CN203072542U - Intelligent moisture sensing flowerpot - Google Patents
Intelligent moisture sensing flowerpot Download PDFInfo
- Publication number
- CN203072542U CN203072542U CN 201320078573 CN201320078573U CN203072542U CN 203072542 U CN203072542 U CN 203072542U CN 201320078573 CN201320078573 CN 201320078573 CN 201320078573 U CN201320078573 U CN 201320078573U CN 203072542 U CN203072542 U CN 203072542U
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- signal
- moisture
- flowerpot
- inductor
- responsive device
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Abstract
The utility model discloses an intelligent moisture sensing flowerpot which consists of a flowerpot, a moisture sensor, a water swelling substance, a signal sensor, a signal receiver, a signal display and a power supply, wherein the moisture sensor is buried at the bottom of the flowerpot; the water swelling substance is arranged in the moisture sensor; the signal sensor is connected with the signal receiver outside the flowerpot through a connecting circuit, and is connected with the signal display; and the power supply supplies power to the signal sensor, the signal receiver and the signal display. The intelligent flowerpot is simple in structure; and corresponding prompting information can be given according to the actual moisture content condition of the flowerpot, so that a user can rationally water flowers according to the prompting information to fulfill the aim of scientifically planting a plant.
Description
Technical field
The utility model relates to a kind of plant planting container, relates to the various occasions in a kind of suitable city specifically and is used to plant the flowerpot that plant can be responded to moisture.
Background technology
Flowerpot is the basin dress implements that are widely used in family, afforestation and the landscape design engineering.People often plant some plants according to own hobby, different types of plant water requirement difference, and hypervolia easily causes plant rot root, crosses plant is withered, even death.
Selling in the market has automatic watering device, can timing automaticly water in flowerpot, can avoid because family is medium-term and long-term unmanned, or be busy with one's work, and can't in time water or forgets to water and cause plant withered.But the drawback of its existence is regularly to water, and during day hot plant hydropenia, the time, plant can thirst less than also not watering; Rainy humidity does not need to water, but the time one to still watering, cause plant watering excessively and mashed root.This is worth higher plant for some is a heel of Achilles.
Summary of the invention
The purpose of this utility model provides a kind of moisture responsive intelligent flowerpot simple in structure, easy to use, can provide corresponding prompt information according to the moisture actual conditions, and people are rationally watered according to information, thereby reaches the hope of scientic planting plant.
Moisture responsive intelligent flowerpot of the present utility model also includes except that comprising a flowerpot:
A moisture responsive device that has cavity structure buries the bottom that is placed on flowerpot, be filled with the imbibition material in the cavity of described moisture responsive device, and the moisture responsive device is provided with at least one signal inductor; Expand in imbibition material suction back, the triggering signal inductor has sent the water signal; The imbibition material shrinks after the lack of water, and signal inductor has no longer sent the water signal;
A signal receiver is positioned at the outside any position of flowerpot, is connected with described signal inductor circuit, is used for the induced signal of received signal inductor;
A Signal Monitor is connected with described signal receiver, is used to the moisture state that shows that signal inductor is sensed;
A power supply is used for to signal receiver and Signal Monitor power supply.
Further, moisture responsive device of the present utility model is a circular ring, and is provided with the micropore that is used to absorb moisture on the surface of moisture responsive device.The imbibition material is placed on the inwall of moisture responsive device, by expanding gradually after the micropore suction, until being full of whole moisture responsive device.
The signal inductor that the utility model uses is the contact inductor, is provided with a plurality ofly, is arranged in the moisture responsive device with different radial depths.When the imbibition of imbibition material, at first contact apart from the nearest signal inductor in moisture responsive device center, this inductor sends induced signal.The imbibition material continues to expand, contact time one stage signal inductor, and two signal inductors send induced signal, and along with the imbibition material continues to expand, more signal inductor sends induced signal, and induced signal constantly strengthens, and indication moisture increases.Otherwise along with the minimizing of moisture, imbibition material lack of water gradually shrinks, and is separated from signal inductor one by one, and induced signal is constantly weakened, and indication moisture reduces.Obviously, when using the contact inductor, need the moisture responsive utensil that enough spaces are arranged, make the imbibition material have enough expansion distances.
The utility model can also working pressure formula inductor, described pressure type inductor is distributed in the outer wall inner surface of moisture responsive device, and described pressure type inductor has different separately induction pressures.Working pressure formula inductor does not need the moisture responsive utensil that too big space is arranged, and the imbibition material absorbs water slightly and just can be full of the moisture responsive device, and along with water absorption increases, the imbibition material is increasing for the pressure of moisture responsive wall.When pressure reached the induction pressure of some pressure inductors, this inductor sent induced signal, and along with pressure increases, induced signal increases, and indication moisture increases.Otherwise along with moisture reduces, the imbibition material shrinks gradually, and to the pressure relieve of moisture responsive wall, induced signal weakens gradually, and indication moisture reduces.
No matter be contact inductor or pressure type inductor, what Signal Monitor showed is the summation of all signal inductor induced signals.
In the utility model, described Signal Monitor can be a color display, shows moisture state in the flowerpot by color, represents moisture abundance in the flowerpot such as green, and yellow is then represented slightly lack of water, red expression serious water shortage etc.Also can be digital display, the moisture of reacting in the flowerpot by different numerals be a few percent.
Moisture responsive intelligent flowerpot of the present utility model is simple in structure, can provide corresponding prompt information according to flowerpot water content actual conditions, people is rationally watered according to information, thereby reach the hope of scientic planting plant.
Moisture responsive intelligent flowerpot of the present utility model is used in combination with existing automatic watering device, utilize the convergent-divergent degree of imbibition material in the flowerpot moisture responsive device that the information of watering is provided, can implement more accurately to water, realized the progress of automatic watering from the simulated operation to the digit manipulation, made people better plant the plant of oneself liking by scientific methods.
Description of drawings
Fig. 1 is the structural representation of embodiment 1 described moisture responsive intelligent flowerpot.
Fig. 2 is the partial enlarged drawing of moisture responsive device 2 among Fig. 1.
Fig. 3 is the structural representation of embodiment 2 described moisture responsive intelligent flowerpots.
Fig. 4 is the partial enlarged drawing of moisture responsive device 2 among Fig. 3.
Embodiment
Embodiment 1
Figure 1 shows that a kind of moisture responsive intelligent flowerpot, form by flowerpot 1, moisture responsive device 2, signal inductor 4, connecting circuit 5, signal receiver 6, Signal Monitor 7 and power supply 8.
Moisture responsive device 2 is a circular ring with cavity, buries the bottom that is placed on flowerpot 1, as Fig. 2, is filled with imbibition material 3 in the cavity of moisture responsive device 2, and is provided with the micropore that is used to absorb moisture on the surface of moisture responsive device 2.Imbibition material 3 is placed on the inwall side of moisture responsive device, by expanding gradually behind the micropore absorption moisture, until the cavity that is full of whole moisture responsive device 2.
Be provided with the signal inductor 4 of a plurality of contacts in moisture responsive device 2, these signal inductors 4 are arranged in the cavity of moisture responsive device 2 with different radial depths.When 3 imbibitions of imbibition material, at first touch the signal inductor 4 nearest apart from moisture responsive device 2 centers, make this inductor send induced signal.Along with the continuation imbibition of imbibition material 3, contact more signal inductor 4 and send induced signal, induced signal constantly strengthens, and indication moisture increases.Along with the minimizing of moisture, imbibition material 3 lack of water gradually shrinks, and is separated from signal inductor 4 one by one, and induced signal is constantly weakened, and indication moisture reduces.
Signal receiver 6 is positioned at any position of flowerpot 1 outside, be connected with signal inductor 4 by connecting circuit 5, connect Signal Monitor 7 simultaneously, the induced signal of the signal inductor 4 that receives is shown on Signal Monitor 7, indicate moisture state current in the flowerpot 1.
Signal Monitor 7 shows be all signal inductor 4 induced signals add and, Signal Monitor demonstrates moisture state current in the flowerpot 1 by color or numeral.
When using the moisture responsive intelligent flowerpot, at first moisture responsive device 2 is placed the bottom of flowerpot 1, serike is watered sufficient moisture then.Imbibition material 3 in the moisture responsive device 2 begins to expand after absorbing moisture, and activation signal inductor 4 produces induced signal.Along with the increase of moisture, imbibition material 3 constantly expands, and contacts more signal inductor 4, and the induced signal intensity of generation increases.Signal receiver 6 shows the induced signal Strength Changes that receives by Signal Monitor 7, the degree that reflection is watered.When showing moistures, Signal Monitor 7 stops to water during the required moisture of plant species normal growth for this reason.
Moisture in the flowerpot 1 can reduce along with the absorption of evaporation and plant, same principle, and Signal Monitor 7 can show the moisture in the flowerpot 1.The user can be according to the actual conditions irrigating plant.
Figure 3 shows that another kind of moisture responsive intelligent flowerpot, identical with embodiment 1, form by flowerpot 1, moisture responsive device 2, signal inductor 4, connecting circuit 5, signal receiver 6, Signal Monitor 7 and power supply 8.
Moisture responsive device 2 is a circular ring with cavity, buries the bottom that is placed on flowerpot 1, as Fig. 4, is filled with imbibition material 3 in the cavity of moisture responsive device 2, and is provided with the micropore that is used to absorb moisture on the surface of moisture responsive device 2.Imbibition material 3 expands after absorbing moisture by micropore.
The outer wall of moisture responsive device 2 is provided with several pressure type signal inductors 4, and these signal inductors 4 have different separately induction pressures.When 3 imbibitions of imbibition material, at first trigger the signal inductor 4 of induction pressure minimum, make this inductor send induced signal.Along with imbibition material 3 continues imbibition, pressure increases gradually, triggers more signal inductor 4 and sends induced signal, and induced signal constantly strengthens, and indication moisture increases.Along with the minimizing of moisture, imbibition material 3 lack of water gradually shrinks, and pressure reduces, and signal inductor 4 returns to normal one by one, and induced signal is constantly weakened, and indication moisture reduces.
Signal receiver 6 is positioned at any position of flowerpot 1 outside, be connected with signal inductor 4 by connecting circuit 5, connect Signal Monitor 7 simultaneously, the induced signal of the signal inductor 4 that receives is shown on Signal Monitor 7, indicate moisture state current in the flowerpot 1.
Signal Monitor 7 shows be all signal inductor 4 induced signals add and, Signal Monitor demonstrates moisture state current in the flowerpot 1 by color or numeral.
When using the moisture responsive intelligent flowerpot, at first moisture responsive device 2 is placed the bottom of flowerpot 1, serike is watered sufficient moisture then.Imbibition material 3 in the moisture responsive device 2 begins to expand after absorbing moisture, and triggering signal inductor 4 produces induced signal.Along with the increase of moisture, imbibition material 3 constantly expands, and triggers more signal inductor 4, and the induced signal intensity of generation increases.Signal receiver 6 shows the induced signal Strength Changes that receives by Signal Monitor 7, the degree that reflection is watered.When showing moistures, Signal Monitor 7 stops to water during the required moisture of plant species normal growth for this reason.
Moisture in the flowerpot 1 can reduce along with the absorption of evaporation and plant, same principle, and Signal Monitor 7 can show the moisture in the flowerpot 1.The user can be according to the actual conditions irrigating plant.
Claims (9)
1. a moisture responsive intelligent flowerpot comprises a flowerpot, it is characterized in that also comprising:
A moisture responsive device that has cavity structure buries the bottom that is placed on flowerpot, is filled with the imbibition material in the cavity of described moisture responsive device, and the moisture responsive device is provided with at least one signal inductor;
A signal receiver is positioned at the outside any position of flowerpot, is connected with described signal inductor circuit, is used for the induced signal of received signal inductor;
A Signal Monitor is connected with described signal receiver, is used to the moisture state that shows that signal inductor is sensed;
A power supply is used for to signal receiver and Signal Monitor power supply.
2. intelligent flowerpot according to claim 1 is characterized in that described moisture responsive device is a circular ring, and described imbibition material is placed on the inwall of moisture responsive device, expands gradually after the suction until being full of whole moisture responsive device.
3. intelligent flowerpot according to claim 1 and 2 is characterized in that being provided with the micropore that is used to absorb moisture on described moisture responsive device surface.
4. intelligent flowerpot according to claim 2 is characterized in that described signal inductor is the contact inductor, is arranged in the moisture responsive device with different radial depths.
5. intelligent flowerpot according to claim 2 is characterized in that described signal inductor is the pressure type inductor, is distributed in the outer wall inner surface of moisture responsive device.
6. intelligent flowerpot according to claim 5 is characterized in that described pressure type inductor has different separately induction pressures.
7. according to claim 4 or 5 described intelligent flowerpots, it is characterized in that described Signal Monitor shows all signal inductor induced signal sums.
8. intelligent flowerpot according to claim 1 is characterized in that described Signal Monitor is a color display.
9. intelligent flowerpot according to claim 1 is characterized in that described Signal Monitor is a digital display.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN 201320078573 CN203072542U (en) | 2013-02-20 | 2013-02-20 | Intelligent moisture sensing flowerpot |
Applications Claiming Priority (1)
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CN 201320078573 CN203072542U (en) | 2013-02-20 | 2013-02-20 | Intelligent moisture sensing flowerpot |
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CN203072542U true CN203072542U (en) | 2013-07-24 |
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CN 201320078573 Expired - Fee Related CN203072542U (en) | 2013-02-20 | 2013-02-20 | Intelligent moisture sensing flowerpot |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105191760A (en) * | 2015-10-15 | 2015-12-30 | 丹阳市香逸林果专业合作社 | Automatic water supply system for red maple potted plant |
CN105613087A (en) * | 2016-01-04 | 2016-06-01 | 苏州乐聚一堂电子科技有限公司 | Watering reminding system |
CN105900708A (en) * | 2016-04-18 | 2016-08-31 | 王立云 | Intelligent flower pot |
-
2013
- 2013-02-20 CN CN 201320078573 patent/CN203072542U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105191760A (en) * | 2015-10-15 | 2015-12-30 | 丹阳市香逸林果专业合作社 | Automatic water supply system for red maple potted plant |
CN105613087A (en) * | 2016-01-04 | 2016-06-01 | 苏州乐聚一堂电子科技有限公司 | Watering reminding system |
CN105900708A (en) * | 2016-04-18 | 2016-08-31 | 王立云 | Intelligent flower pot |
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Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20130724 Termination date: 20150220 |
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EXPY | Termination of patent right or utility model |