KR100980439B1 - Apparatus for preventing dew of ground plant - Google Patents

Abstract

PURPOSE: An apparatus for preventing dew from forming on outdoor plants is provided to prevent the crops from being damaged due to the dew which is generated through climatic changes and to enable a user to drive a blower according to weather conditions. CONSTITUTION: An apparatus for preventing dew from forming on outdoor plants comprises: a post which is parked on a bare ground; a blower(20) which is installed on the post and blows wind to plants; a sensor(30) for sensing the temperature, humidity, wind speed, and rainfall amount of the bare ground; an input unit(41) for inputting a dew producing condition of a control unit; an output unit(42) for outputting an inputted content of the input unit and a control state of the control unit; and a weather condition recorder which records a sensed value, which is applied from the sensor to the control unit, and transfers the sensed values to the output unit or an administrator server.

Description

Dew prevention device for open field plant {APPARATUS FOR PREVENTING DEW OF GROUND PLANT}

The present invention relates to a dew preventing device for open field plants, more specifically, dew for planting plants that can prevent damage to agricultural plants due to dew in advance by preventing dew condensation produced by climate change on plants cultivated in the open field. It relates to a prevention device.

In general, crops or fruit trees cultivated in the open field grow well in adapting to changing climates unlike plants grown in greenhouses or greenhouses. However, in the agricultural plants cultivated in the open field, water vapor generated by the temperature difference between the ground surface and the atmosphere due to climate change lowers the temperature of air in the air, and the generated water vapor condenses to generate dew.

Dew is especially produced on sunny days when there are few winds in which the mobile high pressure zone is formed in spring and autumn. The moisture that evaporated due to the temperature rise during the day is radiated by the surface because the surface loses radiant heat due to the temperature drop at night. As the temperature of the crops near the surface decreases, the moisture evaporated during the day liquefies, causing dew on the surface of the crops.

Dew generated on the surface of the crops as described above not only causes the pests of the crops due to moisture, but also causes cold damage to the crops due to the temperature decrease.

Therefore, in the past, in order to prevent dew on agricultural crops in the open field, it was prevented by using a cloth around the crops or prevented dew generation by temperature control using a hot wire. There is a hassle and difficulty to open.

In addition, in the case of using a hot wire, by controlling the temperature of the hot wire according to the temperature change due to the climate change, it is possible to solve the dew condensation on the plant to some extent, but there is an uneconomical problem due to the large power consumption due to the wide use of the open field.

Meanwhile, in the method of reducing crop pests and disasters disclosed in Korean Patent Laid-Open Publication No. 10-2005-120009, a blower is installed at a position of a reverse layer as shown in FIG. 1 to provide a temperature sensor, rainfall sensor, wind speed sensor, or condensation sensor. Blows wind through the plant according to the detected value detected by the. This prior art can quickly dry the moisture of the plant through the blower of the blower can not only prevent the pests of the plant due to dew, but also prevent the cold deterioration of the plant by condensation.

However, this prior art drives the blower based on the temperature difference between the upper and lower parts of the inversion layer detected by the temperature sensor, and the dew blower is driven only when dew condensation is detected by the dew condensation sensor. There is a problem that can not prevent dew from occurring in the plants of the open field because there is a problem.

Korean Laid-Open Patent Publication No. 10-2005-120009 2005.12.22, p. 3, lines 8-22

The present invention has been made to solve the above problems, the drive is controlled according to various weather conditions, the drive is controlled according to the dew generation conditions, and the weather characteristics of the blown outland hourly, date, monthly, temperature Another object of the present invention is to provide a dew preventing device for an open-air plant, which can be stored, transmitted or output separately.

In particular, the purpose of the present invention is to provide a dew preventing device for an open-air plant that automatically stops driving when dew does not correspond to the dew generation conditions and automatically blows wind to the plants when the dew generation conditions are met.

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The present invention provides a dew preventing device for an open-air plant, which blows wind to the open-air plant and prevents dew from being produced on the open-ground plant, the post standing on the open-site; A blower installed at the post to blow wind into the plants of the open field; Sensor unit for detecting the temperature, humidity, wind speed and rainfall of the open field; A controller for determining whether the temperature, humidity, wind speed, and rainfall sensed by the sensor unit are dew generation conditions, and outputting a driving signal for driving the blower if the dew point generation condition is determined; An input unit to input dew generation conditions of the controller; And an output unit configured to output input contents of the input unit, a control state of the controller, and a sensed value sensed by the sensor, and based on the sensed value applied from the sensor unit to the controller. The meteorological characteristic recorder for recording and providing to the output unit or to transmit to the manager server, wherein the meteorological characteristic recorder, the temperature, humidity, wind speed, rainfall and the noji of the land determined by the detection value of the sensor DB for storing the dew point temperature of the hourly, date, month and year; A reading unit for extracting the stored contents of the DB unit according to the requested contents; And an interface unit for transmitting the content requested from the outside to the reading unit or the content extracted from the reading unit to the manager server or the output unit.

The sensor unit, a temperature sensor for sensing the temperature of the noji; A humidity sensor for sensing humidity of the open field; Wind speed sensor for detecting the wind speed of the open field; And a rainfall sensor for detecting rainfall in the open field.

In the dew generation conditions, the temperature of the open field corresponds to the dew point temperature, the rain does not rain on the open field, and the wind speed of the wind blowing in the open field is preferably 3 m / sec or less.

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According to the present invention, since the driving of the blower is controlled according to the weather condition or dew generation conditions, dew can be almost completely prevented, and the weather characteristics of the open field can be recorded. In addition, since the weather characteristics of the open field can be stored and transmitted or output by hour, date, month, and temperature, the driving mode of the blower can be designed in advance. In addition, the monthly weather characteristics of the previous year can be checked before the corresponding month of the current year, and furthermore, the drive program can be set based on the monthly weather characteristics of the previous year, so that the blower is driven appropriately for the repeated weather characteristics every year. You can.

In particular, when it does not correspond to the dew generation conditions, the control unit stops the operation of the blower, and operates the blower only when it corresponds to the dew generation conditions can prevent power waste.

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1 is a conceptual diagram schematically showing a dew preventing device for an open-air plant according to the prior art;
2 is a side view of the dew preventing device for off-the-shelf plants according to an embodiment of the present invention;
FIG. 3 is a block diagram showing the configuration of the dew preventing apparatus shown in FIG. 2; FIG.
4 is a graph plotting dew point temperature stored in the memory of FIG. 3; And
FIG. 5 is a flowchart showing an operation procedure of the dew preventing device shown in FIG.

Hereinafter, with reference to the accompanying drawings, the dew preventing device for a noji plant according to an embodiment of the present invention is as follows, the accompanying Figure 2 is a side view of the dew preventing device for a noji plant according to an embodiment of the present invention. FIG. 3 is a block diagram showing the configuration of the dew preventing apparatus shown in FIG. 2, and FIG. 4 is a graph illustrating the dew point temperature stored in the memory of FIG. 5 is a flowchart showing the operation procedure of the dew preventing apparatus shown in FIG.

Referring to FIG. 2, the dew preventing device for a noji plant according to an embodiment of the present invention includes a post 21, a blower 20, a sensor unit 30, and a controller C installed in the noji 10 as shown. It is composed of

The open field 10 may be a field or orchard in which agricultural plants or fruit trees are cultivated, or may be a golf course in which grass is planted.

The blower 20 blows the upper portion of the agricultural plants to remove moisture in the air, and adjust the temperature of the agricultural plants. The blower 20 is fixedly installed on each of the at least one post 21 according to the topography and the area of the open field 10. That is, the blower 20 may be installed at various places in a spaced apart state. These blowers 20 are preferably spaced apart at intervals of about 100m to 400m. However, since the blower 20 may be installed in the required area, the separation distance is not important.

The blower 20 is installed at a height of about 4 m to 8 m from the ground by the post 21. The blower 20 is installed on the top of the post 21 is provided in the direction control unit 22 that can adjust the blowing direction, the direction control unit 22 is a gear that is adjusted up, down, left, right It is equipped with a group. Such a direction control unit 22 may be configured in a similar configuration to a conventional direction control device installed in the fan. Since the direction adjusting unit 22 can be applied to a conventional device as described above, a detailed description thereof will be omitted.

The sensor unit 30 may be installed in the post 21 in which the blower 20 is installed. The sensor unit 30 may be configured of a temperature sensor 31, a humidity sensor 32, a wind speed sensor 33, and a rainfall sensor 34 to detect various climate changes of the open area 10.

The temperature sensor 31 is installed at a height capable of detecting a change in the ambient temperature of the planted plants in the open field (10). The humidity sensor 32 is installed at a height capable of detecting a change in ambient humidity of agricultural plants planted in the open field 10. The wind speed sensor 33 is installed at a height capable of detecting a change in the upper wind speed of the plants planted in the open field 10. The rainfall sensor 34 detects rainfall and is installed at the top of the post 21 so as not to be affected by climate change.

The controller C is provided in the post 21 as shown to control the driving of the blower 20.

Referring to FIG. 3, the controller C may include an input unit 41, a control unit 40, and an output unit 42 as illustrated, and may further include a weather characteristic recorder 50.

The input unit 41 is composed of a keyboard in the form of a panel, and a control condition of the controller 40, that is, a driving condition of the blower 20, is input by the manager. The input unit 41 may input a driving direction, a driving mode selection, and a dew generating condition of the blower 20.

The controller 40 determines whether the temperature, humidity, wind speed, and rainfall detected by the sensor unit 30 are dew generating conditions using a predetermined program. If the determination result corresponds to dew generating conditions, the blower 20 A microprocessor for outputting a driving signal for driving the microprocessor to determine whether the dew point is generated by the predetermined program temperature, humidity, wind speed, and rainfall detected by the sensor unit 30 to determine the dew generation conditions ( 43) and a memory 44 that stores temperature, humidity, wind speed, and rainfall detected and input by the microprocessor 43, and which can be used as weather management data later.

The dew generation condition is a driving condition of the blower 20, for example, the temperature of the open field corresponds to the dew point temperature, the rain does not fall in the open field, the wind speed of the blowing wind is less than 3m / sec Becomes

The controller 40 stores the dew point temperature through the input unit 41. That is, the controller 40 stores the dew point temperature according to the temperature and humidity. The controller 40 compares the temperature and humidity applied by the sensor unit 30 with the stored dew point temperature and controls the driving of the blower 20 according to the compared value.

The output unit 42 outputs the input contents of the input unit 41, the control state of the control unit 40, and the sensed values (temperature, humidity, wind speed, and rainfall) detected by the sensor unit 30. The output unit 42 may be configured as a liquid crystal display.

The meteorological characteristic recorder 50 records the meteorological characteristic of the field 10 based on the detected value applied from the sensor unit 30 to the control unit 40, and provides the meteorological characteristic through the output unit 42 or the manager server through a communication network. Transfer to (1).

The weather characteristic recorder 50 may include, for example, a DB unit 52, a reading unit 51, and an interface unit 53 as illustrated.

The DB unit 52 is controlled by the control unit 40 according to the temperature, humidity, wind speed and rain of the noji 10 determined by the detection value of the sensor unit 30, and the temperature and humidity of the sensor unit 30. The calculated dew point temperature is stored hourly, daily, monthly and yearly.

The reading unit 51 extracts the stored contents of the DB unit 52 according to the requested contents, and the interface unit 53 transmits the requested contents from the outside to the reading unit 51 or the reading unit 51. The extracted content is transmitted to the manager server 1 or the output unit 42.

Here, the above-described DB unit 52 is preferably composed of a temperature DB, humidity DB, wind speed DB, rainfall DB and dew point DB. The temperature DB stores the detected value of the temperature sensor 31. The humidity DB stores the detected value of the humidity sensor 32. The wind speed DB stores the detected value of the wind speed sensor 33. The rainfall DB stores the detected value of the rainfall sensor 34. The dew point DB stores the dew point temperature calculated by the controller 40 comparing temperature and humidity.

When the reading unit 51 stores the temperature, humidity, wind speed, rainfall, and dew point temperature of the open field 10 for at least one year, the manager stores the previous year's stored contents corresponding to the next month through the interface unit 53. Transfer to server 1 or output unit 42. Therefore, the administrator can reserve the next month drive mode of the blower 20 based on the previous year storage.

In addition, the controller 40 may be configured to control the driving of the blower 20 according to the read weather characteristic by reading the current weather characteristic of the previous year recorded in the weather characteristic recorder 50. That is, the controller 40 may set the driving program of the blower 20 based on the monthly weather characteristic of the previous year. In this case, the control unit 40 automatically drives the driving mode without the driving mode reservation of the administrator. The control unit 40 is driven according to the driving mode that is normally programmed, and according to the detection value applied from the sensor unit 30 only when the detection value applied from the sensor unit 30 is different from the programmed content. The blower 20 is driven.

Referring to FIG. 4, the controller 40 stores the dew point temperature determined by the comparison of temperature and humidity (amount of saturated steam) in the memory 44 described above. For example, the controller 40 calculates the dew point temperature with reference to the graph shown. When the temperature detected by the temperature sensor is 30 degrees and the amount of water vapor detected by the humidity sensor is 17.3 g / m ³ , From the point of A, the dew point temperature is calculated at 20 degrees by the saturated steam curve. In this case, the controller 40 determines that the climate of the open field does not correspond to the dew point temperature, and when the temperature drops to 20 degrees while the humidity is 17.3 g / m ³ , the controller 40 corresponds to the dew point temperature. When the dew generation condition is satisfied in comparison with the detected value of 34 and the wind speed sensor 33, the blower 20 is driven to prevent generation of dew. At this time, the controller 40 stores the dew point temperature in the memory together with the time, date, and year.

Referring to Figures 3 and 5 attached to the operation of the dew preventing device for the open-top plant according to an embodiment of the present invention as follows.

As shown in FIG. 3, the dew preventing device for open field plants according to the embodiment of the present invention changes the ambient climate to at least one or more struts 21 according to the topography and the area of the open field 10 in which crops or fruit trees are cultivated. The sensor unit 30 for sensing and the controller C for calculating and controlling the dew point based on the detected climate change are installed, and the direction adjusting unit 22 and the blower 20 for adjusting the blowing direction are provided at the upper end of the support. Will be installed.

Subsequently, when power is applied to the controller C through the input unit 41, the controller C is installed in the post by the microprocessor 43 of the control unit 40 by a preset program as shown in FIG. 3. The sensor unit 30 is controlled to detect climate change.

At this time, the microprocessor 43 detects a change in the ambient temperature of the crop planted through the temperature sensor 31 of the sensor unit 30, detects the humidity change through the humidity sensor 32, the wind speed sensor Detects the change in wind speed through the 33, and detects the rain through the rainfall sensor 34, and displays the detected temperature, humidity, wind speed and rainfall through the output unit 42 and memory ( 44) (S1 of FIG. 5).

Subsequently, the controller 40 calculates and stores the dew point with a predetermined program based on the temperature and humidity among the temperature, humidity, wind speed, and rainfall detected by the sensor unit 30 (S2 of FIG. 5).

Next, in the state where the dew point is calculated as described above, the microprocessor 43 detects a temperature and humidity change through the temperature sensor 31 and the humidity sensor 32 of the sensor unit 30, and at this time, the detected temperature It is determined whether or not is the calculated dew point temperature (S3 in Fig. 5).

As a result of determination, if the sensed temperature does not reach the dew point, the microprocessor 43 generates a signal to stop the driving of the blower 20 that is being driven or prevent the driven blower 20 from driving ( S7 of FIG. 5, when the detected temperature reaches the dew point, dew is not generated directly on the crop, but dew may not be generated according to humidity, wind speed, and rainfall. It is determined whether the rain comes through (34) (S4 of FIG. 5), if the rain is detected at this time, the driving of the blower 20 is stopped.

On the other hand, if the rain is not detected, since the weather is clear, the microprocessor 43 measures the current wind speed through the wind speed sensor 33, and at this time, it is determined whether the wind speed is 3 m / sec or less (S5 of FIG. 5). At this time, if the wind speed is 3m / sec or more, the flow of air is improved, the amount of water vapor is reduced, dew condensation does not occur, and the driving of the blower 20 is stopped.

However, if the wind speed is less than 3m / sec, there is little air flow, there is no change in the amount of water vapor, and the weather is clear, dew condensation is generated by the dew point, so that the microprocessor 43 drives the blower 20 Blowing (S6 of FIG. 5), the wind of the blower 20 to improve the air flow of the field to prevent dew condensation on the plants of the field to prevent pests or cold damage to crops, fruits, grass and other greenery.

Meanwhile, the microprocessor 43 continuously controls the sensor unit 30 to detect the changing temperature, humidity, wind speed, and rainfall while driving the blower 20 to prevent dew condensation, and calculates a dew point temperature. In this case, if the temperature of the open space does not reach the dew point temperature, the microprocessor 43 stops the driving of the blower 20 to prevent unnecessary power consumption.

On the other hand, the weather characteristic recorder 50 stores the detected value detected by the sensor unit 30 in the DB unit 52 by time, date, month, year, and records. When the weather characteristic recorder 50 receives a weather characteristic data request signal for a specific time or date or a specific month from the manager server 1 or the input unit 41, the weather characteristic recorder 50 extracts a corresponding weather characteristic through the reading unit 51 and then interfaces. It transmits through the unit 53. Accordingly, the worker supplies pesticides or water to plants in the open field around a radius of 100m to 300m in which the blower 20 is installed based on the transmitted weather characteristic data. At this time, since the open area around the radius 100m to 300m is similar to the open field in which the blower 20 is installed, it supplies an amount of pesticide or water similar to the area in which the blower 20 is installed. Therefore, the worker can supply an appropriate amount of pesticide or water to the area in which the blower 20 is installed and the open field around it, thereby preventing contamination by the pesticide or use of excessive water.

In particular, places such as golf courses differ by more than 100 meters above sea level depending on the region, so if the same pesticide or water is used, the pesticide or water may be excessively used. However, when the weather data is prepared as described above, it is possible to prevent excessive use of pesticides or water in advance.

On the other hand, the reading unit 51 stores the detected value and the dew point temperature of the sensor unit 30 for one year or more, and the next year, and transmits the previous year storage contents corresponding to the next month to the manager server. Therefore, the manager can design the blower 20 drive mode of the next month.

Dew prevention device for open-air plants according to the embodiment of the present invention as described above, since the drive of the blower 20 is controlled according to the dew generation conditions can be almost completely prevented from the generation of dew.

In particular, when the dew generating conditions do not correspond, the control unit 40 stops the driving of the blower 20, and operates the blower 20 only when the dew generating conditions correspond to power consumption.

In addition, since the meteorological characteristic recorder 50 frequently records the meteorological characteristics of the open field, it is possible to easily manage the surrounding open fields using the recorded meteorological characteristic. In particular, since the weather characteristic recorder 50 can store and transmit the weather characteristic of the open area by time, date, month, temperature, or output, it is possible to design the driving mode of the blower 20 in advance. The monthly weather characteristics of the stored year can be checked before the corresponding month of the current year, and furthermore, the driving program can be set based on the monthly weather characteristics of the previous year, so that the blower 20 can be driven according to the repeated weather characteristics every year. Can be.

10; No. 20; air blower
21; Post 22; Direction control
30; Sensor unit 31; temperature Senser
32; Humidity sensor 33; Wind speed sensor
34; Rainfall sensor 40; Control
41; An input unit 42; Output
43; Microprocessor 44; Memory

Claims (4)

In the dew preventing device for open field plants that blows wind to the plants of the open field to prevent the formation of dew on the open field plants,
A post erected on the field;
A blower installed at the post to blow wind into the plants of the open field;
Sensor unit for detecting the temperature, humidity, wind speed and rainfall of the open field;
A controller for determining whether the temperature, humidity, wind speed, and rainfall sensed by the sensor unit are dew generation conditions, and outputting a driving signal for driving the blower if the dew point generation condition is determined;
An input unit to input dew generation conditions of the controller; And
And an output unit for outputting input contents of the input unit, a control state of the controller, and a sensed value detected by the sensor.
And a meteorological characteristic recorder for recording the meteorological characteristics of the open ground based on the detected value applied from the sensor unit to the controller and providing the meteorological characteristics to the output unit or transmitting them to the manager server.
The weather characteristic recorder,
A DB unit for storing the temperature, humidity, wind speed, rainfall, and dew point temperature of the open ground determined by the detected value of the sensor by time zone, date, monthly, and yearly;
A reading unit for extracting the stored contents of the DB unit according to the requested contents; And
And an interface unit for transmitting the content requested from the outside to the reading unit or the content extracted from the reading unit to the manager server or the output unit. The method of claim 1, wherein the sensor unit,
A temperature sensor for sensing the temperature of the open ground;
A humidity sensor for sensing humidity of the open field;
Wind speed sensor for detecting the wind speed of the open field; And
Dew prevention device for off-land plants comprising a; rain sensor for detecting the rainfall of the open field. According to claim 2, The dew generation conditions,
Dew prevention device for off-site plants, characterized in that the temperature of the open field corresponds to the dew point temperature, the rain does not fall in the open field, the wind speed of the open field is less than 3m / sec. delete

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