KR20170068909A - A smart flowerpot for hang on the wall - Google Patents

Abstract

In the present invention, the conventional wall-mounted type flowerpot is constructed to manually water plants by means of water, and after a predetermined time passes, the drainage water remaining after passing through the flowerpot falls to the floor and a separate drainage device must be installed. It is difficult to confirm the water content in the soil of the flowerpot, and the problem that the flowerpot is damaged due to the user's eyesight or the watering time is missed, and the flowerpot flower is bloomed, The background image unit 200, the pollen storage unit 300, the moisture sensing unit 400, and the water sensing unit 400, so as to improve the indoor atmosphere and the problem that the demand is gradually reduced. An animal feed module 500 and a smart pot polluter 600. The smart pot polluter can automatically supply water to the pot according to the control signal of the Smart pot polluter, The water discharged through the pollen can be recovered and supplied to the pollen again so as to prevent the pollution rate by 80% and to form a polygonal layered filter in which a char molecular structure made of amorphous porous material is patterned, So that the water discharged through the pollen can be slowly dropped into the water drainage storage section through the polygonal layered structure. Even if water is automatically supplied from the wall-mounted state, it does not flood to the outside and is clean It is possible to create a pleasant indoor environment, and it is possible to select one of the insect fly image, the mountain valley image, and the four seasons image to be customized by the 1: 1 custom background background image suited to the flowerpot, And can provide two effects of plant cultivation function and video interior function , To the demands of the market, it provides a wall planter wall-mounted smart automatic watering flower pots that can improve 80% compared to existing has its purpose.

Description

{A SMART FLOWERPOT FOR HANG ON THE WALL}

The present invention relates to a wall-mounted smart automatic watering pot which can provide two effects of a plant growing function of a wall flower pot and a background video interior function.

Generally, pots have difficulty in planting plants on the floor or cabinet, or in pots in narrow places.

Accordingly, a large number of wall-mounted pots for hanging on walls have been developed. For example, a wall-mounted pot has been proposed in which an auxiliary member having a shelf is installed on the wall surface and a pot is placed on the shelf portion of the auxiliary member have.

However, the conventional wall-mounted type flowerpot is constructed to manually water the plants in a manual manner, and after a predetermined time passes, the discharged water is passed through the flowerpot and the remaining water drops to the floor.

In addition, there is a problem that water content can not be confirmed in the soil of the wall-mounted type flowerpot, water is given by the user's eyesight, or the flowerpot is missed due to missing watering time.

In addition, since only the image of the flowerpot is provided only until the flower-shaped flower buds bloom or produce fruit, the indoor atmosphere is inhibited and the demand is gradually reduced.

Korean Patent Laid-Open No. 10-2010-0042367

In order to solve the above problems, according to the present invention, a polygonal layer filter is provided which can supply water to pollen automatically according to a control signal of a smart pollen control unit, patterned char structure of amorphous porous carbon, When water is filtered, impurities can be absorbed and recycled. 1: 1 customized background background image suitable for flower pots can be displayed in a customized form by selecting one of insect fly images, mountain valley images, and four seasons images that match the atmosphere of a flowerpot. The present invention provides a wall-type smart automatic watering pot that can be applied to a variety of objects.

In order to achieve the above object, the wall-mounted smart automatic watering pot according to the present invention comprises

The front and rear surfaces are opened, and the lower end is a layered structure "

&Quot;, a frame body 100 for protecting and supporting each device by external pressure,

A background background image part 200 positioned at the rear end face of the frame body and driven according to a control signal of the smart pollen control part to display a 1: 1 customized background background image suitable for pots,

A pollen storage unit 300 for storing pollen in a central lower storage space of the frame body,

A water sensing unit 400 positioned at one side of the pot contained in the pot storage unit for sensing the moisture of the pot and delivering it to the smart pot control unit,

The pollen storage unit is formed at an upper end and a lower end of the pollen storage unit and is driven in accordance with a control signal of the smart pollen control unit to supply water to the pollen storage unit and then recover the water discharged through the pollen storage unit, (500) for supplying the animal feed module (500)

The control unit controls the overall operation of each device and controls the display of a 1: 1 customized background image suited to the type and growth of the pollen. The background image unit, the ash storage unit, the water sensing unit, And a smart pollen control unit (600) for driving the animal animal feeding module according to the water content of the pollen sensed from the water sensing unit.

As described above, in the present invention,

First, according to the control signal of the smart pollen control unit, water can be supplied to the pollen automatically, and the water discharged through the pollen can be recovered and supplied to the pollen again, thereby preventing the pollution rate by 80% have.

Second, a polygonal layered filter formed by patterning a char molecular structure made of amorphous porous material is formed. When water is filtered, impurities can be adsorbed and recycled, and water consumption can be reduced by 80% compared with the conventional method.

Third, the water discharged through the pollen can be slowly dropped into the water drainage storage through the polygonal layered structure, so that even if water is automatically supplied from the wall-mounted state, it does not overflow to the outside, and a clean and pleasant indoor environment can be created.

Fourth, a 1: 1 customized background background image suitable for pots can be selected and displayed in a customized form, such as insect fly images, mountain valley images, and four seasons images, .

Fifth, it can provide two effects of plant cultivation function and moving image interior function, which can increase the demand of the wall flower pot market by 80%.

1 is a view showing the constitutional elements of a wall-mounted smart automatic watering pot (1) according to the present invention,
Fig. 2 is a front sectional view showing the components of the wall-mounted smart watering pot (1) according to the present invention,
3 is a block diagram illustrating components of a background background image unit according to the present invention,
FIG. 4 is a view showing a structure of a polygonal layered filter 310 in which a char molecular structure made of amorphous porous material according to the present invention is patterned.
5 is a circuit diagram showing that a water content sensing signal sensed through the sensing resistor R1 according to the present invention is transmitted to the smart pollen control unit through the resistor R2 when the transistor Q1 is turned on according to the control signal of the smart pollen control unit,
FIG. 6 is a block diagram showing the components of the animal feed module according to the present invention. FIG.
FIG. 7 is a view showing an embodiment in which the water jet supply nozzle unit according to the present invention is located at the upper side of the upper part of the pollen storage unit,
FIG. 8 is a view showing an embodiment of the circuit board of the smart pollen control unit according to the present invention,
FIG. 9 is a view showing an embodiment in which pollen is contained in a pollen receiving portion formed in a central lower end receiving space of the frame body according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram showing components of a wall-mounted smart automatic watering pot 1 according to the present invention, which includes a frame body 100, a background background image part 200, a pot storage part 300, A water sensing unit 400, a pet animal supply module 500, and a smart pollen control unit 600.

First, the frame body 100 according to the present invention will be described.

The frame body 100 has front and rear openings and a lower end has a layered structure "

"Shape, which protects and supports each device with external pressure.

As shown in FIG. 2, a background background image part is formed on one side of a rear end surface to display a plant background screen of a flowerpot, a flowerpot storage part is formed in a central lower storage space, A smart pollen control unit is formed in the upper edge blanks, and a moisture sensing unit is formed on one side of the pollen receiving unit.

The frame body 100 is formed with a wall-hanging groove on one side of a rear end upper surface thereof.

In addition, the frame body includes a battery power source unit 110 for driving independent power to each device on one side of a space inside the upper frame.

The frame body according to the present invention is made of an aluminum alloy material which is lightweight, durable, and excellent in heat radiation.

Next, the background background image unit 200 according to the present invention will be described.

The background background image part 200 is located on the rear surface of the frame body and is driven according to a control signal of the smart flower pot control part to display a 1: 1 customized background image suitable for the flowerpot.

This is configured by selecting either an LED display or a flexible display.

The flexible display refers to a display that is gently bent and freely bendable.

Here, the reason why the display can be bent without breaking or breaking is that it uses a plastic type substrate that can be freely rotated instead of a commonly used rigid display glass substrate.

More specifically, it is composed of an OLED flexible display.

If a current is supplied to the OLED, which is a component of the OLED flexible display, the OLED has a self-emitting property, and a backlight for supplying light is not required.

As a result, a thin and lightweight flexible display can be realized.

As shown in FIG. 3, the background background image unit 200 includes an RGB color illumination mode 210 and a background background image mode 220.

The RGB color illumination mode 210 serves to promote plant growth through RGB light.

It consists of red LED lights, deep red LED lights, blue LED lights, green LED lights and yellow LED lights.

The red LED lights are used to control the photosynthesis promotion and flowering by emitting red light of less than 520nm ~ 620nm in leaf perilla, chrysanthemum, strawberry among the flowerpot.

The above-mentioned Ultra-Red LED illumination is used to control the fruit number, sugar content, and saponin increase by emitting ultra red light of 620 nm ~ 720 nm or less in melon, tomato, and ginseng in a flowerpot.

The blue LED illumination is used to control the anti-laughter control by emitting a blue light of less than 320 nm to 420 nm on a vegetable seedling in a flowerpot.

The green LED illumination is used to suppress fungal growth by emitting green light of less than 420 nm to 520 nm to cucumber and pepper in a flowerpot.

The above-mentioned Yellow LED illumination is used to suppress pests by emitting yellow light of less than 550 to 600 nm to apples, pears and peaches in pots.

The backgroun background image mode 220 selectively displays one of the insect fly image, the mountain valley image, and the four-seasons image according to the atmosphere of the flowerpot and customizes it.

Next, the pollen receiving section 300 according to the present invention will be described.

The pollen storage unit 300 serves to store pollen into the central lower storage space of the frame body.

This forms a rectangular box-shaped storage space, and the pollen is stored in the storage space.

4, a polygonal layered filter 310 formed by patterning a char molecular structure made of amorphous porous material is formed on one side of the bottom surface, and impurities are adsorbed when water is filtered.

The polygonal layered filter 310 serves as a drainage layer. If there is no drainage layer, the water does not fall and the water rotates and the roots of the plant are mixed.

In the present invention, when a polygonal layered filter is designed as a drainage layer of a flowerpot, a charcoal structure excellent in purifying water is used.

The charcoal is a porous body filled with holes so that the absorption of water is good and the adsorption power on the inner surface is high, thereby preventing decay and purifying water.

Also, the charcoal's porosity is a room where microorganisms that are beneficial to the growth of the plant's roots can be bought, thereby activating the breeding and helping to purify the water.

Applying the physico-chemical function of the char to the 3D printing, a polygonal layered filter is fabricated by patterning the char molecular structure made of amorphous porous.

As a result, a polygonal layered filter formed by patterning a char molecular structure made of amorphous porous material is formed, and when water is filtered, impurities can be absorbed and recycled, thereby reducing water consumption by 80% It is possible to slowly drop water passing through and discharged through the polygonal layered structure to the water drainage storage, so that even if water is automatically supplied from the wall-mounted state, it does not overflow to the outside, and a clean and pleasant indoor environment can be created.

Next, the water sensing unit 400 according to the present invention will be described.

The water sensing unit 400 is located at one side of the pot stored in the pot storage unit, and senses the moisture of the pot and transmits the sensing result to the smart pot control unit.

It consists of a dry humidity sensor.

The wet-and-dry type humidity sensor uses the principle that the humidity decreases as the water in the measurement area inside the flower pot is vaporized. The humidity-humidity sensor converts the temperature difference into an electric signal and sends a signal.

In addition, when the sensor is planted in dry soil, the humidity value of the sensor increases when water is supplied to the soil, and when the soil is dry, the soil is dried quickly and the sensor responds to the principle.

Also, on a humid day, the soil is always measured in a high humidity state.

5, when the transistor Q1 is turned on according to the control signal of the smart pollen control unit, the water content sensing signal sensed through the sensing resistor R1 is applied to the smart pollen control unit 400 through the resistor R2, Lt; / RTI >

Next, the animal animal feed module 500 according to the present invention will be described.

The animal animal feed module 500 is installed at one of the upper and lower ends of the pollen receiving unit and is driven according to a control signal of the smart pollen control unit to supply water to the pollen receiving unit, And then supplies the recovered water to the pollen storage unit.

6, the water storage tank 510, the micro switch valve 520, the water injection supply nozzle unit 530, the water drainage storage unit 540, the suction pump 550, the first water level sensor 530, Unit 560, and a second water level sensor unit 570.

The water storage tank 510 serves to supply and store water to the outside.

The micro switch valve 520 is located between the water storage tank and the water drainage storage unit. When the water in the water drainage storage unit is below the reference value, the micro switch valve 520 is turned on in response to the control signal of the smart flowerpot control unit, And supplies the stored water to the water drainage storage unit. When water in the water drainage storage unit reaches the reference value, it is turned off according to the control signal of the smart flowerpot control unit, thereby stopping water supply from the water storage tank.

As shown in FIG. 7, the water spray supply nozzle unit 530 is positioned at one side of the upper part of the pollen storage unit, and serves to spray and supply water.

The water drainage storage unit 540 serves to store water that passes through the pollen storage unit and escapes.

The suction pump 550 is disposed between the water drainage storage unit and the water jet supply nozzle unit and is driven in accordance with the control signal of the smart polluter control unit to suck the water stored in the water drainage storage unit and supply the water to the water jet supply nozzle unit It plays a role.

The first water level sensor unit 560 is located at one side of the water drainage storage unit, senses the water level of the water drainage storage unit, and transmits the sensed water level to the smart flower pollution control unit.

The second water level sensor unit 570 is located at one side of the water storage tank unit, senses the water level of the water storage tank unit, and transmits the sensed water level to the smart flower pollution control unit.

Next, the smart pollen control unit 600 according to the present invention will be described.

As shown in FIG. 8, the smart pollen control unit 600 is connected to a background background image unit, a ash storage unit, a moisture sensing unit, and a baby animal supply module to control the overall operation of each device, 1: 1 customized background image suitable for growth, and drives the animal animal supply module according to the moisture content of the pollen sensed by the water sensing unit.

It consists of PIC one-chip microcomputer.

That is, the first level sensor unit is connected to one side of the input terminal, the level signal of the sensed water drainage storage unit is inputted, and the second level sensor unit is connected to one side of the other input terminal, and the level signal of the sensed water storage tank unit is inputted And a water sensing unit is connected to one of the other input terminals to input the moisture content of the sensed flower pot and a suction pump is connected to one side of the output terminal to suck the water stored in the water drain storage unit and supply the water to the water injection supply nozzle unit When the micro-switch valve is connected to one side of the other output terminal and the water in the water drainage storage portion is below the reference value, an ON signal is sent to the micro switch valve, and the water in the water drainage storage portion is supplied to the reference value If this is the case, it sends an OFF signal to the microswitch valve, and the RGB color lighting mode of the background image part is connected to the other output terminal, In order to promote plant growth, the RGB color lighting driving signal is output. On the other side of the output terminal, the background background image mode of the background background image portion is connected, and the insect fly image, mountain valley image, So that any one of them can be selected and displayed in a customized manner.

Hereinafter, a concrete operation process of the wall-mounted smart automatic watering pot according to the present invention will be described.

First, as shown in Fig. 9, pollen is stored in the pollen receiving portion formed in the central lower end receiving space of the frame body.

Next, it is hooked to the wall through the wall-mounted groove formed on one side of the rear end upper surface of the frame body.

Next, a background background image part is driven according to the control signal of the smart flower pot control part to display a 1: 1 custom background background image suitable for the flowerpot.

In other words, the RGB color illumination mode is driven to promote plant growth through RGB light, and the backgroun background image mode is driven to select either insect fly image, mountain valley image, or seasonal image suitable for the atmosphere of the flowerpot Customize it.

Next, the water sensing unit senses the water content of the pollen and transfers the sensed water to the smart pollen control unit.

Finally, if the water content of the pollen falls below the reference value in the pot pollen control unit, the animal feed module is driven.

At this time, the animal animal feed module supplies water to the pollen receiving section, collects the water discharged through the pollen receiving section, and supplies the water to the pollen receiving section.

That is, when the water in the water drainage storage portion is lower than the reference value, the micro switch valve is turned on in accordance with the control signal of the smart flowerpot control portion to supply the water stored in the water storage tank to the water drainage storage portion, If this reference value is met, it is turned off according to the control signal of the smart pot pollution control unit to stop the water supply from the water storage tank.

1: Wall-mounted smart automatic watering pot 100: Frame body
200: background background image part 300: pollen storage part
400: water sensing unit 500: animal animal supply module
600: Smart pollen control unit

Claims (5)

The front and rear surfaces are opened, and the lower end is a layered structure "

&Quot;, a frame body 100 for protecting and supporting each device by external pressure,
A background background image part 200 positioned at the rear end face of the frame body and driven according to a control signal of the smart pollen control part to display a 1: 1 customized background background image suitable for pots,
A pollen storage unit 300 for storing pollen in a central lower storage space of the frame body,
A water sensing unit 400 positioned at one side of the pot contained in the pot storage unit for sensing the moisture of the pot and delivering it to the smart pot control unit,
The pollen storage unit is formed at an upper end and a lower end of the pollen storage unit and is driven in accordance with a control signal of the smart pollen control unit to supply water to the pollen storage unit and then recover the water discharged through the pollen storage unit, (500) for supplying the animal feed module (500)
The control unit controls the overall operation of each device and controls the display of a 1: 1 customized background image suited to the type and growth of the pollen. The background image unit, the ash storage unit, the water sensing unit, And a smart pollen control unit (600) for driving the animal animal feeding module according to the water content of the pollen sensed by the water sensing unit.
2. The apparatus according to claim 1, wherein the background background image part (200)
RGB color lighting mode that promotes plant growth through RGB lights,
And a background background image mode in which one of the insect fly image, the mountain valley image, and the four seasons image is selected and displayed in a customized manner.
[2] The pollen storage unit according to claim 1,
And a polygonal layered filter formed by patterning a char molecular structure made of amorphous porous material is formed on the lower side, and impurities are adsorbed when water is filtered.
The method of claim 1, wherein the animal animal supply module (500)
A water storage tank 510 for supplying and storing water to the outside,
The water stored in the water storage tank is supplied to the water drainage storage unit when the water in the water drainage storage unit is below the reference value, A micro switch valve 520 which is turned off in response to a control signal from the smart pollen control unit to stop water supply from the water storage tank when the water in the water drainage storage unit is at a reference value,
A water jet supply nozzle unit 530 disposed at one side of the upper end of the pollen receiving unit for jetting and supplying water,
A water drainage storage unit 540 for storing the water passing through the pollen storage unit,
A suction pump 550 positioned between the water drainage storage unit and the water jet supply nozzle unit and driven in accordance with a control signal of the smart polluter control unit to supply the water stored in the water drainage storage unit to the water jet supply nozzle unit,
A first water level sensor unit 560 located at one side of the water drainage storage unit for sensing the water level of the water drainage storage unit and transmitting the sensed water level to the smart pollution control unit,
And a second water level sensor part (570) located at one side of the water storage tank part for sensing the water level of the water storage tank part and delivering the sensed water level to the smart pot pollution control part.
The method according to claim 1, wherein the smart pollen control unit (600)
The first level sensor part is connected to one side of the input terminal, the level signal of the sensed water drainage storage part is inputted, the second level sensor part is connected to one side of the other input terminal, the level signal of the sensed water storage tank part is inputted, A water sensing unit is connected to one of the other input terminals to input a water amount of the sensed pollen and a suction pump connected to one side of the output terminal to suck the water stored in the water drain storage unit and supply the water to the water injection supply nozzle unit And a micro switch valve is connected to one output terminal of the micro switch. When the water in the water drainage storage portion is below a reference value, an ON signal is sent to the micro switch valve. When the water in the water drainage storage portion corresponds to a reference value It sends OFF signal to the micro switch valve side, and RGB color lighting mode of the background image part is connected to one side of the other output terminal, The RGB color lighting drive signal is output to promote plant growth, and the background background image mode of the background background image part is connected to the other output terminal, so that any one of the insect fly image, mountain valley image, And one of them is selected and displayed in a customized manner.

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