CN208387664U - Oxygen-increasing control system - Google Patents
Oxygen-increasing control system Download PDFInfo
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- CN208387664U CN208387664U CN201821015185.3U CN201821015185U CN208387664U CN 208387664 U CN208387664 U CN 208387664U CN 201821015185 U CN201821015185 U CN 201821015185U CN 208387664 U CN208387664 U CN 208387664U
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- controller
- switch
- sub
- switch device
- control circuit
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Abstract
The utility model discloses a kind of oxygen-increasing control systems, including oxygenation controller, the oxygenation controller is connected with probe, it further include multichannel intermittent cyclic controller, the multichannel intermittent cyclic controller is provided with multiple delivery outlets, each delivery outlet is connected with a sub-control circuit and water pump, water pump and sub-control circuit in parallel, the sub-control circuit includes the second switch device being sequentially connected in series, delay switch, delay controller and first switch device, each first switch device is connected in series with aerator, the oxygenation controller is connected with control line, the control line is connected with the second switch device of every road sub-control circuit.The utility model is realized using the water-soluble oxygen amount in an oxygenation controller and a probe each pond of Polling, and use cost is low, and most of small-sized raiser can bear.
Description
Technical field
The utility model relates to field of aquaculture devices, and in particular to a kind of oxygen-increasing control system.
Background technique
Oxygenation controller is a instrument used in aquaculture, the instrument by the constantly monitoring to pond dissolved oxygen,
Achieve the purpose that automatic control oxygen increasing machine switchs, so that reducing causes due to human negligence or other reasons open aerator not in time
Breed variety anoxic or it is dead a possibility that, or because open aerator it is unreasonable caused by electric waste.Specifically, oxygenation controls
Device includes controller host and probe, and probe placement is connected in pond and through cable with controller host, controller host
It is connected by control line with aerator, the dissolved oxygen amount in probe detection water simultaneously sends data to controller host, works as dissolved oxygen amount
When lower than some value, controller host controls aerator starting, oxygen-containing gas is passed through into water, to promote dissolved oxygen amount.
Oxygenation controller is usually the dissolved oxygen amount in one 1 mouthful of pond of probe measurement of a host and controls the aerator in a bite pond and open
It closes, multiple ponds then need multiple oxygenation control machines, and use cost is relatively high, and common raiser can not undertake.
Utility model content
The technical problem to be solved by the utility model is to provide a kind of lower oxygen-increasing control systems of use cost.
The utility model technical scheme applied to solve the technical problem is: oxygen-increasing control system, including oxygenation controller,
The oxygenation controller is connected with probe,
It further include multichannel intermittent cyclic controller, the multichannel intermittent cyclic controller is provided with multiple delivery outlets, each
Delivery outlet is connected with a sub-control circuit and water pump, water pump and sub-control circuit in parallel, and the sub-control circuit includes being sequentially connected in series
Second switch device, delay switch, delay controller and first switch device, each first switch device is connected in series with increasing
Oxygen machine, the oxygenation controller are connected with control line, and the control line is connected with the second switch device of every road sub-control circuit.
It further, further include power supply, alarm and water flow switch, the power supply, alarm and water flow switch series connection connect
It connects.
Further, the first switch device is contactor.
Further, the second switch device is contactor.
Compared with prior art, the utility model has the beneficial effects that each delivery outlet of multichannel intermittent cyclic controller
Successively be powered, each road sub-control circuit and water pump are successively powered operation, water pump the water in each pond is successively delivered to pop one's head in into
Row detection, when the water-soluble oxygen amount in some pond is lower than setting value, oxygenation controller controls the energization of the aerator in the pond
Operation, to increase dissolved oxygen amount.The utility model is realized using an oxygenation controller and an each pond of probe Polling
Water-soluble oxygen amount in the pool, use cost is low, and most of small-sized raiser can bear.
Detailed description of the invention
Fig. 1 is the circuit diagram of the utility model.
Appended drawing reference: 1-oxygenation controller;2-probes;3-multichannel intermittent cyclic controllers;4-first switch devices;
5-water pumps;6-aerators;7-second switch devices;8-delay switch;9-delay controllers;10-control lines;11-electricity
Source;12-alarms;13-water flow switches.
Specific embodiment
The present invention will be further described with reference to the accompanying drawings and examples.
As shown in Figure 1, arrow is water (flow) direction, the oxygen-increasing control system of the utility model, including oxygenation controller in figure
1, the oxygenation controller 1 is connected with probe 2,
It further include multichannel intermittent cyclic controller 3, the multichannel intermittent cyclic controller 3 is provided with multiple delivery outlets, often
A delivery outlet is connected with a sub-control circuit and water pump 5, the water pump 5 in each sub-control circuit and sub-control circuit in parallel, the sub-control
Circuit includes the second switch device 7 being sequentially connected in series, delay switch 8, delay controller 9 and first switch device 4, each
First switch device 4 is connected in series with aerator 6, and the oxygenation controller 1 is connected with control line 10, the control line 10 with it is every
The second switch device 7 of road sub-control circuit is connected.
For detecting the dissolved oxygen amount in water flow and sending data to oxygenation controller 1, oxygenation controller 1 is used for probe 2
Data are handled, when dissolved oxygen amount is lower than setting value, control line 10 is powered, and provides control signal for the starting of aerator 6.
Multichannel intermittent cyclic controller 3 is provided with multiple delivery outlets, and multiple delivery outlets in turn, are cyclically powered, and controls each sub-control electricity
Road is run in turn with water pump 5.Water pump 5 is used to pump in the water in pond to popping one's head at 2, and in order to pop one's head in, 2 pairs of dissolved oxygen amounts are carried out
The exit of detection, water pump 5 is provided with check-valves, prevents water from flowing back into pond.Aerator 6 is oxygenous for being passed through into water
Body, to promote the dissolved oxygen amount in water, one water pump 5 of installation and one or more aerator 6 in each pond.First switch dress
Set 4 and second switch device 7 receive signal after can be closed and circuit is connected, relay etc. can be used can be used as circuit and open
The element of pass, it is preferred that the first switch device 4 is contactor, and A.C. contactor, the second switch dress specifically can be used
Setting 7 also is contactor, and A.C. contactor specifically can be used, which is the coil of 220V, and contact three-phase two-phase is all right,
Depending on the circuit structure of end aerator 6.Delay switch 8 upon receipt of the signals, through delay after a period of time
After reclose and circuit be connected, this measurement data can be waited to stablize in this way, avoid being influenced by a upper measurement data and
It opens by mistake and closes aerator 6.Delay controller 9 is used to control the on-off of first switch device 4, after delay controller 9 receives signal,
Can make first switch device 4 closure setting time after disconnect again, thus can control 6 each run of aerator when
Between.
The operational process of the utility model are as follows: at each one section of delivery outlet wheel flow-thru electrode of multichannel intermittent cyclic controller 3
Between, when some delivery outlet is powered, the water in pond is then delivered to by coupled water pump 5 and sub-control power on circuitry, water pump 5
It pops one's head at 2, probe 2 detects the water-soluble oxygen amount in the ponds;After second switch device 7 in sub-control power on circuitry is powered, it will control
Line 10 is connected with sub-control circuit, if the detected value of water-soluble oxygen amount is lower than setting value, oxygenation controller 1 is issued by control line 10
Electric signal, since second switch device 7 is connected, electric signal transmission to delay switch 8, delay switch 8, delay controller 9 postpone
It is closed after a period of time, electric signal is transmitted to delay controller 9 again, and delay controller 9 brings into operation after receiving electric signal, control
It is disconnected after the time of the closure of first switch device 4 setting processed, within this period that first switch device 4 is closed, aerator 6 is logical
Electricity operation increases the dissolved oxygen amount in pond water.
A kind of more specifical embodiment are as follows: multichannel intermittent cyclic controller 3 has 4 delivery outlets, and respectively No. 1 defeated
Outlet, No. 2 delivery outlets, No. 3 delivery outlets and No. 4 delivery outlets, the water pump 5 being connected with No. 1 delivery outlet is No. 1 pump, with No. 1 delivery outlet
Connected sub-control circuit is No. 1 branch, and the aerator 6 being connected with No. 1 branch is No. 1 aerator, and No. 1 pump is pacified with No. 1 aerator
Loaded in No. 1 pond;Other water pumps 5, sub-control circuit and aerator 6 are adopted and are named in a like fashion.
Workflow are as follows:
No. 1 delivery outlet, No. 2 delivery outlets, No. 3 delivery outlets and No. 4 delivery outlets are successively closed energization 3 minutes;
When No. 1 delivery outlet is powered, the second switch device 7 of No. 1 branch is powered, and control line 10 and No. 1 branch is connected, together
When No. 1 pump be powered, the water in No. 1 pond is pumped to probe 2, the water-soluble oxygen amount in 2 pairs of No. 1 ponds of popping one's head in measures, and surveys
The length of time for measuring data is different according to dissolved oxygen pre-post difference, and specially 10-90 seconds;
When the water-soluble oxygen amount in No. 1 pond is lower than setting value, oxygenation controller 1 controls control line 10 and is powered, electric signal
Delay switch 8 is reached after control line 10, second switch device 7, delay switch 8 starts, switch beginning countdown 90 seconds, and 90
It is closed the switch after second, issues signal to delay controller 9, delay controller 9 starts, and (i.e. first opens to three-phase ac contactor
Close device 4) coil be powered 15 minutes, during the energization, the starting of No. 1 aerator increases the water-soluble oxygen amount in No. 1 pond.
No. 2 delivery outlets, No. 3 delivery outlets and No. 4 delivery outlets are successively powered, and detailed process is the same as No. 1 delivery outlet.
No. 1 delivery outlet, No. 2 delivery outlets, No. 3 delivery outlets and No. 4 delivery outlet wheel flow-thru electrodes it is primary after, time-consuming 12 minutes,
12nd point 01 second, be powered for second of No. 1 delivery outlet, second carried out to the water in No. 1 pond and is measured, if No. 1 delivery outlet the
No. 1 aerator starting when once electrification, then it is in starting state in the 12nd point of 01 second No. 1 aerator, second of measurement
Shi Ruguo dissolved oxygen amount is higher than setting value, then 10 no power of control line, stops after No. 1 aerator operation is 15 minutes full;If the
If dissolved oxygen amount is once again powered up again below setting value, control line 10 when double measurement, delay switch 8 is delayed 90 seconds and is delayed backward
Controller 9 issues signal, and 9 timer of delay controller is reset countdown again and is powered 15 minutes, recycled with this.
It further include power supply 11, alarm 12 and water flow switch 13, the power supply 11, alarm 12 and water flow switch 13 are connected
Connection.General battery can be used in power supply 11, such as the direct-flow storage battery or 12V power switch of 12V.Alarm 12 is using general
Voice guard.The setting of water flow switch 13 is by probe 2, when there is water flow to flow through water flow switch 13, water flow switch 13
It disconnects, when water pump 5 or multichannel intermittent cyclic controller 3 break down and be unable to operate normally, without water flow by probe 2
With water flow switch 13, water flow switch 13 will be closed, and the energization of alarm 12 sounds an alarm, and notify pond administrative staff in time.
In the present invention, the concrete model of oxygenation controller 1 may is that DO-6800-YG;The concrete model of probe 2
It may is that KD series oxygen electrode;The concrete model of multichannel intermittent cyclic controller 3 may is that the programmable multiple time relay
XGHPG-140-B;The concrete model of second switch device 7 may is that electromagnetic relay MY2N-J/AC220v;Delay switch 8
Concrete model may is that relay JK022 is connected in 220V delay;The concrete model of delay controller 9 may is that the 220V time after
Electric appliance YYC-4S pine river version;The concrete model of first switch device 4 may is that 220V A.C. contactor CJX2-4011.
The electrical component of above-mentioned model is only a kind of embodiment of the utility model, in addition to above-mentioned model, other energy
Enough realize that the electrical component of said function can be used for the utility model.For controlling 4 ponds simultaneously, using above-mentioned type
Number element after, implementation cost are as follows: oxygenation controller 1+ pop one's head in 2+ control line 10 cost be 1200 yuan, multichannel intermittent cyclic control
Device 3 processed is 130 yuan, and 4 first switch devices 4 are 160 yuan, and 4 water pumps are 200 yuan, and 4 second switch devices 7 are 24 yuan, 4
A delay switch 8 is 30 yuan, and 4 delay controllers 9 are 140 yuan, and power supply 11 is 60 yuan, and alarm 12 is 20 yuan, water flow switch
13 be 20 yuan, and 1 yuan 1 meter of water pipe, resulting cost is about 2024 yuan, and in the prior art, control the aeration system cost in 4 ponds
10000 or so, therefore the utility model significantly reduces aquaculture cost.
Claims (4)
1. oxygen-increasing control system, including oxygenation controller (1), the oxygenation controller (1) is connected with probe (2), and feature exists
In,
It further include multichannel intermittent cyclic controller (3), the multichannel intermittent cyclic controller (3) is provided with multiple delivery outlets, often
A delivery outlet is connected with a sub-control circuit and water pump (5), water pump (5) and sub-control circuit in parallel, and the sub-control circuit includes successively
Second switch device (7), delay switch (8), delay controller (9) and the first switch device (4) of series connection, each first
Switching device (4) is connected in series with aerator (6), and the oxygenation controller (1) is connected with control line (10), the control line
(10) it is connected with the second switch device (7) of every road sub-control circuit.
2. oxygen-increasing control system according to claim 1, which is characterized in that further include power supply (11), alarm (12) and
Water flow switch (13), the power supply (11), alarm (12) and water flow switch (13) are connected in series.
3. oxygen-increasing control system according to claim 1 or 2, which is characterized in that the first switch device (4) is contact
Device.
4. oxygen-increasing control system according to claim 1 or 2, which is characterized in that the second switch device (7) is contact
Device.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821015185.3U CN208387664U (en) | 2018-06-28 | 2018-06-28 | Oxygen-increasing control system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821015185.3U CN208387664U (en) | 2018-06-28 | 2018-06-28 | Oxygen-increasing control system |
Publications (1)
Publication Number | Publication Date |
---|---|
CN208387664U true CN208387664U (en) | 2019-01-18 |
Family
ID=65129890
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201821015185.3U Expired - Fee Related CN208387664U (en) | 2018-06-28 | 2018-06-28 | Oxygen-increasing control system |
Country Status (1)
Country | Link |
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CN (1) | CN208387664U (en) |
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2018
- 2018-06-28 CN CN201821015185.3U patent/CN208387664U/en not_active Expired - Fee Related
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20190118 Termination date: 20210628 |
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CF01 | Termination of patent right due to non-payment of annual fee |