CN204988429U - Tidewater water level measurement device - Google Patents
Tidewater water level measurement device Download PDFInfo
- Publication number
- CN204988429U CN204988429U CN201520804236.0U CN201520804236U CN204988429U CN 204988429 U CN204988429 U CN 204988429U CN 201520804236 U CN201520804236 U CN 201520804236U CN 204988429 U CN204988429 U CN 204988429U
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- Prior art keywords
- slide bar
- static
- water level
- installation
- tidal level
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Abstract
The utility model discloses a tidewater water level measurement device, strike groove, tide induction system, alarm device, connecting rod, solar cell panel, transmitting antenna, static liquid level hose way and water level caliber including the main slide bar of installation, slide bar sliding sleeve, buoyancy tire, static measurement storehouse, top supporting pole, dynamic tidal level dipperstick, tidewater, static measurement passes through in the storehouse slide bar sliding sleeve even on the main slide bar of installation, the buoyancy tire is established in static measurement storehouse bottom, the water level caliber is said through static liquid level hose and is established in the static measurement storehouse, developments tidal level dipperstick passes through the top supporting pole and establishes on the main slide bar of installation, tide induction system passes through tidewater impact groove and establishes on dynamic tidal level dipperstick, alarm device establishes on dynamic tidal level dipperstick, the transmitting antenna is established on the top supporting pole, solar cell panel passes through the connecting rod and establishes on the main slide bar of installation. The utility model discloses can monitor the static height and the tide height of tidal level to long -rangely send dangerous alarm information, in time take the counter -measure.
Description
Technical field
The utility model relates to a kind of measurement mechanism, particularly relates to a kind of tidal level measurement mechanism.
Background technology
Along with constantly warming of weather, because the disasters such as the flood that tidewater flood tide causes take place frequently, very large inconvenience and loss are all brought to the life, agricultural, industry etc. of people, even causes large-area casualties and house collapse.At present, there is the gage measuring water level by the sea, be convenient to the water level recognizing tidewater fast, to take measures in time, reduce economic loss and casualties, but the measurement mechanism of the tidal level of prior art can only observe the roughly height of static water level, if stormy waves is larger, may start larger wave, equally also can cause no small loss, the measurement mechanism of prior art can not be measured dynamic tide height.
Utility model content
The purpose of this utility model: provide a kind of tidal level measurement mechanism, can be used for measuring the water level height of tidewater and the height of tide, measure accurately.
To achieve these goals, the technical solution of the utility model is:
A kind of tidal level measurement mechanism, comprises and installs main slide bar, slide bar sliding sleeve, buoyancy tire, static measurement storehouse, top supporting rod, dynamically tidal level dip stick, multiple tidewater punching groove, multiple tide induction installation, alarm device, connecting link, solar panel, transmitting antenna, static water level pipeline and fluviometer; The main slide bar of described installation is vertically mounted on water surface edge, described slide bar sliding sleeve is coaxially nested with on the main slide bar of described installation, described static measurement storehouse is connected on the main slide bar of described installation by described slide bar sliding sleeve, described buoyancy tire is arranged on the bottom in described static measurement storehouse, being positioned at below the water surface, synchronously floats up and down along the main slide bar of described installation in described buoyancy tire and static measurement storehouse; The upper end of described static water level pipeline is arranged in described static measurement storehouse, the lower end of described static water level pipeline extends to the outside in described static measurement storehouse, and be inserted into below the water surface, upper end and the lower end of described static water level pipeline are vertically arranged, the middle part of described static water level pipeline is horizontally disposed with, and described fluviometer is arranged on the one end of the static water level pipeline being positioned at described static measurement storehouse; One end of described top supporting rod is horizontally set on the side, top of the main slide bar of described installation, the upper end of described dynamic tidal level dip stick is connected to the other end of described top supporting rod, the lower end of described dynamic tidal level dip stick is vertically inserted in below the water surface, is positioned at the side of the main slide bar of described installation; Described multiple tidewater punching grooves are successively set on described dynamic tidal level dip stick, described multiple tidewater punching grooves are that equilateral triangle structure extends to lower end from the upper end of described dynamic tidal level dip stick, and described multiple tide induction installations respectively corresponding embedding are arranged in described multiple tidewater punching grooves; Described alarm device is arranged on the upper end of described dynamic tidal level dip stick, and is electrically connected with described multiple tide induction installations; Described transmitting antenna is arranged on described top supporting rod, is positioned at the side of described alarm device, and described solar panel is arranged on the top of the main slide bar of described installation by described connecting link.
Above-mentioned tidal level measurement mechanism, wherein, the upper end of described static water level pipeline is provided with anti-overflow cover, and described anti-overflow cover is funnel-form, and described anti-overflow cover is run through in the upper end of described fluviometer.
Above-mentioned tidal level measurement mechanism, wherein, the top in described static measurement storehouse is provided with view window, is positioned at the top of described anti-overflow cover.
Above-mentioned tidal level measurement mechanism, wherein, be provided with at least one deck rubbish filtering net in described static water level pipeline, described rubbish filtering net is arranged on the one end being positioned at described outside, static measurement storehouse.
Above-mentioned tidal level measurement mechanism, wherein, the outer wall in described static measurement storehouse is provided with one or more balancing weight, and described balancing weight and described static measurement storehouse are structure as a whole.
The utility model can monitor static height and the tide height of tidal level simultaneously, and long-range transmission hydropac information, be convenient to take counter-measure in time, reduce economic loss and casualties.
Accompanying drawing explanation
Fig. 1 is the front view of a kind of tidal level measurement mechanism of the utility model.
Fig. 2 is the sectional side view in the static measurement storehouse of a kind of tidal level measurement mechanism of the utility model.
Embodiment
Embodiment of the present utility model is further illustrated below in conjunction with accompanying drawing.
Refer to shown in accompanying drawing 1 and accompanying drawing 2, a kind of tidal level measurement mechanism, comprises and installs main slide bar 1, slide bar sliding sleeve 2, buoyancy tire 3, static measurement storehouse 4, top supporting rod 5, dynamically tidal level dip stick 6, multiple tidewater punching groove 7, multiple tide induction installation 8, alarm device 9, connecting link 10, solar panel 11, transmitting antenna 12, static water level pipeline 13 and fluviometer 14; The main slide bar 1 of described installation is vertically mounted on water surface edge, described slide bar sliding sleeve 2 is coaxially nested with on the main slide bar 1 of described installation, described static measurement storehouse 4 is connected on the main slide bar 1 of described installation by described slide bar sliding sleeve 2, described buoyancy tire 3 is arranged on the bottom in described static measurement storehouse 4, being positioned at below the water surface, synchronously floats along the main slide bar about 1 of described installation in described buoyancy tire 3 and static measurement storehouse 4; The upper end of described static water level pipeline 13 is arranged in described static measurement storehouse 4, the lower end of described static water level pipeline 13 extends to the outside in described static measurement storehouse 4, and be inserted into below the water surface, upper end and the lower end of described static water level pipeline 13 are vertically arranged, the middle part of described static water level pipeline 13 is horizontally disposed with, and described fluviometer 14 is arranged on the one end of the static water level pipeline 13 being positioned at described static measurement storehouse 4; One end of described top supporting rod 5 is horizontally set on the side, top of the main slide bar 1 of described installation, the upper end of described dynamic tidal level dip stick 6 is connected to the other end of described top supporting rod 5, the lower end of described dynamic tidal level dip stick 6 is vertically inserted in below the water surface, is positioned at the side of the main slide bar 1 of described installation; Described multiple tidewater punching grooves 7 are successively set on described dynamic tidal level dip stick 6, described multiple tidewater punching grooves 7 extend to lower end in equilateral triangle structure from the upper end of described dynamic tidal level dip stick 6, and described multiple tide induction installations 8 respectively corresponding embedding are arranged in described multiple tidewater punching grooves 7; Described alarm device 9 is arranged on the upper end of described dynamic tidal level dip stick 6, and is electrically connected with described multiple tide induction installations 8; Described transmitting antenna 12 is arranged on described top supporting rod 5, is positioned at the side of described alarm device 9, and described solar panel 11 is arranged on the top of the main slide bar 1 of described installation by described connecting link 10.
The upper end of described static water level pipeline 13 is provided with anti-overflow cover 15, and described anti-overflow cover 15 is in funnel-form, and described anti-overflow cover 15 is run through in the upper end of described fluviometer 14, tidal level can be prevented too high and pour in static measurement storehouse 4.
The top in described static measurement storehouse 4 is provided with view window 16, is positioned at the top of described anti-overflow cover 15, is convenient to the measurement result of observing fluviometer 14.
At least one deck rubbish filtering net 17 is provided with in described static water level pipeline 13, described rubbish filtering net 17 is arranged on the one end being positioned at described outside, static measurement storehouse 4, can rubbish when tidewater enters static water level pipeline 13 in filtered water, tidewater decorporate after rubbish fall, static water level pipeline 13 can not be blocked.
The outer wall in described static measurement storehouse 4 is provided with one or more balancing weight 18, described balancing weight 18 is structure as a whole with described static measurement storehouse 4, static measurement storehouse 4 can be kept being suspended on the water surface, the flushing resistance in static measurement storehouse 4 can be increased again, extend the serviceable life in static measurement storehouse 4.
The utility model can be arranged on the dykes and dams places such as sea, lake surface, river surface, when tidewater at the incoming tide, tidewater enters in static measurement storehouse 4 from static water level pipeline 13, because static water level pipeline 13 leads to aqueous phase, the height of water level is identical with the height of water level in static water level pipeline 13, static measurement storehouse 4 is calculated along the height installing the floating height of main slide bar 1 and tidewater by fluviometer 14, buoyancy tire 3 can make static measurement storehouse 4 keep being suspended in certain height, to measure the height of static water level accurately in water.
When having stormy waves, tide is flushed on the multiple tidewater punching grooves 7 on dynamic tidal level dip stick 6, multiple tide induction installation 8 can be used for the most significant digit responding to tidewater, when the tide height of tidewater exceeds warning, give the alarm by alarm device 9, also send warning message by transmitting antenna 12 is long-range, be convenient to intelligent monitoring tidal level.
The utility model is powered by solar panel 11, makes full use of the good solar energy in seashore.
In description of the present utility model, it will be appreciated that, term " vertically ", " on ", D score, " vertically ", " upper end ", " lower end ", " bottom ", " interior ", " below ", " level ", " vertically ", " outside ", " side ", " opposite side ", " middle part ", " vertically ", orientation or the position relationship of the instruction such as " top " are based on orientation shown in the drawings or position relationship, only the utility model and simplified characterization for convenience of description, instead of indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.
In the utility model, unless otherwise clearly defined and limited, the term such as term " installation ", " being connected ", " connection ", " fixing " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or integral; Can be mechanical connection, also can be electrical connection; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals or the interaction relationship of two elements, unless otherwise clear and definite restriction.For the ordinary skill in the art, the concrete meaning of above-mentioned term in the utility model can be understood as the case may be.
In sum, the utility model can monitor static height and the tide height of tidal level simultaneously, and long-range transmission hydropac information, be convenient to take counter-measure in time, reduce economic loss and casualties.
The foregoing is only preferred embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every equivalent structure transformation utilizing the utility model description to do; or directly or indirectly use the technical field being attached to other Related products, be all in like manner included in scope of patent protection of the present utility model.
Claims (5)
1. a tidal level measurement mechanism, is characterized in that: comprise and install main slide bar, slide bar sliding sleeve, buoyancy tire, static measurement storehouse, top supporting rod, dynamically tidal level dip stick, multiple tidewater punching groove, multiple tide induction installation, alarm device, connecting link, solar panel, transmitting antenna, static water level pipeline and fluviometer; The main slide bar of described installation is vertically mounted on water surface edge, described slide bar sliding sleeve is coaxially nested with on the main slide bar of described installation, described static measurement storehouse is connected on the main slide bar of described installation by described slide bar sliding sleeve, described buoyancy tire is arranged on the bottom in described static measurement storehouse, being positioned at below the water surface, synchronously floats up and down along the main slide bar of described installation in described buoyancy tire and static measurement storehouse; The upper end of described static water level pipeline is arranged in described static measurement storehouse, the lower end of described static water level pipeline extends to the outside in described static measurement storehouse, and be inserted into below the water surface, upper end and the lower end of described static water level pipeline are vertically arranged, the middle part of described static water level pipeline is horizontally disposed with, and described fluviometer is arranged on the one end of the static water level pipeline being positioned at described static measurement storehouse; One end of described top supporting rod is horizontally set on the side, top of the main slide bar of described installation, the upper end of described dynamic tidal level dip stick is connected to the other end of described top supporting rod, the lower end of described dynamic tidal level dip stick is vertically inserted in below the water surface, is positioned at the side of the main slide bar of described installation; Described multiple tidewater punching grooves are successively set on described dynamic tidal level dip stick, described multiple tidewater punching grooves are that equilateral triangle structure extends to lower end from the upper end of described dynamic tidal level dip stick, and described multiple tide induction installations respectively corresponding embedding are arranged in described multiple tidewater punching grooves; Described alarm device is arranged on the upper end of described dynamic tidal level dip stick, and is electrically connected with described multiple tide induction installations; Described transmitting antenna is arranged on described top supporting rod, is positioned at the side of described alarm device, and described solar panel is arranged on the top of the main slide bar of described installation by described connecting link.
2. tidal level measurement mechanism according to claim 1, is characterized in that: the upper end of described static water level pipeline is provided with anti-overflow cover, and described anti-overflow cover is funnel-form, and described anti-overflow cover is run through in the upper end of described fluviometer.
3. tidal level measurement mechanism according to claim 2, is characterized in that: the top in described static measurement storehouse is provided with view window, is positioned at the top of described anti-overflow cover.
4. tidal level measurement mechanism according to claim 1, is characterized in that: be provided with at least one deck rubbish filtering net in described static water level pipeline, and described rubbish filtering net is arranged on the one end being positioned at described outside, static measurement storehouse.
5. tidal level measurement mechanism according to claim 1, is characterized in that: the outer wall in described static measurement storehouse is provided with one or more balancing weight, and described balancing weight and described static measurement storehouse are structure as a whole.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520804236.0U CN204988429U (en) | 2015-10-14 | 2015-10-14 | Tidewater water level measurement device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520804236.0U CN204988429U (en) | 2015-10-14 | 2015-10-14 | Tidewater water level measurement device |
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CN204988429U true CN204988429U (en) | 2016-01-20 |
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CN201520804236.0U Expired - Fee Related CN204988429U (en) | 2015-10-14 | 2015-10-14 | Tidewater water level measurement device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108562348A (en) * | 2018-05-11 | 2018-09-21 | 张海廷 | A kind of bubble type pressure water-level gauge with hydrostatic device |
CN109564718A (en) * | 2016-06-29 | 2019-04-02 | 安泰克安全公司 | Flood detector and method |
-
2015
- 2015-10-14 CN CN201520804236.0U patent/CN204988429U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109564718A (en) * | 2016-06-29 | 2019-04-02 | 安泰克安全公司 | Flood detector and method |
CN108562348A (en) * | 2018-05-11 | 2018-09-21 | 张海廷 | A kind of bubble type pressure water-level gauge with hydrostatic device |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160120 Termination date: 20171014 |
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CF01 | Termination of patent right due to non-payment of annual fee |