CN211151556U - Intelligent environment-friendly power system for offshore aquaculture equipment - Google Patents

Abstract

The utility model aims at providing an intelligent environmental protection electric power system for coastal waters is bred and is equipped, its characterized in that: the system comprises a wind-solar complementary inverse control all-in-one machine, a plurality of solar panel sets, a plurality of wind driven generators, a main distribution panel, a power generation device, a bait casting machine, a net hauler, a net washing machine, a standby device, a daily load distribution box, a video monitoring device, a marine environment monitoring device, a daily electric device, a signal lamp and a battery pack, wherein each solar panel set is provided with a solar panel junction box, and each wind driven generator is provided with a wind driven generator controller; the whole mechanism is clear in thought and simple and convenient to operate, the natural energy of the offshore culture operation marine coverage type is utilized, the throwing utilization of an energy conversion device is increased, the electric energy storage and the electric energy use are effectively improved, the starting time of a diesel generator is shortened, the pollution to the environment is reduced, a monitoring device is equipped, remote intelligent automatic control is realized, and the safety and the control performance of equipment are improved.

Description

Intelligent environment-friendly power system for offshore aquaculture equipment

Technical Field

The utility model relates to an coastal waters operation energy environmental protection field especially relates to an intelligent environmental protection electric power system that is used for coastal waters to breed to equip.

Background

Offshore culture becomes an important culture mode of aquatic products in coastal areas, and is also used as main food and economic sources of people in offshore life, with the development and continuous progress of science and technology, some large-scale processing plants and equipment are gradually built in the offshore areas, the large-scale equipment consumes a large amount of energy, a large amount of burden is added to energy supply equipment around the coastal areas for a long time, so that the energy load continuously rises, and if the energy equipment is slightly deviated, serious consequences can be generated; in addition, some offshore culture operations have no good method in monitoring, and basically, personnel are arranged to regularly monitor the offshore culture sea area on site, so that manpower is wasted virtually, and if severe weather is encountered, the personal safety of workers is influenced, how to solve energy supply in the offshore culture operations is solved, large-scale operation equipment can normally operate, the burden of energy supply around the coastal area is reduced, the monitoring of the offshore culture operations is more convenient, and the offshore culture operations are safe and comprehensive and need to be improved again.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an utilize offshore wind energy and solar energy and coastal land's wind energy and the natural advantage of solar energy to generate electricity, and then carry out the deposit with these natural electricity generation energy, be used for feeding to diesel machinery, wash the net and other use when the operation is bred to the coastal waters to high-power equipment device and open, effectively convert the natural energy, the burden and the consumption of inland power supply have been alleviateed, and be equipped with monitoring device to every wind power generator and every solar generator, realize that long-range intelligent automation faces accuse, the security that has improved equipment with control the nature, more energy-conserving intelligent environmental protection electric power system who is used for the coastal waters to breed to equip.

The technical scheme of the utility model is that: an intelligent environmental protection electric power system for offshore culture equipment, characterized in that: the wind-solar complementary inverse control all-in-one machine comprises a wind-solar complementary inverse control all-in-one machine, a plurality of solar panel sets, a plurality of wind driven generators, a main distribution panel, a power generation device, a bait casting machine, a net hauling machine, a net washing machine, a standby device, a daily load distribution box, a video monitoring device, a marine environment monitoring device, a daily electric device, a signal lamp and a battery pack, wherein the solar panel sets and the wind driven generators are all positioned at the upper stage of the wind-solar complementary inverse control all-in-one machine, the solar panel sets and the wind driven generators are connected with the wind-solar complementary inverse control all-in-one machine through circuits and cables, the main distribution panel, the daily load distribution box and the battery pack are all positioned at the lower stage of the wind-solar complementary inverse control all-in-one machine, the main distribution panel, the daily load distribution box and the battery pack are all, The net washing machine and the standby device are all located at the next level of the main distribution board, the power generation device, the bait casting machine, the net lifting machine, the net washing machine and the standby device are all connected with the main distribution board through the line and the cable, the video monitoring device, the marine environment monitoring device, the daily electric device and the signal lamp are all located at the next level of the daily load distribution box, and the video monitoring device, the marine environment monitoring device, the daily electric device and the signal lamp are all connected with the daily load distribution box through the line and the cable.

Further, optionally, a solar panel junction box is further arranged on the solar panel group, the solar panel junction box is located between the solar panel group and the wind-solar hybrid inverse control all-in-one machine, one end of the solar panel junction box is connected with the solar panel group through a circuit and a cable, and the other end of the solar panel junction box is connected with the wind-solar hybrid inverse control all-in-one machine through the circuit and the cable.

Further, a wind driven generator controller is further arranged on any wind driven generator, the wind driven generator controller is located between the wind driven generator and the wind and light complementary inverse control all-in-one machine, one end of the wind driven generator controller is connected with the wind driven generator through a circuit and a cable, and the other end of the wind driven generator controller is connected with the wind and light complementary inverse control all-in-one machine through the circuit and the cable.

Further, the power generation device is a diesel generator.

Further, the daily electric device is an illuminating lamp and an air conditioner.

Further, the battery pack is an energy storage type battery pack.

The beneficial effects of the utility model reside in that: the mechanism is an intelligent environment-friendly power system which utilizes offshore wind energy and solar energy and the natural favorable conditions of offshore wind energy and solar energy on coastal lands to generate electricity and further stores natural electricity generation energy sources for use when diesel machinery is used for feeding, net washing and other high-power equipment devices used for offshore culture operation are started, the natural energy sources are effectively converted, the burden and consumption of inland power supply are reduced, each wind energy generator and each solar energy generator are provided with monitoring devices, remote intelligent automatic temporary control is realized, the safety and the handling performance of equipment are improved, and the energy is saved; the video monitoring device and the marine environment monitoring device can realize one person nursing or no person nursing, so that the offshore culture platform can carry out monitoring operation on land, the automation of power supply is realized, and the personnel cost of farmers is greatly facilitated; the whole mechanism is clear in thought, easy and convenient to operate, the real-time performance is stronger, the offshore cultivation operation marine coverage type natural energy utilization, the throwing utilization of an energy conversion device is increased, the electric energy storage and the electric energy use are effectively improved, a power source does not need to be led from the land, a large amount of cost is saved, the electric energy pressure of inland energy supply is also saved, the environment is more protected, the starting time of a diesel generator is shortened, the oil is saved more, and the pollution to the environment is reduced.

Drawings

Fig. 1 is a front view of the present invention.

Wherein: 1. wind-solar complementary inverse control all-in-one machine 2, solar panel group 3 and solar panel junction box

4. Aerogenerator 5, aerogenerator controller 6, main distribution board

7. Generating set 8, bait casting machine 9, net hauler

10. Net washing machine 11, standby device 12 and daily load distribution box

13. Video monitoring device 14, marine environment monitoring device 15, daily electric device

16. Signal lamp 17 and battery pack

Detailed Description

The following provides a brief description of the embodiments of the present invention with reference to the accompanying drawings.

Fig. 1 shows an intelligent environmental protection power system for offshore culture equipment, which is characterized in that: the wind and light complementary inverse control all-in-one machine comprises a wind and light complementary inverse control all-in-one machine 1, a plurality of solar panel sets 2, a plurality of wind driven generators 4, a main distribution panel 6, a power generation device 7, a bait casting machine 8, a net hauling machine 9, a net washing machine 10, a standby device 11, a daily load distribution box 12, a video monitoring device 13, a marine environment monitoring device 14, a daily electric device 15, a signal lamp 16 and a battery pack 17, wherein the plurality of solar panel sets 2 and the plurality of wind driven generators 4 are all located at the upper stage of the wind and light complementary inverse control all-in-one machine 1, the plurality of solar panel sets 2 and the plurality of wind driven generators 4 are connected with the wind and light complementary inverse control all-in-one machine 1 through circuits and cables, a solar panel junction box 3 is further arranged on any solar panel set 2, the solar panel junction box 3 is located between the solar panel sets 2, the other end of the solar panel junction box 3 is connected with the wind-solar complementary inverse control all-in-one machine 1 through a line and a cable, a wind generator controller 5 is further arranged on any wind generator 4, the wind generator controller 5 is located between the wind generator 4 and the wind-solar complementary inverse control all-in-one machine 1, one end of the wind generator controller 5 is connected with the wind generator 4 through the line and the cable, the other end of the wind generator controller 5 is connected with the wind-solar complementary inverse control all-in-one machine 1 through the line and the cable, the main distribution board 6, the daily load distribution box 12 and the battery pack 17 are all located at the next stage of the wind-solar complementary inverse control all-in-one machine 1, the main distribution board 6, the daily load distribution box 12 and the battery pack 17 are connected with the wind-solar complementary inverse control all-in-one machine 1 through the line and the cable, The net washing machine 10 and the standby device 11 are all located at the next level of the main distribution board 6, the power generation device 7, the bait feeding machine 8, the net hauler 9, the net washing machine 10 and the standby device 11 are all connected with the main distribution board 6 through circuits and cables, the video monitoring device 13, the marine environment monitoring device 14, the daily electric device 15 and the signal lamp 16 are all located at the next level of the daily load distribution box 12, and the video monitoring device 13, the marine environment monitoring device 14, the daily electric device 15 and the signal lamp 16 are all connected with the daily load distribution box 12 through circuits and cables. The power generation device 7 is a diesel generator. The daily electric device 15 is an illumination lamp and an air conditioner. The battery pack 17 is an energy storage type battery pack.

The working mode is as follows: the mechanism is an intelligent environment-friendly power system which utilizes offshore wind energy and solar energy and the natural favorable conditions of offshore wind energy and solar energy on coastal lands to generate electricity and further stores natural electricity generation energy sources for use when diesel machinery is used for feeding, net washing and other high-power equipment devices used for offshore culture operation are started, the natural energy sources are effectively converted, the burden and consumption of inland power supply are reduced, each wind energy generator and each solar energy generator are provided with monitoring devices, remote intelligent automatic temporary control is realized, the safety and the handling performance of equipment are improved, and the energy is saved; the wind-solar hybrid inverse control all-in-one machine mainly comprises a wind-solar hybrid inverse control all-in-one machine 1, a plurality of solar panel sets 2, a plurality of wind driven generators 4, a main distribution board 6, a power generation device 7, a bait casting machine 8, a net hauler 9, a net washing machine 10, a standby device 11, a daily load distribution box 12, a video monitoring device 13, a marine environment monitoring device 14, a daily electric device 15, a signal lamp 16 and a battery pack 17, wherein a solar panel junction box 3 is also arranged on each solar panel set 2 and used for connecting the solar panel sets 2 and the wind-solar hybrid inverse control all-in-one machine 1, a wind driven generator controller 5 is also arranged on each wind driven generator 4 and also used for connecting the wind driven generator 4 and the wind-solar hybrid inverse control all-in-one machine 1, and the battery pack 17 adopts an energy storage type battery pack, so that the wind-solar hybrid inverse, the electric energy is stored in the battery pack 17, the battery pack 17 adopts an energy storage type battery pack, and can provide sufficient electric energy for the main distribution board 6 and the daily load distribution box 12, so that offshore culture operation can be normally carried out; in addition, a power generation device 7, a bait casting machine 8, a net hauler 9, a net washing machine 10 and a standby device 11 are distributed at the next stage of the main distribution board 6, wherein the power generation device 7 adopts a diesel generator which is only used when high-power equipment is started, and daily electricity consumption at ordinary times can be met by wind energy and photovoltaic power generation; a video monitoring device 13, a marine environment monitoring device 14, a daily electric device 15 and a signal lamp 16 are distributed at the next stage of the daily load distribution box 12, wherein, the daily electric device 15 adopts a lighting lamp and an air conditioner, because the photovoltaic energy and the wind energy are converted into electric energy to be stored in the battery pack 17, so that the electric energy of the battery pack 17 can meet the daily power consumption requirement on windless and cloudy days, if the extreme weather lasts too long and the electric energy stored in the battery pack 17 is consumed, the generator can be automatically or manually started to charge the storage battery by detecting the voltage of the battery, meanwhile, the power is supplied to the domestic electric equipment, the video monitoring device 13 and the marine environment monitoring device 14 can realize one person nursing or no person nursing, the offshore culture platform is monitored on land, the automation of power supply is realized, and the personnel cost of farmers is greatly facilitated; the whole mechanism is clear in thought, easy and convenient to operate, the real-time performance is stronger, the offshore cultivation operation marine coverage type natural energy utilization, the throwing utilization of an energy conversion device is increased, the electric energy storage and the electric energy use are effectively improved, a power source does not need to be led from the land, a large amount of cost is saved, the electric energy pressure of inland energy supply is also saved, the environment is more protected, the starting time of a diesel generator is shortened, the oil is saved more, and the pollution to the environment is reduced.

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "inner", "outer", "top", "bottom", "end", etc. indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

While one embodiment of the present invention has been described in detail, the description is only a preferred embodiment of the present invention, and should not be considered as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.

Claims (6)

1. An intelligent environmental protection electric power system for offshore culture equipment, characterized in that: the wind-solar complementary inverse control all-in-one machine comprises a wind-solar complementary inverse control all-in-one machine, a plurality of solar panel sets, a plurality of wind driven generators, a main distribution panel, a power generation device, a bait casting machine, a net hauling machine, a net washing machine, a standby device, a daily load distribution box, a video monitoring device, a marine environment monitoring device, a daily electric device, a signal lamp and a battery pack, wherein the solar panel sets and the wind driven generators are all positioned at the upper stage of the wind-solar complementary inverse control all-in-one machine, the solar panel sets and the wind driven generators are connected with the wind-solar complementary inverse control all-in-one machine through circuits and cables, the main distribution panel, the daily load distribution box and the battery pack are all positioned at the lower stage of the wind-solar complementary inverse control all-in-one machine, the main distribution panel, the daily load distribution box and the battery pack are all, The net washing machine and the standby device are all located at the next level of the main distribution board, the power generation device, the bait casting machine, the net lifting machine, the net washing machine and the standby device are all connected with the main distribution board through the line and the cable, the video monitoring device, the marine environment monitoring device, the daily electric device and the signal lamp are all located at the next level of the daily load distribution box, and the video monitoring device, the marine environment monitoring device, the daily electric device and the signal lamp are all connected with the daily load distribution box through the line and the cable.

2. The intelligent environmentally friendly power system for offshore farming installations of claim 1, wherein: optionally, a solar panel junction box is further arranged on the solar panel group, the solar panel junction box is located between the solar panel group and the wind-solar complementary inverse control all-in-one machine, one end of the solar panel junction box is connected with the solar panel group through a circuit and a cable, and the other end of the solar panel junction box is connected with the wind-solar complementary inverse control all-in-one machine through the circuit and the cable.

3. The intelligent environmentally friendly power system for offshore farming installations of claim 1, wherein: and a wind driven generator controller is also arranged on any wind driven generator, the wind driven generator controller is positioned between the wind driven generator and the wind and light complementary inverse control all-in-one machine, one end of the wind driven generator controller is connected with the wind driven generator by a circuit and a cable, and the other end of the wind driven generator controller is connected with the wind and light complementary inverse control all-in-one machine by the circuit and the cable.

4. The intelligent environmentally friendly power system for offshore farming installations of claim 1, wherein: the power generation device is a diesel generator.

5. The intelligent environmentally friendly power system for offshore farming installations of claim 1, wherein: the daily electric device is an illuminating lamp and an air conditioner.

6. The intelligent environmentally friendly power system for offshore farming installations of claim 1, wherein: the battery pack is an energy storage type battery pack.

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