CN210406319U - Intelligent watering flowerpot - Google Patents

Abstract

The utility model relates to an intelligent watering flowerpot, which comprises an outer pot body, an inner pot body, a dry-wet sensor, a control device and a micro water pump; the dry and wet sensor and the miniature water pump are respectively electrically connected with the control device; a water storage tank for storing water is formed between the bottom of the inner pot body and the bottom of the outer pot body; still include the drinking-water pipe and the elbow that waters, the one end of drinking-water pipe is connected on the miniature suction pump, the other end of drinking-water pipe extends to liquid level below in the aqua storage tank, the one end of the elbow that waters is connected on the miniature pump, the other end of the elbow that waters extends to set up the overhead of interior basin body is used for watering soil. The flowerpot can automatically provide moisture for the plants when people are busy and careless when going out, so that the healthy growth of the plants is ensured.

Description

Intelligent watering flowerpot

Technical Field

The utility model relates to a horticulture instrument field, concretely relates to intelligence flowerpot that waters.

Background

Potted ornamental plants and flowers are widely used in families and public places such as markets, schools, offices and the like, play roles in greening the environment, purifying the air and beautifying the life of people, but are often not watered in time or the humidity is not well mastered due to various reasons, so that the plants die, and certain loss and waste are caused.

For this reason, the applicant has perceived the need to provide a device for automatically watering plants according to their preferred dryness and humidity, based on the problems currently existing.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at overcoming the not enough of prior art, providing an intelligent flowerpot, this intelligent flowerpot can water according to the humidity that different plants liked is automatic, effectively solves the not enough of prior art.

In order to achieve the above purpose, the utility model adopts the following technical scheme: an intelligent watering flowerpot comprises an outer pot body, an inner pot body, a dry-wet sensor, a control device and a miniature water pump; the dry and wet sensor and the miniature water pump are respectively electrically connected with the control device;

the outer periphery of the upper end of the inner pot body is provided with a circle of extension edge, the inner pot body is sleeved in the outer pot body, the extension edge is placed on the upper end of the outer pot body, and the outer wall of the inner pot body is attached to the inner wall of the outer pot body;

a water storage tank for storing water is formed between the bottom of the inner pot body and the bottom of the outer pot body; plants are planted in the inner pot body, and the dry and wet sensor is buried in soil of the inner pot body;

the outer pot body is provided with a water injection port, and clear water or liquid nutrients flow into the water storage tank through the water injection port;

still include the drinking-water pipe and the elbow that waters, the one end of drinking-water pipe is connected on the miniature suction pump, the other end of drinking-water pipe extends to liquid level below in the aqua storage tank, the one end of the elbow that waters is connected on the miniature suction pump, the other end of the elbow that waters extends to set up the overhead of interior basin body is used for watering soil.

Furthermore, the bottom of the inner pot body is provided with a filtering device, and redundant water in the inner pot body enters the water storage tank through the filtering device.

Furthermore, the water pumping device also comprises a water pumping filter, and the water pumping filter is connected to the other end of the water pumping pipe.

Furthermore, a water level observation window is arranged on the outer pot body close to the water storage tank.

Furthermore, the device also comprises a power supply unit, a controller, a display screen and a setting key; the power supply unit is arranged inside the controller, the display screen and the setting key are arranged on the shell of the control device, and the display screen and the setting key are respectively and electrically connected with the controller; the power supply unit is used for supplying power for the control device and the miniature water pump.

Furthermore, the solar energy power supply device further comprises a solar panel, the power supply unit is a storage battery, and the solar panel is electrically connected with the storage battery.

Further, the power supply unit is a dry battery.

Further, the automatic water supply device comprises an upper liquid level sensor, a lower liquid level sensor and a water electromagnetic valve; the upper liquid level sensor, the lower liquid level sensor and the water electromagnetic valve are respectively electrically connected with the controller; one end of the electromagnetic valve for water is communicated with a water supply system, and the other end of the electromagnetic valve for water is communicated with the water filling port;

the upper liquid level sensor and the lower liquid level sensor are arranged in the water storage tank, the lower liquid level sensor is used for providing a water shortage signal, and a water electromagnetic valve is opened through a controller to inject water; and the upper liquid level sensor is used for providing a water injection stopping signal, and the controller closes the electromagnetic valve for water to stop water injection.

The utility model adopts the above technical scheme, according to the humidity that different plants liked, utilize miniature suction pump with water or nutrient solution in the aqua storage tank take out extremely the overhead of interior basin body is used for watering soil. The utility model discloses can provide automatic watering, monitor function for ornamental plant cultivated in a pot, this flowerpot can provide moisture content for the plant automatically when people work busy, go out to have a perfect look after, guarantees that the plant is healthy to grow, and its advantage lies in both watering through the humidity of automated inspection soil, also can be through setting for time cycle and the volume of watering, come to water for the plant regularly.

Drawings

FIG. 1 is a front view of the intelligent watering flowerpot of the utility model;

FIG. 2 is a side view of the intelligent watering flowerpot of the present invention;

FIG. 3 is a schematic structural view of the intelligent watering flowerpot system of the utility model;

fig. 4 is the structural schematic diagram of the watering device system of the utility model.

In the figure: 1. an outer pot body; 2. an inner pot body; 3. a dry-wet sensor; 4. a control device; 5. a micro water pump; 6. an extension edge; 7. a water storage tank; 8. a water injection port; 9. a water pumping pipe; 10. watering the elbow; 11. A solar panel; 12. a storage battery; 13. an upper liquid level sensor; 14. a lower liquid level sensor; 15. a solenoid valve for water; 16. setting a key; 17. a controller; 18. a positioning unit; 19. a wireless communication unit; 20. an intelligent terminal; 21. a dry-wet sensor interface; 22. a filtration device; 23. a display screen; 24. A water level observation window; 25. a water pumping filter; 26. a power supply unit.

Detailed Description

The technical solution of the present invention is further described in detail by the accompanying drawings and examples.

As shown in fig. 1 and 2, the utility model provides an intelligent watering flowerpot, which comprises an outer pot body 1, an inner pot body 2, a dry-wet sensor, a control device 4 and a micro water pump 5; the dry and wet sensor and the miniature water pump 5 are respectively electrically connected with the control device 4; in the embodiment, a dry-wet sensor connecting wire is inserted into a dry-wet sensor interface 21, a circle of extending edge 6 is arranged on the periphery of the upper end of the inner pot body 2, the inner pot body 2 is sleeved in the outer pot body 1, the extending edge 6 is placed on the upper end of the outer pot body 1, and the outer wall of the inner pot body 2 is attached to the inner wall of the outer pot body 1; a water storage tank 7 for storing water is formed between the bottom of the inner pot body 2 and the bottom of the outer pot body 1; plants are planted in the inner pot body 2, and the dry and wet sensor is buried in the soil of the inner pot body 2; the outer pot body 1 is provided with a water injection port 8, and clear water or liquid nutrients flow into the water storage tank 7 through the water injection port 8;

still include drinking-water pipe 9 and the elbow 10 that waters, the one end of drinking-water pipe 9 is connected on the miniature suction pump 5, the other end of drinking-water pipe 9 extends to liquid level below in the aqua storage tank 7, the one end of the elbow 10 that waters is connected on the miniature suction pump, the other end of the elbow 10 that waters extends to set up the sky of interior basin body 2 is used for watering soil.

It should be noted that the watering elbow 10 of the present invention is a rotatable watering elbow 10.

The utility model discloses according to the humidity that different plants liked, utilize miniature suction pump 5 with water or nutrient solution in the aqua storage tank 7 take out extremely interior basin body 2's the overhead soil that is used for watering. The utility model discloses can provide automatic watering, monitor function for ornamental plant cultivated in a pot, this flowerpot can provide moisture content for the plant automatically when people work busy, go out to have a perfect look after, guarantees that the plant is healthy to grow, and its advantage lies in both watering through the humidity of automated inspection soil, also can set for time cycle through controlling means 4 and the volume of watering, comes to regularly water for the plant.

As a preferred embodiment, the bottom of the inner pot 2 of the present invention is provided with a filtering device 22, and the filtering device 22 is used to circulate the excess water in the inner pot 2 through the filtering device 22 into the water storage tank 7.

As a preferred embodiment, the present invention further comprises a water pumping filter 25, wherein the water pumping filter 25 is connected to the other end of the water pumping pipe 9. The water pumping filter 25 is arranged to mainly prevent impurities such as sediment and the like from blocking the water pumping pipe 9.

As a preferred embodiment, the water level observation window 24 is arranged on the outer pot body 1 close to the water storage tank 7.

As shown in fig. 3, the intelligent watering flowerpot further comprises a power supply unit 26, a controller 17, a display screen 23 and a setting button 16; the power supply unit 26 is arranged inside the controller 17, the display screen 23 and the setting key 16 are arranged on the shell of the control device 4, and the display screen 23 and the setting key 16 are respectively and electrically connected with the controller 17; the power supply unit 26 is used for supplying power to the control device 4 and the micro water pump 5. The working mode, the watering time period and the watering amount are set through the setting key 16, and the information is displayed on the display screen 23; the watering elbow 10 is rotated into the inner pot, the humidity sensor detects the humidity of soil, the miniature water pump 5 is used for pumping water or nutrient solution in the water storage tank 7 to the upper part of the inner pot body 2 for watering plants, and redundant water returns to the water storage tank 7 through the filtering device 22.

The utility model adopts two modes for power supply, and one mode is that a dry battery is directly adopted for power supply; in another embodiment, the power supply is performed by using solar energy, specifically, a solar panel 11 is provided on a housing of the control device 4, a battery 12 is provided inside the control device 4, and the solar panel 11 is electrically connected to the battery 12. The electric energy converted by the solar panel is stored in the storage battery 12 for use in rainy days.

In order to further expand the application scene of the utility model, the utility model is suitable for large-scale places such as parks and plant gardens with a plurality of flowerpots, and the embodiment is also provided with an automatic water supply device which comprises an upper liquid level sensor 13, a lower liquid level sensor 14 and a water electromagnetic valve 15; the upper liquid level sensor 13, the lower liquid level sensor 14 and the water solenoid valve 15 are electrically connected to the controller 17, respectively; one end of the electromagnetic valve 15 for water is communicated with a water supply system, and the other end of the electromagnetic valve 15 for water is communicated with the water filling port 8;

the upper liquid level sensor 13 and the lower liquid level sensor 14 are provided in the water storage tank 7.

The specific working principle is as follows: when the water level in the water storage tank 7 is lower than the lower liquid level sensor 14, the lower liquid level sensor 14 is used for providing a water shortage signal, and the controller 17 is used for opening the electromagnetic valve 15 for water to inject water;

when the water level in the water storage tank 7 submerges the upper liquid level sensor 13, the upper liquid level sensor 13 is used for providing a water filling stopping signal, and the water filling is stopped by closing the water electromagnetic valve 15 through the controller 17.

The utility model provides an intelligence flowerpot that waters when using, at first plant the plant in interior basin body 2 to in inserting soil to dry wet sensor, put into outer basin body 1 to interior basin body 2, interior basin body 2 outer wall is laminated mutually with outer basin body 1 inner wall. The water injection mode can be divided into automatic water injection and manual water injection. The automatic water injection is that the flowerpot is connected to a water supply system in advance, the electromagnetic valve 15 for water is opened through a water shortage signal provided by the lower liquid level sensor 14, and when the liquid level sensor 13 is submerged by water injection, the electromagnetic valve 15 for water is automatically closed. The manual water injection is to add clean water (or add liquid nutrient at the same time) from the water injection port 8 and observe the water injection amount of the water storage tank 7 on the water level display window.

The solar panel 11 can provide electric energy for the control device 4, the low-voltage micro water pump 5, the water electromagnetic valve 15 and the like, and store redundant electric energy in the storage battery 12 for use in rainy days. The setting button 16 is used to set the working mode, watering time period and watering quantity, and the information is displayed on the display screen 23. The watering elbow 10 is rotated into the inner pot, the controller 17 controls the water pump to water the plants according to the setting, and the redundant water in the inner pot returns to the water storage tank 7 through the filtering device 22. The pumping filter 25 prevents impurities such as sludge from blocking the pumping pipe 9.

The utility model discloses another aspect still provides an intelligence device that waters, and this intelligence device that waters adopts foretell intelligence flowerpot that waters, the quantity of the flowerpot that intelligence was watered is more than one, each in the more than one intelligence flowerpot that waters water solenoid valve 15's one end all communicates on water supply system.

If the water level of the water storage tank 7 is lower than the lower liquid level sensor 14 in any intelligent watering flowerpot, water can be automatically supplemented. Greatly providing a degree of automation.

As shown in fig. 4, as a preferred embodiment, each control device 4 in this embodiment is provided with a positioning unit 18 and a wireless communication unit 19, and the positioning unit 18 and the wireless communication unit 19 are electrically connected to the controller 17 respectively; the intelligent terminal 20 is further included, and the intelligent terminal 20 is in communication connection with the wireless communication unit 19.

The positioning unit 18 and the wireless communication unit 19(3G/4G/WiFi module) are connected to the intelligent terminal 20, which is mainly convenient for the manager to realize remote management, the positioning unit 18 in each intelligent watering flowerpot is coded, and the manager can receive information of the corresponding flowerpot on the intelligent terminal 20, such as a remote computer or a smart phone, the information, such as watering period, watering amount, battery remaining amount, flowerpot water shortage information and the like.

The intelligent flowerpot can set a watering period and a watering amount for various rare flowers or flowers with higher requirements on dryness and humidity, and also provides a perfect solution for people who work busy, go out for a long time and the like and the problem that the flowers and plants in holidays of schools and offices are unattended.

The intelligent flowerpot has the characteristics of simple and easy operation, easy processing and manufacturing, low cost and suitability for the public. Meanwhile, the pot body can be made of different materials into various shapes and colors so as to meet different requirements. Is a good substitute product of the flowerpot used at present. This design innovation mainly embodies and makes the flowerpot can water for the plant automatically and need not people to watch and take care of, specifically includes:

the utility model discloses have following novelty:

1. the utility model discloses can also be provided with timing device in controlling means 4, the combination of dry wet sensor and timing device makes the flowerpot can water for the plant according to setting for and actual conditions.

2. The water injection amount is accurately controlled by the upper and lower liquid level sensors.

3. The redundant water flows back to the water storage tank 7 through the filtering device 22, and the water is recycled, so that waste is prevented.

4. The positioning unit 18 and the wireless communication unit 19 are added, so that the informatization control and management of the flowerpot are realized.

5. The combination of the solar cell panel 11 and the battery not only saves energy, but also ensures the reliability of the flowerpot.

The utility model adopts the above technical scheme, according to the humidity that different plants liked, utilize miniature suction pump 5 with water or nutrient solution in the aqua storage tank 7 take out extremely the sky of interior basin body 2 is used for watering soil. The utility model discloses can provide automatic watering, monitor function for ornamental plant cultivated in a pot, this flowerpot can provide moisture content for the plant automatically when people work busy, go out to have a perfect look after, guarantees that the plant is healthy to grow, and its advantage lies in both watering through the humidity of automated inspection soil, also can be through setting for time cycle and the volume of watering, come to water for the plant regularly.

Claims (8)

1. The utility model provides an intelligence flowerpot that waters which characterized in that: comprises an outer pot body, an inner pot body, a dry-wet sensor, a control device and a micro water pump; the dry and wet sensor and the miniature water pump are respectively electrically connected with the control device;

the outer periphery of the upper end of the inner pot body is provided with a circle of extension edge, the inner pot body is sleeved in the outer pot body, the extension edge is placed on the upper end of the outer pot body, and the outer wall of the inner pot body is attached to the inner wall of the outer pot body;

a water storage tank for storing water is formed between the bottom of the inner pot body and the bottom of the outer pot body; plants are planted in the inner pot body, and the dry and wet sensor is buried in soil of the inner pot body;

the outer pot body is provided with a water injection port, and clear water or liquid nutrients flow into the water storage tank through the water injection port;

still include the drinking-water pipe and the elbow that waters, the one end of drinking-water pipe is connected on the miniature suction pump, the other end of drinking-water pipe extends to liquid level below in the aqua storage tank, the one end of the elbow that waters is connected on the miniature suction pump, the other end of the elbow that waters extends to set up the overhead of interior basin body is used for watering soil.

2. An intelligent watering flowerpot according to claim 1, wherein: the bottom of the inner pot body is provided with a filtering device, and redundant water in the inner pot body enters the water storage tank through the filtering device.

3. An intelligent watering flowerpot according to claim 1, wherein: still include the filter that draws water, the filter that draws water is connected on the other end of drinking-water pipe.

4. An intelligent watering flowerpot according to claim 1, wherein: a water level observation window is arranged on the outer pot body close to the water storage tank.

5. An intelligent watering flowerpot according to any one of claims 1 to 4, wherein: the device also comprises a power supply unit, a controller, a display screen and a setting key; the power supply unit is arranged inside the controller, the display screen and the setting key are arranged on the shell of the control device, and the display screen and the setting key are respectively and electrically connected with the controller; the power supply unit is used for supplying power for the control device and the miniature water pump.

6. An intelligent watering flowerpot according to claim 5, wherein: the solar energy power supply device is characterized by further comprising a solar cell panel, the power supply unit is a storage battery, and the solar cell panel is electrically connected with the storage battery.

7. An intelligent watering flowerpot according to claim 5, wherein: the power supply unit is a dry battery.

8. An intelligent watering flowerpot according to claim 5, wherein: the automatic water supply device comprises an upper liquid level sensor, a lower liquid level sensor and a water electromagnetic valve; the upper liquid level sensor, the lower liquid level sensor and the water electromagnetic valve are respectively electrically connected with the controller;

one end of the electromagnetic valve for water is communicated with a water supply system, and the other end of the electromagnetic valve for water is communicated with the water filling port;

the upper liquid level sensor and the lower liquid level sensor are arranged in the water storage tank, the lower liquid level sensor is used for providing a water shortage signal, and a water electromagnetic valve is opened through a controller to inject water; and the upper liquid level sensor is used for providing a water injection stopping signal, and the controller closes the electromagnetic valve for water to stop water injection.

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