KR20100007804U - Enlarge Generation Efficiency Equipment in Use Motor and Lever - Google Patents

Abstract

The present invention relates to a power generation efficiency increasing device using the rotational force of the motor and the principle of the lever

1) Power supply to rotate the rotating disk connected to the motor shaft

2) A metal rod that transfers power from the motor to the generator

3) Metal rod support serving as a support point

4) Self-aligning bearing part that minimizes the frictional force of the rotating shaft and adjusts the rotation angle

5) The basic configuration of the generator is to generate more energy by rotating the generator with the force multiplied by the supporting force using the principle of the lever of the motor.

This is because the disk attached to the shaft of the motor and the metal rod (power point) fixed to the disk by using the power of the motor rotates, the generated rotational force is transmitted to the opposite generator unit (acting point) through the metal rod, the force transmitted Install a support (motor) between the motor and the generator to make it larger.

This can increase the force generated compared to the force used.

 Motor, generator, self-aligning bearing, metal rod, nut, washer, rotating disc

Description

Generation Generation Efficiency Equipment in Use Motor and Lever}

The present invention uses the lever principle to drive a motor that consumes relatively little power, thereby rotating the metal rod to transmit more power to the generator to rotate the large capacity generator to increase the output power compared to the power consumption. It is about.

Most of the techniques for generating devices can be summarized in terms of how to obtain the rotational power to turn the generator.

Wind power generated wind, hydropower dropped water, and thermal power generated steam to turn the turbines to transfer the rotational power to the generators.

In addition, a diesel generator is a gas generated by burning fuel, and converts the piston movement of an internal combustion engine into a rotating force to a generator and transmits the same.

The present invention applies the principle of the lever to the existing motor and generator, and rotates the disc fixed to the motor shaft and the metal rod fixed with the nut on the disc, and transmits more power to the generator shaft, resulting in more output power than power consumption. Its purpose is to.

The present invention is to transfer the energy generated by the motor to the generator with a greater force, in order to achieve the above object is to connect a metal rod acting as a lever to the motor and the generator, and the support point in the lever It depends on where you put the support.

To solve this problem, fix the disc on the motor shaft, dig a circular hole in the disc, weld the self-aligning bearing in it, fix it, insert a metal rod into the inner ring of the bearing, and fix it with nuts and washers. To do this, thread the thread on the motor shaft and the end of the metal rod so that the nut can be tightened.

The connection method of generator shaft is the same. The position of the support serving as a support point is close to the generator side, maximizing the leverage effect.

In addition, the metal rod passes through the support, and a certain angle of rotation is required to rotate, and the friction loss must be minimized when the metal rod is rotated.

The present invention is designed to produce a larger amount of electricity using a small amount of electricity, and when applied to homes, factories, and industrial sites, it is possible to reduce the electricity consumption and obtain economic benefits, as well as fossil fuel consumed in thermal power generation. It is also effective in reducing environmental pollution by reducing the use of.

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

As shown in FIG. 1, a circular groove 10-d is formed at the edge of the disc so that the metal rod 5 can act as a lever by fastening the rotating disc 3 to the shaft 10 connected to the motor 1. . Insert the self-aligning bearing (3-f in Fig. 6) into the circular groove, weld the outer ring, insert the metal rod into the inner ring, and fix it with nuts (3-b) and washers (3-a, c). At this time, the motor side disc 3 is larger than the generator side disc 4 to maximize the leverage of the lever.

In the connecting method of the motor shaft 10 and the rotary disk 3, as shown in Fig. 3, a half-wall groove 10-c is made in the center of the rotary disk, and the motor shaft end 10-e is also processed into a half-wall type to rotate the motor shaft. Machine the section so that the original disk can rotate in the same way.

The nut (10-a), washer (10-b), disc (3), washer (10-b), nut to the motor shaft in order to fix the motor shaft and the rotating disk.

The motor side support structure 14 is made higher than the generator side support structure 13 to prevent the disc from touching the structure during rotation.

After the assembly of the motor-side rotating disc and the metal rod is completed, the metal rod 5 is inserted into the support disc 7 by the metal rod 5 as shown in FIG. Weld and fix the self-aligning bearing (7-f) which guarantees a constant rotation angle after plate.

The support base plate 7 and the support column 12 are fixed by welding, and the support column and the support column support 11 are also fixed by welding. Support pillar support is fixed to the generator support structure 13 with a bolt (7-a) to serve as a support point of the lever.

After the assembly to the support is completed, as shown in Figure 5, the generator disc 4 and the metal rod (5) is assembled, which is also the same as the motor disc and the metal rod assembly method, the generator shaft 9 and the generator rotation disc (4) As shown in Fig. 2, only the motor shaft and the rotating disc are assembled in different directions, and the rest are the same.

Also, when assembling the metal rods on the generator disc and the motor disc, the rods are assembled in a diagonal direction.

Rotating the rotating disk and the metal rod connected to the motor as described above, the greater the force transmitted to the generator shaft than the rotational force generated from the motor with the support plate as a support point, thereby rotating a larger capacity generator that requires greater torque By doing so, it is possible to obtain more power than used power.

If the distance from the working point to the support point is 10cm and the distance from the support point to the power point is 30cm, if the force required at the power point is 1kg, the force generated at the working point is 3kg. That is, it is possible to rotate the generator of 3kw by using a motor of 1kw capacity. Of course, there is energy to rotate the disk and friction loss in the bearing, but considering the loss energy, the output of 2kw or more is economical.

Figure 1 Representative drawing of the present invention

Figure 2 is a perspective view showing the structure of the generator shaft and the disc

Figure 3 is a perspective view showing the structure of the motor shaft and the disc

Figure 4 is a perspective view showing the assembly structure of the motor and generator shaft and the disc

Fig. 5 is a perspective view showing a generator side plate and a metal rod assembly structure

Fig. 6 Perspective view showing the motor side disc and metal rod assembly

Fig. 7 is a perspective view showing the original structure of the metal rod support side and the metal rod assembly

Claims (4)

Using the motor's electric rotational force, make a circular hole on the disc and its disc, and weld the outer ring of self-aligning bearing to the inside of the disc. Power generating device for processing and fixing both sides with nuts and washers Fixed disc and supporting device serving as a supporting point in the lever for transmitting the doubled force generated from the motor to the generator through the metal rod The rotating force generated from the motor receives the increased force through the support through the metal rod, drills a circular hole in the disc and the disc connected to the generator shaft, and welds and fixes the outer ring of the self-aligning bearing in the metal rod inside the bearing. To insert a screw into the nut fixing part of the rotating shaft and fix both sides with a nut and a washer to rotate the generator to receive the increased power to generate electricity. Structures for fixing motors, generators, and metal rod support devices (13,14) in Figure 1

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