JPH0727595A - Water supply control monitoring method for yard sprinkling - Google Patents

Abstract

PURPOSE:To accurately monitor water supply control by judging the presence of an abnormality via a time check based on a normal pattern and the water supply quantity when a water level gauge is made defective. CONSTITUTION:Water level sensors HH, H, L, LL are installed on a water tank 1 as a water level gauge 2. In the case other than five patterns at the time of the normal operation: all sensors off, only LL on, LL and L on, LL and L and H on, all sensors on, the water level gauge 2 is judged as abnormal, and a warning is displayed 12. When the sensor HH is made defective, for example, in a time check of the water supply quantity, if the value added with ((Q1+Q2+Q3)divided by SXTa) to the water level H1 when the sensor H is turned on from off is larger than HH, the water level gauge 2 is judged as abnormal, and a warning is displayed 12, where Q1 is the discharge flow when a discharge valve 9 is fully opened and a sprinkling pump 10 is started, Q2 is the water supply quantity when a cascade water supply valve 8 is fully opened, Q3 is the water supply quantity when a raw water supply valve 7 is fully opened, S is the bottom area of the water tank 1, and Ta is a water supply timer time set value.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water supply control monitoring method for yard sprinkling, and an object thereof is to accurately perform water supply control monitoring even when the water level sensor in an aquarium is abnormal.

[0002]

2. Description of the Related Art FIG. 7 is a table showing the contents of detection / operation and problems in the conventional method.

When the water level in the water tank is normal, when the level water level sensor HH or higher, the level water level sensor HH: OFF to ON operation, and (1) the cascade water supply valve is "fully closed", but the level water level sensor HH is defective. At the time of (non-operation), as a problem, the cascade water supply valve is “fully opened”, the cascade water continues to be supplied, and the water tank overflows after time T ₁ .

Next, when the level water level sensor H or higher, the level water level sensor H is operated from OFF to ON. (1) The raw water feed valve is "fully closed", but there is a problem when the level water level sensor H is defective (inoperative). As a result, the raw water feed valve is “fully opened”, the raw water continues to be fed, and the water tank overflows after time T ₂ .

Next, when the level water level sensor H is less than the level water level sensor H, the level water level sensor H: from ON to OFF operation (1) The cascade water supply valve is "fully opened", but the level water level sensor H
As a problem at the time of malfunction (non-operation), the cascade water supply valve is "fully closed" and the cascade water cannot be supplied.

Further, since the raw water cost is higher than the cascade water cost, a cost loss occurs.

Next, when the level water level sensor L is less than L, the level water level sensor L: from ON to OFF operation (1) The raw water feed valve is "fully opened". However, as a problem when the level water level sensor L is defective (non-operation) , The raw water supply valve is "fully closed" and the raw water cannot be supplied. In addition, the water level will drop due to insufficient water supply, and watering time will be limited in the yard.

Next, when the level water level sensor LL or lower, the level water level sensor LL: from ON to OFF operation (1) discharge valve "fully closed" (2) sprinkling pump "stop", but the level water level sensor LL is defective (improper As a problem at the time of operation),
The discharge valve "fully opened" and the sprinkler pump "started" further lower the water level, and then troubles such as pump burnout due to the sprinkler pump idling.

[0009]

SUMMARY OF THE INVENTION The present invention is to solve the problems of the prior art in an advantageous manner by providing water level sensors HH, H, L, LL as water level gauges in a water tank. When the level meter becomes defective (non-operation), the consistency check of the water level meter is performed from the pattern of normal operation, and the timer check is performed from the water supply amount etc. Is the way.

[0010]

According to the present invention, when the water supply valve and the discharge valve become defective, the sequencer can determine the abnormality. Further, when the water level sensor becomes abnormal, the consistency can be judged from the normal pattern and the timer check method based on the water supply amount and the like, and an alarm can be issued.

[0011]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to the drawings.

FIG. 1 is a diagram showing an outline of the present invention.

The water tank 1 is a water tank for storing water for watering the yard. The tank level meter 2 is a water level sensor for measuring the water level of the water tank 1, HH: upper and upper limit, H: upper limit, L: lower limit, LL: lower and lower limit, and the water level detector 3 is the water level detected by the tank level meter 2. The sensor signal is output to the sequencer. The sequencer 4 controls the water supply to the yard. The cascade water main 5 is a cascade water supply main for supplying water for watering the yard. The raw water main 6 is a raw water supply main for supplying water for watering the yard. The raw water supply valve 7 is a valve for supplying raw water to the aquarium 1. The cascade water supply valve 8 is a valve for supplying cascade water to the aquarium 1. The discharge valve 9 is fully opened when watering the yard. The watering pump 10 is started up when watering the yard. Yard water gun 11
Is used when watering the yard. The alarm indicator 12 indicates that an abnormality has occurred in the water supply control for sprinkling the yard.
It informs the operator of the abnormality.

In FIG. 2, the vertical axis represents the fully open / fully closed operation of the level water level sensors HH, H, L, LL of the water tank 1 and the cascade water / raw water feed valve. The horizontal axis represents time. The curve in the figure represents the water level of the aquarium 1. Incidentally. The level water level of the water tank 1 is the distance from the bottom surface of the inner wall of the water tank, and HH: the upper and upper limits are HH (m), H: the upper limit is H (m), and L: the lower limit is L.
(M), LL: The lower and lower limits are LL (m).

The water level is determined by the level water level sensors HH and H.
When approaching the level water level sensor H from between, the level water level sensor H is switched from ON to OFF, and the cascade water supply valve is fully closed to fully open.

Next, the water level is detected by the level water level sensor H.
When the level water level sensor L is approached from between the positions L and L, the level water level sensor L is turned from ON to OFF, and the raw water supply valve is fully closed to fully open.

Next, the water level is measured by the level water level sensor L.
When the level water level sensor L is approached from between B and LL, the cascade water feed valve and the raw water feed valve remain fully open.

Next, the water level is measured by the level water level sensor L.
When approaching the level water level sensor H from between H and H, the level water level sensor H is turned from OFF to ON, and the raw water supply valve is fully opened to fully closed.

Next, the water level is measured by the level water level sensor H.
And HH approaching the level water level sensor HH, the level water level sensor HH changes from OFF to ON, and the cascade water supply valve changes from fully open to fully closed.

Here, the costs of cascade water and raw water are
Since the raw water is higher than the cascade water, the operation method is such that the cascade water can be supplied before the raw water.

FIG. 3 is an explanatory diagram showing the contents of abnormality judgment by the sequencer when the water supply valve or the discharge valve in the embodiment of FIG. 1 becomes defective during the opening operation and the closing operation.

When the water supply valves (cascade water, raw water) 7 and 8 and the discharge valve 9 perform the opening and closing operations according to the opening and closing commands from the sequencer 4, when the valves are caught, the control signal is broken, and the like. As a result, the opening and closing operations of the valve may become defective.

In order to judge the abnormal state due to these defects, if the valve opening operation is defective, if the valve fully open LS does not operate within a certain time after the water supply valve (or discharge valve) opening command, an abnormality occurs. Then, the alarm display 12 displays an alarm.

Next, in the case where the valve closing operation is defective, the valve is fully closed LS within a fixed time after the water supply valve (or discharge valve) closing command.
If does not operate, it is judged to be abnormal and the alarm display 12 displays an alarm.

FIG. 4 is a diagram showing the contents of checking the consistency of the water level meter when the water level sensor becomes abnormal. The aquarium water level sensors HH, H, L, and LL are water level meters, and the patterns during normal operation are as follows. ○ indicates sensor “OFF”, ● indicates sensor “O”
N "state.

[HH, H, L, LL]: [○, ○, ○, ○] (B) [HH, H, L, LL]: [○, ○, ○, ●] (B) [HH, H, L, LL]: [○, ○, ●, ●] ・ ・ ・ (C) [HH, H, L, LL]: [○, ●, ●, ●] ・ ・ ・(D) [HH, H, L, LL]: [●, ●, ●, ●] (E) When the pattern other than the above (A) to (E) is detected, it is judged that the water level sensor is abnormal. , Alarm / display.

FIG. 5 is a diagram showing a timer check method from the amount of water supply when the water level meter becomes defective (inoperative). The water supply timer check function when the water tank water level sensors HH, H, L, and LL become defective (inoperative) as water level meters will be described below.

When the water tank water level sensor HH becomes defective (inoperative), the water level H ₁ (m) when the water level meter H turns from "OFF" to "ON" becomes [(Q ₁ + Q ₂ -Q ₃ ) ÷ S ×
Ta] However, Q ₁ (Nm ³ / H): Indicates the discharge flow rate when the discharge valve is “fully opened” and the water spray pump is “started”. (Same as below) Q ₂ (Nm ³ / H): Indicates the cascade water supply flow rate when the cascade water supply valve is “fully opened”. (Same as below) Q ₃ (Nm ³ / H): Indicates the amount of raw water supply when the raw water supply valve is “fully opened”. (Same below) S (m ² ): Indicates the bottom area of the water tank. (Same as below) Ta (H): When the value obtained by adding the water supply timer time set value is larger than HH (m), it is judged as abnormal and an alarm is displayed.

Next, the aquarium water level sensor H is defective (inoperative).
When it becomes, the water level gauge L changes from "OFF" to "ON".
[(Q ₁ + Q ₂ −Q ₃ ) ÷ water level L ₁ (m) when
S × Tb] However, when the value obtained by adding Tb (H): water supply timer time set value is larger than H (m), it is determined to be abnormal,
Display an alarm.

Next, the aquarium water level sensor L is defective (inoperative).
When it becomes, the water level gauge H changes from "ON" to "OFF".
The water level H ₂ (m) at the time of [[Q ₁ + Q ₂ −Q ₃ ) ÷
S × Tc] However, when the value obtained by subtracting Tc (H): water supply timer time set value is smaller than L (m), it is determined to be abnormal,
Display an alarm.

Next, when the aquarium water level sensor LL becomes defective (inoperative), the water level meter L changes from "ON" to "OF".
The water level L ₂ (m) at the time of “F” is [(Q ₁ + Q ₂ −
Q ₃ ) ÷ S × Td] However, when the value obtained by subtracting Td (H): water supply timer time set value is smaller than LL (m), it is judged as an abnormality and an alarm is displayed.

FIG. 6 is a chart showing the method for preventing the water level chattering signal from the water tank.

As a timer method for preventing chattering signals from the aquarium water level sensors HH, H, L and LL, the water level changes when the signals from the respective aquarium water level sensors continue for a certain time (Tt seconds) or more. It is detected as something that has been done.

[0034]

As described above, when the water level of the aquarium is normal, when the level water level sensor HH is higher than the level water level sensor HH, the level water level sensor HH changes from OFF to ON operation. (1) Cascade water supply valve "fully closed" However, the level water level sensor H
When H defective (non-operating), in the present invention, a cascade water supply valve is "fully opened", and the cascade water is water continues, before the water tank after the time T ₁ is overflow, detecting the level water level sensor abnormality, the operation A warning can be displayed to the staff.

Next, when the level water level sensor H or higher, the level water level sensor H operates from OFF to ON. (1) The raw water feed valve is "fully closed", but when the level water level sensor H is defective (non-operation), the invention, raw water supply valve is "fully opened", and the raw water is water continues, before the time T ₂ after the water tank overflows detects the level water level sensor abnormality, it is possible to alarm display on the operator.

Next, when the level water level sensor LL is lower than the level water level sensor LL, the level water level sensor LL is operated from ON to OFF (1) The discharge valve is “fully closed” (2) The watering pump is “stopped”, but the level water level sensor LL is defective (not In the present invention, in the present invention, when the water level further lowers with the discharge valve "fully opened" and the water sprinkler pump "started", a level water level sensor abnormality is detected and an alarm is displayed to the operator, so that the water sprinkler pump is emptied. It is possible to prevent troubles such as burnout of the pump during operation.

[Brief description of drawings]

FIG. 1 is an explanatory diagram showing a schematic main configuration of a yard sprinkling water supply control monitoring device according to an embodiment of the present invention.

FIG. 2 is an explanatory diagram showing an operating state of the water supply valve of FIG.

FIG. 3 is an explanatory diagram showing the contents of abnormality determination by the sequencer when the water supply valve or the discharge valve in the embodiment of FIG. 1 becomes defective during the opening operation and the closing operation.

FIG. 4 is a chart showing the contents of checking the consistency of the water level meter when the water level sensor becomes abnormal.

FIG. 5 is a diagram showing a timer check method from the water supply amount and the like when the water level meter becomes defective (inoperative).

FIG. 6 is a chart showing an aquarium water level chattering signal prevention timer method.

FIG. 7 is a diagram showing detection / operation contents and problems in the conventional method.

[Explanation of symbols]

 1 Water tank 2 Tank level meter 3 Water level detector 4 Sequencer 5 Cascade water main 6 Raw water main 7 Raw water feed valve 8 Cascade water feed valve 9 Discharge valve 10 Water pump 11 Yard water spray gun 12 Alarm indicator

Claims (2)

[Claims] 1. A plurality of water level sensors are installed as a water level meter in a water tank, and when these water level sensors malfunction, a consistency check of each water level sensor is performed based on a pattern during normal operation, and A water supply control monitoring method for yard sprinkling, characterized by performing a timer check from the water supply amount and other factors. 2. The yard sprinkling water supply control monitor according to claim 1, wherein a change in the water level is detected by a continuous signal from a plurality of water level sensors for a predetermined time or more. Method.