CN201845248U - Intelligent controller for aquarium - Google Patents

Intelligent controller for aquarium Download PDF

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Publication number
CN201845248U
CN201845248U CN2009201938822U CN200920193882U CN201845248U CN 201845248 U CN201845248 U CN 201845248U CN 2009201938822 U CN2009201938822 U CN 2009201938822U CN 200920193882 U CN200920193882 U CN 200920193882U CN 201845248 U CN201845248 U CN 201845248U
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CN
China
Prior art keywords
signal
module
central processor
processor cpu
triode
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CN2009201938822U
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Chinese (zh)
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周洪春
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周洪春
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Priority to CN2009201938822U priority Critical patent/CN201845248U/en
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    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P90/00Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
    • Y02P90/02Total factory control, e.g. smart factories, flexible manufacturing systems [FMS] or integrated manufacturing systems [IMS]

Abstract

The utility model relates to an intelligent controller for an aquarium and belongs to the field of control devices, which comprises a CPU (Central Processing Unit), an infrared remote control receiver, a touch button control, a temperature sensor, a low-water-level sensor, a high-water-level sensor, a clock module, an alarm module, an overcurrent and overvoltage protection module, a power module, a control converting module and an LCD, wherein the CPU is connected with the infrared remote control receiver, the touch button control, the temperature sensor, the low-water-level sensor, the high-water-level sensor, the clock module, the alarm module, the overcurrent and overvoltage protection module, the power module, the control converting module and the LCD. The intelligent controller for the aquarium has the advantages that the operation is convenient, the service life is long, and water resource and electrical energy are saved via centralized and combination control.

Description

Intelligence aquarium controller

Technical field

The utility model intelligence aquarium controller belongs to the control device field, the aquarium field that particularly a kind of fish and pasture and water are cultured.

Background technology

At present, fish culture aquarium common and that use always on the market, mostly all be the different manufacturers product mix of producing together, switch lost efficacy easily, life-span is short, these equipment work alone again, lack unified wiring and centralized control, the duty Presentation Function, control to aquarium just exists random greatly, to fish or the growth of pasture and water, breed is disadvantageous, to the circulation and the water quality simple process of water or deal with improperly, causes water quality constantly to worsen, therefore will carry out the replacing of a water every the short period, more serious to water resource and waste of electric energy.

Summary of the invention

The purpose of this utility model is to improve the deficiencies in the prior art part, and a kind of intelligent aquarium controller is provided, to the circulation and the water treatment control of water, pass through centralized control, save water resource and electric energy, handled easily, the intelligent aquarium controller of long service life.

The purpose of this utility model reaches by following measure, and it is by central processor CPU, and infrared remote control receives; touch key-press control; temperature sensor, low water level sensor, high water level sensor; clock module; alarm module, overcurrent and overvoltage protective module, power module; the control transformation module; LCD is formed, and the control transformation module is by lighting control module, the water treatment module; the thermostatic control module; the water pump control module, oxygen pump control module, bactericidal lamp control module; the ecology filtration system module is formed; lighting control module connects the fish jar illumination, and the thermostatic control module connects heating arrangement, and the water pump control module connects water pump; the oxygen pump control module connects the oxygen pump, and the bactericidal lamp control module connects bactericidal lamp.Central processor CPU connects infrared remote control reception, touch key-press control, temperature sensor, low water level sensor, high water level sensor, clock module, alarm module, overcurrent and overvoltage protective module, power module, control transformation module and LCD.

The infrared remote control receiving sensor has infrared reception, amplify, decoding function, the infrared remote control receiving sensor is accepted the signal that telepilot transmits and is delivered to central processor CPU, central processor CPU is discerned this signal, thereby judges the operation of each button of telepilot.

The touch key-press control linkage is installed in the touch-screen on liquid crystal display surface, and touch-screen is installed in the liquid crystal display surface.Touch screen induction is to signal, and signal is sent to central processor CPU to identification signal by the identification of integrated circuit U3, by the control of central processor CPU realization to various functions.

Temperature sensor detects the temperature variation in the water, when water temperature raises or reduce, the voltage at temperature sensor two ends will raise or reduce, this signal is delivered to central processor CPU, the A/D converter that is carried by central processor CPU inside reads signal, storage is carried out data relatively again, demonstrates temperature value by display at last.It is too high to detect water temperature by temperature sensor, and central processor CPU is judged by the induction to water temperature, output overtemperature sound, visual alarm.Temperature sensor is a thermal diode.

When low water level sensor detects, the low water level sensor output terminal just has low level output, signal is delivered to central processor CPU, the A/D converter that is carried by central processor CPU inside reads signal, storage, carry out data more relatively, thereby know the height of fish jar middle water level, exportable water level sound and light alarm signal simultaneously.

When high water level sensor detects, the high water level sensor output terminal just has high level output, signal is delivered to central processor CPU, the A/D converter that is carried by central processor CPU inside reads signal, storage, carry out data more relatively, thereby know the height of fish jar middle water level, exportable water level sound and light alarm signal simultaneously.

Salt content in water is not simultaneously, the magnitude of voltage of sensor output also can be different, this signal is delivered to central processor CPU, the A/D converter that is carried by central processor CPU inside reads signal, storage, carry out data more relatively, thereby know the height of saline and alkaline in the fish jar water, exportable sound and light alarm signal simultaneously.

Clock module is made up of the clock chip and the battery of special use, battery mainly is in the AC power down periods, provide power supply to clock chip, make clock have the power-failure memory function, clock chip has year, month, day, various time signals such as hour, minute, link to each other with central processor CPU with data line by clock line, central processor CPU just can read the signal of clock chip, and signal is shown on the liquid crystal display.

Alarm module is made up of triode, hummer, resistor, capacitor, and central processor CPU connects alarm module, the alerting signal of output, deliver to transistor base by resistor, by the open and close to triode, the break-make of control hummer produces audible ringing signal.

Overcurrent and overvoltage protective module is by over-current detection coil, rectifier, wave filter; compositions such as resistor; by the size of over-current detection coil detection load current, when it changed, coil voltage changed thereupon; by rectification, filtering, resistor dividing potential drop; this signal is delivered to central processor CPU, and the A/D converter that is carried by central processor CPU inside reads signal, storage; carry out data more relatively, thereby judge the size of load current.Overvoltage protection mainly is a magnitude of voltage after the rectification of monitoring alternating current 220V, filtering, the step-down, and the A/D converter that is carried by central processor CPU inside reads signal, and storage is carried out data relatively again, thereby judges whether AC power surpasses assigned voltage.

Power module is made up of switch module, switch triode, high-frequency transformer, rectification, filtering, voltage stabilizing.Switch module produces a high frequency letter, amplify by excitation, do electric current output by switch triode at last, the direct current behind the 220V rectifying and wave-filtering, pass through high-frequency transformer, convert low-voltage AC to, after overcommutation, filtering, voltage stabilizing, become low-voltage DC and use again for relay and central processor CPU.

The control transformation module is by lighting control module, the water treatment module, and the thermostatic control module, the water pump control module, the oxygen pump control module, the bactericidal lamp control module, the ecology filtration system module is formed,

Lighting control module is made up of triode, relay, interface socket, red, blue, white three fluorescence fluorescent tube.The signal that CPU is transmitted, the conducting by triode with end, the Push And Release of pilot relay, thus control red, blue, the on off operating mode of three fluorescence fluorescent tube in vain.

The thermostatic control module connects heating arrangement, the thermostatic control module connects central processor CPU, the signal that central processor CPU transmits, the conducting by triode with end, the Push And Release of pilot relay, thus the duty of control heating arrangement reaches temperature constant state.

The water pump control module connects water pump, is made up of triode, relay, interface socket, water pump.The signal that central processor CPU is transmitted, the conducting by triode with end the Push And Release of pilot relay, thereby the running of control water pump and stopping.

The oxygen pump control module connects the oxygen pump, mainly is made up of triode, relay, interface socket, oxygen pump.The signal that central processor CPU is transmitted, the conducting by triode with end the Push And Release of pilot relay, thereby the running of control oxygen-generating pump and stopping.

The bactericidal lamp control module connects bactericidal lamp.Mainly form by triode, relay, interface socket, bactericidal lamp.The signal that central processor CPU is transmitted, the conducting by triode with end the Push And Release of pilot relay, thereby the on off operating mode of control bactericidal lamp.

Central processor CPU provides the control of shows signal and duty, and central processor CPU connects LCD.

The utility model handled easily, long service life has the control of manual control and remote control dual-use function, both can carry out touch key-press control to various functions by liquid crystal panel, also can carry out Long-distance Control,, save water resource and electric energy by concentrating Comprehensive Control by telepilot.Provide a kind of science, efficiently, intelligence control system accurately, particularly provide a kind of professional mode to non-professional fish or pasture and water breed client, simultaneously by adopting more high-precision sensor, not only can monitor water body feature and saline and alkaline, increase the control of pasture and water type fluorescent tube simultaneously, make aquarium can not only culture all kinds of fancy fishes, more can culture various pasture and water.

Description of drawings

Accompanying drawing 1 is the utility model control principle figure.

Accompanying drawing 2 is circuit diagrams of the present utility model.

Accompanying drawing 2a is a circuit diagram of the present utility model.

Accompanying drawing 3 is the utility model infrared remote control receiving circuit synoptic diagram.

Accompanying drawing 4 is the utility model touch key-press control circuit synoptic diagram.

Accompanying drawing 5 is the utility model temperature sensor circuit synoptic diagram.

Accompanying drawing 6 is that the utility model is low, the high water level sensor circuit diagram.

Accompanying drawing 7 is the utility model clock module circuit diagrams.

Accompanying drawing 8 is the utility model alarm module circuit diagrams.

Accompanying drawing 9 is the utility model overcurrent and overvoltage protective module circuit diagrams.

Accompanying drawing 10 is the utility model power module circuitry synoptic diagram.

Accompanying drawing 11 is the utility model control transformation modular circuit synoptic diagram.

Accompanying drawing 12 is the utility model lighting control module circuit diagrams.

Accompanying drawing 13 is the utility model thermostatic control modular circuit synoptic diagram.

Accompanying drawing 14 is the utility model water pump control module circuit diagrams.

Accompanying drawing 15 is the utility model oxygen pump control module circuit diagrams.

Accompanying drawing 16 is the utility model bactericidal lamp control module circuit

Accompanying drawing 17 is the utility model central processing unit synoptic diagram.

Embodiment

The utility model is described in further detail below in conjunction with accompanying drawing.

As shown in Figure 1; the utility model is by central processor CPU; infrared remote control receives, touch key-press control, temperature sensor; low water level sensor; high water level sensor, clock module, alarm module; overcurrent and overvoltage protective module; power module, the control transformation module, LCD is formed; central processor CPU connects infrared remote control and receives; touch key-press control; temperature sensor; low water level sensor; high water level sensor; clock module; alarm module; overcurrent and overvoltage protective module; power module; control transformation module and LCD; the control transformation module is by lighting control module, water treatment module, thermostatic control module heating arrangement; the water pump control module; the oxygen pump control module, the bactericidal lamp control module, the ecology filtration system module is formed; lighting control module connects the fish jar illumination; the thermostatic control module connects heating arrangement, and heating arrangement connects heating rod, and the water pump control module connects water pump; the oxygen pump control module connects the oxygen pump, and the bactericidal lamp control module connects bactericidal lamp.

As accompanying drawing 2, shown in the accompanying drawing 2a, the effect of the utility model power module converts the 220V alternating current to low-voltage dc power supply exactly, offer central processor CPU and each integrated circuit, relay, as the required power supply of work, principle of work: AC220 carries out High frequency filter through T1, carrying out load current through T2 again detects, enter into filtering after the D7 rectification at last, for U1 (CR6848) provides working power, by high-frequency switching signal of the inner generation of U1 (CR6848), thereby the switch of control Q1, through the induction of B1 high-frequency transformer, the output high-frequency alternating current is through D1 again, the D2 rectification, filtering, 7812, after 7805 voltage stabilizings, output+5V, + 12V DC voltage.The infrared remote control receiving function mainly is to realize Long-distance Control, and it is through TSOP1736 remote signal to be received, and amplifies, and decoding outputs to central processor CPU (3F9488) again and carries out signal identification, thereby realizes the control to each functional module.Touch key-press control is by touch screen induction human finger signal, convert electric signal to and deliver to U3 (74HC165), arrive central processor CPU (3F9488) by signal wire transmits again, central processor CPU (3F9488) is discerned push button signalling, thereby realizes the manual control to each functional module.Temperature sensor mainly is the height that is used for responding to water temperature, when water temperature just changes, the temp diode both end voltage also can just change, this signal is delivered to U4 (3F9454), the A/D device that is carried by U4 (3F9454) inside converts digital signal to again, carry out the storage of data, relatively, be transferred to central processor CPU (3F9488) at last and carry out the temperature demonstration, pass through function modular converter U4 (3F9454) simultaneously, output switching signal, the Push And Release of control Q2, thereby the heating arrangement Push And Release is finally controlled in control JK1 adhesive and disconnection, reaches control water temperature to set temperature value.High, low water level sensor mainly is water level height and the saline and alkaline that is used for detecting in the fish jar, low or when being higher than low water level sensor when the water level in the fish jar, sensor is exported this signal of high or low level and is delivered to U4 (3F9454), the A/D device that is carried by U4 (3F9454) inside converts digital signal to again, carry out the storage of waterlevel data, relatively, low excessively as water level, U4 (3F9454) output alarm signal is given alarm module, alarm module is carried out after receiving alerting signal, and Q8 drives LS1 and sends toot at the set time switch, the toot chimes of doom, liquid crystal display shows the low-water level alarm simultaneously, the water deficiency in the prompting user fish jar.When the saline and alkaline in the fish jar is too high or too low, height will take place and change in the humidity sensor both end voltage, this signal is delivered to U4 (3F9454), and the A/D device that is carried by U4 (3F9454) inside converts digital signal to again, carries out the storage of saline and alkaline data in the water, relatively, judge at last whether the saline and alkaline in the water outlet is suitable, as belong to normal, do not report to the police, too high or too low as saline and alkaline, carry out the alarm user with regard to output alarm signal to alarm module.Clock module: clock chip (PCF8583) and battery by special use are formed, battery mainly is in the AC power down periods, provide power supply to clock chip, make clock have the power-failure memory function, clock chip have year, month, day, hour, minute, second etc. various time signals, link to each other with central processor CPU (3F9488) with data line by clock line, central processor CPU (3F9488) just can read the signal of clock chip, and the standard time is shown on the liquid crystal display.Alarm module: mainly be made up of triode, hummer, resistor, capacitor, the alerting signal of U4 (3F9454) output is delivered to triode Q8 base stage by resistor, and by the open and close to Q8, the break-make of control hummer produces audible ringing signal.Overcurrent, overvoltage protection: mainly by over-current detection coil T2; rectifier D8; wave filter C20; resistor R 25 compositions such as grade; detect the size of load current by T2; when it changes; T2 voltage changes thereupon; by D8 rectification, C20 filtering, resistor R 25 dividing potential drops; this signal is delivered to central processor CPU (3F9454), and the A/D converter that is carried by central processor CPU (3F9454) inside reads signal, storage; carry out data more relatively, thereby judge the size of load current.Overvoltage protection mainly is a magnitude of voltage after the rectification of monitoring alternating current 220V, filtering, the step-down, and the A/D converter that is carried by central processor CPU inside reads signal, and storage is carried out data relatively again, thereby judges whether AC power surpasses assigned voltage 260V.Lighting control module: mainly form by triode Q4, relay J K2, interface socket, red, blue, white three fluorescence fluorescent tube.The signal that U4 is transmitted, the conducting by triode Q4 with end, the Push And Release of pilot relay JK2, thus control red, blue, the on off operating mode of three fluorescence fluorescent tube in vain.Water pump control module: mainly form by triode Q6, relay J K4, interface socket, water pump.The signal that U4 (3F9454) is transmitted, the conducting by triode Q6 with end the Push And Release of pilot relay JK4, thereby the running of control water pump and stopping.Oxygen pump control module: mainly form by triode Q7, relay J K5, interface socket, oxygen pump.The signal that U4 (3F9454) is transmitted, the conducting by triode Q7 with end the Push And Release of pilot relay JK5, thereby the running of control oxygen-generating pump and stopping.Bactericidal lamp control module: mainly form by triode Q5, relay J K3, interface socket, bactericidal lamp.The signal that U4 (3F9454) is transmitted, the conducting by triode Q5 with end the Push And Release of pilot relay JK3, thereby the on off operating mode of control bactericidal lamp.Central processor CPU (3F9488) is made up of single-chip microcomputer U2 (3F9488), crystal oscillator, and U2 provides the control of shows signal and duty, and single-chip microcomputer U2 (3F9488) connects LCD LCD1.Central processor CPU (3F9488) and LCD: mainly be made up of single-chip microcomputer U2 (3F9488), crystal oscillator Y2, LCD LCD1, interface etc., U2 provides the control of shows signal and duty.

As shown in Figure 3, the utility model infrared remote control receiving sensor (TSOP1736) has infrared reception, amplify, decoding function, accept the signal that telepilot transmits and deliver to central processor CPU, be connected U2 the 22nd pin of central processor CPU, central processor CPU is discerned this signal, thereby judges the operation of each button of telepilot.

As shown in Figure 4, the utility model is touched the touch-screen that the button control linkage is installed in the liquid crystal display surface, touch screen induction is to signal, signal is by the identification of U3 (74HC165), identification signal is sent to central processor CPU, be connected U2 the 23rd, 24,25 pin of central processor CPU, by the control of central processor CPU realization to various functions.JP1 is a plug, and CN1 is a socket, and they link together, and the realization touch-screen is connected with central processor CPU.

As shown in Figure 5, the utility model temperature sensor detects the temperature variation in the water, when water temperature raises or reduce, the voltage at temperature sensor two ends will raise or reduce, and this signal is delivered to central processor CPU, is connected U4 the 17th pin of central processor CPU, the A/D converter that is carried by central processor CPU inside reads signal, storage is carried out data relatively again, demonstrates temperature value by display at last.It is too high to detect water temperature by temperature sensor, and central processor CPU is judged by the induction to water temperature, output overtemperature sound, visual alarm.

As shown in Figure 6, when the utility model low water level sensor detects, the low water level sensor output terminal just has high and low level output, signal is delivered to central processor CPU, is connected U4 the 16th pin of central processor CPU, and the A/D converter that is carried by central processor CPU inside reads signal, storage, carry out data more relatively, thereby know the height of fish jar middle water level, exportable water level sound and light alarm signal simultaneously.When high water level sensor detects, the high water level sensor output terminal just has high and low level output, signal is delivered to central processor CPU, be connected U4 the 15th pin of central processor CPU, the A/D converter that is carried by central processor CPU inside reads signal, and storage is carried out data relatively again, thereby know the height of fish jar middle water level, simultaneously exportable water level sound and light alarm signal.Salt content in water is not simultaneously, the magnitude of voltage of sensor output also can be different, this signal is delivered to central processor CPU, the A/D converter that is carried by central processor CPU inside reads signal, storage, carry out data more relatively, thereby know the height of saline and alkaline in the fish jar water, exportable sound and light alarm signal simultaneously.

As shown in Figure 7, the utility model clock module is made up of the clock chip (PCF8583) and the battery of special use, battery mainly is in the AC power down periods, provide power supply to clock chip, make clock have the power-failure memory function, clock chip has year, month, day, various time signals such as hour, minute, link to each other with central processor CPU with data line by clock line, be connected U2 the 26th, 27 pin of central processor CPU, central processor CPU just can read the signal of clock chip, and signal is shown on the liquid crystal display.

As shown in Figure 8, the utility model alarm module is made up of triode, hummer, resistor, capacitor, central processor CPU is connected U4 the 14th pin of central processor CPU, the alerting signal of output, deliver to transistor base by resistor, by the open and close to triode, the break-make of control hummer produces audible ringing signal.

As shown in Figure 9; the utility model overcurrent and overvoltage protective module is by the over-current detection coil; rectifier; wave filter; compositions such as resistor; detect the size of load current by the over-current detection coil; when it changed, coil voltage changed thereupon, by rectification, filtering, resistor dividing potential drop; this signal is delivered to central processor CPU; be connected U4 the 18th pin of central processor CPU, the A/D converter that is carried by central processor CPU inside reads signal, storage; carry out data more relatively, thereby judge the size of load current.Overvoltage protection mainly is a magnitude of voltage after the rectification of monitoring alternating current 220V, filtering, the step-down, and the A/D converter that is carried by central processor CPU inside reads signal, and storage is carried out data relatively again, thereby judges whether AC power surpasses assigned voltage.

As shown in Figure 10, the utility model power module is made up of switch module, switch triode, high-frequency transformer, rectification, filtering, voltage stabilizing.Switch module produces a high frequency letter, amplify by excitation, do electric current output by switch triode at last, the direct current behind the 220V rectifying and wave-filtering, pass through high-frequency transformer, convert low-voltage AC to, after overcommutation, filtering, voltage stabilizing, become low-voltage DC and use again for relay and central processor CPU.

As shown in Figure 11, the utility model control transformation module is by lighting control module, the water treatment module, and the thermostatic control module, the water pump control module, the oxygen pump control module, the bactericidal lamp control module, the ecology filtration system module is formed,

As shown in Figure 12, the utility model lighting control module is made up of triode, relay, interface socket, red, blue, white three fluorescence fluorescent tube.The signal that central processor CPU transmits, be connected U4 the 8th pin of central processor CPU, the conducting by triode with end, the Push And Release of pilot relay, thus control the on off operating mode that red, blue, white three fluorescence fluorescent tube fish jar throws light on.

As shown in Figure 13, the utility model thermostatic control module connects heating arrangement, the thermostatic control module is connected U4 the 9th pin of central processor CPU, the signal that CPU transmits, conducting by triode with end, the Push And Release of pilot relay, thus the break-make of control heating arrangement reaches temperature constant state.

As shown in Figure 14, the utility model water pump control module connects water pump, is made up of triode, relay, interface socket, water pump.The water pump control module is connected U4 the 6th pin of central processor CPU, the signal that central processor CPU transmits, the conducting by triode with end the Push And Release of pilot relay, thereby the running of control water pump and stopping.

As shown in Figure 15, the utility model oxygen pump control module connects the oxygen pump, mainly is made up of triode, relay, interface socket, oxygen pump.The oxygen pump control module is connected U4 the 5th pin of central processor CPU, the signal that central processor CPU transmits, the conducting by triode with end the Push And Release of pilot relay, thereby the running of control oxygen-generating pump and stopping.

As shown in Figure 16, the utility model bactericidal lamp control module connects bactericidal lamp.Mainly form by triode, relay, interface socket, bactericidal lamp.The bactericidal lamp control module is connected U4 the 7th pin of central processor CPU, the signal that central processor CPU transmits, the conducting by triode with end the Push And Release of pilot relay, thereby the on off operating mode of control bactericidal lamp.

As shown in Figure 17, the utility model central processor CPU provides the control of shows signal and duty, and central processor CPU connects LCD.

Claims (10)

1. intelligent aquarium controller; it is characterized in that by central processor CPU; infrared remote control receives; touch key-press control, temperature sensor, low water level sensor; high water level sensor; clock module, alarm module, overcurrent and overvoltage protective module; power module; the control transformation module, LCD is formed, and the control transformation module is by lighting control module; the water treatment module; the thermostatic control module, water pump control module, oxygen pump control module; the bactericidal lamp control module; the ecology filtration system module is formed, and lighting control module connects the fish jar illumination, and the thermostatic control module connects heating arrangement; the water pump control module connects water pump; the oxygen pump control module connects the oxygen pump, and the bactericidal lamp control module connects bactericidal lamp, and central processor CPU connects infrared remote control and receives; touch key-press control; temperature sensor; low water level sensor; high water level sensor; clock module; alarm module; overcurrent and overvoltage protective module; power module; control transformation module and LCD.
2. intelligent aquarium controller according to claim 1, it is characterized in that infrared remote control receives the signal that telepilot transmits and delivers to central processor CPU, touch screen induction is to signal, signal is by the identification of U3, identification signal is sent to central processor CPU, clock module is made up of clock chip and battery, link to each other with central processor CPU with data line by clock line, alarm module is by triode, hummer, resistor, capacitor is formed, the alerting signal of central processor CPU output, deliver to transistor base by resistor, by opening to triode, close, hummer produces audible ringing signal.
3. intelligent aquarium controller according to claim 1, it is characterized in that level sensor is a humidity sensor, its output end signal is delivered to central processor CPU, and the A/D converter that is carried by central processor CPU inside reads signal, storage, carry out data more relatively, temperature sensor connects central processor CPU, and the A/D converter that is carried by central processor CPU inside reads signal, storage, carry out data more relatively, demonstrate temperature value by display at last.
4. intelligent aquarium controller according to claim 1 is characterized in that overcurrent and overvoltage protective module is by over-current detection coil, rectifier; wave filter; resistor is formed, and power module is made up of switch module, switch triode, high-frequency transformer, rectification, filtering, voltage stabilizing, and switch module produces a high frequency letter; amplify by excitation; do electric current output by switch triode,, convert low-voltage AC to by high-frequency transformer; after overcommutation, filtering, voltage stabilizing, become low-voltage direct again.
5. intelligent aquarium controller according to claim 1, it is characterized in that lighting control module is made up of triode, relay, interface socket, three fluorescence fluorescent tube, the conducting of the signal that central processor CPU transmits by triode with end, the Push And Release of pilot relay, the bactericidal lamp control module connects bactericidal lamp, form by triode, relay, interface socket, bactericidal lamp, the signal that central processor CPU transmits, conducting by triode with end the Push And Release of pilot relay.
6. intelligent aquarium controller according to claim 1 is characterized in that the thermostatic control module connects heating arrangement, and the thermostatic control module connects central processor CPU, the conducting by triode with end the Push And Release of pilot relay.
7. intelligent aquarium controller according to claim 1, it is characterized in that the water pump control module connects water pump, form by triode, relay, interface socket, water pump, the signal that central processor CPU transmits, conducting by triode with end, the Push And Release of pilot relay, the oxygen pump control module connects the oxygen pump, form by triode, relay, interface socket, oxygen pump, the signal that central processor CPU transmits, conducting by triode with end the Push And Release of pilot relay.
8. intelligent aquarium controller according to claim 1 is characterized in that central processor CPU is made up of single-chip microcomputer U2, crystal oscillator, and U2 provides the control of shows signal and duty, and single-chip microcomputer U2 connects LCD LCD1.
9. intelligent aquarium controller according to claim 1; it is characterized in that power module converts alternating current to low-voltage dc power supply; carry out High frequency filter through T1; carrying out load current through T2 again detects; filtering after the rectification; again through the induction of B1 high-frequency transformer; the output high-frequency alternating current; through overcommutation; filtering; after the voltage stabilizing; output dc voltage; infrared remote control receives remote signal is received; amplify; decoding; output to central processor CPU again and carry out signal identification; touch key-press control is by the touch screen induction signal; convert electric signal to and deliver to U3; arrive central processor CPU by signal wire transmits again; central processor CPU is discerned push button signalling; the height of temperature sensor senses water temperature; signal is delivered to U4; the A/D device that is carried by U4 inside converts digital signal to again; carry out the storage of data; relatively; be transferred to central processor CPU at last and carry out the temperature demonstration; through function modular converter U4; output switching signal; the Push And Release of control Q2; control heating arrangement Push And Release; sensor output signal is delivered to U4; the A/D device that is carried by U4 inside converts digital signal to again; carry out the storage of waterlevel data, relatively, the U4 output alarm signal is given alarm module; alarm module is carried out after receiving alerting signal; clock module is made up of clock chip and battery, links to each other with central processor CPU with data line by clock line, and central processor CPU reads the signal of clock chip; be shown on the liquid crystal display; alarm module is by triode; hummer; resistor; capacitor is formed, and the alerting signal of U4 output is delivered to triode by resistor; the break-make of control hummer; produce audible ringing signal, overcurrent; overvoltage protection is by over-current detection coil, rectifier; wave filter; resistor is formed, by detecting the size of load current, by rectification; filtering; the resistor dividing potential drop; signal is delivered to central processor CPU; the A/D converter that is carried by central processor CPU inside reads signal, and storage is carried out data relatively again; lighting control module is by triode; relay; interface socket; fluorescent tube is formed; the signal that U4 is transmitted, the conducting by triode with end the Push And Release of pilot relay; water pump control module triode; relay; interface socket; water pump is formed; the signal that U4 is transmitted, the conducting by triode with end the Push And Release of pilot relay; the oxygen pump control module is by triode; relay; interface socket; the oxygen pump is formed; the signal that U4 is transmitted, the conducting by triode with end the Push And Release of pilot relay; the bactericidal lamp control module is by triode; relay; interface socket; bactericidal lamp is formed; the signal that U4 is transmitted, the conducting by triode with end the Push And Release of pilot relay; central processor CPU and LCD: mainly by single-chip microcomputer U2; crystal oscillator Y2; LCD LCD1; compositions such as interface, U2 provide the control of shows signal and duty.
10. intelligent aquarium controller according to claim 9 is characterized in that temperature sensor is a thermal diode, and touch-screen is installed in the liquid crystal display surface.
CN2009201938822U 2009-08-28 2009-08-28 Intelligent controller for aquarium CN201845248U (en)

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Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102797669A (en) * 2012-08-27 2012-11-28 苏州创泰电子有限公司 Controller of oxygen pump
CN102880156A (en) * 2012-10-19 2013-01-16 上海海洋大学 Intelligent monitoring method and system for fish tank
CN103651214A (en) * 2013-12-11 2014-03-26 苏州市职业大学 Ornamental fish culture management device
CN103727577A (en) * 2013-12-16 2014-04-16 李恒 Intelligent electric warmer
CN104238428A (en) * 2014-09-24 2014-12-24 嘉兴市红尘电子科技有限公司 Multifunctional touch inductive electronic switch of liquid crystal display
CN104506808A (en) * 2014-12-27 2015-04-08 罗仁通 Networking intelligent aquatic creature monitoring system
CN105325348A (en) * 2015-09-24 2016-02-17 上海应用技术学院 Intelligent fish tank implement method based on voice control
CN105794710A (en) * 2016-05-03 2016-07-27 方筠捷 Domestic intelligent aquarium
CN109541999A (en) * 2018-11-15 2019-03-29 浙江理工大学 A kind of wireless aquarium monitoring system

Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102797669A (en) * 2012-08-27 2012-11-28 苏州创泰电子有限公司 Controller of oxygen pump
CN102880156A (en) * 2012-10-19 2013-01-16 上海海洋大学 Intelligent monitoring method and system for fish tank
CN103651214A (en) * 2013-12-11 2014-03-26 苏州市职业大学 Ornamental fish culture management device
CN103651214B (en) * 2013-12-11 2016-03-02 苏州市职业大学 A kind of aquarium fish culture management device
CN103727577A (en) * 2013-12-16 2014-04-16 李恒 Intelligent electric warmer
CN104238428A (en) * 2014-09-24 2014-12-24 嘉兴市红尘电子科技有限公司 Multifunctional touch inductive electronic switch of liquid crystal display
CN104506808A (en) * 2014-12-27 2015-04-08 罗仁通 Networking intelligent aquatic creature monitoring system
CN105325348A (en) * 2015-09-24 2016-02-17 上海应用技术学院 Intelligent fish tank implement method based on voice control
CN105794710A (en) * 2016-05-03 2016-07-27 方筠捷 Domestic intelligent aquarium
CN105794710B (en) * 2016-05-03 2017-02-15 方筠捷 Domestic intelligent aquarium
CN109541999A (en) * 2018-11-15 2019-03-29 浙江理工大学 A kind of wireless aquarium monitoring system

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