KR101388951B1 - Irrigator system using moisture in the air - Google Patents

Abstract

The present invention relates to a plant irrigation system, and more particularly, intakes air spread in a wide space, condenses water contained in the air, collects water, and filters the collected water in the plant cultivator. Watering plants to be planted makes it easy to grow plants in places where installation to external water pipes or proper watering of plants is difficult, and water for watering plants. The water level sensor installed in the tank automatically adjusts the operation of the air moisture collecting unit to collect the water contained in the air, and the water supply is automatically controlled by the humidity sensor installed in the plant cultivator. Underground plazas or large commercial areas that are difficult to manage Will be one of the plants with irrigation system water allows air to be.

Description

Plant irrigation system using public moisture {IRRIGATOR SYSTEM USING MOISTURE IN THE AIR}

The present invention relates to a plant irrigation system, and more particularly, intakes air spread in a wide space, condenses water contained in the air, collects water, and filters the collected water in the plant cultivator. Watering plants to be planted makes it easy to grow plants in places where installation to external water pipes or proper watering of plants is difficult, and water for watering plants. The water level sensor installed in the tank automatically adjusts the operation of the air moisture collecting unit to collect the water contained in the air, and the water supply is automatically controlled by the humidity sensor installed in the plant cultivator. Underground plazas or large commercial areas that are difficult to manage Will be one of the plants with irrigation system water allows air to be.

In the facilities used by many people, such as underground plazas, subways or large commercial areas, it is common to plant landscaping plants for various purposes such as air purification of the area and creating a comfortable atmosphere.

Since facilities such as underground plazas are generally formed inside the building by being cut off from the external natural environment, it is necessary to supply necessary water at regular intervals through separate watering facilities for the growth and survival of planted plants.

In addition, in recent years, instead of having a costly landscaping facility, a plant cultivator is installed on a wall, such that a plan for improving the utilization of space while implementing a landscaping effect by cultivating plants has been proposed. However, even when using the plant cultivator was required to install a separate watering facilities for the survival of the plant.

Therefore, in order to equip the facilities such as underground plazas with landscaping facilities or install plant cultivators, the watering facilities connected to spaced water pipes should be considered first, and the aesthetics are prevented from being impaired due to the exposure of the watering facilities. As it should be, the place for installing the plant cultivator, etc. was limited to the place adjacent to the water pipe.

In addition, when the conventional plant cultivator is not equipped with a separate irrigation equipment installed in facilities such as underground plaza, the managers had to irrigate the water daily, such as watering directly, there was a problem that the manager's work is unnecessarily increased. There was a problem in that a lot of time and effort should be invested in plant cultivation, such as the plants do not have proper irrigation.

Accordingly, in line with the supply of plant cultivators, which have been widely spread in recent years, difficult construction for connection to water pipes is unnecessary, so that they are not limited to the installation site, and the work of the manager who manages the plant cultivators is notable. There is an increasing demand for new watering systems that can be reduced.

The problem to be solved by the present invention is to suck the air spread in a large space and to condense the water contained in the air to collect the water, and thus to filter the collected water to water the plants planted in the plant cultivator This makes it easy to grow plants even in places where installation to external water pipes is difficult or proper watering is difficult, and the water level sensor installed in the water tank for watering where water for watering the plants is stored. By controlling the operation of the air pollutant collecting unit to collect the water contained in the air automatically, and by the humidity sensor installed in the plant cultivator is automatically controlled whether the underground plaza, Even in large commercial areas, it is possible to drain air pollutants that enable automatic irrigation without connecting external water pipes. It is a plant watering system to provide.

Plant irrigation system using air moisture to solve the above problems,

An air moisture collecting unit for sucking air in the space where the plant cultivator is installed and collecting water contained in the air; A drip tank storing water collected in the air moisture collecting part; A watering tank connected to the drip tank for receiving water and temporarily storing the water for supply to plants; A water supply pipe connected to the plant cultivator from the watering water tank for supplying water; And a watering control unit for automatically controlling water collection in the air moisture collecting unit and watering of water stored in the watering water tank.

At this time, the air moisture collecting unit,

A collecting tube through which wet air is introduced and discharged dry air; An evaporator for cooling the air flowing into the collection pipe; A condenser to condense by applying pressure to the air having a lower temperature in the evaporator; And a suction fan configured to generate a flow of air introduced into the collection pipe and a flow of air for discharging dry air after condensation of water to the outside.

In addition, the water tank for watering is further provided with a water level sensor for sensing the water level stored in the water; The water level sensor comprises both a first level sensor for recognizing that the water stored in the watering water tank is less than a certain amount, and a second level sensor for recognizing that the water stored in the watering water tank is a certain amount or more; The watering control unit may be configured to activate the air moisture collecting unit by the detection signal from the first water level sensor and to deactivate the air moisture collecting unit by the detection signal of the second water level sensor. Do.

In addition, the watering control unit,

A power supply unit converting an external AC power source into a stable IC driving power source and supplying the same; A water collection control unit which automatically generates a control signal of the air moisture collecting unit based on a detection signal from a water level sensor provided in the watering tank for controlling water collection; And a feed pump control unit for controlling the operation of the feed pump for supplying water to the plant cultivator.

At this time, the water collection control unit, the water level detection module for controlling the collection of water through the air moisture collecting unit by the detection signal to the water level sensor provided in the water tank for watering; A fan driving module comprising an IC controlling driving of a suction fan provided in the air moisture collecting unit by a control signal in the water level sensing module or a control signal applied by a user; And a condenser driving module configured to control driving of the condenser provided in the air moisture collecting unit by a control signal in the water level sensing module or a control signal applied by a user.

In addition, the plant cultivator is provided with a humidity sensor that can measure the ambient humidity, the water supply pump control unit receives the humidity information around the plant cultivator from the humidity sensor to automatically control signals for driving the water supply pump It is preferably configured to produce.

According to the present invention, the collection of moisture in the air is automatically controlled by the water collection control unit, and the watering to the plant cultivator is automatically controlled by the water supply pump control unit, so that the complex watering facility for direct connection to the water pipe or the manager's direct watering There is an advantage that plants can be grown without effort.

In particular, in places with many floating populations such as underground plazas, subway stations, or Daegumo commercial areas, it is common to maintain minimum irrigation volume to improve the scenery in the area. Thus, after collecting and collecting moisture in the air, Just watering has the advantage of significantly prolonging the survival of the plant through plant cultivation.

In addition, the present invention has the advantage that it is possible to automatically watering the plants even if you empty the house for a long time, such as traveling abroad in the home by automatically collecting the water in the air without direct management of the manager.

1 is a block diagram of a plant watering system using the air in accordance with the present invention.
2 is a schematic diagram of a watering control circuit according to the present invention.

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

1 is a block diagram of a plant watering system using air pollutants according to the present invention, Figure 2 is a block diagram of a watering control circuit according to the present invention.

Referring to Figure 1, the plant watering system using air pollutants according to the present invention, the air pollutant collecting unit 200 to suck the air in the space in which the plant cultivator 100 is installed to collect the moisture contained in the air And, a drip tank (300) for storing the water collected in the air moisture collecting unit, and a watering tank (400) for temporarily storing to supply the water collected and connected to the drip tank and to supply to the plant, Watering pipe 500 is connected to the water cultivator from the watering plant for supplying water to supply the water, and the watering control unit for controlling the collection of the water stored in the water collection tank for controlling the collection in the water pollination water tank And 600.

The air pollutant collecting unit 200 is installed in a space to collect moisture, such as an underground plaza or a subway station or a large commercial area where the plant cultivator 100 is installed, and a collecting pipe 210 into which wet air is introduced; The evaporator 220 for cooling the air flowing into the collecting pipe, the condenser 230 for condensing by applying pressure to the air having a lower temperature in the evaporator, and the water condenses while generating a flow of air flowing into the collecting pipe. It is configured to include a suction fan 240 for discharging the dry air after the outside.

In this case, the air pollutant collecting unit can automatically perform proper watering for plants even when the house is vacated for a long time due to overseas travel, as well as a place where a large number of people, such as the underground plaza is scheduled to be used, general home or office Of course it can also be installed.

Both ends of the collecting pipe 210 are penetrated by the suction force generated by the suction fan 240 so that wet air is introduced at one end and dry air is discharged at the other end. The evaporator 220 and the condenser 230 And the suction fan 240 is made of a hollow tube inside. At this time, the collecting pipe 210 may be made of a simple straight pipe, of course, may be made of various forms such as a bent pipe.

In addition, the collecting pipe 210 is preferably installed at a predetermined distance from the ground by a support so that more air can be sucked by the smooth air flow in the space generated by the suction fan 240. Do. Accordingly, by the flow of air caused by the suction force generated in the suction fan 240, it is possible to suck a lot of wet air from the front and top and bottom of the collecting pipe 210 as indicated by the dotted line in FIG. .

The evaporator 220 absorbs and cools the heat of the humid air sucked into the collection pipe 210 by the rotational force of the suction fan 240, thereby lowering the humid air to a temperature below the dew point, and the water vapor contained in the humid air. It consists of a cooling device that can change the water into water droplets.

As the moist air cools while passing through the evaporator 220 and reaches the dew point temperature, water vapor in the air turns into water droplets and forms on the outer circumferential surface of the evaporator, thereby falling down by gravity.

The condenser 230 is installed adjacent to the evaporator so that the air passing through the evaporator 220 is reached, the water vapor changes in the form of water droplets while passing through the evaporator and falls down to apply pressure to the remaining dry air. The height consists of a compressor.

The suction fan 240 is a flow of wet air flowing into the collection pipe (indicated by a dotted arrow in Figure 1), and the water vapor is separated and dried in the form of water droplets while passing through the evaporator 220 and the condenser 230 And a fan driven by a control signal transmitted from the irrigation control unit 600 to generate a flow that promotes discharge of the dried dry air (indicated by a solid arrow in FIG. 1).

As described above, the air moisture collecting unit 200 separates the water vapor by the temperature change while passing the air sucked by the rotation of the suction fan to collect water from the wet air.

The drip tank 300 is located in the lower portion of the air moisture collecting unit is separated from the humid air and then open to the top to collect the water drops falling by gravity, or connected to the evaporator by a separate drop pipe 310 Consisting of a conventional tank.

The watering tank 400 for watering is composed of a conventional tank connected to the drip tank 300 by a connecting pipe 410 through which the collected water is transmitted, and can supply water to the plant cultivator 100. It is configured so that the water supply pipe 500 is connected to one end.

At this time, since water collected in the air polluting unit 200 from the humid air and stored in the drip tank 300 contains impurities such as dust present in the air, the connection pipe 410 removes such impurities. It is preferable that the filter 420 is further included. Accordingly, only clean water can be transmitted to the plant cultivator 100.

In addition, the irrigation water tank and the drip tank may be configured to be installed at the same height, as well as to facilitate the water transfer from the drip tank to the irrigation water tank, the irrigation water tank is a drip tank It is preferably configured to be located further below.

In addition, by allowing the connecting pipe to connect between the drip tank and the irrigation water tank with a constant inclination, it is a matter of course that the collected water can flow better to the irrigation water tank.

In addition, the watering tank 400 for watering is provided with a water supply pump 430 for supplying the stored water to the plant cultivator to provide power for water supply.

In addition, the water tank 400 for watering is preferably further provided with a water level sensor 440 that can detect the water level stored in the water, water level sensor (440) in the water level sensor 440 400, when the water is detected to be less than a predetermined amount is configured to operate the suction fan 240 provided in the air moisture collecting unit to collect the water present in the air.

At this time, the water level sensor 440 is the first water level sensor for recognizing the lack of water in the water tank for water, and the second water level sensor for recognizing that the water is excessively stored in the water tank for water. It is preferable to include all the sensors. Accordingly, the air moisture collecting unit 200 is activated by the detection signal of the first water level detection sensor, and the air moisture collecting unit 200 is turned off by the detection signal of the second water level detection sensor. It becomes possible to activate, and it becomes possible to drive the air moisture collecting part stably.

The watering control unit 600 converts an external AC power, etc. into a stable IC driving power, and supplies the air to the air supply unit 610 and the water level sensing sensor provided in the watering water tank when the water is below a predetermined amount. Water collection control unit 620 for automatically generating a control signal for activating the water collection unit to control the active collection of water, and a water supply pump control unit for controlling the operation of the water supply pump for water supply to the plant cultivator ( 630).

As shown in FIG. 2, the power supply unit 610 includes a transformer (T1) 612 for converting an AC voltage 616 input from the outside into a plurality of IC driving power sources, and the transformer T1 612. And a constant voltage regulator 614 for outputting a voltage at a uniform constant voltage.

At this time, it is preferable that a zener diode ZNR1 for removing excessive power or noise suddenly applied from the outside is further included at both ends of the primary side of the transformer, and the constant voltage regulator 614 is also prevented from sudden overvoltage or noise. It is preferable that a zener diode is further included for protection.

In addition, the water collection control unit 620 is a water level detection module 626 for controlling the collection of water through the air moisture collecting unit 200 by the detection signal to the water level sensor 440 provided in the water tank for watering. And a fan driving module 622 configured to control driving of the suction fan provided in the air moisture collecting unit by a control signal from the water level sensing module or a control signal applied by a user, and the water level sensing It consists of a printed circuit board having a condenser drive module 624 for controlling the driving of the condenser provided in the air moisture collecting unit by a control signal from the module or a control signal applied by the user.

Accordingly, when it is detected that the water stored in the water tank for watering in the water level detection module is a predetermined amount or less, the air in the fan drive module and the condenser drive module to stably store the water for watering in the water tank for watering. By generating driving signals of the suction fan and the evaporator and the condenser forming the water collection unit, more active water collection can be achieved. At this time, if it is detected that the water stored in the water tank for irrigation in the water level detection module more than a certain amount, to generate a control signal to stop the driving of the suction fan, the evaporator and the condenser to prevent the water overflow.

In addition, the feed water pump control unit 630 is configured to generate a control signal for driving the feed water pump by the user's operation signal input from the outside to adjust the watering to the plant cultivator.

At this time, the plant cultivator is provided with a humidity sensor 110 that can measure the ambient humidity, the water supply pump control unit 630 receives the humidity information around the plant cultivator from the humidity sensor 110, When the humidity information is less than a certain amount is recognized that the watering to the plant is required to generate a control signal for driving the water supply pump 430 is preferably configured to be watering to the plant cultivator (100).

Next will be described the operation of the plant watering system using the air in accordance with the present invention.

First, the plant cultivator 100 is installed inside a wide facility such as an underground plaza or a subway station or a large commercial area, and a humidity sensor 110 for measuring the humidity around the plant cultivator is installed.

In addition, the air pollutant collecting unit 200 is installed at a place that does not disturb people's movement in the space inside such a large facility, and the water tank 400 for watering and the water supply pipe to reach the plant cultivator from the air pollutant collecting unit ( 500).

Thereafter, the suction fan 240 rotates by the control signal from the watering control unit 600 to suck the humid air around the air moisture collecting unit 200. In this way, the air sucked through the collecting pipe 210 is cooled in the evaporator 220, the water is separated, and heated again through the condenser 230 to discharge dry air through the other end of the collecting pipe. Accordingly, the user can stay in a more comfortable environment by the dry air in the interior space of the facility in which the air moisture collecting unit is installed.

Then, the water separated from the evaporator 220 is stored in the drip tank 300 is installed in the lower portion, the pipe in a clean state after removing impurities such as dust from the filter provided in the connection pipe 410 It is stored in the receiving water tank (300).

In addition, the watering control unit 600 by the control signal generated by the water supply pump control unit 630 when the operation signal by the user input or the humidity around the plant cultivator transmitted from the humidity sensor 110 is less than a predetermined amount. The water supply pump 430 stored in the water pipe 400 for water generation generates a driving signal, and the water stored in the water tank for water is driven by the driving signal of the water supply pump through the water supply pipe 500. Automatic watering is made while feeding to the plant cultivator (100).

As the water supply is passed for a predetermined time or when the humidity transmitted from the humidity sensor 110 is greater than or equal to a certain amount, the water supply pump control unit 630 generates a control signal to stop driving of the water supply pump 430 to continuously supply water to the manager. Stable water can be achieved without effort.

And, if it is detected that the stored water from the water level sensor 440 provided in the water tank for water is less than a predetermined amount, the water collection control unit 620 generates a control signal for activating the air moisture collecting unit 200 is smooth The water collection is increased to increase the storage amount of water, and when it is detected that the stored water from the water level sensor 440 is a predetermined amount or more control signal for stopping the operation of the air moisture collecting unit 200 in the water collection control unit 620 By stopping the collection of moisture to prevent the water from overflowing.

At this time, since the plant grown in the plant cultivator is cultivated for the purpose of improving the landscape rather than growing, it is enough to maintain a minimum irrigation amount, depending on the size of the space where the plant cultivator is installed, A daily water production capacity of about 6 liters collected through the airborne moisture collection will be sufficient.

As described above, the collection of moisture in the air is automatically controlled by the water collecting control unit, and the watering to the plant cultivator is automatically controlled by the water supply pump control unit, so that the complex watering facility or manager for Plants can be grown without direct irrigation effort.

In particular, in places with many floating populations such as underground plazas, subway stations, or Daegumo commercial areas, it is common to maintain minimum irrigation volume to improve the scenery in the area. Thus, after collecting and collecting moisture in the air, Just watering can significantly extend the survival of the plant through plant cultivation.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100-Planter 110-Humidity Sensor
200-Air Pollution Collector 210-Collector
220-Evaporator 230-Condenser
240-Suction Fan 300-Drip Tank
310-Drain pipe 400-Watering tank
410-Connector 420-Filter
430-Water Pump 440-Water Level Sensor
500-Water Line 600-Watering Controls
610-Power Supply Unit 620-Moisture Collection Control Unit
630-feed water pump control unit

Claims (8)

A collection tube through which wet air is introduced and discharges dry air, an evaporator for cooling the air flowing into the collection pipe, a condenser to pressurize and condense the air having a lower temperature in the evaporator, and an air flowing into the collection pipe. An air moisture collecting unit that sucks air in the space where the plant cultivator is installed and collects water contained in the air, including a suction fan that generates air flow to discharge dry air after the flow and moisture are condensed to the outside. ;
A drip tank storing water collected in the air moisture collecting part;
It is connected to the drip tank by a connecting pipe for collecting the collected water, and a water supply pipe is connected at one end to supply water to the plant cultivator, and the connecting pipe is provided with a filter for removing impurities present in the collected water. A watering tank connected to the drip tank for receiving the collected water and temporarily storing the water for supply to the plant;
A water supply pipe connected to the plant cultivator from the watering water tank for supplying water; And
A watering control unit for automatically controlling water collection in the air moisture collecting unit and watering of water stored in the watering water tank;
The plant cultivator is provided with a humidity sensor capable of measuring ambient humidity, and the water supply pump control unit is configured to automatically generate a control signal for driving the water supply pump by receiving humidity information around the plant cultivator from the humidity sensor. In the plant watering system using the air pollination,
The water tank for watering is further provided with a water level sensor for detecting the water level stored in the water level sensor, the water level sensor is a first water level sensor for recognizing that the water stored in the watering tank for water below a certain amount; It is configured to include all the second water level sensor for recognizing that the water stored in the irrigation water tank is a certain amount or more;
The watering control unit automatically converts an external AC power source into a stable IC driving power supply and supplies the control signal to the air moisture collecting unit by a detection signal from a water level sensor provided in the watering water tank. And a water collection control unit for controlling the collection of air moisture and controlling the operation of the water supply pump for supplying water to the plant cultivator, by a detection signal from the first water level sensor. Activates the air moisture collecting unit, and controls to deactivate the air moisture collecting unit by a detection signal of the second water level sensor;
The water collection control unit, a water level detection module for controlling the collection of water through the air moisture collection unit by the detection signal to the water level detection sensor provided in the water tank for watering, the control signal or the user in the water level detection module The air is driven by a fan drive module comprising an IC for controlling the driving of the suction fan provided in the air moisture collecting unit by a control signal applied by the control unit and a control signal applied by a user or by a control signal applied by a user. Plant water irrigation system using public water, characterized in that it comprises a condenser drive module for controlling the drive of the condenser provided in the water collecting unit. delete delete delete delete delete delete delete

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