CN111140437B

CN111140437B - Marine ecological living platform capable of generating and storing energy

Info

Publication number: CN111140437B
Application number: CN202010045009.XA
Authority: CN
Inventors: 连志敏
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-01-16
Filing date: 2020-01-16
Publication date: 2025-02-21
Anticipated expiration: 2040-01-16
Also published as: CN111140437A

Abstract

A gap is formed between every two adjacent main buildings, natural wind and hot wind generated by the main buildings enter the main wind cylinder through the gap to form tornado, and the main rotating shaft in the main wind cylinder is obliquely arranged, so that the tornado directly impacts the main blades, the rotating speed of the main blades is obviously improved, and the power generation efficiency of the main wind driven generator is improved. The auxiliary wind cylinder is obliquely arranged in the auxiliary wind cylinder, so that the construction cost can be greatly reduced, the space utilization rate can be improved, the auxiliary wind cylinder is combined with the natural wind and the hot wind generated by the auxiliary building to form tornado which directly impacts the auxiliary blades, the rotating speed of the auxiliary blades is obviously improved, and the power generation efficiency of the auxiliary wind driven generator is improved. When the power of the marine ecological living platform is insufficient, the stored gravitational potential energy of the gravitational block and the seawater is converted into the power, so that the purposes of increasing the capacity, improving the power generation efficiency and protecting the environment are realized.

Description

Marine ecological living platform capable of producing energy and storing energy

Technical Field

The invention relates to a marine ecological living platform capable of producing energy and storing energy.

Background

At present, the development trend of the existing ocean living platform, particularly a platform which can cruise on the sea, is that a vertical axis wind driven generator is adopted to generate electricity by wind power, the generated electric energy is used by residents on the ocean ecological living platform, and when the excessive electric energy generated by the vertical axis wind driven generator exceeds the usage amount of the residents, the electric energy cannot be stored and cannot be transmitted to the land for use, so that the electric energy is wasted and the investment power generation power is overlarge. In addition, the traditional wind driven generator only adopts natural wind to drive the blades to rotate for power generation, and a storage battery is used for power storage, so that the power generation efficiency is low, the power storage quantity is small, and the environment is not protected.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide the marine ecological living platform which has high power generation efficiency and large power storage capacity and can store energy.

The invention is realized in such a way, the ocean ecological living platform capable of producing energy and storing energy comprises a triangular base floating on the sea surface, wherein the middle part of the base is provided with a plurality of main buildings which are circumferentially arranged at the center of the base and are mutually arranged at intervals for population living, and the three corners of the base are respectively provided with a subsidiary building for population living;

The center of the base is provided with a main air duct which is vertically arranged, a plurality of main air inlets are formed in the main air duct from top to bottom, a coaxially arranged power generation tower is arranged in the air duct, a plurality of main rotating shafts which are obliquely arranged are arranged in the power generation tower from top to bottom, a plurality of main blades are fixedly arranged on the main rotating shafts, and each main rotating shaft is connected with a main wind driven generator;

The outer side surface of the auxiliary building is an inclined surface, an auxiliary air duct which is obliquely arranged is arranged on the inclined surface, a plurality of auxiliary air inlets are formed in the auxiliary air duct from top to bottom, a plurality of auxiliary rotating shafts which are coaxially and independently rotatable and are obliquely arranged are arranged in the auxiliary air duct from top to bottom, a plurality of auxiliary blades are fixedly arranged on the auxiliary rotating shafts, and each auxiliary rotating shaft is connected with an auxiliary wind driven generator;

the auxiliary building is characterized in that a sliding rail is further arranged on the inclined surface, a gravity block is arranged on the sliding rail in a sliding mode, a motor, a driving wheel and a generator are arranged at the top of the auxiliary building, the driving wheel is fixedly arranged on a driving shaft, a brake capable of locking and unlocking the driving wheel is arranged on the driving wheel, one end of the driving shaft is connected with an output shaft of a reduction gearbox through a first coupler, an input shaft of the reduction gearbox is connected with a rotating shaft of the motor, the other end of the driving shaft is connected with an input shaft of a speed increasing box through a second coupler, an output shaft of the speed increasing box is connected with a rotating shaft of the generator, the first coupler and the second coupler are electrically connected with a controller, the controller is used for controlling the opening and closing of the first coupler and the second coupler, and a traction rope is wound on the driving wheel and is connected with the gravity block through a guide wheel fixedly arranged at the top of the auxiliary building.

Further, the top of the air duct is also provided with a water storage tank and at least one water pump, the water storage tank is connected with a water outlet pipe through an electromagnetic valve, the water pump is connected with a water suction pipe, the other end of the water pipe is arranged in sea water, the base is provided with a sea water generator room, the water outlet pipe extends into the sea water generator room, and at least one hydroelectric generator is arranged in the sea water generator room.

Further, a wind collecting cover is further arranged at each auxiliary air inlet, and an air inlet is respectively formed in three faces of the wind collecting cover.

In addition, the main wind power generator can drive the main blade to rotate at a high speed in the process of upward movement in the main wind barrel, and the main blade drives the main wind power generator to generate power through the main rotating shaft, so that the power generation efficiency of the main wind power generator is further improved.

The auxiliary wind cylinder is obliquely arranged, so that the auxiliary wind cylinder is conveniently arranged on the inclined plane of the auxiliary building, the construction cost can be greatly reduced, the space utilization rate can be improved, the interference of wind power on living is reduced, the auxiliary wind cylinder is combined with the natural wind, and the tornado formed by mixing the hot wind generated by the auxiliary building directly impacts the auxiliary blade, the rotating speed of the auxiliary blade is remarkably improved, and the power generation efficiency of the auxiliary wind driven generator is improved.

When the power of the marine ecological living platform is insufficient, the invention can convert the stored gravitational potential energy of the gravitational block and the seawater into the power, thereby achieving the purposes of increasing the productivity, improving the power generation efficiency and protecting the environment.

Drawings

In order to more clearly illustrate the technical solutions of the present invention, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a cross-sectional view of a marine ecological living platform provided by an embodiment of the present invention.

Fig. 2 is a top view of a marine ecological living platform provided by an embodiment of the invention.

Fig. 3 is a top view of a plurality of main buildings and main wind drums of the marine ecological living platform provided by the embodiment of the invention.

Fig. 4 is a partial sectional view of a sub-building of the marine ecological living platform provided by the embodiment of the invention.

Fig. 5 is a schematic diagram of a part of the top of a secondary building of a marine ecological living platform according to an embodiment of the present invention.

Fig. 6 is a partial schematic view of the right side view of fig. 5.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

As shown in fig. 1, 2 and 3, the marine ecological living platform capable of producing energy and storing energy provided by the embodiment of the invention comprises a triangular base 1 floating on the sea, wherein the middle part of the base 1 is provided with a plurality of main buildings 2 which are circumferentially arranged at the center of the base 1 and are mutually spaced, and the three corners of the base 1 are respectively provided with a plurality of auxiliary buildings 3 for living the population;

The center position of the base 1 is provided with a main air duct 4 which is vertically arranged, a plurality of main air inlets 41 are formed in the main air duct 4 from top to bottom, a power generation tower 42 which is coaxially arranged is arranged in the air duct 4, a plurality of main rotating shafts 43 which are obliquely arranged are arranged in the power generation tower 42 from top to bottom, a plurality of main blades 44 are fixedly arranged on the main rotating shafts 43, and each main rotating shaft 43 is connected with a main wind driven generator 45. Because a gap exists between every two adjacent main buildings 2, natural wind and hot wind generated by the main buildings 2 enter the main wind cylinder 4 through the gap and the main wind inlet 41 to form tornado, the tornado enters the main wind cylinder 4 through the main wind inlet 41 and then drives the main blades 44 to rotate at a high speed, the main blades 44 drive the main rotating shafts 43 to rotate at a high speed together, and the main rotating shafts 43 drive the main wind driven generators 45 to generate power in the high-speed rotating process. In addition, the main blade 44 is driven to rotate at a high speed in the upward movement process of hot air and building hot air generated in the power generation process of the main wind power generator 45 in the main wind barrel 4, and the main blade 44 drives the main wind power generator 45 to generate power through the main rotating shaft 43, so that the power generation efficiency of the main wind power generator 45 is further improved.

Referring to fig. 1 and 4, the outer side of the auxiliary building 3 is an inclined plane, an auxiliary wind drum 31 is arranged on the inclined plane, a plurality of auxiliary wind inlets (not shown) are arranged on the auxiliary wind drum 31 from top to bottom, a wind collecting cover 32 is further arranged at each auxiliary wind inlet, an wind inlet 33 is respectively arranged on three sides of the wind collecting cover 32, a plurality of auxiliary rotating shafts 34 which are coaxial, can independently rotate and are arranged in the auxiliary wind drum 31 in an inclined manner from top to bottom, a plurality of auxiliary blades 35 are fixedly arranged on the auxiliary rotating shafts 34, and each auxiliary rotating shaft 34 is connected with an auxiliary wind driven generator 36. The natural wind enters from the three air inlets 33 of the wind collecting cover 32 to form tornado, and the tornado enters from the auxiliary air inlets into the auxiliary wind cylinder 31 to drive the auxiliary blades 35 to rotate at high speed, the auxiliary blades 35 drive the auxiliary rotating shaft 34 to rotate at high speed together, and the auxiliary rotating shaft 34 drives the auxiliary wind driven generator 36 in the high-speed rotation process. The auxiliary air duct 31 is obliquely arranged, so that the auxiliary air duct 31 is conveniently arranged on the inclined plane of the auxiliary building 3, the construction cost can be greatly reduced, the space utilization rate can be improved, the interference of wind power on living is reduced, the auxiliary air duct 31 is combined with natural wind, and tornado formed by mixing hot wind generated by the auxiliary building 3 directly impacts the auxiliary blade 35, the rotating speed of the auxiliary blade 35 is obviously provided, and the power generation efficiency of the auxiliary wind driven generator 36 is improved.

As shown in fig. 1, 5 and 6, further, a sliding rail 37 is further disposed on the inclined surface of the auxiliary building 3, a gravity block 38 is slidingly disposed on the sliding rail 37, a motor 39, a driving wheel 310 and a generator 311 are disposed at the top of the auxiliary building 3, a brake (not shown) capable of locking and unlocking the driving wheel 310 is disposed on the driving wheel 310, the driving wheel 310 is fixedly disposed on the driving shaft 311, one end of the driving shaft 311 is connected with an output shaft of a reduction gearbox 313 through a first coupling 312, an input shaft of the reduction gearbox 313 is connected with a rotating shaft of the motor 39, the other end of the driving shaft 311 is connected with an input shaft of a speed increasing gearbox 315 through a second coupling 314, an output shaft of the speed increasing gearbox 315 is electrically connected with a rotating shaft of the generator 316, the first coupling 312 and the second coupling 313 are both electrically connected with a controller (not shown), the controller is used for controlling the opening and closing of the first coupling 312 and the second coupling 313, a traction rope 317 is wound on the driving wheel 310, and the traction rope 317 is connected with the gravity block 38 through a guide wheel 318 fixedly disposed at the top of the auxiliary building 3.

When the ocean ecological living platform is rich in electric energy, the controller controls the first coupler 312 to be closed and the second coupler 313 to be opened, at the moment, the driving shaft 311 is connected with the output shaft of the reduction box 313 through the first coupler 312, the driving shaft 311 is disconnected with the input shaft of the speed increasing box 315, then the controller controls the brake to loosen the driving wheel 310, then the controller starts the motor 39, the rotating speed of the motor 39 is reduced through the reduction box 313 to drive the driving wheel 310 to slowly rotate, the driving wheel 310 rotates and winds the traction rope 317 on the peripheral wall of the driving wheel 310, the traction rope 317 pulls the gravity block 38 to move upwards along the sliding rail 37 through the guide wheel 318, when the gravity block 38 reaches the top of the sliding rail 37, the controller turns off the motor 39, and meanwhile the controller controls the brake to lock the driving wheel 310, so that the ocean ecological living platform is rich in electric energy is converted into gravitational potential energy of the gravity block 38, and the gravitational potential energy is stored.

When the power of the marine ecological living platform is low, the controller controls the first coupler 312 to be opened and the second coupler 313 to be closed, at the moment, the driving shaft 311 is disconnected with the output shaft of the reduction gearbox 313, the driving shaft 311 is connected with the input shaft of the speed increasing gearbox 315, then the controller controls the brake to loosen the driving wheel 310, the gravity block 38 starts to slide downwards along the sliding rail 37, the gravity block 38 drives the driving wheel 310 and the driving shaft 311 to rotate together through the traction rope 317, and the rotating speed of the driving shaft 311 drives the generator 311 to generate power after being increased through the speed increasing gearbox 315, so that the purpose of converting the gravitational potential energy of the gravity block 38 into power and realizing the capacity is achieved.

As shown in fig. 1, further, a water storage tank 46 and at least one water pump (not shown) are arranged at the top of the air duct 4, the water storage tank 46 is connected with a water outlet pipe (not shown) through an electromagnetic valve (not shown), the water pump is connected with a water suction pipe (not shown), the other end of the water pipe is arranged in sea water, a sea water generator room 47 is arranged on the base 1, the water outlet pipe extends into the sea water generator room 47, and at least one hydroelectric generator 48 is arranged in the sea water generator room.

When the electric energy of the marine ecological living platform is rich, the controller starts the water pump, the water pump pumps water to the water storage tank 46, and when the water level in the water storage tank 46 reaches a set position, the controller turns off the water pump, so that the electric energy of the marine ecological living platform is converted into gravitational potential energy of seawater in the water storage tank 46, and the gravitational potential energy is stored.

When the power of the marine ecological living platform is low, the controller opens the electromagnetic valve, seawater in the water storage tank 46 is flushed into the seawater generator room 47 through the water outlet pipe and impacts the hydroelectric generator 48 to drive the hydroelectric generator 48 to generate power, so that the gravitational potential energy of the seawater in the water storage tank 46 is converted into the power, and the purposes of increasing the capacity, improving the power generation efficiency and protecting the environment are achieved.

While the foregoing is directed to the preferred embodiments of the present invention, it will be appreciated by those skilled in the art that changes and modifications may be made without departing from the principles of the invention, such changes and modifications are also intended to be within the scope of the invention.

Claims

1. The marine ecological living platform capable of producing energy and storing energy is characterized by comprising a triangular base floating on the sea, wherein the middle part of the base is provided with a plurality of main buildings which are circumferentially arranged at the center of the base and are arranged at intervals, wherein the main buildings are used for population living, and the positions of three corners of the base are respectively provided with a subsidiary building used for population living;

2. The ocean ecological living platform capable of producing energy and storing energy according to claim 1, wherein the top of the wind cylinder is also provided with a water storage tank and at least one water pump, the water storage tank is connected with a water outlet pipe through an electromagnetic valve, the water pump is connected with a water suction pipe, and the other end of the water pipe is arranged in sea water;

The base is provided with a seawater generator room, the water outlet pipe extends into the seawater generator room, and at least one hydroelectric generator is arranged in the seawater generator room.

3. The ocean ecological living platform capable of producing and storing energy according to claim 1, wherein each auxiliary air inlet is further provided with a wind collecting cover, and three surfaces of the wind collecting cover are respectively provided with an air inlet.