JP6035464B2 - Power generator - Google Patents

Description

  The present invention relates to a power generation device in which the energy at which an object falls is changed to a rotational force

  Conventional energy is highly dependent on fossil fuels, generating CO2 and causing environmental problems.

  In order to escape from these problems, the country has been trying to switch to natural energy such as wind power and solar heat. However, natural energy is unstable, such as when it is sunny, rainy, or when there is no wind. This prevents stable energy supply.

  To solve the above problem, supplement the unstable factors.

  In order to eliminate fossil dependence, artificial energy is used together with natural energy.

  In order to solve the artificial energy described above, the solution can be achieved by adopting the seesaw principle depicted in FIG.

  When the fulcrum O of one bar (AB) is in the center, it is balanced and does not operate, but if the fulcrum O is moved in the direction of the A point, the fulcrum distance between OB will be It becomes longer and the bar falls like a two-dot chain line by increasing the point B side.

  In other words, it is possible to obtain the fall energy as the fulcrum O moves from the center to the A point side.

  In order to obtain energy continuously, you can find continuous energy by attaching multiple arms.

  By not using fossil fuel, it can be supplied cheaply and stably without being influenced by the weather etc.

  If the dependence on fossil fuels is reduced, there is an effect of reducing CO2.

  It can supplement natural energy.

  When used in combination with a battery, an eco-car that does not use fuel becomes possible.

  Quickly respond to emergencies.

  Embodiments of the present invention will be described below with reference to the drawings.

  The deformed cylinder body 2 consists of a starting part, a brake part, and output power 8 accessories.

  Deformation cylinder 2 is a cylinder that forcibly moves the fulcrum distance.

  There are four falling slide arms 1 in the deforming cylinder 2, and the falling slide arms 1 are penetrated through the collecting drum 5 at equal intervals so as not to cross each other, and the falling slide arms 1 are gathered so that they can move smoothly. A slide roller 20 is provided at the exit of the drum 5.

  On the other hand, both ends of the falling slide arm 1 are weights, and arm rollers 3 are provided for smooth rotation.

  A guide ring 6 is provided to prevent the arm roller 3 from coming off the track.

  When the brake handle 4 is turned counterclockwise before starting, the forward rotation screw 14 and the reverse rotation screw 13 are simultaneously rotated, the spline 12 is returned by the return spring 11, the desk arm 15 is opened to the left and right, and the desk pad 10 is also a desk plate. Leaving 9 and the brake loosened. (The figure shows a loose state.)

  On the other hand, by pulling a starter rope 19 of a coil starter (utilizing a commercially available coil starter) 17 to increase the rotational force, each falling slide 1 starts to rotate clockwise along the deformation cylinder 2.

  In the following, the operation principle will be explained with a focus on Fig. 2.

  When the falling slide arm 1 reaches the point 1a, it is forcibly pushed up by the arm roller 3 by the deforming cylinder 2, but the fulcrum distance is the same as the top and bottom, and no drop occurs.

  Further, when proceeding to the next point 1b, the arm roller 3 is pushed out from the deforming cylinder 2 and the dropping slide 1 is pushed up in the diagonal direction toward the figure, so that the fulcrum distance becomes the longest length, so that it falls. The slide arm 1 becomes heavier and begins to rotate clockwise.

  Proceeding to the next point 1c, the fulcrum distance of the falling slide arm 1 keeps the longest length and the maximum falling force is obtained.

  Proceeding to the next point 1b, the fulcrum distance of the falling slide arm 1 will keep the longest length, but the falling force will converge.

  When the falling slide arm 1 that has been rotated and dropped is approached directly below, it is pushed up while rotating by the deforming cylinder 2 due to the falling gravity of another falling slide arm 1, and the vertical length is reversed in the opposite direction, and is further pushed up and dropped. The distance from the fulcrum of 1 becomes longer and the rotating drop begins. Continuous rotation is obtained by repeating this operation.

  The rotational energy is concentrated on the collecting drum 5 through each falling slide arm 1, and the power is guided to the output generator 8 via the output shaft 7.

When stopping, turn the brake handle 4 clockwise and the brake will work, and each falling slide arm 1 will also stop.

  Principle of seesaw arm   Operation principle diagram of falling slide arm   CC partial sectional view on the side of FIG. 4 of the modified cylinder of the present invention   Sectional view taken along line AA in FIG.   Sectional view taken along the line BB in FIG.   The perspective view seen from the output generator side of the deformation cylinder

DESCRIPTION OF SYMBOLS 1 Fall slide arm 2 Deformation cylinder 3 Arm roller 4 Brake handle 5 Aggregation drum 6 Guide ring 7 Output shaft 8 Output generator 9 Desk board 10 Desk pad 11 Return spring 12 Spline 13 Reverse screw 14 Positive screw 15 Desk arm 16 Mounting bolt hole 17 Coil starter 18 Oil drain plug 19 Starter rope 20 Slide roller 21 Arm roller pin 22 Bearing

Claims (3)

An aggregating drum that rotates inside the deforming cylinder is installed, and the power of each arm that becomes the power source (rotating and dropping motion of the arm) is concentrated on the aggregating drum, and the arm fulcrum distance on the rotating and dropping side is set to the optimum position. At the same time as making the falling arm heavier than the arm that is always pushed up, insert a roller into the contact part that becomes the fulcrum of each arm, and the roller does not come off the track on the inner surface of the deforming cylinder Thus, by providing a guide ring, a power generation device that finds further rotational force.   The power generating device according to claim 1, wherein the angles are shifted at equal intervals so that the arms do not cross each other, and at the same time, the collecting drum moves the fulcrum from the center of the circle to the outside. The power generator is controlled by a deforming cylinder so that the distance from the fulcrum of the arm on the falling side is always longer (heavy).   3. A power generating apparatus according to claim 2, wherein the deformable cylinder keeps the fulcrum distance of each arm on the rotating and dropping side at an optimum position in order to smoothly increase the rotational force, and both ends of each arm also serve as weights. A power generator that increases the rotational force by increasing the gravity.

Images