JPH03111672A - Recovery of gravitational acceleration energy - Google Patents

Abstract

PURPOSE:To operate a system without supply of energy from the external by returning a material placed at a low position after recovering position energy to a high position where position energy is high using a passage of inertial system. CONSTITUTION:A liquid pumping system consisting of a number of liquid lifting tanks 1 installed on a rope 2 or the like a belt conveyor is rotated. By returning liquid continuously from a low position to a high position using a passage of inertial system for supplying position energy while recovering energy in a passage of non-inertial system. In addition, excessive energy is supplied to the external. The whole system can thus be operated without supply of energy from the external.

Description

[Detailed description of the invention] The present invention relates to potential energy.

Conventional potential energy recovery systems include hydroelectric power generation, but hydroelectric charging involves dropping water from a high-position water tank, converting the water's potential energy into kinetic energy, and then converting it into electrical energy using a generator. Although this system collects water, the water in the high-placed water storage tanks was left to natural phenomena such as rainfall. Also, in recent years,
J! Like water power generation, it comes in second place by using surplus electricity generated at night from nuclear power plants, etc.; ηThere is also a system that returns energy-recovered water to a high-position water storage tank at night and reuses it as electricity during the day. However, the present invention further improves the water recycling circuit of this pumped storage power generation, and by recycling water using an inertial system path, the entire system can be recycled without external energy supply for recycling. We have just created a system that is operable and can also supply surplus electricity to the outside.

Now, I will explain why one gravitational acceleration energy can be recovered by using the non-inertial frame path and the inertial frame path simultaneously in one system.

According to the graph in Figure 1, the ratio *;11 To clarify, the graph (A) is a graph in which potential energy is converted into kinetic energy in an ideal state. In a non-inertial frame, when an object starts falling from a high position, it is accelerated by the action of gravitational acceleration and its speed increases.The kinetic energy increases in proportion to the square of the speed, so it draws a quadratic curve. , the rate of change increases as the Shi1 increases, the graph of (Qui) is (
This is a graph when the kinetic energy in (a) is recovered as electrical energy by a generator, and since there is a loss of energy recovery within the system, the quadratic curve in (a) is
I! The graph follows 1. (1) graph is f of gravitational acceleration? This is a graph when water is pushed up from a low position to a high position (:l, 7F) using a water pump of the number of people in an n-inertial system recycling circuit, and there is still excess energy consumption in the system. Therefore, L in the graph of (a)
The quadratic curve along the side is 1! <.

However, as shown in Figure 2, the pumping tank (+1 is
2) Attach many to etc. 31! When the water is continuously pulled out, it cancels out the tension of the IR gravity acceleration rope and becomes a uniform motion of the inertial system, and when the water is returned to a high position using the path of the inertial system, the consumption for that purpose is reduced. The energy graph becomes a one-tube line with a -order leap number, as shown in (E) in Figure 1, making it possible to significantly reduce energy consumption. In other words, the difference in energy between the quadratic curve and the linear line is inertial force (E), and the energy of gravitational acceleration, which is this inertial force, can be recovered. Since then, many people have tried to create a perpetual motion machine, but since they all tried to create a system using the same inertial frame, they failed repeatedly without losing the law of conservation of energy + 111. Also, when looking at the motion of a non-inertial thread from an inertial frame, it is a well-known fact that the law of conservation of energy does not hold unless inertial force is used. By incorporating it into one system, it is possible to recover the energy of gravitational acceleration, which is inertial force.

Now, let us explain what kind of system will be implemented as the 'X embodiment of the present invention.

Recovery of energy from gravitational acceleration is the key to hydroelectric power generation in Tomei.
In a non-inertial system, one apparatus energy can be converted to kinetic energy by dropping energy at a high level; the level possessed by a liquid at n, or by utilizing the high pressure within the sediment at a low position in an aquarium. A power generation system is used that converts the energy into energy and recovers it as kinetic energy, or further recovers it as electrical energy using a generator. moreover.

Using part of the recovered energy, we can create a system that supplies potential energy again by using a device that performs motion in an inertial frame such that gravitational acceleration cancels out each other.In reality, we can create a system that supplies potential energy again. Conveyor type pumping tank (
J1 with a large number of 1) attached to ropes (2), etc. By rotating the liquid device and returning the liquid continuously from a low position to a high position through a link path in an inertial system, energy is collected through a rod path in a non-inertial system while supplying energy for one operation. By using a system that can supply excess energy to the outside, and by arranging a large number of pumps 1 (8) in rows 1rC in the pumping device (Figure 3), the pressure inside the pumping pipes 7) can be made almost uniform. This system achieves the same effect as pulling up with a rope by pumping liquid while keeping it at a low temperature.

These systems can be used for conventional hydroelectric power generation, as well as underwater hydroelectric power plants that utilize underwater water pressure as shown in Figure 4, and small hydroelectric power plants installed on buildings, ships, etc. In addition, since the liquid can be completely recycled, the power generation efficiency is increased by +1 (by using other heavy liquids), and the 1U power generation using magnetic fluid as a medium is possible. etc. Ir (will become Noh).

[Brief explanation of drawings]

The first I'4 is the potential energy and J! M? This is a graph of the relationship between h and energy. (a) is the ideal state; 6 energy is changed to M dynamic energy, (b) is a of (a)
The graph (1) when S energy is recovered by a generator shows the electrocardiographic energy (1 ) is the energy (force) required to obtain potential energy in the motion of an inertial frame is X! II. Stop of dynamic energy. (K) is (+1.; ht of 72 energy
. FIG. 2 shows the basic structure for implementing the invention. 1. Liquid pumping tank, 2..17-7.3. Liquid receiving tank 4.
・Acceleration tube, 5..Liquid, 6..turbine, 7..generator, 8..transformer, 9..power transmission line. 10. Drive motor Figure 3 is also a structural diagram for implementing the present invention. Storage 8v
Tank, 2. Liquid guide pipe, 3. Lighting nozzle, 4. Power generation L
5... Transformer, 6... Turbine, 7... Lifting pipe, 8...
Liquid pump 1.9...Transfer pump ■Z line, 10...Liquid Figure 4 is a structural diagram of an underwater hydroelectric power plant in which the system of the present invention is installed underwater. 1. Exterior wall, 2. Birch water pipe, 3. Spout nozzle 4.
Turbine, 5...5! Electrical equipment, 6...Transformer 7...Liquid pipe, 8...Liquid pump 1.9...Power transmission line 10...Power transmission pipe, 1
1. Seawater, 12. Seabed. (to) (9,?'

Claims (1)

[Claims] A system that converts the potential energy of an object into kinetic energy using a path in a non-inertial system where gravitational acceleration acts, and recovers it as kinetic energy, and then recovers it as electrical energy using a generator. A gravitational acceleration energy recovery method that uses an inertial frame path to return an object at a low position to a position with high potential energy.