KR101064597B1 - Tidal power generation device - Google Patents

Abstract

The tidal power generation device according to the present invention includes one or more chassis, a rail frame, and a chain support rack. A driver is provided at the end of the rail frame. The driver includes a connection bar. The chain support rack includes tom-shaped wheels arranged in the chassis and supporting and operatively connecting a chain connected to the connecting bar. One of the tomney wheels includes a shaft supported by the unidirectional bearing and operatively connected to the first transmission shaft by gears engaged. The first transmission shaft actuates a second transmission shaft connected to the generator. The driver, when moved forward by sea waves, activates the first transmission shaft by the chain and the tomney wheel, thereby causing rotation of the second transmission shaft to transmit torque to the generator to produce electricity.

Tidal Power, Wave, Generator, Rail Frame, Chain Support Rack

Description

Tidal power generators {TIDAL POWER GENERATION DEVICE}

TECHNICAL FIELD The present invention relates to tidal power generation apparatus, and more particularly, to a tidal power generation apparatus including at least one chassis, a rail frame, and a chain support rack.

Earth's natural resources are running out. Fossil fuels, which human society has relied on for a long time, will be excessively consumed and depleted sooner than expected.

The solution to fossil fuel depletion is to develop new energy. However, no groundbreaking findings yet appear. Therefore, for the time being, more complete exploitation of current natural resources would be a more viable and practical way. For example, developing new resources for electricity supply.

Conventionally, the main stream sources of electricity have been obtained from thermal power generation, hydroelectric power generation, wind power generation, and nuclear power generation, and since the thermal power generation is achieved by coal combustion, areas without coal mine have no economic benefit, Causes serious air pollution. Nuclear power is related to a high level of technology, creating a definite obstacle in low-tech countries, and with serious potential deficiencies in radioactivity pollution, nuclear power may be an impractical option for human society. have. Therefore, wind and hydro are the most acceptable options in most of the countries of the world.

Both wind and hydro power require "wheels" or turbines that are rotated by wind or hydro to power generators for electricity generation. Such hydropower generation is expensive to require dams to store hydropower and results in limiting the possible life of the dam. The most advanced technique for generating electricity is the recovery of kinetic energy from sea waves or waves. Since sea waves are generated naturally, most of the kinetic energy of sea waves is not limited. However, although the motion of sea waves can be seen in one direction, the actual motion of sea waves is substantially a forth-and-back motion. Known turbines are arranged in a fixed orientation and the blades of the turbine are arranged at fixed inclination angles, both of which make it impossible for the turbine to be perfectly aligned in the direction of motion of the sea waves.

Summary of the Invention

It is therefore an object of the present invention to provide a tidal power generator comprising at least one chassis, rail frame and chain support rack. The rail frame is arranged in an inclined fashion on one side of the chassis. A driver arranged at the end of the rail frame includes a connection bar and a float arranged at its front side. The chain support rack is installed above the chassis, and the chain support rack is disposed obliquely. Two toothed wheels are respectively installed at opposite ends of the chain support rack to support and operably connect the chain. The connection bar of the driver is connected with the chain. The low-side tomney wheel has a shaft arranged centrally, the shaft being supported by a one-way bearing, the shaft and the first transmission shaft (first The shaft is operably connected to the first transmission shaft by the engagement of the gears installed in the transmission axle. The first transmission shaft operates the second transmission shaft when the first transmission shaft is operatively connected to the second transmission shaft connected to the generator. By installing a power generation device on the coastline, the driver is forced forward by sea waves and the connecting bar moves forward to cause the chain to move, the movement of the chain being caused to rotate the tom-shaped wheels and the shaft. It works. The shaft gear actuates the first transmission shaft, which actuates the second transmission shaft to drive a dynamo for generating electricity.

Referring to the drawings and in particular to FIG. 1, a tidal power generation device 1 constructed by the present invention comprises at least one chassis 2, a rail frame 3 and a chain support rack 1. chain support rack, 4). The chassis 2, which serves as the base of the device, connects and supports the rail frame 3 and the chain support rack 4. The rail frame 3 is arranged in an inclined direction downward on one side of the chassis 2 and extends from the chassis 2.

The rail frame 3 movably carries a driver 31, which driver is arranged at an opening 311 and on one side of the driver 31 opposite the opening 311. To form a float 312. A plurality of rollers 313 are installed at the bottom of the opening 311. The rollers 313 are movably received in rail slots 314 formed in the rail frame 3. The rail slots 314 properly place the driver 31. A connection bar 315 extends from the front of the driver 31 and has a free distal front end to which a connector 316 is installed. The connector 316 is operatively connected to the chain 43.

As shown in FIG. 2, the chain support rack 4 is arranged in an inclined arrangement on top of the chassis 2. Opposite distal ends of the chain support rack 4 are each provided with toothed wheels, the wheels being a low-side wheel 41 and a high-side wheel, respectively. 42). The tomney wheels 41, 42 are actuated by being operatively connected to the chain 43 and interconnect with each other.

The roller 431 is installed in the connection state between the chain 43 and the connector 316 of the connection bar 315, which also supports the connection bar 315 disposed next to the chain 43 and Reciprocating movement is possible according to the chain support rack 4. The lower side wheel-shaped wheel 41 has a shaft 411 arranged centrally, which shaft 411 is mounted to the chain support rack 4 by a bearing and has a first transmission axle, The gear 412 meshes with the gear 451 installed at 45. The first transmission shaft 45 drives the second transmission shaft 46. Both the first transmission shaft 45 and the second transmission shaft 46 are supported on the coupling frame 47 by bearings. As shown in FIG. 3, the coupling frame 47 has a second transmission shaft 46 on a plurality of power generators 1 of the same structure, such as 10-15 power generators 1. Connect it. The power generators 1 are arranged in a cascade stepped arrangement, wherein one of the power generators 1 is coupled between the generator 5 and one of the power generators 1 so as to have an inertial force. Is connected to the generator dynamo 5 by means of the flywheel 6 which maintains a smooth and continuous operation of the generator 5.

 Substantially, as shown in Figs. 4-6, one of the arrangements of one set of power generating apparatuses 1 according to the present invention is illustrated as an example. The power generator 1 according to the present invention is installed on the shoreline by a rail frame 3 extending toward seawater. The driver 31 carried by the rail frame 3 is floated on the sea water by the float 312. The drive of the power generation device 1 is achieved by having the driver 31 operated to receive sea waves and to be driven forward by sea water waves.

 When the driver 31 moves forward, the connecting bar 315 is moved forward to activate the movement of the chain 43, thereby moving the tomney wheel 41 around the shaft 411. The gear 412 installed on the shaft 411 rotates the first transmission shaft 45 to drive rotation of the second transmission shaft 46. At this time, the second transmission shaft 46 transmits torque to the next power generator 1. The remaining power generators 1 are driven in the same way that the drivers 31 of the generator receive sea waves and are pushed forward.

As a result, all the torques according to the power generator 1 are transmitted to the generator 5 so that the generator 5 generates and releases power.

The present invention advances the driver 31 of the power generation device 1 forward using sea waves, and when the waves retreat, the driver 31 returns to sea level. The shaft 411 is connected to the chain support rack 4 by a one way bearing 44 so that the first transmission shaft 45 is only rotated forward or forward of the driver 31. When the driver 31 returns to sea level, it is not rotated by the chain 43 and the tomney wheel 41. As shown in FIG. 7, a third transmission shaft 48 is further provided in the vicinity of the first transmission shaft 45 to maintain continuous electricity generation while the driver 31 returns to sea level. The first transmission shaft 45 and the third transmission shaft 48 are provided with gears 452 and 481 respectively engaged with each other. The shaft 411 is also provided with a gear 413 for actuating the rotation of the third transmission shaft 48. The gear 413 is supported by the unidirectional bearing 44 'in such a way that the third transmission shaft 48 is rotated by the gear 413 only when the driver 31 moves out of the sea level. Rotation of the third transmission shaft 48 is transmitted to the gear 452, which substantially actuates the first transmission shaft 45 to rotate the second transmission shaft 46 to the generator 5. It is to transmit torque.

The effect of the present invention utilizes the impact force caused by sea waves to advance the driver 31 of the power generation device 1, thereby the chain 43, the first transmission shaft 45, and the second transmission. Torque is applied to the generator 5 by moving the connecting bar 315 sequentially by causing the movement / rotation of the shaft 46. Therefore, the motor of the generator 5 is rotated and electricity is generated. In this way, both electricity generation and environmental protection can be realized simultaneously.

1 is a perspective view of a tidal power generator constructed in accordance with the present invention.

Figure 2 shows an enlarged view of the chassis and chain support rack of the tidal power generation apparatus according to the present invention.

Figure 3 is a plan view showing a layout for an application example of the tidal power generation apparatus according to the present invention.

Figure 4 is a side view of the tidal power generation apparatus of the present invention installed on the shoreline.

5 is a side view of the chain support rack of the tidal power generator of the present invention.

6 is a side view of the tidal power generator according to the present invention showing the driving of the power generator when the driver of the power generator is subjected to an impact force due to sea waves.

7 is a perspective view showing a tidal power generation device constructed by another embodiment of the present invention.

Claims (10)

In a tidal power generation device, the device comprises: A chassis configured to be installed at the shoreline; A rail frame disposed obliquely on one side of the chassis, A rail frame including a driver arranged on the rail frame and having a connecting bar extending from the rail frame; And A chain support rack disposed obliquely in the chassis, wherein the tomney wheels are installed in the chain support rack to support the chain and operably connect with the chain, one of the tomney wheels being centered. And a shaft arranged in the form of the shaft, the shaft being supported by the unidirectional bearing and operatively connected to the first transmission shaft by engagement between the gears installed on the shaft and the first transmission shaft, the first transmission shaft being connected to the second transmission shaft. A rail frame operatively connected to the transmission shaft to drive the second transmission shaft; Including, The connecting bar of the driver is connected to the chain and the second transmission shaft Connected to a dynamo, and when a wave exerts force to move the driver forward, the connecting bar is moved forward to cause rotation of the tomney wheels and the shaft, such that the gears of the shaft transmit the first transmission. A tidal power generator for driving a shaft and then driving said second transmission shaft to operate said generator to produce electricity. The tidal power generator according to claim 1, wherein the driver forms an opening. The tidal power generator according to claim 1, wherein said driver comprises a float disposed at the front side. The tidal power generator according to claim 1, wherein the connection bar has a front end to which a connector is installed. The tidal power generator according to claim 1, wherein the driver is provided with rollers at a bottom thereof. The tidal power generator according to claim 1, wherein the rail frame forms rail slots. The tidal power generator according to claim 1, wherein the chain is connected to a roller. The tidal power generator according to claim 1, wherein said tidal power generator further comprises a third transmission shaft arranged in proximity to said first transmission shaft. 9. The tidal power generating apparatus according to claim 8, wherein the first transmission shaft and the third transmission shaft are provided with gears engaged with each other. The tidal power generator according to claim 1, wherein a flywheel is connected between the generator and the power generating device.

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