CN201802549U - Wave power generation unit and power generating device - Google Patents

Abstract

The utility model discloses a wave power generation unit and a power generating device, and aims at providing a wave power generation unit and a wave power generating device having simple structure, low manufacturing cost and high power generation efficiency. The wave power generating device comprises a wave power generation unit and a hydrofoil for installing the wave power generation unit, wherein the wave power generation unit comprises two floating boxes, a lever device, and a water cylinder device and a waterwheel power generating device which are arranged on the bottom part of the floating boxes, two ends of the lever device respectively extend into the interior of the two floating boxes, the end part is connected with the water cylinder device in a rotating way, the water cylinder device is communicated with the waterwheel power generating device through a pipeline, the water cylinder device is connected with a water inlet pipe which is communicated with the exterior of the floating boxes, the waterwheel power generating device is connected with a water outlet pipe which is communicated with the exterior of the floating boxes, and the water inlet pipe and the pipeline between the water cylinder device and the waterwheel power generating device are provided with a retaining valve which points to the waterwheel power generating device.

Description

Wave-energy generating unit and electricity generating device

Technical field

The utility model relates to a kind of Wave-energy generating unit and electricity generating device

Background technique

The form of generating mainly is with thermal power generation; hydroelectric power; solar energy power accumulating; the internal-combustion engine generating; wind-power electricity generation and nuclear energy power generation; household electricity with people has brought convenience; but; thermal power generation in above-mentioned and internal-combustion engine generating; need to consume a large amount of non-renewable resources; though hydroelectric power and wind-power electricity generation environmental protection; but be subjected to the restriction of rivers and lakes and the limited condition of wind-force; can not thoroughly solve the problem of energy crisis; and nuclear energy power generation exists potential environmental pollution problem and safety problem; do not satisfy people and improve problem day by day the integration requirement of electric energy; in order to solve this this a little problems; people utilize wave-activated power generation gradually; wave energy is that a kind of density is low; unstable; pollution-free; renewable; reserves are big; it is wide to distribute; utilize the difficult energy; because the place that utilizes of wave energy is confined near the seashore; also receive the invasion and attack of Oceanic disasters sex climate easily; the development cost height; small scale; good but the deficiency in economic performance of social benefit; turnover is long; for a long time, the large-scale commercial applications that has fettered wave energy melts to send out and utilizes and development.

And at present, CN1090910A discloses a kind of Wave power generation device, CN2818833Y discloses a kind of wave floating force electric generating station, these prior aries all comprise a float, one lever, one gear drive or a rack gear and a generator, float floats on sea or the lake surface, one end of lever is fixedlyed connected with float, the other end of lever is fixedlyed connected with the power input tooth bar of the power input gear of gear-driven mechanism or rack gear, and the power input shaft of the power input shaft of gear-driven mechanism or rack gear links to each other with generator again, when wave is come, float is held up, this wave was after the past, and float falls by own wt, so repeatedly, in the process that float rises and descends, float by lever pushing power input gear or power input tooth bar clockwise or rotate counterclockwise the driving generator for electricity generation, these complex structures, manufacture cost is than higher, and mechanical loss is big, and efficient is low.

The model utility content

Technical problem to be solved in the utility model is to overcome the deficiencies in the prior art, and a kind of simple in structure, low cost of manufacture, Wave-energy generating unit and electricity generating device that generating efficiency is high are provided.

The technological scheme that the utility model Wave-energy generating unit is adopted is: the utility model comprises two buoyancy tanks, connect the leverage of two described buoyancy tanks and be positioned at the water vat device and the hydroturbine generator of below, two described buoyancy tank inside, the inside of two described buoyancy tanks is stretched at the two ends of described leverage respectively, described water vat device comprises water vat I, be positioned at the piston I of described water vat I and connect the piston rod I of described piston I, the end of described piston rod I and described leverage is rotationally connected, described water vat I communicates with described hydroturbine generator pipeline, described water vat I is connected with the intake pipe with described buoyancy tank exterior, described hydroturbine generator is connected with the outlet pipe with described buoyancy tank exterior, on the described intake pipe, be provided with the one-way valve that points to described hydroturbine generator on the pipeline between described water vat I and the described hydroturbine generator.

Described leverage comprises lever, is arranged on the described buoyancy tank and can swings the parcel assembly that described lever is installed that described lever and described piston rod are rotationally connected.

Described water vat device also comprises water vat II, be positioned at the piston I I of described water vat II and connect the piston rod II of described piston I I, also be provided with four rolling at least in the described buoyancy tank, be arranged on the rope on the described roller, the middle brace rod that connects described buoyancy tank top and bottom, the slide blocks that is arranged on the described middle brace rod and is slidingly matched with described middle brace rod, described piston rod II and described slide blocks flexibly connect, half of at least four described rollers is arranged on described buoyancy tank top, second half is arranged on corresponding below, described buoyancy tank bottom, one side of described rope is connected with the end of described lever, and another side is connected with described slide blocks.

Described lever is a telescopic rod, described lever is provided with the oil hydraulic cylinder of regulating described lever length, also be provided with slide unit and following slide unit in the described buoyancy tank, described upward slide unit is arranged on described buoyancy tank top and cooperates with described buoyancy tank top slide, the described roller of described buoyancy tank inner and upper and the upper end of described middle brace rod all are arranged on described going up on the slide unit, described slide unit down is arranged on described buoyancy tank bottom and cooperates with described buoyancy tank basal sliding, described water vat I, described water vat II, the described roller of described buoyancy tank below and the lower end of described middle brace rod are arranged on the described slide unit down, are connected with oil hydraulic cylinder between the sidewall of described middle brace rod and described buoyancy tank.

Also be provided with at least one strut between the top of described buoyancy tank and the bottom, described lever passes described strut and is slidingly matched with slide rail on the described strut.

Described leverage comprises rocking arm in described buoyancy tank, outside described buoyancy tank and and the lever that is rotationally connected of described rocking arm, be arranged on the oil sealing between described rocking arm and the described lever, described rocking arm and described piston rod I are rotationally connected.

The technological scheme that the utility model wave energy generating set is adopted is: it comprises one or more groups described Wave-energy generating unit, at least two buoyancy aids that described Wave-energy generating unit is set, be arranged on the electric power control room on one of them described buoyancy aid, two described buoyancy tanks on described Wave-energy generating unit are separately positioned on two different described buoyancy aids, the part of described buoyancy tank is positioned at the top of described buoyancy aid, another part is positioned at the below of described buoyancy aid, described electric power is provided with electric control system in the control room, and described oil hydraulic cylinder all is electrically connected with described electric control system.

Described wave energy generating set also comprises the unrestrained baffle plate of collection, is connected with described oil hydraulic cylinder between described collection wave baffle plate and the described buoyancy tank, and described oil hydraulic cylinder is electrically connected with described electric control system.

Described wave-type electric generator also comprises hawser and the hawser controlling device that is arranged on the described buoyancy aid, described hawser controlling device comprises the runner on motor, the gear governing box that is connected with described motor rotation axis, the described gear governing box output shaft, described hawser is arranged on the described runner, and described motor is electrically connected with described electric control system.

The beneficial effects of the utility model are: because the utility model comprises two buoyancy tanks, connect the leverage of two described buoyancy tanks and be positioned at the water vat device and the hydroturbine generator of below, described buoyancy tank inside, the inside of two described buoyancy tanks is stretched at the two ends of described leverage respectively, described water vat device comprises water vat I, be positioned at the piston I of described water vat I and the piston rod I of connection piston, the end of described piston rod I and described lever is rotationally connected, described water vat I communicates with described hydroturbine generator pipeline, described water vat I is connected with the intake pipe with described buoyancy tank exterior, described hydroturbine generator is connected with the outlet pipe with described buoyancy tank exterior, on the described intake pipe, be provided with the one-way valve that points to described hydroturbine generator on the pipeline between described water vat and the described hydroturbine generator.After being put into described buoyancy tank on sea or the lake surface, utilize wave to make a plurality of described buoyancy tanks produce the gesture potential difference, described lever is in the effect of described strut swing and tilt, thereby when making progress, the piston rod that makes described water vat sucks water aspect placing an order in the effect of described one-way valve, make water enter described hydroturbine generator when pressing down through piping, make the hydroturbine generator generating, use gear drive or rack gear have been saved, reduced cost, avoided mechanical loss big, so the utility model is simple in structure, manufacture cost is lower, generating efficiency is high.

Because described water vat device also comprises water vat II, be positioned at the piston I I of described water vat II and connect the piston rod II of described piston I I, at least four rolling and be arranged on rope on the roller, the middle brace rod that connects described buoyancy tank top and bottom, the slide blocks that is arranged on the described middle brace rod and is slidingly matched with described middle brace rod, described piston rod II and described slide blocks flexibly connect, half is arranged on described buoyancy tank top at least four described rollers, be arranged on described buoyancy tank bottom as another and go up corresponding below, one side of described rope is connected with the end of described lever, another side is connected with described slide blocks, when pressing down, the piston rod I of described water vat I provide power to make described hydroturbine generator work, described piston rod II rises under the effect of described rope simultaneously, make described water vat II suction accumulation of energy, when the piston rod of described water vat I rises the suction accumulation of energy, and the piston rod of described water vat II begins to press down and makes the hydroturbine generator merits and demerits, in this way, for providing power, described hydroturbine generator makes its work endlessly, strengthen the utilization ratio of wave energy, so the utilization ratio height of the utility model wave energy.

Description of drawings

Fig. 1 is the utility model embodiment one a plan view;

Fig. 2 is the utility model embodiment one a plan view;

Fig. 3 is the utility model embodiment one an internal structure schematic representation;

Fig. 4 is the utility model embodiment two a plan view;

Fig. 5 is the utility model embodiment two a plan view;

Fig. 6 is the utility model embodiment two an internal structure schematic representation;

Fig. 7 is that the utility model lower pulley block is located at the schematic cross-section on the buoyancy tank base plate;

Fig. 8 is the structural representation of the utility model hawser arrangements for speed regulation;

Fig. 9 is the structural representation at the local A place of Fig. 6.

Embodiment

Embodiment one:

As Fig. 1, Fig. 2, Fig. 3, Fig. 7, shown in Figure 8, present embodiment comprises four groups of Wave-energy generating units, three buoyancy aids 300 of described Wave-energy generating unit are set, with described buoyancy aid 300 collection wave baffle plate 21 that flexibly connects and the hawser 400 that is connected three described buoyancy aids 300, be arranged on the hawser controlling device in the described buoyancy aid 300, be arranged on the electric power control room 500 on one of them described buoyancy aid 300, described hawser 400 is arranged on the described hawser controlling device, be provided with electric control system in the described electric power control room 500, described Wave-energy generating unit comprises two buoyancy tanks 100 and the lever 200 that is connected described buoyancy tank 100, the inside of two described buoyancy tanks 100 is stretched at the two ends of described lever 200 respectively, described lever 200 is provided with parcel assembly 4 with the intersection point place of described buoyancy tank 100, described parcel assembly 4 comprises two wrap sheets that cooperatively interact waterproof and described lever 200 is swung, described lever 200 is spherical at the intersection point place with described buoyancy tank 100, be wrapped in by the wrap sheet that cooperatively interacts described lever 200 can be swung and waterproof, described two buoyancy tanks 100 of described Wave-energy generating unit are separately positioned on the different described buoyancy aids 300, middle described buoyancy aid 300 is provided with 4 buoyancy tanks 100,2 described buoyancy tanks 100 all are set on other the described buoyancy aid 200, described buoyancy tank 100 inner belows are provided with water vat device and hydroturbine generator, described water vat device comprises water vat I 10, be positioned at the piston I 11 of described water vat I 10 and the piston rod I 12 of connection piston, following slide unit 18, described piston rod I 12 is rotationally connected with the end of described lever 200, described hydroturbine generator comprises water turbine 13 and the generator 14 that is connected with described water turbine, described water vat I 10 is connected with described water turbine 13 pipelines, described water vat I 10 is connected with the intake pipe 15 with described buoyancy tank 100 exterior, described water turbine 13 is connected with the outlet pipe 16 with described buoyancy tank 100 exterior, on the described intake pipe 15, be provided with the one-way valve 17 that points to described water turbine 13 on the pipeline between described water vat I 10 and the described water turbine 13, described lever 200 is a telescopic rod, described lever 200 is provided with the oil hydraulic cylinder 5 of regulating described lever 200 length, be connected with middle brace rod 19 between described buoyancy tank 100 top and bottoms, described slide unit 18 down cooperates with described buoyancy tank 100 basal slidings, described water vat I 10 is located at described slide unit 18 tops down, be provided with oil hydraulic cylinder 35 between described water vat I 10 and the described middle brace rod 19, described oil hydraulic cylinder 35 1 ends and described water vat I10 flexibly connect, the other end and described middle brace rod 19 flexibly connect, also be provided with at least one strut 20 between the top of described buoyancy tank 100 and the bottom, described lever 200 passes described strut 20 and is slidingly matched with slide rail on the described strut 20, be provided with described oil hydraulic cylinder 35 between unrestrained baffle plate 21 of described collection and the described buoyancy tank 100, the entry angle that can regulate the unrestrained baffle plate 21 of described collection according to sea situation at that time by described oil hydraulic cylinder 35, control the rocking tendency of described buoyancy tank 100 and described lever 200 simultaneously, help the concentrated of wave and reduce the impact of wave casing, described hawser controlling device comprises motor 22, the gear governing box 23 that is connected with described motor rotation axis, runner 24 on described gear governing box 23 output shafts, described hawser 400 is arranged on the described runner 24, described oil hydraulic cylinder 35 and described motor 22 all are electrically connected with described electric control system, and can be electrically connected the working condition of checking described hydroturbine generator with described hydroturbine generator by described electric control system.

Embodiment two:

As Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8, shown in Figure 9, present embodiment comprises two groups of Wave-energy generating units, two buoyancy aids 300 of described Wave-energy generating unit are set, with described buoyancy aid 300 collection wave baffle plate 21 that flexibly connects and the hawser 400 that is connected two described buoyancy aids 300, be arranged on the hawser controlling device in the described buoyancy aid 300, be arranged on the electric power control room 500 on one of them described buoyancy aid 300, described hawser 400 is arranged on the described hawser controlling device, be provided with electric control system in the described electric power control room 500, described Wave-energy generating unit comprises two buoyancy tanks 100 and the lever 200 that is connected described buoyancy tank 100, the inside of two described buoyancy tanks 100 is stretched at the two ends of described lever 200 respectively, described leverage comprises lever 200, the rocking arm 1 that is connected with described lever 200, oil sealing 2 between described lever 200 and described rocking arm 1, described oil sealing 2 is fixed on the described buoyancy tank 100, described lever 200 can rotate around described oil sealing 2 with described rocking arm 1, described two buoyancy tanks 100 of described Wave-energy generating unit are separately positioned on two different described buoyancy aids 300, described buoyancy tank 100 inner belows are provided with water vat device and hydroturbine generator, described water vat device comprises water vat I 10, be positioned at the piston I 11 of described water vat I, the piston rod I 12 that connects piston, water vat II 30, be positioned at the piston I I 31 of described water vat II 30 and connect the piston rod II 32 of described piston I I 31, four rolling 33 and the rope 34 that is arranged on the described roller 33, following slide unit 18, last slide unit 28, connect described slide unit 18 down and the described middle brace rod 19 of going up slide unit 28, the slide blocks 36 that is arranged on the described middle brace rod 19 and is slidingly matched with described middle brace rod 19, described hydroturbine generator comprises water turbine 13 and the generator 14 that is connected with described water turbine, described water vat I 10 and described water vat II 30, two described rollers 33, the lower end of described middle brace rod 19 all is fixed on the described slide unit 18 down, described slide unit 18 down is slidingly matched with the base plate of described buoyancy tank 100, the intake pipe 15 of the exterior of described water vat I 10 and described water vat II 30 connections in parallel and described buoyancy tank 100, and be connected with described water turbine 33 pipelines respectively, be connected with outlet pipe 16 on the described water turbine 33 with the exterior of described buoyancy tank 100, on the described intake pipe 15, be provided with the one-way valve 17 that points to described water turbine 13 on described water vat I10 and described water vat II 30 and the pipeline that described water turbine 13 is connected, described intake pipe 15, described outlet pipe 16 is collapsible pipeline, the end of described piston rod I and described lever 200 is rotationally connected, described piston rod II is fixedlyed connected with described slide blocks 36, the lower end of two other described roller 33 and described middle brace rod 19 all is fixedly installed on described going up on the slide unit 28, the described slide unit 28 of going up cooperates with the top slide of described buoyancy tank 100, one side of described rope 34 is connected with the end of described rocking arm 1, another side is connected with described slide blocks 36, also be provided with at least one strut 20 between the top of described buoyancy tank 100 and the bottom, described rocking arm 1 passes described strut 20 and is slidingly matched with slide rail on the described strut 20, the unrestrained device of described collection comprises the unrestrained baffle plate 21 of collection and regulates the described oil hydraulic cylinder 35 of unrestrained baffle plate 21 angles of described collection, the unrestrained baffle plate 21 of described collection flexibly connects with described buoyancy tank 100, described oil hydraulic cylinder 35 1 ends are connected with described buoyancy tank 100, the other end is connected with the unrestrained baffle plate 21 of described collection, the entry angle that can regulate the unrestrained baffle plate 51 of described collection according to sea situation at that time, control the rocking tendency of described buoyancy tank 100 and described leverage simultaneously, help the concentrated of wave and reduce the impact of wave casing, described hawser controlling device comprises motor 22, the gear governing box 23 that is connected with described motor 22 rotatingshafts, runner 24 on described gear governing box 23 output shafts, described hawser 400 is arranged on the described runner 24, described oil hydraulic cylinder 35 and described motor 22 all are electrically connected with described electric control system, and can be electrically connected the working condition of checking described hydroturbine generator with described hydroturbine generator by described electric control system.

The utility model can be widely used in the wave-activated power generation field.

Claims (9)

1. Wave-energy generating unit, it is characterized in that: it comprises two buoyancy tanks (100), connect the leverage of two described buoyancy tanks (100) and be positioned at the water vat device and the hydroturbine generator of the inner below of two described buoyancy tanks (100), the inside of two described buoyancy tanks (100) is stretched at the two ends of described leverage respectively, described water vat device comprises water vat I (10), be positioned at the piston I (11) of described water vat I (10) and connect the piston rod I (12) of described piston I (11), described piston rod I (12) is rotationally connected with the end of described leverage, described water vat I (10) communicates with described hydroturbine generator pipeline, described water vat I (10) is connected with the intake pipe (15) with described buoyancy tank (100) exterior, described hydroturbine generator is connected with the outlet pipe (16) with described buoyancy tank (100) exterior, on the described intake pipe (15), be provided with the one-way valve (17) that points to described hydroturbine generator on the pipeline between described water vat I (10) and the described hydroturbine generator.

2. Wave-energy generating unit according to claim 1, it is characterized in that: described leverage comprises lever (200), is arranged on the parcel assembly (4) that the described lever of installation (200) was gone up and can be swung to described buoyancy tank (100), and described lever (200) is rotationally connected with described piston rod (12).

3. Wave-energy generating unit according to claim 1 and 2, it is characterized in that: described water vat device also comprises water vat II (30), be positioned at the piston I I (31) of described water vat II (30) and connect the piston rod II (32) of described piston I I (31), also be provided with four rolling (33) at least in the described buoyancy tank (100), be arranged on the rope (34) on the described roller (33), the middle brace rod (19) that connects described buoyancy tank (3100) top and bottom, the slide blocks (36) that is arranged on that described middle brace rod (19) is gone up and is slidingly matched with described middle brace rod (19), described piston rod II (32) flexibly connects with described slide blocks (36), half of at least four described rollers (33) is arranged on described buoyancy tank (100) top, second half is arranged on corresponding below, described buoyancy tank (100) bottom, one side of described rope (34) is connected with the end of described lever (200), and another side is connected with described slide blocks (36).

4. Wave-energy generating unit according to claim 3, it is characterized in that: described lever (200) is a telescopic rod, described lever (200) is provided with the oil hydraulic cylinder (35) of regulating described lever (200) length, also be provided with slide unit (28) and following slide unit (18) in the described buoyancy tank (100), described upward slide unit (28) is arranged on described buoyancy tank (100) top and cooperates with described buoyancy tank (100) top slide, the described roller (33) of described buoyancy tank (100) inner and upper and the upper end of described middle brace rod (19) all are arranged on described going up on the slide unit (28), described slide unit (18) down is arranged on described buoyancy tank (100) bottom and cooperates with described buoyancy tank (100) basal sliding, described water vat I (10), described water vat II (30), the described roller (33) of described buoyancy tank (100) below and the lower end of described middle brace rod (19) are arranged on the described slide unit (18) down, are connected with oil hydraulic cylinder (35) between the sidewall of described middle brace rod (19) and described buoyancy tank (100).

5. Wave-energy generating unit according to claim 4, it is characterized in that: also be provided with at least one strut (20) between the top of described buoyancy tank (100) and the bottom, described lever (200) passes described strut (20) and is slidingly matched with slide rail on the described strut (20).

6. Wave-energy generating unit according to claim 1, it is characterized in that: described leverage comprises the rocking arm (1) that is positioned at described buoyancy tank (100), be positioned at described buoyancy tank (100) outer and and the lever (100) that is rotationally connected of described rocking arm (1), be arranged on the oil sealing (2) between described rocking arm (1) and the described lever (200), described rocking arm (1) and described piston rod I (12) are rotationally connected.

7. wave energy generating set that comprises the described Wave-energy generating unit of one or more groups claim 1, it is characterized in that: it also comprises at least two buoyancy aids (300) that described Wave-energy generating unit is set, be arranged on the electric power control room (500) on one of them described buoyancy aid (300), two described buoyancy tanks (100) on described Wave-energy generating unit are separately positioned on different two described buoyancy aids (300), the part of described buoyancy tank (100) is positioned at the top of described buoyancy aid (300), another part is positioned at the below of described buoyancy aid (300), be provided with electric control system in the described electric power control room (500), described oil hydraulic cylinder (35) all is electrically connected with described electric control system.

8. wave energy generating set according to claim 7, it is characterized in that: described wave energy generating set also comprises collection unrestrained baffle plate (21), be connected with described oil hydraulic cylinder (35) between unrestrained baffle plate of described collection (21) and the described buoyancy tank, described oil hydraulic cylinder (35) is electrically connected with described electric control system.

9. wave energy generating set according to claim 7, it is characterized in that: described wave-type electric generator also comprises hawser (400) and the hawser controlling device that is arranged on the described buoyancy aid (300), described hawser controlling device comprises motor (22), the gear governing box (23) that is connected with described motor rotation axis, the runner (24) on described gear governing box (23) output shaft, described hawser (400) is arranged on the described runner (24), and described motor (22) is electrically connected with described electric control system.

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