CN204579293U - A kind of Base of flowerpot of portable automatic watering - Google Patents

Abstract

The utility model relates to a convenient automatic watering flowerpot base, which belongs to the technical field of plant potting. It includes a water supply tank, an integrated soil moisture sensor, a miniature solar water pump, a solar panel, a miniature battery, and a charging protection module; the water supply tank is fixed inside the base, and the input terminal of the charging protection module is connected to the solar panel, and the output terminal is connected to the The miniature battery is connected, the miniature solar water pump is fixed under the base, one end is connected to the water outlet pipe, and the other end is connected to the water supply tank, the edge of the base is inserted and fixed with a pipe clamp, and the outlet pipe and wires are clamped and fixed on the pipe clamp middle. The utility model can effectively solve the problem of flowers dying due to lack of water, and realize the convenience and energy saving of automatic watering equipment.

Description

A convenient automatic watering flower pot base

technical field

The utility model relates to the technical field of plant potting, in particular to a convenient automatic watering flower pot base.

Background technique

Green plants can significantly improve the small environment of the family, including increasing indoor humidity, purifying indoor air, and bringing color and visual pleasure to people. However, the busy modern life makes people have no time to take care of the maintenance of flowers, and it often occurs that the flowers die without watering for several days or even months. Most of the self-watering flowerpots on the market are self-priming, and the soil humidity of the flowerpots is uncontrollable, so the user experience is not ideal. There are also a few intelligent control watering types, but they require additional power supply when used, and generally can only be used indoors. Lighting is required to provide light for plants, which consumes a lot of power resources.

Utility model content

In order to overcome the design deficiencies of the existing products, the utility model provides a convenient automatic watering flower pot base. It can effectively solve the problem of flowers dying due to lack of water, and realize the convenience and energy saving of automatic watering equipment.

The utility model solves the technical problem and adopts the following scheme:

The utility model is a convenient automatic watering flowerpot base, which mainly includes a base, a miniature storage battery, a potentiometer, an integrated soil humidity sensor, a water supply tank, a miniature solar water pump, a charging protection module, a solar battery panel, and a soil humidity probe. The water supply tank is fixed inside the base; the input end of the charging protection module is connected to the solar panel, and the output end is connected to the micro-battery, and the micro-battery is respectively connected to the integrated soil moisture sensor and the micro-solar water pump; the integrated The soil moisture sensor is respectively connected with the potentiometer, the soil moisture probe and the miniature solar water pump; the miniature solar water pump is fixed under the base, one end is connected with a water outlet pipe, and the other end is connected with the water supply tank.

Further, the integrated soil moisture sensor includes a humidity comparator, a relay, a drive circuit interface and a power switch; the solar panel is fixed on the side of the flower pot base at an elevation angle of 45 degrees, and is connected to the charging protection circuit; the water supply tank There is a certain space with the bottom of the base, and the micro battery, charging protection module, and integrated soil moisture sensor are placed in this space; fixed pipe clamps are inserted on the edge of the base, and the outlet pipe and wires are clamped and fixed in the pipe clamps.

The utility model has the following advantages: the soil humidity sensor with adjustable sensitivity is used to monitor the humidity of the flowerpot soil in real time, and the intelligent control system precisely regulates to provide the best growth environment for the plants. Solar panels and micro batteries are used to collect and store electrical energy. Under normal circumstances, no external power supply is required, and self-sufficiency can be achieved to achieve the purpose of energy saving and convenience. The utility model is a flower pot base, which can carry many different types of flower pots, has strong adaptability and is convenient to use.

Description of drawings

Below in conjunction with accompanying drawing and embodiment the utility model is further described.

Fig. 1 is the structural representation of the utility model.

Fig. 2 is a circuit connection diagram of the utility model.

In Figure 1: 1. Base, 2. Water supply tank, 3. Charging protection module, 4. Micro battery, 5. Micro solar water pump, 6. Integrated soil moisture sensor, 7. Potentiometer, 8. Outlet pipe, 9. Solar energy battery board, 10. soil moisture probe, 11. wire.

Detailed ways

As shown in Figure 1, the utility model is a portable automatic watering flowerpot base, mainly including a base 1, a water supply tank 2, a charging protection module 3, a micro battery 4, a micro solar water pump 5, and an integrated soil moisture sensor 6 , a potentiometer 7, an outlet pipe 8, a solar panel 9, and a soil moisture probe 10; wherein, the water supply tank 2 is fixed inside the base 1, and there is a certain space between the water supply tank 2 and the bottom of the base 1, a micro battery 4, and a charging protection module 3 , The integrated soil moisture sensor 6 is placed in this space; the input end of the charging protection module 3 is connected to the solar panel 9, the output end is connected to the micro battery 4, and the micro battery 4 is connected to the integrated soil moisture sensor 6 and the micro solar water pump 5 respectively The integrated soil moisture sensor 6 includes a humidity comparator, a relay, a drive circuit interface and a power switch, and the integrated soil moisture sensor 6 is connected with the potentiometer 7, the soil moisture probe 10 and the miniature solar water pump 5 respectively; the miniature solar water pump 5 is fixed on the base 1 below, one end is connected with outlet pipe 8, and the other end is connected with water supply tank 2. The solar panel 9 is fixed on the side of the flower pot base 1 at an elevation angle of 45 degrees, which is beneficial for the solar panel 9 to absorb solar energy to a greater extent. A fixed pipe clip is inserted on the edge of the base 1, and the outlet pipe 8 and the wire 11 are clamped and fixed in the pipe clip, making the device more concise and orderly.

In this embodiment, the water supply tank 2 is connected with the miniature solar water pump 5 and the water outlet pipe 8 in a sealed manner to form a connector. When the water supply tank 2 is filled with water, clear water flows into the pump body under the action of water pressure, and the air in the pump body is removed, so that the miniature solar water pump 5 can realize normal pumping and watering without the need for high-power self-priming function. Under light conditions, the solar panel 9 can store the collected electric energy in the micro battery 4 through the charging protection module 3, and supply the integrated soil moisture sensor 6 and the micro solar water pump 5 for use.

During use, the soil moisture probe 10 transmits the soil moisture resistance value to the integrated soil moisture sensor 6, and the soil moisture sensor collects the soil moisture signal, compares the resistance value of the humidity signal with the preset value of the potentiometer 7, and if it is higher than the preset value value, output a high level to the relay, the relay pulls in, and the drive circuit interface is connected. In this embodiment, the potentiometer 7 is designed on the side of the base 1, and each potential value has a corresponding soil moisture range, which can conveniently adjust the required soil moisture.

The above-mentioned embodiments are only described to the preferred implementation of the utility model, and are not limited to the scope of the utility model. Various modifications and improvements made should fall within the scope of protection determined by the claims of the utility model.

Claims (5)

1. A convenient flowerpot base for automatic watering, mainly including a base, a miniature storage battery, a potentiometer, an integrated soil moisture sensor, a water supply tank, a miniature solar water pump, a charging protection module, a solar panel, and a soil moisture probe. It is characterized in that: the water supply tank is fixed inside the base; the input end of the charging protection module is connected to the solar panel, and the output end is connected to the micro battery, and the micro battery is respectively connected to the integrated soil moisture sensor and the micro solar water pump; The integrated soil moisture sensor is respectively connected with a potentiometer, a soil moisture probe and a miniature solar water pump; the miniature solar water pump is fixed under the base, one end is connected with a water outlet pipe, and the other end is connected with a water supply tank. 2. A portable automatic watering flowerpot base according to claim 1, characterized in that: said integrated soil moisture sensor includes a humidity comparator, a relay, a drive circuit interface and a power switch. 3. A portable automatic watering flowerpot base according to claim 1, characterized in that: the solar panel is fixed on the side of the flowerpot base at an elevation angle of 45 degrees, and is connected to the charging protection circuit. 4. A portable automatic watering flowerpot base according to claim 1, characterized in that: there is a certain space between the water supply tank and the bottom of the base, and the micro battery, charging protection module, and integrated soil humidity sensor are placed in this space. 5. A portable automatic watering flowerpot base according to claim 1, characterized in that: a pipe clamp is inserted and fixed on the edge of the base, and both the outlet pipe and the wire are clamped and fixed in the pipe clamp.