CN111878293B - Oscillating type wave energy power generation device with anti-winding mechanism - Google Patents

Abstract

The invention provides an oscillating wave power generation device with an anti-winding mechanism, which comprises a cylinder body, an electric control cabinet, a top disc, a wire sleeve, a chassis, a spring, a generator stator frame, a vibrator, a generator coil, a guide pillar and a cable, and further comprises a wire pulling mechanism, wherein the wire pulling mechanism consists of an upper synchronous belt pulley, a double-sided synchronous belt, a rack bar, a guide bar, a connecting block, a connecting wheel and a lower synchronous belt pulley. The invention provides an oscillating wave power generation device with an anti-winding mechanism, wherein a wire pulling mechanism is designed, and a cable can be effectively folded and unfolded through the mechanical structure, so that the problems that the cable is scattered and is easy to wind are solved, and the oscillating wave power generation device has strong practicability and good application prospect.

Description

Oscillating type wave energy power generation device with anti-winding mechanism

Technical Field

The invention relates to the technical field of offshore power generation, in particular to an oscillating wave power generation device with an anti-winding mechanism.

Background

The problem of electric power shortage of islands and offshore platforms is urgently needed to be solved for developing ocean resources and ocean economy. In order to solve the problem scientifically and economically, inexhaustible ocean energy must be fully developed according to local conditions. Wave energy is the most unstable energy source in ocean energy, but it is a clean renewable energy source, which has a wide distribution range and is easy to be exploited and utilized on a large scale. The above-mentioned problem of power shortage can be effectively solved if wave energy can be efficiently and reliably utilized for power generation. In recent years, wave energy power generation technology is rapidly developed, various wave energy power generation devices are appeared, the wave energy power generation devices are power equipment for converting wave energy into mechanical energy and converting the mechanical energy into electric energy, but the existing part of the power generation devices adopt linear motors for power conversion, the structure is complex, the volume is large, the manufacturing cost is high, the problem of cable winding can also occur, and the power generation efficiency of the whole power generation device is greatly influenced.

Disclosure of Invention

In order to solve the problems, the invention provides an oscillating wave power generation device with an anti-winding mechanism, which is relatively simple and compact in structure, most parts are sealed inside a cylinder body, a protective cover is additionally arranged outside the cylinder body, the problems of corrosion failure and the like of long-time offshore work are avoided, in addition, a wire pulling mechanism is also designed, through the mechanical structure, a cable can be effectively folded and unfolded, the problems that the cable of the device is scattered and is easy to wind are solved, and the device has strong practicability and good application prospect.

To achieve the purpose, the invention provides an oscillating wave power generation device with an anti-winding mechanism, which comprises a cylinder body, an electric control cabinet, a top plate, a wire sleeve, a base plate, a spring, a generator stator frame, a vibrator, a generator coil, a guide pillar and a cable wire, wherein the electric control cabinet is detachably arranged above the top plate, the top plate and the base plate are connected through the guide pillar, the vibrator is disc-shaped and is arranged between the top plate and the base plate in parallel and is sleeved on the guide pillar so as to be capable of periodically moving up and down along the guide rod, the vibrator is fixedly provided with a cable wire groove, the generator stator frame is arranged between the top plate and the base plate and is arranged in parallel with the guide pillar, the spring is sleeved on the guide pillar and is arranged between the vibrator and the base plate, and the power generation device also comprises a wire pulling mechanism, the wire pulling mechanism consists of an upper synchronous belt wheel, a double-sided synchronous belt, a rack rod, a guide rod, a connecting block, a connecting wheel and a lower synchronous belt wheel, wherein the rack rod is provided with a toothed part, the connecting wheel is provided with a threading hole, a guide hole and a toothed part, the connecting block is provided with a belt connecting plate, a guide rod hole, a cable hole, a vibrator connecting plate, a vibrator mounting hole and a synchronous belt mounting hole, the vibrator is fixedly provided with a cable slot, the upper synchronous belt wheel is fixedly arranged on a top disc, the lower synchronous belt wheel is fixedly arranged on a chassis, the double-sided synchronous belt and the upper synchronous belt wheel and the lower synchronous belt wheel form belt transmission, the rack rod is fixedly arranged between the top disc and the chassis, the toothed part on the connecting wheel is respectively meshed with the double-sided synchronous belt and the rack rod, one end of the connecting block is fixedly arranged on the vibrator, the other end of the connecting block is fixedly arranged on the double-sided synchronous belt, the guide hole of the connecting wheel penetrates through the guide rod and can freely move on the guide rod, the guide bar hole of connecting block passes the guide bar and can freely remove on the guide bar, go up synchronous pulley with synchronous pulley's support weld respectively down in the take-up top with on the chassis, the stack shell covers the spare part of above-mentioned power generation facility and concreties in on the chassis, the installation of cable conductor is walked the line process and is, and one end of cable conductor is connected on the generator coil, and another end of cable conductor passes cable wire casing on the oscillator, cable hole on the connecting block, through wires hole, the wire casing on the fifth wheel in proper order, passes the hole on the take-up top at last, inserts in the automatically controlled cabinet.

As an improvement of the invention, the protective cover is arranged outside the cylinder body, so that components such as a generator, a controller and the like in the cylinder body can be effectively protected from erosion of rainwater and sea air, and the service life is prolonged.

As an improvement of the invention, the surface of the protective cover is sprayed with a warning color for warning and identifying. Preferably red, and can play a role in warning and identifying.

As an improvement of the invention, the number of the guide columns is at least 2. 2 guide pillars make whole device more stable.

The working principle of the wire pulling mechanism is as follows: the connecting block is fixed on the vibrator and the double-sided synchronous belt, when the vibrator moves upwards, the connecting block drives the double-sided synchronous belt to move at the same speed, and the connecting wheel is simultaneously meshed with the double-sided synchronous belt and the rack bar, so the connecting wheel also moves upwards under the action of the double-sided synchronous belt and the rack bar, and the moving speed of the connecting wheel is half of the speed of the double-sided synchronous belt according to the geometric relation; namely, the upward moving distance of the connecting wheel is half of the upward moving distance of the connecting block; the cable penetrates through the belt connecting plate and the connecting wheel, so that the cable can be orderly folded under the action of the connecting block and the connecting wheel, and the cable is prevented from being wound and scattered; along with the continuous upward movement of the vibrator, the distance between the belt connecting plate and the connecting wheel is continuously increased, and the length of the folded part of the cable is continuously increased; when the vibrator moves to the top, the distance between the belt connecting plate and the connecting wheel reaches the maximum, and the folded part of the cable reaches the maximum; at the moment, the vibrator starts to move downwards, and the belt connecting plate drives the double-sided synchronous belt to move downwards at the same speed; the connecting wheel also moves downwards under the action of the double-sided synchronous belt and the rack bar, and the speed of the connecting wheel is half of that of the double-sided synchronous belt, namely the distance between the belt connecting plate and the connecting wheel is continuously reduced; at the moment, the folding part of the cable is gradually reduced under the action of the belt connecting plate and the connecting wheel, and the cable is gradually unfolded; when the vibrator moves to the lowest position, the distance between the belt connecting plate and the connecting wheel reaches the minimum, and the cable is completely unfolded. Under the action of waves, the vibrator continuously moves up and down, and under the action of the wire pulling mechanism, the cable wire is orderly folded and unfolded.

Compared with the prior art, the invention has the beneficial effects that: the oscillating wave power generation device with the anti-winding mechanism is relatively simple and compact in structure, most parts are sealed inside the cylinder body, the protective cover is additionally arranged outside the cylinder body, the problems of corrosion failure and the like of long-time offshore work are solved, in addition, the wire pulling mechanism is also designed, through the mechanical structure, the cable can be effectively folded and unfolded, the problems that the cable of the device is scattered and is easy to wind are solved, and the oscillating wave power generation device has strong practicability and good application prospect.

Drawings

Fig. 1 is a schematic view of the overall structure of an oscillating wave energy power generation device with an anti-winding mechanism of the invention;

FIG. 2 is a schematic structural diagram of the wire pulling mechanism in FIG. 1;

FIG. 3 is a schematic plan view of FIG. 1;

fig. 4 is a schematic structural view of the rack bar of fig. 1;

FIG. 5 is a schematic view of the fifth wheel of FIG. 1;

FIG. 6 is a schematic structural view of the connecting block of FIG. 1;

FIG. 7 is a schematic diagram of the vibrator of FIG. 1;

FIG. 8 is a schematic view of the fully folded state of the cable;

FIG. 9 is a schematic view of a partially folded state of the cable;

FIG. 10 is a schematic view of the fully deployed state of the cable;

1. the generator comprises a cylinder body, 2, an electric control cabinet, 3, a top disc, 4, a wire sleeve, 5, a wire pulling mechanism, 6, a base disc, 7, a spring, 8 and a generator stator frame;

9. a vibrator; 9-1, cable trunking; 10. a generator coil; 11. a guide post; 12. a cable wire; 5-1, an upper synchronous belt pulley; 5-2, double-sided synchronous belts; 5-3, a rack bar; 5-3-1, gear teeth; 5-4, a guide rod; 5-5, connecting blocks; 5-5-1, with a connecting plate; 5-5-2, guide rod hole; 5-5-3, cable holes; 5-5-4, a vibrator connecting plate; 5-5-5, vibrator mounting holes; 5-5-6, synchronous belt mounting holes; 5-6, connecting wheels; 5-6-1, threading holes; 5-6-2, a guide hole; 5-6-3, tooth part; 5-7, a lower synchronous pulley.

Detailed Description

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

As shown in fig. 1-3, the invention provides an oscillating wave power generation device with an anti-winding mechanism, which comprises a barrel 1, an electric control cabinet 2, a top plate 3, a wire sleeve 4, a wire pulling mechanism 5, a chassis 6, a spring 7, a generator stator frame 8, a vibrator 9, a generator coil 10, a guide post 11 and a cable 12, wherein the electric control cabinet 2 is detachably mounted above the top plate 3, the top plate 3 is connected with the chassis 6 through the guide post 11, the vibrator 9 is disc-shaped, is arranged in parallel between the top plate 3 and the chassis 6 and is sleeved on the guide post 11 so as to be capable of periodically moving up and down along the guide post, a cable slot 9-1 is fixed on the vibrator 9, the generator stator frame 8 is positioned between the top plate 3 and the chassis 6 and is arranged in parallel to the guide post 11, the spring 7 is sleeved on the guide post 11 and positioned between the vibrator 9 and the chassis 6, the wire pulling mechanism 5 is composed of an upper synchronous pulley 5-1, a double-sided synchronous belt 5-2, a rack bar 5-3, a guide rod 5-4, a connecting block 5-5, a connecting wheel 5-6 and a lower synchronous pulley 5-7, as shown in fig. 4, a toothed part 5-3-1 is arranged on the rack bar 5-3, as shown in fig. 5, the connecting wheel 5-6 is provided with a threading hole 5-6-1, a guide hole 5-6-2 and a toothed part 5-6-3, as shown in fig. 6, the connecting block 5-5 is provided with a connecting plate 5-5-1, a guide rod hole 5-5-2, a cable hole 5-5-3, a vibrator connecting plate 5-5-4, a vibrator connecting plate 5-5-3, A vibrator mounting hole 5-5-5 and a synchronous belt mounting hole 5-5-6, as shown in fig. 7, a cable slot 9-1 is fixed on the vibrator 9, an upper synchronous pulley 5-1 is fixed on the top plate 3, a lower synchronous pulley 5-7 is fixed on the bottom plate 6, a double-sided synchronous belt 5-2 forms belt transmission with the upper synchronous pulley 5-1 and the lower synchronous pulley 5-7, a rack bar 5-3 is fixed between the top plate 3 and the bottom plate 6, a tooth part on a connecting wheel 5-6 is respectively meshed with the double-sided synchronous belt 5-2 and the rack bar 5-3, one end of a connecting block 5-5 is fixed on the vibrator 9, the other end thereof is fixed on the double-sided synchronous belt 5-2, a guide hole 5-6-2 of the connecting wheel 5-6 passes through the guide bar 5-4, the connecting device can freely move on a guide rod 5-4, a guide rod hole 5-5-2 of a connecting block 5-5 penetrates through the guide rod 5-4 and can freely move on the guide rod 5-4, the supports of an upper synchronous belt wheel 5-1 and a lower synchronous belt wheel 5-7 are respectively welded on the top disc 3 and the bottom disc 6, the barrel body 1 covers the parts of the generating device and then is fixedly connected on the bottom disc 6, one end of a cable 12 is connected on a generator coil 10 in the process of installing and routing the cable 12, the other end of the cable 12 sequentially penetrates through a cable slot 9-1 on a vibrator 9, a cable hole 5-5-3 on the connecting block 5-5, a threading hole 5-6-1 on a connecting wheel 5-6, a wire sleeve 4 and finally penetrates through a hole on the top disc 3, and is connected into the electric control cabinet 2.

The electric control cabinet 2 is provided with the protective cover, so that components such as a generator and a controller in the electric control cabinet can be effectively protected, erosion of rainwater and seawater is avoided, and the service life is prolonged. The shape of the protective cover only needs to be capable of shielding the whole power generation device.

The protective cover surface spraying has the warning colour that plays warning discernment effect. Preferably red, and can play a role in warning and identifying.

The number of the guide posts is at least 2. 2 guide pillars make whole device more stable.

The working principle of the wire pulling mechanism 5 is as follows: because the connecting block 5-5 is fixed on the vibrator 9 and the double-sided synchronous belt 5-2, when the vibrator 9 moves upwards, the connecting block 5-5 drives the double-sided synchronous belt 5-2 to move at the same speed, and because the connecting wheel 5-6 is simultaneously meshed with the double-sided synchronous belt 5-2 and the rack bar 5-3, the connecting wheel 5-6 also moves upwards under the action of the double-sided synchronous belt 5-2 and the rack bar 5-3, and according to the geometric relationship, the moving speed of the connecting wheel 5-6 is half of the speed of the double-sided synchronous belt 5-2; namely, the upward moving distance of the connecting wheel 5-6 is half of the upward moving distance of the connecting block 5-5; the cable 12 passes through the belt connecting plate 5-5-1 and the connecting wheel 5-6, so that the cable 12 can be orderly folded under the action of the connecting block 5-5 and the connecting wheel 5-6, and the cable is prevented from being wound and scattered; along with the continuous upward movement of the vibrator 9, the distance between the belt connecting plate 5-5-1 and the connecting wheel 5-6 is continuously increased, and the length of the folded part of the cable 12 is continuously increased; when the vibrator 9 moves to the top, the distance between the belt connecting plate 5-5-1 and the connecting wheel 5-6 is maximized, the folding part of the cable 12 is maximized, and the schematic diagram is shown in fig. 8, wherein at the moment, the vibrator 9 starts to move downwards, and the belt connecting plate 5-5-1 drives the double-sided synchronous belt 5-2 to move downwards at the same speed; the connecting wheel 5-6 also moves downwards under the action of the double-sided synchronous belt 5-2 and the rack bar 5-3, and the speed is half of the speed of the double-sided synchronous belt 5-2, namely the distance between the belt connecting plate 5-5-1 and the connecting wheel 5-6 is continuously reduced; at this time, the folding part of the cable 12 is gradually reduced under the action of the band connecting plate 5-5-1 and the connecting wheel 5-6, the cable 12 is gradually unfolded as shown in fig. 9, when the vibrator 9 moves to the lowest part, the distance between the band connecting plate 5-5-1 and the connecting wheel 5-6 is minimized, and the cable 12 is completely unfolded as shown in fig. 10. Under the action of waves, the vibrator 9 continuously moves up and down, and under the action of the wire pulling mechanism 5, the cable 12 is orderly folded and unfolded.

The power generation device of the invention adopts a linear motor to carry out power conversion, a generator coil 10 of the linear generator is arranged on a vibrator 9, a permanent magnet of the linear generator is arranged on a generator stator frame 8, the power generation device floats in the sea and is fixed by an anchor chain, the vibrator 9 in a cylinder body vibrates up and down under the action of waves, the generator coil 10 on the vibrator 9 cuts magnetic lines of force to enable the linear generator to generate current for power generation, one end of a cable wire of the power generation device is connected on the coil and moves up and down along with the coil, the other end of the cable wire penetrates through a top disc 3 to be connected in an electric control cabinet 2, as the vibrator 9 continuously moves up and down along a guide rod 11 periodically, a cable wire 12 led out from the generator coil 10 also moves up and down along with the cable wire, as the movement stroke of the vibrator 9 of the power generation device is longer, generally more than one meter, and the length of the cable wire 12 is more than one meter, the phenomenon that the cable is wound and scattered easily occurs during working, so that the normal motion of a vibrator is influenced, the method for solving the problem of winding the cable at present mainly uses a drag chain, but because a power generation device is under the action of waves, a cylinder body 1 can be correspondingly inclined, the drag chain can be suspended under the influence of gravity, the suspension direction is changed along with the inclination angle of the cylinder body, the drag chain is easy to collide with the power generation device to cause interference, the power generation effect of the whole device is greatly influenced, and the cable pulling mechanism 5 in the power generation device just solves the problem that the cable 12 is wound.

Compared with the prior art, the invention has the beneficial effects that: the oscillating wave power generation device with the anti-winding mechanism is relatively simple and compact in structure, most parts are sealed inside the cylinder body, the protective cover is additionally arranged outside the cylinder body, the problems of corrosion failure and the like of long-time offshore work are solved, in addition, the wire pulling mechanism is also designed, through the mechanical structure, the cable can be effectively folded and unfolded, the problems that the cable of the device is scattered and is easy to wind are solved, and the oscillating wave power generation device has strong practicability and good application prospect.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, but any modifications or equivalent variations made according to the technical spirit of the present invention are within the scope of the present invention as claimed.

Claims (4)

1. An oscillating wave power generation device with an anti-winding mechanism comprises a barrel body (1), an electric control cabinet (2), a top plate (3), a wire sleeve (4), a base plate (6), a spring (7), a generator stator frame (8), a vibrator (9), a generator coil (10), a guide pillar (11) and a cable (12), and is characterized in that the electric control cabinet (2) is detachably mounted above the top plate (3), the top plate (3) and the base plate (6) are connected through the guide pillar (11), the vibrator (9) is disc-shaped, is arranged between the top plate (3) and the base plate (6) in parallel and is sleeved on the guide pillar (11) so as to be capable of periodically moving up and down along the guide pillar, and a generator stator frame (8) is positioned between the top plate (3) and the base plate (6) and is arranged in parallel with the guide pillar (11), the spring (7) is sleeved on the guide post (11) and located between the vibrator (9) and the chassis (6), the power generation device further comprises a wire pulling mechanism (5), the wire pulling mechanism (5) is composed of an upper synchronous belt wheel (5-1), a double-sided synchronous belt (5-2), a rack rod (5-3), a guide rod (5-4), a connecting block (5-5), a connecting wheel (5-6) and a lower synchronous belt wheel (5-7), a toothed part (5-3-1) is arranged on the rack rod (5-3), a wire threading hole (5-6-1), a guide hole (5-6-2) and a toothed part (5-6-3) are arranged on the connecting block (5-5), and a belt connecting plate (5-5-1) and a belt connecting plate (5-5-1) are arranged on the connecting wheel (5-6), The device comprises guide rod holes (5-5-2), cable holes (5-5-3), a vibrator connecting plate (5-5-4), a vibrator mounting hole (5-5-5) and synchronous belt mounting holes (5-5-6), wherein a cable slot (9-1) is fixed on the vibrator (9), an upper synchronous pulley (5-1) is fixed on a top disc (3), a lower synchronous pulley (5-7) is fixed on a chassis (6), a double-sided synchronous belt (5-2) is combined with the upper synchronous pulley (5-1) and the lower synchronous pulley (5-7) to form belt transmission, a rack rod (5-3) is fixed between the top disc (3) and the chassis (6), a tooth part on the connecting wheel (5-6) is respectively meshed with the double-sided synchronous belt (5-2) and the rack rod (5-3), one end of a connecting block (5-5) is fixed on a vibrator (9), the other end of the connecting block is fixed on a double-sided synchronous belt (5-2), a guide hole (5-6-2) of a connecting wheel (5-6) penetrates through a guide rod (5-4) and can freely move on the guide rod (5-4), a guide rod hole (5-5-2) of the connecting block (5-5) penetrates through the guide rod (5-4) and can freely move on the guide rod (5-4), supports of an upper synchronous pulley (5-1) and a lower synchronous pulley (5-7) are respectively welded on the top disc (3) and the bottom disc (6), a cylinder body (1) covers parts of the power generation device and then is fixedly connected on the bottom disc (6), and a cable (12) is installed and wired, one end of a cable (12) is connected to a generator coil (10), and the other end of the cable (12) sequentially penetrates through a cable slot (9-1) on the vibrator (9), a cable hole (5-5-3) on the connecting block (5-5), a threading hole (5-6-1) on the connecting wheel (5-6) and a wire sleeve (4), finally penetrates through a hole on the top plate (3) and is connected into the electric control cabinet (2).

2. An oscillating wave energy generation device with an anti-wind mechanism according to claim 1, characterized in that a protective cover is mounted externally to the barrel (1).

3. The oscillating wave energy power generation device with the anti-winding mechanism according to claim 2, wherein the surface of the protective cover is coated with a warning color for warning and identifying.

4. An oscillating wave energy generation device with an anti-wind mechanism according to claim 3, characterized in that the number of guide posts (11) is at least 2.

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