CN101914635A - Method for controlling algae yield increasing device - Google Patents
Method for controlling algae yield increasing device Download PDFInfo
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- CN101914635A CN101914635A CN 201010264880 CN201010264880A CN101914635A CN 101914635 A CN101914635 A CN 101914635A CN 201010264880 CN201010264880 CN 201010264880 CN 201010264880 A CN201010264880 A CN 201010264880A CN 101914635 A CN101914635 A CN 101914635A
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- gas
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- increasing device
- concentration lwevel
- yield increasing
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Abstract
The invention discloses a method for controlling an algae yield increasing device. The method comprises the following steps of: 1, starting the device and adjusting gas flow according to a command; 2, igniting a gas furnace and controlling the burning of the gas; 3, starting a cooling axial-flow fan and a gas delivery pump synchronously with the step 2 and adjusting working frequency according to the command; 4, returning to the steps 1 to 3 according to the type of an aquatic product to adjust the concentration of carbon dioxide; and 5, circularly controlling the temperature of a thermostat according to an input temperature threshold value. The method has the advantages of capacity of realizing fully-automatic control of the algae yield increasing device, simple flow, convenient operation and particular accurate control of the concentration of the carbon dioxide.
Description
Technical field
The present invention relates to the apparatus control method field, particularly a kind of method for controlling algae yield increasing device.
Background technology
The present invention be directed to application artificial " Pan Jijun ", application number is " 200910011965X ", and denomination of invention is the improvement of " a kind of alga yield increasing device ".Though it is powerful that the alga yield increasing device in the former patent increases production, controller is mechanical panel, owing to adopt manual operation, controls accurately inadequately, and especially the control out of true of gas concentration lwevel exerts an influence to effect of increasing production unavoidably.
Summary of the invention
The objective of the invention is to,, eliminate manually-operated error, make gas concentration lwevel reach accurate control for alga yield increasing device provides a kind of full automatic control method.
In order to achieve the above object, a kind of method for controlling algae yield increasing device provided by the invention may further comprise the steps: the first step: system boot, adjust gas flow according to instruction; Second step: gas furnace igniting, control fuel gas buring; The 3rd step: synchronous with second step, cooling is opened with axial fan and gasing pump, according to instruction, adjusts operating frequency; The 4th step: according to the fishery products kind, get back to the first step and the 3rd step, regulate gas concentration lwevel; The 5th step: according to the input temp threshold value, the cycle control thermostat temperature.
The described the first step comprises following substep: at first, behind the system boot, the combustion gas interface switch open, combustion gas is sent into gas furnace by pipeline; Secondly, by being arranged on the gas control valve control gas flow on the gas line.
Described second step comprises following substep: at first, behind the combustion gas interface switch open, postpone 1S, the lighter for ignition igniting; Secondly, if the combustion gas head is flame-out, then the blowout protection probe sends stop instruction to system power supply.
Described the 3rd step comprises following substep: at first, according to input order, adjust the axial fan operating frequency; Secondly, according to the instruction of gas concentration lwevel comparer, adjust the gasing pump operating frequency.
Described the 4th step comprises following substep: at first, and current gas concentration lwevel in the signal piping; Secondly, input gas concentration lwevel threshold value; Once more, current gas concentration lwevel and threshold value are compared; Then, when environment gas concentration lwevel during less than threshold value, then increase gas flow and or increase the gasing pump frequency; When environment gas concentration lwevel during, then reduce gas flow, reduce the gasing pump frequency and or open micrometering valve greater than threshold value.
Described the 5th step comprises following substep: at first, detect the temperature value of envrionment temperature in the thermostatted; Secondly, input temp threshold value; Once more, ambient temperature value and threshold value are compared; Then, when ambient temperature value during, then open the cooling fan cooling greater than threshold value; When ambient temperature value during less than threshold value, heater then.
Beneficial technical effects of the present invention is: realized the control method for fully automatic of alga yield increasing device, flow process is simple, and is easy to operate, and especially gas concentration lwevel reaches accurate control.
Description of drawings
Fig. 1 is a control system for algae yield-increasing device frame diagram of the present invention.
Fig. 2 is a method for controlling algae yield increasing device schema of the present invention.
Fig. 3 is a combustion gas regulation and control system frame diagram in the control system for algae yield-increasing device of the present invention.
Fig. 4 is that control flow chart is regulated in method for controlling algae yield increasing device combustion gas of the present invention.
Fig. 5 is a gas furnace Controlling System frame diagram in the control system for algae yield-increasing device of the present invention.
Fig. 6 is a gas furnace control flow chart in the control system for algae yield-increasing device of the present invention.
Fig. 7 is a cooling gas transmission Controlling System frame diagram in the control system for algae yield-increasing device of the present invention.
Fig. 8 is a cooling gas transmission control flow chart in the control system for algae yield-increasing device of the present invention.
Fig. 9 is a carbon dioxide concentration control system frame diagram in the control system for algae yield-increasing device of the present invention.
Figure 10 is a gas concentration lwevel control flow chart in the control system for algae yield-increasing device of the present invention.
Figure 11 is a thermostat temperature Controlling System frame diagram in the control system for algae yield-increasing device of the present invention.
Figure 12 is a thermostat temperature control flow chart in the control system for algae yield-increasing device of the present invention.
Figure 13 is the telechirics frame diagram of control system for algae yield-increasing device of the present invention.
Embodiment
The present invention is described in detail below in conjunction with drawings and Examples.
With reference to Fig. 1, the control system for algae yield-increasing device of present embodiment comprises: the combustion gas regulation and control system 100 that is used to regulate gas flow; Be used to control the gas furnace Controlling System 200 of fuel gas buring, blowout protection; The cooling gas transmission Controlling System 300 that is used for regulating shaft flow fan, gasing pump frequency; Be used to regulate the adjusting carbon dioxide concentration control system 400 of gas concentration lwevel; Be used to control the temperature thermostat temperature Controlling System 500 of thermostatted; Described combustion gas regulation and control system 100, gas furnace Controlling System 200, cooling gas transmission Controlling System 300, carbon dioxide concentration control system 400 and thermostat temperature Controlling System 500 connect successively; Described carbon dioxide concentration control system 400 is connected with combustion gas regulation and control system 100.
With reference to Fig. 2, the method for controlling algae yield increasing device of present embodiment may further comprise the steps:
Step S100: system boot, adjust gas flow according to instruction.
Step S200: gas furnace igniting, control fuel gas buring.
Step S300: synchronous with step 200, cooling is opened with axial fan and gasing pump, according to instruction, adjusts operating frequency.
Step S400: according to the fishery products kind, get back to step S100 and S300, regulate gas concentration lwevel.
Step S500: according to the input temp threshold value, the cycle control thermostat temperature.
With reference to Fig. 3, described combustion gas regulation and control system 100 comprises: combustion gas interface switch 101 and be used to regulate the gas control valve 102 of gas flow.
With reference to Fig. 4, described step S100 comprises following substep:
S101: behind the system boot, combustion gas interface switch 101 is opened, and combustion gas is sent into gas furnace by pipeline.
S102: by being arranged on the gas control valve 102 control gas flows on the gas line.
With reference to Fig. 5, described gas furnace Controlling System 200 comprises: with the lighter for ignition 201 of combustion gas interface switch 101 electromagnetism interlock and the blowout protection probe 202 that is connected with the control system for algae yield-increasing device power supply.
With reference to Fig. 6, described step S200 comprises following substep:
S201: after combustion gas interface switch 101 is opened, postpone 1S, the lighter for ignition igniting.
S202: if the combustion gas head is flame-out, then blowout protection probe 202 sends stop instruction to system power supply.
With reference to Fig. 7, described cooling gas transmission Controlling System 300 comprises: axial fan frequency controller 301 and gasing pump frequency controller 302.
With reference to Fig. 8, described step 300 comprises following substep:
S301:, adjust the axial fan operating frequency according to input order.
S302:, adjust the gasing pump operating frequency according to the instruction of gas concentration lwevel comparer.
With reference to Fig. 9, described carbon dioxide concentration control system 400 comprises: be used for the signal piping gas concentration lwevel gas concentration lwevel detector 401, be used for importing the gas concentration lwevel threshold value gas concentration lwevel input unit 402, be used for the threshold value of pipeline gas concentration lwevel and input is compared and then the gas concentration lwevel comparer 403 of output steering order and the micrometering valve 404 that communicates with atmosphere; When environment gas concentration lwevel during less than threshold value, then notify gas control valve 102 increase gas flows and or notice gasing pump frequency controller 302 increase the gasing pump frequencies, when environment gas concentration lwevel during, then notify gas control valve 102 to reduce gas flows, reduce the gasing pump frequency and or open micrometering valve 404 greater than threshold value.
With reference to Figure 10, described step S400 comprises following substep:
S401: current gas concentration lwevel in the signal piping.
S402: input gas concentration lwevel threshold value.
S403: current gas concentration lwevel and threshold value are compared.
S404:, then increase gas flow and or increase the gasing pump frequency when environment gas concentration lwevel during less than threshold value.
S405: when environment gas concentration lwevel during, then reduce gas flow, reduce the gasing pump frequency and or open micrometering valve 404 greater than threshold value.
With reference to Figure 11, described thermostat temperature Controlling System 500 comprises: cooling fan 504, well heater 505, be used to detect envrionment temperature in the thermostatted Temperature Detector 501, be used for the temperature input unit 502 of input temp threshold value, with envrionment temperature and threshold temperature contrast and export the temperature comparator 503 of regulation and control instruction, when envrionment temperature greater than threshold temperature, then open cooling fan 504 coolings, when envrionment temperature less than threshold temperature, then heater 505 heating.
S501: the temperature value that detects envrionment temperature in the thermostatted.
S502: input temp threshold value.
S503: ambient temperature value and threshold value are compared.
S504:, then open the cooling fan cooling when ambient temperature value during greater than threshold value.
S505: when ambient temperature value during less than threshold value, heater then.
With reference to Figure 13, described control system for algae yield-increasing device further comprises: controlled in wireless receptor 600 and controlled in wireless projector 700; Described controlled in wireless receptor 600 is connected with combustion gas regulation and control system 100, gas furnace Controlling System 200, cooling gas transmission Controlling System 300, carbon dioxide concentration control system 400 and thermostat temperature Controlling System 500 respectively; Described controlled in wireless projector 700 is provided with function key: " combustion gas adjusting ", " igniting ", " axial fan ", " gasing pump ", " micrometering valve ", " cooling fan ", " well heater ".
Claims (6)
1. method for controlling algae yield increasing device may further comprise the steps:
S100: system boot, adjust gas flow according to instruction;
S200: gas furnace igniting, control fuel gas buring;
S300: synchronous with step 200, cooling is opened with axial fan and gasing pump, according to instruction, adjusts operating frequency;
S400: according to the fishery products kind, get back to step S100 and S300, regulate gas concentration lwevel;
S500: according to the input temp threshold value, the cycle control thermostat temperature.
2. method for controlling algae yield increasing device according to claim 1 is characterized in that, described step S100 comprises following substep:
S101: behind the system boot, combustion gas interface switch (101) is opened, and combustion gas is sent into gas furnace by pipeline;
S102: by being arranged on gas control valve (102) the control gas flow on the gas line.
3. method for controlling algae yield increasing device according to claim 1 is characterized in that, described step S200 comprises following substep:
S201: after combustion gas interface switch (101) is opened, postpone 1S, the lighter for ignition igniting;
S202: if the combustion gas head is flame-out, then blowout protection probe (202) sends stop instruction to system power supply.
4. method for controlling algae yield increasing device according to claim 1 is characterized in that, described step 300 comprises following substep:
S301:, adjust the axial fan operating frequency according to input order;
S302:, adjust the gasing pump operating frequency according to the instruction of gas concentration lwevel comparer.
5. method for controlling algae yield increasing device according to claim 1 is characterized in that, described step S400 comprises following substep:
S401: current gas concentration lwevel in the signal piping;
S402: input gas concentration lwevel threshold value;
S403: current gas concentration lwevel and threshold value are compared;
S404: when environment gas concentration lwevel during less than threshold value, then increase gas flow and or increase the gasing pump frequency;
S405: when environment gas concentration lwevel during, then reduce gas flow, reduce the gasing pump frequency and or open micrometering valve (404) greater than threshold value.
6. method for controlling algae yield increasing device according to claim 1 is characterized in that, described step S500 comprises following substep:
S501: the temperature value that detects envrionment temperature in the thermostatted;
S502: input temp threshold value;
S503: ambient temperature value and threshold value are compared;
S504:, then open the cooling fan cooling when ambient temperature value during greater than threshold value;
S505: when ambient temperature value during less than threshold value, heater then.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN104312918A (en) * | 2014-10-23 | 2015-01-28 | 湖南屎壳郎环境科技有限公司 | Method for promoting aerobic fermentation reaction by using combustion waste gas |
Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN101570726A (en) * | 2009-06-10 | 2009-11-04 | 潘吉君 | Algae yield-increasing device |
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Patent Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN101570726A (en) * | 2009-06-10 | 2009-11-04 | 潘吉君 | Algae yield-increasing device |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104312918A (en) * | 2014-10-23 | 2015-01-28 | 湖南屎壳郎环境科技有限公司 | Method for promoting aerobic fermentation reaction by using combustion waste gas |
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Application publication date: 20101215 |