CN116540326B

CN116540326B - Marine meteorological observation equipment

Info

Publication number: CN116540326B
Application number: CN202310358462.XA
Authority: CN
Inventors: 俞越; 邬宾杰; 丁睿彬; 胡莉梭; 张涛; 倪晓波; 张艺蔚; 张登; 金颖
Original assignee: Second Institute of Oceanography MNR
Current assignee: Second Institute of Oceanography MNR
Priority date: 2023-04-06
Filing date: 2023-04-06
Publication date: 2024-05-24
Anticipated expiration: 2043-04-06
Also published as: CN116540326A

Abstract

The application relates to the technical field of marine meteorological observation equipment, in particular to marine meteorological observation equipment, which comprises a main rod body, wherein a collecting assembly is arranged at the top of the main rod body, a support frame is connected to the bottom of the main rod body, a second bearing plate is fixedly connected to the bottom of the support frame, and a flow guide assembly for controlling the floating range and the offset of the observation equipment is arranged at the bottom of the second bearing plate. The application has the technical effects of improving the light following capacity of the photovoltaic panel, prolonging the service life of the photovoltaic panel and being capable of being quickly disassembled.

Description

Marine meteorological observation equipment

Technical Field

The invention relates to the technical field of marine meteorological observation equipment, in particular to marine meteorological observation equipment.

Background

In the existing research of meteorological observation, there are two main measurement methods: firstly, constructing a meteorological observation field on the ground, installing a required meteorological element observation instrument in the observation field, and acquiring and transmitting data by a wired or wireless method; secondly, the small-sized meteorological observation system fixes various meteorological element sensors on the mounting bracket, and can realize real-time observation of a specific field area to a certain extent. The existing observation equipment has the problems that the equipment cannot be installed quickly, various meteorological elements cannot be measured in real time, and the equipment cannot be disassembled quickly after measurement is completed.

The prior art patent provides a solution, for example patent US20070000317A1, which provides a system for environmental monitoring of a certain area, the system comprising a plurality of collecting devices installed on the monitored area, the collecting devices acquiring environmental data of the surrounding area, and the system further comprising a tripod with a bottom which is easy to detach and install, and the monitoring area can be replaced at any time. However, the patent is limited to ground use and cannot be put into seawater, and the technical effect of monitoring various meteorological elements in real time cannot be achieved, so the inventor considers that the patent has a great room for improvement.

Disclosure of Invention

In order to solve the problem that observation equipment cannot monitor more, and simultaneously to achieve the purposes of improving the light following capacity of a photovoltaic panel and prolonging the service life of the photovoltaic panel, and being capable of being quickly disassembled, the invention provides marine meteorological observation equipment. The equipment comprises a main rod body, wherein the top of the main rod body is provided with a collecting assembly, the bottom of the main rod body is connected with a supporting frame, the supporting frame comprises a center column, the bottom of the center column is fixedly connected with a stabilizing block, three supporting connecting rods are arranged around the center column, the end faces of the supporting connecting rods are fixedly connected with a supporting seat, the bottom of the supporting seat is connected with a second bearing plate, the supporting connecting rods can rotate relative to a rotating bearing, the side faces of the supporting connecting rods are sleeved with rotating pieces, the rotating pieces are connected with the center column, and the rod body at the bottom of each rotating piece can stretch into the center column when necessary. The bottom of the supporting frame is fixedly connected with a second bearing plate. The meteorological observation equipment has two use states respectively, the second bearing plate is detached to be used when observing the ground environment data, and the second bearing plate and the flow guide assembly are installed to be used when observing the marine environment data.

In the invention, the collection assembly is internally provided with the wireless transmission equipment such as GPRS or Beidou and the like in a configuration connection manner, and the wireless transmission equipment is mainly used for collecting and transmitting the data collected by the control box, and the collected data is transmitted to the control center in an wireless manner by matching with the satellite, so that the remote monitoring of the environment can be realized.

In the invention, the upper end part of a main rod body is fixedly connected with a first bearing plate, the surface of the first bearing plate is provided with a collecting assembly, a gear shaft is arranged below the first bearing plate, the side surface of the gear shaft is connected with the first rod body, and the gear shaft is sleeved on the main rod body. The gear shaft comprises a pinion, a gear wheel is arranged on the side edge of the pinion in an abutting mode, a motor for driving the gear wheel to rotate is arranged at the top of the gear wheel, a second rod body is arranged at the center of the gear wheel, and one end of the second rod body is connected with the ring sleeve.

According to the invention, when the photovoltaic panel needs to be adjusted, the large gear is driven by the motor to rotate so as to drive the gear shaft to rotate, the gear shaft rotates to drive the first rod body to rotate, and the snare connected with the hydraulic rod and the second rod body can rotate relative to the main rod body, so that the photovoltaic panel can rotate relative to the main rod body, and the photovoltaic panel can be maximally contacted with sunlight.

Further, the photovoltaic board is connected with in rotation of first body of rod one end, and light Fu Bande end fixedly connected with auxiliary frame body, auxiliary frame body side fixedly connected with hydraulic stem, hydraulic stem one end snare are connected, are equipped with the singlechip in the mobile jib body of hydraulic stem junction, are equipped with photosensitive sensor feedback data and then control singlechip work and then control the flexible inclination who comes control photovoltaic board simultaneously on the photovoltaic board.

In the invention, a control box is arranged on the side surface of a main rod body, the control box is positioned below a hydraulic rod, a rotary bearing is arranged at the lower end of the main rod body, and the bottom of the rotary bearing is fixedly connected with a supporting frame. The control box is integrated with various meteorological element sensors, and meanwhile, a battery is arranged to facilitate the energy supply of the single chip microcomputer and the hydraulic rod.

According to the invention, the auxiliary frame body comprises a first arc plate, the bottom of the first arc plate is fixedly connected with a bottom plate, one end of the bottom plate is fixedly connected with a second arc plate, the end face of the second arc plate is abutted to a rubber plate, one side of the rubber plate is fixedly connected with a spring, and one end of the spring is fixedly connected with the first arc plate.

Further, the auxiliary frame body is connected between the hydraulic rod and the bottom of the photovoltaic plate, the bottom of the photovoltaic plate is fixedly connected with the rubber plate, meanwhile, the hydraulic rod is rotationally connected with the second arc plate, direct contact between the photovoltaic plate and the hydraulic rod is avoided, interference between the photovoltaic plate and the hydraulic rod is eliminated, such as the hydraulic rod for heat transfer of the photovoltaic plate is avoided, the hydraulic rod installation area is also avoided at the back of the photovoltaic plate, and the problem that heat dissipation and airflow fluxion reduction of the back of the photovoltaic plate caused by the arrangement of the hydraulic rod installation area at the back of the photovoltaic plate is solved by arranging the auxiliary frame at the bottom of the photovoltaic plate.

Further, under the condition that the device is used in the sea, sea surface stormy waves are large, the photovoltaic panel end portion vibration can be caused by wind blowing at high frequency, the photovoltaic panel can be loosened and deformed for a long time, the photovoltaic panel end portion vibration is absorbed by the auxiliary frame body, and the vibration energy is consumed by deformation of the wind and the stormy waves through the rubber plate and the spring between the first arc plate and the second arc plate through the vibration energy transmission of the rubber plate and the spring, so that the problem of loosening and deformation is solved. In addition, sea wind can flow to the air current through the arc surface of first, second arc board, makes the air current flow along photovoltaic board surface, reduces photovoltaic board vibrations, deformation probability through the mode that changes air current and photovoltaic board contact angle, and in addition along first, second arc board flow through photovoltaic board surface help the clearance to photovoltaic board surface and back, make photovoltaic board surface cleanliness improve.

In the invention, when the equipment is placed in seawater for use, a second bearing plate is arranged below a supporting frame, a flow guide assembly for stabilizing the device is arranged at the bottom of the bearing plate, the flow guide assembly comprises a flow guide base, a connecting column is arranged at the center of the flow guide base, an auxiliary plate is fixedly connected with the end part of the connecting column, and a plurality of flow guide cylinders are arranged on the upper surface of the flow guide base around the connecting column. The side face of the auxiliary plate is connected with a plurality of connecting plates in a surrounding mode, one side of each connecting plate is fixedly connected with a guide cylinder, inclined blades are arranged between the guide cylinders, and the center of the auxiliary plate is provided with a hole.

In the invention, a rotating rod is arranged at the center of the bottom of the second bearing plate, spiral blades are arranged on the surface of the rotating rod in a surrounding manner, grooves matched with the spiral blades are arranged in the connecting columns, one end of the rotating rod is fixedly connected with an end cover, and the end cover is abutted with the flow guiding base.

Further, the flow guide assembly is added with the counterweight at the bottom of the second bearing plate, and can drive the flow guide cylinder to drive the connecting column to rotate under the condition of facing water flow impact so as to weaken the water flow impact and reduce the displacement of the upper second bearing plate on the water surface, namely, the floating range and the frequency of the second bearing plate on the water surface are controlled. In addition, when the water flow is impacted, the flow guide assembly can rotate relative to the second bearing plate by virtue of the structure of the helical blade, and the flow guide assembly can rotate to form a rotational flow below the second bearing plate, so that the rotational flow is helpful to clean the bottom of the second bearing plate and the flow guide assembly, such as throwing away sundries attached to the components. Further, the effect of whirl can be strengthened to the lamina that is equipped with between the draft tube to when the object collided the draft tube, can pass through the lamina with collision force and transmit other draft tubes, improve the shock resistance of water conservancy diversion subassembly from this.

Further, a counterweight assembly is arranged at the bottom of the flow guide assembly and is connected with the flow guide assembly through an anchor rope, a conical head is arranged at the top of the counterweight assembly, a counterweight is arranged in the conical head, and most of the weight of the counterweight assembly is located at the conical head. The conical structure of the counterweight assembly is beneficial to being pricked into the soil, when the sea wave is large, as the gravity center of the counterweight assembly is lower, the telescopic rod in the counterweight assembly stretches out due to the gravity and the fixation of the soil, and the rope body is prevented from being broken due to the fact that the anchor rope is excessively tensioned due to buoyancy.

Compared with the prior art, the invention has the following technical effects: the support frame is arranged, so that the installation and the disassembly are convenient; the auxiliary frame body is adopted to realize that the photovoltaic panel can be maximally contacted with sunlight, reduce the influence of vibration of sea wind waves on the photovoltaic panel, and simultaneously guide the sea wind flow to sweep along the surface of the photovoltaic panel so as to achieve a certain cleaning effect; adopts devices such as a diversion component and the like, increases the counterweight at the bottom of the device to reduce the heave amplitude in the sea water, can drive the diversion component to rotate by the impact force of water flow, the surface of the diversion component is cleaned by the formed rotational flow, and meanwhile, the diversion component which rotates can reduce the external water flow impact, thereby reducing the offset of the device in the sea water.

Drawings

FIG. 1 is a schematic illustration of a usage of marine weather observation equipment according to the present invention;

FIG. 2 is a flow chart of a method of operation of the marine weather observation device according to the present invention;

FIG. 3 is a schematic diagram of a marine use structure of a marine weather observation device according to the present invention;

FIG. 4 is a schematic view of an auxiliary frame structure according to the present invention;

FIG. 5 is a schematic diagram illustrating a connection structure between a second carrier plate and a deflector assembly according to the present invention;

FIG. 6 is a schematic diagram of a second carrier plate structure according to the present invention;

FIG. 7 is a schematic view of a flow guiding assembly according to the present invention;

fig. 8 is a schematic view of a counterweight assembly according to the invention.

Reference numerals illustrate: 11-an electric motor; 12-a collection assembly; 13-a first carrier plate; 14-gear shaft; 15-a large gear; 16-a main rod body; 161-first rod body; 162-a second rod body; 163-hydraulic lever; 164-a rotating bearing; 17-a control box; 18-photovoltaic panel; 19-an auxiliary frame; 20-supporting frames; 21-a support link; 22-rotating member; 23-a supporting seat; 24-stabilizing blocks; 30-a second carrier plate; 31-rotating the rod; 32-helical blades; 33-end cap; 40-a diversion assembly; 41-an auxiliary plate; 42-a guide cylinder; 43-connecting plates; 44-connecting columns; 45-leaf plates; 46, a diversion base; 50-a counterweight assembly; 51-mooring line; 52-cone head; 53-telescoping rod.

Examples

Example 1:

Referring to fig. 1 and 3, the invention provides a marine meteorological observation device, which comprises a main rod body 16, wherein a collecting assembly 12 is arranged at the top of the main rod body 16, a supporting frame 20 is connected at the bottom of the main rod body 16, the supporting frame 20 comprises a central column, three supporting connecting rods 21 are arranged around the central column, the end faces of the supporting connecting rods 21 are fixedly connected with supporting seats 23, the bottoms of the supporting seats 23 are connected with a second bearing plate 30, the supporting connecting rods 21 can rotate relative to a rotating bearing 164, a rotating piece 22 is sleeved on the side face of the supporting connecting rods 21, the rotating piece 22 is connected with the central column, and if necessary, the rod body at the bottom of the rotating piece 22 can be telescopic into the central column. The bottom of the supporting frame 20 is fixedly connected with a second bearing plate 30. The meteorological observation equipment has two use states respectively, the second bearing plate 30 is detached to be used when observing the ground environment data, and the second bearing plate 30 and the diversion assembly 40 are installed to be used when observing the marine environment data.

In the invention, the collection assembly 12 is internally provided with the wireless transmission equipment such as GPRS or Beidou and the like in a configuration connection manner, and the wireless transmission equipment is mainly used for collecting and transmitting the data collected by the control box 17, and the collected data is transmitted to the control center in an wireless manner by matching with a satellite, so that the remote monitoring of the environment can be realized.

Referring to fig. 3, in the present invention, the upper end portion of the main rod body 16 is fixedly connected with a first bearing plate 13, a collecting assembly 12 is mounted on the surface of the first bearing plate 13, a gear shaft 14 is disposed below the first bearing plate 13, a first rod body 161 is connected to the side surface of the gear shaft 14, and the gear shaft 14 is sleeved on the main rod body 16. The gear shaft 14 comprises a pinion, a large gear 15 is arranged on the side edge of the pinion in an abutting mode, a motor 11 for driving the large gear 15 to rotate is arranged on the top of the large gear 15, a second rod body 162 is arranged in the center of the large gear 15, and one end of the second rod body 162 is connected with the main rod body 16.

In the present invention, when the photovoltaic panel 18 needs to be adjusted, the motor 11 can drive the large gear 15 to rotate and then drive the gear shaft 14 to rotate, the rotation of the gear shaft 14 can drive the first rod body 161 to rotate, and the snare connected with the hydraulic rod 163 and the second rod body 162 can rotate relative to the main rod body 16, so that the photovoltaic panel 18 can rotate relative to the main rod body 16, and the photovoltaic panel 18 can contact with sunlight maximally.

Referring to fig. 3, further, one end of the first rod 161 is rotatably connected with a photovoltaic panel 18, the bottom end of the photovoltaic panel 18 is fixedly connected with an auxiliary frame 19, a hydraulic rod 163 is fixedly connected with the side surface of the auxiliary frame 19, one end of the hydraulic rod 163 is connected with the main rod 16, a single chip microcomputer is arranged in the main rod 16 at the joint of the hydraulic rod 163, and meanwhile, a photosensitive sensor is arranged on the photovoltaic panel 18 to feed back data so as to control the single chip microcomputer to work and further control the expansion and contraction of the hydraulic rod 163 to control the inclination angle of the photovoltaic panel 18.

In the invention, a control box 17 is arranged on the side surface of a main rod body 16, the control box 17 is positioned below a hydraulic rod 163, a rotary bearing 164 is arranged at the lower end of the main rod body 16, and the bottom of the rotary bearing 164 is fixedly connected with a supporting frame 20. The control box 17 integrates various meteorological element sensors, and meanwhile, a battery is arranged to facilitate the energy supply of the singlechip and the hydraulic rod 163.

Example 2:

The difference between this embodiment and embodiment 1 is that, referring to fig. 4, in the present invention, the auxiliary frame 19 includes a first arc plate 191, a bottom plate 195 is fixedly connected to the bottom of the first arc plate 191, one end of the bottom plate 195 is fixedly connected to a second arc plate 194, the end face of the second arc plate 194 abuts against a rubber plate 193, one side of the rubber plate 193 is fixedly connected to a spring 192, and one end of the spring 192 is fixedly connected to the first arc plate 191.

Further, the auxiliary frame 19 realizes connection between the hydraulic rod 163 and the bottom of the photovoltaic panel 18, avoids direct contact between the photovoltaic panel 18 and the hydraulic rod 163, eliminates interference between the photovoltaic panel 18 and the hydraulic rod 163, such as heat transfer of the photovoltaic panel 18 to the hydraulic rod 163, and avoids setting a hydraulic rod 163 installation area on the back of the photovoltaic panel 18, and solves the problems of heat dissipation and airflow reduction of the back of the photovoltaic panel caused by setting a hydraulic rod installation area on the back of the photovoltaic panel by setting the auxiliary frame 19 on the bottom of the photovoltaic panel 18.

Further, under the condition that the device is used in the sea, sea surface stormy waves are large, wind blowing can possibly cause vibration of the end part of the photovoltaic panel 18 at high frequency, the photovoltaic panel 18 can be loosened and deformed for a long time, the auxiliary frame 19 is arranged to absorb the vibration of the end part of the photovoltaic panel 18, the acting force of the stormy waves transmits vibration energy between the first arc plate and the second arc plate through the rubber plate 193 and the springs 192, and vibration energy is consumed by deformation of the stormy waves, so that the problem of loosening and deformation is solved. In addition, sea wind can flow the air current through the arc surfaces of the first arc plate and the second arc plate, so that the air current flows along the surface of the photovoltaic plate, the vibration and deformation probability of the photovoltaic plate 18 is reduced by changing the contact angle of the air current and the photovoltaic plate 18, and in addition, the air current flows along the surface of the photovoltaic plate 18 along the first arc plate and the second arc plate, so that the cleaning of the surface and the back of the photovoltaic plate 18 is facilitated, and the surface cleanliness of the photovoltaic plate 18 is improved.

Example 3:

The difference between this embodiment and embodiment 1 is that, referring to fig. 3 and 5, in the present invention, when the apparatus is used in sea water, the second bearing plate 30 should be disposed below the supporting frame 20, the bottom of the bearing plate is provided with the guide assembly 40 for the fixing device, the guide assembly 40 includes the guide base 46, the center of the guide base 46 is provided with the connecting column 44, the end of the connecting column 44 is fixedly connected with the auxiliary plate 41, and the upper surface of the guide base 46 is provided with a plurality of guide cylinders 42 around the connecting column 44. The side surface of the auxiliary plate 41 is connected with a plurality of connecting plates 43 in a surrounding mode, one side of each connecting plate 43 is fixedly connected with a guide cylinder 42, blades 45 which are obliquely arranged are arranged between the guide cylinders 42, and a hole is formed in the center of the auxiliary plate 41.

Referring to fig. 5,6 and 7, in the present invention, a rotating rod 31 is disposed at the bottom center of the second bearing plate 30, the rotating rod 31 is provided with a spiral blade 32 around the surface of the rotating rod 31, a groove matched with the spiral blade 32 is disposed in the connecting column 44, one end of the rotating rod 31 is fixedly connected with an end cover 33, and the end cover 33 is abutted to the diversion base 46.

Further, the flow guiding assembly 40 adds a counterweight at the bottom of the second bearing plate 30, and can drive the flow guiding cylinder 42 to rotate the connecting column 44 under the condition of facing the water impact, so as to weaken the water impact and reduce the displacement of the upper second bearing plate 30 on the water surface, i.e. control the floating range and frequency of the second bearing plate 30 on the water surface. In addition, when the water flow is impacted, the guide assembly 40 can rotate relative to the second bearing plate 30 by virtue of the structure of the helical blades 32, and the rotation of the guide assembly 40 can form a rotational flow below the second bearing plate 30, so that the rotational flow is helpful to clean the bottom of the second bearing plate 30 and the guide assembly 40, such as throwing away sundries attached to components. Further, the blades 45 disposed between the guide barrels 42 can enhance the swirling effect, and when an object collides with the guide barrels 42, the collision force can be transferred to other guide barrels 42 through the blades 45, thereby improving the impact resistance of the guide assembly 40.

Referring to fig. 3 and 8, further, a weight assembly 50 is disposed at the bottom of the deflector assembly 40, and is connected to the deflector assembly 40 by an anchor line 51, a tapered structure 52 is disposed at the top of the weight assembly 50, and a weight is disposed in the tapered structure 52, where most of the weight assembly 50 is located. The conical structure 52 of the counterweight assembly 50 is beneficial to being pricked into the soil, when the sea wave is large, as the gravity center of the counterweight assembly 50 is lower, the telescopic rod 53 in the counterweight assembly 50 stretches out due to the gravity and the fixing action of the soil, so that the anchor rope 51 is prevented from being excessively tensioned due to buoyancy, and the rope body is prevented from being broken.

The foregoing examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the invention. It should be noted that variations and modifications can be made by those skilled in the art without departing from the inventive concept, which fall within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims

1. The utility model provides a marine meteorological observation equipment, includes the main pole body (16), main pole body (16) top is equipped with collection subassembly (12), main pole body (16) bottom is connected with support frame (20), support frame (20) bottom fixed connection second loading board (30), guide subassembly (40) that are used for controlling observation equipment floating range and offset are installed to second loading board (30) bottom, a serial communication port, guide subassembly (40) include guide base (46), guide base (46) center is equipped with spliced pole (44), spliced pole (44) tip fixedly connected with accessory board (41), guide base (46) upper surface encircles spliced pole (44) and is equipped with a plurality of guide cylinders (42),

The upper end part of the main rod body (16) is fixedly connected with a first bearing plate (13), a collecting assembly (12) is arranged on the surface of the first bearing plate (13), a gear shaft (14) is arranged below the first bearing plate (13), a first rod body (161) is connected to the side surface of the gear shaft (14), the gear shaft (14) is sleeved on the main rod body (16),

The gear shaft (14) comprises a pinion, the side edge of the pinion is abutted with a large gear (15), the top of the large gear (15) is provided with a motor (11) for driving the large gear (15) to rotate, the center of the large gear (15) is provided with a second rod body (162), the second rod body (162) is fixedly connected with the main rod body 16,

One end of the first rod body (161) is rotationally connected with a photovoltaic plate (18), the bottom end of the photovoltaic plate (18) is fixedly connected with an auxiliary frame body (19), the side surface of the auxiliary frame body (19) is fixedly connected with a hydraulic rod (163), a snare is arranged on the main rod body (16), one end of the hydraulic rod (163) is connected with the snare, a control box (17) is arranged on the side surface of the main rod body (16), the control box (17) is positioned below the hydraulic rod (163), a rotating bearing (164) is arranged at the lower end of the main rod body (16), the bottom of the rotating bearing (164) is fixedly connected with a supporting frame (20),

The auxiliary frame body (19) comprises a first arc plate (191), the bottom of the first arc plate (191) is fixedly connected with a bottom plate (195), one end of the bottom plate (195) is fixedly connected with a second arc plate (194), the end face of the second arc plate (194) is abutted to a rubber plate (193), one side of the rubber plate (193) is fixedly connected with a spring (192), one end of the spring (192) is fixedly connected with the first arc plate (191),

The utility model discloses a water conservancy diversion base, including second loading board (30), connecting column (44), second loading board (30) bottom center department is equipped with dwang (31), dwang (31) surface encircles and is equipped with helical blade (32), be equipped with in spliced pole (44) with the recess of helical blade (32) cooperation use, dwang (31) one end fixedly connected with end cover (33), end cover (33) with water conservancy diversion base (46) butt.

2. Marine meteorological observation device according to claim 1, wherein a plurality of connection plates (43) are connected around the side of the auxiliary plate (41), one side of the connection plates (43) is fixedly connected with the guide cylinders (42), a blade plate (45) which is obliquely placed is arranged between the guide cylinders (42), and a hole is formed in the center of the auxiliary plate (41).