CN202599447U - Dam measuring and reporting instrument with wind-light complementary power generation system for power supply - Google Patents
Dam measuring and reporting instrument with wind-light complementary power generation system for power supply Download PDFInfo
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- CN202599447U CN202599447U CN2012202835083U CN201220283508U CN202599447U CN 202599447 U CN202599447 U CN 202599447U CN 2012202835083 U CN2012202835083 U CN 2012202835083U CN 201220283508 U CN201220283508 U CN 201220283508U CN 202599447 U CN202599447 U CN 202599447U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/70—Wind energy
- Y02E10/72—Wind turbines with rotation axis in wind direction
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Abstract
The utility model relates to a dam measuring and reporting instrument with a wind-light complementary power generation system for power supply, belonging to the technical field of new energy application. Wind blows blades to rotate, a wind power generator is driven to generate current and the current is input into a current collector through conducting wires; and a solar cell generates current under the irradiation of sunlight, the current is input into the current collector through conducting wires. After the current collector gathers the two loops of current, the current is input into a controller for adjustment through conducting wires, current which is output from the controller is used for supplying power to an information collector and an information processor through conducting wires and simultaneously charging an energy storage battery, and when the wind power generator and the solar cell do not generate current, the energy storage battery can also supply power to the entire device. When information received by the information processor exceeds a set alarm range, an alarm lamp starts flashing; and at the same time, the information processor transmits the information through a transmitting antenna, an information processing center receives the information through a receiving antenna, a disaster prevention center can know that a safety danger occurs in a dam, and personnel can be dispatched in time to prevent the danger from being expanded.
Description
Technical field
The utility model relates to a kind of dam monitoring equipment with the wind and solar hybrid generating system power supply, belongs to technical field of new energy application.
Background technology
At present; Existing dam monitoring equipment need rely on the external power power supply and could work, when dam or reservoir dam are installed in the section, because the scope of installing is big, distance; Also supporting electric supply installation need be installed; Long distance sockets supply lines, has not only strengthened cost, also receives the restriction of externally fed easily.When especially the dam monitoring equipment being installed on some river dams, because the isolated area of river course dam process is many, it is big that supporting electric supply installation difficulty is installed.
Simultaneously, dam is in relative eminence again, has abundant wind resource and solar radiation, but these regenerative resources that do not have to pollute are by good good utilisation, waste in vain.
The utility model content
The purpose of the utility model is to overcome above-mentioned weak point, and a kind of dam monitoring equipment with the wind and solar hybrid generating system power supply is provided.The electric power that produces through aerogenerator and solar cell makes the dam monitoring equipment not rely on the external power power supply for the dam monitoring equipment provides electric power; In the isolated area that some external powers of dam process are difficult to insert, also the dam monitoring equipment can be installed as required, the security situation of dam is observed and predicted, make the center of taking precautions against natural calamities can understand the dam safety information in each location.
Along with the development of new energy technology, the maturation of wind energy, sun power independence generation technology wherein, the range of application that wind energy, sun power independently generate electricity is more and more widely; Simultaneously; Dam is in relative eminence again, has abundant wind resource and solar radiation, and the utility model is applied in wind-power electricity generation and solar electrical energy generation complementation on the dam monitoring equipment; Make each dam monitoring equipment that independently TRT all arranged, do not receive the restriction of external power power supply; When also can not supply power simultaneously, cause a dam monitoring equipment in the zone all can not work because of external power.
The main technical schemes of the utility model is achieved in that
Form by dam 1, dam facing 2, pillar 3, wind-powered electricity generation support 4, blade 5, aerogenerator 6, conductor wire 7, solar cell 8, mounting box support 9, mounting box 10, junction station 11, controller 12, information collector 13, message handler 14, sonic sensor 15, displacement transducer 16, data line 17, energy-storage battery 18, warning light 19, emitting antenna 20, protection box 21, receiving antenna 22, information processing centre 23 and the center 24 of taking precautions against natural calamities;
Aerogenerator 6 is connected with junction station 11 through conductor wire 7; Solar cell 8 is connected with junction station 11 through conductor wire 7, and junction station 11 is connected with controller 12 through conductor wire 7, and controller 12 is connected with information collector 13 through conductor wire 7; Controller 12 is connected with message handler 14 through conductor wire 7; Controller 12 is connected with energy-storage battery 18 through conductor wire 7, and information collector 13 is connected with sonic sensor 15 through conductor wire 7, and information collector 13 is connected with displacement transducer 16 through conductor wire 7; Information collector 13 is connected with message handler 14 through data line 17; Message handler 14 is connected with warning light 19 through conductor wire 7, and message handler 14 is connected with emitting antenna 20 through conductor wire 7, and information processing centre 23 is connected with receiving antenna 22 through conductor wire 7;
On the dam facing 2 of dam 1, pillar 3 is installed; Solar cell 8 has been installed at the top of pillar 3, and wind-powered electricity generation support 4 has been installed on the top of pillar 3, and aerogenerator 6 has been installed on the wind-powered electricity generation support 4; Mounting box support 9 has been installed at the middle part of pillar 3; Mounting box 10 be installed in mounting box support 9 above, junction station 11, controller 12, message handler 14 and energy-storage battery 18 are installed in the inside of mounting box 10, warning light 19 and emitting antenna 20 are installed in the outside surface on the top of mounting box 10; The bottom of pillar 3 protection box 21 has been installed and be embedded in dam facing 2 below, information collector 13, sonic sensor 15 and displacement transducer 16 are installed in the inside of protection box 21.
Solar cell 8 is monocrystaline silicon solar cell or polysilicon solar cell or amorphous silicon thin-film solar cell or copper-indium-galliun-selenium film solar cell or DSSC.
Aerogenerator 6 is perpendicular axis type wind-driven generator or horizontal shaft type aerogenerator.
Description of drawings
Fig. 1 is the structural representation of the utility model.
Embodiment
The rotation of wind blows blade drives aerogenerator and produces electric current, and electric current is through conductor wire input junction station; Solar cell produces electric current under the irradiation of sunlight, electric current is through conductor wire input junction station.Junction station compiles two strands of electric currents the back, adjusts through conductor wire input controller; The electric current of slave controller output is information collector and message handler power supply through conductor wire; Be the energy-storage battery charging simultaneously; Energy-storage battery also can be whole device power supply when aerogenerator and solar cell do not produce electric current.Sonic sensor is collected information of acoustic wave, and passes through conductor wire information input information gatherer, and displacement transducer is collected azimuthal coordinates information, and passes through conductor wire information input information gatherer; Information collector is transferred to message handler to the information of collecting through data line; Message handler is compared the information of receiving through information of acoustic wave storehouse and azimuthal coordinates information bank; When the information material of being received surpasses the alarm scope that is provided with; Warning light begins flicker, makes and patrols the dam personnel and can in time find; Simultaneously, message handler is gone out information through transmission antennas transmit, and information processing centre receives information through receiving antenna, makes the center of taking precautions against natural calamities can know that dangerous situation has appearred in dam, can in time assemble personnel, prevents that dangerous situation from enlarging.
Following the utility model will combine the embodiment in the accompanying drawing to further describe:
When junction station 11 all produces electric current at aerogenerator 6 and solar cell 8, can converge electric current; Also can when having only aerogenerator 6 or have only solar cell 8 to produce electric current, import controllers 12 to electric current through conductor wire 7; Protection box 21 is installed in the bottom of pillar 3, and is embedded in the following certain depth of dam facing 2 according to the job requirement of sonic sensor and displacement transducer; The dam monitoring equipment of in each takes precautions against natural calamities 24 management areas, center, installing has all been set numbering; The information that each dam monitoring equipment is sent all has numbering separately; After information is received at the center of taking precautions against natural calamities, can know that dangerous situation has taken place the dam in which location according to the numbering that information had.
To enumerate embodiment following at present:
Embodiment one:
The rotation of wind blows blade drives vertical axis aerogenerator and produces electric current, and electric current is through conductor wire input junction station; Monocrystaline silicon solar cell produces electric current under the irradiation of sunlight, electric current is through conductor wire input junction station.Junction station converges the back to two strands of electric currents to be adjusted through conductor wire input controller, and the electric current of slave controller output is information collector and message handler power supply through conductor wire, is the energy-storage battery charging simultaneously.Energy-storage battery also can be whole device power supply when aerogenerator and solar cell do not produce electric current.When the information of receiving when message handler surpassed the alarm scope that is provided with, warning light began flicker; Simultaneously, through transmission antennas transmit, information processing centre receives information through receiving antenna message handler information, makes the center of taking precautions against natural calamities can know that dangerous situation has appearred safely in dam, can in time assemble personnel, prevents that dangerous situation from enlarging.
Embodiment two:
The rotation of wind blows blade drives horizontal axis wind-driven generator and produces electric current, and electric current is through conductor wire input junction station; Polysilicon solar cell produces electric current under the irradiation of sunlight, electric current is through conductor wire input junction station.Junction station compiles the back to two strands of electric currents through the adjustment of conductor wire input controller, and the electric current of slave controller output is information collector and message handler power supply through conductor wire, is the energy-storage battery charging simultaneously.Energy-storage battery also can be whole device power supply when aerogenerator and solar cell do not produce electric current.When the information of receiving when message handler surpassed the alarm scope that is provided with, warning light began flicker; Simultaneously, through transmission antennas transmit, information processing centre receives information through receiving antenna message handler information, makes the center of taking precautions against natural calamities can know that dangerous situation has appearred safely in dam, can in time assemble personnel, prevents that dangerous situation from enlarging.
Claims (3)
1. dam monitoring equipment with wind and solar hybrid generating system power supply; It is characterized in that, form by dam (1), dam facing (2), pillar (3), wind-powered electricity generation support (4), blade (5), aerogenerator (6), conductor wire (7), solar cell (8), mounting box support (9), mounting box (10), junction station (11), controller (12), information collector (13), message handler (14), sonic sensor (15), displacement transducer (16), data line (17), energy-storage battery (18), warning light (19), emitting antenna (20), protection box (21), receiving antenna (22), information processing centre (23) and the center of taking precautions against natural calamities (24);
Aerogenerator (6) is connected with junction station (11) through conductor wire (7); Solar cell (8) is connected with junction station (11) through conductor wire (7); Junction station (11) is connected with controller (12) through conductor wire (7); Controller (12) is connected with information collector (13) through conductor wire (7); Controller (12) is connected with message handler (14) through conductor wire (7); Controller (12) is connected with energy-storage battery (18) through conductor wire (7), and information collector (13) is connected with sonic sensor (15) through conductor wire (7), and information collector (13) is connected with displacement transducer (16) through conductor wire (7); Information collector (13) is connected with message handler (14) through data line (17); Message handler (14) is connected with warning light (19) through conductor wire (7), and message handler (14) is connected with emitting antenna (20) through conductor wire (7), and information processing centre (23) is connected with receiving antenna (22) through conductor wire (7);
On the dam facing (2) of dam (1), pillar (3) is installed; Solar cell (8) has been installed at the top of pillar (3); Wind-powered electricity generation support (4) has been installed on the top of pillar (3); Aerogenerator (6) has been installed on the wind-powered electricity generation support (4); Mounting box support (9) has been installed at the middle part of pillar (3); Mounting box (10) be installed in mounting box support (9) above, junction station (11), controller (12), message handler (14) and energy-storage battery (18) are installed in the inside of mounting box (10), warning light (19) and emitting antenna (20) are installed in the outside surface on the top of mounting box (10); The bottom of pillar (3) protection box (21) has been installed and be embedded in dam facing (2) below, information collector (13), sonic sensor (15) and displacement transducer (16) be installed in the protection box (21) inside.
2. a kind of dam monitoring equipment according to claim 1 with the wind and solar hybrid generating system power supply; It is characterized in that described solar cell (8) is monocrystaline silicon solar cell or polysilicon solar cell or amorphous silicon thin-film solar cell or copper-indium-galliun-selenium film solar cell or DSSC.
3. a kind of dam monitoring equipment with the wind and solar hybrid generating system power supply according to claim 1 is characterized in that described aerogenerator (6) is perpendicular axis type wind-driven generator or horizontal shaft type aerogenerator.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2012202835083U CN202599447U (en) | 2012-06-16 | 2012-06-16 | Dam measuring and reporting instrument with wind-light complementary power generation system for power supply |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN2012202835083U CN202599447U (en) | 2012-06-16 | 2012-06-16 | Dam measuring and reporting instrument with wind-light complementary power generation system for power supply |
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CN202599447U true CN202599447U (en) | 2012-12-12 |
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CN2012202835083U Expired - Fee Related CN202599447U (en) | 2012-06-16 | 2012-06-16 | Dam measuring and reporting instrument with wind-light complementary power generation system for power supply |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102706392A (en) * | 2012-06-16 | 2012-10-03 | 无锡同春新能源科技有限公司 | Dam observation instrument with power supply of wind-light compensation power-generating system |
CN108054827A (en) * | 2018-01-05 | 2018-05-18 | 上海海洋大学 | A kind of sea multiple-energy-source integrates power generation power supply monitoring platform |
-
2012
- 2012-06-16 CN CN2012202835083U patent/CN202599447U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102706392A (en) * | 2012-06-16 | 2012-10-03 | 无锡同春新能源科技有限公司 | Dam observation instrument with power supply of wind-light compensation power-generating system |
CN108054827A (en) * | 2018-01-05 | 2018-05-18 | 上海海洋大学 | A kind of sea multiple-energy-source integrates power generation power supply monitoring platform |
CN108054827B (en) * | 2018-01-05 | 2023-09-19 | 上海海洋大学 | Offshore multi-energy integrated power generation and supply monitoring platform |
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Legal Events
Date | Code | Title | Description |
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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: 20121212 Termination date: 20150616 |
|
EXPY | Termination of patent right or utility model |