KR20170032106A - Flowerpot installation system for discharging phytoncide - Google Patents

Abstract

The present invention provides a pollen suspension system for phytoncide release, comprising: a tray provided with at least one or more openings for opening the upper surface of the tray, A sensor unit for sensing the concentration of phytoncide emitted from the plant or the temperature of the air around the plant, a hot air drive unit surrounding the tray and extending to the upper surface of the tray, for supplying hot air to the plant, A controller for receiving the phytoncide concentration of the hot-air driving unit, a controller for controlling the operation of the hot-air driving unit based on data received from the controller or the sensor unit, and a power unit for supplying power to the hot- .

Description

[0001] The present invention relates to a flowerpot installation system for discharging phytoncide,

The present invention relates to a pollen suspension system for phytoncide release, and more particularly, to a pollen suspension system for phytoncide release in which phytoncide is automatically released by supplying hot air to a leaf of a plant to be grown, .

In general, when plants are grown indoors or when a garden is created, emotional stability and abundance can be felt, and the plant releases phytoncide to resist pathogens, insects and fungi.

Drinking the phytoncide released from the plants described above relieves stress, strengthens the intestinal cardiopulmonary function, inhibits the reproduction of house dust mite causing atopy as well as sterilizing effect. In addition, it cleans the air and makes you feel comfortable, which is helpful for mind and body stability.

However, since such phytoncide is affected by irradiation, temperature, and humidity, it is not easily released simply by cultivating plants or creating a garden in the room.

Therefore, in order to take such a useful phytoncide, people make efforts such as climbing up to the middle of a mountain to take a forest bath, but this takes a long time. Conventionally, a fragrance or phytoncide releasing device having extracted phytoncide components has been introduced. However, since the processed phytoncide diluent is used, the effect is very low, and the use of the device is inconvenient and the maintenance cost is increased.

On the other hand, in the management of plants, a lot of automatic plant growing apparatus and system have been developed, but there is no system that can appropriately manage or provide the amount or concentration of phytoncide depending on each plant.

Related art is disclosed in Korean Patent Publication No. 10-2005-0046881 entitled Indoor air purification system using plant-soil, published on May 19, 2005.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a method for controlling the concentration of phytoncide released from a plant leaf by increasing the temperature of a plant leaf, Provides a potting system for phytoncide release.

According to another aspect of the present invention, there is provided a pollen suspension system for phytoncide release, the system comprising at least one or more poles, A sensor for sensing the concentration of phytoncide emitted from the plant or the temperature of the air around the plant, provided on one side of the tray, a tray, a hot air drive unit extending from the upper surface of the tray and supplying hot air to the plant, A controller for receiving the phytoncide concentration of the plant, a controller for controlling the operation of the hot air drier according to the data received from the controller or the sensor unit, and a power unit for supplying power to the hot air drier according to a command from the controller.

 The sensor unit may include a temperature sensor located inside or outside the hot air drive unit and sensing a temperature in the pollen or a temperature around the pollen, a concentration sensor positioned inside the hot air drive unit and measuring the concentration of phytoncide emitted from the plant.

 The hot air drive unit may be configured to increase the temperature of the leaf of the plant by applying hot air to the leaves of the plant.

 The hot air drive part may include a plate inclined with respect to the upper surface of the tray to provide hot air to the leaves of the plant, and at least one hole formed in the inner surface of the plate to emit hot air.

 The plate may be formed so as to be inclined downward from the hot air drive portion toward the tray.

 And a data storage unit for storing a concentration range value set by the controller.

 The control unit compares the measured phytoncide concentration value in the flowerpot with the previously stored phytoncide concentration range value in the data storage unit by the concentration sensor and generates a control signal to the power supply unit when the measured phytoncide concentration value is out of the previously stored phytoncide concentration range value So that the hot air drive unit can be driven.

 The sensor unit may include a weight sensor positioned on the bottom surface of the tray and sensing that the flowerpot is seated.

 The weight sensor can turn off the operation of the hot air drive unit by transmitting a weight detection signal to the control unit when the flowerpot is not seated in the tray.

The controller may adjust the direction of the hot air drive unit or the intensity of hot air in conjunction with the phytoncide concentration value.

The present invention provides a pot support system for releasing phytoncide, which is provided with a hot air drive unit for supplying hot air to leaves of a plant, thereby increasing the amount of phytoncide emitted from the leaves of the plant to suppress the growth of house dust mites, In addition to sterilization, the intestines and cardiopulmonary functions are strengthened, and the mind and body stability and stress can be relieved.

In addition, since the plate formed on the hot air drive unit is formed by inclining the pot support system for the phytoncide discharge according to the present invention, the phytoncide can be effectively discharged by supplying the hot air only to the leaves of the plant.

In addition, the pollen suspension system for phytoncide release according to the present invention is economical and efficient by driving the hot air drive unit only when the pollen is seated on the tray, as the pollen is seated on the tray from the weight sensor.

1 is a cross-sectional view of a pollen suspension system for phytoncide release in accordance with an embodiment of the present invention.
2 is a perspective view of a pollen suspension system for phytoncide release according to FIG.
3 is a flow chart of a pollen suspension system for phytoncide release in accordance with one embodiment of the present invention.
4 is a perspective view of a pollen suspension system for phytoncide release according to another embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and / or features of the present invention, and how to accomplish them, will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. It should be understood, however, that the invention is not limited to the disclosed embodiments, but is capable of many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification. In the following description, well-known functions or constructions are not described in order to avoid unnecessary obscuration of the present invention.

Prior to the description, plants mounted in the pollen suspension system 100 for phytoncide release according to the present invention refer to common plants or crops, and preferably plant seedlings such as coniferous trees or herbs that relatively radiate phytoncide in plants As shown in FIG.

The pollen suspension system (100) for phytoncide release according to the present invention is installed in various places in the indoor space and can sterilize, antibacterial, and cleanse the skin to clean the skin, moisturize, and strengthen the immune function in the body.

For example, the pollen suspension system 100 for phytoncide release according to the present invention can be installed in a bathroom to remove fungus, and can be used to improve skin diseases such as atopy, asthma, and allergies.

In addition, the pollen suspension system 100 for releasing the phytoncide according to the present invention may not only receive plant pots but also directly mount leaves of plants or trees that emit phytoncide to generate phytoncide. Thus, the expression "pollen" or "plant" will be understood to include concepts such as "leaves of plants" or "wood" or "chopped wood" as well as pots of dictionary meaning.

Hereinafter, a pollen suspension system 100 for phytoncide release according to the present invention will be described in detail with reference to the drawings.

1 is a cross-sectional view of a pollen suspension system for phytoncide release in accordance with one embodiment of the present invention, and FIG. 2 is a perspective view of a pollen suspension system for phytoncide release according to FIG.

1 and 2, the pollen suspension system 100 for phytoncide release according to an embodiment of the present invention is a pollen suspension system 100 in which a stationary space in which plants are suspended is formed, A sensor 105 provided at one side of the tray 105 for sensing the concentration, temperature or weight of the plant, a tray 105 provided at a side of the tray 105, A controller 130, a controller 130, and a sensor unit 130. The hot-air drive unit 120 includes a hot air drive unit 120 that surrounds the tray 105 and extends to the upper surface of the tray 105, The control unit 140 controls the operation of the hot air driving unit 120 according to a signal received from the hot air driving unit 110 and a power supply unit 150 that supplies power to the hot air driving unit 120 .

The pollen suspension system 100 for discharging phytoncide according to the present invention is characterized in that the pollen 103 having a shape of a polygonal shape such as a square or a circle is fixed to the inside of the tray 105 of the present invention with soil as a main material, A planting space in which plants are planted may be formed in the planting space 103. That is, the upper surface of the tray 105 is opened so that at least one or more pots 103 can be seated, and the pots 103 can be put on the plants.

The sensor unit 110 according to the present invention is installed in the hot air drive unit 120 extending along the periphery of the tray 105 and can sense temperature, concentration, weight, etc. of plants in the planting space.

That is, the sensor unit 110 is located inside the hot air drive unit 120 and includes a temperature sensor 111 for sensing the temperature in the pollen 103, a concentration sensor 113 for measuring the concentration of phytoncide emitted from the plant, And a weight sensor 115 sensing that the tray 103 is seated in the tray 105.

Accordingly, the pot support system 100 for emitting phytoncide according to the present invention can detect the concentration of the phytoncide with respect to the temperature of the leaf 101 of the plant by providing the sensor unit 110 for sensing temperature, concentration, The amount of phytoncide emission can be effectively controlled.

Further, if necessary, a touch sensor, a moisture sensor, and the like may be further provided to know the contact state of the human body with the plant, the moisture state of the soil, and the like.

The temperature sensor 111 according to the present invention is installed inside the hot air drive unit 120 to sense the temperature inside the planting space of the flowerpot 103. That is, the temperature sensor 111 can be installed close to the leaf 101 of the plant, measure the temperature of the leaf 101 of the plant in real time, and send the output signal to the control unit 140.

The concentration sensor 113 according to the present invention can measure the concentration of the phytoncide that is provided inside the hot air drive unit 120 and emanates from the leaves 101 of the plant. That is, the concentration sensor 113 is installed close to the plant leaf 101, and can measure the concentration of phytoncide emitted from the leaf 101 of the plant in real time and send the output signal to the control unit 140.

The temperature sensor 111 and the concentration sensor 113 of the present invention are preferably mounted inside the hot air drive part 120 for measuring the temperature of the plant leaf 101 and the concentration of the phytoncide, Or may be formed on the outer side of the hot air drive unit 120 or on the end of the hot air drive unit 120. In addition, a plurality of heaters may be provided on the inner side of the hot air drive part 120 according to the size of the tray 105 to measure the temperature of the plant leaves 101 and the concentration of the phytoncide.

The weight sensor 115 according to the present invention may be installed on the bottom surface of the tray 105 and detect that the pollen 103 is seated or not seated between the tray 105 and the pollen 103. That is, when the pollen 103 is not seated on the tray 105, the weight sensor 115 may transmit a weight sensing signal to the controller 140 to turn off the operation of the hot air driving unit 120.

The weight sensor 115 is preferably installed on the bottom of the tray 105 to sense the weight of the pollen 103 but may be formed on the side of the tray 105 if necessary.

The weight sensor 115 senses that the pollen 103 is seated on the tray 105 and drives the hot air drive unit 120 only when the pollen 103 is seated on the tray 105, to be.

The hot air drive unit 120 according to the present invention is provided at the end of the tray 105 and can supply wind toward the leaves 101 of the plant. That is, the hot air drive unit 120 provides a warm wind to the leaf 101 side of the plant, such as a hair dryer or a blower, to raise the temperature of the leaf 101 of the plant.

The hot air drive unit 120 is formed on the inner surface of the plate 121 and the plate 121 that is inclined with respect to the upper surface of the tray 105 to provide hot air to the leaf 101 of the plant, At least one hot air hole 123 may be included.

At this time, the plate 121 may be formed to be inclined downward toward the tray 105 from the hot air driving unit 120 side. That is, the plate 121 may be formed by being inclined so as to surround the side of the leaf 101 to provide hot air to the leaf 101 of the plant to be planted. Accordingly, the hot air holes 123 formed on the inner surface of the plate 121 can provide hot air to the plant leaves 101 from the bottom up.

Accordingly, in the pollen suspension system 100 for phytoncide release according to the present invention, since the plate 121 formed in the hot air drive part 120 is inclined, only hot air is supplied to the leaf 101 side of the plant, Phytoncide can be effectively released without removing moisture.

Meanwhile, the controller 130 according to the present invention can set the phytoncide concentration or temperature of the plant from the user. At this time, it is preferable that the controller 130 is formed on the outer surface of the tray 105 so that it can be directly set by a user. However, the controller 130 may be separately provided as an external device such as a computer or a portable device.

In this case, the pollen suspension system 100 for phytoncide release according to the present invention may further include a data storage unit 160 for storing a concentration range value set by the controller 130.

That is, when the concentration of phytoncide is set by the user, the controller 130 transmits the concentration range value to the data storage unit 160, and the controller 140 processes the signal to control the operation of the hot-air driving unit 120 The ambient temperature of the leaf 101 of the plant can be changed by controlling the intensity and time of the aeration wind.

Accordingly, since the concentration of the phytoncide is proportional to the higher temperature, the user can adjust the concentration of the phytoncide to a desired level by changing the temperature of the hot air from the hot air drive unit 120. That is, since the amount or concentration of the phytoncide is a function of temperature, the amount or concentration of the phytoncide can be controlled by changing or increasing the temperature of the plant leaf or the temperature of the leaf that generates the phytoncide. The content of this phytoncide concentration control will be described in more detail below.

Meanwhile, the power supply unit 150 according to the present invention can supply power to the hot air drive unit 120 in response to a command from the controller 140.

In this case, the power supply unit 150 may be configured as a power conversion device that receives an AC from an external power source and converts the AC into DC, and supplies the AC to each configuration, or may be a portable battery.

Operation of the pollen suspension system 100 for phytoncide release according to the present invention having the above-described configuration will be described with reference to FIG.

3 is a flow chart of a pollen suspension system for phytoncide release in accordance with one embodiment of the present invention.

3, the pollen suspension system 100 for discharging phytoncide according to the present invention connects the power source unit 150 to an external power source or a portable battery so that the controller 140 and the hot air- It becomes possible.

The control unit 140 receives the output signals of the temperature sensor 111 and the concentration sensor 113 mounted in the hot air drive unit 120 and transmits the change in temperature and concentration of the plant leaves 101, .

The user sets the concentration of the desired phonontide in the controller 130, and transmits the concentration range value thus set to the data storage unit 160. That is, the phytoncide concentration value input from the user is stored in the data storage unit 160.

At this time, the control unit 140 compares the measured phytoncide concentration value in the pollen 103 with the concentration value of the phytoncide concentration range stored in the data storage unit 160 by the concentration sensor 113, and stores the measured phytoncide concentration value in advance When the phytoncide concentration range value is exceeded, a control signal is generated in the power supply unit 150 to drive the hot air drive unit 120. [

That is, the control unit 140 compares the previously stored phytoncide concentration range value of the data storage unit 160 received from the user with the measured phytoncide concentration value from the concentration sensor 113. If the measured phytoncide concentration value is different from the concentration range value inputted by the user, the temperature can be adjusted by driving the hot air drive unit 120. [

Specifically, when the concentration of phytoncide is higher than a user's desired range, a control signal may be generated in the power supply unit 150 so as to electrically turn off the hot air driving unit 120, or to drive the hot air to drive the cold wind. Alternatively, when the concentration of phytoncide is lower than the range desired by the user, a control signal may be generated in the power supply unit 150 to drive the hot air from the hot air holes 123 of the hot air driving unit 120 to generate warm air.

In addition, the controller 140 may set the lower limit and the upper limit value of the proper concentration of the phytoncide concentration so that the user does not set the phytoncide concentration value, the potting system 100 for the phytoncide release according to the present invention is operated in the automatic mode Can be driven. In this case, the automatic mode may be set in advance in the control unit 140 such as the concentration-strengthening mode and the stress-relaxation mode, and the upper and lower limits may be set differently depending on the function.

4 is a perspective view of a pollen suspension system for phytoncide release according to another embodiment of the present invention.

Referring to FIG. 4, a pollen suspension system 100 for phytoncide release according to another embodiment of the present invention is similar in most configurations to the pollen suspension system 100 for phytoncide release shown in FIGS. 1-3 Only the configurations of the tray 105 and the hot air drive unit 120 are different from those of the above-described embodiment in order to avoid duplication of description.

In another embodiment of the present invention, at least one seating groove (not shown) is formed in the tray 105 so that a plurality of pollen 103 can be seated in the pollen suspension system 100 for phytoncide release, Or a plurality of trays 105 may be provided and coupled to each other. As shown in FIG. 4, a case in which two pots 103 are planted will be described for convenience of explanation.

The hot pot drive unit 120 is extended from both ends of the tray 105 based on the circumferential direction of the tray 105 and the tray 105 is rotated by the hot wind driving unit 120. [ Or a part of or the entire periphery thereof.

In particular, both ends of the plate 121 of the hot air drive unit 120 are provided so as to be inclined downward to the best end side of the tray 105, so hot air can be easily supplied only to the leaves 101 of the plant.

4, the hot air drive unit 120 is formed on three sides of the tray 105, but the present invention is not limited thereto. For example, the hot air drive unit 120 may be formed on the side surface of the tray 105, or may be formed on one side of the tray 105.

That is, if hot air can be easily supplied to the leaves 101 of the plant, the hot-air drive unit 120 may be configured differently from the embodiment of the present invention and other embodiments.

A weight sensor 115 is provided on the bottom surface of the seating groove formed in the tray 105 so that the pollen 103 can be seated thereon so as to separately detect the seating / The driving of the driving unit 120 can be turned on / off.

Meanwhile, the controller may adjust the direction of the hot air driving unit or the intensity of the hot air in conjunction with the phytoncide concentration value.

Accordingly, the pollen suspension system 100 for phytoncide release according to another embodiment of the present invention can be used for a variety of plants in the process of supplying hot air to the leaves 101 of plants, Vinyl house, etc.), it is possible not only to facilitate the operation but also to release a large amount of phytoncide.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, This is possible. Accordingly, the spirit of the present invention should be understood only in accordance with the claims set forth below, and all of its equivalents or equivalent variations fall within the scope of the present invention.

100: Pollen suspension system for phytoncide release
101: Leaf 103: Flowerpot
105: Tray 110:
111: Temperature sensor 113: Concentration sensor
115: Weight sensor 120: Hot air drive unit
121: plate 123: hot air hole
130: controller 140:
150: Power supply unit 160: Data storage unit

Claims (10)

A pollen suspension system in which a stationary space in which a plant is stationary is formed,
A tray having at least one or more upper surfaces opened to allow a flowerpot to be seated;
A sensor disposed at one side of the tray for sensing the concentration of phytoncide emitted from the plant or the temperature of the air around the plant;
A hot wind driving unit that surrounds the tray and extends to an upper surface of the tray, and supplies hot wind to the plant;
A controller for receiving the phytoncide concentration of the plant;
A control unit for controlling the operation of the hot air drive unit based on data received from the controller or the sensor unit;
And a power supply unit for supplying power to the hot air driving unit by a command from the control unit.
The method according to claim 1,
The sensor unit includes:
A temperature sensor located inside or outside the hot air drive unit and sensing a temperature in the pollen or a temperature around the pollen; And
And a concentration sensor located inside the hot air drive unit for measuring the concentration of phytoncide emitted from the plant.
3. The method of claim 2,
The hot-
Wherein a temperature of the leaf of the plant is increased by applying hot air to the leaves of the plant.
The method of claim 3,
The hot-
A plate tilted relative to the upper surface of the tray to provide hot air to the leaves of the plant, and
And at least one hot air hole formed on an inner surface of the plate to generate hot air.
5. The method of claim 4,
The plate may comprise:
And the lower portion of the tray is inclined downward toward the tray from the hot air driving portion side.
3. The method of claim 2,
And a data storage for storing a concentration range value set by the controller. ≪ Desc / Clms Page number 13 >
The method according to claim 6,
Wherein,
Comparing the measured phytoncide concentration value in the flower pot with the previously stored phytoncide concentration range value in the data storage by the concentration sensor,
And when the measured phytoncide concentration value is out of the stored phytoncide concentration range value, generates a control signal to drive the hot air drive unit.
The method according to claim 1,
The sensor unit includes:
And a weight sensor located on a bottom surface of the tray for detecting the placement of the pot.
9. The method of claim 8,
The weight sensor comprises:
Wherein the control unit transmits a weight detection signal to turn off the operation of the hot air drive unit when the flowerpot is not seated on the tray.
8. The method of claim 7,
Wherein the controller controls the direction of the hot air drive unit or the intensity of the hot air in conjunction with the phytoncide concentration value.

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