TWI322212B - A multi-function sea wave piston type breakwater - Google Patents

Description

1322212 IX. Description of the Invention: [Technical Field] The present invention relates to the development and application of marine resources, in particular to a wave-piston-type breakwater device, by which the marine resources can be optimally utilized to achieve power generation and prevention. The purpose of wave, reclamation, land reclamation, mariculture... It is provided with a specially shaped wave inlet and outlet on a breakwater structure unit, which can connect the large ocean wave piston type airtight groove at the rear and the turbine generator assembly in front of the upper layer to extract the wave energy for use. Because the invention can make the valuable resources contained in the ocean make the best use, and the structure is simple, the design is ingenious, and has multiple functions, and is an excellent design. [Prior Art] The riding review committee member clearly stated the patent application. The relationship between India and prior art is quoted as a literary material that is more relevant to the present invention so that it can be used to retrieve and review the prior art. It is the "wave breakwater power generation device", application number: 8〇2〇937, announcement number: 202080, announcement date: 1993 3 u. Its main

= Extract the wave energy from the generator above and below the air inlet and outlet of the airtight (10) airtight groove. The second is "the wave breakwater power generation device is added (one 80209376 ϋ plus one, the announcement number: 246162, the announcement day ^ 1995. 4. 2) The main technology is to shape the wave of the original case, so that the wave in and out is smoother. As mentioned above, there are some problems in the current power generation and sales of breakwaters, which are urgently needed to be overcome and solved by us. The first problem is the import and export of ocean waves, because the energy of the waves is mainly concentrated on the surface of the sea. Vertical downward wave import and export _ severely affecting the energy of the wave 4 8 After changing the 匕 to the streamline shape, if it is not matched with other designs, it will still reduce the inflow and out of many seawater. Secondly, the distance between the sea inlet and outlet and the airtight groove is too short. The seawater is prone to turbulence or turbulence, and it is difficult to convert the waves into a piston-like movement. Of course, the extraction efficiency of the wave energy is greatly reduced. Finally, the depth of the breakwater chassis is shorter and the center of gravity is improved. 'Therefore, it is not easy to firmly fix on the seabed. The invention has many innovative technical features and becomes a solution to the aforementioned technical problems. The best solution: firstly, adopt an open-faced innovative design in the inlet and outlet of the ocean, and then connect the airtight groove at the rear and the turbine generator assembly in front of the upper layer with a smooth arc-shaped passage, and in addition to the front end of the wave in and out of the α And the chassis part of the rear end of the airtight groove is designed to be extended, so that the center of gravity of the entire breakwater can be obviously lowered and can be firmly fixed on the seabed. Since the invention has the above-mentioned innovative technical features, the technical effect produced by the invention can be The previous technical problems are satisfactorily solved. In addition to the reduction of the center of gravity, there are at least the following two items. First, the large-scale wave inlet and outlet design with the opening upwards allows the waves to be poured into the interior of the breakwater without dripping. It effectively solves the "difficult" problem that the prior art order has to produce a gas-tight effect (the opening must be as far as possible), and the energy is concentrated on the surface of the seawater (the opening must be as far as possible). Second: after the wave inlet and outlet, the airtight groove is connected by a smooth circular channel, except that it is not easy to generate turbulence or In addition to the flow, the ocean wave can be easily converted into a piston-type up and down motion mode, and the compressed or expanded air generates an inflow and outflow airflow, thereby driving the turbine and the generator to generate an endless amount of power. 1322212 [Embodiment] Please refer to As shown in the first figure and the second figure, the present invention is provided with a special shape, opening-up wave inlet and outlet (11) in front of a reinforced concrete breakwater unit (10), and the front end of the inlet and outlet is mountain-shaped. The front ridge (17) has a circular beam (18) above the rear end, and the highest point of the front ridge (17) is at the same level as the lowest point of the circular beam (18) so that the rear of the beam The water column produces a gas-tight effect. The sea inlet and outlet (U) is connected to the rear airtight groove (丨2) by a circular arc-shaped waterway, and finally connected to the turbine generator assembly (丨3) located in front of the upper layer of the breakwater. The wave inlet and outlet (11) is provided with a number of streamlined partition walls (i 6) to connect the front ridge (17), the circular beam (18) and the airtight groove (12), in addition to strengthening the structure of the wave protector. Beyond 'can also regulate water flow and Flow path, or reduce resources flow turbulence, mechanical efficiency. The breakwater unit (1) has a return wave platform (22) on both sides, and a wave blocking wall (19) is arranged behind the platform to allow the overflowing waves to flow back into the sea, and above the circular beam (18) A streamlined overflow platform (20), which is separated from the return wave platform (22) by a gradually increasing argon-shaped eight-shaped opening wall (21). The waves can be concentrated at ordinary times, and the specification and guidance are gradually increased. The waves flow smoothly into the inlet and outlet of the waves. When the typhoon strikes, the excessive waves can be returned to the sea to protect the body of the breakwater structure. The central edge of the return wave platform (22) on the left and right sides of the breakwater is provided with convex grooves (15) and grooves (14) of the same size and specifications, which can be combined with the adjacent breakwater unit (10) to form a long The breakwater of the column, the cut wall (24) is placed behind the breakwater chassis. The central part is provided with a steel plate cut wall (25), which can be wedged into the sand to increase the safety of the breakwater. Please refer to the first and third figures, when the wave crest is protected by the outer sea (3⁄4) 6 1322212

When the front ridge (17) of the bank unit (10) reaches the wave inlet and outlet (11), the wave height gradually increases due to the wave collecting action of the flared opening wall (21), and then enters the specification by the partition wall (16). In the circular arc channel and the rear airtight groove (12), a huge water column piston is formed, and the air in the compressed airtight groove (12) is entered into the turbine generator assembly (13) to generate electricity; When the wave trough arrives, the water column piston in the airtight groove (12) will rapidly drop and the air in the expansion tank will cause a negative pressure state, and the outside air will once again enter the turbine generator assembly (13) to generate electricity (in this regard) For details of the operation, please refer to the prior art information, and the details of the 'Complete Cycle' are transmitted to the shore via cable (23) for further processing and transportation. When a typhoon strikes, the oversized waves overflow through the overflow platform (20) or the open wall (21) onto the return wave platform (22) and back into the sea. As for the on-site application, the breakwater unit made of reinforced concrete is first made into a hollow caisson in the sinking channel and floating dock, and then dragged by the tugboat to the predetermined place where the water leveling, sand filling and sealing are placed. Finally, it is connected and assembled with the turbine generator assembly.

As described above, the present invention has the following advantages: The present invention has multiple functions and can be used for wave prevention, power generation, land reclamation, mariculture, anti-smuggling or enemy landing, which is sufficient to compete with conventional power generation methods, and is very commercialized. Operational potential. Second, the present invention subtly converts the (four) wave motion into the up-down motion of the water column piston. The turbine generator is used to generate electricity by using the inlet and outlet airflow, and the power generation equipment does not directly contact the seawater, and can be kept dry to avoid the occurrence of seawater rot. (3⁄4) 1322212 ― The super-large ocean wave inlet and outlet of the invention is upwards, and the shape is ingenious. It conforms to the principle of wave mechanics, and can insert the wave into the inlet and outlet of the j-wave in an almost dripping manner, greatly improving the mechanical efficiency. The main part of the invention is made of reinforced concrete, with firm structure, stable chassis, low center of gravity and few mechanical parts. It can resist harsh walrus conditions, long life, easy maintenance and high practical value. [Simple diagram] expensive The review committee further understands the structural features of the hair and its efficacy.

First Figure: The appearance of the present invention. Second Figure: A top view of the present invention. Figure 2 is a cross-sectional view of the present invention. [Main component symbol description] Drawing No.: (1 1) Wave in and out Q (13) Turbine generator assembly (15) Slot (17) Front ridge (I9) Wave wall (21) Opening wall (23) Cable (25) Steel plate cut wall (1〇) breakwater unit 〇 2) Airtight groove (14) Groove (I6) Compartment wall (18) Circular beam (20) Overflow platform (22) Return wave platform (24 Cut the wall

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Claims (1)

X. Patent application scope: 1. A multi-functional ocean wave piston breakwater, comprising: a base, the inside of which forms a concave ϋ-shaped channel, the front end of the TJ-shaped channel forms an inlet and outlet of the wave, and the other end extends to the base The top side is higher than the inlet and outlet to form an airtight groove, and serves as the inlet and outlet σ of the turbine; a turbine assembly is disposed above the base, and the turbine assembly includes a vertical shaft type full turbine 'a deflector group And a power generating device 'which includes a generator and a transmission assembly, the shaft of which is coupled to the transmission assembly' and coupled to the generator by the transmission assembly. 2_For example, the multi-functional wave piston type breakwater of the first application of the patent scope, wherein the front end of the wave inlet and outlet is provided with a mountain-shaped front ridge, and a circular arc-shaped beam is arranged at the rear end; the U-shaped channel still includes a plurality of Streamlined compartment walls to strengthen the structure of the breakwater and regulate the path of the water flow. 3. For the multi-function wave piston breakwater of the first application patent scope, there is a streamlined overflow platform on both sides of the pedestal, and a back wave platform is arranged at the back end of the breakwater, and the two platforms are gradually raised. The ρρ-shaped opening wall is bounded. 4_ For the multi-functional wave-piston breakwater of the first application scope of the patent, the _ breakwater is provided with convex grooves and grooves on both sides of the breakwater, and the breakwater unit adjacent to the breakwater unit can be placed under the bottom wall of the breakwater. Into the soil sand, increase the safety of the breakwater. 1322212 VII. Designated representative map: (1) The representative representative of the case is: (1). (2) The symbol of the symbol of this representative figure is briefly described: (10) Breakwater unit (11) Wave inlet and outlet (12) Airtight groove (13) Turbine generator assembly (14) Groove (16) Compartment wall (18) Arc-shaped beam (20) Overflow platform (22) Back wave platform (15) Slot (17) Front ridge 9) Wave wall (21) opening Fence (23) cable 8. If there is a chemical formula in this case, please disclose the chemical formula that best shows the characteristics of the invention: 3