CN111252204A

CN111252204A - Multi-power-driven marine comprehensive observation platform

Info

Publication number: CN111252204A
Application number: CN202010116053.5A
Authority: CN
Inventors: 张强; 张晓宇; 米豪鼎; 张润鑫
Original assignee: Shandong University of Science and Technology
Current assignee: Shandong University of Science and Technology
Priority date: 2020-02-25
Filing date: 2020-02-25
Publication date: 2020-06-09

Abstract

The invention discloses a multi-power-driven offshore comprehensive observation platform, which comprises a platform main body, wherein the platform main body is connected with: the device comprises a semi-submersible main body platform, a sustainable power supply platform, an ocean observation platform, a comprehensive test platform, a connection platform, a fresh water platform and an organic waste treatment and utilization platform. The semi-submersible type water pump is characterized in that a pumping and drainage system, an anchoring system and an electric propulsion system are arranged on a semi-submersible type main platform, so that power can be provided for the operation of the main platform body, and the main platform body can stably move forwards, float upwards and sink under severe sea conditions; the sustainable power supply platform of the invention utilizes solar energy and wind energy to generate electricity to continuously provide electric energy for the platform, and a comprehensive test platform is arranged on the platform main body to provide test conditions for developing deep scientific research for a long time; the helicopter is lifted and landed and the platform main body is stably parked through the docking platform, and the organic waste treatment and utilization platform circularly treats and utilizes the organic waste on the platform main body, so that the ecological balance of the platform main body is ensured.

Description

Multi-power-driven marine comprehensive observation platform

Technical Field

The invention belongs to the technical field of marine science, and particularly relates to a multi-power-driven marine comprehensive observation platform.

Background

With the rapid development of social science and technology and economy, countries in the world have more and more requirements on natural gas and petroleum energy, and the offshore comprehensive observation platform is a main structure for performing activities such as oil extraction, centralized transportation, observation, navigation and construction on the sea. Because the function of the offshore comprehensive observation platform is single, the supply of electric energy resources is particularly lack, and under the condition of poor sea condition, the platform has stronger motion response, so that operators on the platform feel uncomfortable, even overturn, and huge economic loss is caused. In order to solve the problems, a multi-power-driven offshore comprehensive observation platform needs to be designed.

Disclosure of Invention

Based on the defects of the prior art, the technical problem solved by the invention is to provide the multi-power-driven offshore comprehensive observation platform which has multiple functions, can provide power for the operation of the platform main body and continuously provide electric energy for the platform, and ensures the normal operation of the offshore comprehensive observation platform.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention provides a multi-power-driven offshore comprehensive observation platform which comprises a platform main body, wherein the platform main body is connected with: the semi-submersible main body platform is used for providing power for the operation of the platform main body; the ocean observation platform is used for collecting and releasing ocean observation equipment; the comprehensive test platform is arranged inside the platform main body and is used for providing experimental conditions for scientific research; the docking platform is used for ensuring the taking off and landing of the helicopter and the stable parking of the platform main body; a fresh water platform for producing fresh water and supplying the fresh water to the platform main body; the organic waste treatment and utilization platform is arranged inside and above the platform main body and is used for carrying out efficient green treatment on the organic waste to realize ecological balance of the platform; and the sustainable power supply platform is used for continuously supplying electric energy to the platform.

Preferably, the sustainable power supply platform comprises a solar power generation system and a wind power generation system; the solar power generation system comprises a received optical signal module, a signal conversion module, a signal processing module, a signal power amplification module and a signal storage module which are sequentially connected; the receiving optical signal module receives an optical signal to be converted and transmits the optical signal to the signal conversion module; the signal conversion module receives the optical signal transmitted by the receiving optical signal module, converts the optical signal into an electrical signal and transmits the electrical signal to the signal processing module; the signal processing module receives and detects the electric signal, receives the electric signal transmitted by the signal conversion module, detects whether the intensity of the electric signal meets the terminal application intensity requirement of the offshore comprehensive observation platform, feeds back the detection result to the signal excitation source, the signal excitation source works according to the detection result, outputs the electric signal with higher signal intensity if the signal intensity does not meet the current terminal electric signal intensity requirement, performs intensity compensation on the original electric signal, further meets the current terminal required electric signal intensity, and transmits the electric signal to the signal power amplification module; and after receiving the electric signal, the signal power amplification module amplifies the power of the electric signal and transmits the electric signal to the signal storage module, and the signal storage module is connected with the terminal and used by the terminal.

Further, the wind power generation system includes: the device comprises a helical blade, a gear speed increasing group, an offshore wind generating set, a seabed high-pressure air energy storage device, an electric quantity detector, an expander and an air compressor, wherein the helical blade is connected with the gear speed increasing group, receives the wind action to drive the gear speed increasing group to rotate, the gear speed increasing group is connected with the offshore wind generating set, and the offshore wind generating set provides electric power; the offshore wind generating set is connected with the electric quantity detector, and when the electric quantity detector detects that the generated energy of the offshore wind generating set exceeds the generated energy required by a power grid, the air compressor is driven by using the residual electric energy to charge high-pressure air to the seabed high-pressure air energy storage device; when the electric quantity detector detects that the generated energy of the offshore wind generating set is lower than the generated energy required by the power grid, high-pressure air in the seabed high-pressure air energy storage device is released, and the expansion machine applies work to drive the offshore wind generating set to generate power for a terminal of the offshore comprehensive observation platform.

Optionally, the ocean observation platform comprises a glider, an unmanned ship and a depth boat which are positioned in the retractable floating dock, the retractable floating dock is positioned on one side of the platform main body, and the glider, the unmanned ship and the depth boat in the retractable floating dock are taken out of the cabin and returned to the cabin in a floating state through floating and submerging of the platform main body; still including carrying the detection instrument under water in platform main part bottom, the deep sea detection instrument that has the anchoring system that puts in through the large-scale loop wheel machine that the platform was equipped with, arrange unmanned aerial vehicle and aerostatics platform, radar and the weather meter at platform main part top, unmanned aerial vehicle and aerostatics platform can carry on multiple unmanned aerial vehicle and aerostatics.

Optionally, the comprehensive test platform comprises a natural gas hydrate research cabin, a hydrological research cabin, a meteorological research cabin and a temperature research cabin.

Further, the docking platform comprises a ship quick docking platform and a helicopter take-off and landing platform, and the ship quick docking platform is arranged on one side of the platform main body and used for docking the platform main body; the helicopter taking-off and landing platform is arranged on the upper side of the platform main body and used for taking off and landing the helicopter.

Optionally, the semi-submersible body platform comprises: the pumping drainage system is used for realizing the floating and sinking of the platform main body; the anchoring system is used for realizing constant and uniform stress of the platform main body and keeping the platform main body to stably run; and the electric propulsion system is used for providing power for the platform main body to realize long-distance navigation.

By the arrangement of the pumping and drainage system, the anchoring system and the electric propulsion system, the multi-power-driven offshore comprehensive observation platform can stably float up and sink in a severe sea condition environment and stably run at a constant speed; a sustainable power generation platform is arranged, and the solar energy and the wind power generation are utilized to keep the electric power constant, so that the condition of electric power shortage is greatly reduced; the organic waste is efficiently and environmentally treated by utilizing an organic waste treatment and utilization platform, so that the ecological balance of the platform is realized; meanwhile, a natural gas hydrate research cabin, a hydrological research cabin, a meteorological research cabin and a temperature research cabin are arranged on the platform main body, test conditions are provided for long-term development of scientific research, and a docking platform is arranged to guarantee take-off and landing of the helicopter and stable parking of the platform main body.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clearly understood, the present invention may be implemented in accordance with the content of the description, and in order to make the above and other objects, features, and advantages of the present invention more clearly understood, the following detailed description is given in conjunction with the preferred embodiments, together with the accompanying drawings.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

FIG. 1 is an overall schematic view of a multi-powered offshore comprehensive observation platform of the present invention;

FIG. 2 is a schematic view of a semi-submersible body platform of the multi-power-driven offshore comprehensive observation platform of the present invention;

FIG. 3 is a schematic diagram of a solar power generation system of the multi-power driven offshore integrated observation platform of the present invention;

FIG. 4 is a schematic diagram of a wind power generation system of the multi-power driven offshore integrated observation platform of the present invention;

FIG. 5 is a schematic view of a docking platform of the multi-power-driven offshore comprehensive observation platform of the present invention;

FIG. 6 is a schematic diagram of a comprehensive test platform of the multi-power-driven offshore comprehensive observation platform of the present invention.

Detailed Description

Other aspects, features and advantages of the present invention will become apparent from the following detailed description, taken in conjunction with the accompanying drawings, which form a part of this specification, and which illustrate, by way of example, the principles of the invention. In the referenced drawings, the same or similar components in different drawings are denoted by the same reference numerals.

As shown in fig. 1 to 6, the invention provides a multi-power-driven offshore comprehensive observation platform, which comprises a platform main body, wherein the platform main body is connected with: the device comprises a semi-submersible main body platform 1, a sustainable power supply platform 2, an ocean observation platform 3, a comprehensive test platform 4, a connection platform 5, a fresh water platform 6 and an organic waste treatment and utilization platform 7.

As shown in fig. 2, the semi-submersible main body platform 1 of the invention comprises a pumping and drainage system 8, an anchoring system 9 and an electric propulsion system 10, wherein the pumping and drainage system 8 realizes the upward floating and the sinking of the main body of the platform, the anchoring system 9 realizes the constant and uniform stress of the main body of the platform and keeps the main body of the platform to run stably, and the electric propulsion system 10 provides power for the main body of the platform to realize the long-distance sailing.

The sustainable power supply platform 2 comprises a solar power generation system and a wind power generation system, wherein the solar power generation system comprises a received light signal module 14, a signal storage module 15, a signal conversion module 16, a signal processing module 17 and a signal power amplification module 18. The signal conversion module 16, the signal processing module 17 and the signal power amplification module 18 are sequentially connected in series between the received optical signal module 14 and the signal storage module 15, the received optical signal module 14 receives an optical signal to be converted and transmits the optical signal to the signal conversion module 16, the signal conversion module 16 receives the optical signal transmitted by the received optical signal module 14, converts the optical signal into an electrical signal, and transmits the electrical signal to the signal processing module 17; the signal processing module 17 receives and detects the electrical signals, receives the electrical signals transmitted by the signal conversion module 16, detects whether the intensity of the electrical signals meets the terminal application intensity requirement of the offshore comprehensive observation platform, and feeds back the detection result to the signal excitation source. The signal excitation source works according to the detection result, if the signal intensity does not meet the requirement of the current terminal electric signal intensity, the signal excitation source outputs an electric signal with higher signal intensity, performs intensity compensation on the original electric signal, further meets the requirement of the current terminal on the electric signal intensity, and transmits the electric signal intensity to the signal power amplification module 18; after receiving the electrical signal, the signal power amplification module 18 performs power amplification on the electrical signal, and transmits the electrical signal to the signal storage module 15, and the signal storage module 15 is connected to a terminal for use by a terminal 19.

As shown in fig. 4, the wind power generation system of the present invention includes: the device comprises a spiral blade 20, a gear speed increasing group 21, an offshore wind generating set 22, a seabed high-pressure air energy storage device 23, an electric quantity detector 24, an expander 25 and an air compressor 26, wherein the spiral blade 20 is connected with the gear speed increasing group 21, the spiral blade 20 drives the gear speed increasing group 21 to rotate under the action of wind power, the gear speed increasing group 21 is connected with the offshore wind generating set 22, and the offshore wind generating set 22 provides electric power. The offshore wind generating set 22 is connected with the electric quantity detector 24, and when the electric quantity detector 24 detects that the electric quantity of the offshore wind generating set 22 exceeds the electric quantity required by the power grid, the air compressor 26 is driven by using the residual electric energy to charge high-pressure air into the seabed high-pressure air energy storage device 23; when the electric quantity detector 24 detects that the generated energy of the offshore wind turbine generator set 22 is lower than the power grid required generated energy, the high-pressure air in the seabed high-pressure air energy storage device 23 is released, and the expander 25 applies work to drive the offshore wind turbine generator set 22 to generate power for the terminal 19 of the offshore comprehensive observation platform.

The ocean observation platform 3 of the present invention includes: a glider, an unmanned ship and a depth boat which are positioned in the folding and unfolding floating dock. The retractable floating dock is positioned at one side of the platform main body, and the glider, the unmanned ship and the depth device in the retractable floating dock are taken out of the cabin and returned to the cabin in a floating state through the upward floating and the downward submerging of the platform main body; still including carrying the detection instrument under water in platform main part bottom, the deep sea detection instrument that has the anchoring system that puts in through the large-scale loop wheel machine that the platform was equipped with, arrange unmanned aerial vehicle and aerostatics platform, radar and the weather meter at platform main part top, unmanned aerial vehicle and aerostatics platform can carry on multiple unmanned aerial vehicle and aerostatics.

As shown in fig. 6, the integrated test platform 4 of the present invention is installed inside the platform main body, and includes: the natural gas hydrate research cabin 27, the hydrological research cabin 28, the meteorological research cabin 29 and the temperature research cabin 30 provide experimental conditions for scientific research.

As shown in fig. 5, the docking platform 5 of the present invention includes: a ship quick docking platform 31 and a helicopter landing platform 32. The ship quick connection platform 31 is arranged on one side of the platform main body and used for stopping the platform main body. The helicopter landing platform 32 is provided on the upper side of the platform body for landing of the helicopter.

The fresh water platform 6 of the present invention is used for manufacturing the main body of the fresh water supply platform. The organic waste treatment and utilization platform 7 is arranged in and on the platform main body, so that the ecological balance in the platform main body is realized by circularly treating and utilizing organic matters.

According to the multi-power-driven offshore comprehensive observation platform, the pumping and drainage system 8, the anchoring system 9 and the electric propulsion system 10 are arranged on the semi-submersible main body platform 1, so that power can be provided for the operation of the platform main body, and the stable forward movement, floating and sinking of the platform main body under severe sea conditions are realized. The sustainable power supply platform 2 of the invention utilizes solar energy and wind energy to generate electricity to continuously provide electric energy for the platform, and meanwhile, a comprehensive test platform 4 is arranged on the platform main body to provide test conditions for developing deep scientific research for a long time; the helicopter is lifted and landed and the platform main body is stably parked through the docking platform 5, and the organic waste treatment and utilization platform 7 circularly treats and utilizes the organic waste on the platform main body, so that the ecological balance of the platform main body is ensured.

While the foregoing is directed to the preferred embodiment of the present invention, other and further embodiments of the invention may be devised without departing from the basic scope thereof, and the scope thereof is determined by the claims that follow.

Claims

1. The utility model provides a many power drive marine comprehensive observation platform, includes the platform main part, its characterized in that, be connected with in the platform main part:

the semi-submersible main body platform is used for providing power for the operation of the platform main body;

the ocean observation platform is used for collecting and releasing ocean observation equipment;

the comprehensive test platform is arranged inside the platform main body and is used for providing experimental conditions for scientific research;

the docking platform is used for ensuring the taking off and landing of the helicopter and the stable parking of the platform main body;

a fresh water platform for producing fresh water and supplying the fresh water to the platform main body;

the organic waste treatment and utilization platform is arranged inside and above the platform main body and is used for carrying out efficient green treatment on the organic waste to realize ecological balance of the platform;

and the sustainable power supply platform is used for continuously supplying electric energy to the platform.

2. The multi-power-driven offshore synthetic observation platform of claim 1, wherein the sustainable power supply platform comprises a solar power generation system and a wind power generation system; the solar power generation system comprises a received optical signal module, a signal conversion module, a signal processing module, a signal power amplification module and a signal storage module which are sequentially connected;

the receiving optical signal module receives an optical signal to be converted and transmits the optical signal to the signal conversion module; the signal conversion module receives the optical signal transmitted by the receiving optical signal module, converts the optical signal into an electrical signal and transmits the electrical signal to the signal processing module;

the signal processing module receives and detects the electric signal, receives the electric signal transmitted by the signal conversion module, detects whether the intensity of the electric signal meets the terminal application intensity requirement of the offshore comprehensive observation platform, feeds back the detection result to the signal excitation source, the signal excitation source works according to the detection result, outputs the electric signal with higher signal intensity if the signal intensity does not meet the current terminal electric signal intensity requirement, performs intensity compensation on the original electric signal, further meets the current terminal required electric signal intensity, and transmits the electric signal to the signal power amplification module;

and after receiving the electric signal, the signal power amplification module amplifies the power of the electric signal and transmits the electric signal to the signal storage module, and the signal storage module is connected with the terminal and used by the terminal.

3. The multi-power-driven offshore comprehensive observation platform of claim 2, wherein the wind power generation system comprises: the device comprises a helical blade, a gear speed increasing group, an offshore wind generating set, a seabed high-pressure air energy storage device, an electric quantity detector, an expander and an air compressor, wherein the helical blade is connected with the gear speed increasing group, receives the wind action to drive the gear speed increasing group to rotate, the gear speed increasing group is connected with the offshore wind generating set, and the offshore wind generating set provides electric power;

the offshore wind generating set is connected with the electric quantity detector, and when the electric quantity detector detects that the generated energy of the offshore wind generating set exceeds the generated energy required by a power grid, the air compressor is driven by using the residual electric energy to charge high-pressure air to the seabed high-pressure air energy storage device; when the electric quantity detector detects that the generated energy of the offshore wind generating set is lower than the generated energy required by the power grid, high-pressure air in the seabed high-pressure air energy storage device is released, and the expansion machine applies work to drive the offshore wind generating set to generate power for a terminal of the offshore comprehensive observation platform.

4. The multi-power-driven offshore comprehensive observation platform of claim 1, wherein the ocean observation platform comprises a glider, an unmanned ship and a depth boat which are positioned in a retractable floating dock, the retractable floating dock is positioned at one side of the platform main body, and the glider, the unmanned ship and the depth boat in the retractable floating dock are taken out of the cabin and taken back to the cabin in a floating state through floating and submerging of the platform main body;

still including carrying the detection instrument under water in platform main part bottom, the deep sea detection instrument that has the anchoring system that puts in through the large-scale loop wheel machine that the platform was equipped with, arrange unmanned aerial vehicle and aerostatics platform, radar and the weather meter at platform main part top, unmanned aerial vehicle and aerostatics platform can carry on multiple unmanned aerial vehicle and aerostatics.

5. The multi-powered offshore composite observation platform of claim 1, wherein the composite test platform comprises a gas hydrate research tank, a hydrological research tank, a meteorological research tank, and a temperature research tank.

6. The multi-power-driven offshore comprehensive observation platform of claim 1, wherein the docking platform comprises a ship quick docking platform and a helicopter take-off and landing platform, and the ship quick docking platform is arranged on one side of the platform body and used for docking the platform body; the helicopter taking-off and landing platform is arranged on the upper side of the platform main body and used for taking off and landing the helicopter.

7. The multi-power-driven offshore comprehensive observation platform of claim 1, wherein the semi-submersible body platform comprises:

the pumping drainage system is used for realizing the floating and sinking of the platform main body;

the anchoring system is used for realizing constant and uniform stress of the platform main body and keeping the platform main body to stably run;

and the electric propulsion system is used for providing power for the platform main body to realize long-distance navigation.