CN216081576U - Wireless hydroponic planting sensor - Google Patents

Abstract

A wireless hydroponic sensor, wherein the wireless hydroponic sensor comprises: the device comprises a main control module, an indication module, an environment sensor, a water quality sensor and a shell; the main control module, the environment sensor and the water quality sensor are all arranged in the shell; the indicating module, the environment sensor and the water quality sensor are all electrically connected with the main control module; the environment sensor is used for detecting plant growth environment parameters of the hydroponic planting pot; the water quality sensor extends into the water of the hydroponic planting pot and is used for detecting water quality parameters; and the main control module is used for controlling the indicating module to provide different indications according to the plant growth environment parameters and the water quality parameters. The wireless hydroponic sensor does not need an external sensor, and is compact in structure and convenient to operate. The requirement of the user on miniaturization and convenience of the hydroponic planting sensor is met.

Description

Wireless hydroponic planting sensor

Technical Field

The embodiment of the application relates to the technical field of smart homes, in particular to a wireless hydroponic planting sensor.

Background

In order to meet the demand of people for indoor planting, various hydroponics planters for indoor planting have appeared. During hydroponic planting, a sensor is needed to detect the hydroponic planting environment.

The existing sensors for hydroponics are wired, need to be externally connected with a power supply and an inductor, and are inconvenient to use.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a wireless hydroponic planting sensor, which can solve the problem that the existing sensor for hydroponic needs to be externally connected with a power supply and an inductor and is inconvenient to use.

An aspect of an embodiment of the present application provides a wireless hydroponic sensor, including:

the device comprises a main control module, an indication module, an environment sensor, a water quality sensor and a shell;

the main control module, the environment sensor and the water quality sensor are all arranged in the shell;

the indicating module, the environment sensor and the water quality sensor are all electrically connected with the main control module;

the environment sensor is used for detecting plant growth environment parameters of the hydroponic planting pot;

the water quality sensor extends into the water of the hydroponic planting pot and is used for detecting water quality parameters;

the main control module is used for controlling the indicating module to provide different indications according to the plant growth environment parameters and the water quality parameters.

Further, the housing comprises a first housing;

the main control module and the environment sensor are arranged inside the first shell;

the upper surface of the first shell is provided with a transparent sensing window, and the environment sensor detects plant growth environment parameters of the hydroponic planting pot through the sensing window.

Further, the housing further comprises a second housing;

the second shell is inserted into the clamping groove in the lower surface of the first shell, the water quality sensor is arranged inside the lower end of the second shell, and the lower end of the second shell is of an opening structure.

Further, the shape of the outer surface of the second shell is matched with the shape of the inner surface of the planting position on the hydroponic planting pot.

Further, the environmental sensor includes: temperature sensor, humidity transducer, illumination intensity sensor and illumination colour sensor.

Further, the water quality sensor comprises a probe, and the probe comprises at least one probe.

Further, the indication module includes: an indicator light and a transparent housing;

the indicating lamp is positioned in the transparent shell, and the transparent shell is inserted into the clamping groove in the upper surface of the first shell;

the indicator light is electrically connected with the main control module.

Furthermore, a wireless communication module is arranged in the main control module.

Further, the wireless hydroponic sensor still includes the battery:

the battery is arranged inside the first shell and electrically connected with the main control module.

Furthermore, an operating button is arranged on the upper surface of the first shell, and the operating button and the sensing window are arranged on two sides of the indicator light in a split mode.

According to the above embodiments of the present application, set up wireless hydroponic planting sensor on hydroponic planting basin, which comprises a housing, host system, indicating module, environmental sensor and water quality inductor, this environmental sensor detects the vegetation environmental parameter of this hydroponic planting basin, this water quality inductor stretches into the aquatic detection water quality parameter of this hydroponic planting basin, this host system acquires and preserves this vegetation environmental parameter and this water quality parameter, and this indicating module provides different instructions for the user according to this vegetation environmental parameter and this water quality parameter control, wherein, host system, environmental sensor and water quality inductor all set up in this wireless hydroponic planting sensor's casing, need not external, this wireless hydroponic planting sensor's compact structure, convenient operation. The requirement of the user on miniaturization and convenience of the hydroponic planting sensor is met.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and those skilled in the art can also obtain other drawings according to the drawings without inventive labor.

FIG. 1 is a schematic diagram of a wireless hydroponic sensor in one embodiment of the present application;

FIG. 2 is a schematic diagram of a wireless hydroponic sensor in another embodiment of the present application;

FIG. 3 is a schematic view of a wireless hydroponic sensor in another embodiment of the present application;

FIG. 4 is a schematic view of a wireless hydroponic sensor in another embodiment of the present application;

FIG. 5 is a top view of FIG. 2;

FIG. 6 is a bottom view of FIG. 2;

FIG. 7 is a schematic view of the connection between the wireless hydroponic sensor and the planting pot in the embodiment of the present application;

FIG. 8 is a block diagram of a wireless hydroponic growth sensor processing conductivity signals in an embodiment of the present application;

fig. 9 is a schematic diagram of a hardware connection structure of the wireless hydroponic sensor in the embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present invention, but not all embodiments. 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.

The embodiment of the application provides a wireless hydroponic planting sensor, inserts on the planting position of hydroponic planting basin, and the upper end of wireless hydroponic planting sensor is exposed in the air, and plant growth environmental parameters such as the temperature, humidity and the luminosity of the environment of detectable hydroponic planting basin, and the lower extreme of wireless hydroponic planting sensor inserts aquatic, and quality of water parameters such as the temperature of detectable hydroponic planting basin normal water, water yield, nutrient composition, pH value and oxygen content.

Specifically, referring to fig. 1, fig. 1 is a schematic structural diagram of a wireless hydroponic sensor provided in an embodiment of the present application, the wireless hydroponic sensor being disposed on a hydroponic planting pot, the wireless hydroponic sensor mainly including:

the system comprises a main control module 10, an indication module 20, an environment sensor 30, a water quality sensor 40 and a shell 50;

the main control module 10, the environment sensor 30 and the water quality sensor 40 are all arranged in the shell 50;

the indication module 20, the environment sensor 30 and the water quality sensor 40 are all electrically connected with the main control module 10;

the environment sensor 30 is used for detecting the plant growth environment parameters of the hydroponic planting pot;

the water quality sensor 40 extends into the water of the hydroponic planting pot and is used for detecting water quality parameters;

the main control module 10 is configured to control the indication module 20 to provide different indications for the user according to the plant growth environment parameter and the water quality parameter.

The plant growth environment parameters comprise: temperature, humidity, luminosity, etc., the water quality parameters include: water temperature, water quantity, nutrient components, pH value, oxygen content and the like.

In this embodiment, set up wireless hydroponic planting sensor on hydroponic planting basin, which comprises a housin, host system, indicating module, environment sensor and water quality inductor, this environment sensor detects the vegetation environmental parameter of this hydroponic planting basin, this water quality inductor stretches into the aquatic detection water quality parameter of this hydroponic planting basin, this host system acquires and preserves this vegetation environmental parameter and this water quality parameter, and this indicating module provides different instructions for the user according to this vegetation environmental parameter and this water quality parameter control, wherein, host system, environment sensor and water quality inductor all set up in this wireless hydroponic planting sensor's casing, need not externally, this wireless hydroponic planting sensor's compact structure, convenient operation. The requirement of the user on miniaturization and convenience of the hydroponic planting sensor is met.

Referring to fig. 2-6, fig. 2-4 are schematic structural views of another embodiment of the wireless hydroponic sensor, fig. 5 is a top view of the wireless hydroponic sensor, fig. 6 is a bottom view of the wireless hydroponic sensor, the housing 50 of the wireless hydroponic sensor further comprises a first housing 51, and the first housing 51 is a flat square box;

wherein the main control module and the environment sensor (not shown in fig. 2-6) are disposed inside the first housing 51;

the upper surface of the first housing 51 is provided with a transparent sensing window 53, and the above-mentioned environment sensor detects the plant growth environment parameter of the hydroponic planting pot through the sensing window 53, and the environment sensor includes: temperature sensor, humidity transducer, illumination intensity sensor and illumination colour sensor. The illumination intensity and color can be measured.

Further, the housing 50 further includes a second housing 52, the second housing 52 is a cylinder with a thick upper part and a thin lower part;

the second housing 52 is inserted into the clamping groove on the lower surface of the first housing 51, the water quality sensor 40 is arranged inside the lower end of the second housing 52, the lower end of the second housing 52 is of an open structure, the water quality sensor 40 comprises a probe, the probe comprises at least one probe, as shown in the figure, the probe comprises two probes, namely a first probe 41 and a second probe 42, and the first probe 41 and the second probe 42 are both located inside the second housing 52. In addition, the number of probes can be increased according to actual needs in specific implementation.

Further, the indication module 20 includes: the LED lamp comprises an indicator light 21 and a transparent shell 22, wherein the indicator light 21 is specifically an RGB LED lamp;

the indicator light 21 is located inside the transparent casing 22, and the transparent casing 22 is inserted into the card slot on the upper surface of the first housing 51.

In the first housing 51, the indicator light 21 is electrically connected to the main control module 10, and is configured to flash at different frequencies, durations or colors according to instructions of the main control module 10, so as to provide an indication that preset normal values such as temperature, humidity, luminosity, water amount, nutrient content, ph value and oxygen content are too high, too low or within a normal range. For example, if the water amount is too low and the nutrition is insufficient, the sensor indicator 84 may remind the user through a preset light and flashing manner.

Further, a temperature sensor and a humidity sensor are further arranged in the wireless hydroponic planting sensor 100, and the temperature and the humidity of the planting environment can be detected.

Further, a wireless communication module, for example, a bluetooth module or a WIFI module, is provided in the main control module 10, the wireless hydroponic sensor 100 can communicate wirelessly with a planting management client of a user through the wireless communication modules such as the bluetooth module or the WIFI module, acquire management parameters in a planting program set by the user through the planting management client, and send data of the plant growth environment parameters and a prompting message about temperature, humidity, luminosity, water temperature, water amount, nutrient content, ph value and oxygen content to the planting management client. The above functions of the wireless hydroponic sensor can improve the intelligent degree of hydroponic planting.

The wireless hydroponic sensor further comprises a battery disposed inside the first housing 51, the battery being electrically connected to the main control module 10. The battery can be a rechargeable battery which can be charged for many times, and can also be a common non-rechargeable battery.

Further, an operation button 52 for controlling the switch of the wireless hydroponic sensor is arranged on the upper surface of the first housing 51, and an operation button 54 and a sensing window 53 are arranged on both sides of the indicator light 21. The operation buttons 54 are also used to control the activation and deactivation of wireless connection means such as bluetooth.

Fig. 7 is a schematic view of the wireless hydroponic sensor 100 installed on the hydroponic planting pot, referring to fig. 7, in the embodiment of the present invention, the wireless hydroponic sensor 100 is installed on the hydroponic planting pot 200 for sensing the plant growth environment parameters in the hydroponic planting pot 200, a plurality of planting positions 202 are installed on the planting pot cover 201 of the hydroponic planting pot 200, the outer surface shape of the second housing 52 of the wireless hydroponic sensor 100 matches the inner surface shape of the planting positions 202 on the hydroponic planting pot 200, that is, the bottom of the wireless hydroponic sensor 100 matches the shape of the planting positions 202, the wireless hydroponic sensor 100 can be inserted on the planting positions 202, and the bottom can extend into the water of the plant in the hydroponic planting pot 200 to detect the water quality parameters.

Referring to fig. 8, the main control module 10 controls the first probe 41 and the second probe 42 to release an ac signal into the water in the hydroponic growing basin 200, and then receives the ac signal, and then performs signal processing such as amplification and a/D conversion on the ac signal, so that the water quality parameter, for example, when the conductivity of the water in the growing basin 30 needs to be measured, the measured conductivity can be added with a temperature compensation algorithm to calculate the final conductivity. The main control module 10 stores the water quality parameter and can send the water quality parameter to the planting management client.

Referring to fig. 9, fig. 9 is a schematic diagram of a hardware connection structure of the wireless hydroponic sensor 100, and the wireless hydroponic sensor 100 may further include, in addition to the above components: a real time clock and a flash memory. Wherein the real-time clock is used for acquiring time parameters; the flash memory is used for storing various data collected by the wireless hydroponic planting sensor 100. All parts of the wireless hydroponic sensor 100 are connected with the main control module of the wireless hydroponic sensor 100.

The planting program is provided with planting parameters corresponding to the plants, namely management parameters.

In this embodiment, the wireless hydroponic sensor disposed on the hydroponic planting pot comprises a first housing, a second housing, a main control module, an indicator light, an environmental sensor, and a probe, wherein the main control module and the environmental sensor are disposed inside the first housing, a transparent sensing window is disposed on the upper surface of the first housing, the environmental sensor detects the plant growth environmental parameters of the hydroponic planting pot through the sensing window, the second housing is inserted into a slot on the lower surface of the first housing, the probe is disposed inside the lower end of the second housing, the lower end of the second housing is an opening structure, the probe extends into the water of the hydroponic planting pot to detect the water quality parameters, the main control module obtains and stores the plant growth environmental parameters and the water quality parameters, and controls the indicator light to provide different indications for a user according to the plant growth environmental parameters and the water quality parameters, and the battery is disposed inside the first housing, wherein, battery, host system, environmental sensor and quality of water inductor all set up in this wireless hydroponic plants the casing of sensor, need not external power supply and inductor, this wireless hydroponic plants the compact structure of sensor, convenient operation. The requirement of the user on miniaturization and convenience of the hydroponic planting sensor is met. The main control module is provided with a wireless communication module, and can communicate with other equipment through a wireless network, so that data transmission between the wireless hydroponic planting sensor and other equipment can be realized. And is waterproof, washable and convenient to clean.

It should be noted that the wireless hydroponic sensor provided in the embodiment of the present application has the function of detecting parameters related to planting in the air environment and the water environment, and can be applied to any type of planting pot, and is not limited to the hydroponic planting pot with the specific structure shown in the above embodiment, and the above hydroponic planting pot is only an example and does not limit the application range of the wireless hydroponic sensor provided in the present application.

In the above embodiments, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments.

In view of the above description of the wireless hydroponic sensor provided by the present invention, those skilled in the art will appreciate that the utility model is not limited to the above description, and that the utility model is not limited to the above description.

Claims (10)

1. The utility model provides a wireless hydroponic plants sensor, sets up on hydroponic plants basin, its characterized in that includes:

the device comprises a main control module, an indication module, an environment sensor, a water quality sensor and a shell;

the main control module, the environment sensor and the water quality sensor are all arranged in the shell;

the indicating module, the environment sensor and the water quality sensor are all electrically connected with the main control module;

the environment sensor is used for detecting plant growth environment parameters of the hydroponic planting pot;

the water quality sensor extends into the water of the hydroponic planting pot and is used for detecting water quality parameters;

the main control module is used for controlling the indicating module to provide different indications according to the plant growth environment parameters and the water quality parameters.

2. The wireless hydroponic growth sensor of claim 1 wherein the housing comprises a first housing;

the main control module and the environment sensor are arranged inside the first shell;

the upper surface of the first shell is provided with a transparent sensing window, and the environment sensor detects plant growth environment parameters of the hydroponic planting pot through the sensing window.

3. The wireless hydroponic growth sensor of claim 2 wherein the housing further comprises a second housing;

the second shell is inserted into the clamping groove in the lower surface of the first shell, the water quality sensor is arranged inside the lower end of the second shell, and the lower end of the second shell is of an opening structure.

4. The wireless hydroponic growth sensor of claim 3 wherein the shape of the outer surface of the second housing matches the shape of the inner surface of the planting site on the hydroponic growth pot.

5. The wireless hydroponic growth sensor of claim 1, wherein the environmental sensor comprises: temperature sensor, humidity transducer, illumination intensity sensor and illumination colour sensor.

6. The wireless hydroponic growth sensor of claim 1 wherein the water quality sensor comprises a probe, the probe comprising at least one probe.

7. The wireless hydroponic growth sensor of claim 2 wherein the indication module comprises: an indicator light and a transparent housing;

the indicating lamp is positioned in the transparent shell, and the transparent shell is inserted into the clamping groove in the upper surface of the first shell;

the indicator light is electrically connected with the main control module.

8. The wireless hydroponic sensor of claim 1 wherein the master control module has a wireless communication module disposed therein.

9. The wireless hydroponic sensor of claim 2, further comprising a battery:

the battery is arranged inside the first shell and electrically connected with the main control module.

10. The wireless hydroponic sensor of claim 7 wherein the upper surface of the first housing has an operating button, the operating button and the sensing window being arranged on opposite sides of the indicator light.

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