CN215728904U - Comprehensive sea condition monitoring equipment - Google Patents

Abstract

The application provides a comprehensive sea condition monitoring device, which comprises a sensor assembly, a bearing device and a processing terminal; the sensor assembly is fixedly connected to the bearing device, the sensor assembly is in communication connection with the bearing device, and the bearing device is in communication connection with the processing terminal; the bearing device comprises a beach fixing bearing device and a marine floating bearing device, the beach fixing bearing device and the marine floating bearing device are in communication connection with the processing terminal, and the sensor assembly comprises a wind speed and direction sensor, a temperature sensor, a pressure sensor, a conductivity sensor, a wave sensor, a water level sensor, a sea current sensor and/or a tension sensor. The method and the device realize real-time acquisition, comprehensive analysis and online early warning of various sea condition data, and improve the scientificity and accuracy of sea condition monitoring of coastal mudflat operation.

Description

Comprehensive sea condition monitoring equipment

Technical Field

The application relates to the technical field of marine environment monitoring, in particular to comprehensive sea condition monitoring equipment.

Background

In the operations of cultivation, exploration, transportation, construction and the like carried out on coastal beaches, besides the weather has great influence on the operation, sea wind, sea waves, tide level, sea current, sea water temperature, salinity and other sea conditions have great influence on the operation progress, the operation quality and the safety of operators. The method has the advantages of timely monitoring the sea condition, carrying out acquisition, analysis and early warning of the sea condition data, and having very important significance for developing coastal beach sea condition assessment, reasonably arranging operation plans and ensuring operation safety. Common sea state measuring equipment comprises a tide level meter, a water level meter, a temperature depth meter and the like, and the equipment required for measuring different sea state data is different. Usually, according to the actual needs of the operation, corresponding measuring equipment is selected temporarily to carry out the measurement of single data, the sea condition cannot be monitored in time, the timeliness is poor and the efficiency is low.

The traditional sea condition acquisition mode is through weather forecast or human sense estimation, and has no real-time performance and accuracy. In the development process of coastal beach operation to scale, specialization and informatization, the requirements of operators on the comprehensiveness, instantaneity and reliability of sea condition data are stronger and stronger, and the application requirements on historical analysis, data comparison, prediction and early warning and the like of the sea condition data are stronger. However, most of the current sea state measuring devices are single-item data measuring devices, and lack the functions of multi-source data acquisition, comprehensive data analysis, data comprehensive application and the like, so that the rapid and accurate acquisition, analysis and early warning of various types of sea state data are difficult to carry out, and further scientific, safe and high-quality implementation of coastal beach operation is influenced.

SUMMERY OF THE UTILITY MODEL

The application aims to provide the comprehensive sea condition monitoring equipment, so that real-time acquisition, comprehensive analysis and online early warning of various sea condition data are realized, and the scientificity and the accuracy of sea condition monitoring of coastal mudflat operation are improved.

In order to achieve the above object, the present application provides a comprehensive sea state monitoring device, which comprises a sensor assembly, a bearing device and a processing terminal; the sensor assembly is fixedly connected to the bearing device, the sensor assembly is in communication connection with the bearing device, and the bearing device is in communication connection with the processing terminal; the bearing device comprises a beach fixing bearing device and a marine floating bearing device, and the beach fixing bearing device and the marine floating bearing device are both in communication connection with the processing terminal; the sensor assembly comprises a wind speed and direction sensor, a temperature sensor, a pressure sensor, a conductivity sensor, a wave sensor, a water level sensor, an ocean current sensor and/or a tension sensor.

The comprehensive sea condition monitoring equipment further comprises a box body, a groove for storing the sensor assembly and the bearing device is formed in the box body, and the processing terminal is arranged in a box cover of the box body.

The above, wherein the beach fixing and supporting device comprises a first measuring pipe and a first fixing device, the first measuring pipe is fixed on the beach by the first fixing device, and the sensor assembly is fixed on the first measuring pipe.

The above, wherein the first measuring pipe is a tubular structure formed by splicing a first main measuring pipe and a plurality of first sub measuring pipes.

As above, the first main measuring pipe is provided with an alarm device, a camera, a control unit, a power supply, a communication unit and a communication interface, and the carrying device is in communication connection with the processing terminal through the communication unit; the sensor assembly is in communication connection with the control unit through the communication interface; the alarm device, the camera, the control unit and the communication unit are all electrically connected with the power supply.

The above, wherein the first fixing device comprises a steel wire rope and a ground nail, one end of the steel wire rope is connected with the first measuring pipe, and the other end of the steel wire rope is connected with the ground nail.

The above, wherein the marine floating carrying device comprises a second measuring pipe, an inflatable floating ring and a second fixing device, the second measuring pipe is fixed on the inflatable floating ring, and the second fixing device is fixedly connected with the inflatable floating ring.

The above, wherein the second measurement pipe comprises a second main measurement pipe and a plurality of second sub measurement pipes, the second main measurement pipe being connected with the plurality of second sub measurement pipes by a splice bend.

As above, wherein, aerify the floating collar and be the loop configuration, the lateral surface and the bottom surface of aerifing the floating collar all are provided with the buckle, it is provided with to aerify the floating collar medial surface and insert the fixed slot of second survey buret.

As above, wherein the second securing means comprises an anchor and an anchor line, the anchor line being connected at one end to the inflatable buoy and at the other end to the anchor

The beneficial effect that this application realized is as follows:

(1) the comprehensive sea condition monitoring equipment has the advantages of simple design structure, simplicity and convenience in operation, portability, integration, protection, intellectualization and the like.

(2) The comprehensive sea condition monitoring equipment has the advantages that the flow direction, the flow speed and the tension data of the flow field of the wind speed, the wind direction, the temperature, the depth, the salinity, the wave period, the wave height, the wave direction, the tide level, the tide pressure and the ocean surface flow field are collected in a customized mode, and the comprehensive sea condition monitoring equipment is flexible and diversified.

(3) The sea condition data is more intelligent in use, and the functions of historical data analysis, multi-source data fusion, data situation display, sea condition prediction alarm and the like are achieved.

(4) The sea condition data transmission is more reliable, and the functions of 4G wireless transmission, sensor data transmission, video transmission and the like are achieved.

(5) The system integrates the sensor module, the bearing module and the processing terminal, is matched with corresponding management software, and can realize real-time acquisition, comprehensive analysis and online early warning of various sea condition data.

(6) The application improves the scientificity and the accuracy of sea condition monitoring of coastal mudflat operation.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present application, and other drawings can be obtained by those skilled in the art according to the drawings.

Fig. 1 is a block diagram of an integrated sea state monitoring device according to an embodiment of the present application.

Fig. 2 is a block diagram of a carrying device according to an embodiment of the present application.

Fig. 3 is a schematic structural diagram of a beach fixing and carrying device according to an embodiment of the present application.

Fig. 4 is a schematic structural diagram of the offshore floating carrying device according to the embodiment of the application.

Fig. 5 is a flowchart of a method for operating an integrated sea state monitoring device according to an embodiment of the present application.

Reference numerals: 1-a box body; 2-a sensor assembly; 3-a carrier device; 4-processing the terminal; 21-wind speed and direction sensor; 22-a temperature sensor; 23-a pressure sensor; 24-a conductivity sensor; 25-a wave sensor; 26-a water level sensor; 27-a sea current sensor; 28-a tension sensor; 31-a mudflat fixed bearing device; 32-floating offshore load carrying means; 310-a first measurement tube; 311-a first main measurement pipe; 312-a first secondary measurement pipe; 313-a first fixation device; 321-a second main measurement pipe; 322-a second secondary measurement pipe; 323-air float ring; 324-splicing the elbows; 325 — a second fixation device; 326-solar panel; 3111-an alarm device; 3112-video unit; 3113-a control unit; 3114-a power supply; 3115-a communication unit; 3116-a communication interface; 3131-ground nail; 3132-a wire rope; 3251-mushroom anchor; 3252-Anchor line.

Detailed Description

The technical solutions in the embodiments of the present application are clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

As shown in fig. 1, the present application provides an integrated sea state monitoring device, which comprises a box body 1, a sensor assembly 2, a bearing device 3 and a processing terminal 4; the box body 1, the sensor component 2, the bearing device 3 and the processing terminal 4 adopt a modularized box group type structure, the sensor component 2 is fixedly connected to the bearing device 3, the sensor component 2 is in communication connection with the bearing device 3, and the bearing device 3 is in communication connection with the processing terminal 4; the carrying device 3 comprises a beach fixing carrying device 31 and a marine floating carrying device 32, and both the beach fixing carrying device 31 and the marine floating carrying device 32 are in communication connection with the processing terminal 4.

As a specific embodiment of the present invention, a groove for storing the sensor assembly 2 and the carrying device 3 is provided in the box body 1, and the processing terminal 4 is provided in a cover of the box body 1, preferably, the inside of the box body 1 is filled with a hard nontoxic sponge pad.

Preferably, the length, width and height of the box body 1 are 700mm 500mm 350mm, one side of the box body 1 is provided with a pull rod, the bottom of the box body is provided with a universal wheel, the box body is convenient to move, the box body 1 is made of hard engineering plastics and has the capabilities of preventing water, dust, salt mist and sunshine, the empty weight of the box body 1 is about 5Kg, and the portability is good.

Preferably, the housing 1 is provided with a lighting device therein, so that the lighting device can provide illumination for night work. The cover of the box body 1 is provided with a hinge structure and can be opened to 180 degrees to form a plane with the bottom of the box.

Preferably, the outer part of the box body 1 is provided with a product name and upward marks, frangibility marks and the like.

As shown in fig. 1 and 2, the sensor assembly 2 comprises a wind speed and direction sensor 21, a temperature sensor 22, a pressure sensor 23, a conductivity sensor 24, a wave sensor 25, a water level sensor 26, an ocean current sensor 27 and/or a tension sensor 28. The wind speed and direction sensor 21 is used for measuring wind speed and wind direction; the temperature sensor 22 is used for measuring the temperature of air or seawater; the pressure sensor 23 is used for measuring the depth of the seawater; the conductivity sensor 24 is used for measuring the salinity of the seawater; the wave sensor 25 is used for measuring the period, wave height and wave direction of ocean waves; the water level sensor 26 is used for measuring tidal level and tidal pressure; the ocean current sensor 27 is used for measuring the flow direction and the flow speed of an ocean surface flow field; the tension sensor 28 is used to measure the tension at the interface of the mooring line or offshore floating pipeline. Each sensor communicates with a control unit 3113 in the carrier 3 using an RS-232 interface and is fixed or suspended on the carrier 3.

As shown in fig. 1 and 2, the carrying device 3 includes a beach fixing carrying device 31 and a floating on sea carrying device 32.

As shown in fig. 3, the beach fixing and bearing device 31 is of a spliced tubular structure, the beach fixing and bearing device 31 is composed of a first measuring tube 310 and a first fixing device 313, the bottom of the first measuring tube 310 is vertically inserted into beach sand, the first measuring tube 310 is fixedly connected with the first fixing device 313, one end of the first fixing device 313 far away from the first measuring tube 310 is fixed in the beach sand, the first measuring tube 310 is fixed on the beach through the first fixing device 313, and the sensor component 2 is fixed on the first measuring tube 310.

As a specific embodiment of the present invention, the first measurement pipe 310 is a tubular structure formed by splicing a first main measurement pipe 311 and a plurality of first auxiliary measurement pipes 312, the first main measurement pipe 311 and the plurality of first auxiliary measurement pipes 312 are spliced by using a threaded interface, a sealing gasket is provided at the spliced position, both ends of the first measurement pipe 310 are sealed with rubber caps to seal pipe openings, and the first auxiliary measurement pipe 312 is a hollow structure and is used in cooperation with the first main measurement pipe 311.

As shown in fig. 2, the first main measurement pipe 311 is provided with an alarm device 3111, a video unit 3112, a control unit 3113, a power supply 3114, a communication unit 3115 and a communication interface 3116(RS-232 interface), and the carrier device is in communication connection with the processing terminal 4 through the communication unit 3115; the sensor assembly 2 is in communication with the control unit 3113 via a communication interface 3116; alarm device 3111, camera, control unit 3113 and communication unit 3115 are all electrically connected to power supply 3114.

As a specific embodiment of the present invention, the alarm device 3111 includes a warning light and a speaker, and is used for indicating a position or giving an alarm by an acousto-optic means.

As a specific embodiment of the present invention, the video unit 3112 is a camera for capturing sea state video.

As an embodiment of the present invention, the control unit 3113 includes a memory and a chip, and the chip is embedded with a processing algorithm for storing and processing control sensor data.

As an embodiment of the present invention, the power supply 3114 includes a 12V power interface, a battery, and four 12V10W solar panels 326 for supplying power to the sensors, the control unit 3113 and the communication unit 3115. In this case, the battery is arranged inside the first measuring tube 310, and the solar panel 326 is arranged on the tube wall of the first measuring tube 310.

As a specific embodiment of the present invention, the communication unit 3115 includes a 4G wireless communication chip and a SIM card, and is configured to implement wireless communication with the processing terminal 4 or other carrier.

As an embodiment of the present invention, the RS-232 interface is used to connect the first main measurement pipe 311 to the sensor for data transmission.

As shown in fig. 2 and 3, the first fixing device 313 includes a wire rope 3132 and a ground nail 3131, the wire rope 3132 is connected to the first measuring tube 310 at one end and to the ground nail 3131 at the other end, and the ground nail 3131 is fixed in mudflat sand.

Preferably, the first measuring tube 310 is made of engineering plastic, has a diameter of 5cm and a length of 30cm,

as a specific embodiment of the present invention, the surface of the first measuring tube 310 is provided with a mounting bracket, a buckle and a wire hole, the mounting bracket and the buckle are used for fixing or hanging the sensor, the wire hole is used for wiring, and a sealing rubber ring is arranged at the wire hole.

As an embodiment of the utility model, a wind speed and direction sensor 21, a temperature sensor 22, a water level sensor 26 or an ocean current sensor 27 are fixedly connected to the first measuring pipe 310

As a specific embodiment of the present invention, the application method of the beach fixing and carrying device 31 is as follows: the 1 first main measuring tube 311 and the plurality of first auxiliary measuring tubes 312 are spliced into a long tube, the bottom of the long tube is buried in mudflat sand, and the long tube is fixed by three or four steel wire pull ropes 3132 and ground nails 3131. The wind speed and direction sensor 21, the temperature sensor 22, the water level sensor 26 or the ocean current sensor 27 and the like are connected to the mounting bracket or the buckle of the first measuring pipe 310 as required, so that the measurement and transmission of the sea condition data such as wind speed, wind direction, temperature, tide, ocean current and the like can be realized.

As shown in fig. 4, the marine floating carrying device 32 is of an inflatable splicing ring structure, the marine floating carrying device 32 comprises a second measuring pipe, a splicing elbow 324, an inflatable floating ring 323 and a second fixing device 325, the second measuring pipe is fixed on the inflatable floating ring 323, the second fixing device 325 is fixedly connected with the inflatable floating ring 323, the second measuring pipe comprises a second main measuring pipe 321 and a plurality of second auxiliary measuring pipes 322, and the first main measuring pipe 311 is connected with the plurality of second auxiliary measuring pipes 322 through the splicing elbow 324.

As an embodiment of the utility model, the second primary measurement pipe 321 is identical in construction to the first primary measurement pipe, and the second secondary measurement pipe 322 is identical in construction to the first secondary measurement pipe 312.

As an embodiment of the utility model, four solar panels 326 of the marine floating carrying means 32 are connected to the four second sub-measuring pipes 322, respectively.

As an embodiment of the present invention, the splicing elbow 324 is made of rubber, and has a three-way function, and is used for splicing and sealing the second main measurement pipe 321 and the second auxiliary measurement pipe 322.

Preferably, the inflatable floating ring 323 is made of rubber, a plurality of buckles are arranged on the outer side face and the bottom face of the inflatable floating ring 323 and can be used for hanging the sensor and the fixing device, and a fixing groove is formed in the inner side face of the floating ring and can be used for inserting and fixing the measuring pipe.

As a specific embodiment of the present invention, the inflatable float ring 323 is equipped with a manual air pump.

As shown in FIG. 4, the second securing device 325 is a mushroom anchor 3251 and an anchor line 3252. One end of the second fixing device 325 is fixedly connected with the inflatable floating ring 323, and the other end is fixed at the water bottom or on the shore.

As a specific embodiment of the present invention, the method for using the floating carrying device 32 on the sea is as follows: a second main measuring pipe 321 and four second auxiliary measuring pipes 322 are spliced into an I shape by a splicing elbow 324 and fixed on an inflated floating ring 323, and a pressure sensor 23, a conductivity sensor 24, a wave sensor 25 and a sea current sensor 27 are suspended on the side surface of the inflated floating ring 323, so that sea condition data measurement and transmission of sea water depth, salinity, wave period, wave height and wave direction, flow direction and flow speed of a sea surface flow field and the like can be realized.

As a specific embodiment of the present invention, the processing terminal 4 is located in a box cover of the box body 1, and the processing terminal 4 is preloaded with an Android system, has a memory of 128G, a resolution of 1080P, a screen size of 10.4 inches, and includes a 4G wireless transmission module. The processing terminal 4 is provided with a comprehensive sea state monitoring APP, and four functions of sea state monitoring, sea state early warning, sea state data management and sea state data analysis are achieved. Firstly, sea state monitoring. The system comprises functions of sea condition data receiving, sea condition video display, sea condition data display and the like. The method comprehensively utilizes the modes of situation display, data display, video display and the like to realize the situation generation, on-line monitoring and comprehensive display of wind speed, wind direction, temperature, depth, salinity, wave period, wave height, wave direction, tidal tide level, tide pressure, flow direction, flow speed and tension data of an ocean surface flow field and sea condition video. Secondly, sea state early warning. The alarm can be implemented for the sea state exceeding the threshold value by setting the threshold value. The alarm can be initiated simultaneously by the processing terminal 4 and the alarm unit on the first measuring tube 310 or the second measuring tube. And thirdly, managing the sea condition data. By establishing the sea condition database, the data management functions of creating, deleting, modifying, importing, exporting, inquiring and the like of the sea condition area and the sea condition data can be realized. And fourthly, analyzing sea state data. And data analysis functions such as statistics, classification and trend study and judgment of sea state related data are realized.

As shown in fig. 5, the specific working method of the present invention has the following flow:

step S1, starting a comprehensive sea condition monitoring box;

step S2, judging whether the sea state monitoring point is beach sea state monitoring or sea state monitoring; if the sea condition monitoring point is beach sea condition monitoring, installing/releasing and fixing the beach fixing and bearing device 31 on the beach, and if the sea condition monitoring point is sea condition monitoring, installing/releasing and fixing the sea floating and bearing device on the sea;

specifically, step S2 includes the following sub-steps:

step S210, judging whether the sea condition monitoring point is beach sea condition monitoring or sea condition monitoring;

step S220, if the sea condition monitoring point is the beach sea condition monitoring, assembling a beach fixing and bearing device, selecting a required sensor, installing the selected sensor on the beach fixing and bearing device, and fixing the beach fixing and bearing device on the beach;

step S230, if the sea state monitoring point is sea state monitoring, assembling the sea floating bearing device, selecting a required sensor, installing the selected sensor on the sea floating bearing device, and fixing the sea floating bearing device on the sea;

step S3, opening a processing terminal comprehensive sea state monitoring APP;

step S4, creating, calling or inquiring regional sea state data;

step S5, setting a sea state threshold;

step S6, sensor data is accessed;

step S7, starting sea state monitoring to obtain sea state monitoring data;

step S8, judging whether the sea state monitoring data exceeds the set sea state threshold;

step S9, if yes, starting an audible and visual alarm, and executing the next step, otherwise, executing the next step;

step S10, analyzing the sea state monitoring data;

step S11, whether the monitoring is continued or not is judged, if yes, the step S7 is returned to, and if not, the next step is executed;

and step S12, recovering and dismantling the bearing device, and closing the processing terminal.

The beneficial effect that this application realized is as follows:

(1) the comprehensive sea condition monitoring equipment is simple in design structure and easy and convenient to operate, and has the characteristics of being portable, integrated, protective, intelligent and the like.

(2) The comprehensive sea condition monitoring equipment has the advantages that the flow direction, the flow speed and the tension data of the flow field of the wind speed, the wind direction, the temperature, the depth, the salinity, the wave period, the wave height, the wave direction, the tide level, the tide pressure and the ocean surface flow field are collected in a customized mode, and the comprehensive sea condition monitoring equipment is flexible and diversified.

(3) The sea condition data is more intelligent in use, and the functions of historical data analysis, multi-source data fusion, data situation display, sea condition prediction alarm and the like are achieved.

(4) The sea condition data transmission is more reliable, and the functions of 4G wireless transmission, sensor data transmission, video transmission and the like are achieved.

(5) The system integrates the sensor module, the bearing module and the processing terminal, is matched with corresponding management software, and can realize real-time acquisition, comprehensive analysis and online early warning of various sea condition data.

(6) The application improves the scientificity and the accuracy of sea condition monitoring of coastal mudflat operation.

The above description is only an embodiment of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (10)

1. A comprehensive sea condition monitoring device is characterized by comprising a sensor assembly, a bearing device and a processing terminal;

the sensor assembly is fixedly connected to the bearing device, the sensor assembly is in communication connection with the bearing device, and the bearing device is in communication connection with the processing terminal;

the bearing device comprises a beach fixing bearing device and a marine floating bearing device, and the beach fixing bearing device and the marine floating bearing device are both in communication connection with the processing terminal;

the sensor assembly comprises a wind speed and direction sensor, a temperature sensor, a pressure sensor, a conductivity sensor, a wave sensor, a water level sensor, an ocean current sensor and/or a tension sensor.

2. The integrated sea state monitoring device of claim 1, further comprising a housing, wherein a recess is provided in the housing for storing the sensor assembly and the carrier, and wherein the processing terminal is provided in a lid of the housing.

3. The integrated sea state monitoring device of claim 1 wherein the beach fixture carrier includes a first measuring tube and a first fixture, the first measuring tube being secured to the beach by the first fixture, the sensor assembly being secured to the first measuring tube.

4. An integrated sea state monitoring device according to claim 3, characterized in that the first measuring pipe is a tubular structure formed by a first main measuring pipe and a plurality of first secondary measuring pipes in a spliced manner.

5. The integrated sea state monitoring device according to claim 4, wherein an alarm device, a camera, a control unit, a power supply, a communication unit and a communication interface are arranged in the first main measuring pipe, and the carrying device is in communication connection with the processing terminal through the communication unit; the sensor assembly is in communication connection with the control unit through the communication interface; the alarm device, the camera, the control unit and the communication unit are all electrically connected with the power supply.

6. An integrated sea state monitoring device according to claim 5, characterized in that said first fastening means comprises a steel wire rope having one end connected to said first measuring tube and the other end connected to said ground nail.

7. The integrated sea state monitoring device of claim 1, wherein said marine floating carrying means comprises a second measuring pipe, an inflatable floating ring and a second fixing means, said second measuring pipe being fixed to said inflatable floating ring, said second fixing means being fixedly connected to said inflatable floating ring.

8. Integrated sea state monitoring device according to claim 7, characterized in that the second measuring pipe comprises a second main measuring pipe and a plurality of second sub measuring pipes, the second main measuring pipe being connected with a plurality of the second sub measuring pipes by means of a splice bend.

9. The integrated sea state monitoring device of claim 7, wherein the floating ring is a ring structure, the outer side surface and the bottom surface of the floating ring are provided with fasteners, and the inner side surface of the floating ring is provided with fixing grooves for inserting the second measuring pipe.

10. An integrated sea state monitoring device according to claim 9 wherein said second securing means comprises an anchor and an anchor line, said anchor line being connected at one end to said inflatable buoy and at the other end to said anchor.

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