KR20110001094U - Apparatus for bring up Plants - Google Patents

Abstract

The present invention provides a housing for raising a plant, an LED light source for irradiating light to the plant, a cradle supporting the housing and supporting the LED light source, a first power supply and a power supply larger than the first power supply. A power supply unit having a power source and supplying pulsed power to the LED light source, and adjusting the supply time of the power source from the power supply unit according to the sunlight information of a database in which the sunlight information of the plant is recorded; It provides a plant nurturing device comprising a light source control unit for controlling to increase the amount of light or to reduce the amount of light, and to receive power from the first power source and the second power source to control the maximum light emission of the LED light source. Plant nurturing device according to the present invention can maximize the user's satisfaction by growing the plant well in the environment lacking natural light.

Description

Apparatus for bring up Plants}

The present invention relates to a plant rearing device.

Conventionally, when plants are grown on a living room or a desk in a room, many people die without end of life due to unsuitable photosynthesis by using indoor lighting regardless of the sunshine pattern of the plants.

The present invention is to provide a plant nurturing device to improve the user's satisfaction by supplying light according to the sunshine pattern of plants even in an environment in which natural light is not incident or lacking to grow well.

The present invention provides a housing for raising a plant, an LED light source for irradiating light to the plant, a cradle supporting the housing and supporting the LED light source, a first power supply and a power supply larger than the first power supply. A power supply unit having a power source and supplying pulsed power to the LED light source, and adjusting the supply time of the power source from the power supply unit according to the sunlight information of a database in which the sunlight information of the plant is recorded; It provides a plant nurturing device including a light source control unit for controlling to increase the amount of light or to reduce the amount of light, and to receive power from the first power source and the second power source to control the maximum light emission of the LED light source.

In the plant raising apparatus according to the present invention, the cradle may include a base portion for supporting the housing, and a support portion for supporting the LED light source such that the LED light source is disposed above the housing.

The power supply unit and the light source control unit may be disposed in the base unit.

An manipulation unit for inputting a manipulation signal of a user may be disposed in the base unit.

The plant nurturing device according to the present invention may execute a first lighting mode for a user and a second lighting mode for plant nurturing. In the first lighting mode, the light source controller may control the lighting or turning off of the LED light source according to a user's operation signal or an automatic sensing program. The first lighting mode is a mode used as a stand lighting when a user needs it. In addition, the second illumination mode is an illumination mode for plant rearing, and the light source controller may control the lighting or turning off of the LED light source according to the sunlight information of the database by a user's operation signal or an automatic sensing program. In order to execute the first illumination mode or the second illumination mode according to the automatic sensing program, the cradle is further arranged with a sensor for detecting whether the housing is placed, and the light source controller is not placed with the housing in the sensor. If it is detected that the first lighting mode for the user and if the sensor detects that the housing is placed may be provided with a lighting mode control unit for executing the second lighting mode for nurturing the plant.

The present invention can grow plants well by supplying light that matches the sunlight pattern of plants even in an environment where natural light is not incident well or lacks. In particular, through the internal program to realize sunrise and sunset, the amount of light is gradually increased at sunrise, decreased at sunrise, and at maximum noon, so that the expression of season, morning, By expressing the amount of sunshine daily, such as day and evening, it is possible to supply light suitable for each plant. In addition, by providing light using an LED light source with low power consumption, efficiency can also be improved.

The plant raising apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing the appearance of the plant nurturing device according to an embodiment of the present invention. In this embodiment, it illustrates with respect to a desktop plant raising apparatus.

Referring to FIG. 1, a housing 10 for raising plants, an LED light source 20 for irradiating light to the plants, and a holder 30 for supporting the housing and supporting the LED light source are provided. The cradle 30 may include a base part 31 that supports the housing, and a support part 38 that supports the LED light source so that the LED light source is disposed above the housing. The support 39 may be connected to the base 31 so that the LED light source 20 may be irradiated from the upper part of the plant in the housing 10. To this end, a specific configuration of the support 38 is connected to the base 31 and the support 32 extending above the base, the support 32 is connected to the height of the LED light source 20 Adjustable angle adjuster 33, the angle adjuster 34 is connected to the angle adjuster 33, the angle adjuster 34 to adjust the angle relative to the base portion 31 according to the rotation of the angle adjuster 33, A rotation control unit 35 connected to the angle adjuster 34 and adjusting the irradiation direction of the LED light source 20, a light source support unit 38 supporting the LED light source 20, and the LED light source 20. Cover portion 37, the rotation control portion 35 and the light source support portion 38 and the connecting portion 36 for connecting the cover portion 37 is provided.

By rotating the angle adjuster 33, the angle of the angle adjuster 34 may be adjusted based on the base part 31. Therefore, the height of the LED light source 20 can be adjusted.

As the rotation control unit 35 rotates, the connection unit 36 and the light source support unit 38 may move to rotate the irradiation direction of the LED light source 20.

In addition, the display unit 150 including an operation unit 160 capable of inputting a user's operation signal to the base unit 31 and a lamp indicating a state of the plant nurturing device is disposed.

In the present exemplary embodiment, the housing 10 is disposed on the base portion 31, and plants are planted and grown in the housing 10. However, the present disclosure is not limited thereto, and the housing 10 is not limited to a fish tank or a bird house. Formed in the form of a variety of animals can also be reared.

An internal block diagram related to the operation of the plant nurturing device will be described in detail with reference to FIG. 2.

Referring to FIG. 2, the plant nurturing device supplies a real time clock (RTC) 110 for control, a speaker 120 for outputting sound, and a control signal to the LED light source 20. A power supply unit 130 for supplying power and an overcurrent detector 140 for detecting an overcurrent flowing in the LED light source 20 is provided. The overcurrent detector 140 may detect the flow of the overcurrent in the LED light source 20 and control the LED light source 20 by supplying a detection signal to the MPU 200. In addition, the plant nurturing device may be provided with a display unit 150 in the form of a lamp to inform the status. In one embodiment, the lamp may be configured in the form of an LCD window, an OLED window, etc. to inform the state of the plant nurturing device through the display device. And it is provided with an operation unit 160 that can input the user's operation signal. The operation unit 160 may be implemented in various forms such as a key button, a touch screen, a touch panel, and the like. And it may be provided with a sensor 170 for detecting whether the housing (10 of FIG. 1), such as a pot, is placed on the base portion (31 of FIG. 1). The sensor 170 may be configured in the form of a weight sensor to detect whether the housing 10 is placed. When the sensor 170 detects that the housing 10 is placed, a detection signal is transmitted to the MPU 200, and the light source controller 210 of the MPU 200 according to the sunlight information of the database. The light source 20 may be controlled to emit light. That is, the MPU 200 may control to execute an illumination mode for plant nurturing, and accordingly, the light source controller 210 may control the light emission of the LED light source 20. Alternatively, when the sensor 170 detects that the housing 10 is not placed, the detection signal is transmitted to the MPU 200, and the light source controller 210 controls to execute an illumination mode for the user. Unlike the illumination mode for the plant, to protect the user's eyesight to control the supply time of the power in a cycle that the user does not notice the flicker, and controls to provide a constant amount of light supply.

The MPU 200 includes a light source controller 130 for controlling light emission of the LED light source 20, and the light source controller 130 controls a signal to the power supply unit 130 based on the sunlight information of the database DB. To provide.

The plant nurturing device includes a power supply unit 180. The power supply unit 180 supplies power to the MPU 200 to control on / off of the plant nurturing device. The plant nurturing device includes a memory 190 that records a database of sunlight information of the plant. The database contains the plant's ecological algorithm. For example, the database may include sunlight information for effectively raising related plants since the amount of sunshine varies depending on when the fruit-bearing plant and the flower plant store and bloom nutrients.

In addition, the memory 190 is recorded a program for operating the plant nurturing device. The MPU 200 controls to execute a corresponding operation based on the program and the database. The MPU 200 derives sunshine information from a database corresponding to the time and date information provided from the timer and the calendar, and controls the area energy by program control to control the amount of light of the LED light source 20. Such light amount control of the LED light source 20 is performed by the light source control unit 210.

3 is a circuit diagram of a power supply unit 130 supplying power to the LED light source 20 according to a control signal of the light source controller 210.

Referring to FIG. 3, the power supply unit 130 includes a first power and a second high power supplying a larger power than the first power and a pulse shape to the LED light source. To supply power. Switching the supply of the second power (High Power) by the first transistor (Q1) and the second control signal (B) for switching the supply of the first power (Power) by a first control signal (A). A second transistor Q2 is provided. Power from the first power may be supplied to the LED light source 20 through the first transistor Q1. In addition, power from the second high power may be provided to the LED light source 20 through the second transistor Q2. One terminal of the first transistor Q1 is connected to a first power source, and the other terminal is connected to the resistor R and the LED light source 20. One terminal of the second transistor Q2 is connected to a second power source, and the other terminal is connected to the LED light source 20. In addition, the other terminal of the second transistor Q2 is connected to the other terminal and the resistor of the first transistor Q1. The resistor is for maintaining the voltage of the other terminal in order to maintain a constant power supplied from the first power or the second power (High Power).

The first control signal or the second control signal is provided to the light source controller 210 according to a database in which the sunlight information is recorded. The amount of light of the LED light source 20 can be easily adjusted according to the control signals.

For example, the amount of light must be increased gradually in the morning, the maximum amount of light must be emitted in a short period of time at noon, and the amount of sunshine during the day can be realized by gradually decreasing the amount of light in the evening. In addition to the amount of sunshine during the day, the amount of sunshine according to the season can be implemented in this way.

In the present invention, the amount of sunshine as described above can be realized by using a PWM method and an impulse method simultaneously.

For example, PWM is used to implement morning and evening.

Referring to the circuit diagram of FIG. 3 and the timing diagram of FIG. 4A, the on time of the first transistor Q1 is gradually increased by the first control signal A to increase the amount of power supplied from the first power. You can. Referring to FIG. 4A, the magnitude b of the power supplied from the first power is constant and the amount of power supplied to the LED light source 20 is increased when the supply time of the power is gradually increased (a1 <a2 <a3). Since S1 <S2 <S3 is increased, the light emission amount of the LED light source 20 can be increased.

On the contrary, referring to FIG. 4B in response to the evening, the on time of the first transistor Q1 may be gradually reduced by the first control signal A to reduce the amount of power supplied from the first power. . By reducing the supply time of the first power (a4> a5> a6), the amount of power S4> S5> S6 supplied to the LED light source 20 is reduced, thereby reducing the amount of light of the LED light source 20. You can. Therefore, it can create an environment that seems to be setting sun.

To implement the noon time zone, an impulse scheme is used. Specifically, referring to FIG. 4C, the first transistor Q1 and the second transistor Q2 according to the first control signal A and the second control signal B are used. Are simultaneously turned on to increase the size b2 of the power supply. However, since the maximum amount of light emission is realized within noon time, that is, 1 to 3 hours, the supply time is constant, and the amount of sunshine in the noon time can be realized by increasing only the size (b2) of the power source. Therefore, while minimizing the consumption of the LED light source 20, it is possible to implement the amount of sunshine in a short time period, it is possible to easily implement the amount of sunshine for one year and four seasons, the amount of sunshine for one day.

In this embodiment, the PWM method is used in the morning and evening, and the impulse method is used at noon. However, the present invention is not limited thereto, and it is possible to supply light of a sunshine pattern suitable for each plant by appropriately using the two methods. It features.

So far I looked at the center of the preferred embodiment for the present invention. Those skilled in the art will understand that the present invention can be implemented in a modified form without departing from the essential characteristics of the present invention. Therefore, the disclosed embodiments should be considered in descriptive sense only and not for purposes of limitation. The scope of the present invention is shown in the claims rather than the foregoing description, and all differences within the equivalent scope should be construed as being included in the present invention.

1 is a view showing the external appearance of the tabletop plant raising apparatus according to an embodiment of the present invention.

FIG. 2 is a block diagram corresponding to a circuit diagram of a power supply unit, a light source control unit, and the like included in the desktop plant raising apparatus shown in FIG. 1.

FIG. 3 is a circuit diagram of a power supply unit and an LED light source of the desktop plant raising apparatus shown in FIG. 2.

4A to 4C are waveform diagrams of the power supplied from the power supply unit to the LED light source controlled by the light source control unit of the tabletop plant raising device shown in FIG. 2.

Claims (6)

A housing for raising plants; LED light source for irradiating the plant with light; A cradle supporting the housing and supporting the LED light source; A power supply having a first power supply and a second power supply for supplying a larger power supply than the first power supply, and supplying power in a pulse form to the LED light source; Adjusting the supply time of the power from the power supply according to the sunlight information of the database recording the sunlight information of the plant to control to gradually increase or decrease the amount of light of the LED light source, the first power source and the second power source And a light source controller configured to control power to realize maximum light emission of the LED light source when a maximum light amount is required by a built-in clock receiving power from the built-in clock. According to claim 1, wherein the cradle is a base portion for supporting the housing, And a support for supporting the LED light source such that the LED light source is disposed above the housing. According to claim 2, wherein the power supply unit and the light source control unit is disposed in the base unit for personal use and pots for growing plants. The plant rearing apparatus according to claim 2, wherein an operation unit for inputting an operation signal of a user and a state in which a current time is displayed are arranged in the base unit. The plant rearing apparatus according to claim 1, wherein the tabletop plant rearing apparatus has a first lighting mode for a user and a second lighting mode for plant rearing. According to claim 5, The cradle is provided with a sensor for detecting whether the housing is placed, An illumination to execute a first illumination mode for the user when the sensor detects that the housing is not placed, and to execute a second illumination mode for nurturing the plant when the sensor detects that the housing is placed Plant nurturing device provided with a mode control unit.

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