CN218002745U - A vertical temperature monitoring devices for reservoir area - Google Patents
A vertical temperature monitoring devices for reservoir area Download PDFInfo
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- CN218002745U CN218002745U CN202221857902.3U CN202221857902U CN218002745U CN 218002745 U CN218002745 U CN 218002745U CN 202221857902 U CN202221857902 U CN 202221857902U CN 218002745 U CN218002745 U CN 218002745U
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Abstract
The utility model provides a vertical temperature monitoring devices for reservoir area, including floating the body, set up in the temperature chain and the anchor subassembly of floating body bottom and set up on floating the body and distribute in the data processing system of the temperature sensor signal connection on the temperature chain with the equidistance, still be provided with on the floating body with data processing system signal connection and be used for the wireless transmission system of outside communication and carry out the battery and the power generation subassembly that supply power to the power consumption unit among the monitoring devices, the power generation subassembly includes wind power generation unit and solar electric power generation unit, the expansion end of temperature chain is provided with the balancing weight. The utility model provides a vertical temperature monitoring devices for reservoir area that can real time monitoring temperature, the control degree of accuracy height and stability are good, it has solved the poor problem of vertical temperature monitoring accuracy that exists among the prior art.
Description
Technical Field
The utility model relates to a temperature monitoring technology field especially relates to a vertical temperature monitoring devices for reservoir area.
Background
The construction of the reservoir inevitably changes the original water flow condition and hydrologic situation of the natural river channel, so that the water level in the reservoir is increased and the flow speed is reduced; the downstream of the dam site is influenced by dam discharge and power station operation, the water saving temperature in autumn and winter is increased compared with the natural condition, and the water saving temperature in spring and summer is reduced compared with the natural condition. These changes may adversely affect the irrigation of aquatic organisms, and crops in the engineered areas, in the reservoirs and under the dams.
The water temperature monitoring work is carried out, the layered water taking scheduling measures in the operation period can be optimized, the influence of low-temperature water is relieved, the requirements of irrigated crops and downstream ecological environment on the water temperature are guaranteed, and the stability of a downstream aquatic ecosystem is maintained.
At present, the domestic hydrological station mainly adopts a manual measurement method to measure and report the water temperature, the method consumes manpower resources, and potential safety hazards exist during flood. Also adopt vertical temperature real-time supervision device, but current vertical temperature real-time supervision device can only carry out the data monitoring of single point, the temperature of the reflection water that is difficult to accurate to poor stability.
SUMMERY OF THE UTILITY MODEL
To exist not enough among the prior art, the utility model provides a can real time monitoring temperature, the high and stable good vertical temperature monitoring devices who is used for reservoir area of the control degree of accuracy, it has solved the poor problem of vertical temperature monitoring accuracy that exists among the prior art.
According to the embodiment of the utility model, a vertical temperature monitoring devices for reservoir area, including floating the body, set up in the temperature chain and the anchor subassembly of floating the body bottom and set up on floating the body and distribute the data processing system of the temperature sensor signal connection on the temperature chain with the equidistance, float and still be provided with on the body with data processing system signal connection and be used for the wireless transmission system of outside communication and carry out the battery and the power generation subassembly that supply power to the power consumption unit among the monitoring devices, the power generation subassembly includes wind power generation unit and solar electric energy generation unit, the expansion end of temperature chain is provided with the balancing weight.
Preferably, the upper portion of the floating body is provided with a mounting base, the wind power generation unit is a wind power generation unit arranged at the top of the mounting base, and the solar power generation unit is a solar power generation unit rotatably arranged on the opposite side wall of the mounting base.
Preferably, the data processing system and the wireless transmission system are both arranged in the mounting cavity in the mounting seat, the data processing system comprises a data processing module and a storage module, the wireless transmission system comprises a signal receiver, a communication module and a positioning module, and the signal receiver and the communication module are in signal connection with the data processing module.
Preferably, the installation cavity is sealed, the top ends of the signal receiver and the communication module penetrate through the top wall of the installation seat, and a drying agent bag is arranged in the installation cavity.
Preferably, an access door is arranged on the mounting seat, a waterproof sealing strip is arranged at the edge of the access door, and the access door is fixed on the mounting seat through a screw with a sealing washer.
Compared with the prior art, the utility model discloses following beneficial effect has:
1. the floating body is pulled by the anchoring part, floats on the water surface, the temperature chain is perpendicular to the water surface through the balancing weight, the temperatures of different water levels can be obtained according to the distance between the temperature sensors on the temperature chain and the temperature value obtained by the temperature sensors, and the real-time monitoring of the temperatures of different water levels is realized; the measured data are input into a data processing system, the data processing system amplifies and converts the data to obtain an accurate temperature value, and the temperature value is sent to a remote server through a wireless transmission system so that a user can log in a platform to browse, inquire and export the data.
2. The wind power generation unit and the solar power generation unit can supply power, and can store the residual electric quantity through the storage battery.
Drawings
Fig. 1 is a schematic diagram of an internal structure of an embodiment of the present invention.
Fig. 2 is an enlarged view of the area a in fig. 1.
Fig. 3 is a schematic diagram of connection between related components in an embodiment of the present invention.
In the above drawings: 1. a floating body; 11. a mounting seat; 12. a mounting cavity; 13. an access door; 2. a temperature chain; 21. a temperature sensor; 22. a rope body; 23. a balancing weight; 3. an anchor assembly; 31. an anchoring member; 32. a hauling rope; 4. a data processing system; 41. a data processing module; 42. a storage module; 5. a wireless transmission system; 51. a signal receiver; 52. a communication module; 53. a positioning module; 6. a solar power generator set; 61. a solar power panel; 62. an electric telescopic member; 7. a wind generating set; 8. a storage battery; 9. and a locking member.
Detailed Description
The technical solution of the present invention will be further explained with reference to the accompanying drawings and embodiments.
As shown in fig. 1-3. The utility model provides a vertical temperature monitoring devices for reservoir area, including floating body 1, set up in the temperature chain 2 and the anchor subassembly 3 of floating body 1 bottom and set up in floating body 1 and distribute in the data processing system 4 of the 21 signal connection of temperature sensor on temperature chain 2 with the equidistance, float and still be provided with on the body 1 and be used for the wireless transmission system 5 of outside communication with data processing system 4 signal connection and to carry out the battery 8 and the power generation subassembly that supplies power to the power consumption unit among the monitoring devices, the power generation subassembly includes wind power generation unit and solar energy power generation unit, the expansion end of temperature chain 2 is provided with balancing weight 23.
When in use, the monitoring device is placed in a water area to be measured in a reservoir, an anchoring piece 31 (such as an anchoring pier) in the anchoring component 3 is anchored at the bottom of the reservoir, the anchoring piece 31 is connected with the floating body 1 through a traction rope 32, and the length of the traction rope 32 is larger than the water depth of the reservoir; temperature chain 2 includes the rope body 22, temperature sensor 21 ligature is on the rope body 22, according to the monitoring needs, set up the interval between the adjacent temperature sensor 21, it straightens rope body 22 through balancing weight 23 on the rope body 22 expansion end, after the temperature of different water levels is obtained through temperature sensor 21, send temperature signal to data processing system 4, set up signal amplifier in the data processing system 4, AD converter and main control computer, carry out accurate processing with the data that temperature sensor 21 monitored obtained, the water temperature data remote transmission of different water levels that will signal monitoring through wireless transmission system 5 at last to the server, in order to supply the user to log in the platform and carry out browsing of data, operations such as inquiry and derivation.
As shown in fig. 1, to enable power to be supplied to the monitoring assembly. The upper portion of the floating body 1 is provided with a mounting seat 11, the wind power generation unit is a wind power generation unit 7 arranged at the top of the mounting seat 11, and the solar power generation unit is a solar power generation unit 6 rotatably arranged on the opposite side wall of the mounting seat 11.
The solar generator set 6 comprises a solar power generation plate 61 with one end hinged to the top of the side wall of the mounting seat 11 and an electric telescopic piece 62 with one end hinged to the bottom of the side wall of the mounting seat 11, and the movable end of the electric telescopic piece 62 is hinged to the movable end of the solar power generation plate 61; through electronic extensible member 62 control solar panel 61's inclination, like this, when improving solar panel 61's generating power, can also realize preventing wind of solar panel 61 through income solar panel 61, solar panel 61 sets up along mount pad 11 mirror symmetry, improves monitoring devices's stability.
As shown in fig. 1. The data processing system 4 and the wireless transmission system 5 are both arranged in the installation cavity 12 inside the installation seat 11, the data processing system 4 comprises a data processing module 41 and a storage module 42, the wireless transmission system 5 comprises a signal receiver 51, a communication module 52 and a positioning module 53, and the signal receiver 51 and the communication module 52 are in signal connection with the data processing module 41. The temperature sensor 21 is a BGK-3700P platinum resistor temperature sensor, the data processing system 4 is a BGK-Micro acquisition system, and the positioning module 53 is a Beidou or GPS positioning module, so that the positioning accuracy of the positioning module 53 is enhanced.
As shown in fig. 1. The installation cavity 12 is sealed, the top ends of the signal receiver 51 and the communication module 52 penetrate through the top wall of the installation seat 11, and a drying agent bag is arranged in the installation cavity 12. In order to prevent the electronic components inside the installation cavity 12 from being affected with damp, the installation cavity 12 is sealed, and a desiccant bag is arranged to prolong the service life of the monitoring device.
As shown in fig. 1-2. Be provided with access door 13 on the mount pad 11, the edge of access door 13 is provided with waterproof sealing strip, and access door 13 is fixed in through the screw of taking seal ring on the mount pad 11. One end of the access door 13 is hinged with the mounting seat 11, and the other end of the access door is connected with the access door 13 through a locking piece 9 (namely a screw).
Claims (5)
1. The utility model provides a vertical temperature monitoring devices for reservoir area which characterized in that: including floating body (1), set up in floating temperature chain (2) and anchor subassembly (3) of body (1) bottom and set up on floating body (1) and with temperature sensor (21) signal connection's on temperature chain (2) data processing system (4) of equidistance distribution, still be provided with on floating body (1) and be used for wireless transmission system (5) of outside communication with data processing system (4) signal connection and battery (8) and the power generation subassembly that supplies power to the power consumption unit among the monitoring devices, the power generation subassembly includes wind power generation unit and solar power generation unit, the expansion end of temperature chain (2) is provided with balancing weight (23).
2. A vertical water temperature monitoring device for a reservoir as defined in claim 1 wherein: the solar floating body is characterized in that a mounting seat (11) is arranged on the upper portion of the floating body (1), the wind power generation unit is a wind power generation unit (7) arranged at the top of the mounting seat (11), and the solar power generation unit is a solar power generation unit (6) rotatably arranged on the opposite side wall of the mounting seat (11).
3. A vertical water temperature monitoring device for a reservoir as defined in claim 2 wherein: data processing system (4) and wireless transmission system (5) all set up in installation cavity (12) inside mount pad (11), data processing system (4) include data processing module (41) and storage module (42), wireless transmission system (5) include signal receiver (51), communication module (52) and orientation module (53), signal receiver (51) and communication module (52) and data processing module (41) signal connection.
4. A vertical water temperature monitoring device for a reservoir as defined in claim 3 wherein: the mounting cavity (12) is arranged in a sealing mode, the top ends of the signal receiver (51) and the communication module (52) penetrate through the top wall of the mounting seat (11), and a drying agent bag is arranged in the mounting cavity (12).
5. A vertical water temperature monitoring device for a reservoir as defined in claim 2 wherein: be provided with access door (13) on mount pad (11), the edge of access door (13) is provided with waterproof sealing strip, and access door (13) are fixed in through the screw of taking seal ring on mount pad (11).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202221857902.3U CN218002745U (en) | 2022-07-19 | 2022-07-19 | A vertical temperature monitoring devices for reservoir area |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202221857902.3U CN218002745U (en) | 2022-07-19 | 2022-07-19 | A vertical temperature monitoring devices for reservoir area |
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CN218002745U true CN218002745U (en) | 2022-12-09 |
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CN202221857902.3U Active CN218002745U (en) | 2022-07-19 | 2022-07-19 | A vertical temperature monitoring devices for reservoir area |
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2022
- 2022-07-19 CN CN202221857902.3U patent/CN218002745U/en active Active
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