CN111011180A - Wisdom gardens management system - Google Patents

Abstract

The invention discloses an intelligent garden management system, which comprises a climate recognition detection device, a climate information recognition device and a control device, wherein the climate recognition detection device is arranged in a garden and is used for recognizing climate information; the environment information acquisition device is arranged at different positions of the garden and used for acquiring environment information; the intelligent terminal controller is connected with the output ends of the climate recognition detection device and the environmental information acquisition device and generates a control command based on the climate information and the environmental information; the garden irrigation execution device is connected with the output end of the intelligent terminal controller and executes irrigation operation based on the control command; and the power supply device is used for supplying power to the climate identification detection device, the environmental information acquisition device and the garden irrigation execution device. The intelligent garden management system can automatically recognize environmental climate conditions in different seasons, and can perform intelligent irrigation, pH value adjustment and water spraying cooling on gardens in time, safely and automatically according to soil humidity, pH value and garden environment detection, thereby being beneficial to growth of garden trees and vegetations and reduction of irrigation cost.

Description

Wisdom gardens management system

Technical Field

The invention relates to an intelligent garden management system which can identify environmental climates in different seasons and implement an intelligent garden management system.

Background

At present, the irrigation control of urban gardens is realized by manually irrigating on site and detecting humidity or rainfall according to a part and starting an irrigation mode at regular semi-automatic intervals.

The irrigation modes are single detection or timing irrigation operation, irrigation cannot be effectively implemented according to seasonal environmental climate conditions, and quality of garden trees and vegetation is reduced and irrigation cost is increased.

Disclosure of Invention

It is not enough to lead to causing gardens tree and vegetation quality degradation and irrigation cost to rise to above-mentioned treegarden irrigation, provides one kind and can discern under the different season environmental climate, carries out more timely, safe and low-cost wisdom gardens management system to gardens.

In order to achieve the purpose, the invention is realized by the following technical scheme:

the invention discloses a smart garden management system, which comprises

The climate identification detection device is arranged in the garden and used for identifying climate information;

the environment information acquisition device is arranged at different positions of the garden and used for acquiring environment information;

the intelligent terminal controller is connected with the output ends of the climate recognition detection device and the environmental information acquisition device and generates a control command based on the climate information and the environmental information;

the garden irrigation execution device is connected with the output end of the intelligent terminal controller and executes irrigation operation based on the control command;

the power supply device is used for supplying power to the climate identification detection device, the environmental information acquisition device and the garden irrigation execution device;

the intelligent terminal controller compares the received climate/environment parameters with parameters of a system database, calculates the running parameters of a real-time state and forms an automatic running mode of the garden irrigation execution device; when the management system runs to a set irrigation period, sending an opening instruction to the garden irrigation executing device so as to open irrigation;

the environment information acquisition device detects the rainfall of the environment in real time, and when the detected rainfall is larger than the water quantity required by the plants, the automatic operation mode of the garden irrigation execution device is interrupted; and when the soil humidity is lower than the set threshold value, the intelligent terminal controller starts the automatic operation mode of the garden irrigation executing device again.

The operating parameters of the real-time state comprise an irrigation mode, an irrigation duration, an irrigation interval and an irrigation starting time point.

The climate identification and detection device comprises an atmospheric temperature detector, an atmospheric pressure detector, an altitude detector and a GPS (global positioning system) positioner.

The environment information acquisition device comprises a soil pH value acquisition device, a humidity acquisition device, a temperature acquisition device, a leaf surface illuminance acquisition device, a rain sensation acquisition device, an air quality acquisition device and a smoke acquisition device, wherein the soil pH value acquisition device and the humidity acquisition device are arranged at different positions of a garden, and the temperature acquisition device, the leaf surface illuminance acquisition device, the rain sensation acquisition device, the air quality acquisition device and the smoke acquisition device are arranged in the tree shade in the.

The intelligent terminal controller comprises a comparison circuit for generating and executing pH regulation based on the information acquired by the soil pH acquisition device and a predefined soil pH value; generating an irrigation signal comparison circuit based on the information acquired by the humidity acquisition device and a predefined humidity value; generating an irrigation signal comparison circuit based on the information acquired by the temperature acquisition device and a predefined temperature value, and generating a comparison circuit based on the leaf surface illuminance acquisition information and the predefined illuminance value; generating a rain sensing signal comparison circuit based on the rain sensing acquisition device information and a predefined rain sensing value; generating an air quality signal comparison circuit based on the air quality acquisition device and a predefined air quality value; and a smoke alarm signal comparison circuit is generated based on the smoke collection device information and the predefined smoke alarm value.

The environment information acquisition device also comprises a smoke detection device arranged on the garden; the intelligent terminal controller also comprises a comparison circuit which generates a smoke alarm based on the smoke signal detected by the smoke detection device and a predefined smoke value.

Above-mentioned treegarden irrigation final controlling element includes irrigates and atomizing soil irrigation equipment, forest sprinkling irrigation equipment and atomizing device and adjusts the adjusting device who dilutes acidity or alkaline regulator based on pH value ratio regulation signal release soil according to irrigation signal.

The soil irrigation device comprises different water conveying pipes which are used for conveying irrigation water to various places in the garden under the garden, water outlet electromagnetic valves arranged at the tail ends of the water conveying pipes, and a switch control circuit which controls each water conveying electromagnetic valve based on the irrigation signals.

The forest sprinkling irrigation device and the atomization device comprise suspension hoses in fluid connection with a plurality of water pipes, automatic spray heads arranged at the tail ends of the suspension hoses, automatic spray head switches based on sprinkling irrigation or atomization control and an electromagnetic valve control circuit; the adjusting device comprises a plurality of acidic regulator storage boxes and alkaline regulator storage boxes which are arranged beside the water conveying pipe, and an electromagnetic valve and a circuit which are respectively arranged beside each of the acidic regulator storage boxes and the alkaline regulator storage boxes, as well as a switch door and a control switch door.

The intelligent terminal controller further comprises a clock circuit, and the garden irrigation executing device further comprises a pesticide spraying device.

The intelligent garden management system can automatically recognize environmental climate conditions in different seasons, and can perform intelligent irrigation, pH value adjustment and water spraying cooling on gardens in time, safely and automatically according to soil humidity, pH value and garden environment detection, so that growth of garden trees and vegetation is facilitated, irrigation cost is reduced, automatic alarm can be realized according to the smoke detection device, and fire hazard dangerous situations are prevented from occurring and spreading.

Drawings

Fig. 1 is a schematic block diagram of an intelligent garden management system according to embodiment 1;

fig. 2 is a schematic block diagram of an intelligent garden management system according to embodiment 2.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Example 1:

referring to fig. 1, the intelligent garden management system of the present invention includes: arrange in the gardens climate recognition device with arrange in a plurality of positions in gardens so that detect a plurality of detection device of the environmental information in gardens, based on climate recognition device with based on the intelligent terminal control ware of environmental information generation control command, based on executive instruction gardens actuating device is used for environmental detection device with the power supply unit of actuating device power supply. The intelligent terminal controller is respectively in communication connection with the climate recognition device, the environment detection device and the execution device, and the power supply device is respectively in electrical connection with the environment detection device and the execution device.

The climate recognition device generates a corresponding regional seasonal climate instruction by the intelligent terminal controller according to the GPS positioning longitude and latitude, the altitude and the climate temperature information.

The climate recognition device instructions, the detection device may include any detection device suitable for gardens, such as a humidity collection device and a pH value collection device arranged in soil of the gardens, a temperature collection device arranged in tree shades of the gardens, and the like.

The intelligent terminal controller can be used for calculating regional seasonal climate based on seasonal climate recognition and detection device information according to a map database, calculating regional seasonal climate by using climate temperature, acquiring data by a soil pH value acquisition device, judging whether a pH value regulation and control device needs to be executed or not, generating an irrigation signal comparison circuit based on humidity acquisition device acquisition information and a predefined humidity value, generating an irrigation signal comparison circuit based on temperature acquisition device acquisition information and a predefined temperature value, generating a comparison circuit based on leaf surface illumination acquisition information and a predefined illumination value, generating a rain sensation signal comparison circuit based on rain sensation acquisition device information and a predefined rain sensation value, and generating a smoke alarm signal comparison circuit based on air quality acquisition device information and a predefined smoke alarm value. Of course, in other preferred examples of the present invention, the climate recognition device, the environment detection device, the smart terminal controller, and the control device are not limited to the above description.

The power supply means may comprise a mains supply selectively connected by a power supply, and a solar power supply arranged in said garden.

The intelligent garden management system can automatically identify regional seasonal climate and environmental state, is fully automatic, and can perform timely, safe and low-cost intelligent irrigation application on gardens. Further, detect through soil moisture, pH valve and gardens temperature monitoring, can irrigate automatically, pH valve adjusts and water spray cooling etc. and then help trees in the gardens, vegetation growth and reduce irrigation cost.

Example 2:

as shown in fig. 2, the intelligent garden management system of the present invention includes: the device comprises a set of climate recognition devices arranged in the garden, more than one set of humidity detection device and pH value detection device arranged in soil of the garden, more than one set of temperature detection device arranged in tree shades in the garden, at least one set of smoke detection device arranged on trees of the garden, and preferably a light illumination device arranged in the garden.

Correspondingly, the intelligent terminal controller comprises a controller, a comparison circuit for adjusting pH value based on the information processing of the seasonal climate identification and detection device, a comparison circuit for generating and executing pH value based on the soil pH value acquisition device acquisition information and a predefined soil pH value, a comparison circuit for generating irrigation signals based on the humidity acquisition device acquisition information and a predefined humidity value, a comparison circuit for generating irrigation signals based on the temperature acquisition device acquisition information and a predefined temperature value, a comparison circuit for generating leaf surface illumination acquisition information and a predefined illumination value, a comparison circuit for generating rain sensation signals based on the rain sensation acquisition device information and a predefined rain sensation value, and a comparison circuit for generating smoke alarm signals based on the air quality acquisition device and smoke acquisition device information and a predefined smoke alarm value.

The control device further comprises a soil irrigation device for performing soil irrigation based on the irrigation signal, a device for diluting the acidic or alkaline regulator based on the pH value adjusting signal, a forest water spraying device for performing irrigation based on the irrigation signal and the irrigation signal, and a fire alarm device for performing fire alarm based on the smoke detection device alarm signal. As is well known in the art, the soil irrigation device and the forest irrigation device are management systems which can be controlled by electromagnetic valves, and the pH value adjusting device can also be controlled by electromagnetic valves. And the alarm device can also be a voice player controlled by a solenoid valve.

Taking a soil pH value detection device as an example, the pH value detection device detects the pH value of soil in the garden and converts the pH value into a voltage signal which is transmitted to the pH value comparison circuit through an intelligent terminal controller, the comparison circuit compares the voltage signal with a predefined voltage signal representing the pH value, if the detected pH value of the soil is greater than the preset pH value, the circuit outputs a high level to the pH dilution adjusting device for adjustment, the electromagnetic valve is closed, and the pH switch is opened for dilution. The same control is carried out on the soil humidity, smoke and temperature detection devices. Of course, the skilled person can also output high level signals by the humidity comparison circuit, the pH value comparison circuit, the temperature comparison circuit and the smoke comparison circuit according to the needs of actual conditions, and control the electromagnetic valve to be switched off based on the high level signals.

In a preferred embodiment of the invention, the device for identifying seasonal climate comprises a GPS positioning device, a climate temperature, atmospheric pressure and altitude device, the device compares map data according to GPS positioning information to obtain the position of a geographical area, acquires the climate temperature, atmospheric pressure and altitude of the geography of the area, conjectures the seasonal climate environment of the area through a meteorological temperature waiting algorithm, and draws up the garden irrigation control signal for the intelligent terminal controller.

The soil irrigation device comprises different water pipes arranged under the garden and used for conveying irrigation water to all places in the garden, a tail end water outlet electromagnetic valve arranged in each water pipe, a communication module for generating irrigation signals from humidity, and a switch control circuit for controlling each water delivery electromagnetic valve based on the irrigation signals. In this preferred embodiment, said delivery solenoid control means comprise a relay arranged between said delivery solenoid and the battery. When the communication module receives a high-level signal which needs to be irrigated, the relay is controlled to be closed, so that the battery supplies power to the water delivery electromagnetic valve, the electromagnetic valve is closed and conducted, and water in the water delivery pipe can be provided to the water outlet at the tail end of the water delivery pipe, so that water is supplied to the garden. When the communication module receives a low level signal indicating that irrigation is not needed, the relay is switched off, so that the battery cannot supply power to the water delivery electromagnetic valve, the water delivery electromagnetic valve is switched off, and the water outlet at the tail end of the water delivery pipe is closed, so that water supply for the garden is stopped.

In a preferred embodiment of the present invention, the forest watering device comprises a hanging hose connected to the plurality of water pipes, automatic sprinklers disposed at ends of the hanging hose, a communication module for receiving the watering signals from the temperature comparison circuit, and a control circuit for controlling on-off of each of the automatic sprinklers based on the watering signals. In the preferred embodiment of the present invention, the automatic spray head may also be switched by a solenoid valve. In a preferred embodiment of the invention, the hanging hose is preferably arranged at the front end of the water delivery solenoid valve in the direction of water flow, so that watering can be performed without opening the water delivery solenoid valve. Similarly, in the preferred embodiment of the present invention, the hanging hose is preferably disposed at the rear end of the water delivery solenoid valve in the water flow direction, so that when the water delivery is needed to be opened for irrigation, the solenoid valve is opened for irrigation.

In the preferred embodiment, pesticides can be sprayed regularly in the gardens. The intelligent terminal controller further comprises a clock circuit, the garden irrigation execution device further comprises a pesticide spraying device, and the intelligent terminal controller further comprises a control circuit based on the clock circuit.

According to the intelligent garden management system, the intelligent terminal controller generates a corresponding irrigation management flow according to the seasonal climate condition change identification, and further, irrigation, pH value adjustment and water spraying cooling can be automatically performed through soil humidity, pH value and garden temperature detection, so that growth of garden trees and vegetation is facilitated, and irrigation cost is reduced. Still further, can automatic early warning through smoke detection device to, prevent the emergence and the diffusion of fire dangerous situation.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. An intelligent garden management system, which is characterized by comprising

The climate identification detection device is arranged in the garden and used for identifying climate information;

the environment information acquisition device is arranged at different positions of the garden and used for acquiring environment information;

the intelligent terminal controller is connected with the output ends of the climate recognition detection device and the environmental information acquisition device and generates a control command based on the climate information and the environmental information;

the garden irrigation execution device is connected with the output end of the intelligent terminal controller and executes irrigation operation based on the control command;

the power supply device is used for supplying power to the climate identification detection device, the environmental information acquisition device and the garden irrigation execution device;

the intelligent terminal controller compares the received climate/environment parameters with parameters of a system database, calculates the running parameters of a real-time state and forms an automatic running mode of the garden irrigation execution device; when the management system runs to a set irrigation period, sending an opening instruction to the garden irrigation executing device so as to open irrigation;

the environment information acquisition device detects the rainfall of the environment in real time, and when the detected rainfall is larger than the water quantity required by the plants, the automatic operation mode of the garden irrigation execution device is interrupted; and when the soil humidity is lower than the set threshold value, the intelligent terminal controller starts the automatic operation mode of the garden irrigation executing device again.

2. The intelligent garden management system according to claim 1,

the operating parameters of the real-time state comprise an irrigation mode, an irrigation duration, an irrigation interval and an irrigation starting time point.

3. The intelligent garden management system according to claim 1, wherein the climate identification detection device comprises an atmospheric temperature detector, an atmospheric pressure detector, an altitude detector and a GPS locator.

4. The intelligent garden management system according to claim 1, wherein the environment information collecting device comprises a soil pH value collecting device, a humidity collecting device, a temperature collecting device installed in tree shades in gardens, a leaf surface illuminance collecting device, a rain sensing collecting device, an air quality collecting device and a smoke collecting device which are arranged at different positions of the garden.

5. The intelligent garden management system according to claim 4, wherein the intelligent terminal controller comprises a comparison circuit for performing pH adjustment based on the information collected by the soil pH acquisition device and a predefined soil pH value; generating an irrigation signal comparison circuit based on the information acquired by the humidity acquisition device and a predefined humidity value; generating an irrigation signal comparison circuit based on the information acquired by the temperature acquisition device and a predefined temperature value, and generating a comparison circuit based on the leaf surface illuminance acquisition information and the predefined illuminance value; generating a rain sensing signal comparison circuit based on the rain sensing acquisition device information and a predefined rain sensing value; generating an air quality signal comparison circuit based on the air quality acquisition device and a predefined air quality value; and a smoke alarm signal comparison circuit is generated based on the smoke collection device information and the predefined smoke alarm value.

6. The intelligent garden management system according to claim 4, wherein the environment information acquisition device further comprises a smoke detection device disposed on the garden; the intelligent terminal controller also comprises a comparison circuit which generates a smoke alarm based on the smoke signal detected by the smoke detection device and a predefined smoke value.

7. The intelligent garden management system according to claim 1, wherein the garden irrigation executing device comprises a soil irrigation device, a forest sprinkling irrigation device and an atomization device which perform irrigation and atomization according to the irrigation signal, and an adjusting device which releases a soil pH value ratio based on the pH value adjusting signal to adjust and dilute the pH value or alkaline adjusting agent.

8. The intelligent garden management system according to claim 7, wherein the soil irrigation device comprises different water pipes under the garden for conveying irrigation water to various places in the garden, water outlet solenoid valves arranged at the tail ends of each water pipe, and a switch control circuit for controlling each water outlet solenoid valve based on the irrigation signal.

9. The intelligent garden management system according to claim 7, wherein the forest sprinkling irrigation device and the atomization device comprise suspension hoses in fluid connection with a plurality of water pipes, automatic spray heads arranged at the tail ends of the suspension hoses, automatic spray head switches based on sprinkling irrigation or atomization control, and electromagnetic valve control circuits; the adjusting device comprises a plurality of acidic regulator storage boxes and alkaline regulator storage boxes which are arranged beside the water conveying pipe, and an electromagnetic valve and a circuit which are respectively arranged beside each of the acidic regulator storage boxes and the alkaline regulator storage boxes, as well as a switch door and a control switch door.

10. The intelligent garden management system of claim 1, wherein the intelligent terminal controller further comprises a clock circuit, and the garden irrigation execution device further comprises a pesticide spraying device.

Images