WO2015172272A1

WO2015172272A1 - Multi-buoy link power generating equipment

Info

Publication number: WO2015172272A1
Application number: PCT/CN2014/000910
Authority: WO
Inventors: 陈文彬
Original assignee: 陈文彬
Priority date: 2013-10-08
Filing date: 2014-10-15
Publication date: 2015-11-19
Also published as: CN203939623U

Abstract

Multi-buoy link power generating equipment comprises a buoy system (1), a connecting rod system (2) and a torque converting system (3). The buoy system (1) is a rectangular buoy (101) with circular angle. Universal joints (110) and hydraulic device rods (120) are installed on the lateral side of the buoy system. The torque converting system (3) is installed within or above the buoy system. Two adjacent buoys (101) are connected through a connecting rod by the universal joint (110). The buoy moves vertically along with waves to drive the connecting rods to generate torque and the torque conversion system (3) converts the torque into electric power. The multi-buoy link power generating equipment is high in wave power conversion rate and good in integral stability, having a storm resistant capability and being low in cost.

Description

Multi-floating link power generation equipment

Technical field

The invention relates to a power generation device using wave energy, in particular to a multi-floating link power generation device which has high efficiency, wind wave resistance and low cost.

technical background

At present, offshore floating wave power generation devices have the following problems in practical applications: large volume leads to high cost, and the phase difference of waves cannot be utilized, so that the efficiency is low, such as the world-famous "sea snake" power generation equipment. Its "connecting rod" is also a floating body, which inevitably leads to a bulky shape like a submarine in order to obtain sufficient buoyancy; its "link body" (floating body) is very small and does not provide enough buoyancy in the trough or crest. When the stroke is not enough, the stroke is much smaller than the wave height, so that the torque obtained is not large, and the overall energy obtained is small. The "connecting rod" and the "linking body" (floating body) have only one universal joint, and all the forces are concentrated on this point, resulting in extremely high strength requirements for the universal joint, which in turn increases the manufacturing cost.

At present, the commonly used method is not obvious in small waves, and the power generation efficiency is not high; due to its large size and high cost, the commercial value is not large.

In the future, the development trend of offshore floating body wave power generation is to develop a wave energy generating device with high efficiency, wind wave resistance and low construction cost. Only high efficiency and strong wind and wave resistance can fully utilize the wave energy and adapt to the harsh sea conditions. At the same time, the power generation equipment is not damaged by the wind and waves. The design is simple and reasonable, and the cost can be low.

Summary of the invention

The present invention aims to provide a wave power generating device which has high efficiency, strong wind and wave resistance, and can work particularly in the face of small waves, and which is also very low in cost. The content of the invention: a plurality of floating bodies are linked by connecting rods, adjacent floating bodies are reversely moved, the torque obtained at the nodes is converted into hydraulic energy, and the hydraulic pressure can drive the hydraulic motor to rotate to drive the generator to generate electricity. This technology overcomes the drawbacks of low efficiency and high cost of existing floating wave power generation equipment.

The working principle of the invention:

When the float is smaller than the wavelength, it will fluctuate with the wave 9. The degree of undulation depends on the short-axis diameter of the projected area of the floating body in water or the ratio of the length of the short side to the wavelength. The smaller the ratio, the closer the undulating stroke is to the wave height; the larger the ratio, the shorter the stroke. When it is greater than 1, The floating body basically does not fluctuate with the waves. We use the connecting rod 2 to link two floating bodies 1 that move in the opposite direction of the wave, and the torque is obtained. When the wavelength is fixed, that is, when the connecting rod is fixed, the distance between the ups and downs of the floating body is closer to the wave height, and the obtained torque is larger. ; otherwise it will be smaller. The lever movement of the connecting rod is converted into hydraulic energy and can be pushed The hydraulic motor rotates to drive the generator to generate electricity.

The invention has the beneficial effects:

1. Allow the floating body to obtain a stroke that is equal to the wave height as much as possible, so that the connecting rod produces the maximum torque and maximizes the obtained wave energy.

2. Since the connecting rod does not need to provide buoyancy, it can be made with a minimum of materials, thereby greatly reducing material costs and labor costs.

3, a floating body can be installed with multiple connecting rods, which greatly improves the overall link strength and conversion efficiency, which means that the cost per unit of kw will be greatly reduced.

DRAWINGS

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

Figure 2 is a schematic diagram of the floating body system.

Figure 3 is a schematic diagram of the connecting rod system.

Figure 4 is a schematic diagram of the torque conversion system.

detailed description

The invention will now be further described with reference to the accompanying drawings and embodiments.

As shown in Figures 1, 2, 3, and 4, the present embodiment is composed of a floating body system 1, a connecting rod system 2, and a torque conversion system 3;

The floating body system 1 comprises: a floating body 101, a universal joint 110, a hydraulic rod 120, and the like; each of the universal joints 110 is evenly distributed with four hydraulic rods 120, and one side of each floating body 101 is evenly distributed with 2 to 4 universal directions. Section 110; for convenience of description, the floating body is divided into 101, 102, the hydraulic rod is divided into the upper

hydraulic rods

110, 123, the lower hydraulic rods 121, 122, and the left and right hydraulic rods 125, etc.; in order to increase the buoyancy of the floating body work, the floating body is The projected area of the upper part of the water line is greater than 30%-50 times of the projected area of the lower part of the water line;

The connecting rod system 2 comprises: a lever 201, a pressing arm 211 and the like. Each of the levers 201 is provided with 2 to 4 pressing arms 211 at one end. For convenience of description, the pressing arms 211 are divided into upper

pressing arms

211 and 214, and pressing

arms

212, 213, left and right pressing arms 215 and the like.

The torque conversion system 3 includes a hydraulic device, a hydraulic circuit, a hydraulic motor, a generator, and the like.

The two adjacent floating bodies 1 are linked by the connecting rod 2 to form a whole movable upper and lower and left and right relative motion; It is necessary to link a plurality of floating bodies 101 with a plurality of sets of connecting rods 2, and only three floating bodies 101 are shown here.

The distance 131 of the center of gravity 130 of the adjacent two

floating bodies

101, 102 is approximately equal to 1/2 of the average wavelength of the local sea state.

When the floating body 101 is at the peak, one end of the connecting rod 2 is driven by the universal joint 110 to move upward with the center of the universal joint 110 as an axis; at this time, the upper pressing arm 211 pulls the hydraulic rod 120 to perform an expanding motion to generate a hydraulic pressure; The lower pressing arm 212 presses the hydraulic rod 121 to perform a compression movement, and also generates hydraulic pressure.

The adjacent floating body 102 is at the same time in the trough, and the other end of the connecting rod 2 is driven by the universal joint 111 to move downward with the center of the universal joint 111 as an axis; at this time, the upper pressing arm 214 presses the hydraulic rod 123 to compress. The movement generates hydraulic pressure; and the lower pressing arm 213 pulls the hydraulic rod 122 to perform an expansion movement to generate hydraulic pressure.

The adjacent two floating bodies, whether rising or falling, can generate hydraulic pressure, so that the torque conversion system 3 can work to generate electric power; similarly, the adjacent two floating bodies, whether it is the left pendulum or the right pendulum, can generate hydraulic pressure. The torque conversion system 3 is caused to work to generate electricity.

The present invention is not limited to the above specific embodiments or embodiments, and as long as the wave energy is converted by the floating body link method, it falls within the protection scope of the present scheme.

The preferred embodiments and examples of the present invention have been described in detail above with reference to the accompanying drawings, but the present invention is not limited to the above-described embodiments and examples, and may be omitted from the knowledge of those skilled in the art. Various changes have been made to the premise of the inventive concept.

Claims

A multi-floating link power generation device includes a floating body system (1), a connecting rod system (2), and a torque conversion system (3);

The floating body system (1) comprises: a floating body (101), a universal joint (110), and a hydraulic rod (120); each of the universal joints (110) is distributed with an average of 2-4 hydraulic rods (120), each One side of a floating body (1) is evenly distributed with 2-50 joints (110);

The connecting rod system (2) comprises: a lever (201) and a pressing arm (211), and each of the levers (201) is provided with 2-4 pressing arms (211) at one end;

The torque conversion system (3) includes: a hydraulic device, a hydraulic circuit, a hydraulic motor, and a generator.
The multi-float link power plant according to claim 1, characterized in that the draft of the floating body (101) is greater than 0.5-50 times the length of the short axis or the short side of the projection surface of the lower portion of the water line.
The multi-float link power generating apparatus according to claim 1, characterized in that the length of the short axis or the short side of the projection surface of the floating body (101) in the lower portion of the water line is smaller than 1/3 of the average wavelength of the local sea area.
The multi-float link power generating apparatus according to claim 1, characterized in that the projected area of the floating body (101) on the water line portion is larger than 30%-50 times the projected area of the lower portion of the water line.
The multi-float link power generating apparatus according to claim 1, wherein the number of connecting rod systems between the adjacent two floating bodies (101) is 2 to 50.
The multi-float link power plant according to claim 1, characterized in that the distance (131) of the center of gravity (130) of the adjacent two floating bodies (101) is approximately equal to 1/2 of the average wavelength of the local sea area.
The multi-float link power plant according to claim 1, characterized in that the number of the floating bodies (101) linked together is between 2 and 100.
The multi-float link power plant according to claim 1, characterized in that 2 to 10 hydraulic rods (120) are evenly distributed alongside the joint (110).