KR102382810B1 - Automatic Supply and Supply Flower System with IoT Sensor - Google Patents

Abstract

The present invention is installed on one side of the automatic water supply means for automatically supplying water to the water storage space of the flowerpot, so that the user can check the movement of the rotary tube of the automatic water supply means through a smartphone in real time. To a pot system for watering, the present invention includes a pot (100); Installed on one side of the inside of the flowerpot 100 , water sent from the support pipe 120 is supplied to the water storage space of the flowerpot 100 , or water sent from the support pipe 120 is stored in the pot 100 . an automatic water supply means 126 that prevents it from being supplied to the space; It is installed on one side of the automatic water supply means 126, receives the rotation detection command signal of the rotary tube 142 of the automatic water supply means 126 from the smartphone, and sends the received rotation detection command signal to the IoT sensor 152 , a control unit 148 that analyzes the rotation angle value sent from the IoT sensor 152 and sends the analysis information to the smartphone; It is electrically connected to the control unit 148 and rotates counterclockwise when the water supplied to the water storage space of the flowerpot 100 rises upward according to the control signal of the control unit 148, or the supplied water falls downward. An IoT sensor 152 that detects in real time the rotation angle of the rotary tube 142 of the automatic water supply means 126 that rotates clockwise when going; It includes a smartphone 200 that sends a rotation detection command signal to the control unit 148, receives analysis information of the rotation angle value from the control unit 148, and displays it on the screen.

Description

Automatic Supply and Supply Flower System with IoT Sensor

The present invention relates to a flowerpot, and more particularly, it is installed on one side of the automatic water supply means for automatically supplying water to the water storage space of the flowerpot so that the user can control the movement of the rotary tube of the automatic water supply means through a smartphone in real time. It relates to a flowerpot system for automatic watering equipped with an IoT sensor that can be checked.

In general, a flowerpot is a container in which plants such as flowers are planted.

The pot is made of a material such as ceramics, synthetic resin, wood or metal, and the inside of the pot is filled with soil, stones, compost, and the like.

In addition, the size of a flower or tree may vary depending on the size of the flowerpot, and the shape or shape of the flowerpot may vary depending on the planted plants, such as plants or trees.

In addition, the flowerpot is being developed in various forms, and a number of applications have been filed with the Korean Intellectual Property Office, and among the many applications, Application No. 10-2012-0122533 (Title of the Invention) dated October 31, 2012 : Flowerpot) claims, "In the flowerpot, the upper part of one side is open, the space part is formed inside, the insertion groove part is provided on the outer peripheral side, the bottom surface of the space part protrudes by a predetermined length, the upper part is open, and the inside A support member having a space portion is installed on one side of the support member, and a guide hole connecting the space portion and the outer circumferential side of the support member is installed on one side of the body case; , a plurality of through-holes are formed on the side surface, a locking protrusion is provided at the inner lower end, and a first support member inserted into the guide hole of the main body case so that it can be moved by being inserted into the space of the guide ball and the support member at the lower part is installed, and at one end of the first support member, a second case having a fixing member installed with a second support member inserted into the support member space of the main body case is installed.

However, the conventional flowerpot does not have an automatic watering means installed therein, so there is a cumbersome problem that the user has to manually water each plant with the plant planted inside the flowerpot, and the user controls the movement of the rotary tube of the automatic watering means. There was a problem that could not be checked through a smartphone in real time.

Accordingly, the present invention is an improved invention to solve the various problems according to the prior art, and an object of the present invention is to be installed on one side of the automatic water supply means for automatically supplying water to the water storage space of a flowerpot so that the user can automatically An object of the present invention is to provide an automatic watering plant system equipped with an IoT sensor that can check the movement of the rotary tube of the watering means through a smartphone in real time.

However, the object of the present invention is not limited to the above-mentioned objects, and other objects not mentioned will be clearly understood by those skilled in the art from the following description.

An automatic watering plant system having an IoT sensor according to the present invention for achieving the above object,
Flowerpot 100 and; Installed on one side of the inside of the flowerpot 100 , water sent from the support pipe 120 is supplied to the water storage space of the flowerpot 100 , or water sent from the support pipe 120 is stored in the pot 100 . In the automatic watering plant system having an IoT sensor including an automatic watering means 126 that prevents it from being supplied to the space,
It is installed on one side of the automatic water supply means 126, receives the rotation detection command signal of the rotary tube 142 of the automatic water supply means 126 from the smartphone, and sends the received rotation detection command signal to the IoT sensor 152 , a control unit 148 that analyzes the rotation angle value sent from the IoT sensor 152 and sends the analysis information to the smartphone;
It is electrically connected to the control unit 148 and rotates counterclockwise when the water supplied to the water storage space of the flowerpot 100 rises upward according to the control signal of the control unit 148, or the supplied water falls downward. An IoT sensor 152 that detects in real time the rotation angle of the rotary tube 142 of the automatic water supply means 126 that rotates clockwise when going;
including a smart phone 200 that sends a rotation detection command signal to the control unit 148, receives analysis information of the rotation angle value from the control unit 148, and displays it on the screen,
The flowerpot 100 is
a body 102 having an accommodating space therein;
a flange 106 installed to protrude outward along the upper surface of the main body 102 and having a fastening groove 104 at regular intervals;
It is located in the receiving space of the main body 102 and divides the inside of the main body into a water storage unit and a plant cultivation unit, and has a through hole at a predetermined interval and at the same time a first core support pipe at a predetermined interval from the through hole. a horizontal bulkhead having a second core supporting pipe facing each other at a predetermined distance from the first core supporting pipe;
a first support leg installed on one side of the bottom of the horizontal bulkhead in the downward direction to support the horizontal bulkhead;
a second support leg installed in a downward direction on one side of the bottom surface of the horizontal bulkhead 114 to face each other at a predetermined distance from the first supporting leg to support the horizontal bulkhead;
a support pipe 120 that is press-fitted into the side insertion hole of the main body 102 to supply water to the automatic water supply means;
A connection pipe for supplying water to the support pipe 120 by being detachably screw-coupled to the inside of the support pipe 120 and provided with a separation prevention rake 122 that is rounded and protruded in one direction at a predetermined interval on the outer circumferential surface. (124) and;
A water level gauge 130 installed on one side of the side of the main body 102 at a predetermined distance from the automatic water supply means 126 to inform the user of the level of water stored in the water storage space inside the main body 102 and ;
a discharge pipe 132 installed at the lower end of one side of the body 102 at a predetermined distance from the water level gauge 130 to discharge the water stored in the water storage space inside the body 102 to the outside;
A water supply wick rod for supplying water to the plants planted in the plant cultivation space inside the body 102 by being press-fitted into the first wick support pipe and the second wick support pipe to suck up the water stored in the water storage space;
It includes wheels 135 that are installed on the bottom surface of the main body 102 at regular intervals to help the movement of the main body 102,
The automatic water supply means 126,
a horizontal support cover 136 installed at the end of the support pipe 120 while being horizontally positioned in the water storage space inside the body 102;
It is installed horizontally through the inner center of the horizontal support cover 136 , the inlet is press-fitted inside the end of the support tube 120 , and water supplied from the support tube 120 is supplied to the inside of the body 102 . a water supply pipe 138 for supplying water to the human water storage space;
a connection arm (140) rotatably installed on one side of the inner side of the horizontal support cover (136);
A rotary tube 142 located in the water storage space inside the main body 102 and connected to the end of the connection arm 140 to rotate the connection arm 140 up or down according to the water level of the water storage space. )class;
and an opening/closing protrusion 144 that is detachably installed on the upper inner surface of the connection arm 140 and opens and closes the outlet of the water supply pipe 138 when the connection arm 140 rotates,
A control unit 148, a communication unit 150, an IoT sensor 152, and an angle analysis unit 154 are installed on one side of the upper surface of the horizontal support cover 136 of the automatic water supply means 126,
The control unit 148 is installed on one side of the horizontal support cover 136, receives the rotation detection command signal of the rotary tube 142 from the communication unit 150 and sends the received rotation detection command signal to the IoT sensor 152, , receives the rotation angle value sent from the IoT sensor 152, analyzes the received rotation angle value, and sends the analyzed analysis information to the communication unit 150,
The communication unit 150 is installed on one side of the horizontal support cover 136 at a predetermined distance from the control unit 148 and is electrically connected to the control unit 148, and the rotation of the rotating tube 142 from the smart phone 200 is detected. It receives the command signal and sends the received rotation detection command signal to the control unit 148, and transmits the analysis information analyzed according to the control signal of the control unit 148 to the smartphone 200,
The IoT sensor 152 is installed on one side of the horizontal support cover 136 at a predetermined interval from the communication unit 150 and is electrically connected to the control unit 148, and according to the control signal of the control unit 148, the flowerpot 100. After detecting in real time the rotation angle of the rotary tube 142, which rotates counterclockwise when the water supplied to the water storage space of Sends the rotation angle value to the control unit 148,
The angle analysis unit 154 is installed on one side of the horizontal support cover 138 at a predetermined interval from the IoT sensor 152 and is electrically connected to the control unit 148, and is preset according to the control signal of the control unit 148. After comparing and analyzing the rotation angle value and the received rotation angle value, the analyzed analysis information is transmitted to the control unit 148 .

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As described above, in the automatic watering plant system having an IoT sensor according to the present invention, an IoT sensor is installed on one side of the automatic watering means for automatically supplying water to the water storage space of the flowerpot, and the IoT sensor is automatically watered by the IoT sensor. By being able to check the movement of the rotating barrel of the means through a smartphone in real time, you do not need to worry about watering the inside of the pot by quickly replacing the rotating barrel in case of a malfunction, as well as reducing water wastage. It works.

Therefore, according to the present invention, potted plants can be easily managed cleanly, there is no fear of dying the plant, and it not only helps plants to grow well by not receiving stress from water, but also saves watering time. It has the effect of helping farmers' income.

1 is a view schematically showing the configuration of an automatic watering pot system having an IoT sensor according to the present invention;
Figure 2 is a view schematically showing the configuration of the automatic water supply means of Figure 1;
3A to 3B are views showing the flowerpot of FIG. 1;
Fig. 4 is a plan view of the flowerpot of Fig. 3a;
Figure 5 is a view schematically showing the automatic water supply means of Figure 1;
6 is a cross-sectional view of the main part of the automatic water supply means of FIG. 5;
7 is an exploded view of the main part of the automatic water supply means of FIG. 5;
8 to 9 are views schematically showing the use state of the automatic watering pot system having an IoT sensor according to the present invention.

Hereinafter, a preferred embodiment of the automatic watering pot system having an IoT sensor according to the present invention will be described.

In the following description of the present invention, if it is determined that a detailed description of a related well-known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

1 is a diagram schematically showing the configuration of an automatic watering plant system having an IoT sensor according to the present invention, FIG. 2 is a diagram schematically showing the configuration of the automatic watering means of FIG. 1, and FIGS. 3a to 3b is a view showing the flowerpot of FIG. 1, FIG. 4 is a plan view of the flowerpot of FIG. 3a, FIG. 5 is a view schematically showing the automatic water supply means of FIG. 1, and FIG. 6 is the automatic water supply means of FIG. It is a main part cross-sectional view, and FIG. 7 is an exploded view of the main part of the automatic water supply means of FIG.

1 to 7, the automatic watering plant system 1 having an IoT sensor according to the present invention,

Flowerpot 100 and;

Installed on one side of the inside of the flowerpot 100 , water sent from the support pipe 120 is supplied to the water storage space of the flowerpot 100 , or water sent from the support pipe 120 is stored in the pot 100 . an automatic water supply means 126 that prevents it from being supplied to the space;

It is installed on one side of the automatic water supply means 126, receives the rotation detection command signal of the rotary tube 142 of the automatic water supply means 126 from the smartphone, and sends the received rotation detection command signal to the IoT sensor 152 , a control unit 148 that analyzes the rotation angle value sent from the IoT sensor 152 and sends the analysis information to the smartphone;

It is electrically connected to the control unit 148 and rotates counterclockwise when the water supplied to the water storage space of the flowerpot 100 rises upward according to the control signal of the control unit 148, or the supplied water falls downward. An IoT sensor 152 that detects in real time the rotation angle of the rotary tube 142 of the automatic water supply means 126 that rotates clockwise when going;

It includes a smartphone 200 that sends a rotation detection command signal to the control unit 148, receives analysis information of the rotation angle value from the control unit 148, and displays it on the screen.

Here, the flowerpot 100 is

a body 102 having an accommodating space therein;

a flange 106 installed to protrude outward along the upper surface of the main body 102 and having a fastening groove 104 at regular intervals;

It is located in the receiving space of the main body 102 and divides the inside of the main body into a water storage unit and a plant cultivation unit, and has a through hole at a predetermined interval and at the same time a first core support pipe at a predetermined interval from the through hole. a horizontal bulkhead having a second core supporting pipe facing each other at a predetermined distance from the first core supporting pipe;

a first support leg installed on one side of the bottom of the horizontal bulkhead in the downward direction to support the horizontal bulkhead;

a second support leg installed in a downward direction on one side of the bottom surface of the horizontal bulkhead 114 to face each other at a predetermined distance from the first supporting leg to support the horizontal bulkhead;

a support pipe 120 that is press-fitted into the side insertion hole of the main body 102 to supply water to the automatic water supply means;

A connection pipe for supplying water to the support pipe 120 by being detachably screw-coupled to the inside of the support pipe 120 and provided with a separation prevention rake 122 that is rounded and protruded in one direction at a predetermined interval on the outer circumferential surface. (124) and;

It is located in the water storage space inside the main body 102 and is installed at the end of the support pipe 120 to automatically supply the water supplied from the support pipe 120 to the water storage space, as well as to supply water. an automatic water supply means 126 to block;

A water level gauge 130 installed on one side of the side of the main body 102 at a predetermined distance from the automatic water supply means 126 to inform the user of the level of water stored in the water storage space inside the main body 102 and ;

a discharge pipe 132 installed at the lower end of one side of the body 102 at a predetermined distance from the water level gauge 130 to discharge the water stored in the water storage space inside the body 102 to the outside;

A water supply wick rod for supplying water to the plants planted in the plant cultivation space inside the body 102 by being press-fitted into the first wick support pipe and the second wick support pipe to suck up the water stored in the water storage space;

It includes a wheel 135 that is installed on the bottom surface of the main body 102 at regular intervals to help the movement of the main body 102 .

And, the automatic water supply means 126,

a horizontal support cover 136 installed at the end of the support pipe 120 while being horizontally positioned in the water storage space inside the body 102;

It is installed horizontally through the inner center of the horizontal support cover 136, and the inlet (not shown) is press-fitted inside the end of the support tube 120 to receive water supplied from the support tube 120. a water supply pipe 138 for supplying water to the water storage space that is inside the body 102;

a connection arm (140) rotatably installed on one side of the inner side of the horizontal support cover (136);

A rotary tube 142 located in the water storage space inside the main body 102 and connected to the end of the connection arm 140 to rotate the connection arm 140 up or down according to the water level of the water storage space. )class;

It includes an opening/closing protrusion 144 that is detachably installed on the upper inner surface of the connection arm 140 and opens and closes the outlet (not shown) of the water supply pipe 138 when the connection arm 140 rotates.

On the other hand, a control unit 148, a communication unit 150, an IoT sensor 152, and an angle analysis unit 154 are installed on one side of the upper surface of the horizontal support cover 136 of the automatic water supply means 126,

The control unit 148 is installed on one side of the horizontal support cover 136, receives the rotation detection command signal of the rotary tube 142 from the communication unit 150 and sends the received rotation detection command signal to the IoT sensor 152, , receives the rotation angle value sent from the IoT sensor 152 , analyzes the received rotation angle value, and transmits the analyzed analysis information to the communication unit 150 .

The communication unit 150 is installed on one side of the horizontal support cover 136 at a predetermined distance from the control unit 148 and is electrically connected to the control unit 148, and the rotation of the rotating tube 142 from the smart phone 200 is detected. It receives the command signal and sends the received rotation detection command signal to the control unit 148 , and transmits the analysis information analyzed according to the control signal of the control unit 148 to the smartphone 200 .

The IoT sensor 152 is installed on one side of the horizontal support cover 136 at a predetermined interval from the communication unit 150 and is electrically connected to the control unit 148, and according to the control signal of the control unit 148, the flowerpot 100. After detecting in real time the rotation angle of the rotary tube 142, which rotates counterclockwise when the water supplied to the water storage space of The obtained rotation angle value is transmitted to the control unit 148 .

The angle analysis unit 154 is installed on one side of the horizontal support cover 138 at a predetermined interval from the IoT sensor 152 and is electrically connected to the control unit 148, and is preset according to the control signal of the control unit 148. After comparing and analyzing the rotation angle value and the received rotation angle value, the analyzed analysis information (eg, informing that the rotary tube 142 is normally rotated or the rotary tube 142 is malfunctioning) is transferred to the control unit 148 ) is sent to

The assembly process and use state of the automatic watering pot system 1 having the IoT sensor according to the present invention configured as described above will be described as follows.

First, after locating the main body 102 having an accommodating space therein, the wheels 135 are installed on the bottom surface of the main body 102 at regular intervals.

Then, a flange 106 having a fastening groove 104 to protrude outward is installed on the upper surface of the main body 102 .

And, after the support pipe 120 is pressed into the inside of the side insertion hole of the main body 102, the connection pipe 124 having a release prevention rake 122 in the inside of the support pipe 120, screw together

Then, a water level gauge 130 is installed on one side of the side of the main body 102 at a predetermined distance from the support pipe 120 to inform the user of the water level.

Then, a discharge pipe 132 for discharging water stored in the lower end of one side of the body 102 to the outside is installed at a predetermined distance from the water level gauge 130 .

And, at the end of the support pipe 120, the water supplied from the support pipe 120 is automatically supplied to the water storage space and connected to the horizontal support cover 136 that blocks water and the water supply pipe 138 An automatic water supply means 126 including an arm 140 and a gourd-shaped barrel 142 and an opening/closing protrusion 144 is installed.

Then, a control unit 148 , a communication unit 150 , an IoT sensor 152 , and an angle analysis unit 154 are installed on one side of the upper surface of the horizontal support cover 136 .

Then, a horizontal bulkhead 114 having a through hole and a first core support pipe and a second core support pipe is positioned.

Then, after installing the first support legs in the downward direction on one side of the bottom surface of the horizontal bulkhead 114, the lower side of the bottom surface of the horizontal bulkhead 114 to face each other at a predetermined distance from the first support legs ( Install the second support leg in the downward direction.

Then, the horizontal partition wall 114 provided with the first support leg and the second support leg is pushed into the body 102 . At this time, the inside of the main body 102 is divided into a water storage space and a plant cultivation space by the horizontal partition wall 114 .

Then, the first core support pipe and the second core support pipe suck up the water stored in the interior of the main body 102, the inside of the plant growing space to supply the water to the plant to the plant is forced fit.

Then, the smart phone 200 is placed in a remote place at a predetermined interval from the flowerpot 100 .

When the assembly of the automatic watering plant system equipped with the IoT sensor according to the present invention is completed as described above,

After positioning the water supply hose, the connection pipe 124 is press-fitted into the water supply hose.

Then, the separation prevention rake 122 is pressed into the inside of the connection pipe 124 . At this time, since the separation prevention rake 122 is formed to protrude in one direction, it is difficult for the connection pipe 124 to be removed from the departure prevention rake 122 .

Then, a plant desired by the user is planted in the plant cultivation space, which is the inside of the main body 102 .

Then, water is supplied through the water supply hose.

The water supply hose supplies water to the connection pipe 124 and the support pipe 120 .

And, the support pipe 120 supplies water to the water supply pipe 138 installed inside the horizontal support cover 136 .

And, the water supply pipe 138 supplies water to the water storage space that is inside the body 102 .

And, when water is supplied to the water storage space, as shown in FIGS. 8 to 9, as the water level of the water stored in the water storage space increases, the rotary tube 142 moves upward, that is, in a counterclockwise direction. rotate

When the rotary tube 142 rotates counterclockwise, the connecting arm 140 rotatably installed on one side of the inner side of the horizontal support cover 136 rotates upward.

In addition, the smartphone 200 transmits a rotation detection command signal of the rotary tube 142 to the communication unit 150 .

The communication unit 150 transmits the received rotation detection command signal to the control unit 148 .

Then, the control unit 148 receives the rotation detection command signal of the rotary tube 142 from the communication unit 150 and transmits the received rotation detection command signal to the IoT sensor 152 .

And, the IoT sensor 152 rotates counterclockwise when the water supplied to the water storage space inside the main body 102 according to the control signal of the control unit 148 rises upward. After detecting the rotation angle in real time, the sensed rotation angle value is transmitted to the angle analysis unit 154 .

Then, the angle analysis unit 154 compares and analyzes the preset rotation angle value and the received rotation angle value according to the control signal of the control unit 148, and then analyzes the analyzed information (eg, the rotation tube 142). This normally indicates that the rotation or rotation tube 142 is out of order) is sent to the communication unit 150 .

Then, the communication unit 150 transmits the analysis information analyzed according to the control signal of the control unit 148 to the smartphone 200 .

Then, the smart phone 200 displays the analysis information received from the communication unit 150 on the screen.

On the other hand, when the water storage space inside the main body 102 is filled with water, as the connecting arm 140 rotates upward, the opening/closing protrusion 144 blocks the outlet of the water supply pipe 138 .

Accordingly, as the opening and closing protrusion 144 blocks the outlet of the water supply pipe 138 , the water supply pipe 138 prevents water supplied from the support pipe 120 from being supplied to the water storage space.

On the other hand, the user can directly check the water level stored in the water storage space through the water level gauge 130 .

And, when the water storage space is full of water, the water supply wick sucks up the water stored in the water storage space, and then supplies the water to the planted plants inside the body 102 .

The above detailed description of the present invention is merely illustrative of the present invention, which is used only for the purpose of describing the present invention, and is not used to limit the meaning or the scope of the present invention described in the claims. Therefore, it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

1: Automatic watering pot system equipped with IoT sensor
100: flowerpot
102: body
104: fastening groove
106: flange
114: horizontal bulkhead
120: support pipe
124: connector
126: automatic water supply means
130: water level gauge part
132: discharge pipe
135 : wheel
148: control unit
150: communication department
152: IoT sensor
154: angle analysis unit
200: smartphone

Claims (3)

Flowerpot 100 and; Installed on one side of the inside of the flowerpot 100 , water sent from the support pipe 120 is supplied to the water storage space of the flowerpot 100 , or water sent from the support pipe 120 is stored in the pot 100 . In the automatic watering plant system having an IoT sensor including an automatic watering means 126 that prevents it from being supplied to the space,
It is installed on one side of the automatic water supply means 126, receives the rotation detection command signal of the rotary tube 142 of the automatic water supply means 126 from the smartphone, and sends the received rotation detection command signal to the IoT sensor 152 , a control unit 148 that analyzes the rotation angle value sent from the IoT sensor 152 and sends the analysis information to the smartphone;
It is electrically connected to the control unit 148 and rotates counterclockwise when the water supplied to the water storage space of the flowerpot 100 rises upward according to the control signal of the control unit 148, or the supplied water falls downward. An IoT sensor 152 that detects in real time the rotation angle of the rotary tube 142 of the automatic water supply means 126 that rotates clockwise when going;
including a smart phone 200 that sends a rotation detection command signal to the control unit 148, receives analysis information of the rotation angle value from the control unit 148, and displays it on the screen,
The flowerpot 100 is
a body 102 having an accommodating space therein;
a flange 106 installed to protrude outward along the upper surface of the main body 102 and having a fastening groove 104 at regular intervals;
It is located in the receiving space of the main body 102 and divides the inside of the main body into a water storage unit and a plant cultivation unit, and has a through hole at a predetermined interval and at the same time a first core support pipe at a predetermined interval from the through hole. a horizontal bulkhead having a second core supporting pipe facing each other at a predetermined distance from the first core supporting pipe;
a first support leg installed on one side of the bottom of the horizontal bulkhead in the downward direction to support the horizontal bulkhead;
a second support leg installed in a downward direction on one side of the bottom surface of the horizontal bulkhead 114 to face each other at a predetermined distance from the first supporting leg to support the horizontal bulkhead;
a support pipe 120 that is press-fitted into the side insertion hole of the main body 102 to supply water to the automatic water supply means;
A connection pipe for supplying water to the support pipe 120 by being detachably screw-coupled to the inside of the support pipe 120 and provided with a separation prevention rake 122 that is rounded and protruded in one direction at a predetermined interval on the outer circumferential surface. (124) and;
A water level gauge 130 installed on one side of the side of the main body 102 at a predetermined distance from the automatic water supply means 126 to inform the user of the level of water stored in the water storage space inside the main body 102 and ;
a discharge pipe 132 installed at the lower end of one side of the body 102 at a predetermined distance from the water level gauge 130 to discharge the water stored in the water storage space inside the body 102 to the outside;
A watering wick for supplying water to plants planted in the plant cultivation space inside the body 102 by being press-fitted inside the first and second core support pipes to suck up the water stored in the water storage space. confectionery;
It includes wheels 135 that are installed on the bottom surface of the main body 102 at regular intervals to help the movement of the main body 102,
The automatic water supply means 126,
a horizontal support cover 136 installed at the end of the support pipe 120 while being horizontally positioned in the water storage space inside the body 102;
It is installed horizontally through the inner center of the horizontal support cover 136 , the inlet is press-fitted inside the end of the support tube 120 , and water supplied from the support tube 120 is supplied to the inside of the body 102 . a water supply pipe 138 for supplying water to the human water storage space;
a connection arm (140) rotatably installed on one side of the inner side of the horizontal support cover (136);
A rotary tube 142 located in the water storage space inside the main body 102 and connected to the end of the connection arm 140 to rotate the connection arm 140 up or down according to the water level of the water storage space. )class;
and an opening/closing protrusion 144 that is detachably installed on the upper inner surface of the connection arm 140 and opens and closes the outlet of the water supply pipe 138 when the connection arm 140 rotates,
A control unit 148, a communication unit 150, an IoT sensor 152, and an angle analysis unit 154 are installed on one side of the upper surface of the horizontal support cover 136 of the automatic water supply means 126,
The control unit 148 is installed on one side of the horizontal support cover 136, receives the rotation detection command signal of the rotary tube 142 from the communication unit 150 and sends the received rotation detection command signal to the IoT sensor 152, , receives the rotation angle value sent from the IoT sensor 152, analyzes the received rotation angle value, and sends the analyzed analysis information to the communication unit 150,
The communication unit 150 is installed on one side of the horizontal support cover 136 at a predetermined distance from the control unit 148 and is electrically connected to the control unit 148, and the rotation of the rotating tube 142 from the smart phone 200 is detected. It receives the command signal and sends the received rotation detection command signal to the control unit 148, and transmits the analysis information analyzed according to the control signal of the control unit 148 to the smartphone 200,
The IoT sensor 152 is installed on one side of the horizontal support cover 136 at a predetermined interval from the communication unit 150 and is electrically connected to the control unit 148, and according to the control signal of the control unit 148, the flowerpot 100. After detecting in real time the rotation angle of the rotary tube 142, which rotates counterclockwise when the water supplied to the water storage space of Sends the rotation angle value to the control unit 148,
The angle analysis unit 154 is installed on one side of the horizontal support cover 138 at a predetermined interval from the IoT sensor 152 and is electrically connected to the control unit 148, and is preset according to the control signal of the control unit 148. After comparing and analyzing the rotation angle value and the received rotation angle value, the analyzed analysis information is sent to the control unit 148. An automatic watering plant system with an IoT sensor, characterized in that it is transmitted.
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