CN205812917U - Flowerpot intelligence bracket - Google Patents

Abstract

A kind of flowerpot intelligence bracket, solving the application intelligent flowerpot that prior art exists must cultivate in intelligent flowerpot again by plant, and intelligent flowerpot pattern is single, and the maintenance ability to plant and the beautifying functions to house lack adaptive problem.Including the main body being made up of circuit control zone, nutriment chamber, water storage cavity and water pump, it is arranged on the solar panel of body top, intensity of illumination sensor and is arranged on the bracket of lower body part, it is characterized in that: the side of described body exterior is connected by connecting tube has liquid manure illumination to control end and information gathering end, described liquid manure illumination controls end and is arranged on more than soil, and described information gathering end is arranged on below plant root.It is reasonable in design, compact conformation, takes up room little, it is ensured that on the premise of being changed without existing flowerpot just can to houseplant needed for illumination, temperature, humidity and nutriment carry out Intelligent adjustment, realization intelligence is grown flower, and maintains the integrated ornamental of flowerpot and plant simultaneously.

Description

Flower Pot Smart Bracket

technical field

The utility model belongs to the field of intelligent living equipment design, in particular to an intelligent device for indoor flowers and potted plant maintenance, in particular to an intelligent device capable of intelligently adjusting the environment of plants according to ambient light, soil humidity, temperature and pH value, etc. Smart holder for flower pots.

Background technique

Many families living in the city often encounter the need to go on business trips, etc., and cannot take care of the potted plants at home in time, and even give up growing flowers in the house because they do not know the plant maintenance technology; especially in buildings. When watering and fertilizing, it is very easy to spill water and soil in the house, affecting indoor sanitation.

Aiming at the shortage of artificially maintaining potted plants to beautify the house environment, various types of intelligent flower pots have appeared in the prior art, most of which use timing control and traditional fertilization methods, which cannot achieve real intelligent cultivation. Flowers; and the types of flowers and potted plants are increasing day by day, and different flowers need to be taken care of differently. At the same time, if the existing smart flowerpots are to be used, the plants must be replanted in the smart flowerpots, and the style of the smart flowerpots is relatively single, which is not conducive to house beautification and is not suitable for home use.

The prior art lacks adaptability to the maintenance ability of plants and the beautification function of houses, so it is necessary to improve the intelligent flower growing device of the prior art.

Utility model content

The utility model aims at the above problems, and provides an intelligent flowerpot bracket capable of intelligently adjusting the environment of plants according to ambient light, soil humidity, temperature and pH value.

The technical solution adopted by the utility model is: the intelligent flowerpot bracket includes a main body composed of a circuit control area, a nutrient chamber, a water storage chamber and a water pump, a solar panel arranged on the top of the main body, a light intensity sensor and a The technical points of the bracket at the lower part are: one side outside the main body is connected with a water and fertilizer lighting control terminal and an information collection terminal through a connecting pipe, and the core of the connecting pipe is provided with a water and fertilizer supply pipe and a line pipe, and the line pipe One end of the pipe is connected with the circuit control area of the main body, and the other end is connected with the water and fertilizer lighting control end and the information collection end; one end of the water and fertilizer supply pipe is connected with the water pump outlet respectively arranged at the bottom of the nutrient chamber and the water storage chamber, and the other end is connected with the water and fertilizer The lighting control end is connected, the horizontal section of the connecting pipe is arranged on the upper part of the main body, the curved section of the connecting pipe bypasses the upper edge of the flowerpot, so that the vertical section of the connecting pipe extends vertically into the flowerpot; the water and fertilizer lighting control end It is arranged on the upper part of the vertical section of the connecting pipe, above the soil in the flowerpot, and the information collection end is arranged on the lower part of the vertical section of the connecting pipe, below the root of the plant in the flowerpot.

The water and fertilizer light control end is a Y-shaped structure, and is provided with a lighting lamp and a water and fertilizer supply port, so as to supplement water, nutrition and light to the plants; the information collection end is a Y-shaped structure, and is provided with a temperature sensor, a humidity sensor and a pH value Sensors to collect status information during plant growth.

The water, fertilizer, lighting control end and information collection end can be moved and positioned vertically on the vertical section of the connecting pipe, and can rotate around the diameter center of the vertical section of the connecting pipe to adapt to flower pots of different sizes and shapes.

The bottom of the bracket is provided with a moving device, which can drive the entire smart bracket to move within a certain range.

The material of the curved section of the connecting pipe is a bendable rubber tube, so that the vertical section of the connecting pipe and the water, fertilizer, light control end and information collection end arranged on it can be more conveniently put into the flowerpot.

The light provided on the water and fertilizer light control end is an LED light circle.

Beneficial effects of the utility model: Since the utility model adopts one side outside the main body to connect the water and fertilizer light control end and the information collection end through the connecting pipe, and the water and fertilizer light control end is set above the soil in the flowerpot, and the information collection end is set on the flowerpot. The structure below the root of the plant in the pot is reasonable in design, compact in structure, and takes up little space, so that it can intelligently adjust the light, temperature, humidity, and nutrients required by indoor plants without replacing the existing flower pot. Realize intelligent flower cultivation, and at the same time maintain the overall ornamental quality of flower pots and plants.

Description of drawings

In order to make the technical problems, technical solutions and beneficial effects solved by the utility model clearer, the utility model will be further described in detail below in conjunction with the accompanying drawings and specific implementation methods. It should be understood that the specific embodiments described here are only used to explain the present utility model, and are not intended to limit the present utility model.

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

Fig. 2 is a schematic structural diagram of the water, fertilizer and light control terminal in Fig. 1 .

FIG. 3 is a schematic structural diagram of the information collection terminal in FIG. 1 .

Description of serial numbers in the figure: 1 main body, 2 solar panel, 3 light intensity sensor, 4 connecting pipe, 5 water and fertilizer light control terminal, 6 information collection terminal, 7 bracket, 8 mobile device, 9 flower pot, 11 circuit control area, 12 Nutrient chamber, 13 Water storage chamber, 14 Water pump, 41 Horizontal section of connecting pipe, 42 Curved section of connecting pipe, 43 Vertical section of connecting pipe, 51 Lighting lamp, 52 Water and fertilizer supply port, 61 Temperature sensor, 62 Humidity sensor, 63 PH value sensor.

detailed description

The specific structure of the utility model is explained in detail according to Fig. 1-3. The intelligent flowerpot bracket includes a main body 1, and the inside of the main body 1 is separated into a circuit control area 11, a nutrient chamber 12, and a water storage chamber 13 by an impermeable partition. The solar panel 2 arranged on the top of the main body 1, the light intensity sensor 3, and the bracket 7 arranged at the bottom of the main body 1, etc., wherein the outer side of the main body 1 is provided with a connecting pipe for water and fertilizer supply pipes and line pipes through the tube core 4. The water and fertilizer lighting control terminal 5 and the information collection terminal 6 are connected. There are wires arranged in the line pipe, and one end is connected to the circuit control area 11 of the main body 1, and the other end is connected to the water and fertilizer lighting control terminal 5 and the information collection terminal 6. The line The function of the wire in the pipe is to transmit the data collected by the information collection terminal 6 to the circuit control area 11, and send the instructions issued by the circuit control area 11 to the water and fertilizer lighting control terminal 5; It is connected to the water outlet of the water pump 14 at the bottom of the water storage chamber 13, and the other end is connected to the water and fertilizer light control terminal 5. The function of the water and fertilizer supply pipe is to deliver the nutrients and water in the nutrient chamber 12 and the water storage chamber 13 to the water and fertilizer through the water pump 14. The light control terminal 5 finally reaches the soil in the flower pot 9 . The connecting pipe 4 comprises a connecting pipe horizontal section 41, a connecting pipe curved section 42 and a connecting pipe vertical section 43. The connecting pipe horizontal section 41 is arranged on the top of the main body 1. Over the upper edge of the flowerpot 9, the vertical section 43 of the connecting pipe connected to the end of the curved section 42 of the connecting pipe can vertically extend into the flowerpot 9. The water and fertilizer illumination control end 5 is arranged on the top of the vertical section 43 of the connecting pipe, and is above the soil in the flower pot 9 during use, and the information collection end 6 is arranged on the bottom of the vertical section 43 of the connecting pipe, and is placed at the bottom of the flower pot 9 during use. below the plant roots.

In order to supplement water, nutrition and light to the plants, a lighting lamp 51 and a water and fertilizer supply port 52 are provided on the water and fertilizer light control terminal 5 . And the water and fertilizer light control terminal 5 is designed into a Y-shaped structure, so as to avoid touching the trunk of the plant.

In order to collect state information during plant growth, a temperature sensor 61 , a humidity sensor 62 and a pH value sensor 63 are provided on the information collection terminal 6 . And the information collection end 6 is designed as a Y-shaped structure so as to be in contact with the soil more effectively.

For the sake of adapting to different sizes and shapes of flower pots, the water and fertilizer lighting control terminal 5 and the information collection terminal 6 are designed to move and position vertically on the vertical section 43 of the connecting pipe, and can move around the vertical section of the connecting pipe. The structural form that the pipe diameter center of 43 rotates.

The moving device 8 provided at the bottom of the bracket 7 can drive the entire intelligent bracket and the flowerpot on its upper part to move within a certain range, reducing the impact of changes in light intensity and temperature on plants.

In order to more conveniently put the vertical section 43 of the connecting pipe and the water and fertilizer lighting control end 5 and the information collection end 6 provided thereon into the flowerpot, the bending section 42 of the connecting pipe 4 uses a flexible rubber tube material.

The light provided on the water and fertilizer lighting control terminal 5 can be an LED light ring that can not only promote photosynthesis of plants, but also be used for night decoration.

During use, the flowerpot 9 is placed on the bracket 7, the connecting pipe bending section 42 is adjusted, and the connecting pipe vertical section 43 is stretched into the flowerpot. According to the size of the flowerpot and the length of the plant rhizome etc., Adjust the position of the water and fertilizer illumination control terminal 5 and the information collection terminal 6 on the vertical section 43 of the connecting pipe, ensure that the information collection terminal 6 is buried below the plant roots, and detect the temperature, humidity and pH value of the soil; ensure that the water and fertilizer illumination control terminal 5. Set it above the soil surface of the flower pot to supply water, fertilizer and light. Through the water injection port of the water storage chamber 13 in the main body 1, water is injected into the water storage chamber 13 and reaches above the detection liquid level; through the fertilizer injection port of the nutrient chamber 12 in the main body 1, the nutrient solution is injected and reaches above the detection liquid level. A drainage device is arranged on the bracket 7 to discharge excess water and nutrient solution. The circuit control area 11 is provided with a main board, a display screen, a key control area, a storage battery and a remote communication module, etc. with various plant maintenance parameters and capable of analyzing and processing data and controlling various electrical components.

When the humidity sensor 62 that is arranged on the information collection end 6 below the plant root monitors that the moisture content in the soil is lower than the lower limit of the conservation parameter preset of the selected plant, the humidity sensor 62 will send a message to the main board of the circuit control area 11. signal, then the main board starts the water pump 14 provided at the bottom of the water storage chamber 13, and the water pump 14 sends the water in the water storage chamber 13 to the water and fertilizer lighting control terminal 5 through the water and fertilizer supply pipe provided in the connecting pipe 4, and finally sends the water into the soil .

When the pH value sensor 63 that is arranged on the information collection end 6 below the plant root monitors that the pH value in the soil is lower than the lower limit of the conservation parameter preset of the selected plant, the pH value sensor 63 sends to the main board of the circuit control area 11. signal, the main board starts the water pump 14 provided at the bottom of the nutrient chamber 12, and the water pump 14 sends the nutrient solution in the nutrient chamber 12 to the water and fertilizer light control terminal 5 through the water and fertilizer supply pipe provided in the connecting pipe 4, and the nutrient solution finally enters the soil.

When the light intensity sensor 3 detects insufficient light outside (for example: less than 6 hours of light within 24 hours), it sends a signal to the main board in the circuit control area 11, and the main board will turn on the light 51 (LED light ring).

In addition, according to the temperature in the soil monitored by the temperature sensor 61 installed on the information collection terminal 6 below the root of the plant, and the light intensity of the outside world monitored by the light intensity sensor 3, the main board of the circuit control area 11 will also pass the control bracket. The mobile device 8 arranged at the bottom of the frame 7 moves within a certain range to find a more suitable position to ensure a suitable temperature and sufficient lighting time.

The top of the main body 1 is provided with a solar panel 2, an electric storage device and an inverter device, and the solar energy absorbed by the solar panel 2 is the circuit control area 11, the water pump 14, the light intensity sensor 3, The water and fertilizer lighting control terminal 5, the information collection terminal 6, the mobile device 8, etc. provide power supply, and store excess electric energy in the storage battery in the circuit control area 11.

Cooling and heating devices can be arranged on the bracket 7 to precisely adjust the temperature of the plants.

The dimensions of the nutrient chamber 12 and the water storage chamber 13 of the main body 1, and the lengths of the connecting pipe horizontal section 41, the connecting pipe bending section 42 and the connecting pipe vertical section 43 of the connecting pipe 4 can be designed in different shapes according to the size of the potted plants In addition, when the potted plants to be maintained are taller and bulkier, the bracket 7 and the mobile device 8 at the bottom of the main body 1 can also be removed, and the main body 1 can be hung on the flowerpot only through the connecting pipe 4 for use. .

The above content is a further detailed description of the utility model in conjunction with specific preferred embodiments. It cannot be determined that the specific implementation of the utility model is only limited to these descriptions. Under the premise of the concept of the utility model, some simple deduction or replacement can also be made, which should be regarded as belonging to the protection scope determined by the claims submitted by the utility model.

Claims (6)

1. A flower pot intelligent bracket, including a main body (1) composed of a circuit control area (11), a nutrient chamber (12), a water storage chamber (13) and a water pump (14), which is set on the top of the main body (1) The solar panel (2), the light intensity sensor (3) and the bracket (7) arranged at the lower part of the main body (1), are characterized in that: the outer side of the main body (1) is connected by a connecting pipe (4) There is a water and fertilizer lighting control terminal (5) and an information collection terminal (6). The core of the connecting pipe (4) is provided with a water and fertilizer supply pipe and a line pipe. One end of the line pipe is connected to the circuit control area of the main body (1) ( 11), the other end is connected to the water and fertilizer lighting control terminal (5) and the information collection terminal (6); one end of the water and fertilizer supply pipe is connected to the water pump (14) respectively arranged at the bottom of the nutrient chamber (12) and the water storage chamber (13) The water outlet is connected, and the other end is connected with the water, fertilizer and light control terminal (5). The connecting pipe horizontal section (41) of the connecting pipe (4) is set on the upper part of the main body (1), and the connecting pipe bending section (42) bypasses the flowers. The upper edge of the pot (9) allows the vertical section (43) of the connecting pipe to extend vertically into the flower pot (9); the water, fertilizer and light control end (5) is set on the upper part of the vertical Above the soil in the flower pot, the information collection end (6) is arranged at the lower part of the vertical section (43) of the connecting pipe, below the root of the plant in the flower pot. 2. The flower pot intelligent bracket according to claim 1, characterized in that: the water and fertilizer lighting control end (5) is a Y-shaped structure, and is provided with a lighting lamp (51) and a water and fertilizer supply port (52); The information collection terminal (6) has a Y-shaped structure and is provided with a temperature sensor (61), a humidity sensor (62) and a pH value sensor (63). 3. The flower pot intelligent bracket according to claim 1 or 2, characterized in that: the water, fertilizer, lighting control end (5) and information collection end (6) can be vertically connected to the vertical section (43) of the connecting pipe. Move and position up and down in the direction, and can rotate around the diameter center of the vertical section of the connecting pipe (43). 4. The flower pot intelligent bracket according to claim 1, characterized in that: a moving device (8) is provided at the bottom of the bracket (7). 5. The flowerpot intelligent bracket according to claim 1, characterized in that: the material of the connecting pipe bending section (42) of the connecting pipe (4) is a bendable rubber tube. 6. The flower pot intelligent bracket according to claim 2, characterized in that: the lighting lamp (51) provided on the water and fertilizer lighting control end (5) is an LED lamp ring.