KR20220134794A - a rotating device driven by the flywheel principle - Google Patents

Abstract

The present invention relates to a rotary device driven by a flywheel principle. The rotary device includes: a rotary wheel body having a center shaft pipe placed in a wheel body center part formed into a perfectly circular shape with a predetermined size and weight to connect four supports from the outer circumference of the center shaft pipe to a wheel body inner surface at equidistant intervals, and having a rotary shaft installed in a wheel body center shaft pipe; a crank part having a plurality of roller support shafts placed at regular intervals along an oval shaft rod formed on the outer circumference of the center shaft pipe of the rotary wheel body to be placed on the roller support shafts in a direction parallel to the rotary shaft of the rotary wheel body, and having a roller of the same shape installed on the rotary support shafts protruding from both sides of the oval shaft rod; and inner wheels placed on both sides of the rotary wheel body, connected with an outer wheel, which is smaller in diameter than the rotary wheel body, through four connectors placed in an outer wheel center part, and having a diameter large enough to house the oval shaft rod of the crank part, wherein a wheel body having a support protrusion piece formed to be expanded outward in a diameter direction penetrating the center of the inner wheel between the supports connecting the inner wheel with the outer wheel is formed on the outer circumference of the inner wheel to connect support protrusion pieces of both wheel bodies to the support shaft rod, a roller is placed in the center of the connected support shaft rod to connect both wheel bodies with each other on both sides of the rotary wheel body while a flywheel having an inner wheel part placed on the outer circumference of the crank part to bring the roller of the crank part into contact with the inner circumference surface of the inner wheel is provided such that when the rotary wheel body is rotated, the flywheel is driven to reinforce a rotation force with the gravitation of the flywheel in a rotating direction of the rotary wheel body.

Description

A rotating device driven by the flywheel principle

According to the present invention, a central shaft tube is arranged in the center of a circular ring body having a certain size and weight, and four supports are connected at equal intervals from the outer periphery of the central shaft tube to the inner surface of the ring body, and a rotating shaft is mounted on the ring body center shaft tube. And, an elliptical shaft is formed on the outer periphery of the central shaft of the rotating wheel body, and a plurality of roller support shafts are arranged at regular intervals along the elliptical shaft, and are arranged parallel to the roller supporting shaft in the direction of the rotation axis of the rotating wheel body, both sides of the oval shaft A crank part equipped with the same type of roller on the roller support shaft protruding from The inner ring is connected to the outer ring with an inner ring and has an inner ring having a diameter capable of accommodating the elliptical shaft of the crank unit. By constructing a ring body with supporting protrusions so that the supporting protrusions of both wheel bodies are connected with the supporting shaft rods, rollers are placed in the center of the connected supporting shaft rods so that both rings are connected to each other on both sides of the rotating wheel body, and the inner ring part is placed on the outer periphery of the crank unit It is a rotating device in which the flywheel in contact with the roller of the crank part is provided on the inner circumferential surface of the inner ring, and when the rotating wheel body rotates, the flywheel is driven so that the rotational force of the flywheel is reinforced in the rotational direction of the rotating wheel body.

Conventional rotating devices operate a generator or drive an industrial machine using the rotational force of an electric motor, using the rotational force of a water wheel rotating by hydraulic power, or using the rotational force of a windmill rotating by wind power.

Therefore, in the case of an electric motor, the cost is high because electricity is used as energy, and in the case of a hydroelectric power, the facility cost is high because a dam must be installed.

In order to solve the above inconvenience, the present invention is to obtain a rotating device driven by a flywheel principle in which a flywheel is coupled to a rotating wheel body having a certain weight and size to reinforce the rotational force of the rotating wheel body.

The present invention makes a circular ring body having a certain size and weight, arranges the central shaft tube in the center of the ring body, and leads from the point where the outer periphery of the central shaft tube is divided into quarters to the point where the inner peripheral surface of the rotation wheel body is divided into quarters. The wheel body and the central shaft pipe are integrated by forming a shaft, and the rotating wheel body with the rotating shaft rod fixed at the center of the central shaft pipe and the rotating shaft rod are disposed at both ends of the rotating shaft rod of the rotating wheel body, and the shaft hole is formed in the upper shaft handle to support the rotating wheel body supported on the rotating shaft An oval shaft is formed on the outer periphery of the central shaft tube of the sphere and the rotating wheel body, and a plurality of roller support shafts are fixed at regular intervals along the oval shaft to be arranged in parallel with the rotation shaft, so that the rollers of the same type are formed at both ends of the roller support shaft. The crank part arranged with are arranged at equal intervals to form a pair of connected rings, and on the outer periphery of the inner ring, protrusions are formed on both sides in the radial direction passing through the center of the inner ring and projecting outward from the outer periphery of the inner ring, and the protruding pieces of both ring bodies are used as the connecting shaft. After connection, a flywheel with rollers inserted into the connecting shaft so that the rollers contact between the supports of the rotating wheel body, a drive pulley attached to one end of the rotating shaft, and a drive pulley of the rotating wheel body and a chain belt are connected to the generator to drive the generator shaft And, a charging unit for charging the electric power of the generator, and an electric motor driven by the charged electricity is equipped with a power auxiliary device that assists the driving force of the rotating wheel body with the power of the electric motor.

According to the present invention, when the rotating wheel body is initially rotated by the driving force of the auxiliary device, the crank part disposed on the outer periphery of the central shaft tube rotates to drive the flywheel coupled to the rotating wheel body, and the flywheel is installed at the center of the rotating wheel body Driven by the operation of the crank part, the position of the rotating wheel body is moved from the center along the support interval of the rotating wheel body by the rollers attached to the outer periphery of the inner ring, and the impact of the flywheel is added to the rotational direction of the rotating wheel body, thereby accelerating the rotation of the rotating wheel body Therefore, the rotating wheel body rotates continuously due to its own rotational force and the rotational inertia of the flywheel, and accordingly, the power generated on the rotating shaft of the rotating wheel body can operate the generator, and on the outer surface of the rotating wheel body Because the driving force of the motor comes into contact with the rotating wheel to add power to the rotation of the rotating wheel, the rotating wheel continues to rotate, and by combining it with the flywheel, a rotating device capable of strong rotation can be obtained and used in industry. .

1 is an exemplary view of a rotating body part of the present invention;
Figure 2 is an exploded perspective view of Figure 1;
3 is a front view of the coupling state of the rotating wheel body and the flywheel;
4 is an exemplary view in which the flywheel of the present invention operates
5 is an exemplary view connecting the present invention to a generator.

The present invention makes a ring body 1 having a predetermined size and weight, arranges a central shaft tube 1a in the center of the ring body, and divides the outer periphery of the central shaft tube into quarters, leading to a point where the inner peripheral surface of the ring body is divided into quarters. The four supports (1b) are connected to integrate the wheel body and the central shaft tube, and the rotating wheel body (A) in which the rotating shaft rod (1c) is fixed to the center of the central shaft pipe;

An elliptical shaft (2) is formed on the outer periphery of the central shaft of the rotating wheel body, and a plurality of roller support shafts (2a) are fixed at regular intervals along the oval shaft in the direction parallel to the rotation shaft, so that both ends of the roller support shaft have the same standard. The crank part (B) on which the roller (2b) of the

A pair of four connecting rods (3c) connected at equal intervals between an outer ring (3a) disposed on both sides of the rotating wheel body and having a diameter smaller than that of the rotating wheel body (3a) and an inner ring (3b) having a diameter to accommodate the elliptical shaft of the crank unit of the ring bodies 3 and 3', disposed on both sides in the direction passing the diameter of the inner ring from the outer periphery of the inner ring, and forming protrusions 3d to protrude outward from the outer periphery of the inner ring. is connected to the connecting shaft (3e), and then the roller (3f) is inserted into the connecting shaft so that the roller (3f) is in contact with the support stem (1b) of the rotating wheel body (A);

A rotating wheel body support device disposed at the upper end of the support 4 for supporting the rotating wheel body at a certain height and having a shaft hole formed in the shaft holder 4a for supporting the rotating shaft of the rotating wheel body to support the rotating shaft of the rotating wheel body (a) and

The driving pulley 5 attached to one end of the rotating shaft of the rotating wheel body, the generator 7 connected to the driving pulley of the rotating wheel unit and the chain belt 6 to drive the generator shaft 7a, and charging the power of the generator and a power assisting device (E) that assists the rotating wheel body with driving force with a driving roller (9a) that is equipped with a charging unit (8) and an electric motor (9) driven by charged electricity is the composition

1: wheel body 1a: central shaft pipe
1b: support interval 1c: rotation shaft bar
2: shaft 2a: roller support shaft
2b: roller 3,3': wheel body
3a: outer ring 3b: inner ring
3c: between connections 3d: protrusion
3e: connecting shaft 3f: roller
4: support 4a: shaft part
5: drive pulley 6: chain belt
7: generator 7a: generator shaft
8: charging part 9: auxiliary motor
9a: driving roller A: rotating wheel body
B: Crank unit C: Flywheel
D: Rotating wheel support device E: Power auxiliary device

Claims (1)

A ring body 1 having a fixed size and weight is made, and the central shaft tube (1a) is placed in the center of the ring body. A rotating wheel body (A) with a rotating shaft rod (1c) fixed at the center of the central shaft pipe,
An oval shaft (2) is formed on the outer periphery of the central shaft tube of the rotating wheel body, and a plurality of roller support shafts (2a) are fixed at regular intervals along the elliptical shaft in the direction parallel to the rotation shaft, respectively, with the same standard at both ends of the roller support shaft. The crank part (B) on which the roller (2b) of the
An outer ring 3a disposed on both sides of the rotating wheel body and having a diameter smaller than that of the rotating wheel body, and an inner ring 3b disposed in the center of the outer ring and having a diameter of a size to accommodate the elliptical shaft of the crank unit, are formed between the four connections 3c. ) are arranged at equal intervals to form a pair of ring bodies 3 and 3' that integrate the outer and inner rings, and are arranged on both sides in the direction passing the diameter of the inner ring from the outer periphery of the inner ring 3b of the ring body, and from the outer circumference of the inner ring to the outside. The protruding pieces 3d are formed to protrude toward the side, and the protruding pieces 3d of both wheel bodies are connected to the connecting shaft 3e. A flywheel (C) made to contact the support (1b) of
A rotating wheel body support device disposed at the upper end of the support 4 for supporting the rotating wheel body at a certain height and having a shaft hole formed in the shaft holder 4a for supporting the rotating shaft of the rotating wheel body to support the rotating shaft of the rotating wheel body (a) and
The driving pulley 5 attached to one end of the rotating shaft of the rotating wheel body, the generator 7 connected to the driving pulley of the rotating wheel unit and the chain belt 6 to drive the generator shaft 7a, and charging the power of the generator A flywheel equipped with a charging unit 8 and an electric motor 9 driven by charged electricity, and a power auxiliary device (E) that assists the driving force of the rotating wheel body with a driving roller 9a that rotates with the power of the electric motor A rotating device driven by the principle.

Images