CN202416278U - Water-saving gate using wind power generation system to supply power to flow sensor - Google Patents
Water-saving gate using wind power generation system to supply power to flow sensor Download PDFInfo
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- CN202416278U CN202416278U CN2011203897186U CN201120389718U CN202416278U CN 202416278 U CN202416278 U CN 202416278U CN 2011203897186 U CN2011203897186 U CN 2011203897186U CN 201120389718 U CN201120389718 U CN 201120389718U CN 202416278 U CN202416278 U CN 202416278U
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Abstract
The utility model relates to a water-saving gate using a wind power generation system to supply power to a flow sensor, belonging to the technical field of application of internet of things of new energy. The current outputted by a wind power generator is inputted into a current divider through a conductive wire; the current outputted by the current divider is inputted into a motor and the flow sensor through a conductive wire and used for supplying work power; the flow sensor is used for sensing the change of the flow of water and converting into an electrical signal; a transmitting antenna a arranged on the flow sensor is used for sending the electrical signal into air; a receiving antenna b of a water-saving deployment center is used for receiving the electrical signal and inputting the electrical signal into a computer processor b for processing according to the rice field water consumption data to obtain a water saving scheme; after the scientists and technicians confirm the water saving scheme on a displayer, a transmitting antenna b arranged on the water-saving deployment center is used for sending a water supplying command; after a receiving antenna a arranged on an irrigation water gate is used for receiving the electrical signal, the electrical signal is inputted into a computer processor a for processing, and the motor is regulated to start the water gate to drain water to carry out water-saving irrigation.
Description
Technical field
The utility model relates to a kind of with the water saving gate of wind generator system to the flow transmitter power supply, belongs to new forms of energy Internet of Things applied technical field.
Background technology
The surface of the earth has 70.8% area to be covered by water, and salt water accounts for 97.5% of whole water resources, and the mankind can not drink salt water, can not water crops such as paddy rice, corn with salt water.Freshwater resources only account for 2.5% of whole water resources, and the ice and snow in the two poles of the earth, north and south ice sheet, alpine glacier and permafrost area accounts for 87% in whole freshwater resources 2.5%.The human actual freshwater resources that can utilize only take up an area of 0.26% of ball Total Water, mainly are rivers and lakes and a part of underground water.The skewness of global freshwater resources, most of freshwater resources concentrate on 10 countries, and 80 countries and regions serious water shortages are arranged.Some do not know to treasure valuable freshwater resources, and toward the rivers and lakes sewage effluent, the pollution of many freshwater resources is quite serious arbitrarily.
Inventor's Miao TongChun of this patent once in the state farm, army farm, farm, oil field be engaged in paddy rice planting technology work 20 years.The thousands of mu rice fields irrigation canals such as trunk canal, branch canal, sublateral canal that distributing in the farm, in these irrigation canals, build have irrigation sluice that an another seat differs in size control with the channel of distribution in current.The farm sends the water tender day and night to go on patrol along irrigation canal, and manages the up-down of the gate of irrigating sluice according to the rice field water layer in the every rice field and paddy growth situation, and farmland water-saving is not economized on water, and all leans on manual work grasp gate to regulate and control.Miao TongChun is clear to be remembered: once, certain state farm has sent a workman to manage three sluice in the irrigation canal all night, because the weather arid; Being badly in need of pouring water in the rice field, uses diesel engine to hoist from reservoir whole night as the water pumper station of power and draw water, and the current that gurgle flow to irrigation canal from the outlet pipe of water pumper; This workman at nightfall the back, tire out because of being on night shift continuously busy farming season; Unexpectedly lie on the other vacant lot of irrigation canal and snore loudly in one's sleep, closing owing to lead to the gate of rice terrace, current do not enter the rice field; And the gate that leads to escape canal is being opened, and current flow back into the reservoir that communicates with escape canal again.The result is: taken out the water of a whole night, consumed two drum diesel oil, water does not flow to the rice field, flow back into reservoir again.Do not run well again owing to gate is outmoded, simple and crude in the farm, the thing of waste water resource also has a lot.
The utility model content
The utility model technical problem to be solved is the shortcoming that overcomes prior art, and the water saving gate of a kind of wind generator system to the flow transmitter power supply is provided.The flow transmitter that touches current is installed irrigating on the gate of sluice, is supplied power to flow transmitter by wind generator system, the information that flow transmitter perception streamflow changes, and send to computer processor and handle is taked the water saving measures output of keeping under strict control.
Control discharge in irrigation canal 22 with wind generator system to the water saving gate of flow transmitter power supply with a kind of.Because the irrigation sluice 6 in the farm disperses to be built in the irrigation canal 22, mutual distance is far away; Power consumption during flow transmitter 13 work is little, so it was both uneconomical, also dangerous to irrigating sluice 6 to socket supply lines from external power supply source.Only need irrigating wind-driven generator 9 that power is 1000W~5000W of installation on the sluice 6; Wind blows blade 8 fast rotational, drive wind-driven generator 9 produce electric currents; Import current dividers 12 from the electric current of wind-driven generator 9 outputs through conductor wire 11; Through conductor wire 11 input motors 3, computer processor first 2, reception antenna first 1 the work electricity consumption is provided from most of electric current of current divider 12 output, with transmitting antenna first 14 the work electricity consumption is provided from the fraction electric current input flow rate sensor 13 of current divider 12 outputs.When the sensing element of flow transmitter 13 experience the variation that goes out the current physical quantity that goes out current 15 under the gate 5, and the variation that will go out the current physical quantity convert the signal of telecommunication to; Transmitting antenna first 14 by being installed on the flow transmitter 13 is transmitted into the signal of telecommunication in the air; After reception antenna second 16 receives the signal of telecommunication; The signal of telecommunication is imported computer processor second 17 handle, combine the need regimen condition in rice field to work up the water saving scheme simultaneously, the water saving scheme is after showing on the display 18; By scientific and technical personnel confirm errorless after; Send in the air by being installed in will the economize on water signal of telecommunication of scheme of transmitting antenna second 20 on the water saving allotment center 19, the allotment center 19 of economizing on water has power autonomous, the work electricity consumption of supplying each parts.After being installed in the reception antenna first 1 of irrigating on the sluice 6 and receiving the signal of telecommunication; The signal of telecommunication input computer processor first 2 of water saving scheme is handled; And discharge water by the lock of carrying of computer processor first 2 through motor 3 regulation and control gates 5, accurate water saving supply is carried out in the water supply of gate 5.
Point out in the article of ' China Intellectual Property News ' on September 28th, 2011 ' wireless sensor network change future world ': ' almost unknown to the public before this wireless sensor network industry is quietly risen; The fight of its patent layout is fired; This new industry development that depends on technological innovation is rapid, is profoundly changing industrial pattern and people's life.' the utility model be exactly in the patent layout of wireless sensor network, strive one seat.
The beneficial effect of the utility model is: 1. utilize motor and flow transmitter in the water surface power supply of wind generator system on sluice, avoided long distance to socket electric wire from power supply network; 2. utilize flow transmitter and computer processor advanced technology, in time take water saving measures, accurately practice thrift irrigation water capacity.
In order to solve the problems of the technologies described above, the utility model is realized through following technical scheme:
By reception antenna first 1; Computer processor first 2; Motor 3; Gate elevating lever 4; Gate 5; Irrigate sluice 6; Gate beam 7; Blade 8; Wind-driven generator 9; Wind-powered electricity generation pillar 10; Conductor wire 11; Current divider 12; Flow transmitter 13; Transmitting antenna first 14; Go out current 15; Reception antenna second 16; Computer processor second 17; Display 18; Water saving allotment center 19; Transmitting antenna second 20; Feed water flow 21; Irrigation canal 22 common compositions are a kind of with the water saving gate of wind generator system to the flow transmitter power supply;
Feed water flow 21 with go out current 15 in the middle of build and irrigate sluice 6, gate elevating lever 4 is installed below the gate beam 7 of irrigating sluice 6, gate 5 is installed on gate elevating lever 4, at the water surface place of gate 5 flow transmitter 12 is installed; Motor 3 is installed above gate beam 7, computer processor first 2 is installed above motor 3, reception antenna first 1 is installed on computer processor first 2; Transmitting antenna second 20 and display 18 are installed in installation water saving allotment center 19 on water saving allotment center 19 near irrigation sluice 6, and installation computer processor second 17 is installed reception antenna second 16 on computer processor second 17 on display 18; From irrigating sluice 6 upper reaches up are feed water flow 21, are current 15 from irrigating sluice 6 downward downstream, and the current that irrigation canal is 21 li comprise feed water flow 21 and go out current 15;
Wind-driven generator 9 links through conductor wire 11 and current divider 12, and current divider 12 links through conductor wire 11 and flow transmitter 13, transmitting antenna 14, and current divider 12 is connected with motor 3 through conductor wire 11; Water saving allotment center 19 is connected with display 18 through built-in conductor wire, and display 18 is connected with computer processor second 17 through built-in conductor wire.
Wind-driven generator 9 is perpendicular axis type wind-driven generator or horizontal shaft type wind-driven generator.
Description of drawings
Fig. 1 is the structural representation of the utility model.
The specific embodiment
Following the utility model will combine the embodiment in the accompanying drawing to further describe:
The electric current of wind-driven generator output is through conductor wire input current divider, and the electric current of exporting from current divider provides the work electricity consumption through conductor wire input motor and flow transmitter.Flow transmitter is experienced the variation of water flow and is converted the signal of telecommunication to; Transmitting antenna first by being installed on the flow transmitter sends to the signal of telecommunication in the air; After the reception antenna second at water saving allotment center received the signal of telecommunication, input computer processor second combined the rice field to need water number according to handling, draw the water saving scheme, and scientific and technical personnel are after confirming the water saving scheme on the display; Send the instruction of supplying water by being installed in the supercentral transmitting antenna second of water saving allotment; After being installed in the reception antenna first of irrigating on the sluice and receiving the signal of telecommunication, input computer processor first is handled and is regulated and control motor and carry lock according to the water saving scheme and discharge water, and carries out water-saving irrigation.
By reception antenna first 1; Computer processor first 2; Motor 3; Gate elevating lever 4; Gate 5; Irrigate sluice 6; Gate beam 7; Blade 8; Wind-driven generator 9; Wind-powered electricity generation pillar 10; Conductor wire 11; Current divider 12; Flow transmitter 13; Transmitting antenna first 14; Go out current 15; Reception antenna second 16; Computer processor second 17; Display 18; Water saving allotment center 19; Transmitting antenna second 20; Feed water flow 21; Irrigation canal 22 common compositions are a kind of with the water saving gate of wind generator system to the flow transmitter power supply;
Feed water flow 21 with go out current 15 in the middle of build and irrigate sluice 6, gate elevating lever 4 is installed below the gate beam 7 of irrigating sluice 6, gate 5 is installed on gate elevating lever 4, at the water surface place of gate 5 flow transmitter 12 is installed; Motor 3 is installed above gate beam 7, computer processor first 2 is installed above motor 3, reception antenna first 1 is installed on computer processor first 2; Transmitting antenna second 20 and display 18 are installed in installation water saving allotment center 19 on water saving allotment center 19 near irrigation sluice 6, and installation computer processor second 17 is installed reception antenna second 16 on computer processor second 17 on display 18; From irrigating sluice 6 upper reaches up are feed water flow 21, are current 15 from irrigating sluice 6 downward downstream, and the current that irrigation canal is 21 li comprise feed water flow 21 and go out current 15;
Wind-driven generator 9 links through conductor wire 11 and current divider 12, and current divider 12 links through conductor wire 11 and flow transmitter 13, transmitting antenna 14, and current divider 12 is connected with motor 3 through conductor wire 11; Water saving allotment center 19 is connected with display 18 through built-in conductor wire, and display 18 is connected with computer processor second 17 through built-in conductor wire.
Wind-driven generator 9 is perpendicular axis type wind-driven generator or horizontal shaft type wind-driven generator.
To enumerate embodiment following at present:
Embodiment one
The electric current of perpendicular axis type wind-driven generator output is through conductor wire input current divider, and the electric current of exporting from current divider provides the work electricity consumption through conductor wire input motor and Hall flow transmitter.The Hall flow transmitter is experienced the variation of water flow and is converted the signal of telecommunication to; Transmitting antenna first by being installed on the Hall flow transmitter sends to the signal of telecommunication in the air; After the reception antenna second at water saving allotment center received the signal of telecommunication, input computer processor second combined the rice field to need water number according to handling, draw the water saving scheme, and scientific and technical personnel are after confirming the water saving scheme on the display; Send the instruction of supplying water by being installed in the supercentral transmitting antenna second of water saving allotment; After being installed in the reception antenna first of irrigating on the sluice and receiving the signal of telecommunication, input computer processor first is handled and is regulated and control motor and carry lock according to the water saving scheme and discharge water, and carries out water-saving irrigation.
Embodiment two
The electric current of horizontal shaft type wind-driven generator output is through conductor wire input current divider, and the electric current of exporting from current divider provides the work electricity consumption through conductor wire input motor and liquid turbine flow transmitter.The liquid turbine flow transmitter is experienced the variation of water flow and is converted the signal of telecommunication to; Transmitting antenna first by being installed on the liquid turbine flow transmitter sends to the signal of telecommunication in the air; After the reception antenna second at water saving allotment center receives the signal of telecommunication; Input computer processor second combines the rice field to need water number according to handling, draw the water saving scheme; Scientific and technical personnel send the instruction of supplying water by being installed in the supercentral transmitting antenna second of water saving allotment after confirming the water saving scheme on the display, after being installed in the reception antenna first of irrigating on the sluice and receiving the signal of telecommunication; Input computer processor first is handled and is regulated and control motor and carry lock according to the water saving scheme and discharge water, and carries out water-saving irrigation.
Claims (3)
1. one kind with the water saving gate of wind generator system to flow transmitter power supply; It is characterized in that, by reception antenna first (1), computer processor first (2), motor (3), gate elevating lever (4), gate (5), irrigate sluice (6), gate beam (7), blade (8), wind-driven generator (9), wind-powered electricity generation pillar (10), conductor wire (11), current divider (12), flow transmitter (13), transmitting antenna first (14), go out current (15), reception antenna second (16), computer processor second (17), display (18), water saving allotment center (19), transmitting antenna second (20), feed water flow (21), irrigation canal (22) forms a kind of with the water saving gate of wind generator system to the flow transmitter power supply jointly;
Feed water flow (21) and go out current (15) in the middle of build to irrigate sluice (6); Gate elevating lever (4) is installed in the below of the gate beam (7) of irrigating sluice (6), is gone up at gate elevating lever (4) gate (5) is installed, flow transmitter (12) is installed at the water surface place of gate (5); Motor (3) is installed in top at gate beam (7), in the top of motor (3) computer processor first (2) is installed, and goes up in computer processor first (2) reception antenna first (1) is installed; Near installation water saving allotment center (19) irrigation sluice (6); Go up installation transmitting antenna second (20) and display (18) at water saving allotment center (19); Go up installation computer processor second (17) at display (18), go up in computer processor second (17) reception antenna second (16) is installed; From irrigating sluice (6) upper reaches up are feed water flow (21), are current (15) from irrigating the downward downstream of sluice (6), and the current of irrigation canal (21) lining comprise feed water flow (21) and go out current (15);
Wind-driven generator (9) links through conductor wire (11) and current divider (12), and current divider (12) links through conductor wire (11) and flow transmitter (13), transmitting antenna (14), and current divider (12) is connected with motor (3) through conductor wire (11); Water saving allotment center (19) is connected with display (18) through built-in conductor wire, and display (18) is connected with computer processor second (17) through built-in conductor wire.
2. according to claim 1 a kind of with the water saving gate of wind generator system to the flow transmitter power supply, it is characterized in that described flow transmitter (13) is Hall flow transmitter or water flow sensing unit or liquid turbine flow transmitter.
3. according to claim 1 a kind of with the water saving gate of wind generator system to the flow transmitter power supply, it is characterized in that described wind-driven generator (9) is perpendicular axis type wind-driven generator or horizontal shaft type wind-driven generator.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2011203897186U CN202416278U (en) | 2011-10-12 | 2011-10-12 | Water-saving gate using wind power generation system to supply power to flow sensor |
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CN2011203897186U CN202416278U (en) | 2011-10-12 | 2011-10-12 | Water-saving gate using wind power generation system to supply power to flow sensor |
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CN2011203897186U Expired - Fee Related CN202416278U (en) | 2011-10-12 | 2011-10-12 | Water-saving gate using wind power generation system to supply power to flow sensor |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102359093A (en) * | 2011-10-12 | 2012-02-22 | 无锡同春新能源科技有限公司 | Water saving gate used for supplying power to flow sensor and provided with wind energy generating system |
-
2011
- 2011-10-12 CN CN2011203897186U patent/CN202416278U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102359093A (en) * | 2011-10-12 | 2012-02-22 | 无锡同春新能源科技有限公司 | Water saving gate used for supplying power to flow sensor and provided with wind energy generating system |
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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: 20120905 Termination date: 20141012 |
|
EXPY | Termination of patent right or utility model |