CN210008282U - Intelligent flowerpot tray - Google Patents

Abstract

The utility model discloses an intelligent flowerpot tray, which belongs to the field of intelligent gardening tools and comprises a tray shell and a water storage device arranged in the tray shell, wherein the water storage device is used for receiving water overflowing when plants are watered and supplying water to the plants; the moving device is arranged at the bottom of the tray shell and is used for supporting the plants to be far away from the ground and moving the plants; the shielding net rack is arranged outside the tray shell and fixed in the jacks, and the shielding net rack can be folded and stretched; the shade net rack is used for shading the plants and providing illumination for the plants; set up in the inside electrically controlled device of tray casing, electrically connected respectively and control respectively of electrically controlled device water storage device mobile device and the shade rack uses the flowerpot tray that above-mentioned technical scheme provided to effectively manage the plant in the automation in the certain time.

Description

Intelligent flowerpot tray

Technical Field

The utility model relates to an intelligence horticulture apparatus field, more specifically say, relate to an intelligence flowerpot tray.

Background

A smart device refers to any device, instrument, or machine with computing processing capabilities; the flowerpot is a vessel for planting flowers, has various forms and different sizes, and the bottom of most flowerpots is provided with a flowerpot tray which is used for receiving water, so that the phenomenon that the plants are watered too much to overflow and damage the floor is avoided; as the upgrading product of the common flowerpot tray, the movable flowerpot tray is provided, large flowers can be conveniently moved, the defect that the common tray is inconvenient to move is effectively overcome, the ground is effectively separated, and the damage of the terrestrial heat to the roots of the flowers is solved.

Along with the improvement of standard of living, the resident pays more attention to quality of life, like planting some flowers and plants at home, leave the family on vacation or travel outside, and when not having the time to consider the life, the flowers and plants at home can not obtain effective timely care, single structure, the flowerpot tray of function singleness can not satisfy the requirement of family horticulture fan to flowerpot and tray, so need provide an intelligent flowerpot tray urgently, solve the inconvenient management of resident when going out and look after the plant, plant the problem that the household utensils can not automatic maintenance indoor plant yet for the flower.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an intelligence flowerpot tray to solve among the prior art ordinary flowerpot tray structure and function singleness, can not automatic management maintain the problem of plant.

The utility model aims at realizing through the following technical scheme:

an intelligent flowerpot tray comprising: the water storage device comprises a tray shell and a water storage device arranged in the tray shell, wherein the water storage device comprises a water storage tank and a micro water pump; the water storage device is used for receiving water overflowing when watering the plants and supplying water to the plants;

the moving device is arranged at the bottom of the tray shell and comprises a driving motor and a roller; wherein the moving device is used for supporting the tray shell away from the ground and moving the plant;

the shielding net rack is arranged outside the tray shell and fixed in the jack, and comprises two symmetrically arranged shielding net racks, wherein the shielding net racks are foldable and extensible; the shade net rack is used for shading the plants and providing illumination for the plants;

the electric control device is arranged in the tray shell and is respectively and electrically connected with the water storage device, the moving device and the shade net rack; the electric control device comprises a sensor and is used for controlling the water storage device, the moving device and the shade net rack according to soil microenvironment parameters monitored by the sensor.

Furthermore, the tray shell also comprises a circular water leakage clapboard which is arranged at the center and is used for placing a flowerpot; the water leakage partition plate is provided with a plurality of through holes, and the through holes are used for leaking water overflowing from the flowerpot on the water leakage partition plate into the water storage tank.

Furthermore, a first partition plate is arranged between the micro water pump and the reservoir, and the micro water pump is fixed on the first partition plate; a water inlet pipe connector is arranged on the first partition plate, and a water delivery pipe outlet is arranged on the tray shell above the micro water pump;

the miniature water pump comprises a water inlet pipe and a water delivery pipe, the water inlet pipe is connected into the reservoir from the water inlet pipe interface, and the water delivery pipe extends to the outer side from the water delivery pipe outlet.

Further, the water inlet pipe comprises a 12 x 16mm silicone tube; the water conveying pipe comprises a 6 x 9mm silicone tube.

Furthermore, the roller comprises a front wheel and two symmetrically arranged rear wheels, and the roller is placed in a triangular shape; the driving motors comprise two driving motors which are respectively electrically connected with the two rear wheels and used for driving the rear wheels to rotate; the front wheels include universal wheels.

Further, the shade net mount includes:

the net rack inserting rod and the rotating part connected with the net rack inserting rod comprise a rotating shaft and a sliding rail;

a first support rod and a second support rod which are respectively connected with the rotating part; the first supporting rod is fixedly connected to the rotating part, and the second supporting rod is fixedly connected to the rotating shaft; a third support rod is arranged between the first support rod and the second support rod and is connected to the slide rail of the rotating part in a sliding manner; one or more third supporting rods are arranged between the first supporting rod and the plurality of second supporting rods;

and the shade cloth layer is arranged on the first supporting rod, the second supporting rod and the third supporting rod.

Furthermore, the shade net rack also comprises a micro driving motor, and the micro driving motor is coaxially connected with the rotating shaft; the driving motor is used for driving the rotating shaft to rotate, so that the supporting rod is driven to rotate, and the shade cloth layer is stretched.

Further, a second partition plate is arranged inside the tray shell, and a sensor external interface is arranged outside the tray shell; the sensor includes the sensor probe, the sensor set up in second baffle top, just the sensor probe is followed the sensor external interface extends to the outside.

Further, the electric control device further comprises:

the power supply is used for supplying power to each power utilization module; the voice module is used for receiving voice information and playing sound; the signal receiving module is used for receiving a remote control signal; the display screen is used for displaying the soil microenvironment parameters monitored by the sensor and the environmental parameters required by the normal growth of the plants;

and the main control board module is used for receiving the parameters returned by the sensor and the signals returned by the signal receiving module, and outputting the processed data to the voice module, the mobile device, the shade net rack and the water storage device.

Further, the main control board module comprises a main control unit, a data processing unit and a data storage unit; the data storage unit is used for storing the voice control instruction and the growth environment parameters corresponding to the plants; the data processing unit is used for comparing parameters acquired by the sensor with parameters stored in the data storage unit and sending comparison results to the main control unit; the main control unit is used for sending control instructions to the micro water pump, the driving motor and the shade net rack according to a comparison result.

Compared with the closest prior art, the utility model provides a technical scheme has following beneficial effect:

the technical scheme provided by the utility model comprises a tray shell and a water storage device arranged inside the tray shell, wherein the water storage device comprises a water storage tank and a micro water pump; the moving device is arranged at the bottom of the tray shell and comprises a driving motor and a roller; the shielding net rack is arranged outside the tray shell and is fixed in the jacks of the tray shell; the electric control device is arranged in the tray shell and comprises a sensor, and the electric control device is connected with and controls the water storage device, the moving device and the shade net rack; among the above-mentioned technical scheme electric control unit according to the soil microenvironment parameter that the sensor monitored, can control the automatic cistern normal growth that extracts of miniature pump among the water storage device water supply plant to and control shade rack shelters from sunshine for the plant, or control mobile device removes the plant to the environment that suits its growth, and intelligent flowerpot tray can automatic effective management plant in the certain period, even the horticulture fan is gone out for a long time, also can guarantee the normal growth of plant.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a structural relationship diagram of an intelligent flowerpot tray provided by the present information;

fig. 2 is a schematic view of an intelligent flowerpot tray provided by the utility model;

fig. 3 is a schematic view of the internal structure of the intelligent flowerpot tray provided by the utility model;

fig. 4 is a schematic view of a micro water pump provided by the present invention;

fig. 5 is a schematic diagram showing the relationship among the power utilization modules in the intelligent flowerpot tray provided by the present invention;

fig. 6 is a schematic view of a mask net rack provided by the present invention;

wherein: 1-a water storage device; 101-a water reservoir; 102-a water-leaking partition; 103-a miniature water pump; 104-water conveying pipes; 105-outlet of water pipe; 106-a first separator; 107-water inlet pipe interface; 108-a water inlet pipe; 2-a mobile device; 201-driving motor; 202-rear wheel; 203-front wheels; 3-an electric control device; 301-a sensor; 302-a sensor external interface; 303-a sensor probe; 304-a display screen; 305-a signal receiving module; 306-a voice module; 307-power supply; 308-a main control board module; 309-a second separator; 4-a shade net rack; 401-a jack; 402-rack plunger; 403-a rotating member; 431-rotating shaft; 432-a slide rail; 404-a first support bar; 405-a matte cloth layer; 406-a second support bar; 407-third support bar.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

This embodiment provides an intelligence flowerpot tray, has solved ordinary flowerpot tray structure and functional unit among the prior art, can not automatic management maintain the problem of plant.

Hereinafter, embodiments will be described in detail with reference to the accompanying drawings. The embodiments described below do not limit the scope of the invention described in the claims. Further, the entire contents of the configurations shown in the following embodiments are not limited to those necessary as a solution of the invention described in the claims.

Technical solution provided by the present embodiment referring to fig. 1 to 6, as shown in fig. 2, the present embodiment provides an intelligent flowerpot tray, which includes a tray housing, and optionally, a top view of the tray housing includes but is not limited to a circle, and the tray housing is divided into a plurality of areas, so that the tray housing is both beautiful in appearance and is helpful for quickly distinguishing functionality of different areas. In some embodiments, as shown in fig. 2, the tray housing includes a water leaking partition 102 at the center of the circle for placing plants, and the water leaking partition 102 and the water leaking partition form a concentric edge of the tray. The water leakage partition plate is provided with a plurality of through holes, and the through holes are used for leaking water overflowing from the plants into the water storage device.

The tray shell comprises a water storage device 1 arranged inside, and the water storage device 1 comprises a water storage tank 101 and a micro water pump 103; the water storage device is used for receiving water overflowing during plant watering and supplying water for plants, wherein a water source of the water storage device can be a specially supplemented water source except the water overflowing during plant watering, so that the water quantity in the water storage device is sufficient; optionally, the micro water pump can be a food-grade micro 12V direct current brushless mute water pump, the micro water pump can work after being connected with a 12V direct current power supply, and the sound of the water pump is very small when the water pump works, so that the noise influence on the living environment of a user can not be generated; as shown in fig. 4, the micro water pump includes a water inlet pipe 108 and a water delivery pipe 104, the water inlet pipe includes a silicone tube of 12mm by 16mm, and the water delivery pipe includes a silicone tube of 6mm by 9 mm.

In some embodiments, the tray housing includes a first partition 106 disposed between the reservoir 101 and the micro water pump 103, and the micro water pump is fixed on the first partition, optionally, the fixing manner of the micro water pump on the first partition may be determined according to the material of the tray housing, if the tray housing is made of metal, the fixing manner may be screw fixing, and if the tray housing is made of plastic such as PVC, the tray housing may be an integrally formed snap-fit interface, and the micro water pump is snapped on the tray housing. A water inlet pipe interface 107 is arranged on the first partition plate, a water delivery pipe outlet 105 is arranged on the tray shell above the micro water pump, a water inlet pipe 108 of the micro water pump is connected into the reservoir 101 from the water inlet pipe interface 107 on the first partition plate, and the water delivery pipe extends to the outside from the water delivery pipe outlet on the tray shell; in order to prevent water in the reservoir from entering the space for preventing the micro water pump through the water inlet pipe connector on the first partition plate, the diameter of the water inlet pipe connector is slightly larger than the outer diameter of the water inlet pipe, and the micro water pump can be directly placed in water, so that the micro water pump can be used for a long time by keeping the micro water pump soaked for a non-long time, and dangers such as electric leakage and the like are avoided. As shown in fig. 3, the height of the water leaking partition plate 102 is lower than the first partition plate level inside the tray housing, so that the user can judge that the water level in the reservoir is close to the maximum value by observing the water reversely overflowed from the through hole of the water leaking partition plate, and the excessive water is not easily added. A gap is arranged between one side of the reservoir close to the first partition plate and the tray shell, and the gap is used as a power supply accommodating space for connecting the micro water pump and a main control board module of the electric control device.

The technical scheme provided by the specific embodiment further comprises a moving device arranged at the bottom of the tray shell, wherein the moving device comprises a driving motor 201 and a roller, and the moving device is used for supporting the tray shell to be far away from the ground and moving the plant. In some embodiments, the rollers comprise a front wheel 203 and a rear wheel 202, the rear wheel comprises two symmetrically arranged rear wheels, the front wheel and the two rear wheels are arranged in a triangle, the triangular joint has the strongest stability according to the triangular property in the mathematical theory, and the triangular arrangement of the three rollers helps to protect the stability of the flowerpot tray during moving, so that the tray shell is stressed uniformly during moving; the driving motor 201 comprises two driving motors, which are respectively electrically connected with the two rear wheels and are used for driving the rear wheels to rotate, as shown in fig. 2 and fig. 3, the driving motor 201 is arranged at the inner side of the rear wheels 202, namely the driving motor is arranged at one side close to the center line of the tray shell, because the motor has a larger weight relative to the roller, the larger weight is arranged close to the center of the object, which is helpful for keeping the stability and inertia of the object during movement; optionally, the front wheels in the rollers can be universal wheels or steering wheels, so that steering operation is facilitated.

This embodiment provides's technical scheme still including set up in the tray casing outside, be fixed in jack 401 in being used for sheltering from irradiant shade rack 4 for the plant, the shade rack is including two shade racks that the symmetry set up, just the shade rack is collapsible to be placed in tray casing both sides, also can extend, shelters from the sunlight for the plant. In some embodiments, as shown in fig. 6, the covered net rack 4 comprises a rack plunger 402, a rotating member 403 connected to the rack plunger, the rotating member 403 comprising a rotating shaft 431 and a sliding rail 432; the micro-driving motor is coaxially connected with the rotating shaft, and the first supporting rod 404 and the second supporting rod 406 which are respectively connected with the rotating part can comprise one or more third supporting rods 407 between the first supporting rod and the second supporting rod, taking the example that the third supporting rod is arranged between the first supporting rod and the second supporting rod in fig. 4 as an example, the first supporting rod 404 can be movably or fixedly connected at one end of the rotating part, the second supporting rod 406 is fixedly connected on the rotating shaft 431, the rotating shaft can drive the second supporting rod to rotate by rotating, and the third supporting rod is slidably connected on the sliding rail 432 of the rotating part; when the shade net rack is stretched, the micro driving motor drives the rotating shaft 431 to rotate forwards, the second supporting rod rotates along with the rotating shaft, the third supporting rod is driven by the shade cloth layer fixed on the supporting rod to move along the sliding rail, and the shade cloth layer 405 is stretched; when the shade net rack is folded, the rotation shaft is driven to rotate by the micro driving motor to rotate and reversely rotate, the first supporting rod 404 moves along the direction of the outer edge of the tray shell along with the rotation shaft, the first supporting rod and one end of the shade cloth layer fixed on the first supporting rod apply pressure to the second supporting rod support, so that the second supporting rod drives the shade cloth layer to move towards the direction of the first supporting rod, and the shade cloth layer is folded. In other embodiments, the first bracing piece of shade rack is used for supporting the transverse bar on shade cloth layer, is provided with LED lamp area on the transverse bar of parallel tray casing promptly, LED lamp area is the full gloss register for easy reference lamp area of 12V plant light filling, when the plant need supply the light, can make the shade rack expand, lights LED lamp area is the plant light filling.

It should be noted that the shade cloth layer used on the shade net rack includes, but is not limited to, cloth, and may be a shade layer made of other materials that can shade plants.

The technical scheme of the embodiment further comprises an electric control device 3 arranged inside the tray shell, as shown in fig. 1, the electric control device is respectively and electrically connected with the water storage device 1, the moving device 2 and the shade net rack 4; a sensor 301 is included in the electrical control device for controlling the water storage device, the mobile device and the shade net rack according to soil microenvironment parameters monitored by the sensor. In some embodiments, the sensor 301 includes a sensor probe 303, the sensor probe 303 and the sensor may be connected by a wire with an indefinite length, the sensor is disposed inside the tray housing, as shown in fig. 3, the tray housing includes a second partition 309, the tray housing is provided with a sensor external interface 302 on the outer side, the sensor 301 is disposed on the second partition, the sensor probe 303 extends to the outer side of the tray housing along the sensor external interface 302, and optionally, a through hole is disposed on the second partition, the through hole is used for passing through a wire, one end of the wire is connected to the main control board module of the electronic control board, and the other end of the wire is connected to the sensor. Optionally, the sensor 301 may be a 5TE sensor, the 5TE sensor may measure soil moisture content, conductivity and temperature, the oscillation frequency is 70MHz, the water content is determined by measuring the dielectric constant of the soil, the soil temperature is measured by a thermistor at the base of the trident-shaped probe, the conductivity is measured by screws on the surface of two of the probes, and in this embodiment, the 5TE sensor is mainly used to measure the soil moisture content and the soil temperature in the flowerpot.

In some embodiments, as shown in fig. 5, the electronic control device further includes, in addition to the sensor 301: a power supply 307, a voice module 306, a signal receiving module 305, a main control board module 308 and a display screen 304;

as shown in fig. 3, the power supply 307 is disposed at the bottom end inside the tray housing, is located between two driving modules formed by the driving motor and the rear wheel, is electrically connected to the main control board module, and supplies power to each power utilization module through the main control board;

display screen 304 sets up in tray shell side, is close to mobile device's front wheel one side, and the display screen is the straight face screen, is connected with main control board module electricity for the soil microenvironment data that the display sensor detected, optional, but the touch display screen of display screen optional usefulness, just, can also show the required environmental parameter of plant normal growth on the display screen. The variety of user touch-control display screen input plant, the growth environment parameter that main control board module among the electrically controlled device corresponds the plant variety shows on the display screen, when the user looked over the plant, can finely tune the growth environment of plant according to the growth environment parameter that the plant variety on the display screen corresponds and the actual soil microenvironment contrast of plant, helps the healthy growth of plant.

The signal receiving module is used for receiving a remote control signal and is arranged in the tray shell close to one side of the rear wheel of the mobile device; optionally, the signal receiving module may select a 433M high-frequency receiving module manufactured by TELESKY brand, the working voltage is a dc 5V quiescent current, the receiving frequency is 433MHz, the receiving sensitivity is-105 DB, the size is 30 × 13.5 × 7mm, the external antenna is a 32 cm single-core wire, and the external antenna is wound into a spiral shape and fixed on the high-frequency receiving module; in the reserved four pins of the high-frequency receiving module, two pins positioned on the outer side are connected with a 5V power supply, and two adjacent pins in the middle are used as signal output pins and connected with the main control board module.

The voice module is used for receiving voice information and playing sound information and is arranged in the tray shell close to one side of the display screen, and optionally, a grid or bar-shaped structure for making sound is arranged on the tray shell corresponding to the voice module; optionally, the voice module may be an LD3320 voice recognition module, the power supply voltage is 5V, the I0 port outputs 3.3V high level, 16 IO output ports, a group of 8-bit IO expansion interfaces, 1 timer, and 1 external interrupt are reserved on a PCB board card, and the board card is provided with a fixing hole of 3mm and can be fixed inside the tray housing; the microphone can be externally connected, and is used for picking up sound signals and converting the sound signals into electric signals for processing; and after the microphone receives the voice signal, the microphone runs a voice recognition algorithm in the voice recognition module to process the received voice data, and after the voice data is compared with the voice data stored in the main control board module, the voice information is played. Optionally, a high-quality MP3 voice integration module with a model of BY8301-16P may be added to the voice module, and music is played under the control of the main control board module.

The main control board module is arranged below the reservoir, above the power supply and electrically connected with the power supply, and as shown in fig. 5, the display screen, the micro water pump, the voice module, the driving motor of the mobile device, the sensor, the signal receiving module and the micro motor on the shade net rack are electrically connected with the main control board module; optionally, the main control board module includes a main control unit, a data processing unit and a data storage unit, and optionally, the main control unit is a microprocessor control unit, and an STM32F031C6T6 model MCU controller may be used; the data processing unit can select a TMS320LF2407 type digital signal processing chip, uses a 3.3V power supply, has low power consumption, and is internally provided with 2 time manager modules special for motor driving; the data storage unit comprises an AT24C256 type IC memory chip as an externally expanded memory signal storage data; the method comprises the steps that a voice control instruction and growth environment parameters corresponding to plants are stored in a data storage unit in advance, parameters collected by a sensor are compared with the parameters stored in the data storage unit in a data processing unit, and a comparison result is sent to a main control unit; and the main control unit sends a control command to the micro water pump, the driving motor and the shade net rack according to the comparison result.

When the sensor monitors that the water content in the soil microenvironment is low, the main control unit controls the micro water pump to water plants, and the micro water pump stops watering the plants after the clock signal of the main control unit is reached; when the sensor detects that the temperature in the soil microenvironment is higher, the driving motor in the main control unit control mobile device drives the rear wheel, and the flowerpot tray drives the plant to move to the environment that sunshine is weaker, or the miniature driving motor in the main control unit control shade rack makes the shade rack extend and open and shelter from sunshine for the plant.

It should be noted that the connection relationship of each module circuit in the electronic control device is a connection relationship well known in the prior art, and related data processing algorithms such as a voice recognition algorithm are all mature technical means in the prior art.

It is understood that the same or similar parts in the above embodiments may be mutually referred to, and the same or similar parts in other embodiments may be referred to for the content which is not described in detail in some embodiments.

It should be noted that, in the description of the present application, the terms "first", "second", and the like are used for descriptive purposes and distinction only and are not to be construed as indicating or implying relative importance. Further, in the description of the present application, the meaning of "a plurality" means at least two unless otherwise specified.

In the description herein, reference to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The utility model provides an intelligence flowerpot tray which characterized in that includes: the water storage device comprises a tray shell and a water storage device (1) arranged inside the tray shell, wherein the water storage device comprises a water storage tank (101) and a micro water pump (103); the water storage device is used for receiving water overflowing when watering the plants and supplying water to the plants;

the moving device (2) is arranged at the bottom of the tray shell and comprises a driving motor (201) and a roller; wherein the moving device is used for supporting the tray shell away from the ground and moving the plant;

the shielding net rack (4) is arranged outside the tray shell and fixed in the jack, and comprises two symmetrically arranged shielding net racks, wherein the shielding net racks are foldable and extensible; the shade net rack is used for shading the plants and providing illumination for the plants;

the electric control device (3) is arranged in the tray shell and is respectively and electrically connected with the water storage device (1), the moving device (2) and the shade net rack (4); the electric control device comprises a sensor (301) and is used for controlling the water storage device (1), the mobile device (2) and the shade net rack (4) according to soil microenvironment parameters monitored by the sensor.

2. The intelligent flowerpot tray according to claim 1, wherein the tray housing further comprises a centrally-disposed, circular water-leaking partition (102) for placing a flowerpot; the water leakage partition plate is provided with a plurality of through holes, and the through holes are used for leaking water overflowing from the flowerpot on the water leakage partition plate into the water storage tank.

3. The intelligent flowerpot tray according to claim 1, wherein a first partition (106) is arranged between the micro water pump and the water reservoir, and the micro water pump is fixed on the first partition; a water inlet pipe connector (107) is arranged on the first partition plate, and a water delivery pipe (104) outlet is arranged on the tray shell above the micro water pump;

the miniature water pump comprises a water inlet pipe and a water conveying pipe (104), wherein the water inlet pipe is connected into the reservoir from the water inlet pipe connector, and the water conveying pipe extends to the outer side from the water conveying pipe outlet.

4. The intelligent flowerpot tray of claim 3, wherein the water inlet tube comprises 12 x 16mm silicone tubing; the water conveying pipe comprises a 6 x 9mm silicone tube.

5. The intelligent pot tray of claim 1, wherein the rollers comprise a front wheel (203) and two symmetrically arranged rear wheels (202), and the rollers are placed in a triangular shape; the driving motors comprise two driving motors which are respectively electrically connected with the two rear wheels and used for driving the rear wheels to rotate; the front wheels include universal wheels.

6. The intelligent pot tray of claim 1, wherein the shade net rack comprises:

a rack plunger (402), a rotating member (403) connected to the rack plunger, the rotating member comprising a rotating shaft (431) and a sliding rail (432);

a first support bar (404) and a second support bar (406) connected to the rotating member (403), respectively; the first supporting rod is fixedly connected to the rotating part, and the second supporting rod is fixedly connected to the rotating shaft; a third support rod (407) is arranged between the first support rod and the second support rod and is connected to the slide rail of the rotating part in a sliding manner; one or more third supporting rods are arranged between the first supporting rod and the plurality of second supporting rods;

and a shade cloth layer (405) disposed on the first support bar, the second support bar, and the third support bar.

7. The intelligent pot tray of claim 6, wherein the shade net rack further comprises a micro-drive motor, the micro-drive motor being coaxially connected to the rotation shaft; the driving motor is used for driving the rotating shaft to rotate, so that the supporting rod is driven to rotate, and the shade cloth layer is stretched.

8. The intelligent flowerpot tray according to claim 1, wherein the tray housing comprises a second partition (309) inside, and a sensor external interface (302) is arranged outside the tray housing; the sensor (301) comprises a sensor probe (303), the sensor is arranged above the second partition plate, and the sensor probe (303) extends to the outer side along the sensor external interface (302).

9. The intelligent pot tray of claim 1, wherein the electrical control device further comprises:

a power supply (307) for supplying power to each power consuming module; a voice module (306) for receiving voice information and playing sound; a signal receiving module (305) for receiving a remote control signal; the display screen (304) is used for displaying the soil microenvironment parameters monitored by the sensor and the environmental parameters required by the normal growth of the plants;

and the main control board module (308) is used for receiving the parameters returned by the sensor and the signals returned by the signal receiving module, processing the data and outputting the processed data to the voice module, the mobile device, the shade net rack and the water storage device.

10. The intelligent pot tray of claim 9, wherein the main control board module (308) comprises a main control unit, a data processing unit and a data storage unit; the data storage unit is used for storing the voice control instruction and the growth environment parameters corresponding to the plants; the data processing unit is used for comparing parameters acquired by the sensor with parameters stored in the data storage unit and sending comparison results to the main control unit; the main control unit is used for sending control instructions to the micro water pump, the driving motor and the shade net rack according to a comparison result.

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