CN215774473U - Intelligent flowerpot - Google Patents

Abstract

The utility model relates to an intelligent flowerpot, which comprises a flowerpot body, a flowerpot body and a flowerpot body, wherein the flowerpot body is provided with a planting space; the watering trolley is hollow and provided with an opening at the top, the watering trolley is arranged at the top of the pot body and is suitable for moving around the planting space, and a liquid outlet facing the planting space is formed in the watering trolley; at least one liquid storage tank arranged at the bottom of the pot body; the watering water mechanism is suitable for communicating the liquid storage tank with the watering trolley, conveying water in the watering trolley into the liquid storage tank and conveying water in the liquid storage tank into the watering trolley.

Description

Intelligent flowerpot

Technical Field

The utility model relates to the technical field of flowerpots, in particular to an intelligent flowerpot.

Background

The flowerpot is a vessel used for planting flowers and is widely applied to places such as landscaping, landscape greening, community greening and the like, the existing flowerpot mainly waters plants in the flowerpot manually, the watering amount is not well controlled, manual watering is needed periodically, the watering amount and time are manually controlled, the watering is not timely, or the watering amount is too large, the survival rate of the plants is low, and meanwhile, the labor cost is increased.

In order to water the flowerpot more conveniently usually people all can set up water supply system on the flowerpot to form intelligent flowerpot and breed, can fix the water supply system of flowerpot on the flowerpot usually, when water resource is added to water supply system to needs, still need dismantle water supply system from the flowerpot, add water, install water supply system on the flowerpot after adding water, so operate very loaded down with trivial details.

How to ensure that the automatic watering is realized and the water adding in the water supply system is more convenient, a technical scheme which is not disclosed at present is not provided.

SUMMERY OF THE UTILITY MODEL

Therefore, the intelligent flowerpot aims to solve the technical problem that automatic watering cannot be achieved, and water can be added into a water supply system more conveniently, so that the intelligent flowerpot is provided.

An intelligent flowerpot, comprising:

a pot body having a planting space;

the watering trolley is hollow and provided with an opening at the top, the watering trolley is arranged at the top of the pot body and is suitable for moving around the planting space, and a liquid outlet facing the planting space is formed in the watering trolley;

at least one liquid storage tank arranged at the bottom of the pot body;

and the underwater watering mechanism is suitable for communicating the liquid storage tank with the watering trolley.

Further, still include the casing, the basin body, the dolly and the liquid reserve tank of watering all are located the casing, the top of casing is provided with the opening with the dolly intercommunication of watering, the opening part slides and is provided with the cap, the top of the dolly of watering slides and is provided with the bonnet, the bonnet covers the opening of the dolly of watering, be provided with the linkage between bonnet and the cap, the linkage is suitable for promoting the bonnet to slide on the opening of the dolly of watering and breaks away from the bonnet from the opening and promote the cap to slide on the opening of casing and break away from the cap from the opening.

Further, the linkage is including the installation piece that slides the opening part that sets up at the interior top of casing, the cap rotates to be connected at the installation piece, the cap rotates towards installation piece one side and is connected with a plurality of dwangs, the dwang rotates to be connected on the installation piece to cap one end dorsad, the top is located the opening part and is provided with first linkage piece in the cap, be provided with the second linkage piece on the bonnet, when the dolly motion of watering, the lateral wall and the installation piece of the dolly of watering are contradicted and are promoted the installation piece and slide on the roof in the casing, first linkage piece and second linkage piece are contradicted and are promoted second linkage piece and bonnet and slide on the dolly of watering.

Furthermore, the periphery of the pot body is provided with an annular rail, the watering trolley is arranged on the rail in a sliding mode, and the cross section of the rail is U-shaped.

Further, the method also comprises the following steps:

the number of the tracks is at least two, the tracks surround the planting space and are distributed at intervals along the axial direction of the pot body; the rails are provided with adapter ports;

the adapter channel is suitable for switching between any two adapter ports; the switching channel and any one of the tracks are suitable for enclosing to form a closed ring for the watering trolley to move continuously.

Further, the water feeding and discharging mechanism comprises an upper pipeline arranged on the watering trolley and a lower pipeline arranged in the liquid storage tank in a sliding manner, a lower inner pipe is coaxially erected in the lower pipeline, when the lower pipeline moves upwards, the bottom of the upper pipeline is sleeved on the lower pipeline and slides in the lower pipeline, one end of the lower inner pipe is arranged in the upper pipeline in a penetrating manner and is attached to the inner side wall of the bottom opening of the upper pipeline, the upper pipeline is communicated with the watering trolley, the top of the upper pipeline is provided with a leakage groove, the bottom of the leakage groove is communicated with the inside of the upper pipeline, a valve body is arranged in the leakage groove in a telescopic manner, when the valve body is positioned in the leakage groove, the valve body is attached to the inner wall of the leakage groove, the lower inner pipe drives the valve body to slide in the leakage groove, the outer side wall of the lower inner pipe is provided with a flow groove, when the flow groove of the lower inner pipe moves into the bottom opening of the upper pipeline, and a lower water return channel is formed between the flow groove and the inner side wall of the upper pipeline and the inner wall of the lower pipeline.

Furthermore, a piston for water passing is arranged in the upper pipeline in a sliding mode, a connecting rod is arranged between the valve body and the piston, the connecting rod is arranged in a communicating port of the leakage groove and the upper pipeline in a sliding mode, when the piston is located at the bottom of the lower pipeline, the piston is abutted against the inner side wall of the bottom of the upper pipeline, and the top of the lower inner pipe is abutted against the piston; the cover is equipped with the spring that contracts on the connecting rod, it contradicts with the piston to contract spring one end, and the other end is contradicted with the bottom of small opening groove body.

Furthermore, a cover plate sliding block is arranged on one side, facing the watering trolley, of the trolley cover, the cover plate sliding block is arranged along the sliding direction of the trolley cover, a sliding groove matched with the cover plate sliding block is formed in the top of the watering trolley, and the cross section of the cover plate sliding block is trapezoidal.

Further, the liquid reserve tank is provided with two, one of them set up the water source in the liquid reserve tank, set up nutrient substance in another liquid reserve tank, two all slide in the liquid reserve tank and be provided with the lower pipeline, be provided with the driving piece that is used for driving two lower pipelines to go up and down in the casing.

The technical scheme of the utility model has the following advantages:

1. the utility model provides an intelligent flowerpot, which comprises: a pot body having a planting space; the watering trolley is hollow and provided with an opening at the top, the watering trolley is arranged at the top of the pot body and is suitable for moving around the planting space, and a liquid outlet facing the planting space is formed in the watering trolley; at least one liquid storage tank arranged at the bottom of the pot body; the water feeding and discharging mechanism is suitable for communicating the liquid storage tank with the watering trolley, when the flowerpot is used, plants are planted in the pot body, at the moment, water in the liquid storage tank is conveyed into the watering trolley under the action of the water feeding and discharging mechanism, the watering trolley sprays the water in the watering trolley into a planting space in the pot body under the action of the liquid outlet, so that the plants in the pot body are watered, the requirement of the plants on water is met, meanwhile, after the water in the liquid storage tank is used up, the liquid storage tank is not required to be detached from the flowerpot for water filling, the water directly extends into the watering trolley through an external water pipe, so that the water is conveyed into the watering trolley, the water in the watering trolley is conveyed into the liquid storage tank through the water discharged from the water feeding and discharging mechanism, so that the liquid storage tank is filled with water again, and in the whole process, can realize automatic watering to the plant, can need not to dismantle the liquid reserve tank again, just can add water toward the liquid reserve tank in, use convenience more, reduced the human cost, it is more intelligent convenient to breed the plant.

2. The utility model provides an intelligent flowerpot, which also comprises a shell, wherein the pot body, a watering trolley and a liquid storage tank are all positioned in the shell, an opening communicated with the watering trolley is arranged at the top of the shell, a shell cover is arranged at the opening in a sliding manner, a cover is arranged at the top of the watering trolley in a sliding manner, the opening of the watering trolley is covered by the cover, a linkage piece is arranged between the cover and the shell cover and is suitable for pushing the cover to slide on the opening of the watering trolley to separate the cover from the opening and pushing the shell cover to slide on the opening of the shell to separate the shell cover from the opening, when water is not required to be added into the liquid storage tank, the opening on the shell is covered by the shell cover, the opening on the watering trolley is covered by the cover, when the use time is long, the cover slides on the watering trolley through the linkage piece to open the opening, the cap slides on the casing to open the opening on the casing, thereby make things convenient for the breed personnel to stretch into the dolly that waters with the water pipe of outside through the opening on the casing and the opening on the dolly that waters in, toward watering the interior water-flowing of dolly, water in the dolly that waters flows into the liquid reserve tank through the mechanism of going up water under water, thereby is full of the water in the liquid reserve tank.

3. The utility model provides an intelligent flowerpot, wherein a linkage piece comprises an installation block which is arranged at an opening at the inner top of a shell in a sliding manner, a shell cover is rotatably connected to the installation block, the shell cover is rotatably connected with a plurality of rotating rods towards one side of the installation block, one end of each rotating rod, which faces away from the shell cover, is rotatably connected to the installation block, a first linkage block is arranged at the opening at the inner top of the shell cover, a second linkage block is arranged on a vehicle cover, when a watering trolley moves, the side wall of the watering trolley is abutted against the installation block and pushes the installation block to slide on the top wall in the shell, the first linkage block and the second linkage block are abutted against each other and push the second linkage block and the vehicle cover to slide on the watering trolley, when water in a liquid storage tank needs to be supplemented, the watering trolley slides along the periphery of a pot body until the second linkage block on the vehicle cover is contacted with the first linkage block, the watering trolley is continuously pushed to move again, so that under the action of the first linkage block, the second linkage block and the cover on the second linkage block are pushed to slide on the watering trolley, the cover is opened on the watering trolley, the opening of the watering trolley is exposed, meanwhile, in the moving process of the watering trolley, the side wall of the watering trolley is in conflict with the side wall of the mounting block, the mounting block is pushed to slide on the top wall of the shell in the continuous advancing process of the watering trolley, the rotating rod on the mounting block moves forwards along with the mounting block due to the movement of the mounting block, at the moment, the shell cover is positioned in the opening of the shell and cannot move forwards directly, the rotating rod moves along with the mounting block, so that the rotating rod rotates, the rotating rod inclines towards the horizontal direction, the distance between the mounting block and the shell cover is reduced, namely, the shell cover moves downwards firstly, when the cover moves downwards from the opening, the side wall of the opening of the shell cannot influence the cover at the moment, so that the watering trolley is continuously moved, the watering trolley can drive the mounting block and the cover on the mounting block to move together, the cover is separated from the opening of the shell to open the cover, an external water pipe extends into the watering trolley along the opening on the shell at the moment, water is added into the watering trolley, the water in the watering trolley is conveyed into the liquid storage tank under the action of the water feeding and discharging mechanism, when the cover and the cover are required to move to the original position, the watering trolley moves reversely at the moment, so that the cover is abutted against the mounting block, the cover is pushed to move on the watering trolley, the opening of the watering trolley is covered by the cover, and after the cover returns to the original position, the mounting block is abutted against the side wall of the watering trolley at the moment, thereby the dolly that waters promotes the opening part removal of installation piece toward the casing until cap and first linkage piece conflict, and the dolly that waters this moment continues to promote the installation piece forward, and the installation piece removes to drive the dwang and rotate on the installation piece, thereby make the dwang incline toward vertical direction, thereby make the cap rebound, lie in the opening of casing once more with the cap, close the opening of casing.

4. According to the intelligent flowerpot provided by the utility model, the annular rail is arranged on the periphery of the pot body, the watering trolley is arranged on the rail in a sliding manner, the cross section of the rail is U-shaped, the watering trolley can conveniently slide on the periphery of the pot body along the circumferential direction through the arrangement of the rail, meanwhile, the U-shaped rail is arranged, so that the intelligent flowerpot has a good protection function, the phenomenon of derailment or deviation is easy to occur when the watering trolley does circular motion on the rail at a high speed, and the stability of the watering trolley during operation is effectively protected by using the U-shaped rail.

5. The utility model provides an intelligent flowerpot, which further comprises: the number of the tracks is at least two, the tracks surround the planting space and are distributed at intervals along the axial direction of the pot body; the rails are provided with adapter ports; the adapter channel is suitable for switching between any two adapter ports; the switching channel and any one of the tracks are suitable for enclosing a closed ring for the watering trolley to move continuously, when the watering trolley moves on the tracks and moves onto the switching channel on the switching port, the switching channel drives the watering trolley to lift, when the watering trolley slides in one of the tracks on the switching channel, the switching channel is mainly used for opening a cover on the watering trolley and a cover at an opening of a shell, because the first linkage block and the second linkage block are in collision in the process of opening the cover, when the trolley continuously moves forwards again to water the periphery of a plant, the cover can be separated from the shell, so that after the cover is opened, the watering trolley moves to the switching channel, the switching channel is switched between any two switching ports to drive the watering trolley to move downwards, and the watering trolley moves into the other track, the watering trolley can slide in the other track, and a distance is reserved between the watering trolley and the mounting block, so that the watering trolley can do circular motion on the track, and water conveyed from the liquid storage box through the water feeding and discharging mechanism is uniformly scattered on the periphery of a plant.

6. The utility model provides an intelligent flowerpot, wherein an upper and lower water mechanism comprises an upper pipeline arranged on a watering trolley and a lower pipeline arranged in a liquid storage box in a sliding manner, a lower inner pipe is coaxially arranged in the lower pipeline, when the lower pipeline moves upwards, the bottom of the upper pipeline is sleeved on the lower pipeline and slides in the lower pipeline, one end of the lower inner pipe is arranged in the upper pipeline in a penetrating manner and is jointed with the inner side wall of an opening at the bottom of the upper pipeline, the upper pipeline is communicated with the watering trolley, the top of the upper pipeline is provided with a leakage groove, the bottom of the leakage groove is communicated with the inside of the upper pipeline, a valve body is arranged in the leakage groove in a telescopic manner, when the valve body is positioned in the leakage groove, the valve body is jointed with the inner wall of the leakage groove, the lower inner pipe drives the valve body to slide in the leakage groove, the outer side wall of the lower inner pipe is provided with a flow groove, when the flow groove of the lower inner pipe moves into the opening at the bottom of the upper pipeline, a lower water return channel is formed between the flow groove and the inner side wall of the upper pipeline and the inner wall of the lower pipeline, when water in the liquid storage tank needs to be conveyed into the watering trolley, the lower pipeline starts to move upwards, so that the upper pipeline slides in the upper pipeline, at the same time, a water pump in the liquid storage tank conveys water into the lower inner pipe, fluid is conveyed through the lower inner pipe, at the same time, in order to supply water, the lower pipeline is pushed to slide in the upper pipeline, at the same time, the lower pipeline drives the lower inner pipe to move, so that the valve body is pushed away from the leakage groove, at the same time, fluid enters the upper pipeline from the lower inner pipe and enters the container at the upper side through the leakage groove on the upper pipeline, the fluid is conveyed, when water needs to be replenished into the liquid storage tank, at the same time, the lower pipeline moves again, the lower pipeline drives the lower inner pipe to move again until the lower opening of the upper pipeline of the flow groove moving groove at the upper outer part of the lower inner pipe, thereby the lateral wall that makes inner tube down does not contradict with the last pipeline opening part inside wall, thereby form the offal backward flow passageway that is used for the backward flow, carry water in the dolly of watering through outside water pipe this moment, water in the dolly of watering can enter into the upper tube way along lower inner tube and under the effect of backward flow passageway, flow in the lower pipeline, thereby carry out the backward flow of launching through the lower pipeline, thereby need not to set up the pipeline in addition again and flow back, when upper tube and lower pipeline separation, the inside wall of valve body and small form supports tightly this moment, thereby prevent to water in the dolly of watering and flow out in the upper tube way, make upper tube and lower pipeline separation, the dolly of watering can be along doing the circumference slip around the basin body, thereby even plant waters.

7. According to the intelligent flowerpot provided by the utility model, the piston for water passing is arranged in the upper pipeline in a sliding manner, the connecting rod is arranged between the valve body and the piston, the connecting rod is arranged in the communicating port of the leakage groove and the upper pipeline in a sliding manner, when the piston is positioned at the bottom of the lower pipeline, the piston is abutted against the inner side wall at the bottom of the upper pipeline, and the top of the lower inner pipe is abutted against the piston; the cover is equipped with the spring that contracts on the connecting rod, it conflicts to contract spring one end and piston, the bottom of the other end and small opening groove cell body is contradicted, when the water supply and sewerage, the piston that the inner tube promoted in the upper tube this moment removes, thereby valve body and small opening groove lateral wall break away from, thereby conveniently lead to water, the distance between piston and the small opening groove tank bottom reduces this moment, thereby it is compression state to contract the spring, the pressure value that contracts under the compression state spring and can give a reseing of valve body, thereby can make when accomplishing water supply or offal, make the valve body can contract initial position this moment, thereby the effectual water that has prevented in the dolly from watering flows through the upper tube way.

8. According to the intelligent flowerpot provided by the utility model, the cover plate sliding block is arranged on one side of the car cover facing the watering trolley, the cover plate sliding block is arranged along the sliding direction of the car cover, the top of the watering trolley is provided with the sliding groove matched with the cover plate sliding block, the cross section of the cover plate sliding block is trapezoidal, and the cover plate sliding block is arranged into a trapezoidal structure because the car cover needs to be kept horizontal in the cover opening process of the watering trolley, so that the sliding stability of the cover plate sliding block in the sliding groove is improved.

9. According to the intelligent flowerpot provided by the utility model, two liquid storage tanks are arranged, a water source is arranged in one liquid storage tank, nutrient substances are arranged in the other liquid storage tank, lower pipelines are arranged in the two liquid storage tanks in a sliding manner, driving pieces for driving the two lower pipelines to ascend and descend are arranged in the shell, and through the arrangement of the two liquid storage tanks, plants in the flowerpot body can be watered, and the nutrient substances can be introduced.

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, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic overall structure diagram of an intelligent flowerpot of the present invention;

FIG. 2 is a schematic view of the internal structure of the housing of the intelligent flowerpot according to the present invention;

FIG. 3 is a schematic view of the intelligent flowerpot of the utility model in a state that the watering cart is opened;

FIG. 4 is a schematic view of the internal structure of the top shell of the intelligent flowerpot of the present invention;

FIG. 5 is a partial schematic view of the housing cover and linkage of the present invention;

FIG. 6 is a partial schematic view of the watering cart of the present invention;

FIG. 7 is an internal cross-sectional view of the upper duct of the present invention after being extended into the lower duct;

fig. 8 is a schematic view of another structure of the track of the present invention.

Description of reference numerals:

1. a pot body; 2. watering the trolley; 3. a liquid storage tank; 4. a water feeding and discharging mechanism; 41. an upper pipeline; 42. a lower pipeline; 43. a lower inner tube; 44. a leak groove; 45. a valve body; 46. (ii) a A flow channel; 47. a piston; 48. a connecting rod; 49. a retraction spring; 410. a spiral conveying plate; 5. a housing; 51. a side casing; 52. a top shell; 6. a vehicle cover; 7. a shell cover; 8. a linkage member; 81. mounting blocks; 82. rotating the rod; 83. a first linkage block; 84. a second linkage block; 9. a fixed block; 10. fixing grooves; 11. a track; 12. a switching channel; 13. a first moving cylinder; 14. a cover plate slider; 15. a sliding groove; 16. a sprinkler pipe.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, the technical features involved in the different embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

Examples

Referring to fig. 1-8, the utility model provides an intelligent flowerpot, which comprises a pot body 1, a watering trolley 2 and a liquid storage tank 3, wherein the pot body 1 is provided with a planting space, and the planting space can be used for planting plants and has a planting space; the watering trolley 2 is hollow and provided with an opening at the top, the watering trolley 2 is arranged at the top of the pot body 1 and is suitable for moving around the planting space, the watering trolley 2 is driven by a motor to slide, a liquid outlet facing the planting space is formed in the watering trolley 2, and a sprinkling pipe 16 for conveying water in the watering trolley 2 into the planting space and conveying water to plants in the planting space is arranged at the liquid outlet; two liquid storage tanks 3 are arranged and are arranged at the bottom of the pot body 1; and an underwater water feeding mechanism 4 is arranged in the liquid storage tank 3 and the watering trolley 2 and is suitable for communicating the liquid storage tank 3 with the watering trolley 2, conveying water in the watering trolley 2 into the liquid storage tank 3 and conveying water in the liquid storage tank 3 into the watering trolley 2.

When the flowerpot is used, plants are planted in the pot body 1, water in the liquid storage tank 3 is conveyed into the watering trolley 2 under the action of the water feeding and discharging mechanism 4, the watering trolley 2 sprays the water in the watering trolley 2 into the pot body 1 under the action of the watering pipe 16, so that the plants in the pot body 1 are watered to meet the requirement of the plants on water, meanwhile, the liquid storage tank 3 does not need to be detached from the flowerpot for water filling after the water in the liquid storage tank 3 is used up, the water directly extends into the watering trolley 2 through an external water pipe so as to be conveyed into the watering trolley 2, the water in the watering trolley 2 is conveyed into the liquid storage tank 3 through the water discharging on the water feeding and discharging mechanism 4, so that the liquid storage tank 3 is filled with water again, and the automatic watering of the plants can be realized in the whole process, can need not to dismantle liquid reserve tank 3 again, just can add water in liquid reserve tank 3, use more convenient, reduced the human cost, breed more intelligent convenience of plant.

Still include casing 5, the basin body 1, the dolly 2 and the liquid reserve tank 3 of watering all are located casing 5, the top of casing 5 is provided with the opening with the dolly 2 intercommunication of watering, the opening part slides and is provided with cap 7, the top of the dolly 2 of watering slides and is provided with bonnet 6, bonnet 6 covers the opening of the dolly 2 of watering, be provided with linkage 8 between bonnet 6 and the cap 7, linkage 8 is suitable for promoting bonnet 6 to slide on the opening of the dolly 2 of watering and breaks away from bonnet 6 from the opening and promote cap 7 to slide on the opening of casing 5 and break away from the opening 7 from the opening. When not needing to add water in the liquid reserve tank 3, the opening on the casing 5 is covered to cap 7 this moment, the opening on the dolly 2 that will water is covered to bonnet 6, after the live time has been long, thereby make the bonnet 6 slide on the dolly 2 that waters through coming linkage 8 this moment, thereby open the opening, cap 7 slides on casing 5, thereby open the opening on the casing 5, thereby make things convenient for the breed personnel to stretch into the dolly 2 that waters with the opening on the outside water pipe through the opening on the casing 5 and the opening on the dolly 2 that waters, lead to water in the dolly 2 that waters, the water in the dolly 2 that waters flows into the liquid reserve tank 3 through the mechanism 4 under water, thereby be full of the water in the liquid reserve tank 3.

Here, the housing 5 includes a cylindrical side housing 51 vertically disposed and a circular top housing 52 disposed on top of the side housing 51, the opening of the housing 5 is disposed on the top housing 52, and the bowl 1 is disposed in the side housing 51.

Linkage 8 is including the installation piece 81 of the opening part of the slip setting at the interior top of casing 5, the cap 7 rotates to be connected at installation piece 81, cap 7 rotates towards installation piece 81 one side and is connected with a plurality of dwang 82, dwang 82 rotates the connection on installation piece 81 in the cap 7 one end dorsad, the top is located the opening part and is provided with first linkage 83 in the cap 7, first linkage 83 is in the coplanar towards top shell 52 opening one side and top shell 52 department open-ended lateral wall, be provided with second linkage 84 on the bonnet 6, when watering dolly 2 and move, the lateral wall and the installation piece 81 of watering dolly 2 contradict and promote installation piece 81 and slide on the roof in casing 5, first linkage 83 and second linkage 84 contradict and promote second linkage 84 and the bonnet 6 and slide on watering dolly 2. Two fixed slots 10 have been seted up to 52 diapalls positions in the installation piece 81 on the top shell simultaneously, fixed slot 10 sets up along a shell 52 annular, the lateral wall both sides of installation piece 81 are connected with fixed block 9 respectively, and two fixed slots 10 and fixed block 9 one-to-ones set up, fixed block 9 is located fixed slot 10 and slides in fixed slot 10 to drive installation piece 81 and remove, leave the space between installation piece 81 and the top shell 52.

When water in the liquid storage tank 3 needs to be supplemented, the watering trolley 2 slides along the periphery of the pot body 1 at the moment until the second linkage block 84 on the trolley cover 6 is contacted with the first linkage block 83, the watering trolley 2 is continuously pushed to move again at the moment, so that under the action of the first linkage block 83, the trolley covers 6 on the second linkage block 84 and the second linkage block 84 are pushed to slide on the watering trolley 2, the watering trolley 2 is opened, the opening of the watering trolley 2 is exposed, meanwhile, in the moving process of the watering trolley 2, the side wall of the watering trolley 2 is in collision with the side wall of the mounting block 81, in the continuous advancing process of the watering trolley 2, the mounting block 81 is pushed to slide on the inner top wall of the shell 5, so that the fixing block 9 slides in the fixing groove 10, the mounting block 81 slides, and due to the fact that the mounting block 81 moves the rotating rod, the mounting block 82 on the mounting block 81 moves forwards along with the mounting block 81, at this time, because the housing cover 7 is located in the opening of the housing 5 and cannot move forward directly, the rotating rod 82 moves along with the mounting block 81, thereby rotating, the rotating rod 82 is inclined towards the horizontal direction, thereby reducing the distance between the mounting block 81 and the housing cover 7, namely, the housing cover 7 moves downward at first, after the housing cover 7 moves downward from the opening, the side wall of the opening of the housing 5 cannot affect the housing cover 7 at this time, thereby continuing to move the watering trolley 2, the watering trolley 2 can drive the mounting block 81 and the housing cover 7 on the mounting block 81 to move together, thereby separating the housing cover 7 from the opening of the housing 5, realizing the uncovering of the housing 5, at this time, an external water pipe extends into the watering trolley 2 along the opening on the housing 5, thereby adding water into the watering trolley 2, and under the action of the water feeding and draining mechanism 4, conveying water in the watering trolley 2 into the liquid storage tank 3, when the cover 6 and the shell cover 7 need to be moved to original positions, moving the watering trolley 2 reversely at the moment, so that the cover 6 is abutted against the mounting block 81, so that the cover 6 is pushed to move on the watering trolley 2, so that the opening of the watering trolley 2 is covered by the cover 6, and after the cover 6 is restored to the original position, the mounting block 81 is abutted against the side wall of the watering trolley 2 at the moment, so that the watering trolley 2 pushes the mounting block 81 to move towards the opening of the shell body 5 until the shell cover 7 is abutted against the first linkage block 83, at the moment, the watering trolley 2 continues to push the mounting block 81 forwards, the mounting block 81 moves, so that the rotating rod 82 is driven to rotate on the mounting block 81, so that the rotating rod 82 inclines towards the vertical direction, so that the shell cover 7 moves upwards, and the shell cover 7 is positioned in the opening of the shell body 5 again, the opening of the housing 5 is closed.

As shown in fig. 8, the periphery of the basin body 1 is provided with an annular track 11, the watering trolley 2 slides and is arranged on the track 11, the cross section of the track 11 is U-shaped, and the track 11 is arranged, so that the watering trolley 2 can slide along the periphery of the basin body 1 conveniently, and meanwhile, the track 11 of the U-shaped track is arranged, so that the watering trolley has a good protection function, the phenomenon of derailment or deviation easily occurs when the watering trolley 2 performs circular motion on the track 11 at a high speed, and the stability of the watering trolley 2 during operation is effectively protected by the U-shaped track 11.

Fig. 2 and 3 show another embodiment of the rails 11, two rails 11 are provided, and two rails 11 are spaced around the planting space and are spaced along the axial direction of the pot body 1; the rails 11 are provided with adapter ports; an adapter channel 12 is arranged between the two adapter ports, and the adapter channel 12 is suitable for switching between the two adapter ports; the switching channel 12 and any one of the tracks 11 are suitable for enclosing a closed ring for the watering trolley 2 to move continuously, when the watering trolley 2 moves on the tracks 11 and moves onto the switching channel 12 on the switching port, the switching channel 12 drives the watering trolley 2 to lift, when the watering trolley 2 slides in one track 11 on the upper surface, the switching channel 12 is mainly used for opening the cover 6 on the watering trolley 2 and the cover 7 at the opening of the shell 5, because the first linkage block 83 can collide with the second linkage block 84 in the process of opening the cover, when the trolley moves forwards again to water around the plants, the cover 6 can be separated from the shell 5, so that after the cover is opened, when the watering trolley 2 moves to the switching channel 12, the switching channel 12 is switched between any two switching ports, and the watering trolley 2 is driven to move downwards, thereby in moving watering dolly 2 to another track 11 for watering dolly 2 can slide in another track 11, leaves the distance between dolly 2 and the installation piece 81 of watering this moment, thereby watering dolly 2 can be circular motion on track 11, will be through the even border of spilling at the plant of the water that underwater watering mechanism 4 transports from the liquid reserve tank 3.

The underwater watering mechanism 4 comprises an upper pipeline 41 arranged on the watering trolley 2 and a lower pipeline 42 arranged in the liquid storage tank 3 in a sliding manner, a lower inner pipe 43 is coaxially erected in the lower pipeline 42, when the lower pipeline 42 moves upwards, the bottom of the upper pipeline 41 is sleeved on the lower pipeline 42 and slides in the lower pipeline 42, one end of the lower inner pipe 43 is arranged in the upper pipeline 41 in a penetrating manner and is jointed with the inner side wall of the bottom opening of the upper pipeline 41, the upper pipeline 41 is communicated with the watering trolley 2, the top of the upper pipeline 41 is provided with a leakage groove 44, the bottom of the leakage groove 44 is communicated with the inside of the upper pipeline 41, a valve body 45 is arranged in the leakage groove 44 in a telescopic manner, when the valve body 45 is positioned in the leakage groove 44, the valve body 45 is jointed with the inner wall of the leakage groove 44, the lower inner pipe 43 drives the valve body 45 to slide in the leakage groove 44, and the outer side wall of the lower inner pipe 43 is provided with a flow groove 46, when the flow groove 46 of the lower inner pipe 43 moves into the opening at the bottom of the upper pipe 41, a lower water return channel is formed between the flow groove 46 and the inner wall of the upper pipe 41 and the inner wall of the lower pipe 42, when water in the liquid storage tank 3 needs to be conveyed into the watering cart 2, the lower pipe 42 starts to move upwards at this time, so that the upper pipe 41 slides in the upper pipe 41, at this time, the water pump in the liquid storage tank 3 conveys water into the lower inner pipe 43, the fluid is conveyed through the lower inner pipe 43, at this time, the lower pipe 42 is pushed to slide in the upper pipe 41 for water supply, at this time, the lower pipe 42 drives the lower inner pipe 43 to move, so that the valve body 45 can be driven to move, so that the valve body 45 is pushed away from the leakage groove 44, at this time, the fluid enters the upper pipe 41 from the lower inner pipe 43 and enters the container at the upper side through the leakage groove 44 on the upper pipe 41, and the fluid is conveyed, when water needs to be replenished into the liquid storage tank 3, the lower pipeline 42 is moved again at the moment, the lower pipeline 42 drives the lower inner pipe 43 to move again until the flow groove 46 on the outer part of the lower inner pipe 43 moves the lower opening of the upper pipeline 41, so that the outer side wall of the lower inner pipe 43 is not abutted with the inner side wall of the opening of the upper pipeline 41, a lower water backflow channel for backflow is formed, water is conveyed into the watering trolley 2 through an external water pipe at the moment, water in the watering trolley 2 can enter the upper pipeline 41 along the lower inner pipe 43 and flows into the lower pipeline 42 under the action of the backflow channel, so that the backflow of the water is carried out through the lower pipeline 42, no additional pipeline needs to be arranged for backflow, when the upper pipeline 41 is separated from the lower pipeline 42, at the moment, the valve body 45 is abutted against the inner side wall of the leakage groove 44, so that the water in the watering trolley 2 is prevented from flowing out from the upper pipeline 41, so that the upper pipeline 41 and the lower pipeline 42 are separated, the watering trolley 2 can do circumferential sliding on the periphery of the pot body 1, and the plants can be uniformly watered.

A piston 47 for water passing is arranged in the upper pipeline 41 in a sliding mode, a connecting rod 48 is arranged between the valve body 45 and the piston 47, the connecting rod 48 is arranged in a communication port of the leakage groove 44 and the upper pipeline 41 in a sliding mode, when the piston 47 is located at the bottom of the lower pipeline 42, the piston 47 is abutted against the inner side wall of the bottom of the upper pipeline 41, and the top of the lower inner pipe 43 is abutted against the piston 47; the cover is equipped with the spring 49 that contracts on the connecting rod 48, the spring 49 one end that contracts is contradicted with piston 47, the other end is contradicted with the bottom of small opening 44 groove, when water supply and sewerage, inner tube 43 promotes the piston 47 in the upper tube 41 and removes down this moment, thereby valve body 45 and small opening 44 lateral wall break away from, thereby conveniently lead to water, the distance between piston 47 and small opening 44 tank bottom reduces this moment, thereby it is in compression state to contract the spring 49, the pressure value that contracts spring 49 under the compression state and can give valve body 45 a reseing, thereby can make when accomplishing water supply or offal, make valve body 45 can contract initial position this moment, thereby the effectual water that has prevented in the dolly 2 that waters flows through upper tube 41.

Specifically, be equipped with auger delivery board 410 between the bottom of lower pipeline 42 and lower inner tube 43, auger delivery board 410 encircles the setting of lower pipeline 42 inside wall, through auger delivery board 410's setting to when can carrying out the offal backward flow to the fluid, when water entered into lower pipeline 42 this moment, auger delivery board 410 can carry out the direction to the fluid and carry this moment, thereby improved the velocity of flow of offal backward flow, made the offal backward flow more swift.

The cover plate sliding block 14 is arranged on one side, facing the watering trolley 2, of the trolley cover 6, the cover plate sliding block 14 is arranged along the sliding direction of the trolley cover 6, the sliding groove 15 matched with the cover plate sliding block 14 is formed in the top of the watering trolley 2, the cross section of the cover plate sliding block 14 is trapezoidal, the cover plate sliding block 14 needs to be kept horizontal in the cover opening process of the watering trolley 2, the cover plate sliding block 14 is arranged to be of a trapezoidal structure, and therefore the sliding stability of the cover plate sliding block 14 in the sliding groove 15 is improved.

Concretely, one of them of two liquid reserve tanks 3 sets up the water source in the liquid reserve tank 3, sets up nutrient substance in another liquid reserve tank 3, two equal slip in the liquid reserve tank 3 is provided with lower pipeline 42, be provided with the driving piece that is used for driving two lower pipeline 42 and goes up and down in the casing 5, the driving piece removes the cylinder including the second that sets up between two liquid reserve tanks 3, is provided with the trace on the telescopic link that the cylinder was removed to the second, the trace is fixed with two lower pipeline 42 respectively, the second removes pipeline 42 and goes up and down under the cylinder drive, the linkage is through the setting of two liquid reserve tanks 3 to when can watering the plant in the basin body 1, also can let in nutrient substance.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the utility model.

Claims (9)

1. An intelligent flowerpot, comprising:

a pot body (1) having a planting space;

the watering trolley (2) is hollow and provided with an opening at the top, the watering trolley (2) is arranged at the top of the pot body (1) and is suitable for moving around the planting space, and a liquid outlet facing the planting space is formed in the watering trolley (2);

at least one liquid storage tank (3) arranged at the bottom of the pot body (1);

and the water feeding and discharging mechanism (4) is suitable for communicating the liquid storage tank (3) with the watering trolley (2).

2. An intelligent flowerpot as claimed in claim 1, further comprising a housing (5), wherein the pot body (1), the watering cart (2) and the liquid storage tank (3) are all located in the housing (5), an opening communicated with the watering cart (2) is formed in the top of the housing (5), a cover (7) is slidably arranged at the opening, a cover (6) is slidably arranged at the top of the watering cart (2), the cover (6) covers the opening of the watering cart (2), a linkage member (8) is arranged between the cover (6) and the cover (7), and the linkage member (8) is suitable for pushing the cover (6) to slide on the opening of the watering cart (2) to separate the cover (6) from the opening and pushing the cover (7) to slide on the opening of the housing (5) to separate the cover (7) from the opening.

3. An intelligent flowerpot according to claim 2, wherein the linkage member (8) comprises a mounting block (81) slidably arranged at an opening at the inner top of the housing (5), the housing cover (7) is rotatably connected to the mounting block (81), a plurality of rotating rods (82) are rotatably connected to one side of the housing cover (7) facing the mounting block (81), one end of each rotating rod (82) facing away from the housing cover (7) is rotatably connected to the mounting block (81), a first linkage block (83) is arranged at the opening at the inner top of the housing cover (7), a second linkage block (84) is arranged on the cover (6), when the watering trolley (2) moves, the side wall and the mounting block (81) of the watering trolley (2) abut against each other and push the mounting block (81) to slide on the inner top wall of the housing (5), and the first linkage block (83) and the second linkage block (84) abut against each other and push the second linkage block (84) and the cover (6) to water on the trolley (2) And sliding upwards.

4. An intelligent flowerpot according to claim 1, wherein the periphery of the pot body (1) is provided with an annular rail (11), the watering trolley (2) is slidably arranged on the rail (11), and the cross section of the rail (11) is U-shaped.

5. The intelligent pot of claim 4, further comprising:

at least two tracks (11) are arranged, and the tracks (11) surround the planting space and are distributed at intervals along the axial direction of the pot body (1); the rails (11) are provided with adapter ports;

a transit passage (12) adapted to switch between any two of said transit interfaces; the switching channel (12) and any one of the rails (11) are suitable for enclosing a closed ring for the watering trolley (2) to move continuously.

6. An intelligent flowerpot according to claim 2, wherein the water feeding and discharging mechanism (4) comprises an upper pipeline (41) arranged on the watering trolley (2) and a lower pipeline (42) arranged in the liquid storage tank (3) in a sliding manner, a lower inner pipe (43) is coaxially arranged in the lower pipeline (42), when the lower pipeline (42) moves upwards, the bottom of the upper pipeline (41) is sleeved on the lower pipeline (42) and slides in the lower pipeline (42), one end of the lower inner pipe (43) penetrates through the upper pipeline (41) and is attached to the inner side wall of an opening at the bottom of the upper pipeline (41), the upper pipeline (41) is communicated with the watering trolley (2), a leakage groove (44) is formed in the top of the upper pipeline (41), the bottom of the leakage groove (44) is communicated with the interior of the upper pipeline (41), and a valve body (45) is arranged in the leakage groove (44) in a telescopic manner, when valve body (45) is located small opening (44), the laminating of valve body (45) and small opening (44) inner wall, inner tube (43) order valve body (45) to slide in small opening (44) down, flow groove (46) have been seted up on the lateral wall of inner tube (43) down, when flow groove (46) of inner tube (43) moved in last pipeline (41) bottom opening down, form lower water reflux channel between flow groove (46) and last pipeline (41) inside wall and lower pipeline (42) inner wall.

7. A smart pot according to claim 6, wherein a piston (47) for supplying water is slidably disposed in the upper pipe (41), a connecting rod (48) is disposed between the valve body (45) and the piston (47), the connecting rod (48) is slidably disposed in a communicating port between the spout (44) and the upper pipe (41), when the piston (47) is located at the bottom of the lower pipe (42), the piston (47) abuts against the inner side wall at the bottom of the upper pipe (41), and the top of the lower inner pipe (43) abuts against the piston (47); the cover is equipped with on connecting rod (48) and contracts spring (49), it contradicts to contract spring (49) one end and piston (47), and the other end contradicts with the bottom of small opening groove (44) cell body.

8. An intelligent flowerpot according to claim 7, wherein a cover plate sliding block (14) is arranged on one side of the car cover (6) facing the watering trolley (2), the cover plate sliding block (14) is arranged along the sliding direction of the car cover (6), a sliding groove (15) matched with the cover plate sliding block (14) is arranged at the top of the watering trolley (2), and the cross section of the cover plate sliding block (14) is trapezoidal.

9. An intelligent flowerpot according to claim 8, wherein two liquid storage tanks (3) are arranged, a water source is arranged in one liquid storage tank (3), nutrient substances are arranged in the other liquid storage tank (3), lower pipelines (42) are arranged in the two liquid storage tanks (3) in a sliding manner, and a driving piece for driving the two lower pipelines (42) to ascend and descend is arranged in the shell (5).

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