CN108547729A - A kind of high-efficient solid formula ocean energy harvester - Google Patents

Abstract

The present invention relates to a kind of high-efficient solid formula ocean energy harvesters, including positioning base, plummer, bearing cavity, bolster stake, bearing beam, generator, drive impeller, transmission shaft, accumulator group, flow sensor, control circuit, bolster stake is connect with positioning base upper surface, bearing beam is uniformly distributed from top to bottom along bolster stake axis direction, bearing beam is slidably connected with each bolster stake side surface, plummer lower face is connect with bolster stake upper surface, bearing cavity is connected with each other with plummer upper surface, generator, accumulator group, control circuit is installed in plummer upper surface and in bearing cavity, generator is connected with each other by transmission shaft and at least one driving impeller.One aspect of the present invention is effectively adapted to the needs of ocean energy Collecting operation under a variety of depth, Sea Conditions, and energy acquisition density is big, and energy acquisition rate is high, on the other hand can meet simultaneously and be carried out at the same time energy acquisition power generation operation to forward and reverse wave and ocean current.

Description

A kind of high-efficient solid formula ocean energy harvester

Technical field

The present invention relates to a kind of ocean energy collecting devices, are exactly a kind of high-efficient solid formula ocean energy harvesters.

Background technology

It is currently mostly to be set by traditional rolling generator now with the development that marine energy resources are utilized with technology Standby, piston type energy converting apparatus realizes the acquisition conversion of point-absorbing ocean energy, although this mode can meet and use It needs, but finds in actual use, contact cotton knot is relatively small between currently employed this kind of equipment and ocean, therefore separate unit is set Standby ability acquisition capacity is low, and when needing multiple devices while running, each equipment room is required to relatively independent operation, therefore leads Cause equipment construction, installation positioning and daily maintenance management at relatively poor, and the density of ability Collecting operation is relatively low, together When in carrying out marine energy Collecting operation, flexibly the structure of equipment and operating position can not be carried out according to needs are used It is adjusted flexibly, so as to cause matching is poor between utilizing ocean current and wave state when equipment operation energy resource collecting, energy acquisition Work operations inefficiency and equipment running wastage is relatively large can not effectively meet and carry out marine resources collection in wide area The needs of middle acquisition conversion operation, for this present situation, there is an urgent need to develop a kind of completely new ocean energy collecting devices, to meet The needs of actual use.

Invention content

In view of the shortcomings of the prior art, the present invention provides a kind of high-efficient solid formula ocean energy harvester, the hair Bright simple in structure, flexible and convenient to use, on the one hand versatility, integration and operation high degree of automation effectively adapt to a variety of depths To the needs of ocean energy Collecting operation under degree, Sea Conditions, and energy acquisition density is big, and energy acquisition rate is high, on the other hand may be used Meet simultaneously and energy acquisition power generation operation is carried out at the same time to forward and reverse wave and ocean current, equipment loss is relatively during operation It is low, the efficiency of work is developed and used to greatly improve marine resources acquisition, and reduce construction and cost of equipment maintenance.

To achieve the goals above, the present invention is to realize by the following technical solutions：

A kind of high-efficient solid formula ocean energy harvester, the high-efficient solid formula ocean energy harvester include positioning bottom Seat, plummer, bearing cavity, bolster stake, bearing beam, generator, driving impeller, transmission shaft, accumulator group, flow sensor, Control circuit, the bearing base are airtight cavity structure, and bottom outer surface is evenly distributed at least two pre-buried hooks, and upper surface is set At least one sliding slot, the sliding slot and positioning base upper surface parallelly distribute on, the bolster stake at least two pass through sliding slot Connect with positioning base upper surface slide and with positioning base upper surface vertical distribution, the bolster stake side surface sets at least one Directive slide track, the directive slide track and carrying mast axis parallelly distribute on, the flow sensor is several, along carrying axis of a cylinder Line is distributed on each bolster stake side surface, and flow sensor axis and carrying mast axis vertical distribution, adjacent on each bolster stake Two flow sensors between spacing be 50-200 centimetres, the bearing beam at least two and along bolster stake axis direction Uniformly distributed from top to bottom, the bearing beam is slidably connected by directive slide track and each bolster stake side surface, and with carry axis of a cylinder Line is mutually perpendicular to be distributed, and uniformly distributed several open-works on the bearing beam, each open-work is uniformly distributed along bearing beam axis, and from upper And between the open-work of each bearing beam of lower distribution mutually coaxial distribution and with positioning base upper surface vertical distribution, the carrying Platform lower face is connect with bolster stake upper surface, and is mutually perpendicular to be distributed between bolster stake and plummer, and the bearing cavity is transversal Face is in " Jiong " font groove-like structure, is connected with each other with plummer upper surface, the generator, accumulator group, control circuit are equal Mounted on plummer upper surface and in the bearing cavity, wherein the generator is several, each generator by transmission shaft with At least one driving impeller is connected with each other, and the transmission shaft is connected with each other by open-work and each bearing beam, the transmission Axis side surface sets at least one directive slide track, and the directive slide track and drive shaft axis parallelly distribute on, the driving leaf Take turns it is several, it is each drive impeller to be coated on transmission shaft is outer to be coaxially distributed with transmission shaft, and each driving impeller passes through walking mechanism and biography Mutually be slidably connected between the directive slide track of moving axis outer surface, the control circuit respectively with each generator, accumulator group, flow Sensor and walking mechanism electrical connection, the driving impeller include axle sleeve, blade, and the axle sleeve is hollow tubular mechanism And it is coated on outside transmission shaft, the blade at least three, is evenly distributed with around axle sleeve axis and passes through turntable mechanism and axle sleeve appearance Face is hinged, and articulated shaft and axle sleeve axis vertical distribution, and the blade blade face is in 0 ° -90 ° angles with axle sleeve axis, It is electrically connected between the turntable mechanism and control circuit, at least one angular transducer, and institute is set on the turntable mechanism The angular transducer stated is electrically connected with control circuit.

Further, it is connected with each other by lift drive mechanism between the bolster stake and plummer, the lifting is driven Motivation structure is electrically connected with control circuit.

Further, the transmission shaft is hollow tubular structures.

Further, the control circuit is SCM Based control circuit, and control circuit sets wireless data and leads to Interrogate device, charge-discharge control circuit.

The configuration of the present invention is simple, flexible and convenient to use, on the one hand versatility, integration and operation high degree of automation have Effect adapts to the needs to ocean energy Collecting operation under a variety of depth, Sea Conditions, and energy acquisition density is big, energy acquisition rate On the other hand height can meet and be carried out at the same time energy acquisition power generation operation to forward and reverse wave and ocean current, simultaneously during operation Equipment loss is relatively low, to greatly improve marine resources acquisition develop and use work efficiency, and reduce construction and Cost of equipment maintenance.

Description of the drawings

The following describes the present invention in detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is schematic structural view of the invention；

Specific implementation mode

To make the technical means, the creative features, the aims and the efficiencies achieved by the present invention be easy to understand, with reference to Specific implementation mode, the present invention is further explained.

A kind of high-efficient solid formula ocean energy harvester as described in Figure 1, including positioning base 1, plummer 2, bearing cavity 3, bolster stake 4, bearing beam 5, generator 6, driving impeller 7, transmission shaft 8, accumulator group 9, flow sensor 10, control circuit 11, bearing base 1 is airtight cavity structure, and bottom outer surface is evenly distributed at least two pre-buried hooks 12, and upper surface sets at least one Sliding slot 13, sliding slot 13 and 1 upper surface parallelly distribute on of positioning base, bolster stake 4 at least two pass through sliding slot 13 and positioning base 1 Upper surface slide connect and with 1 upper surface vertical distribution of positioning base, 1 side surface of bolster stake sets at least one directive slide track 14, Directive slide track 14 and 4 axis parallelly distribute on of bolster stake, flow sensor 10 is several, and each bolster stake 4 is distributed on along 4 axis of bolster stake Side surface, and 10 axis of flow sensor and 4 axis vertical distribution of bolster stake, two adjacent flows pass on each bolster stake 4 10 spacing are 50-200 centimetres between sensor, and bearing beam 5 at least two is simultaneously uniformly distributed from top to bottom along 4 axis direction of bolster stake, holds It carries crossbeam 5 to be slidably connected by directive slide track 14 and 4 side surface of each bolster stake, and is mutually perpendicular to be distributed with 4 axis of bolster stake, hold Uniformly distributed several open-works 15 on crossbeam 2 are carried, each open-work 15 is uniformly distributed along 5 axis of bearing beam, and each carrying being distributed from top to bottom Between the open-work 15 of crossbeam 5 mutually coaxial distribution and with 1 upper surface vertical distribution of positioning base, 2 lower face of plummer and bolster stake 4 Upper surface connects, and is mutually perpendicular to be distributed between bolster stake 4 and plummer 2, and bearing cavity 3 is that cross section is in " Jiong " font channel-shaped knot Structure is connected with each other with 2 upper surface of plummer, and generator 6, accumulator group 9, control circuit 11 are installed in 2 upper surface of plummer And in bearing cavity 3, wherein generator 6 is several, each generator 6 is mutual by transmission shaft 8 and at least one driving impeller 7 Connection, transmission shaft 8 are connected with each other by open-work 15 and each bearing beam 5, and 8 side surface of transmission shaft sets at least one directive slide track 14, and directive slide track 14 and 8 axis parallelly distribute on of transmission shaft, driving impeller 7 is several, each that impeller 7 is driven to be coated on outside transmission shaft 8 With the coaxial distribution of transmission shaft 8, and each driving 14 phases of directive slide track of impeller 7 by walking mechanism 16 and 8 outer surface of transmission shaft It is mutually slidably connected, control circuit 11 electrically connects with each generator 6, accumulator group 9, flow sensor 10 and walking mechanism 16 respectively It connects.

In the present embodiment, it is connected with each other by lift drive mechanism 17 between the bolster stake 4 and plummer 2, it is described Lift drive mechanism 17 is electrically connected with control circuit 11.

In the present embodiment, the transmission shaft 8 is hollow tubular structures.

In the present embodiment, the driving impeller 7 includes axle sleeve 71, blade 72, and the axle sleeve 71 is hollow tubular machine Structure is simultaneously coated on outside transmission shaft 8, the blade 72 at least three, it is uniformly distributed around axle sleeve 71 axis and by turntable mechanism 18 with 71 outer surface of axle sleeve is hinged, and articulated shaft and 71 axis vertical distribution of axle sleeve, 72 blade face of blade and 71 axis of axle sleeve Line is in 0 ° -90 ° angles, is electrically connected between the turntable mechanism 18 and control circuit 10.

In the present embodiment, at least one angular transducer 20, and the angle sensor are set on the turntable mechanism 18 Device 19 is electrically connected with control circuit 10.

In the present embodiment, the control circuit 10 is SCM Based control circuit, and control circuit sets no line number According to communication device, charge-discharge control circuit.

In the present embodiment, in the transmission shaft 8, the driving direction phase of the driving impeller 7 on two neighboring transmission shaft 8 Instead.

In the present embodiment, at least one clump weight 20 is set in the positioning base 1,1 outer surface of positioning base is set at least Two locating fasteners 21, and when positioning base 1 is two or more, pass through locating fastener 21 between adjacent positioned pedestal 1 It is connected with each other.

The present invention in the specific implementation, first as needed, selectes the quantity and structure size of positioning base and bolster stake, Then according to needs are used, positioning base is fixed on seabed first, then each bolster stake is installed on bearing base, finally will Bearing beam, generator, driving impeller, transmission shaft, accumulator group, flow sensor, control circuit carry out assembling positioning, complete Power generation operation can be carried out after equipment assembling.

When carrying out power generation operation, when ocean current flows through from each driving impeller, driving impeller is driven by transmission shaft and is sent out Motor operation generates electricity, and in the power storage of generation to accumulator group or will be delivered directly to distribution power station and handle.

When carrying out power generation operation, different depth water layer ocean current speed is detected by each flow sensor, then root According to ocean current distributing position, then drives the driving impeller on each transmission shaft to move up and down adjusting along transmission shaft, make each driving Impeller is at ocean current flow velocity maximum position, improves ocean current to driving impeller-driven active force, to greatly improve to ocean The efficiency of energy acquisition operation.

When ocean current fills front first to be flowed through, then drive positioning keel front end face generator operation, when ocean current return from Below when reverse flow, is then run and generated electricity by positioning heel face generator；Simultaneously, in power generation operation, pass through stream Quantity sensor is detected different depth ocean current speed and direction, then on the one hand adjusts the distributing position of each positioning keel, On the other hand the angle between underwater power generator and ocean current in each positioning keel is adjusted, to reach the mesh for improving power generation operation efficiency 's.

The configuration of the present invention is simple, flexible and convenient to use, on the one hand versatility, integration and operation high degree of automation have Effect adapts to the needs to ocean energy Collecting operation under a variety of depth, Sea Conditions, and energy acquisition density is big, energy acquisition rate On the other hand height can meet and be carried out at the same time energy acquisition power generation operation to forward and reverse wave and ocean current, simultaneously during operation Equipment loss is relatively low, to greatly improve marine resources acquisition develop and use work efficiency, and reduce construction and Cost of equipment maintenance.

It should be understood by those skilled in the art that the present invention is not limited to the above embodiments.Above-described embodiment and explanation Merely illustrating the principles of the invention described in book.Without departing from the spirit and scope of the present invention, the present invention also has Various changes and modifications.These changes and improvements all fall within the protetion scope of the claimed invention.The claimed scope of the invention It is defined by the appending claims and its equivalent thereof.

Claims (4)

1. a kind of high-efficient solid formula ocean energy harvester, it is characterised in that：The high-efficient solid formula ocean energy harvester Including positioning base, plummer, bearing cavity, bolster stake, bearing beam, generator, driving impeller, transmission shaft, accumulator group, stream Quantity sensor, control circuit, the bearing base are airtight cavity structure, and bottom outer surface uniformly distributed at least two is pre-buried Hook, upper surface set at least one sliding slot, the sliding slot and positioning base upper surface parallelly distribute on, the bolster stake at least two It is a, connect with positioning base upper surface slide by sliding slot and with positioning base upper surface vertical distribution, the bolster stake side Surface sets at least one directive slide track, the directive slide track and carrying mast axis parallelly distribute on, if the flow sensor It is dry, it is distributed on each bolster stake side surface, and flow sensor axis and carrying mast axis vertical distribution along carrying mast axis, each Spacing is 50-200 centimetres between two adjacent flow sensors on bolster stake, and the bearing beam at least two simultaneously hold by edge It is uniformly distributed from top to bottom to carry mast axis direction, the bearing beam is slidably connected by directive slide track and each bolster stake side surface, And be mutually perpendicular to be distributed with carrying mast axis, uniformly distributed several open-works on the bearing beam, each open-work is along bearing beam axis Line is uniformly distributed, and mutually coaxial distribution and vertical with positioning base upper surface divides between the open-work for each bearing beam being distributed from top to bottom Cloth, the plummer lower face are connect with bolster stake upper surface, and are mutually perpendicular to be distributed between bolster stake and plummer, described Bearing cavity is that cross section is in " Jiong " font groove-like structure, is connected with each other with plummer upper surface, the generator, accumulator Group, control circuit are installed in plummer upper surface and in bearing cavitys, wherein the generator is several, each generator is equal It is connected with each other by transmission shaft and at least one driving impeller, the transmission shaft is mutually interconnected by open-work and each bearing beam It connecing, the transmission shaft-side surface sets at least one directive slide track, and the directive slide track and drive shaft axis parallelly distribute on, The driving impeller is several, and each driving impeller is coated on outside transmission shaft to be coaxially distributed with transmission shaft, and each driving impeller passes through Mutually be slidably connected between walking mechanism and the directive slide track of transmission shaft outer surface, the control circuit respectively with each generator, Accumulator group, flow sensor and walking mechanism electrical connection, the driving impeller includes axle sleeve, blade, the axle sleeve It for hollow tubular mechanism and is coated on outside transmission shaft, the blade at least three, is evenly distributed with around axle sleeve axis and passes through turntable Mechanism is hinged with sleeve outer surface, and articulated shaft and axle sleeve axis vertical distribution, the blade blade face and axle sleeve axis In 0 ° -90 ° angles, it is electrically connected between the turntable mechanism and control circuit, at least one angle is set on the turntable mechanism Sensor is spent, and the angular transducer is electrically connected with control circuit.

2. a kind of high-efficient solid formula ocean energy harvester according to claim 1, it is characterised in that：The bolster stake It is connected with each other by lift drive mechanism between plummer, the lift drive mechanism is electrically connected with control circuit.

3. a kind of high-efficient solid formula ocean energy harvester according to claim 1, it is characterised in that：The transmission shaft For hollow tubular structures.

4. a kind of high-efficient solid formula ocean energy harvester according to claim 1, it is characterised in that：The control electricity Road is SCM Based control circuit, and control circuit sets wireless data communication device, charge-discharge control circuit.