CN107131098A - A kind of wind energy secondary propulsion system (SPS) peculiar to vessel - Google Patents

Abstract

The present invention proposes a kind of wind energy secondary propulsion system (SPS) peculiar to vessel, it is characterized in that, including rotor, fixed support platform on a ship 's, the rotor is arranged in support platform, wherein, the rotor includes suspension ring, rotating cylinder end plate and rotating cylinder, and the suspension ring are arranged on rotating cylinder end plate, and the rotating cylinder end plate is arranged at the top of rotating cylinder；The support platform includes rotating shaft and its bearing block, the top of the bearing block is from top to bottom sequentially provided with thrust bearing, torque sensor and a deep groove ball bearing, the bottom of the bearing block is installed by one deep groove ball bearing, the lower end of the rotating shaft is connected with gear-box, and the gear-box is connected with frequency control motor by toggle；The rotating cylinder bottom is fixedly connected with rotating shaft upper end.The present invention has the advantages that simple in construction, the saving energy.

Description

A kind of wind energy secondary propulsion system (SPS) peculiar to vessel

Technical field

Field of environment protection and energy conservation, more particularly to a kind of wind energy auxiliary propulsion system peculiar to vessel are designed the present invention relates to wind energy utilization System.

Background technology

With global warming, countries in the world are saved for environmental problem pay attention to day by day, ship energy saving emission reduction in the whole world Turn into the hot topic that ship hydrodynamics are studied under the main trend of emission reduction.International Maritime Organization is also constantly with mandatory pact, specification Form strengthens the protection to marine environment and atmospheric environment.With holding for the 70th meeting of MEPC, ship efficiency problem enters one Step fermentation, it has been suggested that the compensation of more strict design requirement and change is taken in the year two thousand twenty, it will be considered that improve Phase III Compensation even proposes Phase IV.These propose urgent demand, it is necessary to be set in ship for ship energy saving emission reduction new technology During meter, further strengthen the research to ship overall performance.

Wind energy belongs to clean energy resource, on specific course line, there is more constant wind direction according to meteorological statistics, to wind energy Effective utilization extra energy-saving and emission-reduction space can be provided on the basis of existing energy consumption for ship.There is long-term lateral wind Course line, has the possibility that extra-push model is provided for ship using a kind of Flettner rotating cylinders (also known as Magnus rotating cylinder).It is this Wind-force assist device utilizes Magnus effect, after the rotating speed of setting rotating cylinder is turned to, can be provided in lateral wind for ship Along the extra-push model of ship direction of advance, by further regulating and controlling marine main engine, the ship on these course lines can be caused to subtract Few energy consumption.With the requirement that further becomes more meticulous to ship energy saving emission reduction, systematic power-saving technology needs are integrally in ship Distributed rationally in system, to new integrated with control system whole including rotating cylinder profile, supporting construction, transmission system, perception Close design and propose requirement.

Chinese patent CN201110461591 is related to wind power hybrid rotor, and the wind power hybrid rotor is served only for generating electricity, without Secondary propulsion system (SPS) can be used as with wind energy.

Chinese patent CN201180014216, which is related to, includes the ship of load mode Magnus Effect rotor, and it is only used for The specific ship for loading Magnus Effect rotor, and the inapplicable propulsion system for being installed on polytype ship.And the ship The Magnus Effect rotor that oceangoing ship is loaded will be retractable to hull interior, and complicated, maintenance is inconvenient, occupies hull interior empty Between.

The content of the invention

In order to solve the above problems, the present invention proposes a kind of wind energy secondary propulsion system (SPS) peculiar to vessel, it is characterised in that including Rotor, fixed support platform on a ship 's, the rotor are arranged in support platform, wherein,

The rotor includes rotating cylinder end plate and rotating cylinder, and the rotating cylinder end plate is arranged at the top of rotating cylinder；

The support platform includes rotating shaft rotating shaft and its bearing block that upper end is fixedly connected with the rotating cylinder bottom, the axle The top of bearing is from top to bottom sequentially provided with thrust bearing, torque sensor and a deep groove ball bearing, the bearing block A deep groove ball bearing is installed in portion, and the lower end of the rotating shaft is connected with gear-box, and the gear-box is connected with change by toggle Frequency modulation speed motor.

Further, the height of the rotor is 1.5-10 times of support platform.

Further, 1-3 times of a diameter of rotating cylinder of the rotating cylinder end plate.

Further, the rotating cylinder is cylinder type hollow metal, and surface is handled using frosted.

Further, in addition to steelframe, the steelframe bottom is bolted with boat deck.

Further, the bearing block is bolted on steelframe.

Further, in addition to awareness apparatus and console, the awareness apparatus provides data, the control for console Platform adjusts the rotating speed of rotating cylinder by frequency control motor.

Further, the awareness apparatus includes wind-force, wind direction tester.

The wind energy secondary propulsion system (SPS) peculiar to vessel that the present invention is provided is by using wind energy, to produce pushing away in ship direction of advance Power, so that auxiliary ship station is promoted.There is simple in construction, the saving energy.And it is easy to maintenance, prevent take up hull interior empty Between.In addition, the drum surface of the present invention is handled using frosted, the processing can strengthen Magnus effect, improve additional thrust efficiency.

Brief description of the drawings

Fig. 1 is a kind of sectional side elevation of wind energy secondary propulsion system (SPS) peculiar to vessel of the present invention；

Fig. 2 is the partial enlarged drawing A in Fig. 1；

Fig. 3 realizes the schematic diagram of control for the present invention.

In figure：1- suspension ring, 2- rotating cylinders end plate, 3- rotating cylinders, 4- bearing blocks, 5- rotating shafts, 6- thrust bearings, 7- deep-groove ball axles Hold, 8- steelframes, 9- toggles, 10- frequency control motors, 11- gear-boxes, 12- torque sensors, 13- bolts.

Embodiment

A kind of embodiment of wind energy secondary propulsion system (SPS) peculiar to vessel of the present invention is carried out specifically below in conjunction with the accompanying drawings Bright, the embodiment is only illustrative of the invention and is not intended to limit the scope of the invention, and those skilled in the art are to the present invention's The modification of the various equivalent form of values falls within the application appended claims limited range.

Such as Fig. 1 and Fig. 2, a kind of wind energy secondary propulsion system (SPS) peculiar to vessel, including rotor and support platform, rotors normal are fixed on On support platform, support platform is fixed on boat deck.Rotor is by a cylinder type hollow metal drum 3, for the whirlpool that disappears Rotating cylinder end plate 2 and constituted for the suspension ring 1 of lifting, suspension ring 1 are welded on rotating cylinder end plate 2, for whole device rise it is perpendicular with Folding and unfolding.Rotating cylinder end plate 2 is welded on the top of rotating cylinder 3, and rotating cylinder end plate 2 is used to reduce the flowing for bypassing the top of rotating cylinder 3, and increase rotating cylinder is carried Lotus, so as to increase the thrust of the offer of rotating cylinder 3,1-3 times of a diameter of rotating cylinder 3 of rotating cylinder end plate 2.Rotating cylinder 3 is hollow metal cylinder Cylinder, tube outer surface does frosted processing, to increase the coefficient of friction between the outer surface of rotating cylinder 3 and air, so as to strengthen Magnus Effect, increases thrust.Transmission mechanism of the rotor in support platform drives, and can do the spinning motion of horizontal direction.In wind direction When wind speed is adapted to, by being rotated in, wind energy effect is lower to produce Magnus effect to rotor.So-called Magnus effect：When a rotation When turning rotational angular velocity vector and the misaligned object flight velocity vector of object, fast with rotational angular velocity vector and translation angle Spend oar on the perpendicular direction of plane of vector composition and produce a cross force.The flight of object in the presence of this cross force The phenomenon deflected is called Magnus effect by track.Rotor is exactly the ship direction of advance for utilizing the generation in the effect Cross force, auxiliary ship station promote.

Support platform includes bearing block 4, and bearing block 4 is bolted on steelframe 8, and the bottom of steelframe 8 leads to boat deck Cross bolt 13 to connect, thrust bearing 6, torque sensor 12 and a depth is from top to bottom fixedly mounted in the top of bearing block 4 successively Ditch ball bearing 7, is conducive to undertaking the moment of torsion that rotor is produced under wind energy effect.The bottom of bearing block 4 is installed by one deep-groove ball axle 7 are held, the lower end of rotating shaft 5 is connected with gear-box 11, and rotor is connected with the upper end of rotating shaft 5 by bolt 13, and gear-box 11 passes through torsion Arm 9 is fixed and is connected with frequency control motor 10.

Support platform is used for fixed rotor, and is rotated by frequency control motor 10, gear-box 11 and shafting rotor driven. Rotating shaft 5 that the shafting that rotor driven is rotated includes being directly connected to rotating cylinder 3, one be used to undertake the thrust bearing 6, two of vertical force It is individual to be used to undertaking the deep groove ball bearing 7 of horizontal direction power and moment of torsion, a set of be used for torque sensor 12 and for fixing bearing Bearing block 4.Wherein, thrust bearing 6 undertakes the gravity of rotor and rotating shaft 5, deep groove ball bearing 7 undertake horizontal direction thrust and Moment of torsion, such design structure is simple, intensity big, and bending resistance square ability is strong, by torque sensor 12, and rotor fortune can be monitored in real time Stressing conditions when turning, and be easy to dismount, maintain, safeguard.The height of rotor and support platform determines by ship size, rotor Height be 1.5-10 times of support platform.

Present invention additionally comprises awareness apparatus and console, awareness apparatus is arranged on ship superstructure, control system Driver's cabin is arranged in, console is used to control wind energy secondary propulsion system (SPS) to work.Awareness apparatus includes wind-force, wind direction tester, Data are provided for measuring real-time wind speed at present system present position, wind direction to calculate optimum speed for controller.

Console is computer, is perceived for handling wind energy secondary propulsion system (SPS), the data of puopulsion equipment, including reality When wind speed, wind direction, ship's speed, the rotor thrust and the moment of torsion that produce etc., and control system normal operation.Console passes through predetermined software System calculates rotating cylinder optimum operation rotating speed under current marine environment and ship navigation state according to sensor parameters, and passes through frequency conversion Device controlled motor adjusts rotating cylinder rotating speed, while also obtaining aeronautical data from marine main engine, gps system etc..

Such as Fig. 3 perceives the schematic diagram with control system for invention, wherein, E1, E2 are respectively wind speed wind direction sensor and GPS System, corresponds to wind speed and direction data ship navigation state data respectively, according to the two data by console SE, is given at and works as The rotating speed of best match under preceding marine environment and ship navigation state, staff adjusts 10 frequency conversions by frequency converter loop U Buncher M rotating speed, and then control rotor C work.E3 is torque sensor 12, measures stressing conditions when rotating cylinder 3 is operated, instead Feed console console SE, auxiliary adjustment rotating speed.Meanwhile, the sensory perceptual system of S1, S2, S3 composition sends data to monitoring Device, whole wind energy secondary propulsion system (SPS) real-time motion situation peculiar to vessel is monitored for operating personnel.

The present invention has innovated perception and control system, and perception includes wind speed wind direction sensor, measurement six degree of freedom power/moment of torsion Ocean environment parameter during ship's navigation and operational configuration information are conveyed to control by navigation system on sensor and ship, these devices Platform processed.Console calculates the optimum speed under conditions present by Advanced Control Software, by controlling frequency control motor Rotating speed is adjusted according to real-time condition.So, produced by carrying out real-time rotating cylinder optimum operating mode in maximum direction of advance Thrust, so as to realize the reduction of the ship main engine power under the same speed of a ship or plane, reach the purpose of energy-saving and emission-reduction.

Present system utilizes wind energy, the thrust of ship direction of advance is obtained, so as to realize the function of ship auxiliary propulsion. Contribute to ship energy saving emission reduction, solve the problems, such as the global warming that current shipping transport is brought, while shipping transport can be reduced Cost.The present invention has device intelligence simple in construction, the characteristics of easy to maintenance, is verified through numerical simulation and model test, the ship High with wind energy secondary propulsion system (SPS) propulsive efficiency, control response is rapid, and structural strength, which is met, to be required, suitable for engineer applied.

The preferred embodiment of the present invention is described in detail above in association with accompanying drawing, still, the present invention is not limited to above-mentioned reality The detail in mode is applied, in the range of the technology design of the present invention, a variety of letters can be carried out to technical scheme Monotropic type, these simple variants belong to protection scope of the present invention.

Claims (7)

1. a kind of wind energy secondary propulsion system (SPS) peculiar to vessel, it is characterised in that including rotor, fixed support platform on a ship 's, The rotor is arranged in support platform, wherein,

The rotor includes rotating cylinder end plate (2) and rotating cylinder (3), and the rotating cylinder end plate (2) is arranged at the top of rotating cylinder (3)；

The support platform includes rotating shaft (5) and its bearing block (4) that upper end is fixedly connected with the rotating cylinder (3) bottom, described The top of bearing block (4) is from top to bottom sequentially provided with thrust bearing (6), torque sensor (12) and a deep groove ball bearing (7), The lower end of the rotating shaft (5) is connected with gear-box (11), and the gear-box (11) is connected with frequency control electricity by toggle (9) Machine (10).

2. wind energy secondary propulsion system (SPS) peculiar to vessel according to claim 1, it is characterised in that the height of the rotor is support 1.5-10 times of platform.

3. wind energy secondary propulsion system (SPS) peculiar to vessel according to claim 1, it is characterised in that the rotating cylinder end plate (2) it is straight Footpath is 1-3 times of rotating cylinder (3).

4. wind energy secondary propulsion system (SPS) peculiar to vessel according to claim 1, it is characterised in that the rotating cylinder (3) is cylinder Hollow metal, surface is handled using frosted.

5. wind energy secondary propulsion system (SPS) peculiar to vessel according to claim 1, it is characterised in that also including steelframe (8), the steel Frame (8) bottom is fixedly connected with boat deck, and the bearing block (4) is fixed on steelframe (8).

6. wind energy secondary propulsion system (SPS) peculiar to vessel according to claim 1, it is characterised in that also including awareness apparatus and control Platform, the awareness apparatus provides data for console, and the console adjusts turning for rotating cylinder (3) by frequency control motor (10) Speed.

7. wind energy secondary propulsion system (SPS) peculiar to vessel according to claim 6, it is characterised in that the awareness apparatus includes wind Power, wind direction tester.