CN110731199A - kinds of flower pots - Google Patents

Abstract

The invention discloses flower pots, wherein a th cavity for storing water is formed between the outer wall and the inner wall of the flower pot close to the opening of the flower pot, at least adjusting mechanisms for controlling the th cavity to be communicated with or blocked from the interior of the flower pot are arranged at the end of the th cavity far away from the opening of the flower pot, the flower pot further comprises a main control chip and a sensor, the sensor is used for collecting the soil humidity value in the flower pot in real time and sending the soil humidity value to the main control chip, and the main control chip is used for triggering the adjusting mechanisms when the soil humidity value is lower than a humidity threshold value, so that the th cavity is communicated with the interior of the flower pot for replenishing water until the soil humidity value is not lower than the humidity threshold value.

Description

kinds of flower pots

Technical Field

The invention relates to the technical field of pot culture equipment, in particular to flowerpots.

Background

With the increasing of the mental demand of people and the gradual attention to the environmental quality, more and more people grow flowers and plants, especially at home and in offices, small and even large potted plants are often planted. Potted plants require moisturizing their soil from time to maintain growth. However, due to various reasons in daily life, people often cannot timely replenish water for cultivated potted plants.

Disclosure of Invention

In view of the above, the present invention aims to provide flower pots with a water storage function and capable of automatically replenishing water.

Based on the purpose, the invention provides flower pots, wherein a cavity for storing water is formed between the outer wall and the inner wall of the flower pot close to the opening of the flower pot, at least adjusting mechanisms for controlling the cavity to be communicated with or blocked from the interior of the flower pot are arranged at the end, far away from the opening of the flower pot, of the cavity, the flower pot further comprises a main control chip and a sensor, the sensor is used for acquiring the soil humidity value in the flower pot in real time and sending the soil humidity value to the main control chip, and the main control chip is used for triggering the adjusting mechanisms when the soil humidity value is lower than a humidity threshold value, enabling the cavity to be communicated with the interior of the flower pot to replenish water, and blocking the soil humidity value with the interior of the flower pot to stop replenishing water after the soil humidity value is not lower than.

in some embodiments, the adjusting mechanism includes an electromagnet, a spring, a metal plug, and an adjusting hole, wherein the electromagnet, the spring, the metal plug, and the adjusting hole are disposed in the chamber, and the adjusting hole is disposed in the inner wall and corresponds to the metal plug in position, and the electromagnet is fixed to the outer wall and is connected to the metal plug through the spring.

in some embodiments, the adjusting mechanism includes a motor, a lead screw, a metal plug, and an adjusting hole, wherein the motor, the lead screw, the metal plug, and the adjusting hole are disposed in the chamber, and the adjusting hole is disposed in the inner wall and corresponds to the metal plug in position, and the motor is fixed to the outer wall and is connected to the metal plug through the lead screw.

In embodiments, the metal plug is conical, the inner wall of the metal plug is further provided with a receiving cavity connected to the adjusting hole, the receiving cavity is used for receiving the tip of the metal plug, and the wall of the receiving cavity is a one-way film used for preventing soil and water from flowing backwards into the th cavity.

In , the outer wall surface is provided with a flexible solar film, and the flowerpot further comprises an energy storage battery connected with the flexible solar film.

In embodiments, a second chamber is formed between the outer wall and the inner wall of the flowerpot near the bottom of the flowerpot, and the main control chip and the energy storage battery are both arranged in the second chamber.

In embodiments, the outer wall is provided with a service in communication with the second chamber.

In the flowerpot has a water inlet connected to th cavity and a detachable water inlet cover.

In embodiments, a second sensor is arranged in the chamber, the flowerpot further comprises a buzzer, the second sensor is used for sending low water level alarm information to the main control chip when the water level is too low, and the main control chip is further used for controlling the buzzer to give out low water level alarm according to the low water level alarm information.

In embodiments, a nutrient solution storage chamber and a third sensor are arranged in the chamber, the third sensor is used for collecting a concentration value of a nutrient solution in the chamber in real time and sending the concentration value to the main control chip, and the main control chip is further used for triggering the nutrient solution storage chamber to release the nutrient solution into the chamber when the concentration value of the nutrient solution is lower than a concentration threshold of the nutrient solution until the concentration value of the nutrient solution is not lower than the concentration threshold of the nutrient solution.

In embodiments, the bottom of the flowerpot is provided with an air vent with an adjustable opening size and a fourth sensor arranged close to the air vent, the fourth sensor is used for collecting an oxygen concentration value in real time and sending the oxygen concentration value to the main control chip, and the main control chip is further used for controlling the air vent to adjust the opening size of the air vent according to the oxygen concentration value.

In , the vent is an electrically controlled valve , and the main control chip is further configured to control a degree of closure of a valve of the electrically controlled valve according to the oxygen concentration value.

In embodiments, the outer wall is provided with a USB interface.

In embodiments, the flowerpot further comprises a wireless communication module for data communication with the pre-tied intelligent terminal.

In embodiments, the outer wall further comprises a display screen connected to the main control chip, wherein the display screen is used for displaying date, time and status information related to the flowerpot.

The flowerpot can be seen from the above, the water is stored in the th cavity formed between the outer wall and the inner wall, meanwhile, the soil humidity is monitored in real time through the th sensor, when the soil humidity is insufficient, the main control chip controls the adjusting mechanism to act, the th cavity is communicated with the interior of the flowerpot to replenish water, and the automatic water replenishing function is achieved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only 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 structural view of a flowerpot according to an embodiment of the invention;

FIG. 2 is a schematic view of a flowerpot according to an embodiment of the present invention ;

FIG. 3 is a schematic view of an adjustment mechanism in an embodiment of the invention;

FIG. 4 is a schematic view of an adjustment mechanism according to another embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the accompanying drawings.

It should be noted that, in the embodiments of the present invention, all expressions such as "", "second", etc. are used for distinguishing a plurality of entities with the same name but different names or different parameters, and it should be understood that the above expressions are merely for convenience of description and should not be construed as limiting the embodiments of the present invention, and the following embodiments do not describe this point .

The embodiment of the invention provides flower pots, and referring to fig. 1, the flower pot 100 comprises an outer wall 101 and an inner wall 102, wherein an annular hollow part formed between the outer wall 101 and the inner wall 102 at the position, close to the opening part of the flower pot 100, of the flower pot 100 is a -th cavity 01, the -th cavity 01 is used for storing water, at least adjusting mechanisms 1 are arranged in the -th cavity 01 and at the end far away from the opening part of the flower pot 100, the adjusting mechanisms 1 are used for controlling the connection or disconnection between the -th cavity 01 and the interior of the flower pot 100, particularly, the adjusting mechanisms 1 have an opening state and a closing state, wherein the -th cavity 01 is connected with the interior of the flower pot 100 in the opening state, water in the -th cavity 01 can enter the interior of the flower pot 100 to replenish potted plants, and the -th cavity 01 is disconnected with the interior of the flower pot 100 in the closing.

In the embodiment, the flowerpot 100 further comprises a main control chip 2 and an th sensor 3, the th sensor 3 is arranged inside the flowerpot 100 and can acquire a soil humidity value in the flowerpot 100 in real time and send the soil humidity value to the main control chip 2, the main control chip 2 receives the soil humidity value sent by the th sensor 3 in real time, when the soil humidity value is lower than a preset humidity threshold value, the adjusting mechanism 1 is triggered, the adjusting mechanism 1 is switched from a closed state to an open state, the th cavity 01 is communicated with the inside of the flowerpot 100 to replenish water, along with continuous water replenishing, when the soil humidity value is not lower than the humidity threshold value, the main control chip 2 triggers the adjusting mechanism 1 again, the adjusting mechanism 1 is switched from the open state to the closed state, and water replenishing is finished.

In this embodiment, the number of the adjusting mechanisms 1 is at least , in order to further steps to improve the uniformity of the water replenishing, preferably, the adjusting mechanisms 1 are arranged in a plurality, such as two, three, four, six, etc. when the adjusting mechanisms 1 are arranged in a plurality, the plurality of adjusting mechanisms 1 are uniformly distributed along the circumferential direction of the flowerpot 100.

According to the flowerpot provided by the embodiment of the invention, water is stored in the th cavity formed between the outer wall and the inner wall, meanwhile, the sensor monitors the soil humidity in real time, and when the soil humidity is insufficient, the main control chip controls the adjusting mechanism to act, so that the th cavity is communicated with the inside of the flowerpot to supplement water, and the automatic water supplementing function is realized.

As more specific embodiments, referring to fig. 2 and 3, on the basis of the foregoing embodiments, the adjusting mechanism 1 specifically includes an electromagnet 1001, a spring 1002, a metal plug 1003, and an adjusting hole 1004 disposed on the inner wall 102 and corresponding to the position of the metal plug 1003, wherein the electromagnet 1001 is fixed on the outer wall 101 and connected to the metal plug 1003 through the spring 1002, in the closed state of the adjusting mechanism 1, the electromagnet 1001 is in the power-off state under the control of the main control chip 2, the electromagnet 1001 and the metal plug 1003 do not interact with each other, the metal plug 1003 is inserted into the adjusting hole 1004 under the force of the spring 1002, at this time, the th chamber 01 is blocked from the inside of the flowerpot 100, when the adjusting mechanism 1 is converted into the open state, the electromagnet 1001 is energized under the control of the main control chip 2, the electromagnet 1001 sucks the metal plug 1004 out of the adjusting hole, and compresses the spring 1002 at the same time, the th chamber 01 is communicated with the inside of the flowerpot 100, when the water stored in the 3601 chamber 100 is converted into the open state, the adjusting mechanism 1003 is converted into the water replenishing state, the water in the flowerpot 100, the adjusting hole 1003 is converted into the power-off state, the metal plug 1003 is recovered from the metal plug 1003, and the adjusting hole 1002, the metal plug 1002, the adjusting mechanism 1002 is recovered.

Step , referring to fig. 3, the metal plug 1003 is in a conical shape, the tip of the conical metal plug 1003 faces the adjusting hole 1004, the tip of the metal plug 1003 can fully or partially enter the adjusting hole 1004 in the closed state of the adjusting mechanism 1, so that a better blocking effect is achieved, in addition, the metal plug 1003 is repeatedly plugged into the adjusting hole 1004 along with the conversion between the open state and the closed state of the adjusting mechanism 1, so that the adjusting hole 1004 can be effectively prevented from being blocked by scale, correspondingly, the inner wall 102 of the flowerpot 100 is further provided with a containing cavity 1005 connected with the adjusting hole 1004, in the closed state of the adjusting mechanism 1, the part, located inside the flowerpot 100, of the tip of the metal plug 1003 after entering the adjusting hole 1004 can be contained in the containing cavity 1005 by the containing cavity 1005, the containing cavity provides an action space for the metal plug 1003, so that the metal plug 1003 is prevented from directly contacting soil in the flowerpot 100, the water stored in the containing cavity 1005 is a one-way film, the flowing direction of the one-way film is from the chamber 1005, namely, the water and the water in the flowerpot 100 cannot enter the one-way soil 1005 and the water containing cavity in the flowerpot 100 through the one-way soil 63.

In this embodiment, the flexible solar film 4 is arranged on the surface of the outer wall 101 of the flowerpot 100, the flexible solar film 4 has the characteristics of being light, thin, flexible and bendable, and based on the characteristics, the flexible solar film 4 is arranged on the surface of the outer wall 101 of the flowerpot 100 to perform photovoltaic power generation, and in addition, the flexible solar film 4 also has the characteristic of weak power generation, so that the flowerpot 100 of the embodiment can still normally work under the condition of a weak light environment or the condition that light is partially shielded, and steps are further included, the flowerpot 100 of the embodiment further comprises an energy storage battery 5 connected with the flexible solar film 4, wherein the energy storage battery 5 can store electric quantity converted by the flexible solar film 4 under the light environment and supplies power for the main control chip 2, the th sensor 3 and other electric components included in the flowerpot 100.

In this embodiment, referring to fig. 2, a second chamber 02 is formed between the outer wall 101 and the inner wall 102 of the flowerpot 100 near the bottom thereof, that is, an annular cavity formed by the outer wall 101 and the inner wall 102 is formed at the lower part of the flowerpot 100, the second chamber 02 and the th chamber 01 are separated from each other by a partition structure to form two independent chambers, the second chamber 02 forms a accommodating space for accommodating other components included in the flowerpot 100, for example, the main control chip 2 and the energy storage battery 5 are both disposed in the second chamber 02.

referring to fig. 2, the outer wall 101 of the pot 100 is provided with a maintenance 6 which is in communication with the second chamber 02. during normal use, the maintenance 6 is closed and locked by a locking mechanism such as a latch, a lock, etc. unlocking the maintenance 6 exposes a portion of the inner space of the second chamber 02, which allows for installation, repair, replacement, etc. of the components in the second chamber 02.

In this embodiment, referring to fig. 2, the mouth of the flowerpot 100 is provided with a water inlet 7 communicated with the th chamber 01, and water can be conveniently supplemented into the th chamber 01 through the water inlet 7. in step , the water inlet 7 is provided with a detachable water inlet cover 8, the water inlet 7 can be closed through the water inlet cover 8, so that the closure of the th chamber 01 is ensured, foreign matters are prevented from entering the th chamber 01, and water in the th chamber 01 is prevented from evaporating.

In this embodiment, referring to fig. 2, a second sensor 9 is disposed in the th cavity 01, the second sensor 9 is a water level sensor, and is capable of monitoring the water level in the th cavity 01, comparing the measured water level signal with a set signal, and sending low water level alarm information to the main control chip 2 when the water level is too low.

In this embodiment, a nutrient solution storage chamber 10 and a third sensor 11 are arranged in the th cavity 01, nutrient solution beneficial to plant growth is stored in the nutrient solution storage chamber 10, the nutrient solution storage chamber 10 is provided with an opening mechanism enabling the nutrient solution to flow out or be sprayed out, the third sensor 11 is a liquid concentration sensor which can be arranged according to the type of the nutrient solution, collect the concentration value of the nutrient solution in the water in the th cavity 01 in real time and send the concentration value to the main control chip 2, correspondingly, the main control chip 2 is further used for triggering the nutrient solution storage chamber 10 when the concentration value of the nutrient solution is lower than the concentration threshold value of the nutrient solution, so that the opening mechanism of the nutrient solution storage chamber 10 is opened, the nutrient solution is released into the th cavity 01 to adjust the concentration value of the nutrient solution in the water in the th cavity 01, and the main control chip 2 closes the opening mechanism of the nutrient solution storage chamber 10 when the concentration value of the nutrient solution is not lower than the concentration threshold value of the nutrient solution.

In this embodiment, the bottom of the flowerpot 100 is provided with an air vent with an adjustable opening size, and a fourth sensor arranged close to the air vent, wherein the air vent provides an oxygen channel for aerobic respiration of plants in the flowerpot 100 and can also discharge excessive moisture in soil, the fourth sensor is an oxygen concentration sensor and is used for collecting an oxygen concentration value in real time and sending the oxygen concentration value to the main control chip 2, correspondingly, the main control chip 2 is also used for controlling the air vent to adjust the opening size according to the oxygen concentration value sent by the fourth sensor, the opening of the air vent is reduced when the oxygen concentration is too high according to a preset oxygen concentration threshold, the opening of the air vent is increased when the oxygen concentration is too low, specifically, the air vent is an electric control valve , and under the control of the main control chip 2, the valve of the electric control valve corresponds to the opening size of the air vent through different closing degrees of the valve .

In this embodiment, the outer wall 101 of the flowerpot 100 is provided with a USB port. The USB interface is connected with the energy storage battery 5, and can charge the energy storage battery 5 from the outside; in addition, the energy storage battery 5 can be used as a power supply to supply power to external electric equipment through the USB interface.

In the embodiment, the flowerpot 100 further comprises a wireless communication module, the wireless communication module can be in data communication with a pre-bound intelligent terminal, the intelligent terminal can be a PAD, a mobile phone or PC., and the wireless communication module enables the flowerpot 100 of the embodiment to interact with the intelligent terminal, specifically, the wireless communication module can send the acquired values of the sensors, the electric quantity of the energy storage battery 5 and or more pieces of information in the residual water quantity in the chamber 01 to the intelligent terminal in real time for a user to check, in addition, in the aspect of , the user can also send a control command to the flowerpot 100 through the intelligent terminal, control the work of each component in the flowerpot 100 through the processing of the main control chip 2, for example, control a buzzer to alarm, release nutrient solution from the nutrient solution storage chamber 10, and control the opening size of the vent hole.

In this embodiment, referring to fig. 2, a display screen 12 connected to a main control chip (2) is further disposed on an outer wall 101 of the flowerpot 100, where the display screen 12 is used to display date, time, and related status information of the flowerpot 100, where the related status information of the flowerpot 100 may include one or more of a soil humidity value, an electric quantity of the energy storage battery 5, a water quantity of an th chamber 01, a nutrient solution concentration value, an oxygen concentration value, a working status of a USB interface, and items in a connected intelligent terminal.

, the th sensor is a temperature and humidity sensor, which can detect the soil humidity in the flowerpot 100 and the soil temperature in the flowerpot 100 and display the temperature and the temperature through the display screen 12.

, the flowerpot 100 may also be provided with an alarm clock function based on the buzzer and display 12.

In this embodiment, the display screen 12 is a touch screen, and a user can directly input an instruction through the display screen 12 in a touch manner to control each electronic component of the flowerpot 100, such as modifying display time, setting an alarm clock, setting a threshold of each sensor, and the like.

Therefore, the flowerpot of the embodiment can display daily information such as date and time and related state information of the flowerpot through the display screen, the using function of the flowerpot is further enriched by , and multiple purposes of objects are achieved.

In optional embodiments, referring to fig. 4, the adjusting mechanism 1 specifically includes a motor 1005, a lead screw 1006, a metal plug 1003, and an adjusting hole 1004 disposed on the inner wall 102 of the flowerpot 100 and corresponding to the position of the metal plug 1003, where the motor 1005 is fixed on the outer wall 101 and connected to the metal plug 1003 through the lead screw 1006, specifically, an end of a screw 10061 in the lead screw 1006 is connected to an output end of the motor 1005, and an end is close to the adjusting hole 1004, the metal plug 1003 is fixedly connected to a nut 10062 in the lead screw 1006, where, in a closed state of the adjusting mechanism 1, based on control of the main control chip 2, the lead screw 1006 is located at an side of the screw 10061 close to the adjusting hole 1004, the metal plug 1003 is plugged into the adjusting hole 1004, at this time, the chamber 01 of the is blocked from the inside of the flowerpot 100, when the adjusting mechanism 1 is converted into an open state, under control of the main control chip 2, the motor 1005 works and the metal plug 1005 is moved along with the lead screw 1005 and further moved in the direction of the motor 1005, and then the adjusting hole 1005 is connected to the adjusting mechanism 357, and the adjusting mechanism 1005 is connected to the adjusting mechanism 1005, and the adjusting mechanism 1005 is connected to the adjusting mechanism 100, and the adjusting mechanism 1005 is connected to the adjusting mechanism 1005, and the adjusting mechanism 1005 is connected to the adjusting mechanism 100, and the adjusting mechanism 1005 is connected to the adjusting mechanism 100 in a manner of the adjusting mechanism 100, and the adjusting mechanism 100, the adjusting mechanism 100 is connected to the adjusting mechanism 100 in a step of the adjusting mechanism 100, the adjusting mechanism is connected to the adjusting mechanism 100, the.

Those of ordinary skill in the art will understand that: the discussion of any embodiment above is meant to be exemplary only, and is not intended to intimate that the scope of the disclosure, including the claims, is limited to these examples; within the idea of the invention, also features in the above embodiments or in different embodiments may be combined, steps may be implemented in any order, and there are many other variations of the different aspects of the invention as described above, which are not provided in detail for the sake of brevity.

In addition, well known power/ground connections to Integrated Circuit (IC) chips and other components may or may not be shown within the provided figures for simplicity of illustration and discussion, and so as not to obscure the invention. Furthermore, devices may be shown in block diagram form in order to avoid obscuring the invention, and also in view of the fact that specifics with respect to implementation of such block diagram devices are highly dependent upon the platform within which the present invention is to be implemented (i.e., specifics should be well within purview of one skilled in the art). Where specific details (e.g., circuits) are set forth in order to describe example embodiments of the invention, it should be apparent to one skilled in the art that the invention can be practiced without, or with variation of, these specific details. Accordingly, the description is to be regarded as illustrative instead of restrictive.

While the present invention has been described in conjunction with specific embodiments thereof, many alternatives, modifications, and variations of these embodiments will be apparent to those of ordinary skill in the art in light of the foregoing description. For example, other memory architectures (e.g., dynamic ram (dram)) may use the discussed embodiments.

The embodiments of the invention are intended to embrace all such alternatives, modifications and variances that fall within the broad scope of the appended claims. Therefore, any omissions, modifications, substitutions, improvements and the like that may be made without departing from the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims (15)

1. The flowerpot is characterized in that a th chamber (01) for storing water is formed between an outer wall (101) and an inner wall (102) of the flowerpot (100) close to the opening of the flowerpot, at least adjusting mechanisms (1) for controlling the connection or disconnection between the th chamber (01) and the interior of the flowerpot (100) are arranged at the end of the th chamber (01) far away from the opening of the flowerpot (100), the flowerpot (100) further comprises a main control chip (2) and a rd sensor (3), the th sensor (3) is used for collecting the soil humidity value in the flowerpot (100) in real time and sending the soil humidity value to the main control chip (2), and the main control chip (2) is used for triggering the adjusting mechanism (1) when the soil humidity value is lower than a humidity threshold value, so that the th chamber (01) is connected with the interior of the flowerpot (100) for water supplement until the soil humidity value is not lower than the humidity threshold value and then is disconnected with the interior of the flowerpot (100) to stop water supplement.
2. 2. A flowerpot according to claim 1, wherein the adjusting mechanism (1) comprises an electromagnet (1001) arranged in the th cavity (01), a spring (1002), a metal plug (1003), and an adjusting hole (1004) arranged on the inner wall (102) and corresponding to the metal plug (1003), wherein the electromagnet (1001) is fixed on the outer wall (101) and connected with the metal plug (1003) through the spring (1002).
3. 3. A flowerpot according to claim 1, wherein the adjusting mechanism comprises a motor (1005), a lead screw (1006), a metal plug (1003) and an adjusting hole (1004) which is arranged in the th cavity and corresponds to the metal plug (1003), the motor (1005) is fixed on the outer wall (101) and is connected with the metal plug (1003) through the lead screw (1006).
4. 4. A flower pot according to claim 2 or 3, characterized in that the metal stopper (1003) is conical in shape, the inner wall (102) is further provided with a containing cavity (1005) connected with the adjusting hole (1004), the containing cavity (1005) is used for containing the tip of the metal stopper (1003), and the wall of the containing cavity (1005) is a one-way film which is used for preventing soil and moisture from flowing backwards into the th cavity (01).
5. 5. A plant pot according to claim 1, characterized in that the surface of the outer wall (101) is provided with a flexible solar film (4); the flowerpot (100) further comprises: and the energy storage battery (5) is connected with the flexible solar thin film (4).
6. 6. A plant pot according to claim 5, characterized in that the pot (100) near its bottom has a second chamber (02) between the outer wall (101) and the inner wall (102); the main control chip (2) and the energy storage battery (5) are arranged in the second chamber (02).
7. 7. A plant pot according to claim 6, characterized in that the outer wall (101) is provided with a service communicating with the second chamber (02).
8. 8. A flower pot according to claim 1, characterized in that the mouth of the flower pot (100) is provided with a water injection port (7) which is communicated with the th chamber (01), and the water injection port (7) is provided with a detachable water injection port cover (8).
9. 9. A flowerpot according to claim 1, wherein a second sensor (9) is arranged in the chamber (01), the flowerpot (100) further comprises a buzzer, the second sensor (9) is used for sending low water level alarm information to the main control chip (2) when the water level is too low, and the main control chip (2) is further used for controlling the buzzer to give a low water level alarm according to the low water level alarm information.
10. 10. A flowerpot according to claim 1, wherein a nutrient solution storage chamber (10) and a third sensor (11) are arranged in the th cavity (01), the third sensor (11) is used for collecting a concentration value of a nutrient solution in the th cavity (01) in real time and sending the concentration value to the main control chip (2), and the main control chip (2) is further used for triggering the nutrient solution storage chamber (10) to release the nutrient solution into the th cavity (01) when the concentration value of the nutrient solution is lower than a threshold value of the concentration of the nutrient solution until the concentration value of the nutrient solution is not lower than the threshold value of the concentration of the nutrient solution.
11. 11. A planter according to claim 1, wherein the bottom of the planter (100) is configured with a vent having an adjustable opening, and a fourth sensor positioned proximate the vent; the fourth sensor is used for acquiring an oxygen concentration value in real time and sending the oxygen concentration value to the main control chip (2); the main control chip (2) is also used for controlling the vent hole to adjust the size of the opening according to the oxygen concentration value.
12. 12. A planter according to claim 11, wherein the vent is an electrically controlled valve , and the control chip (2) is further adapted to control the degree of closure of the valve of the electrically controlled valve based on the oxygen concentration value.
13. 13. A planter according to claim 1, wherein the outer wall (101) is provided with a USB port.
14. 14. A planter according to claim 1, further comprising: and the wireless communication module is used for carrying out data communication with the pre-bound intelligent terminal.
15. 15. A planter according to any one of claims 1-3 and 5-14, wherein the outer wall (101) is further provided with a display (12) connected to the main control chip (2), the display (12) being configured to display the date, time and status information associated with the planter (100).

Images