CN209621516U - A kind of marine energy capture systems of maritime environment monitoring platform - Google Patents

Abstract

The utility model relates to a kind of marine energy capture systems of maritime environment monitoring platform, including sea wave energy capture device, Wind energy extraction device and solar energy acquisition equipment, sea wave energy capture device is arranged in floating body bottom center, sea wave energy capture device includes the cylinder being fixed on inside floating body, inner barrel is horizontal and is arranged at intervals with upper junction plate and lower connecting plate up and down, upper junction plate is connected with lower connecting plate by the vertical circular shaft that sliding is worn on it, the both ends of circular shaft are born against to be covered at both ends of the cylinder body, upper junction plate and lower connecting plate are connected by a switching mechanism with two-way generator；The bottom on floating body and being located at support frame is arranged in Wind energy extraction device, and the arrestment mechanism for limiting shaft rotation is provided in the shaft of wind-driven generator；The solar panels of solar energy acquisition equipment are separately fixed on the circumferential surface at the bottom of support frame, middle part and top；Two-way generator, wind-driven generator and solar panels are electrically connected with the battery inside floating body respectively.

Description

A kind of marine energy capture systems of maritime environment monitoring platform

Technical field

The utility model relates to ocean new energy collection device technical field more particularly to a kind of maritime environment monitoring platforms Marine energy capture systems.

Background technique

In recent years, marine energy evaluation and exploration technology was developing always very fast, tested and test environment, method all continuous Ground improve with it is perfect, it is meteorology, the hydrology, water that existing maritime environment monitoring platform, which is using solar energy collecting system and battery, The energy supply of the monitoring instruments equipment such as matter and ecology.But battery needs to supplement power supply at interval of a period of time, and environmental monitoring continues Property is unable to get guarantee；Although solar energy is clean energy resource, its collection of energy is influenced by marine sunshine, can't be completely real The requirement of existing sustainable power supply.

Abundant, energy density is high, distribution is wide, can adopt the spies such as energy on the spot on a large scale with containing for wave energy in ocean Point.Three kinds of sea wave energy capture devices of most study at present, first is that oscillating water column wave power device, the disadvantage is that second level transfer efficiency It is low, it generates electricity unstable；Second is that swinging type wave energy device, but mechanical maintenance is more difficult；Third is that poly- wave reservoir wave power device, builds This power station requires strictly, to be not easy to promote to landform, and three kinds of apparatus structures are larger, and function is realized single.

China carries out the development and utilization that single new energy is absorbed in offshore novel energy exploitation at present, does not form systematization Energy capture.

Utility model content

To solve the above-mentioned problems, the purpose of this utility model is to provide a kind of ocean energies of maritime environment monitoring platform Marine sea wave energy, wind energy and solar energy are concentrated a system by source capture systems, the marine energy capture systems, being capable of system The capture marine energy of change is maritime environment monitoring platform continued power.

To achieve the above object, the utility model uses following technical scheme:

A kind of marine energy capture systems of maritime environment monitoring platform, including sea wave energy capture device, Wind energy extraction dress It sets and the floating body bottom center of environmental monitoring platform at sea, wave is set with solar energy acquisition equipment, sea wave energy capture device Energy acquisition equipment includes the cylinder being fixed on inside floating body, and inner barrel is horizontal and is arranged at intervals with upper junction plate and lower company up and down Fishplate bar, upper junction plate and lower connecting plate are connected by the vertical circular shaft that sliding is worn on it, and the both ends of circular shaft are born against Cover at both ends of the cylinder body, upper junction plate and lower connecting plate are connected by a switching mechanism with two-way generator, upper junction plate with Lower connecting plate drives the shaft of two-way generator to rotate relative to the up and down motion of circular shaft by the conversion of switching mechanism；Wind energy is caught The bottom that a support frame on floating body is arranged in device is obtained, Wind energy extraction device includes that wind-driven generator and the fixed wind-force that is set in are sent out Vane frame in the shaft of motor is provided with several blades in vane frame, is provided in the shaft of wind-driven generator for limiting The arrestment mechanism of shaft rotation；The solar panels of solar energy acquisition equipment are separately fixed at the bottom, middle part and top of support frame Circumferential surface on；Two-way generator, wind-driven generator and solar panels are electrically connected with the battery inside floating body respectively.

Wherein, the switching mechanism includes rack gear, master gear and from gear, rack gear both ends be fixedly connected upper junction plate and under Connecting plate, master gear are rotatably installed on the outside of rack gear and are engaged with rack, and engages from gear with master gear and fixation is set in pair To in the shaft of generator.

Further, the master gear and two-way generator are by the support base branch on the lower cover for being fixedly connected on cylinder Support.

Further, between the upper junction plate and the upper end cover of cylinder and between lower connecting plate and the lower cover of cylinder Circular shaft on be arranged with buffer spring.

Further, it is equipped with linear bearing on the upper junction plate and lower connecting plate, circular shaft is slidably located in linear axis In holding.

Further, the quantity of the circular shaft is three, the intersection point phase of three circular shafts and upper junction plate or lower connecting plate Even form the center weight of an equilateral triangle, the center for the equilateral triangle that three circular shafts are formed and upper junction plate and lower connecting plate It closes.

Further, the quantity of the rack gear is three, is located at the upper junction plate between two adjacent circular shafts under At the side center of connecting plate, the quantity of two-way generator is also three, and three two-way generators are respectively by from gear and master Wheel and rack engagement.

Wherein, the arrestment mechanism includes brake disc and electromagnet, the fixed shaft for being set in wind-driven generator of brake disc On, electromagnet is fixedly mounted on the cabinet wall being set in outside wind-driven generator, and electromagnet is located at the top of brake disc and leans on Nearly brake disc setting, electromagnet are electrically connected by the air velocity transducer that controller is erected at the top of support frame with one, wind speed sensing Device detects Oversea wind size and obtains power loss by controller control electromagnet.

Further, the blade is curved comb dentation.

Further, the box top is fixed with wind-force bearing by flange, and the shaft of wind-driven generator is stretched out upwards Cabinet and rotation be set in wind-force bearing, the shaft top end part of wind-driven generator is fixedly connected with the shaft of vane frame.

The utility model has the following beneficial effects:

Marine sea wave energy, wind energy and solar energy are concentrated into one by the marine energy capture systems of the utility model System, is capable of the capture marine energy of systematization, is maritime environment monitoring platform continued power.

The sea wave energy capture device of the utility model moves together with wave, and motion state is consistent, due to object inertia Relative motion occurs with ocean wave motion, but due to the effect of linear bearing, vertical side can only be by being vertically connected with plate and circular shaft To reciprocating motion, make full use of the potential energy of sea wave energy, and then under the action of buffer spring, can be by the potential energy one of sea wave energy Section store avoids being vertically connected with shock of the plate to end cap above and below the cylinder of confined space in buffer spring, avoids filling Set damage.

The Wind energy extraction device of the utility model converts wind energy into electric energy when breeze movable vane piece, and is stored in storage In battery, in system work, when the air velocity transducer connecting with electromagnet detects that wind speed is more than blade protection allowed band When, electromagnet will be delivered a signal to, after electromagnet receives signal, electric recovery magnetism is obtained, lower section brake disc is sucked, plays locking The effect of braking can prevent blade damage.

The solar energy acquisition equipment of the utility model, the solar panel of multiple position distributions increase illumination utilization rate, Solar energy capture rate is improved, the energy storage capacity of whole device is increased.

Detailed description of the invention

Fig. 1 is the overall structure diagram of the utility model；

Fig. 2 is schematic perspective view of the sea wave energy capture device of the utility model in addition to cylinder；

Fig. 3 is positive structure schematic of the sea wave energy capture device of the utility model in addition to support base；

Fig. 4 is the positive structure schematic of the Wind energy extraction device of the utility model；

Fig. 5 is schematic perspective view of the Wind energy extraction device of the utility model in addition to cabinet.

Description of symbols:

10- maritime environment monitoring platform, 101- floating body, 102- support frame, 103- cast anchor, 1- sea wave energy capture device, 11- Cylinder, 111- upper end cover, 112- lower cover, 121- upper junction plate, 122- lower connecting plate, 131- linear bearing, 132- circular shaft, 133- buffer spring, 14- rack gear, 15- master gear, 151- trunnion axis, 152- rolling bearing, the first support base of 153-, 161- from Gear, 162- two-way generator, the second support base of 163-, 2- Wind energy extraction device, 21- cabinet, 22- wind-driven generator, 231- Brake disc, 232- electromagnet, 241- flange, 242- wind-force bearing, 25- vane frame, 251- blade, 26- air velocity transducer, 3- are too Positive energy acquisition equipment, 31- solar panels, 4- battery.

Specific embodiment

The utility model is described in further details below in conjunction with the drawings and specific embodiments:

Referring to Fig. 1 to Fig. 5, a kind of marine energy capture systems of maritime environment monitoring platform, the maritime environment prison Surveying platform 10 includes floating body 101 and the support frame 102 that is erected on floating body 101, and the floating body 101 103 is fixed on by casting anchor Seabed or bank, the marine energy capture systems include that sea wave energy capture device 1, Wind energy extraction device 2 and solar energy are caught Obtain device 3.

In 101 bottom center of floating body, the sea wave energy capture device 1 includes solid for the setting of sea wave energy capture device 1 The cylinder 11 being scheduled on inside floating body 101,11 upper and lower end face of cylinder is fixedly connected with upper end cover 111 and lower cover 112, described 11 inner horizontal of cylinder and it is arranged at intervals with discoidal upper junction plate 121 and lower connecting plate 122, the upper junction plate up and down 121 and lower connecting plate 122 on be respectively fixed with vertical linear bearing 131, the upper junction plate 121 and lower connecting plate 122 are logical It crosses the vertical circular shaft 132 that sliding is threaded through in linear bearing 131 to connect, the upper end of the circular shaft 132 is resisted against cylinder 11 On upper end cover 111, the lower end of the circular shaft 132 is resisted against on the lower cover 112 of cylinder 11, the straight line of the upper junction plate 121 Buffer spring 133,122 He of lower connecting plate are arranged on circular shaft 132 between bearing 131 and the upper end cover 111 of cylinder 11 Buffer spring 133 is also arranged on circular shaft 132 between linear bearing 131 and the lower cover 112 of cylinder 11.Preferably, described The quantity of circular shaft 132 is three, and the intersection point of three circular shafts 132 and upper junction plate 121 or lower connecting plate 122 is connected to form first-class The center weight of side triangle, the center for the equilateral triangle that three circular shafts 132 are formed and upper junction plate 121 and lower connecting plate 122 It closes.

The upper junction plate 121 and lower connecting plate 122 are fixedly connected with vertical rack gear 14, the rack gear 14 and a main tooth 15 engagement of wheel, the fixation of master gear 15 are set on a trunnion axis 151, and the both ends of the trunnion axis 151, which roll, is set in one In rolling bearing 152, the rolling bearing 152 is supported on the first support base 153, and the master gear 15 and one is from gear 161 Engagement, described to be set in a pair of in the shaft of generator 162 from the fixation of gear 161, the two-way generator 162 is supported on the On two support bases 163, first support base 153 and the second support base 163 are fixedly connected on the lower cover 112 of cylinder 11.

The rack gear 14, master gear 15 and a switching mechanism is constituted from gear 161, the sea wave energy capture device 1 is in sea When unrestrained fluctuation up and down, due to the effect of inertia, upper junction plate 121 and lower connecting plate 122 move up and down with respect to circular shaft 132, conversion The up and down motion of upper junction plate 121 and lower connecting plate 122 is converted to rotation by mechanism, to drive the shaft of wind-driven generator 22 Rotation.

Preferably, the quantity of the rack gear 14 is three, the upper junction plate being located between two adjacent circular shafts 132 121 and lower connecting plate 122 side center at, corresponding, the quantity of the two-way generator 162 is also three, and three are two-way Generator 162 from gear 161 and master gear 15 with rack gear 14 respectively by engaging.

The bottom on floating body 101 and being located at support frame 102, the Wind energy extraction dress is arranged in the Wind energy extraction device 2 Setting 2 includes the cabinet 21 being fixed on support frame 102, and 21 inner containment of cabinet has the wind-driven generator 22 being vertically arranged, Fixing sleeve is equipped with brake disc 231 in the shaft of the wind-driven generator 22, and at least two electricity are fixed on 21 inner wall of cabinet Magnet 232, the electromagnet 232 are located at the top of brake disc 231 and are arranged close to brake disc 231.

21 top surface of cabinet is fixed with wind-force bearing 242 by flange 241, and the shaft of the wind-driven generator 22 is upward It stretches out cabinet 21 and rotation is set in wind-force bearing 242, the shaft top end part of the wind-driven generator 22 and a vane frame 25 Shaft be fixedly connected, the blade 251 of several curved comb dentations is uniformly fixed in the vane frame 25.

The electromagnet 232 is electrically connected by the air velocity transducer 26 that controller is erected at 102 top of support frame with one, wind Fast sensor 26 detects Oversea wind size and obtains power loss by controller control electromagnet 232, if Oversea wind is more than The maximum load-carrying capacity of blade 251, electric brake disc 231 must be sucked in controller control electromagnet 232, so that blade 251 stops Rotation stop is dynamic, protects blade 251.

The brake disc 231 and electromagnet 232 constitute an arrestment mechanism, and the shaft for limiting wind-driven generator 22 turns It is dynamic.

The solar energy acquisition equipment 3 includes several solar panels 31, and the solar panels 31 are separately fixed at support frame On the circumferential surface of 102 bottom, middle part and top.

The two-way generator 162, wind-driven generator 22 and solar panels 31 respectively with the battery 4 inside floating body 101 Electrical connection, the electric energy that two-way generator 162, wind-driven generator 22 and solar panels 31 convert is stored in battery 4, with for 10 continued power of maritime environment monitoring platform.

The foregoing is merely specific embodiment of the present utility model, are not intended to limit the patent model of the utility model It encloses, equivalent structure transformation made by using the description of the utility model and the drawings is applied directly or indirectly in it His relevant technical field, is also included in the patent protection scope of the utility model.

Claims (10)

1. a kind of marine energy capture systems of maritime environment monitoring platform, it is characterised in that: including sea wave energy capture device (1), Wind energy extraction device (2) and solar energy acquisition equipment (3), it is flat that environmental monitoring at sea is arranged in sea wave energy capture device (1) Floating body (101) bottom center of platform, sea wave energy capture device (1) include being fixed on the internal cylinder (11) of floating body (101), cylinder Body (11) inner horizontal and be arranged at intervals with upper junction plate (121) and lower connecting plate (122) up and down, upper junction plate (121) and under Connecting plate (122) wears vertical circular shaft (132) connection on it by sliding, and the both ends of circular shaft (132) are born against In the two end cap of cylinder (11), upper junction plate (121) and lower connecting plate (122) pass through a switching mechanism and two-way generator (162) it is connected, upper junction plate (121) and lower connecting plate (122) moving up and down through switching mechanism relative to circular shaft (132) Conversion drives the shaft rotation of two-way generator (162)；A support frame is arranged on floating body (101) in Wind energy extraction device (2) (102) bottom, Wind energy extraction device (2) include wind-driven generator (22) and the fixed shaft for being set in wind-driven generator (22) On vane frame (25), be provided with several blades (251) in vane frame (25), be arranged in the shaft of wind-driven generator (22) useful In the arrestment mechanism of limitation shaft rotation；The solar panels (31) of solar energy acquisition equipment (3) are separately fixed at support frame (102) Bottom, middle part and top circumferential surface on；Two-way generator (162), wind-driven generator (22) and solar panels (31) respectively with Internal battery (4) electrical connection of floating body (101).

2. the marine energy capture systems of maritime environment monitoring platform according to claim 1, it is characterised in that: described turn Structure of changing planes includes rack gear (14), master gear (15) and from gear (161), and rack gear (14) both ends are fixedly connected with upper junction plate (121) With lower connecting plate (122), master gear (15) is rotatably installed on the outside of rack gear (14) and engages with rack gear (14), from gear (161) It is engaged with master gear (15) and fixation is set in the shaft of two-way generator (162).

3. the marine energy capture systems of maritime environment monitoring platform according to claim 2, it is characterised in that: the master Gear (15) and two-way generator (162) are by the support seat supports on the lower cover (112) for being fixedly connected on cylinder (11).

4. the marine energy capture systems of maritime environment monitoring platform according to claim 1, it is characterised in that: on described Between connecting plate (121) and the upper end cover (111) of cylinder (11) and the lower cover of lower connecting plate (122) and cylinder (11) (112) buffer spring (133) are arranged on the circular shaft (132) between.

5. the marine energy capture systems of maritime environment monitoring platform according to claim 1, it is characterised in that: on described It is equipped with linear bearing (131) on connecting plate (121) and lower connecting plate (122), circular shaft (132) is slidably located in linear bearing (131) in.

6. the marine energy capture systems of maritime environment monitoring platform according to claim 2, it is characterised in that: the circle The quantity of axis (132) is three, and three circular shafts (132) are connected shape with the intersection point of upper junction plate (121) or lower connecting plate (122) At an equilateral triangle, the center of the equilateral triangle of three circular shafts (132) formation and upper junction plate (121) and lower connecting plate (122) center is overlapped.

7. the marine energy capture systems of maritime environment monitoring platform according to claim 6, it is characterised in that: the tooth The quantity of item (14) is three, the upper junction plate (121) and lower connecting plate being located between two adjacent circular shafts (132) (122) at side center, the quantity of two-way generator (162) is also three, three two-way generators (162) respectively by from Gear (161) and master gear (15) are engaged with rack gear (14).

8. the marine energy capture systems of maritime environment monitoring platform according to claim 1, it is characterised in that: the system Motivation structure includes brake disc (231) and electromagnet (232), the fixed shaft for being set in wind-driven generator (22) of brake disc (231) On, electromagnet (232), which is fixedly mounted on, to be set on cabinet (21) inner wall of wind-driven generator (22) outside, electromagnet (232) position Top and close brake disc (231) setting in brake disc (231), electromagnet (232) pass through controller and one and are erected at support Air velocity transducer (26) electrical connection at the top of frame (102), air velocity transducer (26) detection Oversea wind size simultaneously pass through controller Control electromagnet (232) obtains power loss.

9. the marine energy capture systems of maritime environment monitoring platform according to claim 1, it is characterised in that: the leaf Piece (251) is curved comb dentation.

10. the marine energy capture systems of maritime environment monitoring platform according to claim 8, it is characterised in that: described Cabinet (21) top surface is fixed with wind-force bearing (242) by flange (241), and the shaft of wind-driven generator (22) stretches out cabinet upwards (21) and rotation is set in wind-force bearing (242), the shaft top end part of wind-driven generator (22) and the shaft of vane frame (25) It is fixedly connected.