CN211494400U - Anti-tipping marine biological information acquisition device - Google Patents

Abstract

The utility model provides a marine organism information acquisition device who prevents toppling relates to the marine organism field, this marine organism information acquisition device who prevents toppling, including casing, elevating system, cable duct, balancing weight and camera, elevating system is located the casing bottom, and the cable duct is connected bottom the casing, and the vertical elevating system that runs through of cable duct lower extreme, cable duct lower extreme and camera are connected, and the balancing weight is established on the cable duct pole body, and the balancing weight is close to the cable duct lower extreme, and elevating system can drive the casing and dive in the sea. This marine organism information acquisition device who prevents toppling through set up the screw around the water storage box, and the thrust that the work of contact screw produced is submerged to the aquatic, sets up the screw slope for whole device is rotatory when submerging for submergence speed. The whole device floats upwards by utilizing the thrust generated by downwards spraying water by the water pump. Thereby enabling the device to submerge, float upwards and avoid wind and waves. The anti-tipping function is achieved, and the device is prevented from being turned over by strong wind and waves.

Description

Anti-tipping marine biological information acquisition device

Technical Field

The utility model relates to a marine organism technology field specifically is a marine organism information acquisition device who prevents toppling over.

Background

The investigation and research on marine organisms are helpful for scientific researchers to know the change of marine environment all the time. Relevant equipment is needed when marine organism information is collected and investigated near the shallow sea.

For example, in a Chinese patent network, a patent number of 201920100862.X discloses a self-generating ocean information monitoring device with an oscillating floater. The device is provided with a signal acquisition mechanism, a power supply device and a balancing device. The device floats on the sea surface through the balancing device and is used for the signal acquisition mechanism to acquire information.

However, the above-mentioned devices still have some disadvantages, the balancing components of the above-mentioned devices are relatively simple, and the whole device floats on the sea surface, and when the sea weather is bad and the strong wind and the big wave are blown up, the above-mentioned devices still can be overturned by the strong wind and the big wave.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model provides a marine organism information acquisition device who prevents toppling over, it is relatively fairly simple to have solved general biological information acquisition supervisory equipment balanced part among the above-mentioned background art, and equipment floats on the sea, still probably is tumbled by big storm under bad weather problem.

(II) technical scheme

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: the utility model provides a marine organism information acquisition device of anti-tilt, includes casing, elevating system, cable duct, balancing weight and camera, elevating system is located the casing bottom, and the cable duct is connected bottom the casing, and the vertical elevating system that runs through of cable duct lower extreme, cable duct lower extreme and camera are connected, and the balancing weight is established on the cable duct pole body, and the balancing weight is close to the cable duct lower extreme, and elevating system can drive the casing and dive in the sea.

Preferably, elevating system includes water storage box, screw and water pump, and the water storage box is cylindricly, and the water storage box is arranged for the concentric circles with the cable pipe, and the helicla flute has been seted up on the water storage box surface, and angular distribution such as screw is around the water storage box, and the screw is upwards towards the slope, and the water pump symmetry is established in the inside both sides of water storage box, and water pump one end extends to the water storage box below.

Preferably, the lifting mechanism further comprises a guide pipe, the guide pipe is located above the water pump, the lower end of the guide pipe is communicated with the water storage tank, and an opening at the upper end of the guide pipe faces upwards.

Preferably, an upper cavity and a lower cavity are formed in the shell, a humidity sensor is arranged in the upper cavity, the detection end of the humidity sensor extends out of the shell, a storage battery is connected in the lower cavity, a single chip microcomputer is arranged on the periphery of the storage battery, and an image processing module is arranged above the storage battery.

Preferably, the top of the housing is provided with a plurality of antennas, and the antennas are used for transmitting and receiving signals.

(III) advantageous effects

The utility model provides a marine organism information acquisition device who prevents toppling over. The method has the following beneficial effects:

1. this marine organism information acquisition device who prevents toppling through set up the screw around the water storage box, and the thrust that the work of contact screw produced is submerged to the aquatic, sets up the screw slope for whole device is rotatory when submerging for submergence speed. The whole device floats upwards by utilizing the thrust generated by downwards spraying water by the water pump. Thereby enabling the device to submerge, float upwards and avoid wind and waves. The anti-tipping function is achieved, and the device is prevented from being turned over by strong wind and waves.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a sectional view of the structure of the present invention;

FIG. 3 is a side sectional view of the structure of the present invention;

fig. 4 is a structural working state diagram of the present invention.

In the figure: the device comprises a shell 1, an upper cavity 11, a lower cavity 12, a lifting mechanism 2, a water storage tank 21, a propeller 22, a spiral groove 23, a water pump 24, a guide pipe 25, a cable pipe 3, a balancing weight 4, a camera 5, a storage battery 6, a single chip microcomputer 7, an image processing module 8, a humidity sensor 9 and an antenna 10.

Detailed Description

The embodiment of the utility model provides a marine organism information acquisition device who prevents toppling, as shown in fig. 1-3, including casing 1, elevating system 2, cable pipe 3, balancing weight 4 and camera 5. The lifting mechanism 2 is welded at the bottom of the shell 1. The cable tube 3 is welded with the bottom of the shell 1, and the lower end of the cable tube 3 vertically penetrates through the lifting mechanism 2. The camera 5 is fixedly arranged at the lower end of the cable tube 3. The picture of the marine life is shot by the camera 5. And as can be seen from the attached drawings, the bottom of the cable tube 3 is provided with a plurality of cameras 5, so that the picture capturing rate of marine organisms is improved. And the information acquisition effect is improved. When in operation. The whole device floats on the surface of the sea as shown in figure 4.

The balancing weight 4 is welded on the body of the cable tube 3. The balancing weight 4 is close to the lower end of the cable tube 3. The housing 1 is hollow and light in weight because the housing 1 is oval. Therefore, under the action of gravity and buoyancy, the whole device is vertically in a vertical state. The lifting mechanism 2 can drive the shell 1 to submerge into the sea. When the device works, when strong wind and waves are scraped at sea, the lifting mechanism 2 drives the whole device to submerge below the sea surface. Because the relative movement between the part below the sea surface and the part above the sea surface is small, the device cannot be overturned by big waves. Therefore, the sea-surface-hidden safety helmet can be kept under the sea surface to a certain extent. When severe weather on the sea surface passes, people remotely control the lifting mechanism 2 to drive the whole device to float.

The lifting mechanism 2 includes a water storage tank 21, a propeller 22, and a water pump 24. The water storage tank 21 is welded with the bottom of the shell 1. The reservoir 21 is cylindrical. The water storage tank 21 and the cable pipe 3 are arranged in a concentric circle. The surface of the water storage tank 21 is provided with a spiral groove 23, the propellers 22 are welded around the water storage tank 21 at equal angles, and the propellers 22 face upwards in an inclined mode. When the propeller 22 rotates, the power for moving forward downwards is generated. And the propeller is inclined and drives the whole device to rotate. The propeller 22 is activated to drive the entire device to spiral down into the sea. The water pumps 24 are symmetrically welded on two sides inside the water storage tank 21. One end of the water pump 24 extends to the lower part of the water storage tank 21. When submerged, the pump 24 pumps seawater into the reservoir 21. The weight of the whole device is increased, and the effect of accelerating the diving speed is achieved.

The lifting mechanism 2 further comprises a conduit 25. With reference to the figures, the conduit 25 is located above the water pump 24, and the lower end of the conduit 25 is welded and communicated with the water storage tank 21. The upper end of the conduit 25 is open upward. When the device is floating on the water, the upper end of the conduit 25 floats out of the water. The seawater in the reservoir is allowed to circulate through conduit 25. When the seawater rises, the water pump 24 starts to spray the seawater in the water storage tank 21, and upward thrust is generated in the process of spraying the seawater. While the seawater outside the device flows into the water storage tank 21 through the conduit. The water in the water storage tank 21 can be replenished, so that the water pump 24 can continuously spray water to generate thrust. The whole device can slowly float out of the water. Achieving the floating effect.

Compared with the prior art, this marine organism information acquisition device who prevents toppling through set up screw 22 around water storage box 21, and the thrust that contact screw 22 work produced is submerged to the aquatic, sets up screw 22 slope for whole device is rotatory when submerging for submergence speed. The whole device floats upwards by utilizing the thrust generated by downwards spraying water by the water pump 24. Thereby enabling the device to submerge, float upwards and avoid wind and waves. The anti-tipping function is achieved, and the device is prevented from being turned over by strong wind and waves.

An upper cavity 11 and a lower cavity 12 are arranged in the shell 1. A humidity sensor 9 is welded in the upper cavity 11, and the detection end of the humidity sensor 9 extends out of the shell 1. When the sea weather is severe and the strong wind and the strong waves are scraped, the sea humidity is high, and the sea humidity is detected through the humidity sensor 9. A storage battery 6 is fixedly welded in the lower cavity 12, and a singlechip 7 is arranged around the storage battery 6. The singlechip 7 is welded with the bottom of the inner wall of the lower cavity 12. The type of the singlechip 7 is STM32F 103. An image processing module 8 is arranged above the storage battery 6, and the image processing module 8 is welded with the top of the inner wall of the lower cavity 12. During operation, the humidity sensor 9 transmits a detected signal to the singlechip 7, and the singlechip 7 controls the propeller 22 and the water pump 24 to work.

A plurality of antennas 10 are welded to the top of the housing 1, and the antennas 10 are used for transmitting and receiving signals. The image processing module 8 processes the picture shot by the camera 5 and transmits the picture through the antenna 10.

The single chip 7, the humidity sensor 9, the image processing module 8, the propeller 22 and the water pump 24 of the device are conventional technical means, so the specific structure, the circuit arrangement and the like are the same as the conventional technical means, and detailed description is not given.

The working principle is as follows: in use, the propeller 22 rotates to generate power for moving downwards. And the propeller is inclined and drives the whole device to rotate. The pump 24 pumps seawater into the reservoir 21. Increasing the weight of the entire device. The whole device is driven to spirally submerge into the sea to avoid wind and wave. After the wind wave passes, the water pump 24 starts to eject the seawater in the water storage tank 21, and upward thrust is generated in the process of ejecting the seawater. The device is floated up again.

In summary, according to the anti-tipping marine organism information acquisition device, the propellers 22 are arranged on the periphery of the water storage tank 21, thrust generated by the operation of contacting the propellers 22 submerges into water, and the propellers 22 are obliquely arranged, so that the whole device rotates when submerging, and submerging speed is accelerated. The whole device floats upwards by utilizing the thrust generated by downwards spraying water by the water pump 24. Thereby enabling the device to submerge, float upwards and avoid wind and waves. The anti-tipping function is achieved, and the device is prevented from being turned over by strong wind and waves.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a marine organism information acquisition device that prevents toppling which characterized in that: including casing (1), elevating system (2), cable pipe (3), balancing weight (4) and camera (5), elevating system (2) are located casing (1) bottom, and cable pipe (3) are connected bottom casing (1), and vertical elevating system (2) that run through of cable pipe (3) lower extreme, and cable pipe (3) lower extreme is connected with camera (5), and on one's body cable pipe (3) pole is established in balancing weight (4), and balancing weight (4) are close to cable pipe (3) lower extreme, and elevating system (2) can drive casing (1) and dive in the sea.

2. The anti-tipping marine organism information acquisition device according to claim 1, wherein: elevating system (2) are including water storage box (21), screw (22) and water pump (24), and water storage box (21) are cylindricly, and water storage box (21) and cable pipe (3) are arranged for concentric circles, and helicla flute (23) have been seted up on water storage box (21) surface, and angular distribution such as screw (22) is around water storage box (21), and screw (22) are upwards towards the slope, and water pump (24) symmetry is established in the inside both sides of water storage box (21), and water pump (24) one end extends to water storage box (21) below.

3. The anti-tipping marine organism information acquisition device according to claim 2, wherein: the lifting mechanism (2) further comprises a guide pipe (25), the guide pipe (25) is located above the water pump (24), the lower end of the guide pipe (25) is communicated with the water storage tank (21), and an opening at the upper end of the guide pipe (25) faces upwards.

4. The anti-tipping marine organism information acquisition device according to claim 1, wherein: casing (1) inside has been seted up upper plenum (11), lower cavity (12), is equipped with humidity transducer (9) in upper plenum (11), and outside humidity transducer (9) sense terminal extended to casing (1), lower cavity (12) in-connection has battery (6), and battery (6) are equipped with singlechip (7) all around, and battery (6) top is equipped with image processing module (8).

5. The anti-tipping marine organism information acquisition device according to claim 4, wherein: the top of the shell (1) is provided with a plurality of antennas (10), and the antennas (10) are used for transmitting and receiving signals.

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