JPS6085264A - Power magnifying machine applying balance force - Google Patents

Abstract

PURPOSE:To enable a larger amount of power generation to be obtained, by rotating a motor to turn a crankshaft through pulleys and laterally movably and vertically actuating a lever guided bar by lever guiding shafts so as to drive a generator through pulleys. CONSTITUTION:Rotation of a motor 6 is transmitted to a crankshaft 4 through a velt 21, pulley 7, the first rotary shaft 3, pulleys 8, 10 and a belt 9. Then the crankshaft 4, laterally and alternately rotating bearing housings 12 of lever guiding shafts in its both ends, causes a lever guided bar 13, whose center part is mounted to a tower frame 11, to laterally movably make a vertical motion, and the lever action of said lever guided bar 13 causes the crankshaft 4 to rotate in a light turning effect. Next, rotation of the crankshaft 4 drives a generator 20 through pulleys 14, 16, belt 15, rotary shaft 5, flywheel 17, pulley 18 and a belt 19. In this way, a quantity of power generation far greater than the quantity of power used for the electric motor 6 can be obtained.

Description

[Detailed description of the invention] This invention relates to a power booster for a balanced cal.

The rotation of the motor (6) installed in the frame (1) is applied to the pulley (7) via the bell [2υ,
Rotate the first rotating shaft (3) installed in (7).
When the rotation shaft (4) is rotated, the rotation shaft (3) is connected to the pulley 00 at the other end connected by a belt (9) to the pulley (8) as shown in the figure. (4)
Make both ends of the part into a U-shape α■, and install a bearing with a lever guide shaft there, and insert the lever guide shaft α into the lever guide shaft bearing.
At this point, attach the lever guide rod 01 to the center of the lever.The lever guide rod 01 is then installed so that it can freely move left and right and up and down.

This can be done by applying a very small amount of force when moving the lever up and down when an equal amount of weight is applied to both ends of the lever guiding rod.

The present invention is an important invention.

In other words, when the lever guide rod a→ moves up and down, the left and right lever guide shaft bearings α■ rotate alternately on the left and right.At this time, due to the action of the lever, the rotational force of the co-rotating shaft (4) is somewhat lightened. Next, in order to rotate the motor in a certain direction, a very small amount of electricity is passed to the motor (6) to generate a rotational force, and a belt shear is used to generate a rotational force in the first pulley (
7) causes the rotary shaft (3) to rotate, and the third guide pulley (0Q) is rotated by the belt (9) hooked on the second guide pulley (J-large) installed on both sides of this shaft.

The fourth guiding pulley installed on the rotating shaft (4) is α→
The third rotating shaft (5) is hung on the fifth guiding pulley αQ by the belt αQ that is attached to the belt αQ, and is attached to the guiding pulley.
When generating a rotational force, a large flywheel αη is installed at both ends of the rotating shaft (5), and a freewheel is built in the center of this large flywheel α. At least the large flywheel α applies its centrifugal force inertia to the rotational force of the rotating shaft (A) and rotates the rotating shaft (5).
) to make it rotate faster and more strongly.

At this time, the α field in the induction pulley installed on the rotating shaft (5) is rotated, and the generator (A) is generated depending on the belt α field applied thereto.
The generated power of this generator is much larger than the amount of electrical power used by the electric motor (6).

[Brief explanation of the drawing]

Figure 1 is a plan view of the present invention Figure 2 is a side view of the present invention (1): Main body frame (2): Bearing box (3): First rotating shaft (4): Second rotating shaft (5): 3rd rotation axis (6): Electric motor (7): Induction 1st pulley medium (8): Induction 2nd pulley large (9): Induction 2nd V belt (1st: Induction 3rd pulley large a◇ Nyagera frame (B): Lever induction shaft bearing insertion α1: Lever induction shaft rod 04: Induction 4th pulley a→: Induction 4th V belt αQ: Induction 5th pulley large α No. 2 large flywheel (with free hole) 0 groan: In the 6th induction pulley (1 groan: Induction 6th belt ■: Generator Qυ: Induction 2nd V belt): 3rd rotating shaft. Patent applicant Kaoru Kondo

Claims (1)

[Claims] (a) A motor (6) is provided on the frame (1), and the motor (6) connects the first rotating shaft (3) via a V-belt (Q) and a pulley (7). ) and attach the V-belt (9) to the pulley (8) on the left and right sides of this
Rotate the crankshaft (4) through the (o+ Provide a lever induction shaft (1 wharf) connected to the left and right sides of the crankshaft (4), and install a dowel (11) on the central frame (1). (c) Next, the crankshaft (4) Separately Boo'J-(1→
is provided and rotated around the third rotating shaft (5) via V-belt α→pulley αQ. 2) Pulleys α are installed on the left and right sides of the rotating shaft (5), and a pulley α is installed in the center. (E) The generator (A) is rotated through the V-belt α to the pulley (1e) to generate electricity. The balanced force applied power booster configured as described above.