CN203912688U - A kind of Intelligent vase - Google Patents

Abstract

The utility model relates to vase or flowerpot, particularly a kind of Intelligent vase that can Real-Time Monitoring soil environment situation.The utility model comprises microprocessor, sensor assembly, display unit, warning device, communication module and power module, wherein sensor assembly is made up of humidity sensor, temperature sensor, acidity-basicity sensor, salt sub sensor, nutritive element sensor and sensing data treatment circuit, and described nutritive element sensor is for detection of the content of Nitrogen In Soils, phosphorus, potassium three elements.This Intelligent vase can detect and show the information such as moisture, temperature, acid-base value, salinity and the nutritive element content in vase in real time, can also report to the police and show to maintenance people in time and how to process, even if the people that therefore can not cultivate also can easily support plants and flowers, to people support water plants or flowers bring greatly convenient.

Description

A kind of Intelligent vase

Technical field

The utility model relates to vase or flowerpot, particularly a kind of Intelligent vase that can Real-Time Monitoring soil environment situation.

Background technology

Vase or flowerpot are the staples during we live, and along with the raising of quality of life, a lot of people like planting fresh flower or green plants at home.A thing of comparatively taking a lot of trouble effort but how reasonably to cultivate and keep the vitality of plant.Because different plants needs different maintenance patterns, such as different plants is not identical to the demand of the moisture in soil, temperature, acid-base value, salinity and nitrogen, phosphorus, potassium element in the time growing, even if for same strain plant, it is also not identical at different vegetative stages to the demand of the moisture in soil, temperature, acid-base value, salinity and nitrogen, phosphorus, potassium element, in the time that the nutrient in soil does not reach the necessary condition of plant growth, plant growth will be comparatively slowly even withered.Therefore the soil environment situation in Real-Time Monitoring vase is a very necessary problem.

Utility model content

The purpose of this utility model is for the deficiencies in the prior art, a kind of Intelligent vase is proposed, this Intelligent vase is provided with monitor controller in vase body, the entirety that described monitor controller is made up of physical unit and circuit configurations, thus build perfect hardware platform for the Real-Time Monitoring of soil environment situation.

For achieving the above object, the utility model has adopted following technical scheme:

A kind of Intelligent vase, comprises vase body and the monitor controller of ampuliform or peviform, and described monitor controller comprises following part:

Microprocessor, is arranged in described vase body;

Sensor assembly, comprise a humidity sensor, a temperature sensor, an acidity-basicity sensor and a salt sub sensor, also comprise a nutritive element sensor for detection of Nitrogen In Soils, phosphorus, potassium three constituent content, described humidity sensor, temperature sensor, acidity-basicity sensor, salt sub sensor and nutritive element sensor are all connected with sensing data treatment circuit by sensing data transmission line, and described sensing data treatment circuit is connected with described microprocessor;

Display unit, for receiving and showing the data that microprocessor sends;

Warning device, for receiving the data that microprocessor sends, and giving the alarm in the time that at least one value in the humidity value in vase body soil, temperature value, pH value, salt score value, nitrogen element content, phosphorus element content, Determination of Potassium does not conform to the setting interval value of storing in microprocessor;

Communication module, for being connected with microprocessor, comprises wire communication module and/or wireless communication module;

Power module, for being connected with microprocessor, sensor assembly, display unit, warning device and communication module and to its power supply.

The utility model can also further be realized by following steps.

Preferably, the bottom of described vase body is provided with the bottle end interlayer of hollow form, at the bottom of described power module, microprocessor, communication module and described sensing data treatment circuit are all arranged on bottle, in interlayer, described humidity sensor, temperature sensor, acidity-basicity sensor, salt sub sensor and nutritive element sensor all arrange in the intrinsic soil of vase; Described display unit is arranged on the body outer wall of vase body; The position that described bottle end interlayer passes at described sensing data transmission line is provided with waterproof seal.

Preferably, described warning device is sound light alarming circuit.

Preferably, described wireless communication module comprises zigbee module and/or gsm module and/or TD-LTE module.

Preferably, described display unit is LCDs.

Preferably, described power module comprises battery and is arranged on the switch in the recess of described vase body bottom.

Further, described battery is solar cell.

The beneficial effects of the utility model are:

1), this Intelligent vase is provided with monitor controller on vase body, described monitor controller is only by the circuit configurations hardware platform forming that links together by physical unit.In use, microprocessor in described monitor controller can coordinate with software of the prior art to realize the control program of carrying out setting, but it must be noted that: the control program matching with this microprocessor is not innovation part of the present utility model, neither part of the present utility model.

On this Intelligent vase, be provided with communication module, after determining which kind of plant of plantation, can be by communication module in wired or wireless mode, in microprocessor, input plant necessary moisture in the time growing that institute's wish is planted, temperature, acid-base value, salinity and nitrogen, phosphorus, the numerical value of Determination of Potassium, then by the humidity sensor in sensor assembly, temperature sensor, acidity-basicity sensor, salt sub sensor and nutritive element sensor detect the nutrient situation of soil in vase in real time, each sensor is transferred to described microprocessor by the every data that gather by sensing data treatment circuit, numerical value pre-stored in the data that microprocessor collects sensor and microprocessor compares, in the time that the data that sensor collects do not conform to numerical value pre-stored in microprocessor, microprocessor sends instruction to warning device, warning device will be to giving the alarm to remind maintenance people to note, meanwhile, microprocessor also will send instruction to display unit, and show and need data message to be processed to maintenance people.

Because this Intelligent vase can detect and show the information such as moisture, temperature, acid-base value, salinity and nutritive element content in vase in real time, can also report to the police and show to maintenance people in time and how to process, even if the people that therefore can not cultivate also can easily support plants and flowers, bring convenience to the foster water plants of people or flowers.

2), the utility model is provided with the bottle end interlayer of sealing at the bottom of bottle, thereby be convenient to install power module, microprocessor, communication module and described sensing data treatment circuit, and the mounting means of closed has also ensured that every electronic device of bottle interlayer inside, the end can keep good working order in dry, clean environment, not only guarantee the working life of electronic device, also make vase body seem simple for structure, globality is better.

3), the warning device in the utility model is sound light alarming circuit, also be that warning device can give the alarm with sound prompting and light flicker, thereby not only make the maintenance people that knowledge is sound can see and hear warning information, and the power of hearing or poor the elderly or the disabled person of eyesight also can receive warning information in time.

4), in the time that the temperature in vase or acid-base value or other environment numerical value exceed the setting value in micro computer process chip, microprocessor can also pass through wireless communication module, and by zigbee network, GPRS network and TD-LTE network, warning information is sent to designated mobile phone, like this no matter people go on business or travel, information indicating is received in capital in time, not only efficient and convenient, and more meet the rhythm of modern's fashionable life.

5), be provided with switch in power module, in the time that people do not want to use intellectual monitoring function, can pass through switch powered-down, thereby economize on resources, operation is also comparatively simple and convenient simultaneously.

Brief description of the drawings

Fig. 1 is structure chart of the present utility model.

Fig. 2 is control device schematic diagram of the present utility model.

In figure, the implication of Reference numeral is as follows:

1-vase body, 11-bottle interlayer, 12-waterproof seal, 2-microprocessor

3-sensor assembly, 31-humidity sensor, 32-temperature sensor

33-acidity-basicity sensor, 34-salt sub sensor, 35-nutritive element sensor

36-sensing data treatment circuit, 4-display unit, 5-warning device

6-communication module, 61-wireless communication module, 7-power module, 71-switch

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtaining under creative work prerequisite, all belong to the scope of the utility model protection.

As shown in Figure 2, the utility model comprises microprocessor 2, sensor assembly 3, display unit 4, warning device 5, communication module 6 and power module 7, wherein sensor assembly 3 is made up of humidity sensor 31, temperature sensor 32, acidity-basicity sensor 33, salt sub sensor 34, nutritive element sensor 35 and sensing data treatment circuit 36, and described nutritive element sensor 35 is for detection of the content of Nitrogen In Soils, phosphorus, potassium three elements.The output of described humidity sensor 31, temperature sensor 32, acidity-basicity sensor 33, salt sub sensor 34, nutritive element sensor 35 is all connected with the input of described sensing data treatment circuit 36 by sensing data transmission line, the output of sensing data treatment circuit 36 is connected with the input of microprocessor 2, the output of microprocessor 2 is connected with warning device 5 with display unit 4 respectively, and described microprocessor 2 also passes through signal of telecommunication both-way communication with communication module 6.

In microprocessor 2, can be embedded in advance the needed nutrient data of certain plant growth, can certainly in microprocessor 2, import the needed nutrient data of certain plant growth by communication module 6.

Described display unit 4 is for showing the LCDs of numeral and figure.

Described warning device 5 is sound light alarming circuit.

Described communication module 6 is the wireless communication module 61 with transmission-receiving function, and wireless communication module 61 can be zigbee module and/or gsm module and/or TD-LTE module.

Described power module 7 comprises battery and switch 71, and battery can be lithium battery, can be also solar cell.

As shown in Figure 1, the bottom of vase body 1 is provided with the bottle end interlayer 11 of hollow form, the inside of interlayer 11 at the bottom of described power module 7, microprocessor 2, wireless communication module 6 and described sensing data treatment circuit 36 are embedded and are arranged on bottle.Humidity sensor 31, temperature sensor 32, acidity-basicity sensor 33, salt sub sensor 34 and 35 of nutritive element sensors in sensor assembly 3 are arranged on the bottom face of vase body 1 inside, and the position that described bottle end interlayer 11 passes at described sensing data transmission line is provided with waterproof seal 12.

At the bottom of this setup can make on the one hand bottle, the internal cavities of interlayer 11 keeps dry and totally, thereby at the bottom of making to be arranged on bottle, each electronic device in interlayer 11 has a good working environment; Also make on the other hand humidity sensor 31, temperature sensor 32, acidity-basicity sensor 33, salt sub sensor 34 and the nutritive element sensor 35 all can contact good with the soil conservation in vase, thereby guarantee the accuracy of measurement data.

Display unit 4 is that LCDs is arranged on the body outer wall of vase body 1, to facilitate maintenance people to observe the data that show.Battery and microprocessor 2 at the bottom of LCDs is connected to bottle by the wire being arranged in vase main body 1 bottle wall in interlayer 11.

As shown in Figure 1, switch 71 is arranged on the recess place, bottom of described vase body 1, to prevent maloperation.

Below in conjunction with Fig. 1, operation principle of the present utility model is described further:

After determining the plant that the interior wish of vase body 1 cultivates, operating personnel are set value to the needed various nutrient datas of growing environment of inputting this plant in microprocessor 2 by zigbee network, GPRS network and TD-LTE network by wireless communication module.Humidity sensor 31, temperature inductor 32, acid-base value inductor 33, salt sub sensor 34 and nutritive element sensor 35 will detect the humidity in vase soil in real time, temperature, acid-base value, the content of salinity and n-p-k element, and the data that detect are in real time presented in the display unit 4 on body outer wall, when soil moisture in bottle, temperature, acid-base value, when inconsistent when setting value in a certain in the content of salinity and n-p-k element or a few indexs and microprocessor 2, microprocessor 2 sends instruction to warning device 5, warning device 5 will be to sending audible and visible alarm to remind maintenance people to note, microprocessor 2 will send instruction to wireless communication module 61 simultaneously, and wireless communication module 61 will be sent to designated mobile phone by prompting message by zigbee network, GPRS network and TD-LTE network.

Claims (4)

1. an Intelligent vase, comprises and vase body (1) and the monitor controller of ampuliform or peviform it is characterized in that described monitor controller comprises following part:

Microprocessor (2), is arranged in described vase body (1);

Sensor assembly (3), comprise a humidity sensor (31), a temperature sensor (32), an acidity-basicity sensor (33) and a salt sub sensor (34), also comprise that one for detection of Nitrogen In Soils, phosphorus, the nutritive element sensor (35) of potassium three constituent content, described humidity sensor (31), temperature sensor (32), acidity-basicity sensor (33), salt sub sensor (34) and nutritive element sensor (35) are all connected with sensing data treatment circuit (36) by sensing data transmission line, described sensing data treatment circuit (36) is connected with described microprocessor (2),

Display unit (4), for receiving and showing the data that microprocessor (2) sends;

Warning device (5), be used for receiving the data that microprocessor (2) sends, and give the alarm in the time that the setting interval value of storage at least one value in the humidity value in vase body (1) soil, temperature value, pH value, salt score value, nitrogen element content, phosphorus element content, Determination of Potassium and microprocessor (2) does not conform to;

Communication module (6), for being connected with microprocessor (2), comprises wire communication module and/or wireless communication module (61);

Power module (7), for being connected with microprocessor (2), sensor assembly (3), display unit (4), warning device (5) and communication module (6) and to its power supply;

The bottom of described vase body (1) is provided with the bottle end interlayer (11) of hollow form, at the bottom of described power module (7), microprocessor (2), communication module (6) and described sensing data treatment circuit (36) are all arranged on bottle, in interlayer (11), described humidity sensor (31), temperature sensor (32), acidity-basicity sensor (33), salt sub sensor (34) and nutritive element sensor (35) all arrange in the soil in vase body (1); Described display unit (4) is arranged on the body outer wall of vase body (1); The position that described bottle end interlayer (11) passes at described sensing data transmission line is provided with waterproof seal (12);

Described power module (7) comprises battery and is arranged on the switch (71) in the recess of described vase body (1) bottom; Described battery is solar cell.

2. Intelligent vase according to claim 1, is characterized in that: described warning device (5) is sound light alarming circuit.

3. Intelligent vase according to claim 1 and 2, is characterized in that: described wireless communication module comprises zigbee module and/or gsm module and/or TD-LTE module.

4. Intelligent vase according to claim 1 and 2, is characterized in that: described display unit (4) is LCDs.