CN214648858U - Ocean comprehensive observation buoy capable of accurately measuring wave parameters - Google Patents

Abstract

The utility model provides a can accurate ocean comprehensive observation buoy of measurement wave parameter, it includes bottom platform, upper portion platform, pillar, connecting piece and observation device, is connected with bottom platform and upper portion platform through the pillar, and a plurality of observation device evenly distributed are around the bottom platform, and the connecting piece is connected with bottom platform and observation device's body, and the body slides from top to bottom along the vertical scroll of connecting piece, measures wave height and wave cycle and observes wave direction through observation device, and the treater is handled observation data. The utility model overcomes former buoy observation element is too single, and is with high costs, the big problem of the management degree of difficulty has simple structure, combines wave height and wave cycle and ripples to the data drawing wave spectrum of surveing, selects the observation result of meeting the ripples direction as final observation result, and compact structure, stability are good, and the observation element is many, has reduced the cost of ocean multi-environment element observation and the characteristics of the degree of difficulty of fortune dimension management.

Description

Ocean comprehensive observation buoy capable of accurately measuring wave parameters

Technical Field

The utility model belongs to the technical field of the ocean engineering, a can accurate measurement wave parameter's ocean comprehensive observation buoy is related to.

Background

Ocean observation can provide precious data information support for ocean scientific research and resource development, and is an important basis for ocean science and technology and economic development. The ocean buoy is used as a floating type offshore observation platform, can carry out long-term, continuous and real-time ocean observation in various complex ocean environments, and is one of the most important means in ocean observation technology. The comprehensive ocean hydrological meteorological monitoring buoy provided by Chinese patent CN110498017A (Chenyuan and the like), Chinese patent CN208931584U (Luxuelian) and the like can be used for acquiring various parameters such as ocean meteorology, hydrology, water quality, ecology and the like by carrying different types of sensors, and can meet different ocean observation requirements, thereby effectively reducing the cost and difficulty of ocean observation.

Among the numerous marine environmental parameters, wave parameters are essential basic data in marine engineering design and construction. Due to the fact that a large number of observation devices are carried by the ocean comprehensive observation buoy, the buoy needs to be large enough in size to arrange the sensors and the corresponding energy supply system. Therefore, the existing ocean comprehensive observation buoy basically adopts a large floating body design, has poor wave following performance, seriously influences the precision and accuracy of ocean wave observation, and can not observe small waves and complete wave spectrums, thereby limiting the application range and the applicability of the ocean comprehensive observation buoy. In order to overcome the defects of large-volume buoys in ocean wave observation, Chinese patents CN110884614A (Maokeng, etc.), CN110104125A (Xuda Wei), CN209426985U (Zhoujingming) and CN209441557U (Zhoujingming) propose several small wave buoys which are specially used for ocean wave observation. However, although the small-sized wave buoy can effectively solve the problem of the accuracy of ocean wave observation, the observation elements are too single, and the implementation cost and the difficulty of operation and maintenance management of ocean multi-environment element observation are increased.

Disclosure of Invention

The utility model aims to solve the technical problem that a buoy is synthesized to ocean that can accurate measurement wave parameter is surveyed is provided, moreover, the steam generator is simple in structure, adopt pillar and bottom platform and upper portion platform to be connected, a plurality of observation device evenly distributed is around the bottom platform, the connecting piece is connected with bottom platform and observation device's body, the body slides from top to bottom along the vertical scroll of connecting piece, observation device measures wave height and wave cycle and observes wave direction, the treater is handled observation data, combine wave height and wave cycle and wave direction to survey the data and draw the wave spectrum, select the observation result who meets wave direction as final observation result, compact structure, good stability, it is many to survey the key element, the cost of ocean multi-environment key element observation and the degree of difficulty of fortune dimension management have been reduced.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is: an ocean comprehensive observation buoy capable of accurately measuring wave parameters comprises a bottom platform, an upper platform, a support column, a connecting piece and an observation device; the two ends of the strut are respectively connected with the bottom platform and the upper platform, a plurality of floating bodies of the observation device are uniformly distributed outside the bottom platform in an annular manner, and the connecting piece is connected with the bottom platform and the floating bodies; the floating body slides up and down along the vertical shaft of the connecting piece, and the observation device measures the wave height and the wave period and observes the wave direction.

The bottom platform is of a cylindrical, conical or annular hollow structure, an instrument cabin is arranged in the center of the cavity, and a plurality of independent buoyancy cabins are arranged outside the instrument cabin.

The upper platform is a circular flat plate, and a power supply system, a satellite signal device, a radio signal transmitting device or a receiving and transmitting device are arranged on the flat plate.

The pillar is a hollow cylinder, and a wave direction measuring instrument is arranged in the cylinder.

The connecting piece comprises a support connected with two ends of the vertical shaft and a cushion pad positioned at the contact part of the vertical shaft and the support, and the support is connected with the bottom platform.

The floating body is internally provided with a wireless communication module, a storage module, a power supply module and a wave observation module, and the wireless communication module, the storage module, the power supply module, the wave observation module and the wave direction measuring instrument are connected with the processor.

The floating body is a hollow closed spherical or annular structure, mutually symmetrical sliding rings are arranged outside the floating body and connected with the floating body, and the vertical shaft penetrates through the floating body and the sliding rings to be in sliding fit with the floating body and the sliding rings.

The wireless communication module, the satellite signal device, the radio signal transmitting device and the receiving and transmitting device are connected with the storage module.

The wave direction measuring instrument acquires real-time motion state information of the buoy and is used for measuring wave height and wave period.

An ocean comprehensive observation buoy capable of accurately measuring wave parameters comprises a bottom platform, an upper platform, a support column, a connecting piece and an observation device; two ends of the pillar are respectively connected with the bottom platform and the upper platform, a plurality of floating bodies of the observation device are uniformly distributed outside the bottom platform in an annular shape, and the connecting piece is connected with the bottom platform and the floating bodies; the floating body slides up and down along the vertical shaft of the connecting piece, and the observation device measures the wave height and the wave period and observes the wave direction. Simple structure, be connected with bottom platform and upper portion platform through the pillar, a plurality of observation device evenly distributed is around the bottom platform, the connecting piece is connected with bottom platform and observation device's body, the body slides from top to bottom along the vertical scroll of connecting piece, measure wave height and wave cycle and observe wave direction through observation device, the treater is handled observation data, combine wave height and wave cycle and wave direction observed data to draw the wave spectrum, select the observation result that meets the wave direction as final observation result, compact structure, good stability, it is many to observe the key element, the cost of ocean multi-environment key element observation and the degree of difficulty of fortune dimension management have been reduced.

In a preferred scheme, the bottom platform is of a cylindrical, conical or annular hollow structure, an instrument cabin is arranged in the center of the cavity, and a plurality of independent buoyancy cabins are arranged outside the instrument cabin. Simple structure, during the use, the buoyancy that hollow structure's bottom platform provided supports whole buoy and floats in the surface of water, is located instrument cabin installation current meter, temperature and salt sensor, water quality sensor and carries out the observation of ocean hydrology quality of water.

In a preferred scheme, the upper platform is a circular flat plate, and a power supply system, a satellite signal device, a radio signal transmitting device or a receiving and transmitting device are arranged on the flat plate. The structure is simple, when the device is used, the power supply system provides electric energy to directly supply power to the device or transmit the electric energy to the power supply module, and the power supply module distributes the electric energy; the satellite signal device is used for positioning and positioning, the radio signal transmitting device is used for transmitting positioning information to the background monitoring system, and the receiving and transmitting device is used for receiving instructions transmitted by the background monitoring system and making corresponding reactions to the instructions.

In a preferred scheme, the pillar is a hollow cylinder, and the wave direction measuring instrument is arranged in the cylinder. The structure is simple, when in use, the electric cable or the optical cable is laid in the support column of the hollow structure and is used for connecting the power supply system and the equipment and transmitting electric energy to the equipment, and the optical cable is used for controlling the connection of devices; and the wave direction measuring instrument positioned in the cylinder is used for measuring the wave direction and transmitting data to the wireless communication module in real time.

In a preferred scheme, the connecting piece comprises a support connected with two ends of the vertical shaft and a cushion pad positioned at the contact part of the vertical shaft and the support, and the support is connected with the bottom platform. Simple structure, during the use, the connecting piece is used for connecting the body, and the wave height and the wave cycle of equidirectional wave are measured to a plurality of wave observation modules that are located the body inside around the bottom platform, acquire real-time motion state information.

In a preferred scheme, a wireless communication module, a storage module, a power supply module and a wave observation module are arranged in the floating body, and the wireless communication module, the storage module, the power supply module, the wave observation module and the wave direction measuring instrument are connected with the processor. The wave direction measuring device is simple in structure, when the wave direction measuring device is used, the wireless communication module is used for receiving observation data of the wave observation module and the wave direction measuring instrument, the storage module is used for receiving and storing data transmitted by the wireless communication module, and the power supply module is used for receiving electric energy and distributing the electric energy.

In the preferred scheme, the floating body is a hollow closed spherical or annular structure, mutually symmetrical sliding rings are arranged outside the floating body and connected with the floating body, and the vertical shaft penetrates through the floating body and the sliding rings to be in sliding fit with the floating body and the sliding rings. The structure is simple, when in use, the floating body floats on the water surface in a limiting way through the vertical shaft and slides and floats along the axial direction of the vertical shaft, and when the sliding ring is abutted against the buffer cushion, the buffer cushion is used for reducing the impact force.

In a preferred embodiment, the wireless communication module, the satellite signal device, the radio signal transmitting device and the receiving and transmitting device are connected to the memory module. Simple structure, during the use, wireless communication module transmits the data of receiving for storage module storage, is handling through the treater, and storage module is transmitted to satellite signal device, radio signal transmitting device and receiving and sending device's data transmission, and the retransmission is given receiving and sending device after being read by the treater, is transmitted to radio signal transmitting device and satellite signal device cooperation by receiving and sending device and is sent background control system, realizes remote control.

In a preferred scheme, the wave direction measuring instrument acquires real-time motion state information of the buoy and is used for measuring wave height and wave period. When the device is used, under the action of waves, the floating body is in a dynamic state, the wave direction measuring instrument acquires motion state information of the floating body in real time, the wave height and the wave period are measured, and data are transmitted to the wireless communication module.

The utility model provides a can accurate ocean comprehensive observation buoy of measurement wave parameter, it includes bottom platform, upper portion platform, pillar, connecting piece and observation device, is connected with bottom platform and upper portion platform through the pillar, and a plurality of observation device evenly distributed are around the bottom platform, and the connecting piece is connected with bottom platform and observation device's body, and the body slides from top to bottom along the vertical scroll of connecting piece, measures wave height and wave cycle and observes wave direction through observation device, and the treater is handled observation data. The utility model overcomes former buoy observation element is too single, and is with high costs, the big problem of the management degree of difficulty has simple structure, combines wave height and wave cycle and ripples to the data drawing wave spectrum of surveing, selects the observation result of meeting the ripples direction as final observation result, and compact structure, stability are good, and the observation element is many, has reduced the cost of ocean multi-environment element observation and the characteristics of the degree of difficulty of fortune dimension management.

Drawings

The invention will be further explained with reference to the following figures and examples:

fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic top view of fig. 1.

Fig. 3 is a schematic sectional view at a-a of fig. 1.

Fig. 4 is an enlarged schematic view of fig. 1 at B.

Fig. 5 is a schematic structural view of the floating body of the present invention.

In the figure: the device comprises a bottom platform 1, an instrument cabin 11, a buoyancy cabin 12, an upper platform 2, a support 3, a connecting piece 4, a vertical shaft 41, a support 42, a cushion pad 43, an observation device 5, a floating body 51, a wireless communication module 52, a storage module 53, a power supply module 54, a wave observation module 55, a wave direction measuring instrument 56 and a sliding ring 57.

Detailed Description

As shown in fig. 1 to 5, an ocean comprehensive observation buoy capable of accurately measuring wave parameters includes a bottom platform 1, an upper platform 2, a strut 3, a connecting member 4 and an observation device 5; the two ends of the strut 3 are respectively connected with the bottom platform 1 and the upper platform 2, a plurality of floating bodies 51 of the observation device 5 are uniformly distributed outside the bottom platform 1 in an annular shape, and the connecting piece 4 is connected with the bottom platform 1 and the floating bodies 51; the floating body 51 slides up and down along the vertical shaft 41 of the connecting piece 4, and the observation device 5 measures the wave height and wave period and observes the wave direction. Simple structure, be connected with bottom platform 1 and upper portion platform 2 through pillar 3, a plurality of observation device 5 evenly distributed is around bottom platform 1, connecting piece 4 is connected with bottom platform 1 and observation device 5's body 51, body 51 slides from top to bottom along connecting piece 4's vertical scroll 41, measure wave height and wave cycle and observe wave direction through observation device 5, the treater is handled observation data, combine wave height and wave cycle and wave direction observed data to draw the wave spectrum, select the observation result that meets the wave direction as final observation result, compact structure, good stability, it is many to observe the key element, the cost of ocean multi-environment key element observation and the degree of difficulty of fortune dimension management have been reduced.

In the preferred scheme, the bottom platform 1 is a cylindrical, conical or circular hollow structure, an instrument chamber 11 is arranged in the center of the cavity, and a plurality of independent buoyancy chambers 12 are arranged outside the instrument chamber 11. Simple structure, during the use, the buoyancy that hollow structure's bottom platform 1 provided supports whole buoy and floats in the surface of water, is located instrument cabin 11 interior installation current meter, temperature and salt sensor, water quality sensor and carries out the observation of ocean hydrology quality of water.

Preferably, the bottom platform 1 has a hollow structure consisting of a cylinder and a cone, and has good stability.

Preferably, the buoyancy chamber 12 is comprised of a plurality of individual chambers, one of which is damaged and the remaining of which is still buoyant.

In a preferred scheme, the upper platform 2 is a circular flat plate, and a power supply system, a satellite signal device, a radio signal transmitting device or a receiving and transmitting device are arranged on the flat plate. The structure is simple, when the device is used, the power supply system provides electric energy to directly supply power to the device or transmit the electric energy to the power supply module 54, and the power supply module 54 distributes the electric energy; the satellite signal device is used for positioning and positioning, the radio signal transmitting device is used for transmitting positioning information to the background monitoring system, and the receiving and transmitting device is used for receiving instructions transmitted by the background monitoring system and making corresponding reactions to the instructions.

Preferably, the power supply system is a solar panel or a wind turbine generator set.

Preferably, a meteorological station, an anemorumbometer and a wind lidar are further mounted on the upper platform 2 for observing meteorological elements.

In a preferred embodiment, the pillar 3 is a hollow cylinder, and a wave direction measuring instrument 56 is disposed in the cylinder. The structure is simple, when in use, the electric cable or the optical cable is laid in the support 3 of the hollow structure and is used for connecting the power supply system and the equipment and transmitting electric energy to the equipment, and the optical cable is used for connecting a control device; a wave direction meter 56 located within the cylinder is used to measure the wave direction and transmit the data to the wireless communication module 52 in real time.

Preferably, the wave direction measuring instrument 56 is a three-axis accelerometer, a GPS positioning device or a gyroscope, and obtains real-time motion state information of the floating body to measure waves.

In a preferred embodiment, the connecting member 4 comprises a bracket 42 connected to both ends of the vertical shaft 41, and a cushion 43 located at the contact position between the vertical shaft 41 and the bracket 42, wherein the bracket 42 is connected to the bottom platform 1. Simple structure, during the use, connecting piece 4 is used for connecting body 51, and the wave height and the wave cycle of different directions are measured to a plurality of wave observation modules 55 that are located the body 51 inside around bottom platform 1, acquire real-time motion state information.

Preferably, the processor calculates the time difference of the motions of the floating bodies in a plurality of directions to determine the sequence and the transmission speed of the motions of the waves transmitted to the sensors in different directions, wave direction observation is carried out by using a digital integral algorithm, or wave direction observation is carried out by using a gyroscope or a three-axis acceleration sensor arranged on the strut 3, in order to avoid the influence of the motions of the floating bodies on the wave observation, the wave observation results in four orthogonal directions are processed according to the wave direction observation results, and the wave observation floating body measurement results in the wave-facing direction are always selected as the final observation results.

In a preferred scheme, a wireless communication module 52, a storage module 53, a power supply module 54 and a wave observation module 55 are arranged in the floating body 51, and the wireless communication module 52, the storage module 53, the power supply module 54, the wave observation module 55 and the wave direction measuring instrument 56 are connected with a processor. The wave direction measuring device is simple in structure, when the wave direction measuring device is used, the wireless communication module 52 is used for receiving observation data of the wave observation module 55 and the wave direction measuring instrument 56, the storage module 53 is used for receiving and storing data transmitted by the wireless communication module 52, and the power supply module 54 is used for receiving electric energy and distributing the electric energy.

Preferably, the wave observation module 55 is a wave sensor or an acceleration sensor.

In a preferred scheme, the floating body 51 is a hollow closed spherical or annular structure, mutually symmetrical sliding rings 57 are arranged outside the floating body 51 and connected with the floating body, and the vertical shaft 41 penetrates through the floating body 51 and the sliding rings 57 to be in sliding fit with the floating body and the sliding rings 57. The structure is simple, when in use, the floating body 51 floats on the water surface in a limited way by the vertical shaft 41 and slides and floats along the axial direction of the vertical shaft 41, and when the sliding ring 57 is abutted against the buffer cushion 43, the impact force is reduced by the buffer cushion 43.

In a preferred embodiment, the wireless communication module 52, the satellite signal device, the radio signal transmitting device and the receiving and transmitting device are connected to the storage module 53. Simple structure, during the use, wireless communication module 52 transmits the data received for storage module 53 storage, and after the treater processing, storage module 53 is transmitted to satellite signal device, radio signal transmitting device and receiving and sending device's data transmission, and the retransmission is given receiving and sending device after being read by the treater, and the radio signal transmitting device is transmitted to with the cooperation of satellite signal device by receiving and sending device and is sent background control system, realizes remote control.

In a preferred embodiment, the wave direction measuring instrument 56 obtains real-time motion state information of the buoy for measuring wave height and wave period. When the device is used, under the action of waves, the floating body 51 is in a dynamic state, the wave direction measuring instrument 56 acquires the motion state information of the floating body 51 in real time, measures the wave height and the wave period, and transmits data to the wireless communication module 52.

The ocean comprehensive observation buoy capable of accurately measuring wave parameters is characterized in that when the ocean comprehensive observation buoy is installed and used, the support 3 is connected with the bottom platform 1 and the upper platform 2, the observation devices 5 are uniformly distributed around the bottom platform 1, the connecting piece 4 is connected with the bottom platform 1 and the floating body 51 of the observation devices 5, the floating body 51 slides up and down along the vertical shaft 41 of the connecting piece 4, the observation devices 5 measure wave height and wave period and observe wave direction, the processor processes observation data, combines the wave height, wave period and wave direction observation data to draw a wave spectrum, selects an observation result in the wave direction as a final observation result, and is compact in structure, good in stability, multiple in observation elements, and capable of reducing the cost of ocean multi-environment element observation and the difficulty of operation and maintenance management.

During the use, the whole buoy of buoyancy support that hollow structure's bottom platform 1 provided floats in the surface of water, is located instrument cabin 11 interior installation current meter, temperature and salt sensor, water quality sensor and carries out the observation of ocean hydrology quality of water.

When the device is used, the power supply system provides electric energy to directly supply power to the device or transmit the electric energy to the power supply module 54, and the power supply module 54 distributes the electric energy; the satellite signal device is used for positioning and positioning, the radio signal transmitting device is used for transmitting positioning information to the background monitoring system, and the receiving and transmitting device is used for receiving instructions transmitted by the background monitoring system and making corresponding reactions to the instructions.

When the device is used, a cable or an optical cable is laid in the strut 3 of the hollow structure and used for connecting a power supply system and equipment and transmitting electric energy to the equipment, and the optical cable is used for connecting a control device; a wave direction meter 56 located within the cylinder is used to measure the wave direction and transmit the data to the wireless communication module 52 in real time.

When the device is used, the connecting piece 4 is used for connecting the floating body 51, and a plurality of wave observation modules 55 positioned in the floating body 51 around the bottom platform 1 measure wave heights and wave periods in different directions to acquire real-time motion state information.

In use, the wireless communication module 52 is configured to receive observation data of the wave observation module 55 and the wave direction measuring instrument 56, the storage module 53 is configured to receive and store data transmitted by the wireless communication module 52, and the power supply module 54 is configured to receive and distribute power.

When in use, the floating body 51 floats on the water surface in a limited way by the vertical shaft 41 and slides and floats along the axial direction of the vertical shaft 41, and when the sliding ring 57 is abutted against the buffer cushion 43, the impact force is relieved by the buffer cushion 43.

When the device is used, the wireless communication module 52 transmits the received data to the storage module 53 for storage, the data of the satellite signal device, the radio signal transmitting device and the receiving and transmitting device are transmitted to the storage module 53 after being processed by the processor, the data are transmitted to the receiving and transmitting device after being read by the processor, and the data are transmitted to the radio signal transmitting device by the receiving and transmitting device to be matched with the satellite signal device and then transmitted to the background control system, so that remote control is realized.

When the device is used, under the action of waves, the floating body 51 is in a dynamic state, the wave direction measuring instrument 56 acquires the motion state information of the floating body 51 in real time, measures the wave height and the wave period, and transmits data to the wireless communication module 52.

The above embodiments are merely preferred technical solutions of the present invention, and should not be considered as limitations of the present invention, and the features in the embodiments and the examples in the present application may be arbitrarily combined with each other without conflict. The protection scope of the present invention shall be defined by the claims and the technical solutions described in the claims, including the technical features of the equivalent alternatives as the protection scope. Namely, equivalent alterations and modifications within the scope of the invention are also within the scope of the invention.

Claims (9)

1. The utility model provides a can accurate measurement wave parameter's ocean comprehensive observation buoy which characterized by: the device comprises a bottom platform (1), an upper platform (2), a support column (3) and an observation device (5); the two ends of the support column (3) are respectively connected with the bottom platform (1) and the upper platform (2), a plurality of floating bodies (51) of the observation device (5) are uniformly distributed outside the bottom platform (1) in an annular mode, and the bottom platform (1) is connected with the floating bodies (51).

2. The ocean complex observation buoy of claim 1, which is capable of accurately measuring wave parameters, characterized in that: the bottom platform (1) is of a cylindrical, conical or annular hollow structure, an instrument cabin (11) is arranged in the center of the cavity, and a plurality of independent buoyancy cabins (12) are arranged outside the instrument cabin (11).

3. The ocean complex observation buoy of claim 1, which is capable of accurately measuring wave parameters, characterized in that: the upper platform (2) is a circular flat plate, and a power supply system, a satellite signal device, a radio signal transmitting device or a receiving and transmitting device are arranged on the flat plate.

4. The ocean complex observation buoy of claim 1, which is capable of accurately measuring wave parameters, characterized in that: the supporting column (3) is a hollow cylinder, and a wave direction measuring instrument (56) is arranged in the cylinder.

5. The ocean complex observation buoy of claim 1, which is capable of accurately measuring wave parameters, characterized in that: the connecting piece (4) comprises a bracket (42) connected with two ends of the vertical shaft (41) and a buffer pad (43) positioned at the contact part of the vertical shaft (41) and the bracket (42), and the bracket (42) is connected with the bottom platform (1).

6. The ocean complex observation buoy of claim 1, which is capable of accurately measuring wave parameters, characterized in that: a wireless communication module (52), a storage module (53), a power supply module (54) and a wave observation module (55) are arranged in the floating body (51), and the wireless communication module (52), the storage module (53), the power supply module (54), the wave observation module (55) and the wave direction measuring instrument (56) are connected with the processor.

7. The ocean complex observation buoy of claim 1, which is capable of accurately measuring wave parameters, characterized in that: the floating body (51) is a hollow closed spherical or annular structure, mutually symmetrical sliding rings (57) are arranged outside the floating body (51) and connected with the floating body, and the vertical shaft (41) penetrates through the floating body (51) and the sliding rings (57) to be in sliding fit with the floating body and the sliding rings (57).

8. The ocean complex observation buoy of claim 6, which is capable of accurately measuring wave parameters, characterized in that: the wireless communication module (52), the satellite signal device, the radio signal transmitting device and the receiving and transmitting device are connected with the storage module (53).

9. The ocean complex observation buoy of claim 4, which is capable of accurately measuring wave parameters, and is characterized in that: the wave direction measuring instrument (56) acquires real-time motion state information of the buoy and is used for measuring wave height and wave period.

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