KR101316703B1 - Method for alarming of paer mealybug ontogeny - Google Patents

Abstract

According to the present invention, a method for generating pear crushing insects includes setting a current time and a date or a predetermined date in a pear pest occurrence alarm, and using the temperature sensor after setting the time and date, the temperature of the farmhouse of the pear cultivation area. Detecting in real time to calculate the daily maximum temperature, the lowest temperature and the average temperature to record the temperature data, and when the predetermined date set in the pear tree pest occurrence alarm in the pear tree pest occurrence alarm, at the highest daily temperature from the date Outputting a preliminary warning of powdered beetle wintering eggs when the cumulative temperature reaches 135 ° C by applying the first equation; and when the cumulative temperature reaches 155 ° C after outputting the preliminary warning, the powdered beetle wintering eggs hatching time alarm Its features are that it includes the step of outputting.
According to the present invention, by measuring the daily temperature of the cultivation of the pear grows the highest temperature, the lowest temperature and the average temperature and calculates and applies it to the electronic calendar program according to the worms wintering insects, eggs hatching By predicting timing and alerting the occurrence, timely control can reduce damage from pear pests.

Description

How to alert pear crushing insects {METHOD FOR ALARMING OF PAER MEALYBUG ONTOGENY}

The present invention relates to a method for alarming the occurrence of pear powdery worms, in particular, by measuring the daily temperature of the cultivation of pears and storing the highest temperature, the lowest temperature and the average temperature, it is calculated and applied to the electronic calendar program to generate the pear tree accordingly It is related to the pear worm beetle generation warning method that can reduce the damage from pear pests by performing the timely control of the worms wintering worms, eggs to predict the hatching time of eggs.

In general, in cultivation of pears, insects such as pears and worms hide in the coarse bark of pears, spend the winter, and start activities in the spring, causing secondary transmission.

Farmers use the so-called bark to remove the bark by hand to catch pests hiding in the bark. The best time for evacuation is from immediately after pruning, usually called pruning, to early March, before fruit trees begin to grow.

In addition, the pears move from the end of February to the end of the small branches of the pears, depending on the region.

Elderberry wicks the leaves of the pear to make deciduous leaves and cause soot erosion through feces, greatly reducing the fruit's marketability. Therefore, during the winter season pest control period is in mid-February, active and meticulous precautionary work is necessary.

In addition, the powdered worms, the main pests of pear trees, pass through the egg and go through three generations of the year, and are controlled using a model in which the eggs hatch. The use of such a mobile model should be calculated by directly checking the weather forecasts of the Meteorological Administration, but it is difficult to do it at the farms. There is a method through the Internet service, but the temperature varies by farming unit due to the terrain of Korean orchards.

1 is a view schematically showing a system using a general pear tree pest movement model. As shown in FIG. 1, the agricultural weather information system 110 measures the temperature of each region from an unmanned weather observation system installed in eight regions nationwide, and each region measured from the agricultural weather information system 100. It consists of the national pest management system 120 to receive the temperature information of. From the national pest management system 120, the user obtains pear tree pest information through the Internet or SMS.

In addition, Korean Patent Publication No. 10-2011-0053762 (published date 2011.05.24), a pest management system that analyzes the type and distribution of pests from images taken at the field of fruit cultivation, Korean Utility Model Publication No. 20-2006- 0023496 (published 24 May 2011) Background art is disclosed in relation to agricultural unmanned weather information systems.
However, the use of the pear tree pest transfer model as described above is required to calculate weather data directly from the farmer's weather forecast, but it is difficult to carry out at the farmhouse, and there is a method through the Internet service. Because of the difference in temperature, there is a problem that is insufficient to implement the correct control timely.

The technical problem to be solved by the present invention is to measure the daily temperature of the cultivation of pears, and store the highest temperature, the lowest temperature and the average temperature and apply it to the electronic calendar program to produce the winter worms in the pear tree accordingly It is to provide a pear powder beetle generation warning method that can reduce the damage from pear pests by performing timely control of the eggs by predicting the hatching time of eggs.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not restrictive of the invention, unless further departing from the spirit and scope of the invention as defined by the appended claims. It will be possible.

According to the present invention for solving the above technical problem, the pear powder moth generation alarm method comprises the steps of setting the current time and date or a predetermined date in the pear pest occurrence alarm, and using the temperature sensor after setting the time and date Detecting the temperature of the farmhouse in the pear cultivation area in real time to calculate the daily maximum temperature, the minimum temperature and the average temperature to record the temperature data, and when the predetermined date set in the pear tree pest outbreak alarm in the pear tree pest outbreak alarm, Outputting a preliminary warning when the cumulative beetle wintering egg hatching time when the cumulative temperature is 135 ℃ by applying the first equation at the highest daily temperature from the date; and when the cumulative temperature reaches 155 ℃ after outputting the preliminary warning It is characterized in that it comprises the step of outputting the beetle wintering egg hatching time alarm.

In this case, in particular, the set predetermined date is set on the basis of March 1 every year, and the first calculation formula is characterized in that (maximum temperature-12.3) * 2/3.

Here, in particular, when the cumulative temperature is 600 ° C by applying the second formula after the accumulated temperature is 155 ° C, it is characterized in that the output of the second generation scattering peak warning of the powdered worms.

Here, in particular, the second calculation formula is characterized in that (average temperature-10.1 ° C.).

Here, in particular, when the cumulative temperature is 700 ° C by applying the second operation formula, it is characterized in that the output of the powdered insects 2nd generation nymph generator alarm.

Here, in particular, the prey warning and alerting the powdered beetle wintering egg hatching time, the second generation scattering apron alarm or the powdered beetle second generation nymph generator alarm is displayed by the LED flashing, and the voice output have.

According to the present invention, by measuring the daily temperature of the cultivation of the pear grows the highest temperature, the lowest temperature and the average temperature and calculates and applies it to the electronic calendar program according to the worms wintering insects, eggs hatching By predicting timing and alerting the occurrence, timely control can reduce damage from pear pests.

1 is a view schematically showing a system using a typical pear pest pest movement model.
Figure 2 is a view schematically showing the configuration of a pear tree pest generation alarm according to the present invention.
Figure 3 is a warning showing the warning portion of the pear tree pest occurrence alarm according to the present invention.
Figure 4 is a flow chart for the pear powder worm occurrence alarm method according to the invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the detailed description of known functions and configurations incorporated herein will be omitted when it may unnecessarily obscure the subject matter of the present invention.

The same reference numerals are used for portions having similar functions and functions throughout the drawings.

In addition, in the entire specification, when a part is referred to as being 'connected' to another part, it may be referred to as 'indirectly connected' not only with 'directly connected' . Also, to include an element does not exclude other elements unless specifically stated otherwise, but may also include other elements.

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

Figure 2 is a view schematically showing the configuration of the pear tree pest generation alarm according to the present invention. As shown in Figure 1, the pear tree pest generation alarm 200 of the present invention, the temperature sensor 201 is installed in the pear cultivation area farmhouse to detect the daily temperature, and to perform a calendar program according to the set time and date An electronic calendar unit 203, a storage unit 202 for recording temperature data detected by the temperature sensor on a daily basis according to a calendar program executed by the electronic calendar unit 203, and stored in the storage unit 202 The calculation processing unit 204 for calculating the daily maximum temperature value, the lowest temperature value and the average temperature value from the temperature data, generating a pear pest movement model and outputting the corresponding alarm, and the alarm output from the calculation processing unit 204. The display unit 205 to display, and the audio output unit 206 for outputting the alarm output from the calculation processing unit 204 as a voice.

The temperature sensor 201 is installed in the pear cultivation farm to inform the temperature in real time.

The storage unit 202 stores the detected temperature. In this case, the temperature stored in the storage unit stores the temperature for each day corresponding to the date of the electronic calendar unit 203.

The calculation processor 204 calculates the highest temperature, the lowest temperature, and the average temperature with respect to the daily temperature in correspondence with the electronic calendar 203.

More specifically, the calculation processing unit 204 generates a pear tree pest movement model according to the type of pear tree pest using the highest temperature, the lowest temperature, and the average temperature calculated for the daily temperature.

At this time, the generation of the pear tree pest migration model will generate a model of the worm wintering eggs hatching time and second generation egg hatching time.

The generation of the powdered worm wintering egg hatching time and the second generation nymph generator predictive model of the operation processing unit 204 accumulates (maximum temperature -12.3) * 2/3 after the set date, the wintering egg hatching time It will output an alarm.

Here, by measuring the daily temperature from March 1, every year (maximum temperature -12.3) * 2/3 using the formula of the negative temperature is treated as 0, the positive value is accumulated and the value is 100 Preliminary alarm is given at ° C and the alarm for incubation time is output at 155 ° C.

And, after the wintering egg incubation time alarm of 155 ° C (average temperature-10.1 ° C.) by applying the calculation formula to replace the continuous value from 155 ° C to preliminary alarm at 600 ° C, if 700 ° C or more second generation nymph generator It will output an alarm.

3 is a view showing that the warning portion of the pear tree pest generation alarm according to the present invention. As shown in FIG. 3, the display unit 205 displays a preliminary alert or a nymph generator alert output from the arithmetic processing unit 204 as an LED 303. For example, the LED display part 303, such as a powdery beetle wintering day incubation alert, and a powdery-beetle second-generation nymph outbreak alert, is provided.

In addition, the display unit 205 displays a date and time 301, and displays a current temperature, a maximum temperature, and a minimum temperature 302.

The voice output unit 206 reads the preliminary alarm or the nymph generator alarm output from the operation processing unit 204, "three days of machine emulsion slaughter." Voice output with the contents, etc.

Figure 4 is a flow chart for a pear dusting insect generation warning method according to the invention. As shown in FIG. 4, first, a step of setting a current time and date or a predetermined date in a pear tree pest occurrence alarm is performed (401). Here, if the current time and date of the pear pest generation alarm is not set or different, the current time and date are set, and the pear tree is set based on February 1 every year for the alarm of overwintering adults. At this time, if the pest occurrence time is changed according to the temperature change, it is possible to change the setting of the date.

After setting the time and date, a temperature sensor is used to detect the temperature of the farmhouse in the cultivation area in real time to calculate the daily maximum temperature, the minimum temperature, and the average temperature to record temperature data (S402). Here, in the step of recording the temperature data, the temperature detected by the day is recorded by applying an electronic calendar program.

When the pear tree pest occurrence alarm is a predetermined date set in the pear tree pest occurrence alarm (S403), by applying the first calculation formula at the highest daily temperature from the date (S404) when the cumulative temperature 130 ℃ (S405) A step of outputting a pre-alarm hatching time preliminary alarm is performed (S406).

More specifically, the set predetermined date is set on the basis of March 1 every year, and the first expression is (maximum temperature-12.3) * 2/3. In other words, if the daily maximum temperature is initially 20 ℃, it is applied to (20-12.3) * 2/3 and becomes about 5.1 ℃. Thus, the daily maximum temperature is calculated by applying the first calculation formula. When it is determined that the time of wintering hatch eggs hatchery will output a preliminary warning about this. At this time, the preliminary alarm is displayed by the blinking LED, and the voice guidance can be output as 'powder beetle wintering egg hatching'.

When the cumulative temperature reaches 155 ° C. after outputting the preliminary warning (S407), the step of outputting the powdered beetle wintering egg hatching time alarm is performed (S408). In other words, the first equation is applied until the cumulative temperature reaches 155 ° C. after the forecast alarm. At this time, the alarm is displayed by the blinking LED, and the voice guidance can be output as 'Powder beetle wintering egg hatching best time'.

Subsequently, after the accumulated temperature is 155 ° C., the second equation is applied (S409), and when the accumulated temperature reaches 600 ° C. from the time point of 155 ° C. (S410), it outputs the second generation spawning alarm of the powdered beetle. (S411). That is, after the powdered beetle wintering egg hatching peak period warning, the daily temperature is accumulated by applying the second formula (average temperature-10.1 ℃). For example, if the daily average temperature after 155 ℃ is 21 ℃, apply (21 ℃ -10.1) to 10.9 ℃, and continuously accumulate it daily and become 600 ℃ from 155 ℃. Can be displayed as LED blinking, and it can output 'Pulverine beetle second generation scattering peak' with voice guidance.

Subsequently, when the cumulative temperature reaches 700 ° C. from the time of 155 ° C. by applying the second equation after the second generation scattering peak warning (S412), the second generation nymph generator alarm is output (S413). At this time, the second generation nymph generator alarm is displayed by the blinking LED, it can be output as a voice guide 'Plough beetle second generation nymph generation peak season'.

Therefore, by applying the prediction model of wintering egg hatching and second generation egg hatching best time of pear tree pods, it informs the time and control time to move by farm unit and induces to control at farm unit to reduce the initial density of pear tree. The damage can be reduced.

While the present invention has been particularly shown and described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, Of course, this is possible. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the equivalents as well as the claims that follow.

Description of the Related Art
201 --- Temperature sensor 202 --- Storage
202 --- Electronic calendar 204 --- Calculation processing
205 --- Display 206 --- Audio output

Claims (6)

Setting a current time and date or a predetermined date in the pear pest occurrence alarm;
After the time and date setting, using the temperature sensor to detect the temperature of the farmhouse in the cultivation area in real time to calculate the daily maximum temperature, minimum temperature and average temperature to record the temperature data;
When the pear tree pest occurrence alarm reaches a predetermined date set in the pear tree pest occurrence alarm, when the cumulative temperature is 135 ° C. by applying the first equation at the highest daily temperature from the date, the predatory warning of the powdered beetle wintering eggs is output. Making a step;
If the cumulative temperature is 155 ℃ after outputting the preliminary warning, the crushing powder worm generation alert method comprising the step of outputting a powdery worm wintering egg hatching time alarm. The method of claim 1,
The set predetermined date is set on the basis of March 1 every year, and the first formula is (maximum temperature -12.3) * 2/3, characterized in that the pear dusting beetle generation alarm method.
The method of claim 1,
When the cumulative temperature is applied after the second formula after 155 ℃ and the cumulative temperature becomes 600 ℃ from 155 ℃ time point, pear flour worm occurrence alarm, characterized in that outputs the second generation egg spawning alarm Way.
The method of claim 3, wherein
The second calculation formula is (average temperature -10.1 ℃) pear flour worm generation alarm method, characterized in that.
The method of claim 3, wherein
When the cumulative temperature reaches 700 ℃ from 155 ℃ time point by applying the second calculation formula, pear powder worm occurrence alarm method, characterized in that for outputting a powder insect worm second generation nymph generator alarm.
The method according to any one of claims 1, 3 or 5,
The powdery beetle wintering egg hatching time preliminary alarm and alarm, powdery beetle second generation scattering apex alarm or powdery beetle second generation nymph generator alarm is displayed by flashing LED, outputting voice guidance Generation alarm method.

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