CN217716484U - Sponge city monitoring annual runoff total amount control rate monitoring devices - Google Patents
Sponge city monitoring annual runoff total amount control rate monitoring devices Download PDFInfo
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- CN217716484U CN217716484U CN202221309908.7U CN202221309908U CN217716484U CN 217716484 U CN217716484 U CN 217716484U CN 202221309908 U CN202221309908 U CN 202221309908U CN 217716484 U CN217716484 U CN 217716484U
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- rain gauge
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- doppler flowmeter
- control rate
- data processor
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Abstract
The utility model belongs to the technical field of the data monitoring technique and specifically relates to a sponge city monitoring year runoff total control rate monitoring devices, including rain gauge and doppler flowmeter, rain gauge and doppler flowmeter electricity connect in same equipment data processor, equipment data processor and place in the host computer box for the battery of its power supply, the host computer box is fixed in the pole setting top, the pole setting side is connected with for the solar panel of battery power supply and the hydrology observation camera of electricity connection in equipment data processor, rain gauge, doppler flowmeter and hydrology observation camera are by the battery power supply. The rain gauge and the Doppler flowmeter are electrically connected to the same equipment data processor, the equipment data processor synchronously collects data of the rain gauge and the Doppler flowmeter, one-to-one correspondence of the data of the rain gauge and the Doppler flowmeter is realized, data abnormity caused by time difference is reduced, and the annual runoff total control rate is obtained through calculation and processing of a large amount of data.
Description
Technical Field
The utility model belongs to the technical field of the data monitoring technique and specifically relates to a sponge city monitoring annual runoff total amount control rate monitoring devices.
Background
The core content of sponge project construction is to manage and control rainwater runoff, and by applying the sponge effect, sponge construction projects are systematically managed by seepage, stagnation, storage, purification, utilization, drainage and other methods for source emission reduction, process control and the like. The annual runoff total control rate is one of important indexes for evaluating the construction quality of the sponge city and is obtained by collecting the runoff total discharged by a project and the field rainfall when rainfall occurs. When the sponge city construction effect of a construction project is measured, an actual monitoring method is usually adopted, and continuous automatic detection is needed for at least 1 year at a facility overflow outlet or a user well connected to a municipal pipe duct in a sponge construction project area, so that rainfall data and outward runoff are obtained.
However, the prior art only has a separate rain gauge and a Doppler flowmeter, and the annual runoff total control rate data of the sponge city cannot be directly obtained; secondly, the existing devices in the market are that a rain gauge and a flow meter are separated and independent, respective host computers are required to receive respective data, the rain data and the flow data cannot be in real-time correspondence, and data receipts are prone to time difference, so that data abnormity is caused; sponge city monitoring requires continuous monitoring for at least 1 year at least, adopts the battery power supply at present, needs often to charge to the battery to and there are the artifical shortcoming such as big, the measurement accuracy is low of input volume in the manual monitoring.
SUMMERY OF THE UTILITY MODEL
The to-be-solved technical problem of the utility model is: in order to overcome the defects in the prior art, the device for monitoring the annual runoff total quantity control rate of the sponge city is provided.
The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a sponge city monitoring year runoff total amount control rate monitoring devices, includes rain gauge and Doppler flowmeter, rain gauge and Doppler flowmeter electricity connect in same equipment data processor, equipment data processor and place in the host computer box for the battery of its power supply, the host computer box is fixed in the pole setting top, the pole setting side is connected with for the solar panel of battery power supply and the hydrology observation camera of electricity connection in equipment data processor, rain gauge, doppler flowmeter and hydrology observation camera are supplied power by the battery. The solar panel obtains heat energy and converts the heat energy into electric energy, the storage battery is charged through solar energy in clear weather, power is supplied to the rain gauge, the Doppler flowmeter, the equipment data processor and the hydrological observation camera, the requirement that the annual runoff total control rate needs to be continuously monitored for at least one year on a project site is met, and the problem that the existing equipment needs to be frequently disassembled and charged is solved. The hydrologic observation camera is used for recording river images and the running condition of remote monitoring equipment, remotely monitoring the real-time hydrologic condition of a river, including the conditions of the water level, the water temperature, the river channel and the like of the river, analyzing data in time, realizing alarm when a flood warning line is touched, and having important significance in the aspects of early warning flood accidents, avoiding personnel and economic loss and the like.
The rain gauge and the Doppler flowmeter are electrically connected to the same equipment data processor, the equipment data processor synchronously collects data of the rain gauge and the Doppler flowmeter, one-to-one correspondence of the data of the rain gauge and the Doppler flowmeter is realized, data abnormity caused by time difference is reduced, and the annual runoff total control rate is obtained through calculation and processing of a large amount of data. Meanwhile, a data transmitter can be arranged, monitoring data can be obtained remotely, and monitoring working efficiency is improved. The above data calculation can be simply realized by the existing computer program.
Preferably, the host box can be waterproof, protects and prevents the storage battery and the equipment data processing box from being exposed to the sun and rain, and can meet the installation requirements of the rain gauge and the Doppler flow meter on a project site. The problem that the Doppler flowmeter needs to be installed indoors is solved, the length of a data transmission line can be greatly shortened, and the power consumption of a host is saved.
Furthermore, the Doppler flowmeter is provided with a plurality of extending wing plates fixed on two sides of the Doppler flowmeter. The fixed extension wing is arranged on two sides of the Doppler flow meter, the position of the Doppler flow meter is fixed by the pressure of water on the wing plate under water, and the interference of water flow on the Doppler flow meter is prevented.
Furthermore, the bottom of the main box is provided with an outlet hole for the equipment data processor and the storage battery.
Furthermore, the rain gauge is installed at the top of the host box through a support nut, and a leveling pipe is arranged at the bottom of the rain gauge. The height of the supporting nut and the level pipe at the bottom of the rain gauge are adjusted to calibrate whether the rain gauge is in a horizontal state, and finally the rain gauge is fixed by upper locking.
Furthermore, solar panel install in the pole setting through three supports, three supports all adopt telescopic rod structure and switching in the pole setting. Each support can be contracted and adjusted in angle, so that the solar panel is ensured to collect heat energy as much as possible.
Furthermore, the vertical rod is fixed on the base, and during installation, the base is cast in situ to ensure the verticality of the vertical rod, resist certain external force, prevent equipment from overturning and play a role in theft prevention.
The utility model has the advantages that: the rain gauge and the Doppler flowmeter are electrically connected to the same equipment data processor, the equipment data processor synchronously collects data of the rain gauge and the Doppler flowmeter, one-to-one correspondence of the data of the rain gauge and the Doppler flowmeter is realized, data abnormity caused by time difference is reduced, and the annual runoff total control rate is obtained through calculation and processing of a large amount of data.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings 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 for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.
Fig. 1 is a schematic structural diagram of the present invention.
Reference numbers in the figures: 1-a rain gauge, 2-a Doppler flowmeter, 3-a host box, 4-an equipment data processor, 5-solar equipment, 6-a hydrological observation camera, 7-a vertical rod, 8-a base, 21-an extension wing plate, 41-a storage battery, 42-a wire outlet hole and 43-a leveling pipe.
Detailed Description
In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.
FIG. 1 shows a sponge city monitoring year runoff total amount control rate monitoring devices, including rain gauge 1 and Doppler flowmeter 2, rain gauge 1 and Doppler flowmeter 2 electricity connect in same equipment data processor 4, equipment data processor 4 and place in host computer box 3 for the battery 41 of its power supply, host computer box 3 is fixed in pole setting 7 top, pole setting 7 side is connected with for the solar panel 5 of battery 41 power supply and the hydrology observation camera 6 of electricity connection in equipment data processor 4, rain gauge 1, doppler flowmeter 2 and hydrology observation camera 6 are supplied power by battery 41. The solar panel obtains heat energy and converts the heat energy into electric energy, the storage battery is charged through solar energy in clear weather, power is supplied to the tipping bucket type rain gauge, the Doppler flowmeter, the equipment data processor and the hydrological observation camera, the requirement that the annual runoff total control rate needs to be continuously monitored for at least one year on a project site is met, and the problem that the existing equipment needs to be frequently disassembled and charged is solved. The hydrologic observation camera 6 is used for recording river images and the running condition of remote monitoring equipment, remotely monitoring the real-time hydrologic condition of a river, including the conditions of the water level, the water temperature, the river channel and the like, analyzing data in time, realizing alarm when a flood warning line is touched, and having important significance in the aspects of early warning flood accidents, avoiding personnel and economic loss and the like.
The tipping bucket rain gauge 1 and the Doppler flowmeter 2 are electrically connected to the same equipment data processor 4, the equipment data processor 4 synchronously collects data of the tipping bucket rain gauge 1 and the Doppler flowmeter 2, one-to-one correspondence of the data of the tipping bucket rain gauge 1 and the Doppler flowmeter is realized, data abnormity caused by time difference is reduced, and the annual runoff total control rate is obtained through calculation and processing of a large amount of data. Meanwhile, a data transmitter can be arranged, monitoring data can be obtained remotely, and monitoring working efficiency is improved. The above data calculation can be simply realized by the existing computer program.
Preferably, the main box 3 can prevent water, protect and prevent the storage battery and the equipment data processing box from being exposed to the sun and rain, and can meet the installation requirements of the tipping bucket rain gauge 1 and the Doppler flow meter 2 on a project site simultaneously. The problem that the Doppler flowmeter needs to be installed indoors is solved, the length of a data transmission line can be greatly shortened, and the power consumption of a host is saved.
The doppler flow meter 2 is provided with a plurality of extending flaps 21 fixed to both sides thereof. The fixed extension wing is arranged on each of the two sides of the Doppler flow meter, the Doppler flow meter is fixed under water through the pressure of water on the wing plates, and the interference of water flow on the Doppler flow meter is prevented.
The bottom of the main box 3 is provided with an outlet hole 42 for the equipment data processor 4 and the storage battery 41.
The tipping bucket type rain gauge 1 is arranged at the top of the main machine box 3 through a support nut, and the bottom of the tipping bucket type rain gauge 1 is provided with a leveling pipe 43. The skip bucket type rain gauge is calibrated whether to be in a horizontal state or not by adjusting the height of the supporting nut and the level pipe 43 at the bottom of the skip bucket type rain gauge, and finally the gauge is fixed by upper locking.
The upright stanchion 7 is fixed on the base 8, and during installation, the base 8 is cast in situ to ensure the verticality of the upright stanchion 7, resist certain external force, prevent equipment from overturning and play a role of theft prevention.
Above, only be the embodiment of the preferred of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the design of the present invention, equivalent replacement or change should be included in the protection scope of the present invention.
Claims (6)
1. The utility model provides a sponge city monitoring year runoff total amount control rate monitoring devices, includes rain gauge (1) and Doppler flowmeter (2), its characterized in that: rain gauge (1) and Doppler flowmeter (2) electricity connect in same equipment data processor (4), equipment data processor (4) and place in host computer box (3) for battery (41) of its power supply, host computer box (3) are fixed in pole setting (7) top, pole setting (7) side is connected with solar panel (5) and the hydrology observation camera (6) of electricity connection in equipment data processor (4) for battery (41) power supply, rain gauge (1), doppler flowmeter (2) and hydrology observation camera (6) are supplied power by battery (41).
2. The device for monitoring the annual runoff total amount control rate in the sponge city according to claim 1, wherein: the Doppler flowmeter (2) is provided with a plurality of extending wing plates (21) which are fixed on two sides of the Doppler flowmeter.
3. The device for monitoring the total annual runoff quantity control rate in the sponge city according to claim 1, which is characterized in that: and the bottom of the main case (3) is provided with an equipment data processor (4) and a wire outlet hole (42) for a storage battery (41).
4. The device for monitoring the total annual runoff quantity control rate in the sponge city according to claim 1, which is characterized in that: the rain gauge (1) is installed at the top of the host box (3) through a support nut, and a leveling pipe (43) is arranged at the bottom of the rain gauge (1).
5. The device for monitoring the annual runoff total amount control rate in the sponge city according to claim 1, wherein: solar panel (5) install on pole setting (7) through three supports, three supports all adopt telescopic rod structure and switching on pole setting (7).
6. The device for monitoring the annual runoff total amount control rate in the sponge city according to claim 1, wherein: the upright stanchion (7) is fixed on the base (8).
Priority Applications (1)
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CN202221309908.7U CN217716484U (en) | 2022-05-27 | 2022-05-27 | Sponge city monitoring annual runoff total amount control rate monitoring devices |
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CN202221309908.7U CN217716484U (en) | 2022-05-27 | 2022-05-27 | Sponge city monitoring annual runoff total amount control rate monitoring devices |
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CN217716484U true CN217716484U (en) | 2022-11-01 |
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CN202221309908.7U Active CN217716484U (en) | 2022-05-27 | 2022-05-27 | Sponge city monitoring annual runoff total amount control rate monitoring devices |
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2022
- 2022-05-27 CN CN202221309908.7U patent/CN217716484U/en active Active
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