JP5084141B2 - Agricultural water management equipment - Google Patents

Description

  The present invention relates to an agricultural water management apparatus that automatically manages the distribution of water to agricultural rice paddies.

In the conventional remote monitoring and control system for agricultural water, the actual flow rate collected from the flow meter installed in the water distribution pipe is compared with the set flow rate input at the terminal device of the remote monitoring control system, and the difference is applied to the water distribution pipe. The installed motor-operated valve was automatically opened and closed to control the flow rate at a constant value.
Therefore, only the set flow rate can be input as what is set by the water manager in the terminal device.
Patent Literature 1 describes a state in which each state of a river, a dam, a road, and the like is measured by a measuring instrument, and the measured data is processed in real time to manage a river, a dam, a road, and the like from a remote location. .

JP 2001-84473 A (pages 3 to 4, FIG. 1)

A conventional water distribution plan for agricultural water is carried out once a year at the beginning of the year. The distribution plan for each paddy area is planned based on the ratio of paddy field area (unit: ha). Since the water distribution plan depends on the rice production plan for each fiscal year, it is difficult to fix the planned value.
In addition, during the growing season of rice after the completion of water distribution, a large amount of water distribution is not required, and it is only necessary to supply makeup water (minimum flow rate) corresponding to the size of each rice field area.
For these reasons, the water manager inputs the set flow rate (unit: m ³ / s) to the terminal device of the remote monitoring control system based on the water distribution area determined by the water distribution plan. There was a problem that the set flow rate was calculated from
Also, since the set flow rate was input based on the water distribution area, it was necessary to store the water distribution area, but the conventional terminal device had no function to store the water distribution area, so the water distribution area was recorded with paper, There was also a problem that the water manager had saved. In many cases, the water managers are also changed, so the water distribution plan had to be redone from the beginning due to the loss of the past water distribution area.
Since the thing of patent document 1 is not specialized in management of agricultural water, it did not solve the above-mentioned problem.

  This invention was made in order to solve the above problems, and automatically inputs the set flow rate of water distribution corresponding to the water distribution area by inputting the water distribution area to be distributed for agricultural water. The aim is to obtain an agricultural water management device that can be calculated.

In the agricultural water management apparatus according to the present invention, the set flow rate of water distribution is calculated based on the input area to which the distribution area of the agricultural water facility that is the target of the distribution of agricultural water is input, and the distribution area input in this input section. Is collected by the actual flow collecting unit that collects the actual water distribution flow rate, which is the flow rate actually distributed by the set flow rate calculated by the calculating unit to the agricultural water facility, and the set flow rate and actual collecting unit calculated by the calculating unit. display unit for displaying the distributed water flow actual value, and respectively so as to correspond to a plurality of specific code, provided with a pre-registered holder multiple arithmetic expression for calculating the flow rate for water distribution, the specific code, with corresponding distribution area, and when calculating the flow rate for the first distribution, is set different codes during operation of setting the flow rate of makeup water, is water distribution area is input by the input unit, a specific co When entered using a draw, the calculation unit is for calculating a set flow rate of the water distribution using an arithmetic expression of the holding portion corresponding to a particular code input.

As described above, the present invention calculates the set flow rate of water distribution based on the input area to which the water distribution area of the agricultural water facility to be distributed is input, and the water distribution area input at the input section. Collected by the calculation unit, the actual flow collection unit that collects the actual water distribution flow rate that is the flow rate actually distributed by the set flow rate calculated by the calculation unit to the agricultural water facility, the set flow rate and the actual collection unit calculated by the calculation unit display unit for displaying the distributed water flow actual value, and respectively so as to correspond to a plurality of specific code, provided with a pre-registered holder multiple arithmetic expression for calculating the flow rate for water distribution, the specific code, distribution with corresponding to the area, and when calculating the flow rate for the first distribution, is set different codes during operation of setting the flow rate of makeup water, is water distribution area is input by the input unit, by using the specific code If it is force calculation section so calculates the set flow rate of the water distribution using an arithmetic expression of the holding portion corresponding to a specific code inputted, water administrator need only enter a specific code , Ru can be easily performed compared with the calculated and distributed water flow actual value and the setting rate of the set flow rate of the set flow rate and the makeup water in the first water distribution.

Embodiment 1 FIG.
In the first embodiment, the set flow rate of water distribution to the agricultural water facility is calculated and displayed from the distribution area of the agricultural water facility input by the manager.
1 is a block diagram showing an agricultural water management apparatus according to Embodiment 1 of the present invention.
In FIG. 1, the administrator inputs the water distribution area (for example, unit: m ³ / s) of an agricultural water facility that is an object of water distribution for agricultural water through the input unit 2. The calculation unit 3 calculates a set flow rate of water distribution to the agricultural water facility from the input water distribution area. The display unit 1 displays the water distribution area input to the input unit 2 and the set flow rate calculated by the calculation unit 3. The holding | maintenance part 4 memorize | stores beforehand the calculation formula calculated by the calculating part 3, the water distribution plan value represented by a water distribution area, and the water flow rate actual value mentioned later. The transmission unit 5 transmits the set flow rate calculated by the calculation unit 3 to the slave station device. The result collection unit 6 collects a distribution flow rate actual value, which is a flow rate actually distributed to the agricultural water facility, based on the set flow rate of the water distribution calculated by the calculation unit 3.

FIG. 2 is a diagram showing a display example of the display unit of the agricultural water management apparatus according to Embodiment 1 of the present invention.
In FIG. 2, the display screen example 7 sets the water distribution place (agricultural water facility) to 1 block and 2 blocks, and displays the respective water distribution area, the set flow rate, and the actual distribution flow rate value.
FIG. 3 is a flowchart showing the operation of the agricultural water management apparatus according to Embodiment 1 of the present invention.

Next, the operation will be described.
When the administrator inputs the water distribution area of the agricultural water facility to be distributed to the input unit 2, the calculation unit 3 performs a process of calculating the set flow rate of the water distribution to the agricultural water facility from the input water distribution area. The input water distribution area and the calculated set flow rate are displayed on the display unit 1. At this time, when the water distribution process to the agricultural water facility is actually performed with the set flow rate, the actual value of the water flow rate collected by the result collecting unit 6 is displayed.
Next, the calculation procedure of the calculation unit 3 will be described with reference to the flowchart of FIG.
First, the manager manually inputs the water distribution area of the corresponding block at the water distribution place using the input unit 2 (step 11). Next, the set flow rate of the water distribution is automatically calculated from the water distribution area manually input by the calculation unit 3 (step 12). Subsequently, the set flow rate after execution of the automatic calculation process is calculated (step 13). When the water distribution process is actually performed at the set flow rate, the actual value of the water distribution flow rate collected by the actual result collecting unit 6 is also displayed and stored (step 14). Thereby, based on the input water distribution area, the set flow rate of water distribution can be calculated and displayed on the display unit 1, and the water distribution flow rate actual value can also be displayed.

According to Embodiment 1, by automatically calculating the set flow rate of the water distribution from the distribution area in the agricultural water management apparatus and displaying and storing the actual distribution flow rate value, the water manager can only display the distribution area. It is possible to easily calculate the set flow rate and compare the set flow rate with the actual distribution flow rate value simply by inputting the value of.
In addition, by calculating the set flow rate of water distribution, for example, the total water distribution amount to each paddy area can be calculated hourly, daily, and monthly, and can be used to determine a budget for water usage fees, etc. .
In addition, since the past water distribution plan values can be stored in the agricultural water management system as the water distribution area, it is not necessary to store the water distribution area in paper, and even if the water manager changes, data loss will not occur, Since the actual value of the flow rate actually distributed is also stored, it is possible to compare the water distribution plan value with the actual water flow rate value in the current year, and to easily review the water distribution plan for the next year.

Embodiment 2. FIG.
The first embodiment calculates the set flow rate of the water distribution by automatically calculating the water distribution area of the agricultural water facility to be distributed, and compares it with the actual flow rate value of the water distribution. In form 2, when there is a specific alphabet input when the water distribution area is input, a specific arithmetic expression registered in advance corresponding to the alphabet is executed to calculate the set flow rate.
For this reason, the alphabet used when the water distribution area is input is determined in advance so as to correspond to the water distribution area, and an arithmetic expression corresponding to this alphabet is registered in advance (detailed in the fifth embodiment). When there is a character input of the alphabet, the registered arithmetic expression is executed according to the corresponding water distribution area.
It should be noted that, when calculating the set flow rate of the first water distribution to the agricultural water facility and when setting up the makeup water, different calculation formulas are used, so when inputting alphabets in both, it is necessary to use two alphabets. In addition, alphabet input may be performed either at the time of calculation of the set flow rate of the first water distribution or at the time of setting of makeup water. For example, setting of makeup water with a simpler calculation formula in each paddy area Sometimes alphabet input may be performed.
FIG. 4 is a flowchart showing the operation of the agricultural water management apparatus according to Embodiment 2 of the present invention.

Next, the operation of the second embodiment will be described using the flowchart of FIG.
First, the administrator performs a specific alphabet input indicating a water distribution area at the input unit 2 (step 15). Next, the arithmetic unit 3 determines the alphabet input, executes a water distribution area corresponding to the alphabet, and a specific arithmetic expression registered in advance corresponding to the alphabet, and automatically calculates the set flow rate of the water distribution. (Step 16). Thereafter, the set flow rate of the calculation result is calculated (step 17). When the water distribution process is actually performed with the set flow rate, the actual value of the water distribution flow rate collected by the actual result collecting unit 6 is also displayed and stored (step 18).
In the above description, the water distribution area is input using a specific alphabet. However, this specific alphabet is not limited to this, and the same effect can be obtained if the code can be easily input from the keyboard, such as kana, symbols, and numbers. Is obtained.

In the first embodiment, the water distribution area is input by numbers, but in the second embodiment, the specific water flow area and an arithmetic expression corresponding to the specific alphabet input can be called to automatically calculate the set flow rate. .
Moreover, since it is based on a specific alphabet input, input operation of an input part can be simplified with respect to an elderly water administrator.

Embodiment 3 FIG.
In the second embodiment, when the water distribution area is input in a specific alphabet, the set flow rate of the water distribution is automatically calculated by a specific arithmetic expression, but the third embodiment shows the calculation result of the set flow rate. It was made to transmit to a slave station apparatus by the transmission part.
FIG. 5 is a flowchart showing the operation of the agricultural water management apparatus according to Embodiment 3 of the present invention.

Next, the operation of the third embodiment will be described using the flowchart of FIG.
Steps 15 to 17 are executed in the same manner as in FIG. The calculation result of the set flow rate in step 17 is transmitted to the slave station apparatus connected by the transmission path (step 21). Next, step 18 is executed as in FIG.

  According to the third embodiment, in addition to the effects of the second embodiment, the calculated set flow rate can be sent to another slave station device through the transmission line.

Embodiment 4 FIG.
In the third embodiment, the set flow rate of water distribution that has been arithmetically processed by a specific alphabet input is sent to another slave station device on the transmission line. The set flow rate is displayed and the current set flow rate is notified to the water manager.
FIG. 6 is a flowchart showing the operation of the agricultural water management apparatus according to Embodiment 4 of the present invention.

Next, the operation of the fourth embodiment will be described using the flowchart of FIG.
Steps 15 to 17 are executed in the same manner as in FIG. Then, the set flow rate of the calculated water distribution is displayed on the water manager on the display unit 1 (step 31). Next, step 18 is executed as in FIG.

  According to the fourth embodiment, in addition to the effect of the second embodiment, when the automatic calculation process is completed, the set flow rate display process is executed, so that the water manager can reliably recognize the set flow rate.

Embodiment 5 FIG.
In the fourth embodiment, the set flow rate is displayed and the water manager recognizes this, but in the fifth embodiment, the calculation for deriving the set flow rate from the input of a specific alphabet indicating the water distribution area. The equation is held in the holding unit 4 in advance, and when the alphabet is input, the equation is called and the set flow rate is calculated.
FIG. 7 is a flowchart showing the operation of the agricultural water management apparatus according to Embodiment 5 of the present invention.

Next, the operation of the fifth embodiment will be described using the flowchart of FIG.
First, the administrator inputs a specific alphabet indicating the water distribution area at the input unit 2 (step 15). Next, the input specific alphabet is judged, and a pre-registered arithmetic expression is called from the holding unit 4 (step 41). Thereafter, an automatic calculation process of the set flow rate is executed by the calculation formula (step 42). As a result, the set flow rate is calculated from the water distribution area (step 17). When the water distribution process is actually performed with the set flow rate, the actual value of the water distribution flow rate collected by the actual result collecting unit 6 is also displayed and stored (step 18).

According to the fifth embodiment, an arithmetic expression associated with a specific alphabet is stored, and the calculation of the set flow rate can be performed using the arithmetic expression. Therefore, the automatic arithmetic processing is repeatedly executed by reading the arithmetic expression. Can do.
In addition, since multiple arithmetic expressions can be saved, multiple specific alphabets can be determined, so the administrator's input operations can be simplified, and administrators who are not familiar with operations such as personal computers The operation can be facilitated.

It is a block diagram which shows the agricultural water management apparatus by Embodiment 1 of this invention. It is a figure which shows the example of a display of the display part of the agricultural water management apparatus by Embodiment 1 of this invention. It is a flowchart which shows operation | movement of the agricultural water management apparatus by Embodiment 1 of this invention. It is a flowchart which shows operation | movement of the agricultural water management apparatus by Embodiment 2 of this invention. It is a flowchart which shows operation | movement of the agricultural water management apparatus by Embodiment 3 of this invention. It is a flowchart which shows operation | movement of the agricultural water management apparatus by Embodiment 4 of this invention. It is a flowchart which shows operation | movement of the agricultural water management apparatus by Embodiment 5 of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Display part 2 Input part 3 Calculation part 4 Holding part 5 Transmission part 6 Result collection part 7 Display screen example

Claims (3)

An input section where the distribution area of the agricultural water facility that is the target of the distribution of agricultural water is input,
Based on the water distribution area input at this input unit, a calculation unit for calculating the set flow rate of the water distribution,
A performance collection unit that collects a distribution flow rate actual value that is a flow rate actually distributed to the agricultural water facility by the set flow rate calculated by the calculation unit;
A display unit for displaying the set flow rate calculated by the calculation unit and the distribution flow rate actual value collected by the actual collection unit;
And a holding unit in which a plurality of arithmetic expressions for calculating the set flow rate of the water distribution are registered in advance, corresponding to each of a plurality of specific codes,
The above specific code corresponds to the water distribution area, and a different code is set when calculating the set flow rate of the first water distribution and when calculating the set flow rate of the makeup water,
When the water distribution area input at the input unit is input using the specific code, the calculation unit uses the calculation formula of the holding unit corresponding to the input specific code. An agricultural water management apparatus characterized by calculating a set flow rate of water distribution.   The agricultural water management apparatus according to claim 1, further comprising a transmission unit that transmits the set flow rate calculated by the calculation unit to the slave station device.   The agricultural water management apparatus according to claim 1, wherein the holding unit stores the water distribution area input by the input unit.

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