CN210869160U - Remote controllable succulent plant automatic irrigation system - Google Patents

Abstract

The utility model discloses a remotely controllable succulent plant automatic irrigation system, which comprises a water storage tank and a water supply device communicated with the water storage tank, wherein the water supply device comprises a water guide pipe and an irrigation frame embedded in flowerpot soil, one end of the water guide pipe is communicated with the water inlet end of a hollow round bar, the other end of the water guide pipe is communicated with the water outlet of the water storage tank to enable the water guide pipe to be in a U shape, the water storage tank is arranged at a high position, the irrigation frame is arranged at a low position, the water storage tank comprises a control module, a first electromagnetic valve and a wireless transceiver, the first electromagnetic valve is arranged at the water outlet of the water storage tank, a humidity sensor is also arranged in the flowerpot soil, the control module is in information interaction with the humidity sensor and an external host through the wireless transceiver, the automatic irrigation operation of the succulent plant is realized by controlling the opening and closing of, thereby realizing the remote control of the succulent plant irrigation operation.

Description

Remote controllable succulent plant automatic irrigation system

Technical Field

The utility model belongs to the thing networking field, concretely relates to automatic irrigation system of long-range controllable succulent plant.

Background

In recent years, succulent plants have become popular domestically due to their various types, unique shapes, and rich colors. By means of extremely lovely appearance, fat meat, thick leaves and small flowers which are not opened accidentally, and succulent plants are maintained simply and do not need to be watered frequently to kill insects, so that the plant is more and more concerned and loved by consumers. Although the succulent plants are easy to maintain, the maintenance of the succulent plants also needs to pay attention to an important principle that the succulent plants cannot be sprayed when being watered, so that on one hand, white powder on leaves of part of the succulent plants is damaged, the succulent plants lose protection, and even scars are left on the leaves to reduce the ornamental value of the succulent plants; on the other hand, the spraying watering method is easy to leave accumulated water at the leaf center or on the leaves of succulent plants, so that the leaf center is easy to rot, and fine water drops attached to the leaves can burn the leaves when being burnt in hot summer, and the fine water drops on the leaves can possibly freeze the leaves when being at low temperature in winter.

The office workers who maintain succulent plants are more and more, and the office workers also face two problems in maintaining the succulent plants, firstly, the office workers forget to water due to busy work or cannot water for a long time on business, so that the succulent plants are dry and non-active, and the ornamental value of the office workers is greatly reduced; secondly, the succulent plant watering principle follows the principle of 'no water and thorough watering', the succulent plant root system is rotten due to frequent watering and the succulent plant is difficult to judge whether to water according to visual inspection, so that an automatic watering device capable of automatically detecting whether to water the succulent plant and being remotely controllable is urgently needed.

SUMMERY OF THE UTILITY MODEL

In order to fill the blank of prior art, the utility model provides an automatic irrigation system of long-range controllable succulent plant.

The utility model provides a technical scheme that its technical problem adopted is:

a remotely controllable succulent plant automatic irrigation system comprises a water storage tank and a water supply device communicated with the water storage tank, wherein the water supply device comprises a water guide pipe and an irrigation frame embedded in flowerpot soil, the irrigation frame comprises a hollow round rod arranged vertically and a plurality of water outlet pipes circumferentially arranged along the hollow round rod, the water inlet ends of the water outlet pipes are communicated with the hollow round rod, the water outlet ends of the water outlet pipes face downwards and are parallel to the hollow round rod, one end of the water guide pipe is connected with the water inlet end of the hollow round rod at a low position, the other end of the water guide pipe is connected with the water outlet of the water storage tank at a high position, the water storage tank comprises a control module, a first electromagnetic valve and a wireless transceiver, the first electromagnetic valve is arranged at the water outlet of the water storage tank, a humidity sensor is further arranged in the flowerpot soil, and the wireless transceiver receives a humidity signal sent, the signal output end of the wireless transceiver is connected with the signal input end of the control module, and the signal output end of the control module is connected with the signal input end of the first electromagnetic valve.

As an improvement of the scheme, the water outlet pipe is an arc-shaped water outlet pipe, and the cross section of the turning part of the path between the water inlet end of the water outlet pipe and the water outlet end of the water outlet pipe is an arc.

As an improvement of the scheme, the water outlet end of the water outlet pipe is a wide opening.

As an improvement of the scheme, the water guide pipe is a hose, the water outlet of the water guide pipe is communicated with the bottom of the hollow round rod and sealed through a sealing ring, and the water inlet of the water guide pipe is communicated with the water outlet of the water tank and sealed through a sealing ring.

As an improvement of the scheme, the water outlet of the water storage tank is also provided with a liquid flow meter, and the liquid flow meter and the control module perform information interaction.

As an improvement of the scheme, the back of the water storage tank is also provided with a hook, and the water storage tank can be hooked at a high position.

As an improvement of the scheme, a water level meter is arranged in the water storage tank.

As an improvement of the scheme, a second electromagnetic valve is further arranged at the water inlet of the water storage tank, the water inlet of the water storage tank is connected with a faucet which is opened all the time through a hose, and the control module controls the opening and closing of the second electromagnetic valve through the monitoring data of the water level meter to realize the automatic water storage of the water storage tank.

As an improvement of the above scheme, the external host is a mobile phone, a tablet computer, a notebook computer or an IPAD.

The utility model has the advantages that: the utility model provides a water supply source stably through the water storage tank which can automatically store water and discharge water, supplies water for succulent plants through the irrigation frame arranged in the soil of the flowerpot, the water storage tank is communicated with the irrigation frame through the water guide pipe, during installation, the water storage tank is arranged at a high position through a hook, the irrigation frame is arranged at a low position, the water guide pipe is a U-shaped pipe which is respectively connected with the water storage tank and the irrigation frame, the water in the water storage tank can automatically flow into the irrigation frame to perform saturation irrigation on the soil in the flowerpot by utilizing the height difference between the water storage tank and the irrigation frame, the water outlet of the water storage tank is provided with a first electromagnetic valve and a liquid flow meter, a humidity sensor is embedded in the soil of the flowerpot, the humidity sensor is a wireless humidity sensor, a control module can judge whether watering is needed according to the data monitored by the humidity sensor, when watering is needed, the control module controls the first electromagnetic valve to, and then the water is injected into the soil through a water outlet pipe of the irrigation frame, the water outlet pipe circumferentially arranged on the hollow round rod ensures the uniformity of water injection, meanwhile, the irrigation frame embedded in the soil also meets the requirement that succulent plants cannot be irrigated by spraying, when the watering is carried out automatically, a liquid flow meter arranged at the water outlet of the water storage tank automatically monitors the water outlet flow, and when the set upper limit of the single watering flow is reached, the control module controls the first electromagnetic valve to be closed and stops watering. The water storage tank is characterized in that a water level meter is further arranged in the water storage tank, a second electromagnetic valve is arranged at a water inlet of the water storage tank, when the water level meter monitors that the water storage tank is insufficient in water storage, the control module controls the second electromagnetic valve to be opened, the water inlet of the water storage tank communicated with the faucet which is opened all the time can enter water through the faucet, and when the water level in the water storage tank reaches a set value, the control module controls the second electromagnetic valve to be closed to stop entering the water. The control module is also connected with a mobile phone, a tablet personal computer, a notebook computer or an IPAD of a user through a wireless transceiver to establish data, the soil humidity condition of the succulent plants and the watering times can be fed back in real time, the maintenance condition of the succulent plants can be monitored in real time when the user goes on business, watering can be controlled manually according to the weather condition, and root system rot caused by too high water storage capacity of the succulent plants caused by rainy days in the next day of automatic watering is avoided.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic structural diagram of the present invention.

Detailed Description

It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict. The present invention will be described in detail with reference to examples.

The utility model relates to a remote controllable succulent plant automatic irrigation system, it is right below the preferred embodiment of the utility model is explained in further detail.

As shown in fig. 1, a remote controllable succulent plant automatic irrigation system comprises a water storage tank 10 and a water supply device 20 communicated with the water storage tank 10, wherein the water supply device 20 comprises a water guide pipe 21 and an irrigation frame 22 embedded in flowerpot soil, the irrigation frame 22 comprises a vertical hollow round rod 221 and a plurality of water outlet pipes 222 arranged along the circumference of the hollow round rod 221, the water inlet ends of the water outlet pipes 222 are communicated with the hollow round rod 221, the water outlet ends of the water outlet pipes 222 face downwards and are parallel to the hollow round rod 221, the water guide pipe 21 is a hose, one end of the water guide pipe 21 is detachably connected with the water inlet end of the hollow round rod 221 and is additionally provided with a sealing ring, the water guide pipe 21 is communicated with the bottom of the hollow round rod 221 arranged in the flowerpot soil through a through hole formed in the bottom of the flowerpot, the other end of the water guide pipe 21 is detachably connected with the water outlet of the water storage tank 10 and is also additionally, the water storage tank 10 is arranged at a high position, the irrigation frame 22 is arranged at a low position, two ends of the water guide pipe 21 are respectively communicated with the irrigation frame 22 and the water storage tank 10 and then are in a U shape, and water in the water storage tank 10 at the high position can flow into the irrigation frame 22 at the low position through the height difference between one end of the irrigation frame 22 and one end of the water storage tank 10 so as to irrigate soil in the flowerpot. The water storage tank 10 comprises a control module, a first electromagnetic valve and a wireless transceiver, the first electromagnetic valve is arranged at a water outlet of the water storage tank 10, a humidity sensor is further arranged in the flowerpot soil, and preferably a wireless humidity sensor is arranged, so that the control module can perform information interaction with the humidity sensor and an external host through the wireless transceiver, when the humidity sensor monitors that the soil humidity is lower than a set lowest value, the control module controls the first electromagnetic valve to open, water in the water storage tank 10 flows into the water guide pipe 21 from the water outlet of the water storage tank 10 and then flows into the hollow round rod 221 of the irrigation frame 22 from the water guide pipe 21, the top of the hollow round rod 221 is closed, and the water outlet pipe 222 is communicated with the hollow round rod 221, so that the water in the hollow round rod 221 can flow into the water outlet pipe 222 from a cavity in the middle of the hollow round rod 221, and then the water flows out from the water outlet end of the water outlet pipe 222 to irrigate the soil, so that automatic monitoring and watering operation are achieved, and even if a user goes on a business trip or forgets to water, the succulent plants cannot lack water and wither.

As an optional implementation manner, the water outlet of the water conduit 21 is communicated with the bottom of the hollow round rod 221, the equal-height section of the water conduit 21 and the hollow round rod 221 is parallel to the hollow round rod 221, the water inlet of the water conduit 21 is further connected to the water storage tank 10, so that the water conduit 21 is in an "S" shape, and the parallel section of the water conduit 21 is arranged as close to the hollow round rod 221 as possible on the premise that the water flow in the water conduit 21 smoothly flows into the hollow round rod 221, so that when the irrigation frame 22 is embedded in soil of a flowerpot, the parallel section of the water conduit 21 and the hollow round rod 221 can be embedded in the flowerpot together with the irrigation frame 22, and a through hole at the bottom of the flowerpot is avoided.

Preferably, the water outlet pipe 222 is an arc-shaped water outlet pipe 222, and a cross section of a turning point of a path between a water inlet end of the water outlet pipe 222 and a water outlet end of the water outlet pipe 222 is an arc. In order to enable the water outlet pipe 222 to smoothly discharge water, the water inlet end of the water outlet pipe 222 is arranged in the middle of the hollow round rod 221, the water inlet end of the water inlet pipe is communicated with the hollow round rod 221, the water inlet end of the water outlet pipe 222 is extended to the water outlet end of the water outlet pipe 222 in an arc shape, the water outlet rate of the water outlet pipe 222 can be stable due to the arc-shaped design, and soil cannot be flushed away.

As an optional embodiment, at least two water outlet pipes 222 are provided, preferably 4 water outlet pipes 222 are provided, and the 4 water outlet pipes 222 are respectively provided on the orthogonal decomposition line of the central circle of the hollow round rod 221, so as to ensure that the water amount is uniformly distributed in the soil during irrigation.

Preferably, the outlet end of the outlet pipe 222 is a wide opening to avoid that the outlet end of the outlet pipe 222 is too narrow, which results in too low outlet rate, and even causes the pressure at the outlet end of the outlet pipe 222 to decrease, which causes water to flow back into the water storage tank 10.

Preferably, the water outlet of the water storage tank 10 is further provided with a liquid flow meter, the liquid flow meter and the control module perform information interaction, when irrigation operation is performed, the liquid flow meter can detect the water outlet flow of the water outlet of the water storage tank 10 in real time, when the water outlet flow reaches the set irrigation quantity, the control module controls the first electromagnetic valve to be closed, irrigation operation is stopped, and the irrigation operation can be automated in the whole process.

Preferably, a hook is further disposed on the back of the water storage tank 10, and the water storage tank 10 can be hooked at a high position by the hook. In order to ensure that the water storage tank 10 is higher than the irrigation rack 22, so that the water flows from a high position to a low position through the height difference for irrigation, a hook is arranged on the back of the water storage tank 10, so as to be hung on a wall surface or the like.

Preferably, a water level meter is arranged in the water storage tank 10 and used for detecting the water level in the water storage tank 10 in real time, a second electromagnetic valve is further arranged at the water inlet of the water storage tank 10, a water tap which is opened all the time is connected to the water inlet of the water storage tank 10 through a hose, and the control module controls the opening and closing of the second electromagnetic valve through the monitoring data of the water level meter to realize the automatic water storage of the water storage tank 10. When the water level meter detects that the water level in the water storage tank 10 is lower than the set lowest water level, the control module controls the second electromagnetic valve to be opened so that the water storage tank 10 can take water through the faucet which is always opened, and when the water level meter detects that the water level in the water storage tank 10 reaches or is higher than the set highest water level, the control module controls the second electromagnetic valve to be closed to stop taking water, so that the purpose of automatically storing water in the water storage tank 10 is achieved.

Preferably, the control module can perform data transmission with an external host such as a mobile phone, a tablet personal computer, a notebook computer and an IPAD through the wireless transceiver, a user can check the humidity condition of soil in the flowerpot in real time through the mobile phone, the tablet personal computer, the notebook computer or the IPAD, and the user can adjust irrigation setting in real time according to weather forecast, so that the optimal irrigation effect and irrigation time control are achieved.

As an optional implementation manner, a camera is further disposed at the bottom of the water storage tank 10, and the control module can control the camera to take a picture of the succulent plant in real time and transmit the taken picture to the user, so that the user can observe the growth condition of the succulent plant in real time and adjust the irrigation operation in real time, and the growth of the succulent plant can achieve the best effect even if the user is on business trip.

As an optional implementation mode, a transparent cover can be further arranged beside the succulent plant flowerpot, the control module can control the transparent cover to cover the succulent plants or open the succulent plants, when a user finds that the succulent plants shrink through a wirelessly transmitted picture during the period that the succulent plants are suitable for smoldering cultivation, such as spring and autumn, the control module can control the transparent cover to cover the succulent plants for smoldering cultivation, so that the air humidity around the succulent plants is increased, a small greenhouse is formed, the succulent plants can grow more vigorously, and the succulent plants are thicker and plump in leaves.

Finally, the above embodiments are only used for illustrating the technical solution of the present invention and not for limiting the same, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present invention can be modified or replaced by equivalents without departing from the spirit and scope of the technical solution, which should be covered by the claims of the present invention.

Claims (7)

1. A remotely controllable succulent plant automatic irrigation system, comprising a water storage tank (10) and a water supply device (20) communicated with the water storage tank (10), characterized in that: the water supply device (20) comprises a water guide pipe (21) and an irrigation frame (22) embedded in flowerpot soil, the irrigation frame (22) comprises a vertical hollow round rod (221) and a plurality of water outlet pipes (222) arranged along the circumferential direction of the hollow round rod (221), the water inlet ends of the water outlet pipes (222) are communicated with the hollow round rod (221), the water outlet ends of the water outlet pipes (222) face downwards and are parallel to the hollow round rod (221), one end of the water guide pipe (21) is connected with the water inlet end of the hollow round rod (221) at a low position, the other end of the water guide pipe is connected with the water outlet of the water storage box (10) at a high position, the water storage box (10) comprises a control module, a first electromagnetic valve and a wireless transceiver, the first electromagnetic valve is arranged at the water outlet of the water storage box (10), a humidity sensor is further arranged in the flowerpot soil, and the wireless transceiver receives a humidity signal sent by the humidity sensor, the signal output end of the wireless transceiver is connected with the signal input end of the control module, the signal output end of the control module is connected with the signal input end of the first electromagnetic valve, and the water outlet end of the water outlet pipe (222) is a wide opening.

2. The remotely controllable succulent plant automatic irrigation system of claim 1, wherein: the water outlet pipe (222) is an arc-shaped water outlet pipe (222), and the cross section of the turning part of the path between the water inlet end of the water outlet pipe (222) and the water outlet end of the water outlet pipe (222) is an arc.

3. The remotely controllable succulent plant automatic irrigation system of claim 1, wherein: the water guide pipe (21) is a hose, the water outlet of the water guide pipe (21) is communicated with the bottom of the hollow round rod (221) and sealed through a sealing ring, and the water inlet of the water guide pipe (21) is communicated with the water outlet of the water storage tank (10) and sealed through a sealing ring.

4. The remotely controllable succulent plant automatic irrigation system of claim 1, wherein: and a water outlet of the water storage tank (10) is also provided with a liquid flow meter, and the liquid flow meter and the control module perform information interaction.

5. The remotely controllable succulent plant automatic irrigation system of claim 1, wherein: the back of the water storage tank (10) is also provided with a hook, and the water storage tank (10) can be hooked at a high position.

6. The remotely controllable succulent plant automatic irrigation system of claim 1, wherein: a water level gauge is also arranged in the water storage tank (10).

7. The remotely controllable succulent plant automatic irrigation system of claim 6, wherein: the water inlet of the water storage tank (10) is provided with a second electromagnetic valve, the water inlet of the water storage tank (10) is connected with a faucet which is opened all the time through a hose, and the control module controls the opening and closing of the second electromagnetic valve to realize the automatic water storage of the water storage tank (10).

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