MX2015002938A

MX2015002938A - Wave energy water channelling apparatus.

Info

Publication number: MX2015002938A
Application number: MX2015002938A
Authority: MX
Inventors: Yun-Chang Yu
Original assignee: Yu Yunchang
Priority date: 2012-09-18
Filing date: 2013-09-11
Publication date: 2015-06-02
Also published as: UA112128C2; CN103485968B; NI201500035A; IL237531A0; SA515360163B1; DOP2015000057A; WO2014044140A1; MA37986B1; PE20150567A1; IL237531B; CO7220318A2; MX366362B; TN2015000015A1; MA37986A1; GT201500066A; CR20150141A; CL2015000373A1; CN103485968A

Abstract

Disclosed is a wave energy water channelling apparatus, comprising a working platform (1), a floating unit (2), a plurality of first water channelling sets (3) and a plurality of second water channelling sets (4), wherein the working platform (1) is provided with a base pillar (11) fixedly connected to the ground of the bed, the first water channelling sets (3) and the second water channelling sets (4) are placed into the water, such that a water current can flow into the water channelling sets (3) and the second water channelling sets (4), and the floating unit (2) can move up and down relative to the working platform (1). The floating unit (2) is used to push the water current in the water channelling sets (3) and the second water channelling sets (4) such that the water current moves upwards into a water collection apparatus, and the potential energy of the water collection apparatus can be used for energy conversion and storage. The wave energy water channelling apparatus can add a different, environmentally-friendly power generation method, by using the wave movement of seawater in rising and falling to convert potential energy to electrical energy.

Description

WAVE ENERGY CONVERSION DEVICE BACKGROUND OF THE INVENTION The present invention relates to an energy conversion device, and more particularly to a wave energy conversion device that converts the potential of the wave into electrical energy.

DETAILED DESCRIPTION OF THE RELATED ART Sustainable energy has become an important issue in recent decades. Ecological energy is a renewable energy of nature, which can be converted effectively to electrical energy. Specifically, green energy could reduce dependence on fossil fuel resources and be consumed without any significant negative impact on the environment. Therefore, the development of renewable energies is continuously advancing.

The general resources of ecological energy are described below: solar energy, which is collected by solar panels and converted into electrical energy. Wind energy, which uses turbines to produce electricity. Tidal energy, which is a form of hydroenergy converted into electrical energy. In addition, other sources of ecological energy are used, such as photosynthesis.

However, the development and utilization of green energy sources should be more advanced and diversified. Specifically, the i Wave energy could be extracted more efficiently in order to convert the potential energy of the waves into electrical energy.

The present invention has arisen to mitigate and / or obviate the disadvantages of the conventional wave energy conversion device.

SUMMARY OF THE INVENTION The main objective of the present invention is to provide an improved wave energy conversion device.

To achieve the objective, a wave energy conversion device comprises a platform, the platform has a retention post anchored to an underwater plant, a plurality of first fluid guide mounts assembled to the platform, each of the mounts fluid guide has a first guide tube and a first side tube, the first guide tube disposed under the water with one end, the first side tube extended upward from a side edge of the first guide tube, a plurality of second fluid guide mounts assembled to the platform, each of the second fluid guide mounts has a second guide tube and a second side tube, the second guide tube disposed under the water with one end, the second extended side tube down from a side side of the second guide tube, a flotation frame, the flotation frame has an upper layer, a lower plate and a co-bar nexion, the float mount assembled to the platform and the float mount movable up and down relative to the platform, the upper plate has a plurality of pistons extended downwards thereof, each of the first pistons inserted in the first tube respective side, the lower plate has a plurality of second pistons extended upward thereof, each of the second pistons inserted in the respective second lateral tube, the upper plate has a plurality of positioning slots defined around an outer periphery of the same, the adjacent positioning slots are separated by a distance, the first fluid guide mounts and the second fluid guide mounts are located in the corresponding positioning slots. Characterized in that, the connecting rod is mounted movably around the platform retaining post; the first guide tube and the second guide tube both have two control valves arranged therein; the first side tube is connected to the first guide tube between the two control valves of the first guide tube; the second side tube is connected to the second guide tube between the two control valves of the second guide tube. The wave energy conversion device further comprises a plurality of support rails disposed at the outer peripheries of the respective first guide tube and the respective second guide tube; the support rails are mounted on the corresponding first guide tube and the corresponding second guide tube; the body ofad. the buoy has a plurality of sliding parts mounted on one side thereof; the adjacent sliding parts are separated by a distance; the sliding parts correspond to the support rails so that the body of the buoy slides relative to the support rails by means of sliding parts. In addition, each sliding part has a sliding wheel assembled therein and connected to the corresponding support rail.

By virtue of this structure, when the body of the buoy is moved by the waves in order to drive the flotation frame moved up and down, the water flows in the first guide tube and the second guide tube and the water in the first guide tube and the second guide tube is pressed upwards by means of the reciprocation of the first piston and the second piston, so that the water flows upwards to a reservoir above the platform.

Other benefits and advantages of the present invention will be apparent after carefully reading the detailed description with appropriate reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of a wave energy conversion device of the present invention; Fig. 1A illustrates that a sliding part has a sliding wheel corresponding to a support rail; Fig. 2 is a perspective view of a flotation frame of the wave energy conversion device; Fig. 3 illustrates a first fluid guide assembly of the energy conversion device, characterized in that a first piston is inserted into a first side tube; Fig. 4 illustrates a second fluid guide assembly of the wave energy conversion device, characterized in that the second piston is inserted into a second side tube; Y FIGS. 5-7 illustrate the energy conversion device, characterized in that the flotation frame with a body of the buoy is movable relative to a retaining post.

DETAILED DESCRIPTION OF THE INVENTION Referring to Figs. 1-2 and 5, a wave energy conversion device according to the present invention comprises a platform 1, a flotation frame 2, a plurality of first fluid guide mounts 3 and a plurality of second fluid guide mounts 4.

Platform 1 has a retention post 11 anchored to an underwater plant. As shown in Figs. 1 and 5, the retaining post 11 extends from the rear of the platform 1 downwards and is anchored to an underwater plant. In a preferred embodiment of the present invention, the retaining post 11 is inserted into the bottom of the sea and secured to prevent the platform 1 from being emptied by the waves of the sea. sea.

Referring to Figs. 3-4, the first fluid guide mounts 3 are assembled to the platform 1. Each of the fluid guide mounts 3 has a first guide tube 31 and a first side tube 32. first guide tube 31 is disposed under the water with one end. The first side tube 32 extends upwardly from a lateral side of the first guide tube 31. The first side tube 32 communicates with the first guide tube 31. The second fluid guide mounts 4 are assembled to the platform 1. Each of the second fluid guide mounts 4 has a second guide tube 41 and a second side tube 42. The second guide tube 41 is disposed under the water with one end. The second guide tube 42 extends downwards from a lateral side of the second guide tube 41. The second guide tube 42 communicates with the second guide tube 41. The first fluid guide mounts 3 and the second mounts Fluid guide 4 are arranged around the platform 1. The first guide tube 31 and the second guide tube 41 are disposed under the water with one end. The first guide tube 31 and the second guide tube 41 both have two control valves 5 disposed therein. The first side tube 32 is connected to the first guide tube 31 between the two control valves 5 of the first guide tube 31. The second side tube 42 is connected to the second guide tube 41 between the two control valves 5 of the second tube of guide 41. So, when the water flows in the first guide tube 31 and the second guide tube 41 from one end thereof, the respective control valves 5 are provided to prevent reverse flow of water. Referring to Figs. 1, 2 and 5, the flotation frame 2 has an upper plate 21, a lower plate 22 and a connecting rod 23. The connecting rod 23 connects the upper plate 21 and the lower plate 22. A buoy body 24 is mounted around the upper plate 21. The buoyancy mount 2 is assembled to the platform 1 and the buoyancy mount 2 moves up and down relative to the platform 1. The upper plate 21 has a plurality of pistons 211 extended downwardly thereof. Each of the pistons 211 is inserted into the respective first side tube 32. The lower plate 22 has a plurality of second pistons 221 extended upward therefrom. Each of the second pistons 221 is inserted into the respective second lateral tube 42. The connecting rod 23 is movably mounted around the retaining post 11 of the platform 1 so that the flotation frame 2 can be moved relative to the pole of retention 11. So, when the body of the buoy 24 is driven by the waves, the upper plate 21, the lower plate 22 and the connecting rod 23 move simultaneously so that the first pistons 211 and the second pistons are reciprocated vertically. Characterized in that, each first piston 211 is inserted into the first respective lateral tube 32 in order to press the water in the first guide tube, and each second piston 221 is inserted in the second respective lateral tube 42 to press the water in the second one. guide tube 41.

Referring to Fig. 2, the upper plate 21 has a plurality of positioning slots 212 defined around an outer periphery thereof. The adjacent positioning slots 212 are separated by a distance. The first fluid guide mounts 3 and the second fluid guide mounts 4 are located in the corresponding positioning grooves 212 in order to maintain the stability of the upper plate 21.

In addition, a plurality of support rails 25 are disposed at the outer peripheries of the first guide tube 31 and the respective second guide tube 41. The support rails 25 are mounted on the corresponding first guide tube 31 and the second guide tube 31. guide 41. As shown in Figs. 1 and 5, in the preferred embodiment, the first guide tube 31 and the second guide tube 41 are cylindrical in shape. The body of the buoy 24 has a plurality of sliding parts 241 mounted on one side thereof. The adjacent sliding parts 241 are separated by a distance. The sliding parts 241 correspond to the support rails 25 so that the body of the buoy 24 can be slid relative to the support rails 25 by means of the sliding parts 241. In addition, each sliding part 241 has a sliding wheel 2411 assembled therein and contacted to the corresponding support rail 25, so that each sliding part 241 can be slid into the respective support rail 25 smoothly by means of the 2411 sliding wheel.

Referring to Figs. 1, 5, 6, 7, when the body of the buoy is moved by the waves to drive the flotation frame 1 moved up and down, the water flows in the first guide tube 31 and the second guide tube 41 and the water in the first guide tube 31 and the second guide tube 41 is pressed upwards by means of the reciprocation of the first piston 211 and the second piston 221. Thus, the water flows towards up to a reservoir (not shown) above platform 1. The potential energy of the water in the reservoir can be converted into electrical energy or other applications. The mechanism of the present invention is described above, characterized in that the water flows upwards through the first fluid guide mounts 3 and the second fluid guide mounts 4 by the movement of the flotation frame. Fig. 6 shows the device for converting the energy of the waves under low water conditions and Fig. 7 shows the device for converting the energy of the waves under conditions of high water level. Therefore, the difference in water level provides a potential energy that can be converted into electrical energy.

Claims

CLAIMS: What is claimed is:

1. An energy conversion device, comprising: a platform, the platform has a retention post anchored to an underwater plant; a plurality of first fluid guide mounts assembled to the platform, each of the first fluid guide mounts has a first guide tube and a first side tube, the first guide tube disposed in an underwater plant with one end, the first side tube extended upwardly from a lateral side of the first guide tube; a plurality of second fluid guide mounts assembled to the platform, each of the second fluid guide mounts has a second fluid guide tube and a second side tube, the second guide tube disposed under the water with one end , the second lateral tube extended downward from a lateral side of the second guide tube; Y a flotation frame, the flotation frame has a top plate, a bottom plate and a connecting rod, the flotation frame assembled to the platform and the flotation frame is movable up and down relative to the platform, the plate upper that has a plurality of first pistons extended downwards thereof, each of the pistons inserted in the first tube respective lateral, the lower plate has a plurality of second pistons extended upward thereof, each of the second pistons inserted in the respective second lateral tube, the upper plate has a plurality of positioning slots defined around an outer periphery of the same, the adjacent positioning slots defined around an outer periphery thereof, the adjacent positioning slots are separated by a distance, the first fluid guide moldings and the second fluid guide mounts are located in the slots of corresponding positioning; characterized in that, when the body of the buoy is moved by the waves to drive the flotation frame moved up and down, the water flows in the first guide tube and the second guide tube and the water in the first tube of guide and the second guide tube is pressed upwards by means of the reciprocation of the first piston and the second piston, so that the water flows upwards to a reservoir above the platform.

2. The energy conversion device as claimed in claim 1, characterized in that the connecting rod is movably mounted around the retaining post of the platform.

3. The wave energy conversion device as claimed in claim 1, characterized in that the first guide tube and the second guide tube both have two control valves arranged therein; the first side tube is connected to the first guide tube between the two control valves of the first guide tube; the second side tube is connected to the second guide tube between the two control valves of the second guide tube.

4. The wave energy conversion device as claimed in claim 1, further comprises a plurality of support rails disposed at outer peripheries of the respective first guide tube and the respective second guide tube; the support rails are mounted on the corresponding first guide tube; the support rails are mounted on the corresponding first guide tube and the second guide tube; the body of the buoy has a plurality of sliding parts mounted on one side thereof; the adjacent sliding parts are separated by a distance; the sliding parts correspond to the support rails so that the body of the buoy can slide relative to the support rails by means of the sliding parts.

5. The energy conversion device as claimed in claim 4, characterized in that each sliding part has a sliding wheel assembled therein and connected to the corresponding support rail.