KR20120000837A - Apparatus for controlling water of flowerpot - Google Patents

Abstract

PURPOSE: A moisture controlling apparatus for a flowerpot is provided to prevent the outgrowth difficulty of plants by the lack or water or excessive water. CONSTITUTION: A moisture controlling apparatus for a flowerpot comprises the following: a humidity sensor(110) installed in soil(11) inside the flowerpot(10) for measuring the humidity of the soil and outputting as a detected signal; a water storage unit(120) for storing water to be supplied to the flowerpot; a water supply unit(130) pumping the water from the water storage unit, and supplying to the soil inside the flowerpot; and a controller receiving the detected signal from the humidity sensor for drying the water supply unit when the detected humidity is lower than the prefixed value.

Description

Pollen moisture control device {APPARATUS FOR CONTROLLING WATER OF FLOWERPOT}

The present invention relates to a moisture control device of a pot, and to a moisture control device of a pot that can conveniently manage the pot by supplying the moisture required for the pot.

In general, a pot is a container in which plants such as flowers or trees are accommodated and installed in homes, offices, or outdoors, and various plants can be planted, and supplies nutrients with moisture to grow plants.

On the other hand, potted plants, like plants directly planted in the soil, get nutrients through photosynthesis. These photosynthesis depends on the amount of light, temperature, carbon dioxide, etc. Suppressed.

Therefore, hydration is very important for the growth of plants, and in particular, potted plants need periodic hydration because moisture cannot be obtained from the natural environment.

However, it is not only very cumbersome to regularly pollinate the pollen, but also to forget about watering, causing difficulties in the growth of the plant, and even had the problem that the plant dies.

In addition, several people water the pots individually, causing the plant to die due to excessive moisture, or a person who manages the pots is difficult to water the pots due to going out or traveling. I had.

In addition, when the potted plant is installed in the room lacking light, or because the manager can not be supplied even the light of artificial lighting for a long time due to going out or travel had a problem that makes the growth of the plant difficult.

The present invention is to solve the above-mentioned conventional problems, by automatically supplying the moisture required for the potted plant to prevent the difficulty of growth or death due to lack of moisture or excess.

In addition, it is intended to facilitate the growth of plants by supplying light necessary for photosynthesis to plants planted in pots.

According to an aspect of the present invention for achieving the above object, a device for controlling the moisture of the potted plant, the humidity sensor is installed in the soil in the potted plant to measure the moisture and output as a detection signal, the water supplied to the potted plant is stored The water storage unit, a water supply unit pumping water from the water storage unit, and supplying the soil to the pot, and receiving a detection signal from the humidity sensor, driving the water supply unit when the humidity is below a predetermined value, It may include a control unit to be supplied.

In addition, the water storage unit is placed on the upper side, the storage space for storing water is formed on the inside, the inlet for introducing water discharged from the drain port of the pot is formed on the upper side, the pedestal in which the water supply unit is installed And a filter installed to filter impurities from water flowing into the inlet.

In addition, the water supply unit is installed in the storage space in which the water is stored in the water storage unit, an underwater pump providing a pumping force for the supply of water, and connected to the underwater pump is drawn from the water storage unit, the end is soil in the pot It may include a water supply pipe inserted into.

In addition, the pot may further include an LED module installed to irradiate light toward the plant.

In addition, the LED module may include a support supported by the pot, a main body fixed to the top of the support, and an LED element installed to irradiate light by a battery or power supplied from the outside to the main body.

In addition, the LED module is characterized in that the blue LED device for irradiating blue light and the red LED device for irradiating red light is installed at a ratio of 1: 3 to 2: 4.

The controller may operate the LED module at a set time interval by operating the LED module by a user's operation or by counting a time interval set by the user.

According to the moisture control device of the pollen according to the present invention, by automatically supplying the moisture required for the pot can prevent the plant from growing or dead due to lack of moisture or excess, and thus can manage the pot conveniently have.

In addition, by irradiating the potted plant with light of a wavelength required for growth, not only the plant growth is promoted, but also the plant grows smoothly when going out or traveling.

1 is a perspective view showing the installation state of the moisture control device of the pot according to the invention,
Figure 2 is a block diagram showing a moisture control device of the pot according to the invention,
Figure 3 is a sectional view showing the installation state of the moisture control device of the pot according to the invention,
Figure 4 is a graph showing the wavelength of light emitted from the LED element of the pollen moisture control device according to the present invention,
5 is a graph showing the wavelength of light emitted from another lighting device.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In addition, the embodiments of the present invention are provided to more fully explain the present invention to those skilled in the art, the following examples may be modified in various other forms, the scope of the present invention Is not limited to the following examples.

1 is a perspective view showing the installation of the moisture control device of the pot according to the invention, Figure 2 is a block diagram showing the moisture control device of the pot according to the present invention.

As shown in Figure 1 and 2, the moisture control device 100 of the pot according to the present invention is supplied to the humidity sensor 110 and the pot 10, which is installed on the soil 11 in the pot 10 The water storage unit 120, the water is stored, the water supply unit 130 to pump the water from the water storage unit 120 to the soil 11 of the flower pot 10 and the detection of the humidity sensor 110 The control unit 140 receives the signal and controls the water supply unit 130.

The humidity sensor 110 is installed on the soil 11 in the flower pot 10 to measure moisture and output a detection signal to the controller 140. On the other hand, the humidity sensor 110 is integrally formed with the control unit 140, or is connected to the control unit 140 installed to be spaced apart by a cable (not shown) to output a detection signal to the control unit 140 by wire, or RF or Bluetooth The sensing signal may be output to the controller 140 wirelessly. In the case of wireless communication, the humidity sensor 110 and the controller 140 may be provided with a transmitter and a receiver, respectively.

As shown in FIG. 3, the water storage unit 120 may include, for example, a pedestal 121 on which the pot 10 is placed on the upper side and a filter 122 installed on the pedestal 121.

Pedestal 121 is provided with a seating portion (121a) for the potted plant 10 is placed on the upper side, a storage space 121b for storing water in the lower side of the seating portion (121a) is formed inside, An inlet 121c for introducing water discharged from the drain port 12 of 10) is formed at an upper side thereof, and a water supply unit 130 is installed.

The filter 122 is installed to filter impurities from the water flowing into the inlet 121c, and thus, soil or other foreign matter included in the water flowing through the inlet 121c from the drain 12 of the flower pot 10. To remove the water to increase the cleanliness of the water recovered to the storage space (121b).

The water supply unit 130 pumps water from the water storage unit 120 and supplies the water to the soil 11 in the flower pot 10, for example, in the storage space 121b in which water is stored in the water storage unit 120. Installed and connected to the submersible pump 131 and the submersible pump 131, which provides a pumping force for the supply of water by using the driving force of the motor, is drawn from the storage space 121b of the water storage unit 120 end It may include a water supply pipe 132 is inserted into the soil 11 of the pot (10).

The humidity sensor 110 and the submersible pump 131 are each supplied with power from the pedestal 121 of the water storage unit 120 or the LED module 150 or other various locations installed in the battery. Power can be supplied from the supply through connectors and cables, respectively.

The controller 140 receives the detection signal of the humidity sensor 110 and supplies water to the soil 11 in the flower pot 10 by driving the water pump 131 of the water supply unit 130 when the humidity is less than or equal to a predetermined value. And, it can be installed in various locations, such as the pedestal 121 or the humidity sensor 110 or the flower pot 10 of the water storage unit 120 or LED module 150 to be described later, and in the water pump 131 The control signal can be transmitted by wire using a cable or the like, or by wireless using RF or Bluetooth.

Moisture control device 100 of the pot according to the present invention may further include a LED module 150 is installed to irradiate light toward the plant 13 in the pot (10).

The LED module 150 receives light by a support 151 supported by the flower pot 10, a main body 152 fixed to an upper end of the support 151, and a battery or power supplied from the outside to the main body 152. It may include an LED element 153 installed to irradiate.

In order to be supported by the pot 10, the support 151 is inserted into and supported by the soil 11 in the pot 10, for example, and may have a bar shape.

The main body 152 may be provided with a single or multiple LED elements 153 irradiating light toward the plant 13 at the bottom, and may have a variety of shapes, in consideration of harmony with the plant 13 It may have the shape of leaves, birds, butterflies, and the like.

The LED element 153 is supplied with power for operation from a battery built into the main body 152 or installed to be spaced apart from the main body 152, or by a power supplied through a connector and a cable connected to an external power supply. Light may be irradiated, and may be turned on / off by a power switch (not shown) provided in the main body 152, or turned on by the controller 140 receiving a user's operation signal. It may be on / off.

The LED device 153 has a ratio of 1: 3 to 2: 4 for a blue LED device that emits blue light, for example, light having a wavelength of about 450 nm, and a red LED device that emits red light, for example, a light having a wavelength of about 660 nm. Can be installed as

The controller 140 may operate the LED module 150 by a user's manipulation, or may operate the LED module 150 at a time interval set by the user's manipulation. Herein, the controller 140 controls the LED module 150 by the user's manipulation. The controller 140 controls the LED module 150 by turning on / off the operation switch 141 operated by the user's manipulation. Can be turned on / off.

In addition, the controller 140 controls the LED module 150 at a time interval set by a user's operation, and includes a timer 143 for counting a time interval set by the user's time interval setting unit 142. The LED module 150 may be controlled to irradiate light to the plant 13 from the LED module 150 at set time intervals. At this time, the control unit 140 is to be irradiated by the light from the LED module 150 for a predetermined time interval set by the user, or to be repeatedly turned on (on) and off (off) at each set time interval. It may be.

The controller 140 may be installed on the pedestal 121 of the water storage unit 120 together with the operation switch 141 and the time interval setting unit 142, or may be directly installed on the LED module 150, and various other methods. Can be installed at the location. In addition, the controller 140 may be made separately to control the water supply unit 130 and the LED module 150 separately.

Such an operation of the pollen moisture control device according to the present invention will be described.

If the humidity of the soil 11 in the pot 10 measured by the humidity sensor 110 is less than the set value, the control unit 140 operates the submersible pump 131 so that the water in the water storage unit 120 is water Through the supply pipe 132 to be supplied into the soil (11) of the pot (10). At this time, the operation time of the submersible pump 131 may be controlled by the controller 140 to drive for a predetermined time, or to stop the drive when the value measured by the humidity sensor 110 exceeds the set value. . Meanwhile, the water supplied into the soil 11 of the pollen 10 may be introduced into the inlet 121c through the drain 12 and collected in the storage space 121b in a filtered state by the filter 122.

In addition, the controller 140 allows the light to be irradiated from the LED module 150 according to the operation of the operation switch 141 of the user, or according to the time interval set by the user's time interval setting unit 142. Light can be irradiated from.

The LED device 153 is composed of a plurality of, the blue LED device and the red LED device is composed of a ratio of 1: 3, as shown in Figure 4, the light of 450nm wavelength advantageous for chlorophyll a and chlorophyll b is absorbed And light of 660nm wavelength is irradiated to the plant 13, which helps the plant 13 grow even in a place where the supply of light is not smooth because the manager turns off when going out or when traveling. That is, the LED element 153, as shown in Figure 5, unlike the fluorescent light or metal light emitting light of wavelengths different from 450nm and 660nm wavelength that chlorophyll a and chlorophyll b is advantageous to absorb, The plant 13 is irradiated with light having a wavelength favorable to growth.

As described above with reference to the accompanying drawings, the moisture control device of the pot according to the present invention, various modifications and variations can be made within the scope without departing from the spirit of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the equivalents of the claims, as well as the following claims.

10: pollen 11: soil
12: drain hole 13: plant
110: humidity sensor 120: water storage unit
121: base 121a: axle
121b: Storage 121c: Inlet
122: filter 130: water supply unit
131: submersible pump 132: water supply pipe
140: control unit 141: operation switch
142: time interval setting unit 143: timer
150: LED module 151: support
152: main body 153: LED element

Claims (7)

As a device for controlling pollen moisture,
A humidity sensor installed in the soil in the pot and measuring moisture to output a detection signal;
And a water storage unit for storing the water supplied to the pot,
A water supply unit pumping water from the water storage unit and supplying water to the soil in the pot;
A control unit receiving the detection signal of the humidity sensor to drive the water supply unit when the humidity is less than a predetermined value to supply water to the soil in the pot
Moisture control device of the potted plant.
According to claim 1, wherein the water storage unit,
The plant pot is placed on the upper side, a storage space for storing water is formed inside, an inlet for introducing water discharged from the drain of the plant pot is formed on the upper side, the pedestal and the water supply unit is installed;
Filter installed to filter impurities from the water flowing into the inlet
Moisture control device of the potted plant.
According to claim 1 or 2, wherein the water supply unit,
An underwater pump installed in a storage space for storing water in the water storage unit and providing a pumping force for supplying water;
A water supply pipe connected to the submersible pump and withdrawn from the water storage unit, and the end of which is inserted into the soil in the pot
Moisture control device of the potted plant.
The LED module of claim 1, wherein the LED module is installed to irradiate light toward the plant.
Moisture control device of the potted plant further comprising.
The method of claim 4, wherein the LED module,
A support supported by the flower pot,
A main body fixed to an upper end of the support;
LED element installed in the main body to irradiate light by a battery or power supplied from the outside
Moisture control device of the potted plant.
The method according to claim 4 or 5, wherein the LED module,
Blue LED device for irradiating blue light and red LED device for irradiating red light is installed in a ratio of 1: 3 to 2: 4 pollen moisture control device.
5. The apparatus of claim 4,
Operating the LED module by a user's operation, or by operating a timer for counting the time interval set by the user the LED module characterized in that for operating the LED module at each set time interval.

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