FLOATING WAVE POWER GENERATOR CAPABLE OF LIFTING UNDER REMOTE CONTROL

Abstract

A floating wave power generator is capable of lifting under remote control, and includes a linear generator fixed to a seabed and a floating assembly connected with the linear generator, where the floating assembly includes a lower floating body connected with a motor of the linear generator through an anchor chain, an upper floating body connected with the lower floating body through a rigid rod and floating on the sea surface, where the upper floating body is used for collecting wave energy and controlling the buoyancy of the whole floating assembly, the lower floating body is used for assisting the upper floating body to collect wave energy and controlling a distance between the whole floating assembly and the linear generator, the motor of the linear generator is used for cutting magnetic induction lines to generate electric power according to a lift-up/down movement of the whole floating assembly.

Claims

1. A floating wave power generator capable of lifting under remote control, wherein the generator comprises a linear generator fixed to a seabed and a floating assembly connected with the linear generator, the floating assembly comprises a lower floating body connected with a motor of the linear generator through an anchor chain, and an upper floating body connected with the lower floating body through a rigid rod and floating on the sea surface; wherein the upper floating body is used for collecting wave energy and controlling the buoyancy of the whole floating assembly, the lower floating body is used for assisting the upper floating body to collect wave energy and controlling a distance between the whole floating assembly and the linear generator, the motor of the linear generator is used for cutting magnetic induction lines to generate electric power according to a lift-up/down movement of the whole floating assembly, and the upper floating body and the lower floating body are connected with a remote control system.

2. The floating wave power generator capable of lifting under remote control according to claim 1, wherein the upper floating body is formed by an upper chamber and a lower chamber, the upper chamber is used for mounting a two-way water pump, the lower chamber is a ballast tank, and the upper floating body controls an amount of water flowing into the ballast tank through the two-way water pump so as to control the buoyancy of the whole floating assembly.

3. The floating wave power generator capable of lifting under remote control according to claim 2, wherein water pipes are symmetrically arranged on two sides of the two-way water pump, and the water pipes are communicated with seawater.

4. The floating wave power generator capable of lifting under remote control according to claim 2, wherein a water pipe is arranged at the bottom of the two-way water pump, and the water pipe is communicated with the ballast tank.

5. The floating wave power generator capable of lifting under remote control according to claim 2, wherein the two-way water pump is connected with the remote control system through a control cable.

6. The floating wave power generator capable of lifting under remote control according to claim 2, wherein when the ballast tank has no seawater, the buoyancy of the upper floating body is greater than the weight thereof such that the upper floating body floats on the sea surface; and when the ballast tank is full of seawater, the buoyancy of the upper floating body is less than the weight thereof such that the upper floating body sinks into the sea.

7. The floating wave power generator capable of lifting under remote control according to claim 1, wherein a windlass is fixed to the interior of the lower floating body, the windlass is connected with the anchor chain, and the windlass is used for controlling the distance between the whole floating assembly and the linear generator by retracting or releasing the anchor chain.

8. The floating wave power generator capable of lifting under remote control according to claim 7, wherein the windlass is connected with the remote control system through the control cable.

9. The floating wave power generator capable of lifting under remote control according to claim 7, wherein the windlass is further used for controlling a position of the motor of the linear generator by retracting or releasing the anchor chain to ensure that the motor is located at the center of the linear generator when the sea is calm.

10. The floating wave power generator capable of lifting under remote control according to claim 5, wherein the rigid rod has a hollow structure for facilitating penetration of the control cable through the rigid rod.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

[0022] The accompany drawings of the specification constituting a part of the present invention provide further understanding of the present invention. The schematic embodiments of the present invention and the description thereof are intended to be illustrative of the present invention and do not constitute an undue limitation of the present invention.

[0023] FIG. 1 is a schematic structural diagram of a floating wave power generator capable of lifting under remote control in a certain embodiment of the present invention.

[0024] In the drawing: 1seabed, 2control cable, 3linear generator, 4motor, 5anchor chain, 6lower floating body, 7branch cable for controlling a windlass, 8windlass, 9upper floating body, 10rigid rod, 11ballast tank, 12water pipe communicated with the ballast tank, 13branch cable for controlling a two-way water pump, 14water pipe communicated with seawater, 15two-way water pump, and 16sea surface.

DETAILED DESCRIPTION OF THE INVENTION

[0025] The following further describes the present invention with reference to the accompanying drawings and specific embodiments.

[0026] It should be noted that the following detailed description is exemplary and aims to further describe the present invention. Unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skilled in the art to which the present invention pertains.

[0027] It should be noted that the terms used herein are merely used for describing the specific embodiments, but is not intended to limit exemplary embodiments of the present invention. As used herein, the singular form is also intended to include the plural form unless otherwise indicated obviously from the context. Furthermore, it should be further understood that the terms includes and/or including used in this specification specify the presence of stated features, steps, operations, elements, components and/or their groups.

[0028] In the present invention, orientations or position relationships indicated by terms upper, lower, left, right, front, back, vertical, horizontal, side, bottom, etc. are orientations or position relationships as shown in the drawings, and these terms are relational words just used to facilitate description of structure relationships of parts or elements of the present invention, but not to specifically indicate any part or element of the present invention, and thus, these terms cannot be understood as a limitation to the present invention.

[0029] In the present invention, the terms fixed, connected and connection should be understood broadly, which may be fixed connection, integral connection or detachable connection; may also be direct connection; and may also be indirect connection through an intermediate component. Scientific researchers or technicians related to the art may determine specific meanings of the foregoing terms in the present invention based on a specific situation, but cannot understand to be limitations to the present invention.

[0030] As shown in FIG. 1, a floating wave power generator capable of lifting under remote control includes a linear generator 3 fixed to a seabed 1 and a floating assembly connected with the linear generator 3, the floating assembly includes a lower floating body 6 connected with a motor 4 of the linear generator 3 through an anchor chain 5, and an upper floating body 9 connected with the lower floating body 6 through a rigid rod 10 and floating on the sea surface 16, where the upper floating body 9 is used for collecting wave energy and controlling the buoyancy of the whole floating assembly, the lower floating body 6 is used for assisting the upper floating body 9 to collect wave energy and controlling a distance between the whole floating assembly and the linear generator 3, the motor 4 of the linear generator is used for cutting magnetic induction lines to generate electric power according to a lift-up/down movement of the whole floating assembly, and the upper floating body 9 and the lower floating body 6 are connected with a remote control system.

[0031] The upper floating body 9 is formed by an upper chamber and a lower chamber, the upper chamber is used for mounting a two-way water pump 15, the lower chamber is a ballast tank 11, and the upper floating body 9 controls an amount of water flowing into the ballast tank 11 through the two-way water pump 15 so as to control the buoyancy of the whole floating assembly.

[0032] Water pipes 14 are symmetrically arranged on two sides of the two-way water pump 15, and the water pipes 14 are communicated with seawater, that is, an opening of the water pipe ensures to be submerged.

[0033] A water pipe 12 is arranged at the bottom of the two-way water pump 15, and the water pipe 12 is communicated with the ballast tank 11.

[0034] A windlass 8 is fixed to the interior of the lower floating body 6, the windlass 8 is connected with the anchor chain 5, and the windlass 8 is used for controlling the distance between the whole floating assembly and the linear generator 3 by retracting or releasing the anchor chain 5.

[0035] During specific implementation, connection portions of the upper floating body 9 and the water pipes 14 communicated with seawater and a cable penetration portion of the upper floating body 9 all ensure excellent seal, the upper chamber and the lower chamber ensure excellent seal, and a cable penetration portion of the lower floating body 6 also ensures excellent seal.

[0036] At normal working state, the buoyancy of the upper floating body and the lower floating body is greater than the total weight thereof. When the sea is calm, the motor 4 is located at the central position of the linear generator 3, and the anchor chain 5 connected with the motor 4 is tensioned; when the sea generates waves, the upper floating body and the lower floating body conduct the lift-up/down movement, and the whole floating assembly lifts up to drive the motor 4 to lift up; and when the whole floating assembly lifts down, the anchor chain 5 connected with the motor 4 is loosened, the motor 4 moves downwards depending on its own weight, and the motor 4 cuts the magnetic induction lines to generate electric power according to the electromagnetic induction principle.

[0037] The windlass 8 is connected with the remote control system through a control cable 2, and the two-way water pump 15 is connected with the remote control system through the control cable 2.

[0038] During specific implementation, the generator needs a transmission cable to transmit the generated electric power to the land so as to be capable of laying the control cable 2 while laying the transmission cable, the control cable 2 penetrates the linear generator 3 and is connected with the lower floating body 6, a branch cable 7 for controlling starting and stopping of the windlass 8 leads out, and then the control cable 2 enters the upper floating body 9 by penetrating the rigid rod 10 connecting the upper floating body with the lower floating body, and a branch cable 13 for controlling starting and stopping of the two-way water pump 15 leads out.

[0039] In severe sea weather, an operator can start the windlass 8 through the control cable 2 on the shore, the windlass 8 rotates to retract the anchor chain 5, and the linear generator 3 is fixed to a seabed 1, so the lower floating body 6 is pulled towards the linear generator 3.

[0040] Simultaneously, the operator starts the two-way water pump 15 through the control cable 2 on the shore to pump seawater into the ballast tank 11 such that the weight of the upper floating body 9 is greater than the buoyancy thereof and the upper floating body 9 sinks to the seabed, and because the upper floating body and the lower floating body are connected by the rigid rod 10, the upper floating body 9 does not touch the linear generator 3 to cause damage after lifting down.

[0041] When severe sea weather is over, the control cable 2 controls the windlass 8 to reversely rotate to release the anchor chain 5 and also controls the two-way water pump 15 to pump water from the ballast tank 11 to the sea such that the buoyancy of the upper floating body 9 is greater than the weight thereof and then the upper floating body 9 floats on the sea surface, and the wave generator continues to work.

[0042] Additionally, the design of the present invention can further deal with change of the sea tidal level. A position of the motor 4 can be controlled by releasing or retracting the anchor chain 5 at the high tidal level or low tidal level to ensure that the motor 4 is located at the center of the linear generator 3 when the sea is calm.

[0043] The foregoing is merely illustrative of the preferred embodiments of the present invention and is not intended to limit the present invention, and various changes and modifications may be made by those skilled in the art. Any modifications, equivalent substitutions, improvements, etc. made within the spirit and scope of the present invention should be included within the protection scope of the present invention.

[0044] The above describes the specific embodiments of the present invention with reference to the accompanying drawings, but is not intended to limit the protection scope of the present invention. Those skilled in the art should understand that any modifications or transformations made by those skilled in the art without creative efforts still fall within the protection scope of the present invention based on the technical solutions of the present invention.