CN107494022B - Intelligent flowerpot - Google Patents

Abstract

The invention discloses an intelligent flowerpot which comprises a circular bearing base, wherein a circular bearing water box is fixedly connected to the upper surface of the base in a transverse mode, a moving mechanism is arranged on the lower surface of the circular bearing base, an extrusion water outlet mechanism is arranged in the circular bearing water box, a circular flowerpot is fixedly connected to the upper surface of the circular bearing water box, a detection mechanism is arranged on the inner side surface of the circular flowerpot, a plurality of first circular through holes are formed in the side surface of the lower end of the circular flowerpot, folded conveying pipes are embedded in the first circular through holes, fixing circular rings are sleeved on the folded conveying pipes, and two groups of elastic belts are sleeved on each fixing circular ring. The intelligent watering device has the advantages that the device is convenient to use, can conveniently adjust the watering height according to the height of plants, can conveniently adjust the water spraying condition and position according to different conditions, can conveniently detect the internal moisture and the indoor temperature, and simplifies the operation by feeding back the intelligent watering.

Description

Intelligent flowerpot

Technical Field

The invention relates to the field of flowerpots, in particular to an intelligent flowerpot.

Background

The flowerpot is used for bearing plants, ensures that the plants grow well and is convenient to move and place.

The traditional flowerpot has the advantages that the structure is simple, only the function of bearing plants is realized, but along with the continuous development of science and technology, tools at the side are intelligent, plants in the traditional flowerpot are watered manually, if large-area watering is carried out, the manual strength is high, the water quantity of each watering can not be controlled, the watering modes of different plants are different, some plants need to be watered at the central part, some roots need to be watered, the manual watering is complicated, the humidity and the temperature in the flowerpot can not be known in the traditional method, the condition inside the plant can not be known accurately, the condition inside the plant can not be observed well, the plants are grown continuously, if a fixed watering pipe is used, the watering is inconvenient, and the traditional watering is carried out by manually watering a kettle or a water pipe, the water kettle has certain weight, physical strength is consumed when the water kettle is moved, and the watering pipe is easily limited by the length, so that the intelligent flowerpot is necessary to solve the problems, simplify the operation of people and meet the requirements of people.

Disclosure of Invention

The invention aims to solve the problems and designs an intelligent flowerpot.

The intelligent flowerpot comprises a circular bearing base, wherein a circular bearing water box is fixedly connected to the upper surface of the circular bearing base, a moving mechanism is arranged on the lower surface of the circular bearing base, an extrusion water outlet mechanism is arranged in the circular bearing water box, a circular flowerpot is fixedly connected to the upper surface of the circular bearing water box, a detection mechanism is arranged on the inner side surface of the circular flowerpot, a plurality of first circular through holes are formed in the side surface of the lower end of the circular flowerpot, folded conveying pipes are embedded in the first circular through holes, a fixing circular ring is sleeved on each folded conveying pipe, two groups of elastic belts are sleeved on each fixing circular ring, bearing trays matched with the corresponding folded conveying pipes are fixedly connected to the lower end surfaces of the two groups of elastic belts, and the detection mechanism is composed of a plurality of vertical supporting plates fixedly connected to the inner side surface of the circular flowerpot, An N-shaped supporting clamp fixedly connected to the upper end face of the circular flowerpot and connected with the upper end face of each vertical supporting plate, a group of strip-shaped bulges fixedly connected to the inner side surface of each N-shaped supporting clamp and opposite to each other, strip-shaped grooves processed on the side surface of each vertical supporting plate and the side surface of the circular flowerpot and corresponding to the corresponding strip-shaped bulges, a group of vertical sliding grooves processed on the two opposite side surfaces of each vertical supporting plate, a group of sliding frames arranged on each vertical supporting plate and matched with the corresponding group of vertical sliding grooves, a plant water sensor embedded on the side surface of one sliding frame on each vertical supporting plate, a bearing groove processed on the side surface of the other sliding frame on each vertical supporting plate, a group of horizontal stretching rods embedded on the inner side surface of each bearing groove, a limiting frame fixedly connected to one end face of each group of horizontal stretching rods and, The rubber suction block sleeved on the lower surface of each vertical supporting plate and connected with the inner lower surface of the circular flowerpot is formed jointly, the extrusion water outlet mechanism is composed of a group of electric control push rods arranged on the lower surface of the circular bearing water box, a sealing push plug sleeved on the group of electric control push rods and matched with the circular bearing water box, a group of second round through holes which are processed at the upper end of the circular bearing water box and are opposite in position, an N-shaped stretching hollow round pipe embedded in the group of second round through holes, a first strip-shaped opening processed at the lower surface of the N-shaped stretching hollow round pipe, a group of sealing moving blocks arranged in the N-shaped stretching hollow round pipe and extending out through the first strip-shaped opening, a bearing through hole processed at the center of the side surface of each sealing moving block, a stretching hose arranged in each bearing through hole and positioned in the N-shaped stretching hollow round pipe and connected with the corresponding, The atomizing adjusting spray head is sleeved on the lower end face of each stretching hose and positioned below the N-shaped stretching hollow circular tube, and the first electromagnetic valve is arranged on each stretching hose.

The moving mechanism is composed of a plurality of L-shaped through holes processed at the edge of the lower surface of the circular bearing base, a notch frame sleeved in each L-shaped through hole, elastic buckles fixedly connected to two end faces of each notch frame and connected with each other, a bearing frame sleeved on each notch frame and a rotating universal wheel embedded on the lower surface of each bearing frame.

The number of the first round through holes is 4-6, and the first round through holes are positioned on the same circumference at equal angles.

The number of the plurality of vertical support plates is 3-5, and the distance between every two adjacent groups of the vertical support plates is the same.

And a commercial power interface is embedded in the free position of the side surface of the circular bearing base.

The longitudinal section of each sliding frame is N-shaped.

The cross section of the rubber suction block is rectangular.

The side surface of the upper end of the round bearing water box is embedded with a water inlet hopper, and the water inlet hopper is sleeved with a sealing cover.

And a horizontal rotating circular shaft is arranged at the corner of each N-shaped supporting clamp.

Circular flowerpot upper end edge just is located equal hinged joint swing handle between adjacent a set of N shape support clamp.

The intelligent flowerpot manufactured by the technical scheme of the invention is a device which is convenient to use, is convenient to adjust the irrigation height according to the height of plants, is convenient to adjust the condition and the position of water spraying according to different conditions, is convenient to detect the internal moisture and the indoor temperature, and simplifies the operation by feeding back intelligent irrigation.

Drawings

FIG. 1 is a schematic structural diagram of an intelligent flowerpot provided by the invention;

FIG. 2 is a top view of an intelligent planter according to the present invention;

FIG. 3 is a partial side sectional view of a middle detection mechanism of the intelligent flowerpot according to the present invention;

FIG. 4 is a front sectional view of a middle squeezing water outlet mechanism of the intelligent flowerpot;

FIG. 5 is a partial bottom view of the intelligent flowerpot provided by the invention, wherein the fixing ring is matched with the elastic belt;

FIG. 6 is a partial front sectional view of a moving mechanism in the intelligent flowerpot according to the invention;

FIG. 7 is a partial enlarged view of the intelligent flowerpot provided by the invention, wherein the circular flowerpot, the N-shaped supporting clamp and the strip-shaped protrusions are matched;

FIG. 8 is a partially enlarged view of the combination of the zigzag conveying pipe, the fixing ring, the elastic band and the bearing tray in the intelligent flowerpot according to the invention;

in the figure, 1, a circular bearing base; 2. a circular water-bearing box; 3. a circular flowerpot; 4. a zigzag transfer tube; 5. fixing the circular ring; 6. an elastic band; 7. a carrying tray; 8. a vertical support plate; 9. an N-shaped support clip; 10. a strip-shaped bulge; 11. a carriage; 12. a plant moisture sensor; 13. a horizontal stretching rod; 14. a restraint frame; 15. an electrically controlled push rod; 16. sealing the push plug; 17. stretching the hollow round pipe in an N shape; 18. sealing the moving block; 19. stretching the hose; 20. an atomization adjusting spray head; 21. a first electromagnetic valve; 22. a notch frame; 23. elastic buckle; 24. a load-bearing frame; 25. rotating the universal wheel; 26. a mains supply interface; 27. a rubber suction block; 28. a water inlet hopper; 29. a sealing cover; 30. horizontally rotating the circular shaft; 31. the handle is swung.

Detailed Description

The invention is described in detail with reference to the accompanying drawings, and as shown in fig. 1-8, an intelligent flowerpot comprises a circular bearing base 1, wherein a circular bearing water box 2 is fixedly connected to the upper surface of the circular bearing base 1, a moving mechanism is arranged on the lower surface of the circular bearing base 1, an extruding water outlet mechanism is arranged in the circular bearing water box 2, a circular flowerpot 3 is fixedly connected to the upper surface of the circular bearing water box 2, a detection mechanism is arranged on the inner side surface of the circular flowerpot 3, a plurality of first circular through holes are formed in the side surface of the lower end of the circular flowerpot 3, folded conveying pipes 4 are embedded in each circular through hole, a fixed ring 5 is sleeved on each folded conveying pipe 4, two groups of elastic belts 6 are sleeved on each fixed ring 5, a bearing tray 7 matched with the corresponding folded conveying pipe 4 is fixedly connected to the lower end surfaces of each two groups of elastic belts 6, the detection mechanism consists of a plurality of vertical supporting plates 8 fixedly connected on the inner side surface of the circular flowerpot 3, an N-shaped supporting clamp 9 fixedly connected on the upper end surface of the circular flowerpot 3 and connected with the upper end surface of each vertical supporting plate 8, a group of strip-shaped bulges 10 fixedly connected on the inner side surface of each N-shaped supporting clamp 9 and opposite in position, strip-shaped grooves which are processed on the side surface of each vertical supporting plate 8 and the side surface of the circular flowerpot 3 and correspond to the corresponding strip-shaped bulges 10, a group of vertical sliding grooves which are processed on the two opposite side surfaces of each vertical supporting plate 8, a group of sliding frames 11 which are arranged on each vertical supporting plate 8 and are matched with the corresponding group of vertical sliding grooves, a plant water content sensor 12 embedded on the side surface of one sliding frame 11 on each vertical supporting plate 8, a bearing groove which is processed on the side surface of, A group of horizontal stretching rods 13 embedded on the inner side surface of each bearing groove, a limiting frame 14 fixedly connected on one end surface of each group of horizontal stretching rods 13 and matched with the bearing groove, a rubber suction block 27 sleeved on the lower surface of each vertical supporting plate 8 and connected with the inner lower surface of the circular flowerpot 3, wherein the extrusion water outlet mechanism comprises a group of electric control push rods 15 arranged on the inner lower surface of the circular bearing water box 2, a sealing push plug 16 sleeved on the group of electric control push rods 15 and matched with the circular bearing water box 2, a group of second circular through holes processed at the upper end of the circular bearing water box 2 and opposite in position, an N-shaped stretching hollow circular pipe 17 embedded in the group of second circular through holes, a first strip-shaped opening processed at the lower surface of the N-shaped stretching hollow circular pipe 17, a group of sealing moving blocks 18 arranged in the N-shaped stretching hollow circular pipe 17 and extending out through the first strip-shaped opening, a second, The device comprises a bearing through hole processed in the center of the side surface of each sealing moving block 18, a stretching hose 19 arranged in each bearing through hole and positioned in an N-shaped stretching hollow circular tube 17 and connected with a corresponding second circular through hole, an atomization adjusting nozzle 20 sleeved on the lower end surface of each stretching hose 19 and positioned below the N-shaped stretching hollow circular tube 17, and a first electromagnetic valve 21 arranged on each stretching hose 19; the moving mechanism is composed of a plurality of L-shaped through holes processed at the edge of the lower surface of the circular bearing base 1, atomizing adjusting nozzles 22 sleeved in each L-shaped through hole, elastic buckles 23 fixedly connected to the two end surfaces of each atomizing adjusting nozzle 22 and mutually connected, a bearing frame 24 sleeved on each atomizing adjusting nozzle 22 and a rotating universal wheel 25 embedded on the lower surface of each bearing frame 24; the number of the first round through holes is 4-6, and the first round through holes are positioned on the same circumference at equal angles; the number of the plurality of vertical support plates 8 is 3-5, and the distance between every two adjacent groups of the vertical support plates 8 is the same; the spare part of the side surface of the circular bearing base 1 is embedded with a mains supply interface 26; the longitudinal section of each sliding frame 11 is N-shaped; the cross section of the rubber suction block 27 is rectangular; a water inlet hopper 28 is embedded on the side surface of the upper end of the circular water bearing box 2, and a sealing cover 29 is sleeved on the water inlet hopper 28; a horizontal rotating round shaft 30 is arranged at the corner of each N-shaped supporting clamp 9; the edge of the upper end of the circular flowerpot 3 is positioned between the adjacent N-shaped supporting clamps 9 and is hinged with the swinging handle 31.

The characteristic of this embodiment is, take off the sealed cover 29 on the water inlet bucket 28 of the side surface of upper end of the round bearing water box 2 at first, fill the round bearing water box 2 with water, carry on the effective detection to the moisture in the internal soil through the plant moisture sensor 12 on the side surface of some slide rack 11, detect the internal moisture if a small amount, through feeding back to the control, through the control, make a pack of electronic control catch bars 15 located in the round bearing water box 2 internal lower surface go up, drive the sealed push plug 16 located in the round bearing water box 2 to carry on the effective extrusion to the internal moisture, discharge the internal moisture through the stretching hose 19 located in the hollow pipe 17 of N-shaped stretching, wherein the atomization regulating shower nozzle 20 located on the lower end surface of each stretching hose 19 is convenient for carrying on the effective regulation to the condition of spraying water, wherein each stretching hose 19 moves and regulates in the hollow pipe 17 of N-shaped stretching through the sealed movable block 18, some plants need to be watered at the roots, some plants need to be watered at the central part, wherein the position of each movable block 18 is placed differently through the prior manual adjustment, the position is controlled through a solenoid valve 21 positioned on each stretching hose 19, the stretching hose 19 discharges water, the stretching hose 19 does not discharge water, effective watering is carried out at different places, the watering quantity is also controlled in advance, wherein the sliding frame 11 corresponding to each plant level sensor 12 can move in the vertical sliding grooves on the two opposite side surfaces of the vertical supporting plate 8 corresponding to and positioned in the circular flowerpot 3, water at different positions and heights can be detected, indoor temperature sensors can be placed in the bearing grooves positioned on the rest sliding frames 11, and the effective detection of the temperature in a lower chamber is facilitated, and feedback in time, because a plurality of bearing grooves are provided, different positions can be selected for placing and detecting, and each bearing groove is positioned above the corresponding plant moisture sensor 12, wherein a group of horizontal stretching rods 13 positioned in each bearing groove and a limiting frame 14 at one end of each group of horizontal stretching rods 13 are used for effectively clamping the corresponding indoor temperature sensor, the lower end surface of each vertical support plate 8 is connected with the inner lower surface of the circular flowerpot 3 through a rubber suction block 27 for fixing the circular flowerpot, the upper end surface of each vertical support plate 8 is fixed with the circular flowerpot 3 through an N-shaped support clamp 9 spanning the circular flowerpot 3, a group of strip-shaped protrusions 10 positioned on the inner side surface of each N-shaped support frame 9 are used for fixing the strip-shaped grooves on the circular flowerpot 3 and the vertical support plates 8, wherein, a group of horizontal rotating round shafts 30 positioned at the corners of each N-shaped supporting clamp 9 is convenient for swinging and taking down the inner N-shaped supporting clamp 9, wherein, a plurality of fold-shaped conveying pipes 4 positioned on the side surface of the lower end of the circular flowerpot 3 are convenient for extending redundant water or the root of the plant, and a bearing tray 7 positioned at the lower end of each fold-shaped conveying pipe 4 is convenient for effectively bearing the corresponding fold-shaped conveying pipe 4, wherein, each bearing tray 7 is connected and fixed with a fixed ring 5 positioned on the fold-shaped conveying pipe 4 through two groups of elastic belts 6, thereby being convenient for adapting to rhizomes with different lengths, wherein, the circular bearing water box 2 is fixedly connected on the upper surface of the circular bearing base 1, the use is more convenient, the watering height can be conveniently adjusted according to the height of the plant, the condition and the position of water spraying can be conveniently adjusted according to different conditions, the device is convenient for detecting the moisture inside and the indoor temperature, and simplifies the operation by feeding back the intelligent irrigation.

In this embodiment, firstly, a programmable series controller and a motor driver and a control switch are installed at the idle position of the device, taking a controller of the MAM-200 model as an example, four output terminals of the controller of the model are respectively connected with an input end of the motor driver, the plant moisture sensor 12, the electromagnetic valve 21 and the control switch through leads, a person in the art drives the motor driver and the electrically controlled push rod 15 by leads, connects an output end of the commercial power interface 26 with an electric connection end of the controller by leads, and simultaneously connects several relays with electromagnetic valves of several cylinders. After the controller is programmed, the person skilled in the art can completely control the working sequence of each electric device, and the specific working principle is as follows: firstly, taking down a sealing cover 29 on a water inlet hopper 28 positioned on the side surface of the upper end of a circular water bearing box 2, filling the circular water bearing box 2 with water, effectively detecting the water in the internal soil through a plant water sensor 12 positioned on a part of the side surface of a sliding frame 11, detecting if the internal water is small, controlling through feedback to ensure that a group of electric control push rods 15 positioned on the inner lower surface of the circular water bearing box 2 ascend to drive a sealing push plug 16 positioned in the circular water bearing box 2 to effectively extrude the internal water, discharging the internal water through a stretching hose 19 positioned in an N-shaped stretching hollow circular tube 17, wherein an atomization adjusting nozzle 20 positioned on the lower end surface of each stretching hose 19 is convenient for effectively adjusting the condition of water spraying, wherein each stretching hose 19 moves and adjusts in the N-shaped stretching hollow circular tube 17 through a sealing moving block 18, some plants need to be watered at the roots, some plants need to be watered at the central part, wherein the position of each movable block 18 is placed differently through the prior manual adjustment, the position is controlled through a solenoid valve 21 positioned on each stretching hose 19, the stretching hose 19 discharges water, the stretching hose 19 does not discharge water, effective watering is carried out at different places, the watering quantity is also controlled in advance, wherein the sliding frame 11 corresponding to each plant level sensor 12 can move in the vertical sliding grooves on the two opposite side surfaces of the vertical supporting plate 8 corresponding to and positioned in the circular flowerpot 3, water at different positions and heights can be detected, indoor temperature sensors can be placed in the bearing grooves positioned on the rest sliding frames 11, and the effective detection of the temperature in a lower chamber is facilitated, and feedback in time, because a plurality of bearing grooves are provided, different positions can be selected for placing and detecting, and each bearing groove is positioned above the corresponding plant moisture sensor 12, wherein a group of horizontal stretching rods 13 positioned in each bearing groove and a limiting frame 14 at one end of each group of horizontal stretching rods 13 are used for effectively clamping the corresponding indoor temperature sensor, the lower end surface of each vertical support plate 8 is connected with the inner lower surface of the circular flowerpot 3 through a rubber suction block 27 for fixing the circular flowerpot, the upper end surface of each vertical support plate 8 is fixed with the circular flowerpot 3 through an N-shaped support clamp 9 spanning the circular flowerpot 3, a group of strip-shaped protrusions 10 positioned on the inner side surface of each N-shaped support frame 9 are used for fixing the strip-shaped grooves on the circular flowerpot 3 and the vertical support plates 8, wherein a group of horizontal rotating round shafts 30 positioned at the corner of each N-shaped supporting clamp 9 is convenient for swinging and taking down the inner N-shaped supporting clamp 9, wherein a plurality of fold-shaped conveying pipes 4 positioned on the side surface of the lower end of the circular flowerpot 3 are convenient for extending excessive water or the root of a plant, wherein a bearing tray 7 positioned at the lower end of each fold-shaped conveying pipe 4 is convenient for effectively bearing the corresponding fold-shaped conveying pipe 4, each bearing tray 7 is connected and fixed with a fixed round ring 5 positioned on the fold-shaped conveying pipe 4 through two groups of elastic belts 6 so as to adapt to rhizomes with different lengths, wherein a circular bearing water box 2 is fixedly connected on the upper surface of the circular bearing base 1, when the device moves, rotating universal wheels 25 positioned below the circular bearing base 1 move, wherein each rotating universal wheel 25 is connected with a gap frame 22 sleeved in the circular bearing base 1 through a bearing frame 24, the notches of each notch frame 22 are connected through a set of elastic buckles 23 to be fixed, wherein the mains supply interface 26 on the side surface of the circular bearing base 1 is convenient for connecting the device and supplying power to the electric elements in the device, the swing handle 31 on the side surface of the circular flowerpot 3 is convenient for moving the device, and the N-shaped stretching hollow circular tube 17 can be stretched to a height according to the growth condition of plants.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims (6)

1. An intelligent flowerpot comprises a circular bearing base (1) and is characterized in that the upper surface of the circular bearing base (1) is fixedly connected with a circular bearing water box (2), the lower surface of the circular bearing base (1) is provided with a moving mechanism, an extruding water outlet mechanism is arranged in the circular bearing water box (2), the upper surface of the circular bearing water box (2) is fixedly connected with a circular flowerpot (3), the inner side surface of the circular flowerpot (3) is provided with a detection mechanism, a plurality of first circular through holes are processed on the side surface of the lower end of the circular flowerpot (3), folded conveying pipes (4) are embedded in the first circular through holes, a fixed circular ring (5) is sleeved on each folded conveying pipe (4), two groups of elastic belts (6) are sleeved on each fixed circular ring (5), the lower end surfaces of each two groups of elastic belts (6) are fixedly connected with bearing trays (7) matched with the corresponding folded conveying pipes (4), the detection mechanism comprises a plurality of vertical supporting plates (8) fixedly connected to the inner side surface of the circular flowerpot (3), N-shaped supporting clamps (9) fixedly connected to the upper end surface of the circular flowerpot (3) and connected with the upper end surface of each vertical supporting plate (8), a group of strip-shaped protrusions (10) fixedly connected to the inner side surface of each N-shaped supporting clamp (9) and opposite in position, strip-shaped grooves machined on the side surface of each vertical supporting plate (8) and the side surface of the circular flowerpot (3) and corresponding to the corresponding strip-shaped protrusions (10), a group of vertical sliding grooves machined on the two opposite side surfaces of each vertical supporting plate (8), a group of sliding frames (11) arranged on each vertical supporting plate (8) and matched with the corresponding group of vertical sliding grooves, a plant moisture sensor (12) embedded on the side surface of one sliding frame (11) on each vertical supporting plate (8), A bearing groove processed on the side surface of the other sliding frame (11) on each vertical supporting plate (8), a group of horizontal stretching rods (13) embedded on the inner side surface of each bearing groove, a limiting frame (14) fixedly connected on one end surface of each group of horizontal stretching rods (13) and matched with the bearing groove, and a rubber suction block (27) sleeved on the lower surface of each vertical supporting plate (8) and connected with the inner lower surface of the circular flowerpot (3), wherein the squeezing water outlet mechanism comprises a group of electric control push rods (15) arranged on the inner lower surface of the circular bearing water box (2), a sealing push plug (16) sleeved on the group of electric control push rods (15) and matched with the circular bearing water box (2), a group of circular through holes processed at the upper end of the circular bearing water box (2) and in opposite positions, and an N-shaped stretching hollow circular pipe (17) embedded in the group of circular through holes, The device comprises a first strip-shaped opening processed on the lower surface of an N-shaped hollow stretching circular tube (17), a group of sealing moving blocks (18) arranged in the N-shaped hollow stretching circular tube (17) and extending out through the first strip-shaped opening, bearing through holes processed at the center of the side surface of each sealing moving block (18), stretching hoses (19) arranged in each bearing through hole and positioned in the N-shaped hollow stretching circular tube (17) and connected with corresponding second round through holes, atomizing adjusting spray heads (20) sleeved on the lower end surface of each stretching hose (19) and positioned below the N-shaped hollow stretching circular tube (17), and a first electromagnetic valve (21) arranged on each stretching hose (19), wherein the moving mechanism is formed by a plurality of L-shaped through holes processed at the edge of the lower surface of a round bearing base (1), a notch frame (22) sleeved in each L-shaped through hole, Fixed connection just on every breach frame (22) both ends face interconnect's elasticity buckle (23), suit bear frame (24) on every breach frame (22), inlay the rotation universal wheel (25) of adorning at every bear frame (24) lower surface and constitute jointly, inlay on the circular upper end side surface of bearing water box (2) and adorn into water fill (28), the sealed lid of suit (29), every are gone up in water fill (28) the corner of N shape supporting clip (9) all establishes level and rotates round axle (30), circular flowerpot (3) upper end edge just is located equal hinged joint swing handle (31) between adjacent a set of N shape supporting clip (9).

2. The intelligent flowerpot according to claim 1, wherein the number of the first circular through holes is 4-6, and the first circular through holes are positioned on the same circumference at equal angles.

3. An intelligent pot according to claim 1, wherein the number of the plurality of vertical support plates (8) is 3-5, and the distance between each adjacent group of vertical support plates (8) is the same.

4. An intelligent flowerpot according to claim 1, wherein a commercial power interface (26) is embedded in a vacant position on the side surface of the circular bearing base (1).

5. An intelligent pot according to claim 1, wherein each sliding frame (11) is N-shaped in longitudinal section.

6. An intelligent flowerpot according to claim 1, wherein the cross section of the rubber suction block (27) is rectangular.

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