CN218511753U - Tidal river reach monitoring device - Google Patents

Abstract

The application discloses tidal river reach monitoring devices, including the floater piece and connect the crossbeam, the floater piece has 2, the floater piece is square strip form or cylindricly, it has many to connect the crossbeam, and two floater piece fixed fit are in the same place respectively at the both ends of connecting the crossbeam, and two floater pieces are in the state of parallel, and two floater pieces are not on a straight line, connect the crossbeam and be located the state of parallel, be provided with the microscope carrier between two floater pieces, just the microscope carrier is located floater one side. The device has the following beneficial effects: through adopting square strip or cylindric body piece, then two body pieces are connected fixedly together through connecting the crossbeam, and two body pieces are fixed together and have formed the structure of a similar catamaran, have good anti-storm ability, and stability is stronger, for the triangle body, is difficult for toppling.

Description

Tidal river reach monitoring device

Technical Field

The utility model relates to a hydrology monitoring facilities field especially relates to a tide river reach monitoring devices.

Background

The water flow movement under the estuary and coastal environment is influenced by the fluctuation of tides, particularly at the estuary of Zhejiang coastal river and a few estuaries, the hydrodynamic force is strong, the water level and the flow velocity have sudden changes when strong tides arrive, if the water level of the Qiantang river can rise steeply within more than 2m within a few minutes when the tides of the Qiantang river arrive, the water flow direction is changed from falling tides to rising tides, and severe scouring and silting changes of the riverbed are caused. The water and sand movement characteristics under the strong tide conditions bring great difficulty to the field hydrological test, and testers often put the floating body carrying the instrument into an observation water area for observation.

Patent publication CN206344969U discloses a floating body capable of monitoring the hydrology of a tidal river reach, which is formed by installing a plurality of monitoring devices on a life buoy which can be regarded as a triangle, and the floating body of the structure has relatively poor wind and wave resistance and is easy to overturn when encountering severe weather.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above-mentioned problem, a tidal river reach monitoring devices is proposed.

The utility model adopts the following technical scheme:

the utility model provides a tidal river reach monitoring devices, includes the float block and connects the crossbeam, the float block has 2, the float block is square strip form or cylindric, it has many to connect the crossbeam, connects two both ends of crossbeam respectively two float blocks fixed fit together, and two float blocks are in parallel state, and two float blocks are not on a straight line, connect the crossbeam and be in parallel state, be provided with the microscope carrier between two float blocks, just the microscope carrier is located float one side.

Among this kind of monitoring devices, through adopting square strip or cylindric body piece, then two body pieces are connected fixedly together through connecting the crossbeam, and the body piece is in parallel state, and connects the crossbeam and be in parallel state, so two body pieces are fixed together and have formed the structure of a similar catamaran in this device, and this kind of catamaran structure has good anti-storm ability, and stability is stronger, for the triangle body, is difficult for toppling.

Optionally, the device further comprises an ADCP tide meter and an OTS turbidity meter, wherein the ADCP tide meter and the OTS turbidity meter are both arranged on the floating body block.

ADCP tidal meters and OTS nephelometers are used to measure the hydrological conditions of tidal sections.

Optionally, the device further comprises a data remote measurement controller, the data remote measurement controller is arranged on the carrier, and the ADCP tide meter and the OTS turbidity meter are electrically connected with the data remote measurement controller.

The data telemetering controller is used for collecting and recording data collected by the ADCP tide meter and the OTS turbidity meter, and relevant information is transmitted to the hydrological monitoring hollow server through the wireless communication module of the data telemetering controller after relevant data are collected and recorded. And the data telemetering controller in the device is provided with a storage battery which is used for supplying power to equipment such as an ADCP (advanced digital control protocol) tidal current instrument, an OTS (optical time series) turbidity instrument and a positioning instrument.

Optionally, the system further comprises a positioning instrument, and the positioning instrument is arranged on the carrying platform.

The specific locator is also electrically connected with the data telemetering controller. The position finder is used for locating the position of the whole device, and then transmits position information to the hydrological monitoring hollow server through the data remote-measuring controller.

Optionally, the system further comprises an air temperature and air pressure telemeter, wherein the air temperature and air pressure telemeter is arranged on the carrying platform.

The air temperature and pressure telemeter is used for monitoring the air temperature and pressure of the river reach where the device is located.

Optionally, the wind speed and direction sensor is further included, and the wind speed and direction sensor is arranged on the carrying platform.

The wind speed and direction sensor is used for monitoring the wind speed and direction of the river reach where the device is located.

Optionally, a warning light is arranged on the carrying platform.

Optionally, a flag is arranged on the carrying platform.

The warning lamp and the flag have the functions of warning and warning passing ships.

The utility model has the advantages that: by adopting the square strip-shaped or cylindrical floating body blocks, the two floating body blocks are connected and fixed together through the connecting beam, and the two floating body blocks are fixed together to form a structure similar to a catamaran, so that the structure has good wind and wave resistance and stronger stability, and is not easy to overturn compared with a triangular floating body.

Description of the drawings:

FIG. 1 is a top view of a tidal stream segment monitoring installation;

fig. 2 is a side view of a tidal river reach monitoring device.

The figures are numbered: 1. floating body blocks; 2. connecting the cross beam; 3. a stage; 4. an air temperature and air pressure telemeter; 5. a data telemetry controller; 6. a wind speed and direction sensor; 7. a warning light; 8. a flag; 9. an ADCP tidal current instrument; 10. OTS turbidimeter.

The specific implementation mode is as follows:

the present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1 and fig. 2, the tidal river reach monitoring device comprises floating body blocks 1 and a connecting beam 2, wherein the floating body blocks 1 are 2, the floating body blocks 1 are square or cylindrical, the connecting beam 2 is provided with a plurality of floating body blocks, two ends of the connecting beam 2 are respectively fixedly matched with the two floating body blocks 1, the two floating body blocks 1 are in a parallel state, the two floating body blocks 1 are not in a straight line, the connecting beam 2 is in a parallel state, a carrier 3 is arranged between the two floating body blocks 1, and the carrier 3 is positioned on one side of the floating body.

In this kind of monitoring devices, through adopting square strip or cylindric body piece 1, then two body pieces 1 are connected fixedly together through connecting crossbeam 2, and body piece 1 is in parallel state, and connects crossbeam 2 and be in parallel state, so two body pieces 1 are fixed together and have formed the structure of a similar catamaran in this device, and this kind of catamaran structure has good anti-storm ability, and stability is stronger, for the triangle body, is difficult for toppling.

As shown in fig. 1 and fig. 2, the device further comprises an ADCP tide instrument 9 and an OTS turbidity instrument 10, wherein the ADCP tide instrument 9 and the OTS turbidity instrument 10 are both arranged on the floating body block 1.

The ADCP tide gauge 9 and OTS turbidity gauge 10 are for measuring the hydrological conditions of the tidal stream.

As shown in fig. 1 and fig. 2, the device further comprises a data remote measurement controller 5, the data remote measurement controller 5 is arranged on the carrier 3, and the ADCP tide meter 9 and the OTS turbidity meter 10 are electrically connected with the data remote measurement controller 5.

The data telemetering controller 5 is used for collecting and recording data collected by the ADCP tide meter 9 and the OTS turbidity meter 10, and the data telemetering controller 5 transmits relevant information to the hydrologic monitoring hollow server through a wireless communication module of the data telemetering controller 5 after collecting and recording relevant data. And the data telemetering controller 5 in the device is provided with a storage battery which is used for supplying power to the ADCP tide meter 9, the OTS turbidity meter 10, the orientator and other equipment.

As shown in fig. 1 and 2, the device further includes a positioning instrument, and the positioning instrument is disposed on the carrier 3.

The specific locator is also electrically connected with the data telemetering controller 5. The position finder is used for locating the position of the whole device, and then transmits position information to the hydrologic monitoring hollow server through the data remote-measuring controller 5. The positioning device used in this embodiment may be a GPS positioning device.

As shown in fig. 1 and 2, the air temperature and pressure remote sensing device further comprises an air temperature and pressure remote sensing device 4, and the air temperature and pressure remote sensing device 4 is arranged on the carrying platform 3.

The air temperature and pressure telemeter 4 is used for monitoring the air temperature and pressure of the river reach where the device is located.

As shown in fig. 1 and 2, the wind speed and direction sensor is further included, and is disposed on the carrier 3.

The wind speed and direction sensor 6 is used for monitoring the wind speed and direction of the river reach where the device is located.

As shown in fig. 1 and 2, a warning lamp 7 is provided on the stage 3.

As shown in fig. 1 and 2, a flag 8 is provided on the stage 3.

The warning lamp 7 and the flag 8 play a warning role and warn passing ships.

The above only is the preferred embodiment of the present invention, not therefore the limitation of the patent protection scope of the present invention, all applications the equivalent transformation made by the content of the specification of the present invention, directly or indirectly applied to other related technical fields, all included in the protection scope of the present invention.

Claims (8)

1. The tidal river reach monitoring device is characterized by comprising 2 floating body blocks and a connecting beam, wherein the floating body blocks are in a square strip shape or a cylindrical shape, the connecting beam is provided with a plurality of connecting beams, two ends of the connecting beam are respectively fixedly matched with the two floating body blocks, the two floating body blocks are in a parallel state, the two floating body blocks are not in a straight line, the connecting beam is in a parallel state, a carrier is arranged between the two floating body blocks, and the carrier is positioned on one side of the floating body.

2. The tidal river reach monitoring device of claim 1, further comprising an ADCP tide meter and an OTS turbidity meter, both disposed on the float block.

3. The tidal stream segment monitoring device of claim 2, further comprising a data telemetry controller, wherein the data telemetry controller is disposed on the carrier, and the ADCP tidal flow instrument and the OTS turbidity instrument are electrically connected to the data telemetry controller.

4. The tidal river reach monitoring device of claim 1, further comprising a positioning instrument disposed on the carrier.

5. The tidal stream segment monitoring device of claim 1, further comprising an air temperature and pressure telemeter disposed on the carrier.

6. The tidal stream segment monitoring device of claim 1, further comprising a wind speed and direction sensor, the wind speed and direction sensor being disposed on the carrier.

7. The tidal stream segment monitoring device of claim 1 wherein the carrier is provided with a warning light.

8. The tidal river reach monitoring device of claim 1, wherein a flag is provided on the carrier.

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