CN107631826B - A kind of ocean wave power monitoring device - Google Patents
A kind of ocean wave power monitoring device Download PDFInfo
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- CN107631826B CN107631826B CN201710957720.0A CN201710957720A CN107631826B CN 107631826 B CN107631826 B CN 107631826B CN 201710957720 A CN201710957720 A CN 201710957720A CN 107631826 B CN107631826 B CN 107631826B
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Abstract
The invention discloses a kind of ocean wave power monitoring devices, belong to signal monitoring technical field, including buoyancy column, guide rod, seal head, sleeve, desiccant, fixed bracket, connection folder, elastic film, foil gauge, signal wire, A/D converter, water storage box, when waves of seawater passes through buoyancy column, buoyancy column drives guide rod to stretch in the elastic film that cunning is intracavitary to move up and down, and then bottom is driven to connect under buoyancy;Ocean wave power monitoring device provided by the invention exports the strain signal of elastic film by the foil gauge on elastic film in real time, converts electrical signals to digital data transmission to monitoring device by A/D converter;And ocean wave power monitoring device provided by the invention is easy for installation, structural reliability is strong, high sensitivity, can adapt to complicated marine environment;The monitoring of ocean wave environment can be achieved, provide good monitoring means for ocean engineering construction.
Description
Technical field
The present invention relates to signal monitoring technical field more particularly to a kind of ocean wave power monitoring devices.
Background technique
The load that ocean wave acts on ocean platform jacket is to design one of the important parameter of ocean platform.In order to
The data of ocean wave load are obtained, people are measured using various measurement means, at present the measurement side of ocean wave load
Method is broadly divided into survey pressure and two kinds of dynamometry;Wherein, surveying pressure is and the dynamometry by integrating to obtain ocean wave load again to pressure
It is then a kind of direct measuring method.
The force measuring method for the Measuring Oceanic seaway load being commonly used all is aerodynamic balance measuring method, is surveyed in this balance
In power method, the active force of ocean wave, the number that then will test are detected by wave load-carrying unit by sensing element first
It is handled according to corresponding processing unit is passed to, finally exports required ocean wave load data.Existing aerodynamic balance measuring
Method, since the sensing element that it experiences seaway load is integral with wave load-carrying unit (such as cylinder) design, thus in order to protect
Card sensing element can experience the load of ocean wave completely, and the interference of unsupported connection wave load-carrying unit structure, still
Connecting component structure between aerodynamic balance measuring structure Wave load-carrying unit and ocean platform jacket leg is sufficiently complex;Separately
Outside, entire balance has just linked together with ocean platform jacket leg before actual use measure jointly before
Debugging calibration is easy to cause damage on balance sensing element and influence measurement parameter in this way in ocean platform installation
Reliability.Therefore structure is complicated there are measuring part, equipment installation requirement is high, functional reliability is low etc. for existing aerodynamic balance measuring method
Defect.
Summary of the invention
The present invention provides a kind of ocean wave power monitoring device, it is desirable to provide one kind is easy for installation, structural reliability is strong, spirit
Sensitivity is high, can adapt to the ocean wave power monitoring device of complicated use environment, realizes that the remote of ocean wave power size can
By monitoring, avoids the wave force size acted on ocean platform due to ocean wave monitoring inaccuracy and cause unnecessary warp
Ji loss and casualties.
Specific technical solution provided by the invention is as follows:
A kind of ocean wave power monitoring device provided by the invention, the ocean wave power monitoring device include buoyancy column,
Guide rod, seal head, sleeve, desiccant, fixed bracket, upper connection folder, elastic film, foil gauge, signal wire, A/D converter, storage
Water tank, diversion pipe and lower connection folder, wherein the buoyancy column half suspends across the sea, and the guide rod is fixed on the buoyancy column
Lower end, the seal head is mounted on the sleeve upper end, and the guide rod passes through the seal head and the desiccant, described dry
Drying prescription is stored in the drying chamber of the sleeve;The upper connection folder is riveted on the lower section of the guide rod, the upper connection folder
Lower end and the upper end of the elastic film rivet, and the upper end of the lower end of the elastic film and the lower connection folder rivets, described
The lower end of lower connection folder is fixed on the bottom of the sleeve;The foil gauge is fixed on the outer surface of the elastic film, described
The outside of the sleeve is arranged in A/D converter, is electrically connected between the foil gauge and the A/D converter using the signal wire
It connects;Described support bracket fastened one end is fixed on the outer surface of the sleeve, adopts between the water storage box and the sleeve outer surface
It is mutually fixed with the diversion pipe.
Optionally, the guide rod includes the first cylindrical section, the second cylindrical section, third cylindrical section;Wherein, first cylinder
The upper end of section is fixed on the lower surface of the buoyancy column, and second cylindrical section is connected with first cylindrical section, and described the
Three cylindrical sections are connected with second cylindrical section, and the axis of the axis of the third cylindrical section and first cylindrical section is flat
Row.
Optionally, the axis of second cylindrical section is vertical with the axis of first cylindrical section, the third cylindrical section
Axis it is vertical with the axis of second cylindrical section.
Optionally, the angle between the axis and horizontal plane of second cylindrical section is less than 90 °, first cylindrical section
The axis of axis and the third cylindrical section is not point-blank.
Optionally, the angle between the axis and horizontal plane of second cylindrical section is 0 °.
Optionally, the sleeve includes first section, second section and third cylinder section, wherein first section is in institute
The top of second section is stated, second section is in the junction of first section and the third cylinder section;Described second
The desiccant is filled in section.
Optionally, the seal head is fixed on the upper end of first section, first cylindrical section using threaded connection
Across the seal head, second cylindrical section is located at the lower end of the seal head and second cylindrical section is located at described first
In the inner cavity of cylinder section, the third cylindrical section passes through the desiccant.
Optionally, the top of the upper connection folder and the lower part of the third cylindrical section are riveted using pin shaft, the upper company
Connect the lower end of folder using fastening screw locking with connect the elastic film.
Optionally, the foil gauge is adhesive in the outer surface of the elastic film, described in the right side connection of the diversion pipe
The outer surface of first section, the left side of the diversion pipe connect the water storage box, wherein the inner cavity of the water storage box described is led
The inner cavity of flow tube and the inner cavity of first section are interconnected.
Optionally, the upper surface of the desiccant is taper, and the angle between the axis and horizontal plane of the diversion pipe is big
Angle between 30 °, the cone angle of the upper surface of the desiccant and the axis and horizontal plane of the diversion pipe is equal.
Beneficial effects of the present invention are as follows:
A kind of ocean wave power monitoring device provided in an embodiment of the present invention, including buoyancy column, guide rod, seal head, sleeve,
Desiccant, fixed bracket, upper connection folder, elastic film, foil gauge, signal wire, A/D converter, diversion pipe, water storage box and lower company
Connect folder, wherein buoyancy column half suspends across the sea, and guide rod is fixed on the lower end of buoyancy column, and seal head is mounted on sleeve upper end, leads
Bar passes through seal head and desiccant, and desiccant is stored in the drying chamber of sleeve;Upper connection folder is riveted on the lower section of guide rod, upper company
The upper end of the lower end and elastic film that connect folder rivets, and the upper end of the lower end of elastic film and lower connection folder rivets, lower connection folder
Lower end is fixed on the bottom of sleeve;Foil gauge is fixed on the outer surface of elastic film, and the outside of sleeve is arranged in A/D converter,
It is electrically connected between foil gauge and A/D converter using conducting wire;Support bracket fastened one end is fixed on the outer surface of sleeve, water storage box with
It is mutually fixed between sleeve outer surface using diversion pipe.When ocean wave impacts buoyancy column, buoyancy column is acted in ocean wave power
Under float up and down, and then buoyancy column drive guide rod move up and down, guide rod drive its underpart connect elastic film occur elasticity become
The strain variation situation of elastic film is transferred to A/D converter, A/D conversion by shape, foil gauge in real time as electronic signals
Device converts digital signal for gained electric signal and acquires for collector, to obtain real-time wave force situation;And this hair
Bright ocean wave power monitoring device, due to storing desiccant, and water storage box and sleeve outer surface in the drying chamber of sleeve
Between be connected using diversion pipe, the water flow that good can prevent to bring into device when guide rod moves up and down enters the strain of lower end
Piece effectively prevents the entrance of steam;First guide rod can effectively prevent seawater to flow to elastic film along guide rod using bias mode,
During guide rod moves up and down, the contact surface between guide rod and seal head enters the seawater of the first section, can smoothly pass through
The conical surface of desiccant upper surface can smoothly enter into the inner cavity of diversion pipe, and then the inner cavity through diversion pipe flows in water storage box.
A kind of ocean wave power monitoring device provided in an embodiment of the present invention, easy for installation, structural reliability is strong, sensitivity
Height can adapt to complicated use environment, and the long-haul reliable monitoring of ocean wave power size may be implemented, avoid due to ocean wave
The wave force size monitoring that wave acts on ocean platform is inaccurate and causes unnecessary economic loss and casualties.
Detailed description of the invention
To describe the technical solutions in the embodiments of the present invention more clearly, make required in being described below to embodiment
Attached drawing is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the invention, for
For those of ordinary skill in the art, without creative efforts, it can also be obtained according to these attached drawings other
Attached drawing.
Fig. 1 is a kind of schematic cross-sectional view of ocean wave power monitoring device of the embodiment of the present invention;
Fig. 2 is a kind of operation schematic diagram of ocean wave power monitoring device of the embodiment of the present invention.
Specific embodiment
To make the objectives, technical solutions, and advantages of the present invention clearer, below in conjunction with attached drawing to the present invention make into
It is described in detail to one step, it is clear that described embodiments are only a part of the embodiments of the present invention, rather than whole implementation
Example.Based on the embodiments of the present invention, obtained by those of ordinary skill in the art without making creative efforts
All other embodiment, shall fall within the protection scope of the present invention.
Description and claims of this specification and term " first ", " second ", " third ", " in above-mentioned attached drawing
Four ", the (if present)s such as " 5th ", " the 6th ", " the 7th " and " the 8th " are to be used to distinguish similar objects, without for retouching
State specific sequence or precedence.It should be understood that the data used in this way are interchangeable under appropriate circumstances, to retouch here
The embodiment of the present invention stated for example can be performed in other sequences than those illustrated or described herein.
Be intended to provide it is a kind of it is easy for installation, structural reliability is strong, high sensitivity, the ocean that can adapt to complicated use environment
Wave force monitoring device, the embodiment of the present invention provide a kind of ocean wave power monitoring device include buoyancy column, guide rod, seal head,
Sleeve, desiccant, fixed bracket, upper connection folder, elastic film, foil gauge, signal wire, A/D converter, diversion pipe, water storage box
It is pressed from both sides with lower connection, wherein buoyancy column half suspends across the sea, and guide rod is fixed on the lower end of buoyancy column, and seal head is mounted on sleeve
Upper end, guide rod pass through seal head and desiccant, and desiccant is stored in the drying chamber of sleeve;Upper connection folder is riveted under guide rod
Section, the lower end of upper connection folder and the upper end of elastic film rivet, and the upper end of the lower end of elastic film and lower connection folder rivets, lower company
The lower end for connecing folder is fixed on the bottom of sleeve;Foil gauge is fixed on the outer surface of elastic film, and sleeve is arranged in A/D converter
Outside is electrically connected between foil gauge and A/D converter using conducting wire;Support bracket fastened one end is fixed on the outer surface of sleeve, stores
It is mutually fixed between water tank and sleeve outer surface using diversion pipe.When ocean wave impacts buoyancy column, buoyancy column is in ocean wave
It floats up and down under power effect, and then buoyancy column drives guide rod to move up and down, the elastic film that guide rod drives its underpart to connect occurs
The strain variation situation of elastic film is transferred to A/D converter, A/ by flexible deformation, foil gauge in real time as electronic signals
D converter converts digital signal for gained electric signal and acquires for collector, to obtain real-time wave force situation;And
Ocean wave power monitoring device of the invention, due to storing desiccant in the drying chamber of sleeve, and outside water storage box and sleeve
It is connected between surface using diversion pipe, the water flow that good can prevent to bring into device when guide rod moves up and down enters lower end
Foil gauge effectively prevents the entrance of steam;First guide rod can effectively prevent seawater to flow to elasticity along guide rod using bias mode
Film, during guide rod moves up and down, the contact surface between guide rod and seal head enters the seawater of the first section, can be smooth
The conical surface through desiccant upper surface can smoothly enter into the inner cavity of diversion pipe, then the inner cavity through diversion pipe flows in water storage box.This
A kind of ocean wave power monitoring device that inventive embodiments provide, easy for installation, structural reliability is strong, high sensitivity, Neng Goushi
Complicated use environment is answered, the long-haul reliable monitoring of ocean wave power size may be implemented, avoid acting on due to ocean wave
Wave force size monitoring on ocean platform is inaccurate and causes unnecessary economic loss and casualties.
It is carried out specifically below in conjunction with a kind of ocean wave power monitoring device of the Fig. 1 and Fig. 2 to the embodiment of the present invention
It is bright.
Refering to what is shown in Fig. 1, a kind of ocean wave power monitoring device 100 provided in an embodiment of the present invention, including buoyancy column 1,
7, elastic film 8, foil gauge 9, signal wire, A/D are pressed from both sides in guide rod 2, seal head 3, sleeve 4, desiccant 6, fixed bracket 5, upper connection
Converter 10, water storage box 11, diversion pipe 14 and lower connection folder 13, wherein buoyancy column 1 half suspends across the sea, and guide rod 2 is fixed
In the lower end of buoyancy column 1, seal head 3 is mounted on 4 upper end of sleeve, and guide rod 2 passes through seal head 3 and desiccant 6, and desiccant 6 stores
In the drying chamber of sleeve 4;Upper connection folder 7 is riveted on the lower section of guide rod 2, the lower end of upper connection folder 7 and the upper end of elastic film 8
The upper end of riveting, the lower end of elastic film 8 and lower connection folder 13 rivets, and the lower end of lower connection folder 13 is fixed on the bottom of sleeve 4;
Foil gauge 9 is fixed on the outer surface of elastic film 8, and the outside of sleeve 4 is arranged in A/D converter 10, and foil gauge 9 and A/D are converted
It is electrically connected between device 10 using signal wire;One end of fixed bracket 5 is fixed on the outer surface of sleeve 4, outside water storage box 11 and sleeve 4
It is fixed between surface using 14 phase of diversion pipe.
Wherein, buoyancy column 1 is made of light material, and buoyancy column 1 can suspend in the seawater, can also swim in seawater
In namely buoyancy column 1 can be with sea level or the size of ocean wave, floating movement up and down.For the specific material of buoyancy column 1
Matter and planform, the embodiment of the present invention are not specifically limited.Exemplary, buoyancy column 1 can be floating with the cylinder of polyethylene material
Son.The specific fixed form of the lower end of buoyancy column 1 is fixed on for guide rod 2, the embodiment of the present invention is not specifically limited, example
, guide rod 2 can be welded on the lower end of buoyancy column 1 or guide rod 2 uses the lower end for being threadedly coupled and being fixed on buoyancy column 1.
Further, guide rod 2 includes the first cylindrical section 201, the second cylindrical section 202, third cylindrical section 203;Wherein, first
The upper end of cylindrical section 201 is fixed on the lower surface of buoyancy column 1, and the second cylindrical section 202 is connected with the first cylindrical section 201, third
Cylindrical section 203 is connected with the second cylindrical section 202, and the axis of third cylindrical section 203 is parallel with the axis of the first cylindrical section 201.
Exemplary, the axis of third cylindrical section 203 is vertically arranged with the first cylindrical section 201, wherein the axis of third cylindrical section 203
It is vertically arranged with the first cylindrical section 201, can be convenient buoyancy column 1 and guide rod 2 is driven to move up and down.
Refering to what is shown in Fig. 1, the angle between the axis and horizontal plane of the second cylindrical section 202 is 0 ° namely the second cylindrical section
202 is horizontally disposed, and the axis of the second cylindrical section 202 is vertical with the axis of the first cylindrical section 201, the axis of third cylindrical section 203
It is vertical with the axis of the second cylindrical section 202.
Exemplary, the angle between the axis and horizontal plane of the second cylindrical section 202 is less than 90 °, the axis of the first cylindrical section 201
The axis of line and third cylindrical section 203 is not point-blank.Third cylindrical section 203 is parallel with the first cylindrical section 201, and first
The axis of the axis of cylindrical section 201 and third cylindrical section 203 is not point-blank, it is ensured that guide rod is in up and down motion process
In the water flow brought into do not flow to elastic film along guide rod.Wherein, the second cylindrical section 202 and 6 phase interworking of seal head 3 and desiccant
It closes, for limiting moving range of the guide rod 1 in 4 inner cavity of sleeve, can be effectively prevented leads to bullet since the displacement of guide rod 1 is excessive
Property film 8 is pulled off.
Further, refering to what is shown in Fig. 1, sleeve 4 includes first section, 401, second sections 402 and third cylinder section 403,
In, first section 401 is in the top of second section 402, connection of second section 402 in first section 401 and third cylinder section 403
Place;Desiccant 6 is filled in the inner cavity of second section 402.
Further, refering to what is shown in Fig. 1, seal head 3 is fixed on the upper end of first section 401 using being threadedly coupled, first
Cylindrical section 201 passes through seal head 3, and the second cylindrical section 202 is located at the lower end of seal head 3 and the second cylindrical section 202 is located at first
In the inner cavity of section 401, third cylindrical section 203 passes through desiccant 6.
Exemplary, the top of upper connection folder 7 and the lower part of third cylindrical section 203 are riveted using pin shaft, under upper connection folder 7
It is locked using fastening screw for connecting elastic film 8 at end.
Further, refering to what is shown in Fig. 1, foil gauge 9 is adhesive in the outer surface of elastic film 8, i.e. foil gauge 9 is fitted in bullet
The top face of property film 8, foil gauge 9 can be deformed with the deformation of elastic film.The right side of diversion pipe 14 connects first section
The left side of 401 outer surface, diversion pipe 14 connects water storage box 11, wherein the inner cavity of water storage box, the inner cavity of diversion pipe and first
The inner cavity of section is interconnected.
Exemplary, the upper surface of desiccant 6 is taper, and the angle between the axis and horizontal plane of diversion pipe 14 is greater than 30 °,
Angle between the cone angle of the upper surface of desiccant 6 and the axis of diversion pipe 14 and horizontal plane is equal.By the axis of diversion pipe 14
Angle between horizontal plane is set greater than 30 ° and the cone angle of the upper surface of desiccant 6 is set greater than 30 °, it is ensured that
During guide rod moves up and down, the contact surface between guide rod 1 and seal head 3 enters the seawater of first section 401, can be smooth
The conical surface through desiccant upper surface can smoothly enter into the inner cavity of diversion pipe 14, the inner cavity then through diversion pipe 14 flows to water storage box
It is interior.
Refering to what is shown in Fig. 2, the ocean wave power monitoring device 100 of the embodiment of the present invention is during use, it is fixed on
On job platform column 200, wherein the buoyancy column 1 of the ocean wave power monitoring device 100 of the embodiment of the present invention is located at sea
300, when ocean wave impacts buoyancy column 1, buoyancy column 1 floats up and down under the effect of ocean wave power, and then drives on guide rod 2
Lower movement, guide rod 2 drive lower elastic film 8 that flexible deformation occurs, and foil gauge 9 is by the strain variation situation of elastic film with electricity
The form of signal is transferred to A/D converter 10 in real time, and A/D converter 10 converts digital signal for acquisition for gained electric signal
Personnel's acquisition, to obtain real-time wave force situation.
A kind of ocean wave power monitoring device provided in an embodiment of the present invention, including buoyancy column, guide rod, seal head, sleeve,
Desiccant, fixed bracket, upper connection folder, elastic film, foil gauge, signal wire, A/D converter, diversion pipe, water storage box and lower company
Connect folder, wherein buoyancy column half suspends across the sea, and guide rod is fixed on the lower end of buoyancy column, and seal head is mounted on sleeve upper end, leads
Bar passes through seal head and desiccant, and desiccant is stored in the drying chamber of sleeve;Upper connection folder is riveted on the lower section of guide rod, upper company
The upper end of the lower end and elastic film that connect folder rivets, and the upper end of the lower end of elastic film and lower connection folder rivets, lower connection folder
Lower end is fixed on the bottom of sleeve;Foil gauge is fixed on the outer surface of elastic film, and the outside of sleeve is arranged in A/D converter,
It is electrically connected between foil gauge and A/D converter using conducting wire;Support bracket fastened one end is fixed on the outer surface of sleeve, water storage box with
It is mutually fixed between sleeve outer surface using diversion pipe.When ocean wave impacts buoyancy column, buoyancy column is acted in ocean wave power
Under float up and down, and then buoyancy column drive guide rod move up and down, guide rod drive its underpart connect elastic film occur elasticity become
The strain variation situation of elastic film is transferred to A/D converter, A/D conversion by shape, foil gauge in real time as electronic signals
Device converts digital signal for gained electric signal and acquires for collector, to obtain real-time wave force situation;And this hair
Bright ocean wave power monitoring device, due to storing desiccant, and water storage box and sleeve outer surface in the drying chamber of sleeve
Between be connected using diversion pipe, the water flow that good can prevent to bring into device when guide rod moves up and down enters the strain of lower end
Piece effectively prevents the entrance of steam;First guide rod can effectively prevent seawater to flow to elastic film along guide rod using bias mode,
During guide rod moves up and down, the contact surface between guide rod and seal head enters the seawater of the first section, can smoothly pass through
The conical surface of desiccant upper surface can smoothly enter into the inner cavity of diversion pipe, and then the inner cavity through diversion pipe flows in water storage box.The present invention
A kind of ocean wave power monitoring device that embodiment provides, easy for installation, structural reliability is strong, high sensitivity, can adapt to it is multiple
Miscellaneous use environment may be implemented the long-haul reliable monitoring of ocean wave power size, avoid acting on ocean due to ocean wave
Wave force size monitoring on platform is inaccurate and causes unnecessary economic loss and casualties.
Obviously, those skilled in the art can carry out various modification and variations without departing from this hair to the embodiment of the present invention
The spirit and scope of bright embodiment.In this way, if these modifications and variations of the embodiment of the present invention belong to the claims in the present invention
And its within the scope of equivalent technologies, then the present invention is also intended to include these modifications and variations.
Claims (6)
1. a kind of ocean wave power monitoring device, which is characterized in that the ocean wave power monitoring device includes buoyancy column, leads
Bar, seal head, sleeve, desiccant, fixed bracket, upper connection folder, elastic film, foil gauge, signal wire, A/D converter, water storage
Case, diversion pipe and lower connection folder, wherein the buoyancy column half suspends across the sea, and the guide rod is fixed on the buoyancy column
Lower end, the seal head are mounted on the sleeve upper end, and the guide rod passes through the seal head and the desiccant, the drying
Agent is stored in the drying chamber of the sleeve;The upper connection folder is riveted on the lower section of the guide rod, under the upper connection is pressed from both sides
End and the upper end of the elastic film rivet, and the upper end of the lower end of the elastic film and the lower connection folder rivets, under described
The lower end of connection folder is fixed on the bottom of the sleeve;The foil gauge is fixed on the outer surface of the elastic film, the A/D
The outside of the sleeve is arranged in converter, is electrically connected between the foil gauge and the A/D converter using the signal wire;
Described support bracket fastened one end is fixed on the outer surface of the sleeve, and institute is used between the water storage box and the sleeve outer surface
Diversion pipe is stated mutually to fix;The guide rod includes the first cylindrical section, the second cylindrical section, third cylindrical section;Wherein, first cylinder
The upper end of section is fixed on the lower surface of the buoyancy column, and second cylindrical section is connected with first cylindrical section, and described the
Three cylindrical sections are connected with second cylindrical section, and the axis of the axis of the third cylindrical section and first cylindrical section is flat
Row;The sleeve includes first section, second section and third cylinder section, wherein first section is in second section
Top, second section is in the junction of first section and the third cylinder section;It is filled in second section
State desiccant;The seal head is fixed on the upper end of first section using being threadedly coupled, and first cylindrical section passes through institute
Seal head is stated, second cylindrical section is located at the lower end of the seal head and second cylindrical section is located at first section
In inner cavity, the third cylindrical section passes through the desiccant;The top of the upper connection folder and the lower part of the third cylindrical section
Riveted using pin shaft, it is described it is upper connection folder lower end using fastening screw lock with connect the elastic film.
2. ocean wave power monitoring device according to claim 1, which is characterized in that the axis of second cylindrical section with
The axis of first cylindrical section is vertical, and the axis of the third cylindrical section is vertical with the axis of second cylindrical section.
3. ocean wave power monitoring device according to claim 2, which is characterized in that the axis of second cylindrical section with
For angle between horizontal plane less than 90 °, the axis of the axis of first cylindrical section and the third cylindrical section is not straight at one
On line.
4. ocean wave power monitoring device according to claim 3, which is characterized in that the axis of second cylindrical section with
Angle between horizontal plane is 0 °.
5. ocean wave power monitoring device according to claim 4, which is characterized in that the foil gauge is adhesive in the bullet
Property film outer surface, the right side of the diversion pipe connects the outer surface of first section, the left side connection of the diversion pipe
The water storage box, wherein the inner cavity of the inner cavity of the water storage box, the inner cavity of the diversion pipe and first section mutually interconnects
It is logical.
6. ocean wave power monitoring device according to claim 5, which is characterized in that the upper surface of the desiccant is cone
Shape, angle between the axis and horizontal plane of the diversion pipe are greater than 30 °, the cone angle of the upper surface of the desiccant and described lead
Angle between the axis of flow tube and horizontal plane is equal.
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CN108917821A (en) * | 2018-03-17 | 2018-11-30 | 鲁东大学 | A kind of marine eco-environment monitoring system |
WO2021174440A1 (en) * | 2020-03-04 | 2021-09-10 | 交通运输部天津水运工程科学研究所 | Method and system for calculating wave force received by underwater submerged object |
CN113109022B (en) * | 2021-03-18 | 2022-03-08 | 上海交通大学 | Wave load measuring system and measuring module thereof |
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CN104300388A (en) * | 2014-10-28 | 2015-01-21 | 成都峰达科技有限公司 | Waterproof control box |
CN204924542U (en) * | 2015-08-18 | 2015-12-30 | 上海河口海岸科学研究中心 | A wave force testing arrangement for wave wall |
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