CN208480490U - Based on Siemens LOGO!Intelligent fish tank - Google Patents
Based on Siemens LOGO!Intelligent fish tank Download PDFInfo
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- CN208480490U CN208480490U CN201820714174.8U CN201820714174U CN208480490U CN 208480490 U CN208480490 U CN 208480490U CN 201820714174 U CN201820714174 U CN 201820714174U CN 208480490 U CN208480490 U CN 208480490U
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Abstract
The utility model discloses a kind of based on Siemens LOGO!Intelligent fish tank, including Master cylinder body and water purification cylinder, Master cylinder body is connected to by upper hose with downcomer with water purification cylinder, it further include controller and the oxygen-containing quantity sensor being all connected with the controller, the first temperature sensor, pressure sensor, solenoid valve, water pump, heater, oxygen increasing pump and power module, wherein, oxygen-containing quantity sensor and the first temperature sensor are installed on Master cylinder body, and the induction part of the two is respectively positioned on inside Master cylinder body;Pressure sensor is located at Master cylinder body bottom, is connected to inside induction part and Master cylinder body;Solenoid valve is mounted on downcomer;The water inlet end of water pump is connected to water purification cylinder, and water outlet is connected to upper hose far from one end of Master cylinder body;Heater is located in water purification cylinder;The air stone of oxygen increasing pump is located in Master cylinder body.The utility model can be realized the water purification circulation of fish jar, water temperature control, water level control and oxygenation control, and will not influence too much to Fish Survival itself, and the degree of automation is higher.
Description
Technical field
The utility model relates to fish jar fields, in particular to a kind of to be based on Siemens LOGO!Intelligent fish tank.
Background technique
In recent years, as China's economic develops rapidly, people's lives level is increasingly improved, and the cultivation of ornamental value fish exists
More and more common in people's daily life, it enriches free life, adjusting physical and mental health, quality of making the life better to people and all plays
Extremely important effect.
There are many kinds of classes for fish jar, mostly use traditional artificial breeding mode, but during feeding fish, need daily
It is hand-manipulated to repeat to change water, filtering and supplemental oxygen etc., it is very complicated, if cannot switch relevant device on time will lead
Cause waste of energy, or even destroy the fish jar ecosystem consequence, therefore, existing fish jar has the following problems: 1, fish jar water quality inferiority,
Water purification cyclic utilization rate is low, oxygen system falls behind, so that the phenomenon of fish death occurs in use in fish jar, and causes to provide
The waste in source, and it is difficult to automatic cycle cultivation;2, mechanization degree and the degree of automation are low, especially in terms of changing water,
It is most of still to rely on manual operations.
For this purpose, the application devises one kind based on Siemens LOGO!Intelligent fish tank, which can be realized fish jar
Water purification circulation, water temperature control, water level control and oxygenation control, and Fish Survival itself will not be influenced too much, and
The degree of automation is higher, greatly reduces labour.
Utility model content
In order to achieve the above objectives, the technical scheme adopted by the utility model is
One kind being based on Siemens LOGO!Intelligent fish tank, including Master cylinder body and water purification cylinder, the Master cylinder body and water purification cylinder are logical
The upper hose of super-interval setting is connected to downcomer, and one end end of the upper hose connection Master cylinder body is located at water level in Master cylinder body
Top, further include controller, oxygen-containing quantity sensor, the first temperature sensor, pressure sensor, solenoid valve, water pump, heating
Device, oxygen increasing pump and power module, the controller respectively with oxygen-containing quantity sensor, the first temperature sensor, pressure sensor, electricity
Magnet valve, water pump, heater, oxygen increasing pump connection, the power module are connect with each electricity consumption module on the Intelligent fish tank;
Wherein, the oxygen-containing quantity sensor and the first temperature sensor are installed on Master cylinder body, and the induction part of the two is equal
Inside the Master cylinder body;The pressure sensor is located at Master cylinder body bottom, is connected to inside induction part and the Master cylinder body;
The solenoid valve is mounted on downcomer;The water inlet end of the water pump is connected to water purification cylinder, and water outlet and the upper hose are separate
One end of Master cylinder body is connected to;The heater is located in water purification cylinder;The air stone of the oxygen increasing pump is located in Master cylinder body.
Further, the Intelligent fish tank further includes the second temperature sensor connecting with the controller, and described second
Temperature sensor is mounted on water purification cylinder, and sensing part is in the water purification cylinder.
Further, the Intelligent fish tank further includes control panel, and the control panel connects controller, to touch
Screen.
Further, the Intelligent fish tank further includes indicator light, and the indicator light connects controller comprising with it is described
The alarm lamp and running indicator of controller connection.
Further, the Intelligent fish tank further includes button assembly, and the button assembly connects controller comprising with
The stop button and start button of the controller connection.
Further, the model Siemens LOGO of the controller!12/24RCo 0BA8, first temperature sensing
Device is platinum resistance thermometer sensor, Pt100, and the pressure sensor is diffused silicon pressure transmitter.
Further, the pressure sensor is by Pipe installing in Master cylinder body bottom, and sensing part is in the pipeline
It is interior.
Further, the Master cylinder body is mounted on control cabinet, and is located at the top of the control cabinet, the water purification cylinder, control
Device and oxygen increasing pump processed are respectively positioned in control cabinet;The downcomer is also located in control cabinet, and one end is connected to the Master cylinder body, separately
One end is connected to the water purification cylinder.
Further, it is provided with filter layer in the water purification cylinder, the filter layer is mainly made of active carbon and cavernous body;
One end end of the downcomer connection water purification cylinder and water pump inlet set up the opposite sides in filter layer separately.
Further, timing module built in the controller, the timing module have water purification circulation timing submodule and
Oxygenation timing submodule;The water purification circulation timing submodule drives timing by controller after Intelligent fish tank unlatching, institute
State detection case of the oxygenation timing submodule by controller according to the first temperature sensor, pressure sensor, oxygen-containing quantity sensor
Driving operation.
Compared with prior art, the utility model has the following beneficial effects:
1, the utility model can be realized the automatic water purifying circulation of fish jar, automatic water temperature control system, automatic water level control and oneself
Dynamic oxygenation control, wherein the setting of the first temperature sensor, heater, solenoid valve and water pump realizes water temperature in Master cylinder body
It automatically controls, the setting of pressure sensor, solenoid valve and water pump realizes the automatic control of water level in Master cylinder body, above-mentioned water temperature control
System and water level control realize the automatic water purifying circulation of Master cylinder body, running water flowing jointly, and oxygen-containing quantity sensor and oxygen increasing pump
The automatic aeration control for realizing Master cylinder body is set then.In summary, Intelligent fish tank designed by the utility model is more intelligent
Change, manual operation can be substantially reduced, and be conducive to the existence of fish in Master cylinder body.
2, the utility model assists to complete the water purification circulation of Master cylinder body, water temperature control and water level control by setting water purification cylinder
System, meanwhile, water purification cylinder can also be Master cylinder body make-up water source and purify water, and purification function mainly passes through to be set on water purification cylinder
The filter layer set is come what is realized, and therefore, the utility model may make that water quality is purified and replaces in Master cylinder body, and make master cylinder
Intracorporal water is running water, to reduce a possibility that fish jar Mesichthyes is dead.
Detailed description of the invention
Fig. 1 is that the utility model one kind is based on Siemens LOGO!Intelligent fish tank structural schematic diagram.
Fig. 2 is the main view of control cabinet in Fig. 1.
Fig. 3 is the system block diagram of Fig. 1.
Main element symbol description
In figure: Master cylinder body 1, downcomer 11, solenoid valve 12, upper hose 13, the first temperature sensor 14, pressure sensor
15, water purification cylinder 2, filter layer 21, water pump 22, heater 23, second temperature sensor 24, control cabinet 3, controller 31, control plane
Plate 32, indicator light 33, button assembly 34.
The following detailed description will be further explained with reference to the above drawings the utility model.
Specific embodiment
Referring to Fig. 1, one kind is based on Siemens LOGO in a kind of better embodiment of the utility model!Intelligence
Fish jar, including a Master cylinder body 1, a water purification cylinder 2 and a control cabinet 3, the Master cylinder body 1 are mounted on control cabinet 3, and are located at described
The top of control cabinet 3, the water purification cylinder 2 are mounted in control cabinet 3, and the water purification cylinder 2 and Master cylinder body 1 pass through spaced one
Upper hose 13 is connected to a downcomer 11, wherein one end end that the upper hose 13 is connected to Master cylinder body 1 is located in Master cylinder body 1
The top of water level, the other end are connected to water purification cylinder 2, and described 11 one end of downcomer is connected to the lower part of the Master cylinder body 1, preferably with
The bottom of the Master cylinder body 1 is connected to, and the other end is connected to the water purification cylinder 2, the water in the Master cylinder body 1 is drained into water purification cylinder
In 2.In the present embodiment, the downcomer 11 is located in control cabinet 3, and the upper hose 13 extends to control out of control cabinet 3
Outside cabinet 3 processed, after extend on the Master cylinder body 1.
Further, filter layer 21 is provided in the water purification cylinder 2, the filter layer 21 is mainly by active carbon and cavernous body
It constitutes, to adsorb dirt, impurity etc. in water purification cylinder 2 in water using active carbon and cavernous body, so that the water in water purification cylinder 2
It is purified, in the present embodiment, two filter layers 21 is provided in the water purification cylinder 2, two 21 edge of filter layer
Water purification cylinder 2 length direction interval setting, it is preferable that the height of the filter layer 21 be equal to water purification cylinder 2 height.
Further, the Intelligent fish tank further include controller 31, oxygen-containing quantity sensor 16, the first temperature sensor 14,
Second temperature sensor 24, pressure sensor 15, solenoid valve 12, water pump 22, heater 23, oxygen increasing pump, control panel 32, instruction
Lamp 33, button assembly 34 and power module.The controller 31 respectively with oxygen-containing quantity sensor 16, the first temperature sensor 14,
Second temperature sensor 24, pressure sensor 15, solenoid valve 12, water pump 22, heater 23, oxygen increasing pump, control panel 32, instruction
Lamp 33 and button assembly 34 connect, to the information for each module that centralized collection, processing are attached thereto, and according to collected letter
Breath drives corresponding module operation, it is preferable that the controller 31 is arranged in control cabinet 3, the model of the controller 31
Siemens LOGO!12/24RCo 0BA8.The power module is connect with each electricity consumption module on the Intelligent fish tank, to be each
Electricity consumption modules with power is supported.
Wherein, the oxygen-containing quantity sensor 16 is mounted on Master cylinder body 1, and sensing part is inside the Master cylinder body 1.Institute
Oxygen-containing quantity sensor 16 is stated for incuding the oxygen content in Master cylinder body 1, and generates oxygen content signal hair in the controller 31, institute
It states the real-time oxygen content according to entrained by the comparative analysis oxygen content information of controller 31 and controller 31 is pre-set oxygen-containing
Lower limit value, oxygen content preset value are measured come whether determining oxygenation pump operation, wherein the oxygen content preset value is greater than oxygen content lower limit
Value.When real-time oxygen content is less than oxygen content lower limit value as the result is shown for the analysis of the controller 31, the controller 31 is controlled
Oxygen increasing pump is opened, until the control of controller 31 oxygen increasing pump is closed when real-time oxygen content is equal to oxygen content preset value, on the contrary controller
31 control oxygen increasing pumps are closed.In the present invention, the air stone of the oxygen increasing pump is located in Master cylinder body 1, for the increasing of Master cylinder body 1
Oxygen, it is preferable that the oxygen increasing pump is arranged in control cabinet 3.
First temperature sensor 14 is mounted on Master cylinder body 1, and sensing part is inside the Master cylinder body 1.It is described
First temperature sensor 14 generates corresponding first temperature signal hair in the control to detect the temperature in Master cylinder body 1
Device 31, the controller 31 according to received first temperature signal control heater 23, solenoid valve 12 and water pump 22 operation,
To realize the regulation of water temperature in Master cylinder body 1.In the present invention, the heater 23 is located in water purification cylinder 2 to heat
Water in water purification cylinder 2, the solenoid valve 12 are mounted on downcomer 11, to control the on-off of downcomer 11, the water pump 22
Water inlet end is connected to water purification cylinder 2, and water outlet is connected to the upper hose 13 far from one end of Master cylinder body 1, will be in water purification cylinder 2
Water is evacuated in Master cylinder body 1, it is preferable that one end end part that 22 water inlet end of water pump is connected to water purification cylinder 2 with downcomer 11 is located at
The opposite sides of filter layer 21, but not between two filter layers 21, so that the water energy under arranging out of Master cylinder body 1 enough passes through
Filter layer 21 filters and after purifying, then pumped by water pump 22 to Master cylinder body 1, so as to improve the water quality in Master cylinder body 1.
Regulation for water temperature in above-mentioned Master cylinder body 1 embodies are as follows: the controller 31 receives the first temperature signal
Afterwards, master cylinder real time temperature contained by comparative analysis first temperature signal and pre-set master cylinder temperature upper limit in controller 31
Value, master cylinder temperature upper limit value and master cylinder temperature median.When master cylinder real time temperature is less than master cylinder temperature as the result is shown for comparative analysis
When the observed temperature of lower limit value, i.e. Master cylinder body 1 is too low, the controller 31 first controls solenoid valve 12 simultaneously and heater 23 is opened
It opens, the rear water pump 22 that controls is opened, and the water in Master cylinder body 1 is drained into water purification cylinder 2, and utilize the heater 23 in water purification cylinder 2
Heating opens water pump 22 when being heated to certain temperature, so that the water energy after heating is enough evacuated in Master cylinder body 1, to improve master
Water temperature in cylinder body 1 is to master cylinder temperature median;When master cylinder real time temperature is greater than master cylinder temperature upper limit as the result is shown for comparative analysis
Value, that is, when the observed temperature of Master cylinder body 1 is excessively high, 31 drive magnetic valve 12 of controller and water pump 22 open simultaneously or according to
Secondary unlatching, the water in Master cylinder body 1 is drained into water purification cylinder 2, while after the water in water purification cylinder 2 is evacuated in Master cylinder body 1,
Water circulation is formed, achieve the purpose that the water temperature reduced in Master cylinder body 1 and the water temperature is made to be equal to master cylinder temperature median;Work as comparison
Analysis is when master cylinder real time temperature is between master cylinder temperature upper limit and master cylinder temperature upper limit value as the result is shown, the controller 31
Heater 23, solenoid valve 12 and water pump 22 is controlled to close.
Preferably, in order to improve the accuracy that water temperature detects in Master cylinder body 1, setting is more than one in the Master cylinder body 1
First temperature sensor 14, and set up the different location in Master cylinder body 1 separately;Secondly, when the first temperature in the Master cylinder body 1 passes
At sensor 14 setting one, first temperature sensor 14 is preferably provided at the bottom of Master cylinder body 1;Furthermore it is needing to mention
The opening time of water pump 22 is determined when water temperature in high Master cylinder body 1, the utility model is provided with second temperature sensor 24, described
Second temperature sensor 24 is mounted on water purification cylinder 2, and sensing part is in the water purification cylinder 2, the second temperature sensor
24 to detect the water temperature in the water purification cylinder 2, and generates second temperature signal hair in the controller 31, the controller 31
Further according to the pre-set heating liter water temperature of water purification cylinder real time temperature contained by second temperature signal and controller 31 to score
Whether analysing unlatching of the result to determine water pump 22, when water purification cylinder real time temperature rises water temperature not less than heating as the result is shown for analysis,
The controller 31 drives water pump 22 to open, otherwise the controller 31 controls water pump 22 and closes;In addition, needing to reduce master cylinder
When water temperature in body 1, the water temperature in the water purification cylinder 2 should be less than the water temperature in Master cylinder body 1, and in order to guarantee in water purification cylinder 2
Water temperature is lower than the water temperature in Master cylinder body 1, and water inlet pipe is additionally provided on the water purification cylinder 2, and described water inlet pipe one end is connected to water purification cylinder 2
Inside, the other end are connect with external source, and inlet valve is equipped on the water inlet pipe, and the inlet valve connects controller
31, it is turned on or off with the controller 31 in the controller 31, the setting of the water inlet pipe can introduce the allogenic water of room temperature, make
The water temperature obtained in water purification cylinder 2 is controlled, meanwhile, it can also supplement the water in the Intelligent fish tank.In the present embodiment, institute
It states the first temperature sensor 14 and second temperature sensor 24 is platinum resistance thermometer sensor, Pt100.
The pressure sensor 15 is located at 1 bottom of Master cylinder body, is connected to inside induction part and the Master cylinder body 1, the pressure
Force snesor 15 generates corresponding hydraulic signal and sends out in the controller 31 to detect the hydraulic pressure of 1 bottom of Master cylinder body, described
Controller 31 obtains the water level information of Master cylinder body 1 according to the hydraulic signal, after the electromagnetism controlled according to resulting water level information
The operation of valve 12 and water pump 22, to realize the regulation of water level in Master cylinder body 1.
Specifically, it is pre- in the comparative analysis water level information and controller 31 after the controller 31 obtains water level information
Master cylinder water level upper limit value, master cylinder water level lower limit and the master cylinder water level median being first arranged, when comparative analysis water level as the result is shown
When information is lower than master cylinder water level lower limit, the controller 31 controls solenoid valve 12 and closes, while the water pump 22 being driven to run,
The water pump 22 draws water to Master cylinder body 1, until water level information is equal to master cylinder water level median, when comparative analysis water as the result is shown
When position information is higher than master cylinder water level upper limit value, 31 drive magnetic valve 12 of controller is opened, while being controlled the water pump 22 and being closed
It closing, the water in the Master cylinder body 1 is drained into water purification cylinder 2 by downcomer 11, until water level information is equal to master cylinder water level median,
When water level information is between master cylinder water level upper limit value and master cylinder water level lower limit as the result is shown for comparative analysis, the controller
31 control solenoid valve 12 and the closing of water pump 22 simultaneously.In the present embodiment, the pressure sensor 15 is diffused-silicon pressure change
Send device;The pressure sensor 15 is by Pipe installing in 1 bottom of Master cylinder body, and the pipeline is connected to the bottom of Master cylinder body 1, institute
The induction part for stating pressure sensor 15 protrudes into inside pipeline.
The control panel 32 is touch screen, specially Siemens SMART LINE touch screen, to show each sensing
In order to which user checks, while each parameter preset can also be arranged in the detected value of device, as master cylinder temperature, heating rise water temperature, master cylinder
Water level value, water purification circulation time, oxygenation circulation time.
The indicator light 33 includes the alarm lamp and running indicator connecting with controller 31, and the alarm lamp is in the intelligence
It is sounded an alarm when fish jar is operating abnormally by the driving of controller 31, the running indicator is when the Intelligent fish tank is run by controller 31
Driving lights, in order to which user knows the operating condition of the Intelligent fish tank.
The button assembly 34 includes the stop button connecting with controller 31 and start button, and the controller 31 is logical
Cross the operation or stoppage in transit pressing situation and control the Intelligent fish tank of button assembly 34.
Further, the Intelligent fish tank also has the function of automatic water-replacing and oxygen-supplying function, sets particular by following
Set realization: timing module built in the controller 31, the timing module have water purification circulation timing submodule and oxygenation fixed
When submodule.
The water purification circulation timing submodule drives timing, the water purification by controller 31 after Intelligent fish tank unlatching
The generation of circulation timing submodule changes water time signal hair in controller 31, and by comparative analysis, this changes the water time to the controller 31
Water time value and the pre-set water purification circulation time of controller 31 are changed contained by signal to determine solenoid valve 12 and water pump 22
Whether operation;When comparing result, which is shown, changes water time value equal to water purification circulation time, 31 drive magnetic valve 12 of controller
It opens, the water in Master cylinder body 1 is drained into water purification cylinder 2 by downcomer 11, until the water level in Master cylinder body 1 reaches lowest water level
Value, rear controller 31 control solenoid valve 12 and close, water pump 22 is driven to open again, and the water in water purification cylinder 2 is evacuated to by the water pump 22
In Master cylinder body 1, until the water level in Master cylinder body 1 reaches master cylinder water level median, rear controller 31 controls water pump 22 and closes, then
Controller 31 controls the water temperature in Master cylinder body 1 according to the detection case of the first temperature sensor 14, until the water temperature in Master cylinder body 1
Reach preset value, at this point, controller 31 promotes water purification circulation timing submodule to reset simultaneously reclocking, into the water purification of next round
Circulation is adjusted.
The oxygenation timing submodule is by controller 31 according to the first temperature sensor 14, pressure sensor 15, oxygen content
The detection case of sensor 16 drives operation, specifically, when first temperature sensor 14, pressure sensor 15 and oxygen-containing
When the detection case of quantity sensor 16 shows that water temperature, water level and the oxygen content of Master cylinder body 1 are in preset value, the controller 31 is driven
Dynamic oxygenation timing submodule BOB(beginning of block) timing, the oxygenation timing submodule generates oxygenation time signal and sends out in controller 31, described
When oxygenation time value contained by 31 comparative analysis of the controller oxygenation time signal and the pre-set oxygenation of controller 31 recycle
Between, and whether determine according to comparative analysis result and the testing result of oxygen-containing quantity sensor 16 operation of oxygen increasing pump, work as comparison
Oxygenation time value is equal to oxygenation circulation time as the result is shown, and the master cylinder oxygen content that oxygen-containing quantity sensor 16 detects is lower than master cylinder
When oxygen-containing lower limit value, the controller 31 drives oxygen increasing pump to open, and the oxygen increasing pump is 1 oxygenation of Master cylinder body, until in Master cylinder body 1
Oxygen content be equal to oxygen content preset value, the rear controller 31 controls oxygen increasing pump and closes, while controller 31 promotes oxygenation fixed
When submodule reset and reclocking, into next round oxygenation recycle adjust, when comparing result show oxygenation time value be equal to
Oxygenation circulation time, but when oxygen-containing not less than the master cylinder lower limit set value of the master cylinder oxygen content that detects of oxygen-containing quantity sensor 16, control
Device 31 processed drives oxygenation timing submodule to reset simultaneously reclocking, and the oxygenation into next round recycles adjusting.
It carries out it is worth noting that the circulation of oxygenation each time adjusts to adjust based on last oxygenation, is recycled in an oxygenation
In time, if oxygen-containing quantity sensor 16 detects that oxygen content is lower than oxygen content lower limit value in Master cylinder body 1, the driving of controller 31 increases
Oxygen pump operation, and control oxygen increasing pump is closed when the oxygen content in Master cylinder body 1 reaches oxygen content preset value, at this point, controller 31
Oxygenation timing submodule is promoted to reset simultaneously reclocking.But water purification is recycled in adjusting, in a water purification circulation time
In, when water level and water temperature in Master cylinder body 1 need to adjust, water purification circulation timing submodule is not reset and reclocking.
In the present invention, the Intelligent fish tank is capable of temperature, water level and the oxygen content of adjust automatically Master cylinder body 1, and
Water can be periodically changed, and realizes recycling for water resource, wherein in the present embodiment, after the Intelligent fish tank starting, first
Water level control is carried out, then carries out temperature control, finally carries out oxygen content control, when the control of water level, temperature and oxygen content is default
Timing after value, and opened after timing reaches the inflow and outflow of water time and change aqueous mode, opened after timing reaches oxygenation circulation time
Oxygenation mode.It is self-regulation mode after Intelligent fish tank starting, the workflow for changing aqueous mode and oxygenation mode below:
(1) the self-regulation mode after starting
After the Intelligent fish tank is opened,
1) hydraulic pressure is adjusted: the pressure sensor 15 detects the hydraulic pressure in Master cylinder body 1, and the controller 31 is according to the hydraulic pressure
The water level information of Master cylinder body 1 is obtained, and the water level in Master cylinder body 1 is adjusted according to water level information obtained;When water level information is low
When master cylinder water level lower limit, the controller 31 controls solenoid valve 12 and closes, while the water pump 22 being driven to run, the water
Pump 22 draws water to Master cylinder body 1, until water level information is equal to master cylinder water level median, when comparative analysis water level information as the result is shown
When higher than master cylinder water level upper limit value, 31 drive magnetic valve 12 of controller is opened, while being controlled the water pump 22 and being closed, described
Water in Master cylinder body 1 is drained into water purification cylinder 2 by downcomer 11, until water level information is equal to master cylinder water level median, works as comparison
When water level information is between master cylinder water level upper limit value and master cylinder water level lower limit as the result is shown, the controller 31 is simultaneously for analysis
It controls solenoid valve 12 and water pump 22 is closed.
2) lower water temperature: first temperature sensor 14 detects the temperature in Master cylinder body 1, and second temperature sensor 24 is examined
Survey the temperature in water purification cylinder 2, pressure sensor 15 detects the hydraulic pressure in Master cylinder body 1, three generate respectively corresponding signal hair in
Controller 31;It is less than master cylinder lowest temperature when controller 31 receives the master cylinder real time temperature that the first temperature sensor 14 detects
Value, the controller 31 first controls solenoid valve 12 simultaneously and heater 23 is opened, and the water in Master cylinder body 1 is drained by downcomer 11
In water purification cylinder 2, until controller 31 controls electricity when the water level information that pressure sensor 15 detects is equal to master cylinder water level lower limit
Magnet valve 12 is closed, meanwhile, the water purification cylinder real time temperature that second temperature sensor 24 detects is equal to controller when heating rises water temperature
31 control heaters 23 are closed, and then controller 31 controls water pump 22 and opens, until the water level letter that pressure sensor 15 detects
Controller 31 controls water pump 22 and closes when breath is equal to master cylinder water level median;When controller 31 receives the first temperature sensor 14
The master cylinder real time temperature detected is greater than master cylinder temperature upper limit, and the controller 31 controls solenoid valve 12 and opens, in Master cylinder body 1
Water drained into water purification cylinder 2 by downcomer 11, until the water level information that pressure sensor 15 detects is equal under master cylinder water level
Controller 31 controls solenoid valve 12 and closes when limit value, and then controller 31 controls water pump 22 and opens, until pressure sensor 15 is examined
Controller 31 controls water pump 22 and closes when the water level information measured is equal to master cylinder water level median;When controller 31 receives first
It is described when the master cylinder real time temperature that temperature sensor 14 detects is between master cylinder temperature upper limit and master cylinder temperature upper limit value
Controller 31 controls heater 23, solenoid valve 12 and water pump 22 and closes.
3) oxygen content controls: the oxygen-containing quantity sensor 16 detects the oxygen content in Master cylinder body 1, and generates oxygen content signal
It sends out in controller 31;It is less than under oxygen content when the controller 31 receives the real-time oxygen content that oxygen-containing quantity sensor 16 detects
When limit value, controller 31 controls oxygen increasing pump and opens, until the control of controller 31 increases when real-time oxygen content is equal to oxygen content preset value
Oxygen pump is closed, otherwise controller 31 controls oxygen increasing pump and closes.
(2) aqueous mode is changed
After the Intelligent fish tank is opened, the controller 31 drives the operation of water purification circulation timing submodule, and the water purification follows
Ring timing submodule BOB(beginning of block) timing, and generate and change water time signal hair in controller 31,31 comparative analysis of controller this change
Water time value and water purification circulation time are changed contained by water time signal;
When comparing result, which is shown, changes water time value equal to water purification circulation time, 31 drive magnetic valve 12 of controller is opened
It opens, the water in Master cylinder body 1 is drained into water purification cylinder 2 by downcomer 11, until the water level in Master cylinder body 1 reaches master cylinder water level lower limit
Value, rear controller 31 control solenoid valve 12 and close, water pump 22 is driven to open again, and the water in water purification cylinder 2 is evacuated to by the water pump 22
In Master cylinder body 1, until the water level in Master cylinder body 1 reaches master cylinder water level median, rear controller 31 controls water pump 22 and closes, then
Controller 31 controls the water temperature in Master cylinder body 1 according to the detection case of the first temperature sensor 14, until the water temperature in Master cylinder body 1
Reach master cylinder temperature median, water purification circulation timing submodule is reset and reclocking, entrance are next at this point, controller 31 promotes
The water purification of wheel, which recycles, to be adjusted.
(3) oxygenation mode
When the detection case of first temperature sensor 14 and pressure sensor 15 shows water temperature, the water level of Master cylinder body 1
And oxygen content, when being in preset value, the controller 31 drives the BOB(beginning of block) timing of oxygenation timing submodule, the oxygenation timing submodule
Block generates oxygenation time signal hair in controller 31, when oxygenation contained by described 31 comparative analysis of controller oxygenation time signal
Between value with oxygenation circulation time;
When comparing result shows that oxygenation time value is equal to oxygenation circulation time, and the master cylinder that oxygen-containing quantity sensor 16 detects
When oxygen content is lower than master cylinder oxygen-containing lower limit value, the controller 31 drives oxygen increasing pump to open, and the oxygen increasing pump is that Master cylinder body 1 increases
Oxygen, until the oxygen content in Master cylinder body 1 is equal to oxygen content preset value, the rear controller 31 controls oxygen increasing pump and closes, same to time control
Device 31 processed promotes oxygenation timing submodule to reset simultaneously reclocking, and the oxygenation into next round recycles adjusting;When comparing result is aobvious
Under showing that oxygenation time value is equal to oxygenation circulation time, but the master cylinder oxygen content that detects of oxygen-containing quantity sensor 16 is oxygen-containing lower than master cylinder
When limiting setting value, controller 31 drives oxygenation timing submodule to reset simultaneously reclocking, and the oxygenation circulation into next round is adjusted.
Above description is the detailed description for the preferable possible embodiments of the utility model, but embodiment is not limited to
The patent claim of the utility model, the same changes or modifications completed under technical spirit suggested by all the utility model
Change, should belong to the covered the scope of the patents of the utility model.
Claims (10)
1. one kind is based on Siemens LOGO!Intelligent fish tank, including Master cylinder body and water purification cylinder, the Master cylinder body and water purification cylinder pass through
Spaced upper hose is connected to downcomer, and one end end of the upper hose connection Master cylinder body is located at water level in Master cylinder body
Top, it is characterised in that: further include controller, oxygen-containing quantity sensor, the first temperature sensor, pressure sensor, solenoid valve, water
Pump, heater, oxygen increasing pump and power module, the controller are passed with oxygen-containing quantity sensor, the first temperature sensor, pressure respectively
Sensor, solenoid valve, water pump, heater, oxygen increasing pump connection, the power module connect with each electricity consumption module on the Intelligent fish tank
It connects;
Wherein, the oxygen-containing quantity sensor and the first temperature sensor are installed on Master cylinder body, and the induction part of the two is respectively positioned on
Inside the Master cylinder body;The pressure sensor is located at Master cylinder body bottom, is connected to inside induction part and the Master cylinder body;It is described
Solenoid valve is mounted on downcomer;The water inlet end of the water pump is connected to water purification cylinder, and water outlet and the upper hose are far from master cylinder
One end of body is connected to;The heater is located in water purification cylinder;The air stone of the oxygen increasing pump is located in Master cylinder body.
2. Intelligent fish tank as described in claim 1, it is characterised in that: further include that the second temperature connecting with the controller passes
Sensor, the second temperature sensor are mounted on water purification cylinder, and sensing part is in the water purification cylinder.
3. Intelligent fish tank as described in claim 1, it is characterised in that: it further include control panel, the control panel connection control
Device processed is touch screen.
4. Intelligent fish tank as described in claim 1, it is characterised in that: it further include indicator light, the indicator light connects controller,
It includes the equal alarm lamp and running indicator connecting with the controller.
5. Intelligent fish tank as described in claim 1, it is characterised in that: it further include button assembly, the button assembly connection control
Device processed comprising the stop button and start button being connect with the controller.
6. Intelligent fish tank as described in claim 1, it is characterised in that: the model Siemens LOGO of the controller!12/
24RCo 0BA8, first temperature sensor are platinum resistance thermometer sensor, Pt100, and the pressure sensor is diffused-silicon pressure pick-up
Device.
7. Intelligent fish tank as described in claim 1, it is characterised in that: the pressure sensor is by Pipe installing in Master cylinder body
Bottom, sensing part is in the pipeline.
8. Intelligent fish tank as described in claim 1, it is characterised in that: the Master cylinder body is mounted on control cabinet, and is located at institute
It states at the top of control cabinet, the water purification cylinder, controller and oxygen increasing pump are respectively positioned in control cabinet;The downcomer is also located at control cabinet
Interior, one end is connected to the Master cylinder body, and the other end is connected to the water purification cylinder.
9. Intelligent fish tank as described in claim 1, it is characterised in that: be provided with filter layer, the filtering in the water purification cylinder
Layer is mainly made of active carbon and cavernous body;One end end of the downcomer connection water purification cylinder and water pump inlet set up separately in mistake
The opposite sides of filtering layer.
10. Intelligent fish tank as described in claim 1, it is characterised in that: timing module built in the controller, the timing mould
Block has water purification circulation timing submodule and oxygenation timing submodule;The water purification circulation timing submodule is in the Intelligent fish tank
Timing is driven by controller after unlatching, the oxygenation timing submodule is by controller according to the first temperature sensor, pressure sensing
The detection case driving operation of device, oxygen-containing quantity sensor.
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CN201820714174.8U CN208480490U (en) | 2018-05-14 | 2018-05-14 | Based on Siemens LOGO!Intelligent fish tank |
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CN201820714174.8U CN208480490U (en) | 2018-05-14 | 2018-05-14 | Based on Siemens LOGO!Intelligent fish tank |
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Publication Number | Publication Date |
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CN208480490U true CN208480490U (en) | 2019-02-12 |
Family
ID=65253277
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CN201820714174.8U Expired - Fee Related CN208480490U (en) | 2018-05-14 | 2018-05-14 | Based on Siemens LOGO!Intelligent fish tank |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115997717A (en) * | 2022-12-27 | 2023-04-25 | 江苏省淡水水产研究所 | Water monitoring and water quality adjusting integrated device for large-scale freshwater fish culture |
-
2018
- 2018-05-14 CN CN201820714174.8U patent/CN208480490U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115997717A (en) * | 2022-12-27 | 2023-04-25 | 江苏省淡水水产研究所 | Water monitoring and water quality adjusting integrated device for large-scale freshwater fish culture |
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