 pivots to the left and right. That is, the cold pedestal 200 always performs the right and left pendulum movements at the same height through the motion control means.

The motion control means includes a first stopper 222 extending downward from the auxiliary weight 220, a second stopper 216 extending downward from the main weight 210, And the first stopper 222 of the auxiliary weight 220 is disposed at a position where the first stopper 222 touches the main weight 210 when the main weight 210 moves to the left, A first touch sensor 800 that senses the touch and transmits a signal that the drive motor 300 operates in the opposite direction, and a second touch sensor 800 that is installed in a lower portion of the frame 10 and in which the main weight 210 moves to the right The auxiliary weight 220 is installed at a position where the second stopper 216 of the main weight 210 touches at a point of time when the auxiliary weight 220 reaches the highest point. When the second stopper 216 touches the auxiliary weight 220, And a second touch sensor 810 for transmitting a signal to operate in the opposite direction. Of course, it is configured to transmit signals of the first touch sensor 800 and the second touch sensor 810 to the driving motor 300 to control the operation of the driving motor 300 through a separate controller.

Now, the operating relationship of the power generation apparatus according to the present invention constructed as above will be described.

10, the first drive gear 400 and the second drive gear 410 rotate together with the main shaft 100 when the cold base 200 moves to the left, 1 driven gear 420 does not rotate but only the second driven gear 430 is engaged with the second driving gear 410 and is rotated in the reverse direction. The power of the second power transmission shaft 450 is transmitted to the first power transmission gear 460 and the second power transmission shaft 450 through the second power transmission gear 460 and the second power transmission shaft 450, The rotation of the first power transmitting shaft 440 is transmitted to the first power transmitting shaft 440 through the power transmitting gear 470 so that the first power transmitting shaft 440 is rotated in a forward direction, The generator 600 is operated to obtain electric energy.

11, the first drive gear 400 and the second drive gear 410 are rotated in the opposite direction together with the main shaft 100 when the cold base 200 moves to the right, The second driven gear 430 does not rotate and only the first driven gear 420 is engaged with the first driving gear 400 to rotate forward. The first driven gear 420 and the first power transmitting shaft 440 are then rotated together and the rotating force of the first power transmitting shaft 440 operates the generator 600 through the speed increasing gear box 500 Electric energy is obtained.

As described above, even if the cold pedestal 200 moves pivotally to the left and right, the first power transmission shaft 440 always rotates in the normal direction, thereby providing a continuous rotational force to the speed-increasing gearbox 500, Generator 600 is always supplied with the same rotational force to produce electric energy.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Anyone who can afford it will know.

100: Spindle 200: Cold wind
210: main weight 220: auxiliary weight
300: drive motor 400: first drive gear
410: second driving gear 420: first driven gear
430: second driven gear 440: first power transmission shaft
450: second power transmission shaft 460: first power transmission gear
470: second power transmission gear 500: speed increasing gear box
600: generator G1: drive gear tooth
G2: driven gear tooth P: pin

Claims (3)

A frame provided on the upper part and constituting a basic frame;
A main shaft rotatably installed on the mounting table;
A cold pedestal extending downward from the main shaft and pivotally moving in the left and right direction and rotating the main shaft while pendulum movement to repeatedly rotate counterclockwise to the normal rotation;
An acceleration means for pivoting the cold pedestal;
A first driving gear installed at one end of the main shaft and rotated together with the main shaft;
A second driving gear provided at the other end of the main shaft and rotating together with the main shaft;
When the first driving gear rotates in the reverse direction, the first driving gear is engaged with the first driving gear, and when the first driving gear rotates forward, the first driving gear is not engaged with the first driving gear, A first driven gear having a smaller diameter than the first drive gear;
A first power transmission shaft coupled to the first driven gear and configured to rotate together;
When the second drive gear rotates in the reverse direction, the second drive gear is not engaged with the second drive gear, so that only the second drive gear rotates. When the second drive gear rotates forward, A second driven gear having a smaller diameter than the second drive gear;
A second power transmission shaft coupled to the second driven gear and configured to rotate together;
A first power transmission gear coupled to a portion of the second power transmission shaft and rotating together;
And a second power transmission shaft that is coupled to a portion of the first power transmission shaft and is engaged with the first power transmission gear so that when the second power transmission shaft rotates together with the second driven gear, A second power transmission gear for forward rotation;
A speed increasing gear box connected to an end of the first power transmitting shaft for increasing the rotational force of the first power transmitting shaft through a combination of a plurality of gears and outputting the rotational force; And
And a generator connected to an output portion of the speed increasing gear box to generate electric energy while receiving power from the speed increasing gear box,
The teeth of the driving gear formed on the first driving gear and the second driving gear may have a tooth structure of a right triangle so that one surface is formed as a vertical surface and the other surface is formed as an inclined surface,
Since the first drive gear and the second drive gear transmit power when they rotate in opposite directions to each other, the directions of the teeth of the drive gear are formed opposite to each other,
Wherein the driven gear teeth formed on the first driven gear and the second driven gear have a teeth structure of a right triangle in which the corresponding driving gear teeth, the vertical surface and the inclined surface are formed in opposite directions,
The driven gear teeth are rotatably coupled to the bodies of the first driven gear and the second driven gear through pins. When the vertical surfaces of the teeth of the driving gear and the vertical surfaces of the driven gear teeth are interfaced, the power is transmitted to rotate together, Wherein when the inclined surface of the driven gear teeth is engaged with the inclined surface of the driven gear teeth, the power is not transmitted while the driven gear teeth rotate about the pin.
The method according to claim 1,
Wherein the cold pedestal is configured to have an anchor shape and the main body is disposed at the left end of the cold pedestal and the auxiliary pedestal is provided at the right end to assist the pendulum movement of the cold pedestal,
The main weight is heavier than the auxiliary weight, and when the main weight portion is lifted upwards through the weight movement means, the auxiliary weight is lowered to push the main weight to be lifted up well, When the main weight is lowered by releasing the main weight portion, the auxiliary weight is lifted upwardly because the auxiliary weight is lighter than the main weight, so that the cold pedestal smoothly pivots right and left .
3. The method of claim 2,
Wherein the weighting means comprises:
A first connecting ring formed at a left end of the main weight,
A second connecting ring formed on a lower part of the main weight,
A drive motor provided at an upper left side of the frame and capable of selectively forward and reverse,
A driving sprocket coupled to a shaft of the driving motor and rotated by receiving power of the driving motor;
A driven sprocket rotatably mounted on the frame below the main weight,
And a chain connected to the drive sprocket and the driven sprocket, wherein the first ring is formed at one end and connected to the first connection ring, and the other end is formed with a second ring and connected to the second connection ring,
When the driving motor rotates in the forward direction, the chain rotates in one direction to lift the main weight, and the cold hoist rotates to the left. When the driving motor rotates in the reverse direction, the chain rotates in the opposite direction, And the rotor is rotated to the right.

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