CN108979944B - Assembling method of wave energy power generation device based on frame-type sea pond - Google Patents

Abstract

The invention provides a wave energy power generation device based on a frame type sea pond, which comprises a shore wall, pile foundations, a dike top and a power generation device of the frame type sea pond, wherein the shore wall is vertically arranged, the pile foundations are arranged in front of the shore wall in parallel, the dike top is horizontally fixed in front of the shore wall through the pile foundations, and a vent hole is arranged between the dike top and the shore wall; the power generation device comprises an air chamber, and an air suction and exhaust port is arranged at the top of the air chamber; the front baffle of the air chamber is fixed on the pile foundation and is positioned below the embankment top, the bank wall is used as the rear wall of the air chamber, two partition plates are respectively fixed between the front baffle and the bank wall, the top of each partition plate is provided with a through hole baffle which extends upwards, and the two through hole baffles are inserted into the vent holes to form an air suction and exhaust port; the front baffle is fixed on the pile foundation through the clamping assembly; one side of the partition plate is fixed on the bank wall through a fixedly connecting mechanism; the invention has simple structure and convenient installation, and improves the power generation efficiency.

Description

Assembling method of wave energy power generation device based on frame-type sea pond

Technical Field

The invention relates to a power generation device, in particular to a wave energy power generation device based on a frame-type sea pond.

Background

The important material foundation of energy is not separated from the prosperous progress of human production and living and society. With the rapid development of world economy, the increasing expansion of world population and the continuous improvement of living standard of people, the continuous increase of world energy demand will lead to the increasingly intense energy competition, so the development of high-quality alternative new energy becomes a necessary way for realizing sustainable development for human beings.

The blue ocean is vast without boundary, monopolizes 70% of the surface of the earth, and is full of 96% of the water in the world, and the blue ocean contains rich green renewable energy. Ocean energy is diverse in form and posture and generally comprises tidal energy, wave energy, ocean temperature difference energy, ocean salt difference energy, ocean current energy and the like. Among them, wave energy is one of the most appreciated energy forms in ocean energy utilization because of its unique charm of being least affected by the environment during conversion and existing in the form of mechanical energy. The reasonable development and utilization of wave energy has important practical significance for relieving energy crisis, reducing the dependence on traditional fossil fuel, improving environmental pollution and other problems, and governments around the world, especially countries and regions with rich ocean wave energy resources, greatly encourage the development of ocean wave energy power generation technology. Wave energy density is relatively low in the sea area near China, but in the large background of the '21 st century maritime silk road', reasonable arrangement of the wave energy conversion device and effective development and utilization of wave energy resources are realized, and a feasible solution is provided for building the island reefs of south China far from continents on energy supply.

Through laboratory researches on various wave energy devices in the 70 th century and sea state tests and application demonstration researches in the 80 th century, the wave power generation technology gradually approaches the practical level, and several more typical wave energy power generation devices have been developed: oscillation float (Buoy), pendulum (penduloum), oscillation Water Column (OWC), sea snake (Pelamis), and the like. Oscillating Water Column (OWC) wave energy devices, also known as air turbine type wave energy power generation devices, are currently the most widely used wave energy power generation technology.

Patent CN201810046056.9 discloses a breakwater-floatable oscillating water column type wave energy conversion device which is particularly suitable for muddy coastal areas. The invention is composed of a plurality of breakwater structure units, each breakwater structure unit is composed of pile foundations, a pile foundation composed of single straight piles and fork piles is adopted for adapting to the condition of insufficient bearing capacity of the muddy sea foundation, a main body structure is a cylinder body, an expanding cylinder wall is adopted inside the main body structure, and the front end of the cylinder body structure is designed into an inverse arc-shaped front slope for realizing the breakwater wave-dissipating function. The upper main body structure and the lower foundation realize the up-and-down floating of the whole oscillating water column device through springs.

Patent CN201620627527.1 discloses an oscillating water column type power generation device, which comprises a device main body, the inside of device main body is equipped with cavity structure, cavity structure is separated by a baffle and is gone up cavity and lower cavity the sea water access & exit has been seted up to the bottom of cavity down, and the top of cavity is equipped with air inlet and one-way gas outlet down, and through air inlet and one-way gas outlet communicate with last cavity install the motor in the last cavity to and through the rotatory fin that pivot and motor are connected, offered gas outlet and one-way air inlet with outside intercommunication at the top of last cavity.

The fixed power generation device is generally arranged at the shore-leaning position, when waves flow into the air chamber box, the water surface in the air chamber can oscillate, and the air flow drives the turbine to rotate through the air outlet pipeline to drive the generator to generate power; however, the device has low conversion efficiency besides high construction cost; in the actual operation process, wave energy is not stable enough and is easily influenced by weather factors.

Disclosure of Invention

The invention provides a wave energy power generation device based on a frame-type sea pond aiming at the problems, which has the advantages of simple structure, convenience in installation and improvement of power generation efficiency.

The specific technical scheme is as follows:

the wave energy power generation device based on the frame type sea pond comprises a bank wall, pile foundations, a dike top and a power generation device of the frame type sea pond, wherein the bank wall is vertically arranged, the pile foundations are arranged in front of the bank wall in parallel, the dike top is horizontally fixed in front of the bank wall through the pile foundations, and vent holes are formed between the dike top and the bank wall;

the power generation device comprises an air chamber, and an air suction and exhaust port is arranged at the top of the air chamber;

the front baffle of the air chamber is fixed on the pile foundation and is positioned below the embankment top, the bank wall is used as the rear wall of the air chamber, two partition plates are respectively fixed between the front baffle and the bank wall, the top of each partition plate is provided with a through hole baffle which extends upwards, and the two through hole baffles are inserted into the vent holes to form an air suction and exhaust port;

the front baffle is fixed on the pile foundation through the clamping assembly;

the clamping assembly comprises a clamping ring with a semicircular cross section, the two ends of the clamping ring are provided with first clamping plates in an extending mode, the end parts of the first clamping plates are inwards folded and provided with second clamping plates, the whole length of the clamping ring is larger than the diameter of a pile foundation, the clamping ring is sleeved on the pile foundation, and a clamping cavity is formed between the second clamping plates and the pile foundation;

the clamping assembly further comprises a first plug block and a second plug block, the first plug block is fixed on the front baffle, the second plug block is fixed on the first plug block, the first plug block is inserted into the clamping cavity from top to bottom, the second plug block is pressed between the pile foundation and the first plug block, and the first plug block and the second plug block sequentially penetrate through the front baffle, the second clamping plate, the first plug block and the second plug block to be locked and fixed through bolts;

one side of the partition plate is fixed on the bank wall through a fixedly connecting mechanism;

the fixedly connecting mechanism comprises an outer crimping plate, an inner crimping plate and a rubber gasket, wherein the outer crimping plate is integrally formed and fixed on the partition plate, a first inserting groove is concavely formed in the outer crimping plate, the cross section of the first inserting groove is of a convex structure, the rubber gasket is inserted into the first inserting groove, and the inner crimping plate is pressed on the outer crimping plate;

the fixedly connecting mechanism is pressed in a second inserting groove preset on the bank wall and sequentially penetrates through the outer pressing plate, the rubber gasket, the inner pressing plate and the bank wall through bolts to be locked and fixed;

two limit clamping plates are arranged on the other side of the partition plate in parallel, and are vertically arranged;

the side wall of the front baffle plate is inserted between the two corresponding limiting clamping plates, the partition plate is locked and fixed on the front baffle plate through screws, and the partition plate is fixed on the top of the dyke through screws.

Further, the first clamping plate and the second clamping plate are vertically arranged.

Further, the first plug-in block is a stainless steel plug-in block, and the second plug-in block is a rubber plug-in block.

Further, the partition plate comprises a partition plate body, a buffer cavity is arranged in the partition plate body, a first buffer block and a second buffer block are alternately arranged on one side wall of the buffer cavity, the cross section of the first buffer block is of a rectangular structure, and the cross section of the second buffer block is of a circular arc structure; the first buffer block and the second buffer block are correspondingly arranged on the other side wall of the buffer cavity.

Further, a front water inlet is arranged on the front baffle; the bottom of the air chamber is provided with a lower water inlet, each partition plate is provided with a baffle plate, and the baffle plates are positioned below the front water inlet;

a first baffle and a second baffle are arranged on the lower water inlet, one end of the first baffle is rotatably fixed on the front baffle, and the other end of the first baffle is erected on the stop block; one end of the second baffle is rotatably fixed on the bank wall, and the other end of the second baffle is erected on the stop block;

a plurality of water permeable holes are respectively arranged on the first baffle and the second baffle.

Further, an intake exhaust port is connected to the turbine.

Further, an air suction and exhaust valve is arranged on the air suction and exhaust port.

The assembly method of the invention is as follows:

(1) Fix the front baffle on pile foundation through joint subassembly: the clamping ring is sleeved on the pile foundation, the first plug block is inserted into the clamping cavity from top to bottom, the second plug block is crimped between the pile foundation and the first plug block, the second plug block and the front baffle are sequentially penetrated through by bolts to be locked and fixed;

(2) One side of the partition plate is fixed on a bank wall through a fixedly connecting mechanism: the fixedly connecting mechanism is pressed in a second inserting groove preset on the bank wall and sequentially penetrates through the outer pressing plate, the rubber gasket, the inner pressing plate and the bank wall through bolts to be locked and fixed;

(3) The side wall of the front baffle plate is inserted between the two corresponding limiting clamping plates, the partition plate is locked and fixed on the front baffle plate through screws, and the partition plate is fixed on the top of the dyke through screws.

The beneficial effects of the invention are as follows:

the sea depth gradually becomes smaller, the water depth gradually becomes shallower, and although the wave energy is weakened, the wave energy is concentrated to a certain extent along with the lightening of the water depth, so that the energy per unit depth is increased.

The oscillating water column wave energy power generation device is combined with the frame-type sea pond, and the structural characteristics of the frame-type sea pond can be effectively utilized. The structure of the device tends to be more stable while saving materials; meanwhile, the special silt coast form of the frame-type sea pond effectively concentrates wave energy, and achieves the purpose of high efficiency in the actual power generation process.

In conclusion, the invention has the advantages of simple structure, convenient installation and improved power generation efficiency.

Drawings

Fig. 1 is a schematic diagram of an assembly structure according to a first embodiment of the invention.

Fig. 2 is a schematic structural view of the partition plate fixed on the bank wall.

FIG. 3 is a cross-sectional view of the front fender fastened to the pile foundation.

Fig. 4 is a cross-sectional view of the divider plate.

Fig. 5 is a cross-sectional view (1) of the air chamber in the second embodiment.

Fig. 6 is a cross-sectional view (2) of the air chamber in the second embodiment.

Detailed Description

In order to make the technical scheme of the invention clearer and more definite, the invention is further described below with reference to the accompanying drawings, and any scheme obtained by carrying out equivalent substitution and conventional reasoning on the technical characteristics of the technical scheme of the invention falls into the protection scope of the invention.

The wall 1, pile foundation 2, dyke top 3, power generation facility 4, air vent 5, air chamber 6, gas exhaust port 7, preceding baffle 8, division board 9, through-hole baffle 10, snap ring 11, first cardboard 12, second cardboard 13, joint chamber 14, first joint piece 15, second joint piece 16, outer crimping board 17, interior crimping board 18, rubber gasket 19, spacing crimping board 20, division board body 21, buffer chamber 22, first buffer piece 23, second buffer piece 24, preceding water inlet 25, lower water inlet 26, dog 27, first baffle 28, second baffle 29, water permeable hole 30.

Examples

The wave energy power generation device based on the frame-type sea pond comprises a bank wall 1, pile foundations 2, a dike top 3 and a power generation device 4 of the frame-type sea pond, wherein the bank wall is vertically arranged, the pile foundations are arranged in front of the bank wall in parallel, the dike top is horizontally fixed in front of the bank wall through the pile foundations, and a vent hole 5 is arranged between the dike top and the bank wall;

the power generation device comprises an air chamber 6, and an air suction and exhaust port 7 is arranged at the top of the air chamber;

the front baffle 8 of the air chamber is fixed on the pile foundation and is positioned below the embankment top, the bank wall is used as the rear wall of the air chamber, two partition plates 9 are respectively fixed between the front baffle and the bank wall, the top of each partition plate is provided with a through hole baffle 10 which extends upwards, and the two through hole baffles are inserted into the vent holes to form an air suction and exhaust port;

the front baffle is fixed on the pile foundation through the clamping assembly;

the clamping assembly comprises a clamping ring 11 with a semicircular cross section, a first clamping plate 12 is arranged at the two ends of the clamping ring in an extending mode, a second clamping plate 13 is arranged at the end portion of the first clamping plate in an inward folding mode, the whole length of the clamping ring is larger than the diameter of a pile foundation, the clamping ring is sleeved on the pile foundation, and a clamping cavity 14 is formed between the second clamping plate and the pile foundation;

the clamping assembly further comprises a first plug-in block 15 and a second plug-in block 16, wherein the first plug-in block is fixed on the front baffle plate, the second plug-in block is fixed on the first plug-in block, the first plug-in block is inserted into the clamping cavity from top to bottom, the second plug-in block is pressed between the pile foundation and the first plug-in block, and the first plug-in block and the second plug-in block pass through the front baffle plate, the second clamping plate, the first plug-in block and the second plug-in block in sequence through bolts to be locked and fixed;

one side of the partition plate is fixed on the bank wall through a fixedly connecting mechanism;

the fixedly connecting mechanism comprises an outer crimping plate 17, an inner crimping plate 18 and a rubber gasket 19, wherein the outer crimping plate is integrally formed and fixed on the partition plate, a first inserting groove is concavely formed in the outer crimping plate, the cross section of the first inserting groove is of a convex structure, the rubber gasket is inserted into the first inserting groove, and the inner crimping plate is pressed on the outer crimping plate;

the fixedly connecting mechanism is pressed in a second inserting groove preset on the bank wall and sequentially penetrates through the outer pressing plate, the rubber gasket, the inner pressing plate and the bank wall through bolts to be locked and fixed;

two limit clamping plates 20 are arranged on the other side of the partition plate in parallel, and are vertically arranged;

the side wall of the front baffle plate is inserted between the two corresponding limiting clamping plates, the partition plate is locked and fixed on the front baffle plate through screws, and the partition plate is fixed on the top of the dyke through screws.

Further, the first clamping plate and the second clamping plate are vertically arranged.

Further, the first plug-in block is a stainless steel plug-in block, and the second plug-in block is a rubber plug-in block.

Further, the partition plate comprises a partition plate body 21, a buffer cavity 22 is arranged in the partition plate body, a first buffer block 23 and a second buffer block 24 are alternately arranged on one side wall of the buffer cavity, the cross section of the first buffer block is of a rectangular structure, and the cross section of the second buffer block is of a circular arc structure; the first buffer block and the second buffer block are correspondingly arranged on the other side wall of the buffer cavity; the impact of waves on the partition plate can be effectively buffered, damage is prevented, and the service life of the device is prolonged.

Further, an intake exhaust port is connected to the turbine.

Further, an air suction and exhaust valve is arranged on the air suction and exhaust port.

The assembly method of the invention is as follows:

(1) Fix the front baffle on pile foundation through joint subassembly: the clamping ring is sleeved on the pile foundation, the first plug block is inserted into the clamping cavity from top to bottom, the second plug block is crimped between the pile foundation and the first plug block, the second plug block and the front baffle are sequentially penetrated through by bolts to be locked and fixed;

(2) One side of the partition plate is fixed on a bank wall through a fixedly connecting mechanism: the fixedly connecting mechanism is pressed in a second inserting groove preset on the bank wall and sequentially penetrates through the outer pressing plate, the rubber gasket, the inner pressing plate and the bank wall through bolts to be locked and fixed;

(3) The side wall of the front baffle plate is inserted between the two corresponding limiting clamping plates, the partition plate is locked and fixed on the front baffle plate through screws, and the partition plate is fixed on the top of the dyke through screws.

Examples

The wave power generation device based on the frame-type sea pond according to the first embodiment is further improved: a front water inlet 25 is arranged on the front baffle; the bottom of the air chamber is provided with a lower water inlet 26, each partition plate is provided with a baffle 27, and the baffle is positioned below the front water inlet;

a first baffle 28 and a second baffle 29 are arranged on the lower water inlet, one end of the first baffle is rotatably fixed on the front baffle, and the other end of the first baffle is erected on the stop block; one end of the second baffle is rotatably fixed on the bank wall, and the other end of the second baffle is erected on the stop block;

the first baffle and the second baffle are respectively provided with a plurality of water permeable holes 30.

When the water level is lowered, sea waves enter the air chamber from a lower water inlet at the bottom of the air chamber, the sea waves impact the first baffle plate and the second baffle plate to rotate upwards, the first baffle plate blocks the front water inlet, and air flows in and out from the air suction exhaust port;

when the water level is higher, the sea water is located below the front water inlet of the air chamber, the first baffle plate and the second baffle plate are soaked in the sea water and are erected on the baffle plate, and sea waves impact into the air chamber from the front water inlet.

By the design, the utilization rate of wave energy is further improved, and the power generation efficiency is improved.

Claims (4)

1. The assembling method of the wave power generation device based on the frame type sea pond comprises the wave power generation device based on the frame type sea pond, and is characterized in that the wave power generation device based on the frame type sea pond comprises a bank wall, pile foundations, a dike top and a power generation device of the frame type sea pond, the bank wall is vertically arranged, the pile foundations are arranged in front of the bank wall in parallel, the dike top is horizontally fixed in front of the bank wall through the pile foundations, and ventilation holes are formed between the dike top and the bank wall;

the power generation device comprises an air chamber, and an air suction and exhaust port is arranged at the top of the air chamber;

the front baffle of the air chamber is fixed on the pile foundation and is positioned below the embankment top, the bank wall is used as the rear wall of the air chamber, two partition plates are respectively fixed between the front baffle and the bank wall, the top of each partition plate is provided with a through hole baffle which extends upwards, and the two through hole baffles are inserted into the vent holes to form an air suction and exhaust port;

the front baffle is fixed on the pile foundation through the clamping assembly;

the clamping assembly comprises a clamping ring with a semicircular cross section, the two ends of the clamping ring are provided with first clamping plates in an extending mode, the end parts of the first clamping plates are inwards folded and provided with second clamping plates, the whole length of the clamping ring is larger than the diameter of a pile foundation, the clamping ring is sleeved on the pile foundation, and a clamping cavity is formed between the second clamping plates and the pile foundation;

the clamping assembly further comprises a first plug block and a second plug block, the first plug block is fixed on the front baffle, the second plug block is fixed on the first plug block, the first plug block is inserted into the clamping cavity from top to bottom, the second plug block is pressed between the pile foundation and the first plug block, and the first plug block and the second plug block sequentially penetrate through the front baffle, the second clamping plate, the first plug block and the second plug block to be locked and fixed through bolts;

one side of the partition plate is fixed on the bank wall through a fixedly connecting mechanism;

the fixedly connecting mechanism comprises an outer crimping plate, an inner crimping plate and a rubber gasket, wherein the outer crimping plate is integrally formed and fixed on the partition plate, a first inserting groove is concavely formed in the outer crimping plate, the cross section of the first inserting groove is of a convex structure, the rubber gasket is inserted into the first inserting groove, and the inner crimping plate is pressed on the outer crimping plate;

the fixedly connecting mechanism is pressed in a second inserting groove preset on the bank wall and sequentially penetrates through the outer pressing plate, the rubber gasket, the inner pressing plate and the bank wall through bolts to be locked and fixed;

two limit clamping plates are arranged on the other side of the partition plate in parallel, and are vertically arranged;

the side wall of the front baffle plate is inserted between the two corresponding limiting clamping plates, the partition plate is locked and fixed on the front baffle plate through screws, and the partition plate is fixed on the top of the dike through screws; a front water inlet is arranged on the front baffle; the bottom of the air chamber is provided with a lower water inlet, each partition plate is provided with a baffle plate, and the baffle plates are positioned below the front water inlet;

a first baffle and a second baffle are arranged on the lower water inlet, one end of the first baffle is rotatably fixed on the front baffle, and the other end of the first baffle is erected on the stop block; one end of the second baffle is rotatably fixed on the bank wall, and the other end of the second baffle is erected on the stop block;

a plurality of water permeable holes are respectively formed in the first baffle plate and the second baffle plate; the air suction and exhaust port is connected with the turbine; an air suction and exhaust valve is arranged on the air suction and exhaust port;

the assembly method comprises the following steps,

1) Fix the front baffle on pile foundation through joint subassembly: the clamping ring is sleeved on the pile foundation, the first plug block is inserted into the clamping cavity from top to bottom, the second plug block is crimped between the pile foundation and the first plug block, the second plug block and the front baffle are sequentially penetrated through by bolts to be locked and fixed;

2) One side of the partition plate is fixed on a bank wall through a fixedly connecting mechanism: the fixedly connecting mechanism is pressed in a second inserting groove preset on the bank wall and sequentially penetrates through the outer pressing plate, the rubber gasket, the inner pressing plate and the bank wall through bolts to be locked and fixed;

3) The side wall of the front baffle plate is inserted between the two corresponding limiting clamping plates, the partition plate is locked and fixed on the front baffle plate through screws, and the partition plate is fixed on the top of the dyke through screws.

2. The method of assembling a frame-based ocean-pond wave power plant of claim 1, wherein the first clip is disposed perpendicular to the second clip.

3. The method of assembling a frame-based ocean-pond wave power plant of claim 1, wherein the first plug is a stainless steel plug and the second plug is a rubber plug.

4. The assembling method of the wave power generation device based on the frame-type sea pond according to claim 1, wherein the partition plate comprises a partition plate body, a buffer cavity is arranged in the partition plate body, a first buffer block and a second buffer block are alternately arranged on one side wall of the buffer cavity, the cross section of the first buffer block is of a rectangular structure, and the cross section of the second buffer block is of a circular arc structure; the first buffer block and the second buffer block are correspondingly arranged on the other side wall of the buffer cavity.