CN206133234U - Remote control waters oxygenation controller - Google Patents
Remote control waters oxygenation controller Download PDFInfo
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- CN206133234U CN206133234U CN201621070558.8U CN201621070558U CN206133234U CN 206133234 U CN206133234 U CN 206133234U CN 201621070558 U CN201621070558 U CN 201621070558U CN 206133234 U CN206133234 U CN 206133234U
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- module
- optocoupler
- input
- voltage
- microprocessor
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Abstract
The utility model relates to a remote control waters oxygenation controller belongs to electronic controller technical field. This oxygenation controller includes input, opto -coupler group, bridge type rectifier circuit, microprocessor module, filtering circuit module, voltage acquisition module, antenna module, voltage stabilizing circuit, PWM modulation module, direct current motor module and remote controller, the input passes through opto -coupler group and links to each other with bridge type rectifier circuit and microprocessor module, the voltage signal collection input of microprocessor module is gathered the output with the voltage signal of voltage acquisition module and is linked to each other, the voltage signal of voltage acquisition module gathers the current output terminal that the input passes through filtering circuit module and bridge type rectifier circuit and links to each other, it is continuous with the drive signal input of direct current motor module that the PWM modulation module is passed through to the microprocessor module, the direct current motor module is passed through voltage stabilizing circuit and is linked to each other with the voltage acquisition module. The utility model has the characteristics of carry out automatic switch -over etc. To wind -powered electricity generation, photoelectricity, three kinds of powers of commercial power.
Description
Technical field
This utility model is related to a kind of Remote waters oxygenation controller, belongs to electronic controller technical field.
Background technology
In fishery cultivating, oxygen supplement function effectively facilitates carrying for pond primary productivity and self-purification capacity to water oxygenation
Height, so as to improve pond water quality and ecological environment.Jet aerator is all much electrically to drive increasing with single city at present
Oxygen pump is rotated, and reaches waters oxygen supplement purpose, and this power supply mode is single, while also having the shortcomings that not energy-conservation, consumed energy.
Utility model content
To solve technical problem present in above-mentioned prior art, the utility model proposes a kind of Remote waters increases
Oxygen controller, the technical scheme taken are as follows:
The oxygenation controller includes input 1, photocoupler set 2, bridge rectifier, microprocessor module 3, filter circuit
Module 4, voltage acquisition module 5, Anneta module 6, mu balanced circuit 8, PWM module 9, direct current generator module 10 and remote control
6a;The input 1 is connected with bridge rectifier and microprocessor module 3 by photocoupler set 2;The microprocessor module 3
Voltage signal acquisition input be connected with the voltage signal acquisition outfan of voltage acquisition module 5;The voltage acquisition module 5
Voltage signal acquisition input be connected with the current output terminal of bridge rectifier by filter circuit module 4;Microprocessor
Module 3 is connected with the driving signal input of direct current generator module 10 by PWM module 9;The direct current generator module 10
It is connected with voltage acquisition module 5 by mu balanced circuit 8.
Preferably, the input 1 includes that photovoltaic panel negative input 11, photovoltaic panel electrode input end 16, blower fan are accessed
Mouth one 12, blower fan access port 2 15, civil power 220V inputs 1 and civil power 220V inputs 2 14.
Preferably, the photocoupler set 2 includes optocoupler 1, optocoupler 2 22 and optocoupler 3 23;The civil power 220V inputs
2 14 are connected with bridge rectifier by optocoupler 1;The optocoupler signal output part of the optocoupler 1 and microprocessor module
3 optocoupler signal input part is connected;The blower fan access port 2 15 is connected with bridge rectifier by optocoupler 2 22;The light
The optocoupler signal output part of coupling 2 22 is connected with the optocoupler signal input part of microprocessor module 3;The photovoltaic panel positive pole input
End 16 is connected with bridge rectifier by optocoupler 3 23;The optocoupler signal output part of the optocoupler 3 23 and microprocessor module
3 optocoupler signal input part is connected.
Preferably, the optocoupler 1, optocoupler 2 22, the input of 3 23 corresponding three-way power of optocoupler is only to open all the way
, other two-way are closed.
Preferably, the filter circuit module 4 adopts LC filter circuits.
Preferably, the voltage acquisition module 5 is with LM7812 voltage stabilizing chips as core.
Preferably, the control signal input of the Anneta module 6 is exported with the antenna control signal of microprocessor module 3
End is connected;The Anneta module 6 is wirelessly connected with remote control 6a.
Preferably, the Anneta module 6 is connected with remote control 6a by GPRS network mode.
The beneficial effects of the utility model:
This utility model has wind-powered electricity generation, photoelectricity, civil power access interface, can be right according to environmental aspects such as current light, wind-force
Wind-powered electricity generation, photoelectricity, three kinds of power supplys of civil power are automatically switched, while controller can receive what control terminal was sent by GPRS network
Remote wireless signals, reach and power purpose to oxygen supplement motor, meanwhile, possessing remote control function, control motility is high.
Description of the drawings
Fig. 1 is structural representation of the present utility model.
(1, input;2, photocoupler set;3, microprocessor module;4, filter circuit module;5, voltage acquisition module;6, day
Wire module;8, mu balanced circuit;9, PWM module;10, direct current generator module;6a, remote control;11, the input of photovoltaic panel negative pole
End;12, blower fan access port one;13, civil power 220V input one;14, civil power 220V input two;15, blower fan access port two;
16, photovoltaic panel electrode input end;21, optocoupler one;22, optocoupler two;23, optocoupler is three)
Specific embodiment
This utility model is described further with reference to specific embodiment, but this utility model is not limited by embodiment
System.
In description of the present utility model, it should be noted that term " " center ", " longitudinal direction ", " horizontal ", " on ", D score,
The orientation or position relationship of the instruction such as "front", "rear", "left", "right", " top ", " bottom ", " interior ", " outward " and " endways " is based on attached
Orientation or position relationship shown in figure, is for only for ease of description this utility model and simplifies description, rather than indicate or imply
The device or element of indication must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to this
The restriction of utility model.
In description of the present utility model, it should be noted that unless otherwise expressly provided and limit, term " installation ",
" being connected ", " connection " should be interpreted broadly, for example, it may be being fixedly connected, or being detachably connected, or integratedly connect
Connect;Can be directly connected to, can also be indirectly connected with by intermediary, can be the connection of two components interiors.For
For one of ordinary skill in the art, concrete meaning of the above-mentioned term in this utility model can be understood with concrete condition.
Additionally, in description of the present utility model, unless otherwise stated, " multiple ", " multigroup ", " many " are meant that two
Individual or two or more.
Material therefor, instrument and method in implementation below, without specified otherwise, are this area conventional material, instrument
Device and method, can be obtained by commercial channel.
Embodiment 1
Fig. 1 is electrical block diagram of the present utility model, the utility model proposes a kind of oxygen supplement of Remote waters
Controller, the oxygenation controller include input 1, photocoupler set 2, bridge rectifier, microprocessor module 3, filter circuit mould
Block 4, voltage acquisition module 5, Anneta module 6, mu balanced circuit 8, PWM module 9, direct current generator module 10 and remote control 6a;
Input 1 is connected with bridge rectifier and microprocessor module 3 by photocoupler set 2;The voltage signal of microprocessor module 3 is adopted
Collection input is connected with the voltage signal acquisition outfan of voltage acquisition module 5;The voltage signal acquisition of voltage acquisition module 5 is defeated
Enter end to be connected with the current output terminal of bridge rectifier by filter circuit module 4;Microprocessor module 3 passes through PWM
Module 9 is connected with the driving signal input of direct current generator module 10;The direct current generator module 10 is by mu balanced circuit 8 and electricity
Pressure acquisition module 5 is connected.Specifically, input 1 includes photovoltaic panel negative input 11, photovoltaic panel electrode input end 16, blower fan
Access port 1, blower fan access port 2 15, civil power 220V inputs 1 and civil power 220V inputs 2 14.Photocoupler set 2 includes
Optocoupler 1, optocoupler 2 22 and optocoupler 3 23;The civil power 220V inputs 2 14 pass through optocoupler 1 and bridge rectifier
It is connected;The optocoupler signal output part of the optocoupler 1 is connected with the optocoupler signal input part of microprocessor module 3;The blower fan
Access port 2 15 is connected with bridge rectifier by optocoupler 2 22;The optocoupler signal output part of the optocoupler 2 22 and microprocessor
The optocoupler signal input part of device module 3 is connected;The photovoltaic panel electrode input end 16 passes through optocoupler 3 23 and bridge rectifier
It is connected;The optocoupler signal output part of the optocoupler 3 23 is connected with the optocoupler signal input part of microprocessor module 3.Filter circuit
Module 4 adopts LC filter circuits.Voltage acquisition module 5 is with LM7812 voltage stabilizing chips as core.The control signal of Anneta module 6 is defeated
Enter end to be connected with the antenna control signal outfan of microprocessor module 3;The Anneta module 6 wirelessly with remote control
6a is connected.Anneta module 6 is connected with remote control 6a by GPRS network mode.
Wherein, optocoupler 1, optocoupler 2 22, the effect of optocoupler 3 23 are defeated come switch main circuit power supply by microcontroller
Enter end, and micro-control circuit and main circuit can be isolated.In the motor course of work, optocoupler 1, optocoupler 2 22,3 23 correspondence of optocoupler
Three-way power input be only to open all the way, other two-way are closed.
After microprocessor receives enabling signal, order individually opens optocoupler 1, optocoupler 2 22, by voltage sample
Detection current light and wind intensity and commercial power condition, work according to the priority orders of photoelectricity, wind-powered electricity generation:
(1) if intensity of illumination is up to standard, optocoupler 3 23 is opened, closes optocoupler 1, optocoupler 2 22, be switched to photovoltaic electric
Source powers;
(2) if intensity of illumination is not up to standard, wind-force is up to standard, then open optocoupler 2 22, close optocoupler 1, optocoupler 3 23,
It is switched to fan power to power.
Although this utility model is disclosed as above with preferred embodiment, which is not limited to this utility model, appoints
What person skilled in the art, in without departing from spirit and scope of the present utility model, can do various changes and modification, therefore
Protection domain of the present utility model should be by being defined that claims are defined.
Claims (8)
1. a kind of Remote waters oxygenation controller, it is characterised in that the oxygenation controller includes input (1), optocoupler
Group (2), bridge rectifier, microprocessor module (3), filter circuit module (4), voltage acquisition module (5), Anneta module
(6), mu balanced circuit (8), PWM module (9), direct current generator module (10) and remote control (6a);The input (1) passes through
Photocoupler set (2) is connected with bridge rectifier and microprocessor module (3);The voltage signal of the microprocessor module (3) is adopted
Collection input is connected with the voltage signal acquisition outfan of voltage acquisition module (5);The voltage letter of the voltage acquisition module (5)
Number collection input be connected with the current output terminal of bridge rectifier by filter circuit module (4);Microprocessor module (3)
It is connected with the driving signal input of direct current generator module (10) by PWM module (9);The direct current generator module (10)
It is connected with voltage acquisition module (5) by mu balanced circuit (8).
2. oxygenation controller according to claim 1, it is characterised in that the input (1) includes the input of photovoltaic panel negative pole
End (11), photovoltaic panel electrode input end (16), blower fan access port one (12), blower fan access port two (15), civil power 220V inputs
One (13) and civil power 220V input two (14).
3. oxygenation controller according to claim 2, it is characterised in that the photocoupler set (2) is including optocoupler one (21), optocoupler
Two (22) and optocoupler three (23);The civil power 220V inputs two (14) are connected with bridge rectifier by optocoupler one (21);
The optocoupler signal output part of the optocoupler one (21) is connected with the optocoupler signal input part of microprocessor module (3);The blower fan
Access port two (15) is connected with bridge rectifier by optocoupler two (22);The optocoupler signal output part of the optocoupler two (22) with
The optocoupler signal input part of microprocessor module (3) is connected;The photovoltaic panel electrode input end (16) by optocoupler three (23) with
Bridge rectifier is connected;The optocoupler signal output part of the optocoupler three (23) is defeated with the light coupling signal of microprocessor module (3)
Enter end to be connected.
4. oxygenation controller according to claim 3, it is characterised in that the optocoupler one (21), optocoupler two (22), optocoupler three
(23) corresponding three-way power input is only to open all the way, and other two-way are closed.
5. oxygenation controller according to claim 1, it is characterised in that the filter circuit module (4) is using LC filtered electricals
Road.
6. oxygenation controller according to claim 1, it is characterised in that the voltage acquisition module (5) is with LM7812 voltage stabilizings
Chip is core.
7. oxygenation controller according to claim 1, it is characterised in that the control signal input of the Anneta module (6)
It is connected with the antenna control signal outfan of microprocessor module (3);The Anneta module (6) wirelessly with remote control
(6a) it is connected.
8. oxygenation controller according to claim 7, it is characterised in that the Anneta module (6) is by GPRS network mode
It is connected with remote control (6a).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621070558.8U CN206133234U (en) | 2016-09-21 | 2016-09-21 | Remote control waters oxygenation controller |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621070558.8U CN206133234U (en) | 2016-09-21 | 2016-09-21 | Remote control waters oxygenation controller |
Publications (1)
Publication Number | Publication Date |
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CN206133234U true CN206133234U (en) | 2017-04-26 |
Family
ID=58570394
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CN201621070558.8U Expired - Fee Related CN206133234U (en) | 2016-09-21 | 2016-09-21 | Remote control waters oxygenation controller |
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CN (1) | CN206133234U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107332280A (en) * | 2017-08-30 | 2017-11-07 | 合肥敏喆信息科技有限公司 | Many power supply mode switching methods and device based on scene power supply |
-
2016
- 2016-09-21 CN CN201621070558.8U patent/CN206133234U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107332280A (en) * | 2017-08-30 | 2017-11-07 | 合肥敏喆信息科技有限公司 | Many power supply mode switching methods and device based on scene power supply |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20170426 Termination date: 20210921 |
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CF01 | Termination of patent right due to non-payment of annual fee |