TWI434996B - Reusable wave energy generation device and method - Google Patents

Description

Wave power generation device and method capable of being recycled and reused

The present invention relates to a wave power generation device and method for recyclable use, which has the advantages and functions of utilizing buoyancy to achieve mobility, recyclable use, and power required to provide a marine working vessel.

The way to use the power of nature to generate electricity is generally wind power, wave power and solar power. Wave power generation mainly converts the kinetic energy of the waves into electric energy according to the characteristics of the vibration of the upper and lower waves. Taiwan's coastline is more than 1,000 kilometers long. In line with the strong monsoons in the coastal areas, there are often turbulent waves on the sea. Therefore, wave power generation is not only a considerable ocean energy, but also has no day and night problems with solar power generation. Continue to achieve the effect of power generation.

As shown in the first figure, the conventional wave power generating device 90 has a container 91 that is placed in the seawater, a floating member 92 that floats in the container 91, and a generator that is disposed on the ground with respect to the floating member 92. 93. The floating member 92 has two transmission rods 94 that can drive the generator 93. Thereby, when the water level of the seawater changes, the floating member 92 floats up and down with fluctuations of the waves, and the transmission rod is used. 94 drives the generator 93 to convert kinetic energy into electrical energy.

However, due to the heavy weight of the wave generator, it is relatively difficult to transport and install, and it takes a lot of time. When the installation location is to be changed to provide power for different occasions, it must be transported and installed, which is quite inconvenient to use.

In addition, the conventional wave power generating device 90 is limited to the installation position (the generator 93 needs to be installed on the ground), and cannot provide the power required by the vessel for offshore operations (for example, offshore fishing vessels or offshore oil drilling).

Therefore, it is necessary to develop new products to solve the above shortcomings and problems.

The object of the present invention is to provide a wave power generation device and method that can be reused and reused, and has the advantages and functions of utilizing buoyancy to achieve mobility, recyclable use, and power required to provide a marine working vessel. solve It is difficult for the prior art to move and the installation location is limited.

The technical means for solving the above problems provides a regeneratively-recovered wave power generating device, comprising: a base having at least one generator; a transmission track set having at least one screw portion and at least a bracket portion; the screw portion has a connecting portion connected to the generator, a pivoting portion and a threaded portion, wherein the bracket portion is a hollow cylinder; and a first pontoon portion has a first An internal space and a first water inlet and outlet portion, the first water inlet and outlet portion controls the amount of water entering and leaving the first internal space; and the pivoting portion of the threaded portion is pivotally connected to the first pontoon portion, and the a bracket portion for fixing the base and the first pontoon portion; a second pontoon portion having at least one threaded guide hole screwed on the threaded portion and a sliding guide slidable on the bracket portion a hole, the second pontoon portion is movable on the screw portion and the bracket portion by a predetermined distance, thereby driving the screw portion to rotate; a heavy block having a predetermined weight; an adjustment group , the system has at least one link Adjusting the connecting piece of the heavy block, and the adjusting connecting piece passes through the bracket portion for adjusting the distance between the first pontoon portion and the heavy block; and has a wind detector, a flow rate detector and a water level a detector; the flow detector is disposed in the first pontoon for detecting a flow rate value in a water; and the water level detector is configured to detect a depth of the water level; wherein the first pontoon portion has a first pontoon a water level detector; the second pontoon portion is further provided with a second water volume inlet and outlet portion, a second inner space and a second pontoon water level detector; and the first and second pontoon water level detectors are configured to detect the first pontoon The depth of the water level of the portion and the second barrel portion.

The invention further provides a sea wave power generation method which can be recycled and reused, which comprises the following steps: [1] preparation step: preparing a wave power generation device which can be recycled and reused, The utility model comprises: a base having at least one generator; a transmission track set having at least one screw portion and at least one bracket portion; the screw portion having a connecting portion connected to the generator, a pivot a connecting portion and a threaded portion, wherein the bracket portion is a hollow cylinder; a first buoy portion having a first internal space and a first water inlet and outlet portion, the first water inlet and outlet portion can control the The amount of water entering and leaving the first inner space; further, the pivoting portion of the threaded portion is pivotally connected to the first pontoon portion, and the bracket portion is for fixing the base and the first pontoon portion; and a second pontoon portion The utility model has at least one threaded guide hole which is screwed on the threaded section and a sliding guide hole which is slidable on the bracket part, so that the second pontoon part can make a predetermined on the screw part and the bracket part a movement of the distance, thereby driving the rotation of the screw portion; a weighted block having a predetermined weight; an adjustment group having at least one adjustment link coupled to the weight block, and the adjustment link Passing through the bracket portion to adjust the first a distance between the tube portion and the heavy block; a wind detector, a flow rate detector and a water level detector; the flow rate detector is disposed in the first pontoon portion for detecting a flow rate value in a water; The water level detector is configured to detect the depth of the water level; wherein the first pontoon portion has a first pontoon water level detector; the two pontoon portions are further provided with a second water volume inlet and outlet portion, a second internal space and a second a pontoon water level detector; and the first and second pontoon water level detectors are configured to detect the depth of the water level of the first pontoon portion and the second barrel portion; [2] adjusting step: recyclable The wave power generating device adjusts the distance between the heavy block and the first pontoon portion at a predetermined position on the water surface, and then injects a predetermined amount of water into the first internal space, so that the heavy block is sunk from the predetermined position into the water; [3] Step: using the fluctuation of water to drive the second pontoon portion to the snail The rod portion is moved by a predetermined distance to cause the screw portion to rotate, thereby driving the generator to generate electricity.

The above objects and advantages of the present invention will be readily understood from the following detailed description of the preferred embodiments illustrated herein.

The invention will be described in detail in the following examples in conjunction with the drawings:

The present invention is a recyclable marine power generation device 100 and method, as shown in the second and third figures, the device includes: a base 10 having at least one generator 11; a transmission track The group 20 has at least one screw portion 21 and at least one bracket portion 22; the screw portion 21 has a connecting portion 211 connected to the generator 11, a pivoting portion 212 and a threaded portion 213, and the bracket The portion 22 is a hollow cylinder; a first pontoon portion 31 has a first internal space 311 and a first water inlet and outlet portion 312, and the first water amount inlet and outlet portion 312 controls the first internal space 311. The pivoting portion 212 of the threaded portion 21 is pivotally connected to the first pontoon portion 31, and the bracket portion 22 is for fixing the base 10 and the first pontoon portion 31; The pontoon portion 32 has at least one threaded guide hole 321 screwed on the threaded portion 213 and a sliding guide hole 322 slidably mounted on the bracket portion 22, so that the second pontoon portion 32 can be at the screw portion 21 and the bracket portion 22 is moved by a predetermined distance S (as shown in the fourth figure), thereby driving the screw portion 20 Rotating; a heavy block 40 having a predetermined weight; an adjustment set 50 having at least one adjustment link 51 (e.g., a steel cable) coupled to the heavy block 40, and the adjustment link 51 The bracket portion 22 is passed through to adjust the distance between the first pontoon portion 31 and the weight block 40.

As shown in the fifth figure, the present invention can be further provided with a wind speed detector 70A, a flow rate detector 70B and a water level detector 70C. The wind speed detector 70A is disposed on the base 10 for sensing a wind speed value; the flow rate detector 70B is The first pontoon portion 31 is configured to detect a flow rate value in a water; and the water level detector 70C is used to detect the depth of the water level. The aforementioned detection signals are transmitted to the central processing unit shown in the tenth figure and displayed on the display (in order to control the current situation of the operator).

As shown in the sixth figure, the two ends of the threaded section 213 of the screw portion 21 respectively have two suspension elastic members 21A, which enable the second pontoon portion 32 to be buffered when being actuated, and avoiding the base 10 Or the first pontoon portion 31 collides.

Regarding the first pontoon portion 31, when the water is not filled, the buoyancy is such that the heavy block 40 does not sink into the water, and after the water is injected, the depth of the heavy block 40 sinking into the water depends on the first internal space 311. Depending on the amount of water; for example, the weight of the heavy block is 500 kg. When the first pontoon is not filled with water, its buoyancy is just enough to maintain an object of 500 kg. When a predetermined amount of water is injected, its buoyancy can only maintain 300 kg. The object, at this time, the heavy block 40 will sink a predetermined depth; of course, the second pontoon portion 32 may also be provided with a second water inlet and outlet portion and a second internal space (not shown), and The first pontoon portion 31 and the second pontoon portion 32 are respectively provided with a first pontoon water level detector and a second pontoon water level detector (in the figure) Not shown), thereby detecting the water level of the internal space of the two buoys.

With regard to the adjustment group 50, the adjustment coupling member 51 can be controlled by a motor and a reel to achieve the distance adjustment between the first buoy portion 31 and the weight block 40.

As shown in the seventh figure, the method includes the following steps: [1] preparation step 61: preparing a reusable wave power generating device, comprising: a base 10 having at least one generator 11; The transmission track set 20 has at least one screw portion 21 and at least one bracket portion 22; the screw portion 21 has a connecting portion 211 connected to the generator 11, a pivoting portion 212 and a threaded portion 213, and The bracket portion 22 is a hollow cylinder; a first pontoon portion 31 having a first internal space 311 and a first The first water amount inlet and outlet portion 312 is configured to control the amount of water entering and leaving the first inner space 311; and the pivoting portion 212 of the thread portion 21 is pivotally connected to the first pontoon portion 31. The bracket portion 22 is configured to fix the base 10 and the first pontoon portion 31; a second pontoon portion 32 has at least one threaded guide hole 321 screwed on the threaded portion 213 and a slidable portion The sliding guide hole 322 of the bracket portion 22 allows the second pontoon portion 32 to move on the screw portion 21 and the bracket portion 22 by a predetermined distance S, thereby driving the rotation of the screw portion 20; 40, having a predetermined weight; an adjustment group 50 having at least one adjustment link 51 coupled to the weight block 40, and the adjustment link 51 is passed through the bracket portion 22 for adjustment a distance between the first pontoon portion 31 and the heavy block 40; [2] an adjustment step 62: adjusting the weighted block 40 and the first pontoon portion to a predetermined position of the surface of the water wave device 100 a distance of 31, and then injecting a predetermined amount of water into the first internal space 311 (using the first amount of water The inlet and outlet portion 312 controls the water inlet or the drain to adjust the water level of the first inner space 311; the water level of the first inner space 311 can be adjusted from one height to another height, so that the heavy block 40 is sunk from the predetermined position. [3] Power generation step 63: Using the fluctuation of the water, the second pontoon portion 32 is moved on the screw portion 20 by a predetermined distance to cause the screw portion 20 to rotate, thereby driving the generator 11 to generate electricity.

As shown in the eighth embodiment, the actual embodiment of the present invention can use the crane to place the reusable wave power generating device 100 of the present invention on the sea surface (as shown in FIG. 9A), and then use the ship to use the present invention. Dragging to a desired predetermined position (as shown in FIG. BB), finally adjusting the distance between the heavy block 40 and the first pontoon portion 31, and then injecting a predetermined amount of water into the first internal space 311, so that the heavy The block 40 is submerged in water from the predetermined position to generate ocean wave power (as shown in FIG. C, a plurality of reusable wave power generating devices 100 can be simultaneously provided for higher efficiency); The wave power generation device 100 of the present invention that can be reused and reused can also be used when it is not needed or needs to change its predetermined position. The water of the first pontoon portion 31 is discharged and pulled back to the weight block 40, so that the wave power generation device 100 of the present invention which can be reused and reused can be converted or recycled to a predetermined place.

In addition, as shown in the tenth figure, the present invention utilizes an input unit and a display unit, and cooperates with a central processing unit to control the operation of each part; and the power generated by the ocean wave power generation is transmitted via a rectifying unit. To a battery (the power is used to provide the power required for the various parts of the invention to operate) and to output the desired location via a frequency converter (such as a general household or offshore vessel).

In summary, the advantages and effects of the present invention are summarized as follows:

[1] Buoyancy can be used to achieve mobility. The conventional wave power generating device 90 is relatively difficult to transport and install, and is relatively time consuming, and the movement is relatively difficult; and the present invention utilizes the buoyancy of the first pontoon portion 31 to float on the water without sinking, and can be hauled by the vessel. When the predetermined position is reached, the predetermined amount of water is injected into the first internal space 311 to reduce the buoyancy, and the heavy block 40 is sunk to reach the positioning, which is easy to move.

[2] It can be recycled and reused. The present invention only needs to discharge the water of the first pontoon portion 31 and adjust the position of the weight block 40, so that the present invention can be floated on the water surface, which is quite easy to recover.

[3] Provides the power required for vessels operating at sea. The conventional wave power generation 90 is limited to the installation location and cannot provide the power required by the vessel for offshore operations; and the present invention can be towed to the offshore working site with the working vessel, and then the wave power generation operation is performed near the operation site to provide the operation. The ship gets the power it needs.

From the above detailed description, it will be apparent to those skilled in the art that the present invention can achieve the foregoing objects, and the invention has been in accordance with the provisions of the patent law.

100‧‧‧Recycled wave power generation equipment

10‧‧‧ Pedestal

11‧‧‧Generator

20‧‧‧Transmission track group

21‧‧‧ Screw Department

22‧‧‧ bracket

211‧‧‧ Connection section

212‧‧‧ pivotal section

213‧‧ Thread segment

31‧‧‧First buoy section

311‧‧‧First interior space

312‧‧‧First Water Volume Entry and Exit Department

32‧‧‧Second pontoon

321‧‧‧Threaded guide hole

322‧‧‧Sliding guide hole

S‧‧‧Predetermined distance

40‧‧‧ heavy block

50‧‧‧Adjustment group

51‧‧‧Adjustment link

70A‧‧‧ wind detector

70B‧‧‧Flow detector

70C‧‧‧Water level detector

21A‧‧‧Shocking elastic element

61‧‧‧Preparation steps

62‧‧‧Adjustment steps

63‧‧‧Power generation steps

90‧‧‧Knowledge wave power generation device

91‧‧‧ Container

92‧‧‧Float

93‧‧‧Generator

94‧‧‧Transfer rod

The first picture is a schematic diagram of a conventional wave power generation device.

The second figure is a schematic diagram of the regeneratively reclaimed wave power generating device of the present invention.

The third figure is a schematic diagram of a partial decomposition of the regeneratively used wave power generating device of the present invention.

The fourth figure is a schematic diagram of the movement mode of the second pontoon portion of the regeneratively-recovered ocean wave power generation device of the present invention.

Figure 5 is a schematic view showing a second embodiment of the regeneratively-recovered ocean wave power generating apparatus of the present invention.

Figure 6 is a schematic view of the suspension elastic member of the wave power generating device of the present invention which can be repeatedly recycled.

The seventh figure is a flow chart of the method for regenerating and recycling the wave power generation method of the present invention.

The eighth figure is a detailed flow chart of the method for regenerating and recycling the wave power generation method of the present invention.

Figure 9A is a schematic diagram of the first embodiment of the wave power generation device of the present invention for recyclable use.

Figure IX is a schematic diagram of the second embodiment of the wave power generation device of the present invention

The ninth C is a schematic diagram of the third embodiment of the wave power generation device of the present invention

The tenth figure is a schematic diagram of the control system of the wave power generation device of the present invention which can be reclaimed and reused

100‧‧‧Recycled wave power generation equipment

10‧‧‧ Pedestal

11‧‧‧Generator

20‧‧‧Transmission track group

21‧‧‧ Screw Department

22‧‧‧ bracket

213‧‧ Thread segment

31‧‧‧First buoy section

311‧‧‧First interior space

312‧‧‧First Water Volume Entry and Exit Department

32‧‧‧Second pontoon

40‧‧‧ heavy block

50‧‧‧Adjustment group

51‧‧‧Adjustment link

Claims (3)

A wave power generation device capable of being reclaimed and recovered, comprising: a base having at least one generator; a transmission track set having at least one screw portion and at least one bracket portion; the screw portion having a a connecting portion connected to the generator, a pivoting portion and a threaded portion, wherein the bracket portion is a hollow cylinder; a first buoy portion having a first internal space and a first water inlet and outlet portion The first water inlet and outlet portion can control the amount of water entering and leaving the first inner space; further, the pivoting portion of the threaded portion is pivotally connected to the first pontoon portion, and the bracket portion is used for fixing the base and the a first pontoon portion; a second pontoon portion having at least one threaded guide hole screwed to the threaded portion and a sliding guide hole slidable on the bracket portion, so that the second pontoon portion is The screw portion and the bracket portion are moved by a predetermined distance to drive the rotation of the screw portion; a heavy block having a predetermined weight; and an adjustment group having at least one connection to the heavy weight Block adjustment link, and the adjustment link The device passes through the bracket portion for adjusting the distance between the first pontoon portion and the heavy block; and has a wind detector, a flow rate detector and a water level detector; the flow rate detector is disposed at the a pontoon portion for detecting a flow rate value in a water; and the water level detector for detecting a depth of the water level; wherein the first pontoon portion has a first pontoon water level detector; and the second pontoon portion is further provided with a first The second water inlet and outlet portion, a second inner space and a second pontoon water level detector; and the first and second pontoon water level detectors are configured to detect the depth of the water level of the first pontoon portion and the second pontoon portion. The wave power generating device for recyclable use according to the first aspect of the invention, wherein the screw portion of the screw portion has two suspension elastic members at both ends. A method for regeneratively recycling ocean wave power generation, comprising the following steps: [1] preparation step: preparing a reusable wave power generation device, comprising: a base having at least one generator; a transmission track set having at least one screw portion and at least one bracket portion; The screw portion has a connecting portion connected to the generator, a pivoting portion and a threaded portion, and the bracket portion is a hollow cylinder; a first pontoon portion having a first internal space and a first water amount inlet and outlet portion, the first water amount inlet and outlet portion can control the amount of water entering and leaving the first inner space; and the pivoting portion of the thread portion is pivotally connected to the first pontoon portion, and the bracket portion is used The second pontoon portion has at least one threaded guide hole screwed on the threaded portion and a sliding guide hole slidably mounted on the bracket portion, so that the base and the first pontoon portion are fixed. The second pontoon portion is movable on the screw portion and the bracket portion by a predetermined distance to thereby drive the rotation of the screw portion; and an adjustment group having at least one adjustment link coupled to the heavy block, and The adjustment link is passed through the bracket portion for use Adjusting the distance between the first pontoon portion and the heavy block; further comprising a wind detector, a flow rate detector and a water level detector; the flow rate detector is disposed in the first pontoon portion for detecting a water flow rate The water level detector is configured to detect the depth of the water level; wherein the first pontoon portion has a first pontoon water level detector; the second pontoon portion is provided with a second water volume inlet and outlet portion and a second internal space And a second pontoon water level detector; and the first and second pontoon water level detectors are configured to detect the depth of the water level of the first pontoon portion and the second pontoon portion; [2] adjusting step: Resetting the used wave power generating device to a predetermined position on the water surface, adjusting the distance between the heavy block and the first pontoon portion, and injecting a predetermined amount of water into the first inner space, so that the heavy block is sunk from the predetermined position into the water; [3] Power generation step: using the fluctuation of water to drive the second buoy portion on the screw portion The rod portion is moved by a predetermined distance to cause the screw portion to rotate, thereby driving the generator to generate electricity.