CN220016805U - Ocean big data monitoring facilities - Google Patents

Abstract

The utility model belongs to the technical field of ocean exploration, and discloses ocean big data monitoring equipment, which is technically characterized in that: including the floating platform, floating platform fixed surface installs the bottom plate, bottom plate fixed surface installs the base, the base surface is provided with the monitor, floating platform top is provided with the roof through support fixed mounting, be provided with the rotating assembly who mutually supports with the monitor in the base, be provided with the protection machanism mutually supports with the monitor between bottom plate and the roof, protection machanism is including keeping off the water curtain, accomodating the subassembly and getting and putting the subassembly, accomodating the subassembly and being connected with the manger plate curtain in the roof, get and put the subassembly and including lifting part and drive portion, lifting part is located between roof and the bottom plate and mutually supports with accomodating the subassembly, the drive position is located in the bottom plate and is connected with lifting part.

Description

Ocean big data monitoring facilities

Technical Field

The utility model relates to the technical field of ocean exploration, in particular to ocean big data monitoring equipment.

Background

The ocean has four characteristics: firstly, the ocean area is quite large, and 70% of the surface of the earth is covered by the ocean. Secondly, "division" includes coastal, offshore, and open sea division, and there are territorial, exclusive economic areas, and open sea division. Thirdly, the powder is dispersed, and the ocean main body and the ocean activities are dispersed. Fourth, the "variant". Marine weather, marine bodies, marine activities are all constantly changing. In the face of such objects, information management is the most basic, important, effective and least costly means of management.

Ocean monitor sets up on the floating platform of sponge generally, and the wave striking floating platform and then easily lead to the sea water to drench on ocean monitor surface, influences monitor life.

Disclosure of Invention

The utility model aims to provide marine big data monitoring equipment so as to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a marine big data monitoring facilities, includes the floating platform, floating platform fixed surface installs the bottom plate, bottom plate fixed surface installs the base, the base surface is provided with the monitor, floating platform top has the roof through support fixed mounting, be provided with the rotating assembly who mutually supports with the monitor in the base, be provided with the protection machanism mutually supports with the monitor between bottom plate and the roof, protection machanism is including the manger plate curtain, accomodate the subassembly and get and put the subassembly, accomodate the subassembly and be located the roof and be connected with the manger plate curtain, get and put the subassembly including elevating part and drive part, the elevating part is located between roof and the bottom plate and mutually supports with accomodating the subassembly, the drive part is located in the bottom plate and is connected with elevating part.

As a further scheme of the utility model: the rotating assembly comprises a first motor fixedly installed inside a base, an output shaft of the first motor is vertically upwards provided with a rotating disc fixedly installed, a monitor is located on the surface of the rotating disc, an annular groove is formed in the surface of the base, and balls matched with the rotating disc are arranged in the annular groove.

As a further scheme of the utility model: the utility model discloses a solar energy collecting device, including the subassembly, the subassembly is accomodate including the inside multiunit of seting up of roof and is annular distribution accomodate the chamber, accomodate intracavity rotation and install the dwang, dwang both ends are provided with the wind spring respectively, dwang surface fixed mounting has the roll-up roller, manger plate curtain rolling is on the roll-up roller surface, the roof diapire upwards has seted up the spread groove with accomodate the chamber intercommunication, manger plate curtain passes the spread groove and extends to the roof outside and fixedly connected with locating plate.

As a further scheme of the utility model: the lifting part comprises a plurality of groups of threaded rods which are rotatably arranged between a top plate and a bottom plate, the threaded rods are in threaded connection with lifting rings, the positioning plates are made of magnetic materials, magnetic blocks which are mutually matched with the positioning plates are fixedly arranged in the lifting rings, through holes which are positioned under the positioning plates are formed in the surfaces of the lifting rings, and push rods which are mutually matched with the through holes are fixedly arranged on the surfaces of the bottom plates.

As still further aspects of the utility model: the driving part comprises a control cavity arranged in the bottom plate, the bottom end of the threaded rod extends into the control cavity and is fixedly provided with a synchronous fluted disc, a second motor is fixedly arranged in the control cavity, and the output shaft of the second motor is fixedly provided with a transmission fluted disc in meshed connection with the synchronous fluted disc.

Compared with the prior art, the utility model has the beneficial effects that: through setting up by elevating system, drive division is constituteed get and is put subassembly and accomodate the subassembly and mutually support, the position of the multiunit water blocking curtain of adjustment that can be convenient can block the stormy waves around the monitor, has solved current marine monitor and has set up on the floating platform of sponge generally, and the wave striking floating platform then easily leads to the sea water to drench on marine monitor surface, influences monitor life's problem.

Drawings

Fig. 1 is a schematic structural diagram of a marine big data monitoring device.

Fig. 2 is an enlarged schematic view of the structure of fig. 1 a.

Fig. 3 is an enlarged schematic view of the structure B in fig. 1.

Wherein: the floating platform 1, the bottom plate 2, the base 3, the monitor 4, the rotating assembly 5, the rotating disc 51, the first motor 52, the ring groove 53, the ball 54, the protection mechanism 6, the water blocking curtain 61, the containing assembly 62, the containing cavity 621, the rotating rod 622, the winding roller 623, the connecting groove 624, the positioning plate 625, the picking and placing assembly 63, the lifting part 631, the threaded rod 6311, the lifting ring 6312, the magnetic block 6313, the through hole 6314, the push rod 6315, the driving part 632, the control cavity 6321, the synchronous fluted disc 6322, the second motor 6323, and the transmission fluted disc 6324.

Detailed Description

It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art in a specific case.

Specific implementations of the utility model are described in detail below in connection with specific embodiments.

As shown in fig. 1 and fig. 2, the structure diagram of the marine big data monitoring device provided by the embodiment of the utility model comprises a floating platform 1, a bottom plate 2 is fixedly arranged on the surface of the floating platform 1, a base 3 is fixedly arranged on the surface of the bottom plate 2, a monitor 4 is arranged on the surface of the base 3, a top plate is fixedly arranged above the floating platform 1 through a bracket, a rotating component 5 matched with the monitor 4 is arranged in the base 3, a protection mechanism 6 matched with the monitor 4 is arranged between the bottom plate 2 and the top plate, the protection mechanism 6 comprises a water blocking curtain 61, a storage component 62 and a picking and placing component 63, the storage component 62 is positioned in the top plate and is connected with the water blocking curtain 61, the picking and placing component 63 comprises a lifting part 631 and a driving part 632, the lifting part 631 is positioned between the top plate and the bottom plate 2 and is matched with the storage component 62, when in an initial state, the storage component 62 stores the water blocking curtain 61 in the top plate, the sponge can rotate around the top plate 4 in a full-direction mode, the sponge can automatically control the water blocking curtain 631 to the surface of the top plate 4, the sponge can automatically rotate around the top plate 4, and the sponge can automatically lift the sponge 3, the sponge can conveniently and the sponge can be recovered around the top plate 4, and the top plate 4 can be conveniently and can be conveniently lifted around the surface by the lifting and can be used by the lifting and can be controlled.

As shown in fig. 1 and fig. 3, as a preferred embodiment of the present utility model, the rotating assembly 5 includes a first motor 52 fixedly installed inside the base 3, an output shaft of the first motor 52 is vertically upward and fixedly installed with a rotating disc 51, the monitor 4 is located on a surface of the rotating disc 51, a ring groove 53 is provided on a surface of the base 3, a ball 54 that is mutually matched with the rotating disc 51 is provided in the ring groove 53, and when in use, the first motor 52 is started to drive the rotating disc 51 to rotate, so that a monitoring angle of the monitor 4 can be conveniently adjusted, and the ball 54 is mutually matched with the ring groove 53, so that a friction resistance between the rotating disc 51 and the base 3 can be effectively reduced.

As shown in fig. 1 and 2, as a preferred embodiment of the present utility model, the storage assembly 62 includes a plurality of groups of storage cavities 621 formed in the top plate and distributed in a ring shape, a rotating rod 622 is rotatably mounted in the storage cavities 621, coil springs are respectively disposed at two ends of the rotating rod 622, a winding roller 623 is fixedly mounted on the surface of the rotating rod 622, the water blocking curtain 61 is wound on the surface of the winding roller 623, a connecting groove 624 communicated with the storage cavities 621 is formed in the bottom wall of the top plate, the water blocking curtain 61 extends to the outside of the top plate through the connecting groove 624 and is fixedly connected with a positioning plate 625, and when in use, the rotating rod 622 is matched with the coil springs, so that the water blocking curtain 61 can be wound into the storage cavities 621 conveniently.

As shown in fig. 1 and 2, as a preferred embodiment of the present utility model, the lifting portion 631 includes a plurality of sets of threaded rods 6311 rotatably installed between the top plate and the bottom plate 2, a plurality of sets of threaded rods 6311 are connected with a lifting ring 6312 in a threaded manner, the positioning plate 625 is made of a magnetic material, a magnetic block 6313 that is mutually matched with the positioning plate 625 is fixedly installed in the lifting ring 6312, a through hole 6314 that is located right below the positioning plate 625 is formed in the surface of the lifting ring 6312, a push rod 6315 that is mutually matched with the through hole 6314 is fixedly installed on the surface of the bottom plate 2, when the lifting ring 6312 moves to the top end, the magnetic block 6313 fixes the positioning plate 625 on the surface of the lifting ring 6312 through magnetic attraction, the lifting ring 6312 moves downward to pull out the water blocking curtain 61, the push rod 6315 presses the positioning plate 625 through the through hole 6314, and the lifting ring 625 is separated from the top plate 6312 in a convenient manner.

As shown in fig. 1 and fig. 2, as a preferred embodiment of the present utility model, the driving portion 632 includes a control cavity 6321 formed in the bottom plate 2, the bottom end of the threaded rod 6311 extends into the control cavity 6321 and is fixedly provided with a synchronous fluted disc 6322, the control cavity 6321 is fixedly provided with a second motor 6323, an output shaft of the second motor 6323 is fixedly provided with a transmission fluted disc 6324 in meshed connection with the synchronous fluted disc 6322, and the transmission fluted disc 6324 is meshed with the synchronous fluted disc 6322 for transmission, so that synchronous rotation of multiple sets of threaded rods 6311 can be conveniently controlled.

The working principle of the utility model is as follows: when using, initial state is during, storage subassembly 62 stores the manger plate curtain 61 in the roof, when the sponge stormy waves is great, drive portion 632 and elevating part 631 mutually support, can be convenient pull out the manger plate curtain 61 by the roof for the multiunit manger plate curtain 61 is around monitor 4, can effectually keep out the stormy waves, avoids the stormy waves to drench on monitor 4 surface, and after the stormy waves ended, elevating part 631 mutually support with storage subassembly 62, can retrieve manger plate curtain 61 to the roof in automatically, when monitoring the sponge, rotatory subassembly 5 can control monitor 4 and rotate at three hundred sixty degrees on the base 3 surface, carries out the omnidirectional monitoring to the sponge.

While the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes may be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims (5)

1. The utility model provides a marine big data monitoring facilities, includes the floating platform, floating platform fixed surface installs the bottom plate, bottom plate fixed surface installs the base, the base surface is provided with the monitor, floating platform top has the roof through support fixed mounting, its characterized in that, be provided with the rotating assembly who mutually supports with the monitor in the base, be provided with the protection machanism mutually supports with the monitor between bottom plate and the roof, protection machanism is including keeping off the water curtain, accomodating the subassembly and getting and putting the subassembly, accomodating the subassembly and being located the roof and be connected with the manger plate curtain, get and put the subassembly including elevating part and drive part, the elevating part is located between roof and the bottom plate and mutually supports with accomodating the subassembly, the drive part is located in the bottom plate and is connected with elevating part.

2. The marine big data monitoring device according to claim 1, wherein the rotating assembly comprises a first motor fixedly installed in a base, an output shaft of the first motor is vertically upward and fixedly installed with a rotating disc, the monitor is located on the surface of the rotating disc, an annular groove is formed in the surface of the base, and balls matched with the rotating disc are arranged in the annular groove.

3. The marine big data monitoring equipment according to claim 1, wherein the storage assembly comprises a plurality of groups of storage cavities which are formed in the inner portion of the top plate and are annularly distributed, a rotating rod is rotatably arranged in each storage cavity, coil springs are respectively arranged at two ends of the rotating rod, a winding roller is fixedly arranged on the surface of each rotating rod, a water blocking curtain is wound on the surface of each winding roller, a connecting groove communicated with the storage cavities is formed in the bottom wall of the top plate upwards, and the water blocking curtain penetrates through the connecting groove to extend to the outer side of the top plate and is fixedly connected with a positioning plate.

4. The marine big data monitoring device according to claim 3, wherein the lifting part comprises a plurality of groups of threaded rods rotatably installed between a top plate and a bottom plate, a plurality of groups of threaded rods are connected with lifting rings in a threaded mode, the positioning plates are made of magnetic materials, magnetic blocks matched with the positioning plates are fixedly installed in the lifting rings, through holes located under the positioning plates are formed in the surfaces of the lifting rings, and push rods matched with the through holes are fixedly installed on the surfaces of the bottom plate.

5. The marine big data monitoring device according to claim 4, wherein the driving part comprises a control cavity formed in the bottom plate, the bottom end of the threaded rod extends into the control cavity and is fixedly provided with a synchronous fluted disc, the control cavity is fixedly provided with a second motor, and an output shaft of the second motor is fixedly provided with a transmission fluted disc in meshed connection with the synchronous fluted disc.