CN214566027U - Net cage deep sea information transmission equipment - Google Patents

Abstract

The utility model discloses a net cage deep sea information transmission device, which comprises a shell, a floating platform and a solar cell panel; the floating platform is fixedly provided with an installation frame, and the shell is placed in the installation frame; solar cell panel passes through the support mounting in the top of casing, is provided with the battery in the casing, the dc-to-ac converter, the switch module, wireless communication module and signal processor, signal processor is connected with data interface, signal processor is connected with wireless communication module, the battery is connected with solar cell panel and is connected with signal processor through the dc-to-ac converter, the switch module is connected with switch, and the switch module is connected with the battery. When the device works, the device does not need to be soaked in water, so that the failure probability of the device is reduced; meanwhile, the solar energy is used for supplying power, external power supply equipment is not needed, electric energy can be saved, resource utilization is achieved, dependence on the power supply equipment is reduced, and working reliability is improved.

Description

Net cage deep sea information transmission equipment

Technical Field

The utility model relates to an information transmission equipment especially relates to a box with a net deep sea information transmission equipment.

Background

With the decline of traditional marine fishery resources and the aging of traditional operation fisheries, the net cage aquaculture industry increasingly becomes the development key point of various coastal countries in the world, wherein a deep sea net cage refers to an aquaculture net cage which can be used in relatively deep sea areas (usually, the depth of the sea area is more than 20m), the environment in the net cage is stable, the water body is large and is closer to the natural environment, and a better growth environment can be provided for aquaculture organisms; with the continuous expansion of the deep-sea cage culture scale, in order to improve the aquaculture efficiency and the culture standard and form the culture scale, the intelligent deep-sea cage culture system is rapidly developed. Generally, the information acquisition device acquires relevant breeding information, and the information is transmitted to background equipment through information transmission equipment for data analysis, so that the work of the deep sea net cage is monitored and adjusted in real time; however, for the conventional information transmission equipment, the installation of the information transmission equipment in the water area is very limited due to the influence of the working environment, and once the power failure occurs, the installation stops, so that the deep-sea information transmission equipment for the net cage, which is convenient to install and reliable in work, is urgently needed to be provided.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects existing in the technology, the utility model provides a net cage deep sea information transmission device.

In order to solve the technical problem, the utility model discloses a technical scheme is: a net cage deep sea information transmission device comprises a shell, a floating platform and a solar cell panel; the floating platform is fixedly provided with an installation frame, the installation frame is positioned in the center of the floating platform, an installation groove is formed in the installation frame, the shell is placed in the installation groove, the shell and the installation frame are jointly provided with aligned limiting holes, and a bolt or a fixing bolt is inserted into the limiting holes;

the solar cell panel is arranged above the shell through a bracket, a storage battery, an inverter, a power switch module, a wireless communication module and a signal processor are arranged in the shell, the signal processor is connected with a data interface, the signal processor is connected with the wireless communication module, information is transmitted by the wireless communication module, the storage battery is connected with the solar cell panel and is connected with the signal processor through the inverter, the power switch module is connected with a power switch, and the power switch module is connected with the storage battery; the data interface and the power switch are both positioned on the shell.

Furthermore, the side wall of the shell is also provided with heat dissipation holes.

Further, the top of casing is fixed all around to enclose and is equipped with shelters from the canopy, and the lateral wall downward sloping that shelters from the canopy extends to the outside of installing frame.

Furthermore, the floating platform is an inflatable platform, and an inflating nozzle is arranged on the floating platform.

Furthermore, the floating platform is connected with a floating assisting ball below through a binding rope.

Further, the side of the floating platform is fixedly connected with a mesh bag.

The utility model discloses a net cage deep sea information transmission device, which adopts a floating platform to realize the installation of the information transmission device in water, avoids the information transmission device from being soaked in water, and reduces the failure probability of the device; meanwhile, the solar cell panel and the storage battery are used for providing electric energy for the work of the information transmission equipment, external power supply equipment is not needed, the electric energy can be saved, the resource utilization is realized, the dependence of the information transmission equipment on the power supply equipment is reduced, and the work reliability of the information transmission equipment is improved.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view showing the connection relationship of components inside the case of fig. 1.

In the figure: 1. a floating platform; 2. installing a frame; 3. a housing; 4. a solar panel; 5. a support; 6. a sunshade; 7. a mesh bag; 8. an air charging nozzle; 9. heat dissipation holes; 10. a limiting hole; 11. a power switch; 12. tying a rope; 13. a floating assisting ball; 14. a storage battery; 15. an inverter; 16. a power switch module; 17. a wireless communication module; 18. a signal processor; 19. and a data interface.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

A net cage deep sea information transmission device is shown in figure 1, and comprises a shell 3, a floating platform 1 and a solar cell panel 4;

the floating platform 1 is used for installing the shell 3 and bearing information transmission equipment, and the net cage deep sea information transmission equipment is installed in water by floating in the water through the floating platform 1; the floating platform 1 is made of PVC materials, an inflating nozzle 8 is arranged on the floating platform 1, and the inflating nozzle 8 is communicated with an inner cavity of the inflatable floating platform and used for inflating or deflating. The inflatable floating platform 1 is more convenient for the floating platform to be stored and carried.

In addition, in order to improve the floatability of the floating platform 1 in water, as shown in fig. 1, the floating platform 1 is connected with auxiliary floating balls 13 through binding ropes 12 at the lower part, and the auxiliary floating balls 13 are arranged in pairs and are symmetrically distributed at the lower part of the floating platform 1. Meanwhile, the side edge of the floating platform 1 is fixedly connected with the mesh bag 7, when the floating platform 1 is positioned in water, the mesh bag 7 sinks into the water, and a certain amount of water is filled into the mesh bag 7 to be used as a water-containing anchor; or the submerged anchor block is placed in the mesh bag 7, and then the opening of the mesh bag is tightened to realize the anchoring effect.

Specific examples of the mounting of the housing 3 are: as shown in fig. 1, a mounting frame 2 is fixedly arranged on a floating platform 1, and the mounting frame 2 can be a plastic frame or a metal frame, so that the floating platform is sun-proof and wear-resistant; to ensure balance, the mounting frame 2 is generally disposed at a central position of the floating platform 1, and at the same time, a mounting groove is formed in the mounting frame 2, and the mounting groove is used for placing the housing 3; and, for make casing 3 of placing in the mounting groove can not rock or remove everywhere, casing 3 sets up the spacing hole 10 of alignment jointly on installing frame 2, has inserted bolt or fixing bolt in spacing hole 10 for casing 3 and installing frame 2 relatively fixed set up.

In addition, since a plurality of components are mounted in the housing 3, heat dissipation holes 9 are formed in the side wall of the housing 3 to improve the heat dissipation performance of the housing 3. Simultaneously, for weakening the influence of rainwater to casing 3, the top of casing 3 is fixed all around encloses and is equipped with shelters from canopy 6, shelters from canopy 6's lateral wall downward sloping and extends to the outside of installing frame 2 to, reduce the rainwater to a certain extent and spill into casing 3 from louvre 9 in, or reduce the rainwater and spill into in the installing frame 2.

Compared with the traditional information transmission equipment, the deep-sea information transmission equipment for the net cage disclosed by the utility model is in the external environment for a long time, and is easier to receive the sunlight; therefore, in order to reduce the dependence of the information transmission equipment on power supply equipment, a solar cell panel 4 is arranged above the shell 3, the solar cell panel 4 is arranged above the shell 3 through a bracket 5, meanwhile, as shown in fig. 2, a storage battery 14 is arranged in the body 3, the storage battery 14 is connected with the solar cell panel 4, the solar cell panel 4 receives solar energy, and the solar energy is converted into electric energy to be stored in the storage battery 14;

as also shown in fig. 2, an inverter 15, a power switch module 16, a wireless communication module 17 and a signal processor 18 are further disposed in the housing 3, and the battery 14 is connected to the signal processor 18 through the inverter 15, so that the battery 14 supplies electric power to the signal processor 18 through the inverter 15. The signal processor 18 is used for receiving data information acquired by the acquisition device, is connected with the data interface 19 through the signal processor 18, and is connected with the signal acquisition device arranged at the deep-sea net cage through the data interface 19.

The signal processor 18 is connected with the wireless communication module 17, the signal processor 18 processes the data information, transmits the data information to the wireless communication module 17, and the wireless communication module 17 transmits the information to the signal base station and further transmits the information to the background system, so that the working condition of the deep sea net cage can be regulated and monitored at any time.

The battery 14 is also connected to a power switch module 16, and the power switch module 16 controls the operation of the battery 14, and the power switch 11 is connected to the power switch module 16. For convenient operation, the data interface 19 and the power switch 11 are both arranged on the shell 3.

Therefore, for the net cage deep sea information transmission equipment disclosed by the utility model, the floating platform is adopted to realize that the net cage deep sea information transmission equipment is installed in water, so that the information transmission equipment is prevented from being soaked in water for a long time, and the equipment failure probability is reduced; meanwhile, the solar panel receives solar energy, converts the solar energy into electric energy and then stores the electric energy into the storage battery, the storage battery provides electric energy for the signal processor, and the signal processor provides electric energy for the work of the wireless communication module. The signal processor receives the data information transmitted by the information acquisition device, processes the data information and then transmits the information through the wireless communication module, and the wireless communication technology is mature in the prior art, high in reliability, efficient and rapid in working efficiency, and real in-time and accurate in information transmission; the storage battery is used for supplying power without external power supply equipment, so that the dependence of the information transmission equipment on the power supply equipment is reduced, and the working reliability of the information transmission equipment is improved; meanwhile, the solar energy is used for supplying power, so that reasonable utilization of resources is realized.

The above embodiments are not intended to limit the present invention, and the present invention is not limited to the above examples, and the technical personnel in the technical field are in the present invention, which can also belong to the protection scope of the present invention.

Claims (6)

1. The utility model provides a box with a net deep sea information transmission equipment, includes casing (3), its characterized in that: the solar energy floating platform also comprises a floating platform (1) and a solar panel (4); the floating platform is characterized in that a mounting frame (2) is fixedly arranged on the floating platform (1), the mounting frame (2) is located in the center of the floating platform (1), a mounting groove is formed in the mounting frame (2), the shell (3) is placed in the mounting groove, aligned limiting holes (10) are formed in the shell (3) and the mounting frame (2) together, and a bolt or a fixing bolt is inserted into the limiting holes (10);

the solar cell panel (4) is installed above the shell (3) through the support (5), a storage battery (14), an inverter (15), a power switch module (16), a wireless communication module (17) and a signal processor (18) are arranged in the shell (3), the signal processor (18) is connected with a data interface (19), the signal processor (18) is connected with the wireless communication module (17), the wireless communication module (17) transmits information, the storage battery (14) is connected with the solar cell panel (4) and is connected with the signal processor (18) through the inverter (15), the power switch module (16) is connected with the power switch (11), and the power switch module (16) is connected with the storage battery (14); the data interface (19) and the power switch (11) are both positioned on the shell (3).

2. The net cage deep sea information transmission device according to claim 1, characterized in that: the side wall of the shell (3) is also provided with heat dissipation holes (9).

3. The net cage deep sea information transmission device according to claim 2, characterized in that: the top of casing (3) is fixed all around to enclose and is equipped with shelters from canopy (6), and the lateral wall downward sloping that shelters from canopy (6) extends to the outside of installing frame (2).

4. The net cage deep sea information transmission device according to claim 1, characterized in that: the floating platform (1) is an inflatable platform, and an inflating nozzle (8) is arranged on the floating platform (1).

5. The net cage deep sea information transmission device according to claim 1, characterized in that: the floating platform (1) is connected with a floating assisting ball (13) through a binding rope (12) at the lower part.

6. The net cage deep sea information transmission device according to claim 4, characterized in that: the side edge of the floating platform (1) is fixedly connected with a mesh bag (7).

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