TW201919313A - Mechanical energy collection device capable of collecting kinetic energy from flywheel during rotation to convert into electric energy for power generation - Google Patents

Abstract

A mechanical energy collection device comprises a base, a flywheel, a plurality of motors, and a power generation mechanism, wherein the flywheel is disposed on the base and is formed with unidirectional ratchets on the circumference. One side of the flywheel is configured with a plurality of weight blocks. The weight blocks may be moved left and right on the flywheel, so the flywheel may form the eccentric operation during rotation. The plurality of motors are connected with the unidirectional ratchets on the flywheel for driving the flywheel for operation. When the flywheel is rotated to a certain angle, it may form the eccentric operation and speed up the rotation of the flywheel. The power generation mechanism is connected with the flywheel for collecting the kinetic energy from the flywheel during rotation to convert into electric energy.

Description

 Mechanical energy harvesting device  

The invention relates to a mechanical energy collecting device with simple structure and convenient operation.

According to recent years, the current power supply is mainly to use large-scale power plants with centralized concentration to generate electricity by using firepower, nuclear power, wind power, and hydraulic power, and then to deliver electricity to each need through relay substations. The place where electricity is used. However, the use of firepower and nuclear power to generate electricity requires the extraction of fuel energy, which causes great pollution to the environment after use. If wind power or hydropower is used, it is easily affected by weather changes and cannot be stably supplied, and the conversion efficiency is not good. The cost of erecting and maintaining a relay substation is high, and the power is easily lost in the process of transportation.

In addition, the above-mentioned use of "wind power", "solar energy", "hydraulic power" or "geothermal" to generate energy is limited by the "regional" restrictions; for example, some parts of the region are not strong in wind all year round, so It is impossible to use "wind" to generate energy; similarly, the climate in some areas is perennial and rainy, "solar" is naturally unusable; and "hydraulic" and "geothermal" need some unique areas to exist and cannot be effective. The land is suitable for all regions of the world.

The present inventors have developed a mechanical energy harvesting device for use as power generation in view of the existing shortcomings that are limited by the region, and which have been continuously improved.

The main object of the present invention is to provide a mechanical energy harvesting device which is simple in structure and convenient to operate.

To achieve the above objective, the present invention provides a mechanical energy harvesting device comprising a base, a flywheel, a plurality of motors and a power generating mechanism, wherein the flywheel is disposed on the base, and a unidirectional ratchet is formed around the base And a plurality of weights are arranged on one side of the flywheel, and the weights are vertically displaceable on the flywheel, so that the flywheel rotates to form an eccentric operation, and the plurality of motors are unidirectional with the flywheel a ratchet connection for driving the flywheel to operate, and when the flywheel is rotated to an angle, an eccentric operation can be formed to accelerate the rotation of the flywheel, and the power generating mechanism is coupled to the flywheel for collecting the kinetic energy of the flywheel when rotating Converted into electricity.

When implemented, the power generation mechanism is a generator.

In implementation, a fixed rod is disposed on one side of the base, and a temperature sensor, a monitoring device and a switch for controlling the temperature sensor and a monitoring device are disposed thereon.

In order to further understand the present invention, the specific embodiments of the present invention and the effects achieved thereby are described in detail below with reference to the drawings and drawings.

1‧‧‧Base

11‧‧‧Fixed rod

12‧‧‧ Temperature Sensor

13‧‧‧Monitor

14‧‧‧ switch

15‧‧‧Power equipment

2‧‧‧Flywheel

21‧‧‧One-way ratchet

22‧‧‧ Heavyweight

3‧‧‧Motor

4‧‧‧Power generation agency

Figure 1 is a schematic view showing the structure of an embodiment of the present invention.

Figure 2 is a side elevational view of an embodiment of the invention.

Figure 3 is a schematic diagram of the operation of the embodiment of the present invention.

Please refer to FIG. 1 to FIG. 3 for an embodiment of the mechanical energy harvesting device of the present invention, which is composed of a base 1, a flywheel 2, a plurality of motors 3 and a power generating mechanism 4.

The flywheel 2 is disposed on the base 1 , and a unidirectional ratchet 21 is formed around the flywheel 2 , and a plurality of weights 22 are disposed on one side of the flywheel 2 , and the weight 22 is vertically displaceable On the flywheel 2, (in actual practice, the weights 22 can be deformed by elastic springs to form a left-right displacement effect), and when the flywheel 2 rotates, an eccentric operation is formed, and the plurality of motors 3 are coupled with the flywheel. The one-way ratchet 21 of the two is connected, and the power generating mechanism 4 is a generator connected to the flywheel 2 for collecting the kinetic energy of the flywheel 2 when it is rotated to be converted into electric energy.

Therefore, when implemented, as shown in FIGS. 1 to 3, when a plurality of motors 3 are simultaneously started, the flywheel 2 can be driven by the plurality of motors 3 to start high-speed operation, and the flywheel 2 is rotated to an angle. When a flyweight 2 is provided on one side of the flywheel 2, an eccentric operation is formed when the flywheel 2 rotates, so that the flywheel 2 generates an inertial action, thereby accelerating the rotation of the flywheel 2, and the power generating mechanism 4 is in the When the flywheel 2 is driven by the plurality of motors 3 and starts to operate at a high speed, the flywheel 2 can be driven to convert the kinetic energy when the flywheel 2 is rotated into electric energy, and when the flywheel 2 is subjected to inertia to increase the rotational speed, the flywheel 2 can be obtained. More kinetic energy.

In addition, a fixing rod 11 is disposed on one side of the base 1 , and a temperature sensor 12 , a monitoring device 13 and a switch 14 for controlling the temperature sensor 12 and a monitoring device 13 are disposed thereon.

The above is a specific embodiment of the present invention and the technical means employed, and many variations and modifications can be derived therefrom based on the disclosure or teachings herein. The role of the invention is not to be exceeded in the spirit of the specification and the drawings, and should be considered as within the technical scope of the present invention.

In summary, according to the above disclosure, the present invention can achieve the intended purpose of the invention, and provides a mechanical energy harvesting device, which has great practicality and industrial value, and proposes an invention patent according to law.

Claims (3)

 A mechanical energy collecting device comprises: a base; a flywheel disposed on the base, a one-way ratchet is formed around the base, and a plurality of weights are arranged on one side of the flywheel, and the weight is The system can be displaced to the left and right, so that the flywheel will form an eccentric operation when rotating the flywheel; a plurality of motors are connected to the one-way ratchet of the flywheel to drive the flywheel to operate, and when the flywheel is rotated to an angle, Forming an eccentric operation to accelerate the rotation of the flywheel; and a power generating mechanism coupled to the flywheel for collecting kinetic energy of the flywheel to be converted into electrical energy.    The mechanical energy harvesting device of claim 1, wherein the power generating mechanism is a generator.    The mechanical energy harvesting device of claim 1, wherein a fixed rod is disposed on one side of the base, and a temperature sensor, a monitoring device and a temperature sensor are controlled thereon. A switch for monitoring devices.