KR102238887B1 - Smart Fabrication System with Smart Powder Cells - Google Patents

Abstract

The present invention allows a user to create a smart flower bed desired by a user by simply combining a smart flower pot cell and a smart flower pot, and also shares the water in a bucket installed inside each smart flower pot (for example, there is a lot of water in the bucket. The present invention relates to a smart flower bed system of a smart flower pot cell combination method that enables easy management of plants by increasing water supply efficiency by supplying water from the remaining smart flower pot cells to a bucket of a smart flower pot cell that lacks water, and the present invention Silver connection frame 102 and; A first smart flower pot cell 104 that is detachably positioned on the bottom of the lower plate of the connection frame 102; A second smart flower pot cell 106 detachably located on the upper surface of the upper plate of the connection frame 102 at a predetermined interval from the first smart flower pot cell 104; It is installed on one side of the bucket of the first smart flowerpot cell 104 and the bucket of the second smart flowerpot cell 106 to combine the first smart flowerpot cell 104 and the second smart flowerpot cell 106 A first connector 160; A third smart potted cell 108 positioned on the side of the first smart potted cell 104; And a fourth smart potted cell 112 positioned on the side of the third smart potted cell 108.

Description

Smart Fabrication System with Smart Powder Cells

The present invention relates to a flower bed, and more particularly, by simply combining a smart flower pot cell and a smart flower pot cell, the user can create a smart flower bed desired by the user, and also share the water of a bucket installed inside each smart flower pot ( For example, a smart potting cell combination method that increases water supply efficiency by supplying water from a smart potting cell that has a lot of water in a water tank to a bucket of a smart potting cell that lacks water) so that plants can be easily managed. It is about a smart flower bed system.

In general, flower beds are constructed by stacking bricks or stones at a certain height so that flowers, plants, or edible vegetables can be grown on the ground, and then filled with soil therein.

The above flower bed is a situation in which it is impossible to build a flower bed on the ground because a land shortage phenomenon occurs due to excessive population density due to industrial development and urbanization, and the commercial or residential buildings are densely constructed and high-rise.

In particular, in the case of high-rise apartments, since there is no more land, a flowerpot is placed on the balcony provided at the front and rear of the apartment, or a box made of styrofoam or plastic is placed and a small amount of soil is filled in the interior to simplify flower beds. Here is an example of using it.

In this case, during the cultivation of flowers or vegetables, the soil is spilled into the ovulator and contaminated by the water supplied for growth, as well as causing the drainage to become clogged.

In addition, some detached houses with rooftops use a flowerbed built with bricks on the rooftop, but in this case, the weight of the soil and bricks constituting the flowerbed is transferred to the slab of the house, which has a significant adverse effect on the structure of the house. It goes crazy.

In addition, when water is given to supply water to plants or vegetables planted in a flower bed, the load increases along with the water, and the water is not completely discharged, which causes premature corrosion of the slab (roof). Becomes.

As described above, the water supplied to the flower bed built on the roof cannot be discharged, so that water is flooded into the interior of the building through the roof, thereby causing the structure of the building to be weak.

In order to solve the above problem, it has been filed with the Korean Intellectual Property Office on March 20, 2004 with application number 20-2004-0007772 (name of the design: prefabricated flower bed), and the claims are "in constructing a prefabricated flower bed for a house; With a space 52 that can be filled with soil 51, the outer side 56, the front and rear sides 57 and 58, and the bottom side 59 are closed, and the inner side forms an open part 60 to form both sides. An outbody 53 connected to the outer body 53; the front and rear side surfaces 57 and 58 and the bottom surface 59 between the upper and lower sides of the out body 53 are closed, and an open part 60 is formed on both sides of the flower bed to be created. An inner body 54 that connects according to the size of 50; and a connector 55 for connecting the outer body 53 and the inner body 54 in a solid state; and the outer body 53 and Insertion opening 61 formed so that the connector 55 can be connected to the inner ends of the front and rear sides 57 and 58 of the opening 60 of the inner body 54; the outer body 53 and the inner body The bottom surface 59 on the side of the opening 60 of the 54) includes a waterproof protrusion 62 protruding upward so as to prevent leakage of the supplied moisture; the connector 55 includes an outbody ( 53) and a connection body (63) provided in the same shape as the cross-section of the inner body (54); and insertion protrusions (64) formed to protrude to be inserted into the insertion opening (61) on both sides of the connection body (63) ); The insertion opening 61, the waterproof jaw 62, the connection body 63, and the insertion protrusion 64 include a fastening hole 65 formed to be fastened with a fixing means. It is a prefabricated flower bed."

However, the conventional prefabricated flower bed has a problem in that it is not easy to expand because it is inconvenient to assemble due to its complicated structure, and it is not possible to easily manage plants.

Accordingly, the present invention has been improved and invented in order to solve all the problems according to the prior art, and an object of the present invention is that it is possible to create a smart flowerbed desired by a user by simply combining a smart flowerpot cell and a smart flowerpot cell. The aim is to provide a smart flowerbed system of a smart flowerpot cell combination method that allows easy management of plants by increasing water supply efficiency by sharing water from a bucket installed inside each smart flowerpot cell.

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

The smart flowerbed system of the smart flowerpot cell combination method according to the present invention for achieving the above object,

A connection frame 102;

A first smart flower pot cell 104 that is detachably positioned on the bottom of the lower plate of the connection frame 102;

A second smart flower pot cell 106 detachably positioned on the upper surface of the upper plate of the connection frame 102 at a predetermined interval from the first smart flower pot cell 104;

It is installed on one side of the bucket of the first smart flowerpot cell 104 and the bucket of the second smart flowerpot cell 106 to combine the first smart flowerpot cell 104 and the second smart flowerpot cell 106 A first connector 160;

A third smart potted cell 108 positioned on the side of the first smart potted cell 104;

A fourth smart flower pot cell (112) positioned on the side of the third smart flower pot cell (108);

It is installed on one side of the bucket of the first smart flowerpot cell 104 and one side of the bucket of the third smart flowerpot cell 108 to combine the first smart flowerpot cell 104 and the third smart flowerpot cell 108 or It is installed on one side of the bucket of the third smart flowerpot cell 108 and the bucket of the fourth smart flowerpot cell 112 to couple the third smart flowerpot cell 108 and the fourth smart flowerpot cell 112. It includes 2 connector 162.

As described above, the smart flower bed system of the smart flower pot cell combination method according to the present invention is easy to assemble and has the effect of making the smart flower bed desired by the user easily, as well as the water bottle installed inside each smart flower pot cell. There is an effect that plants can be easily managed by increasing the efficiency of water supply by sharing the water.

Accordingly, there is an effect of reducing the management cost of the smart flower bed system.

In particular, the present invention has an effect of enhancing fun or interest by making a smart flower bed in a shape desired by a user.

1 is a diagram showing a smart flower bed system of a smart flower pot cell combination method according to the present invention;
2 is a schematic diagram of a smart flower bed system of the smart flower pot cell combination method of FIG. 1;
3 is a schematic diagram of a main part of the smart flower bed system of the smart flower pot cell combination method of FIG. 1;
4 to 6 are exploded views of the main parts of the smart flower bed system of the smart flower pot cell combination method of FIG. 1,
7 is an enlarged view of the connection frame of FIG. 1.

Hereinafter, a preferred embodiment of a smart flower bed system of a smart flower pot cell combination method according to the present invention will be described.

In the following description of the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted.

1 is a diagram showing a smart flower bed system of the smart flower pot cell combination method according to the present invention, FIG. 2 is a system diagram of the smart flower bed system of the smart flower flower cell combination method of FIG. 1, and FIG. 3 is a smart flower pot cell of FIG. Fig. 4 to Fig. 6 are exploded views of the main parts of the smart flower bed system of the smart flower bed system of FIG. 1, and FIG. 7 is an enlarged view of the connection frame of FIG. 1.

As shown in FIGS. 1 to 7, the smart flower bed system 100 of the smart flower pot cell combination method according to the present invention,

A connection frame 102;

A first smart flower pot cell 104 that is detachably positioned on the bottom of the lower plate of the connection frame 102;

A second smart flower pot cell 106 detachably positioned on the upper surface of the upper plate of the connection frame 102 at a predetermined interval from the first smart flower pot cell 104;

It is installed on one side of the bucket of the first smart flowerpot cell 104 and the bucket of the second smart flowerpot cell 106 to combine the first smart flowerpot cell 104 and the second smart flowerpot cell 106 A first connector 160;

A third smart potted cell 108 positioned on the side of the first smart potted cell 104;

A fourth smart flower pot cell (112) positioned on the side of the third smart flower pot cell (108);

It is installed on one side of the bucket of the first smart flowerpot cell 104 and one side of the bucket of the third smart flowerpot cell 108 to combine the first smart flowerpot cell 104 and the third smart flowerpot cell 108 or It is installed on one side of the bucket of the third smart flowerpot cell 108 and the bucket of the fourth smart flowerpot cell 112 to couple the third smart flowerpot cell 108 and the fourth smart flowerpot cell 112. It includes 2 connector 162.

And, the connection frame 102,

A lower plate 116 having a through hole in the inner center;

A top plate 118 positioned to face each other at a predetermined interval from the lower plate 116 and having a through hole in the center thereof;

The lower plate 116 and the upper plate 118 are installed at a predetermined interval between the support legs 120 to support the upper plate 118.

And, the first, second, third and fourth smart flowerpot cells 104, 106, 108, 112,

A protective body 124 having an accommodation space in the center of the interior, and having a slot 122 communicating with the accommodation space at a predetermined interval on the wall;

A smart flower pot 126 that is accommodated in the receiving space of the protection body 124 and is caught in the slot 122 of the protection body 124 to help plant plants;

A bucket 128 fitted into the interior of the protective body 124 facing each other at a predetermined interval from the smart flower pot 126 and having a through hole in the center thereof;

A circuit board 132 installed on one side of the upper surface of the water container 128 and having a control unit 130;

A separation prevention cover 134 made of a transparent material that is located on the bottom of the water container 128 and is fitted inside the protection body 124 to prevent the water container 128 from being separated from the outside;

A light-emitting LED 138 installed on one side of the upper surface of the separation prevention cover 134 and electrically connected to the control unit 130 to irradiate light according to a control signal from the control unit 130;

A temperature sensor 140 installed on one side of the inner surface of the smart flower pot 126 and electrically connected to the controller 130 to sense a temperature in the air according to a control signal from the controller 130;

It is installed on one side of the inner surface of the smart flower pot 126 at a predetermined interval from the temperature sensor 140, and is electrically connected to the control unit 130 to sense humidity in the air according to a control signal from the control unit 130. A sensor 142;

It is installed on one side of the inner surface of the smart flower pot 126 at a predetermined interval from the humidity sensor 142, and is electrically connected to the control unit 130 to sense carbon dioxide in the air according to a control signal from the control unit 130. A sensor 144;

Soil moisture that is installed on one side of the inner surface of the smart flower pot 126 at a predetermined interval from the carbon dioxide sensor 144, and is electrically connected to the control unit 130 to sense moisture in the soil according to a control signal from the control unit 130. A detection sensor 146;

A water level detection sensor 148 installed on one side of the inside of the bucket 128, which is electrically connected to the control unit 130 and senses the level of water accommodated in the water tank 128 according to a control signal from the control unit 130, and ;

A communication unit 150 installed on one side of the circuit board 132 at a predetermined interval from the control unit 130 and electrically connected to the control unit 130 to communicate with each other;

An internal water channel 154 installed between the smart flower pot 126 and the water container 128;

It is installed on one side of the inner waterway 154 and one side of the water tank 128, but is electrically connected to the control unit 130 to supply water received in the internal waterway 154 according to a control signal from the control unit 130 A two-way water supply pump unit 156 that sends water to the water tank 128 or sends the water contained in the water tank 128 to the internal waterway 154;

It is installed on one side of the smart pot 126 and one side of the bucket 128 at a predetermined interval from the bidirectional water supply pump unit 156, and is electrically connected to the control unit 130 according to the control signal of the control unit 130. It includes a water pump unit 158 for sending the water contained in the water tank 128 to the smart flower pot 126.

In addition, the smart flower pot 126 includes a container (not shown) that helps plants to be planted; A handle that allows the container to be easily accommodated in the receiving space of the protective body 124 and at the same time is inserted into the slot 122 of the protective body 124 to prevent the container from proceeding further down (not shown) It includes).

On the other hand, the external hose must be connected to at least one of the water tanks of the smart pot cells (104, 106, 108, 112). The external hose is installed in an external water supply pump unit or a direct water pipe.

The assembly process and the state of use of the smart flowerbed system 100 of the smart flowerpot cell combination method according to the present invention included as described above will be described as follows.

Here, the assembly process of the smart flower bed system of the smart flower pot cell combination method according to the present invention can be changed as much as possible depending on the assembler.

First, after positioning the lower plate 116 having a through hole in the inner center, the upper plate 118 having a through hole is positioned in the inner center to face from the lower plate 116 at a predetermined interval.

In addition, the connection frame 102 is assembled by installing support legs 120 that are installed at a predetermined interval between the lower plate 116 and the upper plate 118 to support the upper plate 118.

On the other hand, a protective body 124 provided with a receiving space in the center of the interior, and having a slot 122 communicating with the receiving space at a predetermined interval on the wall is positioned.

Then, after the smart flowerpot 126 having a container and a handle is positioned, the container is inserted into the receiving space of the protective body 124 and the handle is inserted into the slot 122 at the same time.

Further, a temperature sensor 140, a humidity sensor 142, a carbon dioxide sensor 144, and a soil moisture sensor 146 are installed on one side of the inner surface of the smart flower pot 126 at regular intervals.

In addition, an internal water channel 154 is installed inside the protective body 124 at a predetermined interval from the smart flower pot 126.

Then, after positioning the bucket 128, a circuit board 132 having a control unit 130 is installed on one side of the upper surface of the bucket 128.

In addition, a water level sensor 148 is installed on one side of the water container 128.

In addition, after installing the communication unit 150 on the circuit board 132, the temperature sensor 140, the humidity sensor 142, the carbon dioxide sensor 144, the soil moisture sensor 146 in the control unit 130 ), the communication unit 150, and the water level sensor 148 are electrically connected.

In addition, after installing a two-way water supply pump unit 156 on one side of the inner waterway 154 and one side of the water tank 128, the two-way water supply pump unit 156 is electrically connected to the control unit 130. .

And, after installing the irrigation pump unit 158 on one side of the smart flower pot 126 and one side of the water tank 128 at a predetermined interval from the bidirectional water supply pump unit 156, the control unit 130 for watering The pump part 158 is electrically connected.

In addition, a bucket 128 is inserted into the protection body 124 at a predetermined interval from the inner waterway 154.

Then, after the separation prevention cover 134 made of a transparent material is positioned, a light-emitting LED 138 is installed on the separation prevention cover 134.

In addition, the light emitting LED 138 is electrically connected to the control unit 130.

In addition, the first smart flower pot cell 104 is assembled by inserting the separation prevention cover 134 inside the protective body 124.

The first smart flower pot cell 104 assembled as described above is positioned on the bottom surface of the lower plate 116 of the connection frame 102.

Then, after the external hose is positioned, the external hose is installed on one side of the inner waterway 154 of the first smart flower pot cell 104.

On the other hand, a protective body 124 provided with a receiving space in the center of the interior, and having a slot 122 communicating with the receiving space at a predetermined interval on the wall is positioned.

Then, after the smart flowerpot 126 having a container and a handle is positioned, the container is inserted into the receiving space of the protective body 124 and the handle is inserted into the slot 122 at the same time.

Further, a temperature sensor 140, a humidity sensor 142, a carbon dioxide sensor 144, and a soil moisture sensor 146 are installed on one side of the inner surface of the smart flower pot 126 at regular intervals.

In addition, an internal water channel 154 is installed inside the protective body 124 at a predetermined interval from the smart flower pot 126.

Then, after positioning the bucket 128, a circuit board 132 having a control unit 130 is installed on one side of the upper surface of the bucket 128.

In addition, a water level sensor 148 is installed on one side of the water container 128.

In addition, after installing the communication unit 150 on the circuit board 132, the temperature sensor 140, the humidity sensor 142, the carbon dioxide sensor 144, the soil moisture sensor 146 in the control unit 130 ), the communication unit 150, and the water level sensor 148 are electrically connected.

In addition, after installing a two-way water supply pump unit 156 on one side of the inner waterway 154 and one side of the water tank 128, the two-way water supply pump unit 156 is electrically connected to the control unit 130. .

And, after installing the irrigation pump unit 158 on one side of the smart flower pot 126 and one side of the water tank 128 at a predetermined interval from the bidirectional water supply pump unit 156, the control unit 130 for watering The pump part 158 is electrically connected.

In addition, a bucket 128 is inserted into the protection body 124 at a predetermined interval from the inner waterway 154.

Then, after the separation prevention cover 134 made of a transparent material is positioned, a light-emitting LED 138 is installed on the separation prevention cover 134.

In addition, the light emitting LED 138 is electrically connected to the control unit 130.

In addition, the second smart potting cell 106 is assembled by inserting the separation prevention cover 134 inside the protective body 124.

The second smart flower pot cell 106 assembled as described above is positioned on the upper surface of the upper plate 118 of the connection frame 102.

And, after positioning the first connector 160, the first connection to one side of the bucket 128 of the first smart flower pot cell 104 and one side of the bucket 128 of the second smart flower pot cell 106 Install the pipe 160.

On the other hand, a protective body 124 provided with a receiving space in the center of the interior, and having a slot 122 communicating with the receiving space at a predetermined interval on the wall is positioned.

Then, after the smart flower pot 126 having a container and a handle is positioned, the container is inserted into the receiving space of the protective body 124 and the handle is inserted into the slot 122 at the same time.

Further, a temperature sensor 140, a humidity sensor 142, a carbon dioxide sensor 144, and a soil moisture sensor 146 are installed on one side of the inner surface of the smart flower pot 126 at regular intervals.

In addition, an internal water channel 154 is installed inside the protective body 124 at a predetermined interval from the smart flower pot 126.

Then, after positioning the water container 128, a circuit board 132 having a control unit 130 is installed on one side of the upper surface of the water container 128.

In addition, a water level sensor 148 is installed on one side of the water container 128.

In addition, after installing the communication unit 150 on the circuit board 132, the temperature sensor 140, the humidity sensor 142, the carbon dioxide sensor 144, the soil moisture sensor 146 in the control unit 130 ), the communication unit 150, and the water level sensor 148 are electrically connected.

In addition, after installing a two-way water supply pump unit 156 on one side of the inner waterway 154 and one side of the water tank 128, the two-way water supply pump unit 156 is electrically connected to the control unit 130. .

And, after installing the irrigation pump unit 158 on one side of the smart flower pot 126 and one side of the water tank 128 at a predetermined interval from the bidirectional water supply pump unit 156, the control unit 130 for watering The pump part 158 is electrically connected.

In addition, a bucket 128 is inserted into the protection body 124 at a predetermined interval from the inner waterway 154.

Then, after the separation prevention cover 134 made of a transparent material is positioned, a light-emitting LED 138 is installed on the separation prevention cover 134.

In addition, the light emitting LED 138 is electrically connected to the control unit 130.

In addition, the third and fourth smart flower pot cells 108 and 112 are assembled by inserting the separation prevention cover 134 inside the protective body 124.

After placing the third smart potted cell 108 assembled as above on the side of the first smart potting cell 104, the fourth smart potting cell 110 is placed on the side of the third smart potting cell 108. Position.

And, after positioning the second connector 162, the second connection to one side of the bucket 128 of the first smart flower pot cell 104 and one side of the bucket 128 of the third smart flower pot cell 108 In addition to installing the tube 162, a second connector 162 is installed on one side of the bucket 128 of the third smart potting cell 108 and the bucket 128 of the fourth smart potting cell 112 do.

When the assembly of the smart flower bed system of the smart flower pot cell combination method according to the present invention is completed as described above,

Plants are planted in the container of the smart flower pot 126.

When plants are planted in the container, the external hose supplies water to the internal waterway 154 of the first smart potting cell 104.

When water is supplied to the internal waterway 154, the control unit 130 transmits a control signal to the bidirectional water supply pump unit 156.

In addition, the two-way water supply pump unit 156 sends water accommodated in the internal waterway 154 to the bucket 128 according to a control signal from the controller 130.

And, when water is received in the bucket 128, the control unit 130 transmits a control signal to the irrigation pump unit 158.

The irrigation pump unit 158 sends the water contained in the water tank 128 to the container of the smart flower pot 126 according to a control signal from the control unit 130.

In addition, the control unit 130 includes a temperature sensor 140, a humidity sensor 142, a carbon dioxide sensor 144, a soil moisture sensor 146, a communication unit 150, a water level sensor 148, and a light-emitting LED. A control signal is sent to (138).

The light-emitting LED 138 irradiates light according to a control signal from the controller 130, and the temperature sensor 140 senses the temperature in the air according to the control signal from the controller 130, and the humidity sensor 142 Senses the humidity in the air according to the control signal of the control unit 130, the carbon dioxide detection sensor 144 senses the carbon dioxide in the air according to the control signal of the control unit 130, and the soil moisture detection sensor 146 is the control unit ( The water level of the soil is sensed according to the control signal of 130), and the water level sensor 148 senses the level of water contained in the water tank 128 according to the control signal of the control unit 130.

If, after a certain period of time has elapsed, for example, when moisture is not detected by the soil moisture sensor 146 of the third smart flower pot cell 108,

The control unit 130 of the third smart potted cell 108 transmits a signal in which moisture is not detected to the communication unit 150.

The communication unit 150 of the third smart potted cell 108 includes a first smart potted cell 104, a second smart potted cell 106, and a fourth smart potted cell 112 according to a control signal from the controller 130. Sends a signal in which moisture is not detected to the communication unit 150 of.

In addition, the communication unit 150 of the first smart flowerpot cell 104 transmits a signal in which moisture is not detected to the control unit 130.

The control unit 130 transmits a control signal to the water level sensor 148.

The water level detection sensor 148 of the first smart flower pot cell 104 detects the water level of the water container 128.

The water level detection sensor 148 detects the water level of the water container 128 and then sends a water level detection value to the control unit.

The control unit 130 compares a preset water level value with a sensed water level detection value, and then transmits a control signal to the bidirectional water supply pump unit 156 when the sensed water level detection value is greater than a preset water level value.

The bidirectional water supply pump unit 156 sends water from the water tank 128 to the internal waterway 154 according to a control signal from the control unit 130.

The internal water channel 154 of the first smart flower pot cell 104 sends the received water to the internal water channel 154 of the third smart flower pot cell 108 through the second connector 162.

In addition, the control unit 130 of the third smart flower pot cell 108 transmits a control signal to the bidirectional water supply pump unit 156.

The two-way water supply pump unit 156 sends water accommodated in the internal waterway 154 to the bucket 128 according to a control signal from the control unit 130.

Meanwhile, the communication unit 150 of the second smart flowerpot cell 106 transmits a signal in which moisture is not detected to the control unit 130.

The control unit 130 transmits a control signal to the water level sensor 148.

The water level sensor 148 of the second smart flowerpot cell 104 detects the water level of the water container 128.

The water level detection sensor 148 detects the water level of the water container 128 and then sends a water level detection value to the control unit.

The control unit 130 compares a preset water level value with a detected water level detection value, and then, if the detected water level detection value is less than a preset water level value, the first smart flower pot cell 104 and the third smart flower pot cell ( 108) and the water level detection value sensed by the communication unit 150 of the fourth smart flowerpot cell 112 transmits a signal that is smaller than a preset moisture value.

On the other hand, the communication unit 150 of the fourth smart flowerpot cell 112 transmits a signal in which moisture is not detected to the control unit 130.

The control unit 130 transmits a control signal to the water level sensor 148.

The water level sensor 148 of the fourth smart flowerpot cell 112 detects the water level of the water container 128.

The water level detection sensor 148 detects the water level of the water container 128 and then sends a water level detection value to the control unit.

The control unit 130 compares a preset water level value with a sensed water level detection value, and then transmits a control signal to the bidirectional water supply pump unit 156 when the sensed water level detection value is greater than a preset water level value.

The bidirectional water supply pump unit 156 sends water from the water tank 128 to the internal waterway 154 according to a control signal from the control unit 130.

The internal water channel 154 of the fourth smart flower pot cell 112 sends the received water to the internal water channel 154 of the third smart flower pot cell 108 through the second connector 162.

In addition, the control unit 130 of the third smart flower pot cell 108 transmits a control signal to the bidirectional water supply pump unit 156.

The two-way water supply pump unit 156 sends water accommodated in the internal waterway 154 to the bucket 128 according to a control signal from the control unit 130.

Accordingly, the present invention shares water in a water tank installed inside each smart flower pot (for example, water is supplied from a smart flower pot cell in which a lot of water remains in a water tank to a water bottle in a smart flower pot cell) It improves supply efficiency so that plants can be easily managed.

100: Smart flowerbed system of smart flowerpot cell combination method
102: connection frame
104: first smart flower pot cell
106: second smart flower pot cell
108: third smart flower pot cell
112: fourth smart flower pot cell
160: first connector
162: second connector

Claims (5)

A connection frame 102;
A first smart flower pot cell 104 that is detachably positioned on the bottom of the lower plate of the connection frame 102;
A second smart flower pot cell 106 detachably positioned on the upper surface of the upper plate of the connection frame 102 at a predetermined interval from the first smart flower pot cell 104;
It is installed on one side of the bucket of the first smart flowerpot cell 104 and the bucket of the second smart flowerpot cell 106 to combine the first smart flowerpot cell 104 and the second smart flowerpot cell 106 A first connector 160;
A third smart potted cell 108 positioned on the side of the first smart potted cell 104;
A fourth smart flower pot cell (112) positioned on the side of the third smart flower pot cell (108);
It is installed on one side of the bucket of the first smart flowerpot cell 104 and one side of the bucket of the third smart flowerpot cell 108 to combine the first smart flowerpot cell 104 and the third smart flowerpot cell 108 or It is installed on one side of the bucket of the third smart flowerpot cell 108 and the bucket of the fourth smart flowerpot cell 112 to couple the third smart flowerpot cell 108 and the fourth smart flowerpot cell 112. Including 2 connector 162,
The first, second, third and fourth smart flowerpot cells 104, 106, 108, 112,
A protective body 124 having an accommodation space in the center of the interior, and having a slot 122 communicating with the accommodation space at a predetermined interval on the wall;
A smart flower pot 126 that is accommodated in the receiving space of the protection body 124 and is caught in the slot 122 of the protection body 124 to help plant plants;
A bucket 128 fitted into the interior of the protective body 124 facing each other at a predetermined interval from the smart flower pot 126 and having a through hole in the center thereof;
A circuit board 132 installed on one side of the upper surface of the water container 128 and having a control unit 130;
Smart characterized in that it includes a separation prevention cover 134 made of a transparent material that is located on the bottom of the bucket 128 and is fitted inside the protection body 124 to prevent the bucket 128 from being separated from the outside. A smart flower bed system that combines pollen cells.
The method of claim 1,
The first, second, third and fourth smart flowerpot cells 104, 106, 108, 112,
A protective body 124 having an accommodation space in the center of the interior, and having a slot 122 communicating with the accommodation space at a predetermined interval on the wall;
A smart flower pot 126 that is accommodated in the receiving space of the protection body 124 and is caught in the slot 122 of the protection body 124 to help plant plants;
A bucket 128 fitted into the interior of the protective body 124 facing each other at a predetermined interval from the smart flower pot 126 and having a through hole in the center thereof;
A circuit board 132 installed on one side of the upper surface of the water container 128 and having a control unit 130;
A separation prevention cover 134 made of a transparent material that is located on the bottom of the water container 128 and is fitted inside the protection body 124 to prevent the water container 128 from being separated from the outside;
A light-emitting LED 138 installed on one side of the upper surface of the separation prevention cover 134 and electrically connected to the control unit 130 to irradiate light according to a control signal from the control unit 130;
A temperature sensor 140 installed on one side of the inner surface of the smart flower pot 126 and electrically connected to the controller 130 to sense a temperature in the air according to a control signal from the controller 130;
It is installed on one side of the inner surface of the smart flower pot 126 at a predetermined interval from the temperature sensor 140, and is electrically connected to the control unit 130 to sense humidity in the air according to a control signal from the control unit 130. A sensor 142;
It is installed on one side of the inner surface of the smart flower pot 126 at a predetermined interval from the humidity sensor 142, and is electrically connected to the control unit 130 to sense carbon dioxide in the air according to a control signal from the control unit 130. A sensor 144;
Soil moisture that is installed on one side of the inner surface of the smart flower pot 126 at a predetermined interval from the carbon dioxide sensor 144, and is electrically connected to the control unit 130 to sense moisture in the soil according to a control signal from the control unit 130. Smart flower bed system of a smart flower pot cell combination method, characterized in that it comprises a detection sensor (146).
The method of claim 1,
The first, second, third and fourth smart flowerpot cells 104, 106, 108, 112,
A protective body 124 having an accommodation space in the center of the interior, and having a slot 122 communicating with the accommodation space at a predetermined interval on the wall;
A smart flower pot 126 that is accommodated in the receiving space of the protection body 124 and is caught in the slot 122 of the protection body 124 to help plant plants;
A bucket 128 fitted into the interior of the protective body 124 facing each other at a predetermined interval from the smart flower pot 126 and having a through hole in the center thereof;
A circuit board 132 installed on one side of the upper surface of the water container 128 and having a control unit 130;
A separation prevention cover 134 made of a transparent material that is located on the bottom of the water container 128 and is fitted inside the protection body 124 to prevent the water container 128 from being separated from the outside;
A light-emitting LED 138 installed on one side of the upper surface of the separation prevention cover 134 and electrically connected to the control unit 130 to irradiate light according to a control signal from the control unit 130;
A temperature sensor 140 installed on one side of the inner surface of the smart flower pot 126 and electrically connected to the controller 130 to sense a temperature in the air according to a control signal from the controller 130;
It is installed on one side of the inner surface of the smart flower pot 126 at a predetermined interval from the temperature sensor 140, and is electrically connected to the control unit 130 to sense humidity in the air according to a control signal from the control unit 130. A sensor 142;
It is installed on one side of the inner surface of the smart flower pot 126 at a predetermined interval from the humidity sensor 142, and is electrically connected to the control unit 130 to sense carbon dioxide in the air according to a control signal from the control unit 130. A sensor 144;
Soil moisture that is installed on one side of the inner surface of the smart flower pot 126 at a predetermined interval from the carbon dioxide sensor 144, and is electrically connected to the control unit 130 to sense moisture in the soil according to a control signal from the control unit 130. A detection sensor 146;
A water level detection sensor 148 installed on one side of the inside of the bucket 128, which is electrically connected to the control unit 130 and senses the level of water accommodated in the water tank 128 according to a control signal from the control unit 130, and ;
A communication unit 150 installed on one side of the circuit board 132 at a predetermined interval from the control unit 130 and electrically connected to the control unit 130 to communicate with each other;
An internal water channel 154 installed between the smart flower pot 126 and the water container 128;
It is installed on one side of the inner waterway 154 and one side of the water tank 128, but is electrically connected to the control unit 130 to supply water received in the internal waterway 154 according to a control signal from the control unit 130 A two-way water supply pump unit 156 that sends water to the water tank 128 or sends the water contained in the water tank 128 to the internal waterway 154;
It is installed on one side of the smart pot 126 and one side of the water container 128 at a predetermined interval from the bidirectional water supply pump unit 156, and is electrically connected to the control unit 130 according to the control signal of the control unit 130. Smart flower bed system of a smart flower pot cell combination method, characterized in that it comprises a pump for irrigation (158) for sending the water contained in the water tank (128) to the smart flower pot (126).


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