CN206596419U - Automatic watering flower pot device - Google Patents
Automatic watering flower pot device Download PDFInfo
- Publication number
- CN206596419U CN206596419U CN201720168515.1U CN201720168515U CN206596419U CN 206596419 U CN206596419 U CN 206596419U CN 201720168515 U CN201720168515 U CN 201720168515U CN 206596419 U CN206596419 U CN 206596419U
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- circuit
- water tank
- flowerpot
- magnetic valve
- outlet
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- Cultivation Receptacles Or Flower-Pots, Or Pots For Seedlings (AREA)
Abstract
The utility model discloses a kind of automatic watering flower pot device, aim to provide a kind of automatic watering flower pot device of intelligent control rate of water make-up, during solving moisturizing, the hypervolia sometimes added in flowerpot, the water sometimes added is very few, potted plant is caused to grow moisture not average enough, its drip irrigation device is to include flowerpot, it is arranged at the first water tank and the second water tank in flowerpot, the outlet of first water tank is provided with the first magnetic valve of its outlet water outlet of control, the outlet of second water tank is provided with the second magnetic valve of its outlet water outlet of control, the volume of first water tank is more than the second water tank, first magnetic valve and the second magnetic valve are controlled by a controller, the controller controls the first water tank moisturizing when flowerpot upper and lower part is dried, the second water tank moisturizing is controlled when flowerpot bottom top drying bottom is moist.
Description
Technical field
The utility model is related to flower pot arrangement technical field, more particularly to automatic watering flower pot device.
Background technology
Flowerpot is that, for planting flowers and plants, but existing flowerpot structure is all relatively simple, mainly using a basin body knot
Structure, its structure is used for holding soil, opens up apopore in flowerpot bottom, it is primarily to the root system for being capable of plant is preferably exhaled
Inhale, and when water is too much, can be very good to reserve from apopore, prevent the generation of rotten.
But mainly added water at present for the technical scheme that flowerpot is automatically replenished to flowerpot, but for amount of water
Do not control well so that during moisturizing, the hypervolia sometimes added in flowerpot, the water mistake sometimes added
It is few, cause potted plant to grow moisture not average enough.
Utility model content
In view of the deficienciess of the prior art, the purpose of this utility model is to provide the automatic water supplement of intelligent control rate of water make-up
Flower pot arrangement.
Above-mentioned technical purpose of the present utility model technical scheme is that:A kind of automatic watering flower pot
Device, including flowerpot, the first water tank and the second water tank that are arranged in flowerpot, the outlet of first water tank are set
There is the first magnetic valve of its outlet water outlet of control, the outlet of second water tank is provided with the second electricity of its outlet water outlet of control
Magnet valve, the volume of the first water tank is more than the second water tank, and the first magnetic valve and the second magnetic valve are controlled by a controller, the control
Device processed controls the first water tank moisturizing when flowerpot upper and lower part is dried, when flowerpot bottom top drying bottom is moist
Control the second water tank moisturizing.
By above-mentioned setting, by being detected to the humidity in flowerpot, so as to control the water tank of different waters to flower
Basin is added water, according to upper-lower position in flowerpot, and from top to bottom, dry situation is usually that flowerpot top is easily first for moisture penetration
There is drying, be finally that flowerpot bottom drying occurs, and it is first to cause the increase of top humidity to add water, and is finally bottom humidity increasing
Plus, by this programme, the moisture in flowerpot can be very good control, and the second water tank of low capacity is that occur drying feelings on top
Moisturizing is carried out under condition, and the second water tank of Large Copacity is that moisturizing is carried out in the case of all occurring drying in upper and lower part,
So as to save the excessive waste of water, moisturizing is reasonably carried out.
Can be preferably as concrete scheme of the present utility model:The controller includes the first humidity sensor, second
Humidity sensor, decision circuitry and drive circuit, first humidity sensor are arranged on the top of flowerpot, and the second humidity is passed
Sensor is arranged on the bottom of flowerpot, and the first humidity sensor, the second humidity sensor are all connected with decision circuitry, the decision circuitry
To judge whether humidity exceedes setting value, when humidity less than setting value is then judged as drying, drive circuit is according to decision circuitry
Signal drive the first magnetic valve and the second magnetic valve.
By above-mentioned setting, Humidity Detection is carried out using the first humidity sensor and the second humidity sensor, and use
Decision circuitry and drive circuit so that automatic running after circuit can be powered, keep an eye on without personnel, improve intelligence degree.
Can be preferably as concrete scheme of the present utility model:The decision circuitry includes the first comparison circuit, second
Comparison circuit and logic gates, first comparison circuit and the second comparison circuit connect logic gates respectively, described
Logic gates is used to export the first drive signal or second according to the output result of the first comparison circuit and the second comparison circuit
Drive signal.
By above-mentioned setting, the signal that sensor is exported can be effectively treated, realized to the first magnetic valve and the
The control of two magnetic valves.
Can be preferably as concrete scheme of the present utility model:The logic gates includes the first not circuit, the
Two not circuits, first and gate circuit, second and gate circuit, the first not circuit input connect the second comparison circuit, second
With gate circuit input, the first not circuit output end connection first and gate circuit input, the second not circuit input connect
The first comparison circuit output end, the second not circuit output end connection second and gate circuit input, first and door input are connect,
First exports the first drive signal with gate output terminal, and second exports the second drive signal with gate output terminal.
By above-mentioned setting, using logic gates, realize to the logical process between unlike signal so that in two ratios
The first drive signal is exported when low level compared with circuit output, low level, the second comparison circuit are exported in the first comparison circuit
The second drive signal is exported during output high level.
Can be preferably as concrete scheme of the present utility model:The drive circuit includes first switch circuit, second
On-off circuit, the first switch circuit receives the first drive signal and controls the first power of electromagnetic valve break-make, the second switch
Circuit receives the second drive signal and controls the second power of electromagnetic valve break-make.
By above-mentioned setting, the first magnetic valve, the second electricity are controlled by first switch circuit and second switch circuit respectively
Magnet valve, independent moisturizing during moisturizing, rate of water make-up can be controlled effectively.
In summary, the utility model has the advantages that:Moisture in flowerpot can be very good control, low capacity
The second water tank be to occur carrying out moisturizing under drying regime on top, and the second water tank of Large Copacity is in upper and lower part
All occur carrying out moisturizing in the case of drying, so as to save the excessive waste of water, reasonably carry out moisturizing.
Brief description of the drawings
Fig. 1 is the flowerpot structure schematic diagram of the present embodiment;
Fig. 2 is the flowerpot structure diagrammatic cross-sectional view of the present embodiment;
Fig. 3 is the circuit structure diagram of the decision circuitry of the present embodiment;
Fig. 4 is the circuit diagram of the first switch circuit of the present embodiment;
Fig. 5 is the circuit diagram of the second switch circuit of the present embodiment.
2, flowerpot in figure;3rd, the first water tank;4th, the second water tank;5th, the first magnetic valve;6th, the second magnetic valve;7th, first
Humidity sensor;8th, the second humidity sensor;91st, decision circuitry;911st, the first comparison circuit;912nd, the second comparison circuit;
913rd, logic gates;NOT1, the first not circuit;NOT2, the second not circuit;AND1, first and gate circuit;AND2,
Two and gate circuit;921st, first switch circuit;922nd, second switch circuit.
Embodiment
The utility model is described in further detail below in conjunction with accompanying drawing.
Embodiment:
As shown in figure 1, a kind of automatic watering flower pot device, including flowerpot 2, the first water tank 3 for being arranged in flowerpot 2 with
And second water tank 4, the volume of the first water tank 3 is more than the second water tank 4, can be set to the volume of the first water tank 3
2 times of the volume of second water tank 4.First water tank 3 and the second water tank 4 use plastic container or metal can.First storage
The outlet of water pot 3 is provided with the first magnetic valve 5 of its outlet water outlet of control, and the outlet of the second water tank 4, which is provided with, controls it to go out
Second magnetic valve 6 of mouth water outlet, delivery port can be arranged on the side wall of the first water tank 3, can also be arranged on bottom.First
The magnetic valve 6 of magnetic valve 5 and second is controlled by a controller, and controller controls the first water storage when the upper and lower part of flowerpot 2 is dried
The moisturizing of tank 3, the moisturizing of the second water tank 4 is controlled when the bottom top of flowerpot 2 drying bottom is moist.
As shown in Fig. 2 controller includes the first humidity sensor 7, the second humidity sensor 8, decision circuitry 91 and driven
Dynamic circuit.In Fig. 2, the first humidity sensor 7 is arranged on the top of flowerpot 2, and the second humidity sensor 8 is arranged under flowerpot 2
Portion.First humidity sensor 7, the second humidity sensor 8 are all connected with decision circuitry 91, and whether decision circuitry 91 is to judge humidity
More than setting value, when humidity less than setting value is then judged as drying, drive circuit drives first according to the signal of decision circuitry 91
The magnetic valve 6 of magnetic valve 5 and second.
As shown in figure 3, decision circuitry 91 includes the first comparison circuit 911, the second comparison circuit 912 and logic gates
913.First comparison circuit 911 and the second comparison circuit 912 connect logic gates 913 respectively, and logic gates 913 is used to root
The first drive signal or the second drive signal are exported according to the output result of the first comparison circuit 911 and the second comparison circuit 912.Energy
It is enough that the signal that sensor is exported is effectively treated, realize the control to the first magnetic valve 5 and the second magnetic valve 6.
In figure 3, logic gates 913 is electric with door including the first not circuit NOT1, the second not circuit NOT2, first
Road AND1, second and gate circuit AND2, the second comparison circuit of the first not circuit NOT1 inputs connection 912, second and door electricity
Road AND2 inputs, the first not circuit NOT1 output ends connection first and gate circuit AND1 inputs, the second not circuit
NOT2 inputs connect the output end of the first comparison circuit 911, the second not circuit NOT2 output ends connection second and gate circuit
AND2 inputs, first export the first drive signal with door input, first with gate output terminal, second with gate output terminal output the
Two driving signal.First drive signal is S1, and the second drive signal is S2.
As shown in Figure 4 and Figure 5, drive circuit includes first switch circuit 921, second switch circuit 922.First in Fig. 4
On-off circuit 921 receives the first drive signal S1 control on/offs of the first magnetic valve 5.First switch circuit 921 includes resistance
R11, resistance R12, triode Q1, the first relay K1 and the first diode D1.Component is connected according to Fig. 4 connected mode
After connecing, the first drive signal S1 is high level, then triode Q1 is turned on, and the first relay K1 obtains electric, then closes its normally opened tactile
Point.AC is the power supply powered to the first magnetic valve 5.In Fig. 5, second switch circuit 922 receives the second drive signal S2 controls the
The on/off of two magnetic valve 6.The structure of second switch circuit 922 is similar with the structure of first switch circuit 921.It includes component
Resistance R21, resistance R22, triode Q2, the first relay K2 and the first diode D1.When the second drive signal S2 is high electricity
Usually, the second relay K2 is acted.First magnetic valve is controlled by first switch circuit 921 and second switch circuit 922 respectively
5th, the second magnetic valve 6, independent moisturizing during moisturizing, rate of water make-up can be controlled effectively.
With reference to shown in Fig. 1-5, Humidity Detection is carried out using the first humidity sensor 7 and the second humidity sensor 8, by right
Humidity in flowerpot 2 is detected, so as to control the water tank of different waters to add water flowerpot 2, above and below in flowerpot 2
Position, from top to bottom, dry situation is usually that the top of flowerpot 2 drying easily first occurs, is finally the bottom of flowerpot 2 for moisture penetration
There is drying, and it is first to cause the increase of top humidity to add water, and is finally bottom humidity increase, is judged by decision circuitry 91
Belong to which type of drying.Using logic gates 913, realize to the logical process between unlike signal so that at two
Comparison circuit output exports the first drive signal when low level, exports low level in the first comparison circuit 911, second compares
Circuit 912 exports the second drive signal when exporting high level.By this programme, the moisture in flowerpot 2 can be very good control, small
Second water tank 4 of capacity is that occur carrying out moisturizing under drying regime on top, and the second water tank 4 of Large Copacity is on top
All occur carrying out moisturizing in the case of drying with bottom, so as to save the excessive waste of water, reasonably carry out moisturizing.
This specific embodiment is only to explain of the present utility model, and it is not to limitation of the present utility model, ability
Field technique personnel can make the modification without creative contribution to the present embodiment as needed after this specification is read, but
As long as all being protected in right of the present utility model by Patent Law.
Claims (5)
1. a kind of automatic watering flower pot device, including flowerpot (2), the first water tank (3) and second for being arranged in flowerpot (2)
Water tank (4), it is characterised in that:The outlet of first water tank (3) is provided with the first magnetic valve of its outlet water outlet of control
(5), the outlet of second water tank (4) is provided with the second magnetic valve (6) of its outlet water outlet of control, the first water tank (3)
Volume be more than the second water tank (4), the first magnetic valve (5) and the second magnetic valve (6) be controlled by a controller, and the controller exists
Flowerpot (2) upper and lower part controls the first water tank (3) moisturizing when drying, and dries bottom on flowerpot (2) bottom top and does not do
The second water tank (4) moisturizing is controlled when dry.
2. automatic watering flower pot device according to claim 1, it is characterised in that:The controller is passed including the first humidity
Sensor (7), the second humidity sensor (8), decision circuitry (91) and drive circuit, first humidity sensor (7) are set
Top in flowerpot (2), the second humidity sensor (8) is arranged on the bottom of flowerpot (2), the first humidity sensor (7), second wet
Degree sensor (8) is all connected with decision circuitry (91), and the decision circuitry (91) is to judge whether humidity exceedes setting value, when wet
Degree is less than setting value and is then judged as drying, drive circuit according to the signal of decision circuitry (91) the first magnetic valve of driving (5) and
Second magnetic valve (6).
3. automatic watering flower pot device according to claim 2, it is characterised in that:The decision circuitry (91) includes first
Comparison circuit (911), the second comparison circuit (912) and logic gates (913), first comparison circuit (911) and
Two comparison circuits (912) connect logic gates (913) respectively, and the logic gates (913) is used to compare electric according to first
The output result of road (911) and the second comparison circuit (912) exports the first drive signal or the second drive signal.
4. automatic watering flower pot device according to claim 3, it is characterised in that:The logic gates (913) includes
First not circuit (NOT1), the second not circuit (NOT2), first and gate circuit (AND1), second and gate circuit (AND2),
First not circuit (NOT1) input the second comparison circuit of connection (912), second and gate circuit (AND2) input, first is non-
Gate circuit (NOT1) output end connection first and gate circuit (AND1) input, the second not circuit (NOT2) input connection the
One comparison circuit (911) output end, the second not circuit (NOT2) output end connection second and gate circuit (AND2) input, the
One exports the first drive signal with door input, first with gate output terminal, and second exports the second drive signal with gate output terminal.
5. automatic watering flower pot device according to claim 4, it is characterised in that:The drive circuit includes first switch
Circuit (921), second switch circuit (922), the first switch circuit (921) receive the first drive signal and control the first electromagnetism
Valve (5) on/off, the second switch circuit (922) receives the second drive signal control the second magnetic valve (6) on/off.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720168515.1U CN206596419U (en) | 2017-02-23 | 2017-02-23 | Automatic watering flower pot device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720168515.1U CN206596419U (en) | 2017-02-23 | 2017-02-23 | Automatic watering flower pot device |
Publications (1)
Publication Number | Publication Date |
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CN206596419U true CN206596419U (en) | 2017-10-31 |
Family
ID=60147082
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201720168515.1U Expired - Fee Related CN206596419U (en) | 2017-02-23 | 2017-02-23 | Automatic watering flower pot device |
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CN (1) | CN206596419U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109122082A (en) * | 2018-09-11 | 2019-01-04 | 内蒙古宏沙生态开发有限公司 | For improving the ermophyte method for planting of survival rate |
CN111011037A (en) * | 2019-10-14 | 2020-04-17 | 赵重麟 | Potted flower pot capable of controlling water amount |
-
2017
- 2017-02-23 CN CN201720168515.1U patent/CN206596419U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109122082A (en) * | 2018-09-11 | 2019-01-04 | 内蒙古宏沙生态开发有限公司 | For improving the ermophyte method for planting of survival rate |
CN111011037A (en) * | 2019-10-14 | 2020-04-17 | 赵重麟 | Potted flower pot capable of controlling water amount |
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Date | Code | Title | Description |
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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: 20171031 Termination date: 20200223 |
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CF01 | Termination of patent right due to non-payment of annual fee |