CN112443447A

CN112443447A - Wave energy and tidal current energy capturing and generating device

Info

Publication number: CN112443447A
Application number: CN202011321747.9A
Authority: CN
Inventors: 唐来学
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-23
Filing date: 2020-11-23
Publication date: 2021-03-05

Abstract

The invention discloses a wave energy and tidal current energy capturing power generation device, which comprises a coast, a wave energy power generation mechanism, a methane tank, a thermal power generation mechanism, a fishing mechanism and a net collecting mechanism, and is characterized in that: the wave energy power generation device is arranged on the coast, the methane tank is arranged below the wave energy power generation device, the fishing device is arranged on one side of the methane tank, the thermal power generation device is arranged above the wave energy power generation device, the net collecting device is arranged above the thermal power generation device, the wave energy power generation device comprises a rotating wheel, the rotating wheel is fixed on the coast, one side of the rotating wheel is provided with a connecting plate, the other side of the connecting plate is provided with a transverse collecting component, a longitudinal collecting component is arranged below the transverse collecting component, the transverse collecting component comprises two floating body boxes, and a first blade wheel is arranged between the two floating body boxes.

Description

Wave energy and tidal current energy capturing and generating device

Technical Field

The invention relates to the technical field of ocean energy development and conversion, in particular to a wave energy and tidal current energy capturing and generating device.

Background

With the rapid development of economy, the demand of energy is continuously increased, the traditional energy is in shortage, and the use of a large amount of fossil raw materials causes serious ecological environmental problems, which have become the focus of attention all over the world. In order to deal with the problems of energy exhaustion and ecological environment, the bottleneck problem of energy supply in the social and economic development is solved, and the search for alternative renewable energy is difficult and slow. While the oceans occupy 71% of the total area of the earth, it will become an important source of renewable energy utilization in the future.

The development of new ocean energy in the prior art is mainly to convert wave energy or tidal current energy into controllable mechanical energy or hydraulic energy through mechanical or hydraulic devices so as to supply the mechanical energy or the hydraulic energy to an actuating mechanism. The electric energy capturing mode is single, and the electric energy obtaining efficiency is generally low. Meanwhile, with the development of coastal zone industry, the increase of coastal urban consumption and the aggravation of various offshore activities, a large amount of marine garbage is inevitably generated, a large amount of algae die, and the earth becomes warm, and at present, a large amount of plastic garbage and plant garbage mainly float around seaside. And researches show that the plant garbage floating on the sea surface, such as aquatic weeds and the like, contains a large amount of chlorophyll inside and can form a chlorophyll protective film on the surface of the iron product under the photosynthesis, so that the effect of effectively protecting the iron product from being oxidized is achieved. When in a marine disaster, a person is trapped in the sea to wait for rescue, a large amount of physical power is easily consumed by needle stick in the sea for a long time, the person is easily exhausted to cause drowning, in order to supplement energy required by the human body, a fish steaming function is required to be provided, so that the person near the marine disaster can be supplemented with food, the person has physical power to wait for rescue, and meanwhile, the fish steaming function can also provide a food source for the situation that the fishermen around are busy working and are inconvenient to eat ashore at ordinary times. Therefore, it is necessary to design a high efficiency and durable wave and tidal energy capture power generation device.

Disclosure of Invention

The invention aims to provide a wave energy and tidal current energy capture power generation device to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: wave energy and trend can catch power generation facility, including coast, wave energy power generation mechanism, methane-generating pit, thermal power generation mechanism, fishing mechanism and receipts net mechanism, its characterized in that: the wave energy power generation mechanism is arranged on the coast, the methane tank is arranged below the wave energy power generation mechanism, the fishing mechanism is arranged on one side of the methane tank, the thermal power generation mechanism is arranged above the wave energy power generation mechanism, and the net collecting mechanism is arranged above the thermal power generation mechanism; the capturing and generating device is arranged on the coast, the wave energy generating mechanism is used for collecting wave energy and tidal current energy at the coast and converting the wave energy and the tidal current energy into electric energy, the methane tank is used for collecting biological energy of plant garbage in the ocean and fermenting the biological energy into methane energy to be collected, the thermal power generating mechanism is used for collecting plastic garbage floating in the ocean and using the plastic garbage as raw materials of thermal power generation, the fishing mechanism is used for collecting and weaving rootstocks of the plant garbage in the ocean into a fishing net, and can capture fishes impacting the coast, and the net collecting mechanism is used for collecting the fishing net and cooking the fishes in the fishing net; the ocean garbage can be collected and applied while the wave energy and tidal current energy are captured, and the utilization rate of the ocean energy is greatly improved.

According to the technical scheme, the wave energy power generation mechanism comprises a rotating wheel, the rotating wheel is fixed on the coast, a connecting plate is arranged on one side of the rotating wheel, a transverse collection assembly is arranged on the other side of the connecting plate, and a longitudinal collection assembly is arranged below the transverse collection assembly; the rotating wheel is fixed on the coast, the connecting plate is connected with the transverse collecting assembly to capture the force of the waves transversely pushing to the coast for power generation, and the lower longitudinal collecting assembly can capture the fluctuating force of the waves for power generation.

According to the technical scheme, the transverse collecting assembly comprises two floating body boxes, a first blade wheel is arranged in the middle of each floating body box, and cutting thorns are arranged on the surface of the first blade wheel; the longitudinal collecting assembly comprises a ground pile, the ground pile is fixed on the coast, a nest coil spring I is arranged in a sleeve above the ground pile, a rotor is arranged above the nest coil, stators are arranged on two sides of the rotor, a first pull rope is arranged above the rotor, and the other end of the first pull rope is connected with the floating body box; the buoyancy of the floating body box enables the supporting blade wheel I to float on the sea surface no matter the sea surface wave height or the sea surface wave height, and the lower half portion of the blade wheel I is guaranteed to be under the sea surface, so that the transverse thrust of the sea surface wave can push the blade wheel I to rotate, a generator is arranged in the floating body box, and the blade wheel I rotates to enable the generator to generate electricity; the cutting spines can also cut the garbage on the sea surface when the blade wheel rotates to generate electricity; the floating body box is driven by waves to float up and down and pull the first pull rope, and the first pull rope and the first socket coil spring are driven to enable the rotor to float up and down in the stator to cut the magnetic induction line so as to generate electricity.

According to the technical scheme, a plurality of groups of holes are formed in the surface of the connecting plate, two rotating shafts are arranged in the middle of the connecting plate, the first rotating shaft is connected with a floating plate in a supporting mode, and a stabilizing strip is arranged below the floating plate; a garbage pushing assembly is arranged on the connecting plate; when sea waves come, the floating plate is impacted from the lower part of the connecting plate, the floating plate is enabled to be in an open state through the rotation of the first rotating shaft, the sea waves are rushed to the upper part of the connecting plate from the lower part of the connecting plate, the plastic garbage and the plant garbage which are cut through cutting and stabbing are carried on the connecting plate while the sea waves are rushed up, after the sea waves are withdrawn, the floating plate is placed on the horizontal position under the action of the stabilizing strips again, the garbage which is carried by the sea waves is retained on the surface of the floating plate, and the sea water returns along with the sea waves; through being provided with the connecting plate, realized collecting the effect of sea surface floating garbage.

According to the technical scheme, the garbage pushing assembly comprises a pushing block, one side of the pushing block is connected with a first spring hinge, the other side of the first spring hinge is connected with a floating body box, one end, close to the floating body box, of the connecting plate is provided with a roller, a surfboard is arranged below the floating body box, a second pull rope is arranged between the surfboard and the pushing block, and the second pull rope is connected with the roller in a sliding mode; the pushing block comprises two sliding columns, a second rotating shaft is arranged between the two sliding columns, the second rotating shaft is connected with a first push plate in a supporting mode, and clamping blocks are arranged above the two sliding columns; when sea waves come, the surfboard is pushed to one side of a coast by the transverse thrust of the sea waves, a pull rope II behind the surfboard pulls a pushing block to one side of a floating body box through a roller, when a pushing plate I encounters obstacles such as garbage and the like in the pulling process, a rotating shaft II enables the pushing plate I to rotate reversely to avoid the garbage, when the sea waves retreat, the transverse elasticity of a spring hinge I pushes the pushing block to one side of an inlet pipeline, when the pushing plate I encounters the garbage in the pushing process, the force of the rotating shaft II is clamped by a clamping block along the forward rotating trend, so that a large amount of plastic garbage is pushed to the inlet pipeline, and the plant garbage is strong in adhesiveness, and after the force of pushing block pushing extrusion is received, the plant garbage is extruded and separated into rootstocks, plant; a large amount of plant roots and stems are still attached to the surface of the connecting plate after being extruded, meanwhile, plant juice is extruded and covered on the surface of the connecting plate, and chlorophyll contained in the plant juice forms a chlorophyll protective film to be covered on the connecting plate made of iron after photosynthesis of the sun under the condition that sea water rarely hits the connecting plate when the connecting plate is in a ebb state, so that the possibility that the connecting plate is oxidized and rusted under the condition that the sea surface is semi-wet and semi-dry for a long time is greatly prevented, the effect of reinforcing the connecting plate is realized, and the durability of the connecting plate is improved; the vegetable flesh is pushed to the inlet duct.

According to the technical scheme, the methane tank comprises a methane tank inner wall and a methane tank outer wall, friction points are arranged on the methane tank inner wall and the methane tank outer wall, a buffer plate is arranged between the methane tank inner wall and the methane tank outer wall, an inlet pipeline is arranged above the methane tank, an elastic plate is arranged at the joint of the inlet pipeline and a connecting plate, a sealing port is arranged inside the inlet pipeline, the sealing port comprises a second push plate and a second spring hinge, one end of the second spring hinge is fixed on the inlet pipeline inner wall, the other end of the second spring hinge is connected with the second push plate in a supporting mode, and a methane collecting pipe is arranged on one side, close; under the impact of sea waves, the inner wall of the methane tank and the outer wall of the methane tank shake relatively, when the methane tank shakes, the friction point and the buffer plate inside the methane tank rub to generate heat, so that the inside of the methane tank becomes hot, meanwhile, the buffer plate also plays a heat preservation role, the speed of producing methane through fermentation of internal plants is increased, the elastic plate ensures that the connecting plate can be still connected with the inlet pipeline when swinging, the push plate II of the sealing port is supported by the spring hinge II, and only when plant garbage stacked in the inlet pipeline reaches a certain weight, the sealing port can be opened to drop the plant garbage into the methane tank and is closed and sealed rapidly, so that the methane generated in the methane tank is prevented from leaking effectively; the biogas collecting pipe is connected with the outside, and the biological energy of the recycled plant garbage is fully utilized.

According to the technical scheme, the fishing mechanism comprises a fixing plate, the fixing plate is fixed on the coast, a plurality of vertical elastic needles are arranged above the fixing plate, a plurality of transverse elastic needles are arranged on one side, away from the coast, of the outer wall of the methane tank, and barbs are arranged on the surfaces of the vertical elastic needles and the transverse elastic needles; when waves impact the connecting plate back and forth, the connecting plate rotates up and down around the rotating wheel, when the waves rotate down, the vertical elastic needle is inserted into the hole of the connecting plate, and when the waves rotate up, the barb on the vertical elastic needle hooks rootstocks remained on the surface of the connecting plate into seawater, so that the effects of dredging the hole and preventing blockage are realized; the outer wall of the methane tank is impacted by sea waves to shake, meanwhile, the transverse elastic needles are driven to shake left and right, rhizomes hooked into the sea are pulled to weave a simple fishing net, and the fishing net formed after the vertical elastic needles and the transverse elastic needles weave back and forth through the recovery of the rhizomes of plants plays a role in fishing.

According to the technical scheme, the thermal power generation mechanism comprises a material collecting box, a vacuum pump is arranged in the material collecting box, the vacuum pump is positioned right above an inlet pipeline, an exhaust pipeline is arranged below the material collecting box, the other end of the exhaust pipeline is connected with the outer wall of a methane tank, an exhaust port is arranged on the outer wall of the methane tank, two ignition gears are arranged between the outer wall of the methane tank and the inner wall of the methane tank, and the two ignition gears are positioned at the connecting part of the exhaust pipeline and the outer wall of the methane tank; because of the effect of the cutting pricks, the plastic garbage is cut into a plurality of plastic fragments, the plant garbage is not easy to break due to more roots and stems, only plant meat is extruded into clusters under the extrusion of the pushing block, the plastic garbage pushed to the inlet pipeline by the pushing block and the plant meat are different in gravity, so that the light plastic fragment garbage is sucked into the material collecting box by the vacuum pump, the heavier plant meat falls into the methane tank to generate methane, the density of the methane is less than that of the air when the main components of the methane are generated, part of the methane leaks from the inlet pipeline when the sealing port is opened every time, the leaked methane is sucked into the material collecting box by the vacuum pump, the density of the methane is less than that of the air, the methane in a large amount of gas sucked by the vacuum pump is remained at the upper part of the material collecting box, the air flows to the exhaust port from the exhaust pipeline to be exhausted, and the air in the material collecting box, when the biogas is totally filled in the material collecting box and spreads to the ignition gear, the ignition gear is driven by the inner wall of the biogas digester and the outer wall of the biogas digester to generate friction and ignite the biogas, and the biogas is instantly burnt into the material collecting box along the biogas direction and simultaneously ignites the plastic garbage collected in the material collecting box.

According to the technical scheme, a partition plate is arranged above the material collecting box, a water collecting tank is arranged above the partition plate, a plurality of groups of thermal expansion air bags are arranged above the water collecting tank, a steam port is formed in one side above the water collecting tank, and a second blade wheel is connected with a pipeline of the steam port; when sea waves hit the coast, part of sea water falls into the water collecting tank, plastic garbage in the collecting tank is combusted to enable water in the water collecting tank to be heated and boiled, the thermal expansion air bag above the thermal expansion air bag is heated and expanded and mutually extruded to form a closed space, water vapor can only flow out of the steam port and drive the blade wheel II to rotate, the blade wheel II drives the generator to generate electricity, and finally the effect of thermal power generation is achieved.

According to the technical scheme, the net collecting mechanism comprises a food steamer, the food steamer is arranged above the blade wheel and is connected with the blade wheel through a pipeline, a steaming net is arranged in the food steamer, and a cutter is arranged on one side above the food steamer; a nest coil spring II is arranged in the floating body box, the nest coil spring II is connected with a pull rope III, the other end of the pull rope III is connected with a net hook, a plurality of hook thorns are arranged on the surface of the net hook, and the net hook is connected with a fishing net; the body case is followed the height of wave and is made the net hook neglect, the fishing net of weaving along with fishing mechanism is more and more, accumulational more and more, when the fishing net arrives a certain amount, the net hook will catch on the fishing net, and when the impact connecting plate along with the wave extremely high point, because of catching on fishing net centrifugal force grow, thereby throw away nest book spring two, on being thrown the steamer under stay cord three effects, cut the fishing net by the cutter again, thereby realized receiving fishing net and fish in the food steamer, and use thermal power's steam to evaporate the fish, finally realized automatic receipts net, and can evaporate the function of fish automatically.

Compared with the prior art, the invention has the following beneficial effects: in the invention, the raw materials are mixed,

(1) by arranging the transverse collecting assembly and the longitudinal collecting assembly, the transverse force of the waves and the vertical force of the waves floating up and down can be captured, the effect of multi-capture power generation is realized, and the utilization rate of ocean energy is improved;

(2) the effect of collecting floating garbage on the sea surface is realized by arranging the connecting plate;

(3) by arranging the garbage pushing assembly, the plant garbage can be squeezed and separated into roots, plant juice and plant flesh when being pushed to the inlet pipeline, and after photosynthesis of the sun, chlorophyll contained in the plant juice forms a chlorophyll protection film to be covered on the connecting plate made of iron, so that the possibility that the connecting plate is oxidized and rusted under the condition that the sea surface is semi-wet and semi-dry for a long time is greatly prevented, the effect of reinforcing the connecting plate is realized, and the durability of the connecting plate is improved;

(4) the methane tank is arranged, so that the recycled plant garbage can be fully utilized, and the sealing port is arranged to prevent methane leakage, quickly open the plant garbage to drop into the methane tank and quickly close and seal the plant garbage, so that the effect of generating methane energy is realized;

(5) the fishing mechanism is arranged, so that the rootstocks remained on the surface of the connecting plate can be hooked into seawater, the effect of dredging holes and preventing blockage is realized, meanwhile, the transverse elastic needle shakes left and right and up and down, and the rootstocks hooked into the sea are pulled and woven into a simple fishing net, so that the fishing effect is achieved;

(6) the vacuum pump is arranged, plant garbage and plastic garbage are distinguished by utilizing different gravity, simultaneously leaked biogas is sucked into the material collecting box by the vacuum pump, when the biogas is totally contained in the material collecting box and spreads to the ignition gear, the ignition gear is driven by the inner wall of the biogas digester and the outer wall of the biogas digester to rub and ignite sparks to ignite the biogas, the biogas is instantly burnt into the material collecting box along the biogas direction, simultaneously the plastic garbage collected in the material collecting box is ignited, and the effect of igniting and burning the plastic garbage is realized;

(7) by arranging the thermal expansion air bag, boiling water is heated to expand the thermal expansion air bag and extrude the thermal expansion air bag and the thermal expansion air bag into a closed space, water vapor can only flow out of the steam port and drive the blade wheel II to rotate, the blade wheel II drives the generator to generate electricity, and the effect of thermal power generation is finally realized;

(8) by arranging the net hook, the fishing net and the fish are collected into the food steamer, and the function of automatically collecting the net and steaming the fish is finally realized by using steam of thermal power generation.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of a web construction of the present invention;

FIG. 3 is a schematic view of the garbage pushing assembly of the present invention;

FIG. 4 is a schematic structural view of the fishing mechanism of the present invention;

fig. 5 is a schematic view of another state of the fishing gear of the invention;

FIG. 6 is a schematic view of the concrete structure of the methane tank and the thermal power generation mechanism of the present invention;

FIG. 7 is an enlarged view of the bull gear of the present invention;

FIG. 8 is a schematic view of a detailed structure of the net collecting mechanism of the present invention;

FIG. 9 is a schematic view of another state of the net retracting mechanism of the present invention;

in the figure: 1. a wave energy power generation mechanism; 2. a biogas generating pit; 3. a thermal power generation mechanism; 4. a fishing mechanism; 5. a net collecting mechanism; 6. a coast; 11. a lateral collection assembly; 12. a longitudinal collection assembly; 13. a connecting plate; 14. a rotating wheel; 15. a waste pushing assembly; 111. a float tank; 112. a vane wheel I; 113. cutting the thorn; 121. piling; 122. a first coil spring; 123. a mover; 124. a stator; 125. pulling a first rope; 131. a hole; 132. a floating plate; 133. rotating a first shaft; 134. a stabilizing strip; 151. a pushing block; 1511. a traveler; 1512. a second rotating shaft; 1513. pushing a first plate; 1514. a clamping block; 152. a first spring hinge; 153. a roller; 154. a second pull rope; 155. a surfboard; 156. an elastic plate; 21. the inner wall of the methane tank; 22. the outer wall of the methane tank; 23. a friction point; 24. a buffer plate; 25. an inlet duct; 26. sealing the opening; 261. a second push plate; 262. a second spring hinge; 27. a biogas collecting pipe; 28. a striking gear; 31. a vacuum pump; 32. a material collecting box; 33. a partition plate; 34. a water collection tank; 35. thermally expanding the air bag; 36. a steam port; 37. a second vane wheel; 38. an exhaust duct; 39. an exhaust port; 41. a fixing plate; 42. a vertical elastic needle; 43. a transverse elastic needle; 44. a barb; 51. steaming the net; 52. a food steamer; 53. a cutter; 54. a second coil spring; 55. pulling a rope III; 56. a net hook; 57. hooking; 58. a fishing net.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-9, the present invention provides the following technical solutions: as shown in fig. 1, the wave energy and tidal current energy capturing power generation device comprises a coast 6, a wave energy power generation mechanism 1, a methane tank 2, a thermal power generation mechanism 3, a fishing mechanism 4 and a net collecting mechanism 5, and is characterized in that: the wave energy power generation mechanism 1 is arranged on the coast 6 side, the methane tank 2 is arranged below the wave energy power generation mechanism 1, the fishing mechanism 4 is arranged on one side of the methane tank 2, the thermal power generation mechanism 3 is arranged above the wave energy power generation mechanism 1, and the net collecting mechanism 5 is arranged above the thermal power generation mechanism 3; the capturing and power generating device is arranged on the coast 6, the wave energy power generating mechanism 1 is used for collecting wave energy and tidal current energy on the coast and converting the wave energy and the tidal current energy into electric energy, the methane tank 2 is used for collecting biological energy of plant garbage in the ocean and fermenting the biological energy into methane energy to be collected, the thermal power generating mechanism 3 is used for collecting plastic garbage floating in the ocean and using the plastic garbage as raw materials of thermal power generation, the fishing mechanism 4 is used for collecting and weaving rootstocks of the plant garbage in the ocean into a fishing net 58, so that fishes impacting the coast 6 can be captured, and the net collecting mechanism 5 is used for collecting the fishing net 58 and cooking the fishes in the fishing net 58; the ocean garbage can be collected and applied while the wave energy and tidal current energy are captured, and the utilization rate of the ocean energy is greatly improved.

As shown in fig. 1, the wave energy power generation mechanism 1 comprises a rotating wheel 14, the rotating wheel 14 is fixed at the edge of a coast 6, a connecting plate 13 is arranged at one side of the rotating wheel 14, a transverse collection assembly 11 is arranged at the other side of the connecting plate 13, and a longitudinal collection assembly 12 is arranged below the transverse collection assembly 11; the rotating wheel 14 is fixed on the coast 6, the connecting plate 13 is connected with the transverse collecting assembly 11 to capture the force of the waves transversely pushing to the coast for power generation, and the lower longitudinal collecting assembly 12 can capture the fluctuating force of the waves for power generation.

As shown in fig. 2, the transverse collecting assembly 11 comprises two floating body boxes 111, a vane wheel I112 is arranged between the two floating body boxes 111, and the surface of the vane wheel I112 is provided with cutting thorns 113; the longitudinal collecting assembly 12 comprises a ground pile 121, the ground pile 121 is fixed on the coast 6, a nest coil spring I122 is arranged in a sleeve above the ground pile 121, a rotor 123 is arranged above the nest coil, stators 124 are arranged on two sides of the rotor 123, a pull rope I125 is arranged above the rotor 123, and the other end of the pull rope I is connected with the floating body box 111; the buoyancy of the floating body box 111 enables the first supporting blade wheel 112 to float on the sea surface no matter the sea surface wave is high or low, and the lower half portion of the blades of the first blade wheel 112 are guaranteed to be under the sea surface, so that the transverse thrust of the sea surface wave can push the first blade wheel 112 to rotate, a generator is arranged in the floating body box 111, and the first blade wheel 112 rotates to enable the generator to generate electricity; the cutting spines 113 can also cut the garbage on the sea surface when the impeller rotates to generate electricity; the floating body box 111 is driven by waves to float up and down and pull the first pull rope 125 at the same time, and the first pull rope 125 and the first coil spring 122 drive the rotor 123 to float up and down in the stator 124 to cut the magnetic induction lines to generate electricity.

As shown in fig. 2, a plurality of sets of holes 131 are formed in the surface of the connecting plate 13, two rotating shafts are arranged in the middle of the connecting plate 13, a first rotating shaft 133 is connected with a floating plate 132 in a supporting manner, and a stabilizing strip 134 is arranged below the floating plate 132; the connecting plate 13 is provided with a garbage pushing assembly 15; when waves come, the floating plate 132 is impacted from the lower part of the connecting plate 13, the floating plate 132 is rotated to be in an open state through the first rotating shaft 133, the waves rush to the upper part of the connecting plate 13 from the lower part of the connecting plate 13, the plastic garbage and the plant garbage which are cut through the cutting thorns 113 are taken on the connecting plate 13 when the waves rush up, after the waves retreat, the floating plate 132 is reset to be in a horizontal position under the action of the stabilizing strips 134, the garbage which is taken up by the waves stays on the surface of the floating plate 132, and the seawater returns along with the waves through the holes 131; compare in the artifical seaside of tradition and collect rubbish, not only waste time and energy, take place drowned danger in addition, through being provided with connecting plate 13, realized utilizing the wave to strike the effect of collecting sea surface floating garbage.

As shown in fig. 3, the garbage pushing assembly 15 includes a pushing block 151, one side of the pushing block 151 is connected to a first spring hinge 152, the other side of the first spring hinge 152 is connected to the floating body box 111, one end of the connecting plate 13 close to the floating body box 111 is provided with a roller 153, a surfboard 155 is arranged below the floating body box 111, a second pull rope 154 is arranged between the surfboard 155 and the pushing block 151, and the second pull rope 154 is slidably connected to the roller 153; the pushing block 151 comprises two sliding columns 1511, a second rotating shaft 1512 is arranged between the two sliding columns 1511, the second rotating shaft 1512 is in supporting connection with a first push plate 1513, and a fixture block 1514 is arranged above each of the two sliding columns 1511; when sea waves come, the surfboard 155 is pushed to one side of the coast 6 by the transverse thrust of the sea waves, the push block 151 is pulled to one side of the floating body box 111 by the pull rope II 154 behind the surfboard 155 through the roller 153, when the push block I1513 encounters obstacles such as garbage and the like in the pulling process, the push block I1513 reversely rotates to avoid the garbage by the rotating shaft II 1512, when the sea waves retreat, the transverse elastic force of the spring hinge I152 pushes the push block 151 to one side of the inlet pipeline 25, when the garbage encounters in the pushing process, the trend that the rotating shaft II 1512 is forced to rotate forwards is blocked by the block 1514, so that a large amount of plastic garbage is pushed to the inlet pipeline 25, and the plant garbage is squeezed and separated into rootstocks, plant juice and plant meat by the pushing force of the push block 151 due to strong adhesiveness; a large number of plant roots and stems are still attached to the surface of the connecting plate 13 after being extruded, meanwhile, plant juice is extruded to cover the surface of the connecting plate 13, and chlorophyll contained in the plant juice forms a chlorophyll protection film to cover the connecting plate 13 made of iron under the condition that little seawater is blown up by the connecting plate 13 during the ebb tide and the photosynthesis of the sun, so that the possibility that the connecting plate 13 is oxidized and rusted under the condition that the sea surface is semi-wet and semi-dry for a long time is greatly prevented, the effect of reinforcing the connecting plate 13 is realized, and the durability of the connecting plate 13 is improved; the vegetable flesh is pushed to the inlet duct 25.

As shown in fig. 6, the methane tank 2 comprises a methane tank inner wall 21 and a methane tank outer wall 22, friction points 23 are arranged on both the methane tank inner wall 21 and the methane tank outer wall 22, a buffer plate 24 is arranged between the methane tank inner wall 21 and the methane tank outer wall 22, an inlet pipeline 25 is arranged above the methane tank 2, an elastic plate 156 is arranged at the joint of the inlet pipeline 25 and the connecting plate 13, a sealing port 26 is arranged inside the inlet pipeline 25, the sealing port 26 comprises a push plate two 261 and a spring hinge two 262, one end of the spring hinge two 262 is fixed on the inner wall of the inlet pipeline 25, the other end of the spring hinge two 262 is connected with the push plate two 261 in a supporting manner; under the impact of sea waves, the inner wall 21 of the methane tank and the outer wall 22 of the methane tank are relatively shaken, when the inner friction points 23 and the buffer plate 24 are rubbed to generate heat, the inner part of the methane tank 2 is heated, meanwhile, the buffer plate 24 also plays a role in heat preservation, the speed of producing methane through fermentation of internal plants is increased, the elastic plate 156 ensures that the connecting plate 13 can still be connected with the inlet pipeline 25 when swinging, the push plate two 261 of the sealing port 26 is supported by the spring hinge two 262, and only when the plant garbage stacked in the inlet pipeline 25 reaches a certain weight, the sealing port 26 can be opened to drop the plant garbage into the methane tank 2 and is rapidly closed and sealed, so that the methane generated in the methane tank 2 is effectively prevented from leaking; the biogas collecting pipe 27 is connected with the outside to fully utilize the biological energy of the recycled plant waste.

As shown in fig. 4 and 5, the fishing mechanism 4 comprises a fixing plate 41, the fixing plate 41 is fixed at the edge of the coast 6, a plurality of vertical elastic needles 42 are arranged above the fixing plate 41, a plurality of transverse elastic needles 43 are arranged at the side of the outer wall 22 of the methane tank far from the coast 6, and barbs 44 are arranged on the surfaces of the vertical elastic needles 42 and the transverse elastic needles 43; when waves impact the connecting plate 13 back and forth, the connecting plate 13 rotates up and down around the rotating wheel 14, when the waves rotate down, the vertical elastic needle 42 is inserted into the hole 131 of the connecting plate 13, and when the waves rotate up, the barb 44 on the vertical elastic needle 42 hooks rootstocks remained on the surface of the connecting plate 13 into seawater, so that the hole 131 is dredged, and the blocking prevention effect is realized; the outer wall 22 of the methane tank is impacted by sea waves to shake and simultaneously drives the transverse elastic needles 43 to shake left and right and up and down, rootstocks hooked in the sea are pulled to weave a simple fishing net 58, and the fishing net 58 formed after the vertical elastic needles 42 and the transverse elastic needles 43 are woven back and forth by recovering the rootstocks of plants plays a role in fishing.

Referring to fig. 6 and 7, the thermal power generation mechanism 3 comprises a material collection box 32, a vacuum pump 31 is arranged in the material collection box 32, the vacuum pump 31 is positioned right above an inlet pipeline 25, an exhaust pipeline 38 is arranged below the material collection box 32, the other end of the exhaust pipeline 38 is connected with the outer wall 22 of the methane tank, an exhaust port 39 is arranged on the outer wall 22 of the methane tank, two ignition gears 28 are arranged between the outer wall 22 of the methane tank and the inner wall 21 of the methane tank, and the two ignition gears 28 are positioned at the joint of the exhaust pipeline 38 and the outer wall 22; because of the effect of the cutting thorns 113, the plastic waste is cut into a plurality of plastic fragments, the plant waste is not easy to break due to more roots and stems, and only plant meat is extruded into clusters under the extrusion of the pushing block, the plastic waste pushed to the inlet pipeline 25 by the pushing block 151 and the plant meat are different in gravity, so that the light plastic fragment waste is sucked into the collecting box 32 by the vacuum pump 31, the heavier plant meat falls into the methane tank 2 to generate methane, the density of the methane is less than that of the air when the main components of the methane are contained, when the sealing port 26 is opened each time, a part of the methane leaks out from the inlet pipeline 25, the leaked methane is sucked into the collecting box 32 by the vacuum pump 31, the density of the methane is less than that of the air, the methane in a large amount of gas sucked by the vacuum pump 31 is remained at the upper part of the collecting box 32, the air flows to the exhaust port 39 from the exhaust pipeline 38 and is discharged along with, the air in the material collecting box 32 is less and less, when the whole methane in the material collecting box 32 is spread to the ignition gear 28, the ignition gear 28 is driven by the inner wall 21 of the methane tank and the outer wall 22 of the methane tank to rub to ignite the methane, and instantly burns the methane to the inside of the material collecting box 32 along the methane direction, and simultaneously ignites the plastic garbage collected in the material collecting box 32, compared with the traditional electronic ignition combustion mode, the methane leaked from the sealing port 26 is fully utilized for ignition, the plastic garbage accumulated during the automatic ignition combustion at intervals is also realized, the biomass energy is fully utilized, and the effect of automatic thermal power generation is further improved.

As shown in fig. 6 and 7, a partition plate 33 is arranged above the material collecting box 32, a water collecting tank 34 is arranged above the partition plate 33, a plurality of groups of thermal expansion air bags 35 are arranged above the water collecting tank 34, a steam port 36 is arranged on one side above the water collecting tank 34, and the steam port 36 is connected with a second vane wheel 37 through a pipeline; when sea waves hit the coast 6, part of seawater falls into the water collection tank 34, plastic garbage in the material collection tank 32 is combusted, so that water in the water collection tank 34 is heated and boiled, the upper thermal expansion air bag 35 is heated and expanded and mutually extruded to form a closed space, water vapor can only flow out from the steam port 36 and drives the blade wheel II 37 to rotate, the blade wheel II 37 drives the generator to generate power, and the effect of thermal power generation is finally achieved.

As shown in fig. 8 and 9, the net collecting mechanism 5 comprises a food steamer 52, the food steamer 52 is arranged above the vane wheel, the food steamer 52 is connected with the vane wheel through a pipeline, a steaming net 51 is arranged inside the food steamer 52, and a cutter 53 is arranged on one side above the food steamer 52; a nest-rolling spring II 54 is arranged inside the floating body box 111, the nest-rolling spring II 54 is connected with a pull rope III 55, the other end of the pull rope III 55 is connected with a net hook 56, a plurality of hook thorns 57 are arranged on the surface of the net hook 56, and the net hook 56 is connected with a fishing net 58; the floating body box 111 enables the net hooks 56 to be overlooked along with the height of sea waves, the net hooks 56 catch the net hooks 58 along with the increasing number of the fishing nets 58 woven by the fishing mechanism 4 and then are piled to be higher and higher, when the fishing nets 58 reach a certain number, the net hooks 56 catch the net hooks 58, the centrifugal force of the net hooks 58 is increased along with the impact of the sea waves on the connecting plate 13 to a high point, the nest coil springs 54 are thrown out, the net hooks are thrown onto the steaming net 51 under the action of the third pull ropes 55, the fishing net hooks 58 are cut by the cutters 53, the fishing net 58 and fish are collected into the steamer 52, and the steam generated by thermal power generation is used for steaming the fish, so that the automatic net collection is finally realized, and the function of automatically steaming the fish is realized; when encountering marine difficulties, people are trapped in the sea to wait for rescue, a large amount of physical power is easily consumed by long-term needle stick in the sea, people are easily trapped in fatigue to cause drowning, in order to supplement energy required by human bodies, the fish steaming function can supplement food for people near encountering marine difficulties so as to wait for rescue with physical power, and simultaneously, the fish steaming function can also provide a food source for surrounding fishermen who are busy working and inconvenient to eat ashore at ordinary times.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. Wave energy and trend can catch power generation facility, including coast (6), wave energy power generation mechanism (1), methane-generating pit (2), thermal power mechanism (3), fishing mechanism (4) and receipts net mechanism (5), its characterized in that: the wave energy power generation mechanism (1) is arranged on the coast (6), the methane tank (2) is arranged below the wave energy power generation mechanism (1), the fishing mechanism (4) is arranged on one side of the methane tank (2), the thermal power generation mechanism (3) is arranged above the wave energy power generation mechanism (1), and the net collecting mechanism (5) is arranged above the thermal power generation mechanism (3).

2. The wave and tidal energy capture power generation device of claim 1, wherein: the wave energy power generation mechanism (1) comprises a rotating wheel (14), the rotating wheel (14) is fixed on the edge of a coast (6), a connecting plate (13) is arranged on one side of the rotating wheel (14), a transverse collection assembly (11) is arranged on the other side of the connecting plate (13), and a longitudinal collection assembly (12) is arranged below the transverse collection assembly (11).

3. The wave and tidal energy capture power generation device of claim 2, wherein: the transverse collecting assembly (11) comprises two floating body boxes (111), a first blade wheel (112) is arranged between the two floating body boxes (111), and cutting thorns (113) are arranged on the surface of the first blade wheel (112); the longitudinal collecting assembly (12) comprises a ground pile (121), the ground pile (121) is fixed on a coast (6), a nest coil spring I (122) is arranged in a sleeve above the ground pile (121), a rotor (123) is arranged above the nest coil, stators (124) are arranged on two sides of the rotor (123), a first pull rope (125) is arranged above the rotor (123), and the other end of the first pull rope is connected with a floating body box (111).

4. The wave and tidal energy capture power generation device of claim 3, wherein: the surface of the connecting plate (13) is provided with a plurality of groups of holes (131), two rotating shafts are arranged in the middle of the connecting plate (13), the rotating shaft I (133) is connected with a floating plate (132) in a supporting mode, and a stabilizing strip (134) is arranged below the floating plate (132); and a garbage pushing assembly (15) is arranged on the connecting plate (13).

5. The wave and tidal energy capture power generation device of claim 4, wherein: the garbage pushing assembly (15) comprises a pushing block (151), one side of the pushing block (151) is connected with a first spring hinge (152), the other side of the first spring hinge (152) is connected with a floating body box (111), one end, close to the floating body box (111), of the connecting plate (13) is provided with a roller (153), a surfboard (155) is arranged below the floating body box (111), a second pull rope (154) is arranged between the surfboard (155) and the pushing and pushing block (151), and the second pull rope (154) is in sliding connection with the roller (153); the pushing block (151) comprises two sliding columns (1511), a second rotating shaft (1512) is arranged between the two sliding columns (1511), the second rotating shaft (1512) is connected with a first push plate (1513) in a supporting mode, and clamping blocks (1514) are arranged above the two sliding columns (1511).

6. The wave and tidal energy capture power generation device of claim 5, wherein: the methane tank (2) comprises a methane tank inner wall (21) and a methane tank outer wall (22), friction points (23) are arranged on the inner wall (21) and the outer wall (22) of the methane tank, a buffer plate (24) is arranged between the inner wall (21) and the outer wall (22) of the methane tank, an inlet pipeline (25) is arranged above the methane tank (2), an elastic plate (156) is arranged at the joint of the inlet pipeline (25) and the connecting plate (13), a sealing opening (26) is arranged in the inlet pipeline (25), the sealing opening (26) comprises a second push plate (261) and a second spring hinge (262), one end of the second spring hinge (262) is fixed on the inner wall of the inlet pipeline (25), the other end of the spring hinge II (262) supports and is connected with a push plate II (261), and a methane collecting pipe (27) is arranged on one side of the methane tank (2) close to the coast (6).

7. The wave and tidal energy capture power generation device of claim 6, wherein: fishing mechanism (4) are including fixed plate (41), fixed plate (41) are fixed on coast (6) limit, fixed plate (41) top is provided with a plurality of vertical elasticity needles (42), methane-generating pit outer wall (22) are kept away from coast (6) one side and are provided with a plurality of horizontal elasticity needles (43), vertical elasticity needle (42) all are provided with barb (44) with horizontal elasticity needle (43) surface.

8. The wave and tidal energy capture power generation device of claim 7, wherein: the thermal power generation mechanism (3) comprises a material collection box (32), a partition plate (33) is arranged above the material collection box (32), a water collection box (34) is arranged above the partition plate (33), a plurality of groups of thermal expansion air bags (35) are arranged above the water collection box (34), a steam port (36) is arranged on one side above the water collection box (34), and the steam port (36) is connected with a second vane wheel (37) through a pipeline.

9. The wave and tidal energy capture power generation device of claim 8, wherein: the methane tank is characterized in that a vacuum pump (31) is arranged in the material collecting tank (32), the vacuum pump (31) is located right above the inlet pipeline (25), an exhaust pipeline (38) is arranged below the material collecting tank (32), the other end of the exhaust pipeline (38) is connected with the outer wall (22) of the methane tank, an exhaust port (39) is formed in the outer wall (22) of the methane tank, two ignition gears (28) are arranged between the outer wall (22) of the methane tank and the inner wall (21) of the methane tank, and the two ignition gears (28) are located at the joint of the exhaust pipeline (38) and the outer wall (22) of the methane tank.

10. The wave and tidal energy capture power generation device of claim 9, wherein: the net collecting mechanism (5) comprises a food steamer (52), the food steamer (52) is arranged above the vane wheel, the food steamer (52) is connected with the vane wheel through a pipeline, a steaming net (51) is arranged inside the food steamer (52), and a cutter (53) is arranged on one side above the food steamer (52); the floating body box (111) is internally provided with a nest-rolling spring II (54), the nest-rolling spring II (54) is connected with a pull rope III (55), the other end of the pull rope III (55) is connected with a net hook (56), the surface of the net hook (56) is provided with a plurality of hook thorns (57), and the net hook (56) is connected with a fishing net (58).