JP3228852B2 - Liquid level detector - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for detecting a remaining amount of fuel in a liquid tank, for example, a fuel tank of a vehicle or the like, and issuing an alarm to a driver when the remaining amount is low. .

[0002]

2. Description of the Related Art There is a conventional fuel remaining amount detecting device of this type which detects the remaining amount of fuel in a fuel tank of a vehicle or the like and displays a warning. As the fuel remaining amount detecting device, for example, an electric resistor is disposed in the vertical direction substantially near the center of the fuel tank, and a floating type movable in the vertical direction along the guide member while being in contact with the electric resistor. A contact is provided to detect fuel remaining amount data from the movable contact.

As another fuel remaining amount detecting device, one end of a conductive rod is rotatably supported, and a float floating on a liquid surface is attached to the other end, and the floating rod is concentrically formed within a rotation range of the conductive rod. The conductive pieces are scattered so that the conductive rods are in contact with each other, and the remaining fuel amount data is detected based on the rotational position of the conductive rod.

[0004]

As described above, in each of the conventional fuel remaining amount detecting devices, the fuel remaining amount data is detected at predetermined intervals, and the average value of the detected values during a predetermined period is calculated. ing. Then, when the average value becomes smaller than 10 liters of fuel, for example, the fuel level warning display section is turned on to give a warning. However, in the prior art, when the road surface condition is poor and the unevenness is severe,
The fuel in the fuel tank shakes violently, the amplitude of the fuel remaining amount data also increases, and the fuel remaining amount data is also inaccurate. Also, when the vehicle is accelerated even when the remaining fuel amount is more than 10 liters, the fuel is moved to the rear of the fuel tank, and the fuel remaining amount data is detected less than the actual amount, and the fuel remaining amount warning is issued. The display is turned on. Further, when the vehicle is decelerated, the fuel is moved to the front of the fuel tank, the remaining fuel data is detected more than actual, and the fuel remaining warning display is turned off. As described above, the fuel remaining amount warning display unit is turned on or off unnecessarily, so that it is not only confusing, but also it is not possible to accurately give a warning of the remaining fuel amount. In order to solve this problem, it is conceivable to dispose sensors consisting of an electric resistor for detecting the liquid level of the fuel before and after the fuel tank. However, since two sensors are used, the cost is high and it is not practical.

A first object of the present invention is to provide a single sensor, which can cope with the liquid level change due to the natural vibration of the liquid tank and the microtremor and the liquid level level imbalance related to the irregularly shaped tank. It is an object of the present invention to provide a liquid remaining amount detecting device capable of displaying an actual liquid amount substantially accurately on a display of a remaining amount alarm unit when the vehicle is not traveling.

[0006]

A second object of the present invention is to cope with the liquid level change due to the natural vibration of the liquid tank and the microtremor and the imbalance of the liquid level with the irregularly shaped tank. It is an object of the present invention to provide a liquid remaining amount detecting device capable of accurately displaying an actual liquid amount on a display of a remaining amount alarm unit in any state after an ignition key is switched.

[0008]

A first object of the present invention is to provide a liquid level detector for detecting a liquid level of a liquid in a liquid tank, and to calculate an average value based on the detected value of the liquid level detector. A control unit that calculates and compares the average value with a reference value, an upper threshold value above the reference value, and a lower threshold value below the reference value, and a control unit that issues an alarm when the remaining amount of liquid is low. and a quantity alarm unit, wherein the control unit after starting operation first detection
When detecting the value, the average value is not calculated and this first detected value
Is compared with the reference value.
The amount alarm unit does not issue an alarm, and when the amount is less than the reference value,
The remaining amount warning unit issues a warning, and the control unit
When the detected value is not the first detection value, an average value is calculated, and when the control unit determines that the average value is equal to or larger than the upper threshold, the remaining amount warning unit does not issue a warning, and the control unit calculates the average value. Is determined to be below the lower threshold, the remaining amount warning unit issues a warning, the average value by the control unit,
Achieved by the first means which does not change the operation state of the remaining amount alarm unit when it is determined that the state has changed between the upper threshold and the lower threshold and between the upper threshold and the lower threshold. Is done.

[0009] The second object is to store the liquid in the liquid tank.
A liquid level detector that detects the liquid level and this liquid level
The average value is calculated based on the detected value of the bell detector,
The average is defined as a reference, an upper threshold above this reference, and
An average control to compare with a lower threshold below the reference value, and a liquid
Alarm that issues an alarm when the battery level is low
And above the reference value of the liquid level alarm and above the upper threshold
Setting a second threshold above and detecting the liquid level detector
The number of times the value has exceeded the second threshold during the predetermined time is counted.
A number control unit for controlling the remaining amount alarm unit by
As the condition for remaining amount alarm OFF, the average value control unit
When the average value is equal to or higher than the upper threshold, or when the
When the count value of the number control unit is equal to or more than a predetermined first number value,
At some point, the average value
The average value is equal to or less than the lower threshold value by the control unit, and
The count value of the number-of-times control unit is greater than the first number value;
It is set when it is smaller than or equal to a small predetermined second count value.
This is achieved by a second means.

[0010] The first object is to store the liquid in the liquid tank.
A liquid level detector that detects the liquid level and this liquid level
The average value is calculated based on the detected value of the bell detector,
The average is defined as a reference, an upper threshold above this reference, and
The control unit to compare with the lower threshold below the reference value, and the remaining amount of liquid
And a residual quantity warning unit that issues a warning when the battery runs low.
When the control unit compares the first average value after the operation starts,
Compares the initial average value with the reference value,
When the value is equal to or greater than the value, the remaining amount alarm unit does not issue an alarm, and the
When the value is less than the reference value, the remaining amount alarm unit issues an alarm and
The control section must compare with the first average value after the operation starts.
The average value is equal to or higher than the upper threshold by the control unit.
When determined, the remaining amount warning unit does not emit a warning,
The control unit determines that the average is below the lower threshold.
The remaining amount alarm unit issues an alarm and the control unit
Average value is above the upper threshold or below the lower threshold
Is determined to have changed between the upper threshold and the lower threshold.
Do not change the operation status of the remaining amount alarm section.
This is achieved by the third means.

[0011]

In the first and third means, while being a single sensor, it can cope with the natural vibration of the liquid tank, the liquid level change due to the constantly fine movement, and the imbalance of the liquid level related to the irregular shaped tank, Mainly in a state where the vehicle is not running, the display of the remaining amount alarm section can display the actual liquid amount almost accurately.

[0012]

[0013] The second means is a single sensor, which can cope with the liquid level change due to the natural vibration of the liquid tank, the microtremor, and the imbalance of the liquid level with the irregularly shaped tank. In any state after the ignition key is switched on, the display of the remaining amount alarm unit can accurately display the actual liquid amount.

[0014]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram of a control circuit of the fuel remaining amount detecting device, FIG. 2 is a block diagram of a CPU of the fuel remaining amount detecting device, and FIG. 3 shows a process when a fuel warning lamp of the fuel remaining amount detecting device is turned on. FIG. 4 is an explanatory diagram showing processing when the fuel warning lamp of the fuel remaining amount detection device is turned off.
FIG. 5 is an explanatory diagram showing an example of the measured value of the fuel capacity in the fuel tank, and FIGS. 6A and 6B are explanatory diagrams showing the relationship between the remaining fuel amount and the detected voltage.

In FIG. 1, 1 is a control circuit of a fuel remaining amount detecting device, 2 is a CPU, 3 is an amplifier (differential amplifier),
_{R 1, R 2, R 3} , R 4, R 5, R 6, R 7, R B is the resistance, R _S
Is a fuel remaining resistance, V _IG is an ignition voltage, and A / D is an analog / digital converter. Four resistors R ₁ ,
A bridge circuit is constituted by R ₂ , R _B and R _S.
V ₁ was a detection voltage (remaining fuel amount data), which is obtained by dividing the divided voltage of the ignition voltage V _IG by resistors R _B and the fuel quantity resistor R _S. V ₂ is the ignition voltage V _IG and the resistance R ₁
Is obtained by dividing the divided voltage by the resistors R ₂ and. As shown in FIG. 2, the CPU 2 includes an analog / digital converter A / D,
A memory 4, an operation unit 5, and a parallel IO (parallel I / O port) 6 are provided. Reference numeral 7 denotes a fuel remaining amount warning light.

When such a bridge circuit is not provided, the relationship between the remaining fuel amount and the detected voltage is proportional to the whole as shown in FIG. According to this, for example, in the case of a fuel tank having a capacity of 60 liters, the total remaining fuel resistance is 2
With the accuracy of 55 divisions, the detection accuracy per bit is 1 bit: 60 liters / 255 = 0.235 liters, and detection is performed with the same accuracy as a whole. However,
It is required to be detected with high accuracy near the fuel remaining amount warning reference value (for example, 10 liters). Therefore, shown by the bridge circuit, i.e., by amplifying the difference between the input voltage between the two terminals of the detection voltage (remaining fuel amount data) V ₁ between the divided voltage V ₂ by the amplifier 3, in FIG. 6 (b) As described above, it is possible to expand and detect only the range of the fuel remaining amount of 6 to 16 liters. That is, when the remaining fuel amount is in the range of 0 to 6 liters, the detection voltage VS (V) remains 0,
The detection voltage has a proportional relationship from 0 to the maximum value in the range of 16 liters, and the detection voltage remains at the maximum value in the range of 16 liters or more. Therefore, 6-16 liters of 10
Liter range, and the detection accuracy per bit is 1
Bit: 10 liters / 255 = 0.0392 liters can be detected.

Next, the operation of this embodiment will be described.
Here, the sampling operation of the remaining fuel amount is performed every 500 ms. The sampling operation, ignition voltage V _IG includes resistors _{R 1, R 2, R B} , is applied to the bridge circuit composed of R _S. The resistance R _S is a resistance constituting the liquid level detection sensor as in the above-described conventional example, and this resistance value fluctuates depending on the remaining amount of fuel, and therefore, the detection voltage value V ₁ output from the bridge circuit. Also fluctuates according to the remaining amount of fuel as described above.

The sense voltage (remaining fuel amount data) V1 is amplified and input to the amplifier 3, as described above, is input to the CPU 2. In addition, the ignition voltage VIG is
Is divided by the resistors R6 and R7 as a power supply for driving the power supply, and is then applied to the CPU 2 from the battery.
The ignition voltage VIG and the remaining fuel data input to the CPU 2 are analog-to-digital converted by an analog-to-digital converter A / D into IV and VS (V) described later. Then, these digital values are input to the memory 4.

Incidentally, the ignition voltage V _IG from the battery varies depending on the use of the battery or the power consumption at that time. For this reason, the value of the fuel remaining amount data VS (V) based on the ignition voltage _VIG also changes. In other words, even if the remaining fuel amount is the same, if the ignition voltage V _IG is different, the value of the remaining fuel voltage data VS (V) is different, and the accurate remaining fuel amount cannot be detected as it is. Accordingly, in this embodiment, by the following formula, is performed correction for variations of the ignition voltage V _IG in the calculating portion 5 of the CPU 2. Fuel (R) = K × VS (V) × IV where Fuel (R) is corrected fuel remaining amount data, K is a constant, V
S (V) is fuel remaining voltage data, and IV is a measured value of ignition voltage.

In the memory 4, each judgment value, the number of judgments, and the like are stored in advance. For example, the judgment value L _A (corresponding to the reference value of the remaining amount warning) is 10 liters, and the judgment value L
_B (corresponding to the upper threshold) is 11 liters, the judgment value L _C (corresponding to the lower threshold) is 9 liters, the judgment value L _D (corresponding to the second threshold) is 13 liters, and the number of judgments M1 (the first number of times value) 7) and the number of determinations M2 (corresponding to the second number of times) to 3
It is set as times. Note that the upper threshold and the lower threshold are set to about ± 10% of the reference value.

The calculating section 5 calculates the latest corrected fuel remaining amount data sampled and the corrected fuel remaining amount data for the past 254 times sampled every 500 ms, that is, the average value of the data for 255 times. Memory 4
To memorize. The average value is compared with each determination value, and a warning lamp is turned on or off from the parallel I / O 6 depending on whether a predetermined condition is satisfied.

The arithmetic unit 5 compares the latest sampled corrected fuel remaining amount data with the judgment value L _{D. When} the judgment value L _D exceeds the judgment value L _D , the counter in the CPU 2 is incremented by +1. And The count value during the last 255 samplings is compared with the number of determinations M1 and M2, and a warning light is turned on or off from the parallel I / O 6 depending on whether a predetermined condition is satisfied.

Usually, the storage place of the vehicle is often a flat place such as a garage, so that the remaining fuel amount data at that time has almost no error. Therefore, the data sampled first by turning the engine key does not calculate the average value, compares it with only the fuel remaining amount warning reference value, and does not consider the upper threshold value and the lower threshold value. That is, when the fuel remaining amount warning reference value is 10 liters, when this data is less than 10 liters, the warning lamp for the fuel remaining amount is turned on, and when the data is 10 liters or more, it is not turned on.

Next, a first embodiment of the present invention will be described with reference to FIG. FIG. 7 is a flowchart of the fuel warning process based on only the average value of the remaining fuel amount detection device according to the first embodiment of the present invention. Here, the determination value L _A (corresponding to the reference value) in the flowchart is 10 liters and the determination value L
_B (corresponding to the upper threshold) is set to 11 liters, and the judgment value L _C (corresponding to the lower threshold) is set to 9 liters.

Measurement timing (for example, every 500 ms)
, The sensor value is read {if S1 corresponds to the number of samplings of 255, the process proceeds to Yes (hereinafter abbreviated as Y)}. If the measurement timing is the number of samplings other than 255, No ( The measurement is performed again.演算, arithmetic unit 5 of CPU 2
The remaining fuel amount is calculated and stored in the memory 4 (S3).
Then, the weighted average is calculated by reading the data together with the past data stored in the memory 4 (S4). And this sampling is the first time (only after turning the engine key)
Sampling or determined (S5), if the sampling of the first (Y at S5), at S6, determines the average value <judgment value L _A. If the average value <judgment value L _A (Y in S6),
The remaining amount warning lamp 7 lights (S7), if the average value ≧ judgment value L _A (in S6 N), turns off the remaining amount warning lamp 7 (S
8). On the other hand, instead of the first sampling (N in S5),
If the remaining amount warning light 7 is turned on (Y in S9), S10
In, it determines whether the average value ≧ judgment value L _B, if so (Y in S10), and turns off the remaining amount warning lamp 7 is lit (S11). The average value ≧ judgment value L _B else (at S10 N), leaving lit the remaining amount warning lamp 7. If the remaining amount warning or the like is turned off (N in S9),
In S12, it is determined whether or not the average value ≦ the determination value L _C. If satisfied (Y in S12), the remaining amount warning light 7 that is turned off
Is turned on (S13). If the user is not satisfied (N in S12), the remaining amount warning light 7 is kept off.

In the first embodiment constructed as described above, a liquid level detector for detecting the liquid level of the fuel in the fuel tank, and a liquid level detector based on the detected value of the liquid level detector are provided. A CPU 2 for calculating an average value and comparing the average value with a reference value, an upper threshold value above the reference value, and a lower threshold value below the reference value, and an alarm when the fuel level becomes low. When the CPU 2 determines that the average value is equal to or higher than the upper threshold, the CPU 2 determines that the average value is equal to or lower than the lower threshold. When the CPU 2 determines that the average value has changed between the upper threshold and the lower threshold and between the upper threshold and the lower threshold when the CPU 2 determines that the average value has changed, the remaining alarm lamp 7 emits a warning. The operation status of each Hysteresis from the value of a predetermined width (tolerance) have set a region. In other words, the first determination (S
When it is determined that the average value based on the liquid level detection value has changed from the lower threshold to the upper threshold after the remaining fuel light 7 does not light in 5), the remaining fuel warning light 7 remains lit. When it is determined that the average value has changed from the upper threshold value to the lower threshold value, this means that the remaining amount warning light 7 remains off.
Therefore, mainly when the vehicle is not running,
Even though it is one sensor, the display of the remaining amount warning light 7 can be performed without malfunctioning in response to the natural vibration of the fuel tank, the liquid level change due to the fine movement, and the imbalance of the liquid level related to the deformed tank. The liquid volume can be displayed almost accurately.

Next, a second embodiment of the present invention will be described with reference to FIG. FIG. 8 is a flowchart of a fuel warning process based on the number of determination values of the fuel remaining amount detection device according to the second embodiment of the present invention. Here, in the flowchart, the determination value L _D (corresponding to the second threshold value) is 13 liters, the number of determinations M1 (corresponding to the first number of times) is seven, and the number of determinations M2 is
(Corresponding to the second count value) is set to three times.

In this control, 13 liters is set as the second threshold value which is larger than the upper threshold value of 11 liters because the liquid level is a wave due to running or the like and the peak of the liquid level is
The fact is that if the remaining fuel amount is large, it easily exceeds 13 liters, and if the remaining amount is small, the number of times exceeding 13 liters is reduced.

Measurement timing (for example, every 500 ms)
Then, the sensor value is read and sampled (Y in S21, S22), and the calculation unit 5 of the CPU 2 calculates the remaining amount of fuel and stores it in the memory 4 (S23). If the remaining amount is the remaining amount ≧ the determination value L _D , the determination counter is set to +1 (S
24, Y, S25), the number of times the remaining amount is equal to or greater than the determination value L _D is counted. On the other hand, if the remaining amount warning lamp 7 is on (Y in S26), it is determined in S27 whether the determination counter ≧ the number of determinations M1, and if so (Y in S27), it is on. The remaining amount warning light 7 is turned off (S2
8). If the determination counter ≧ the number of determinations M1 is not satisfied (N in S27), the remaining amount warning lamp 7 is kept on. If the remaining amount warning or the like is turned off (S2
6), and in S29, it is determined whether or not the determination counter is equal to or less than the number of determinations M2. If satisfied (Y in S29), the remaining amount warning light 7 that is turned off is turned on (S30). If not (N in S29), the remaining amount warning light 7 is kept off.

In the second embodiment constructed as described above, a liquid level detector for detecting the liquid level of the fuel in the fuel tank, and an alarm when the remaining amount of the fuel becomes low. Is set, and a second threshold value higher than the reference value of the fuel remaining amount alarm is set, and the detection value of the liquid level detector exceeds the second threshold value several times during the predetermined time. CPU 2 that counts the number of times and controls the remaining amount warning light 7. When the count value is equal to or more than a predetermined number value, the remaining amount warning light 7 is turned off. In the following cases, the remaining amount warning light 7 is turned on. Therefore, when the vehicle is mainly in a running state, the liquid level change related to the natural vibration of the fuel tank and the microtremor, and the liquid Do not malfunction due to surface level imbalance Can display the remaining amount warning lamp 7 is substantially accurately display the actual liquid volume.

Next, a third embodiment of the present invention will be described with reference to FIG. FIG. 9 is a flowchart of the fuel warning process based on the average value and the number of times of the determination value of the fuel remaining amount detecting device according to the third embodiment of the present invention. Here, in the flowchart, the judgment value L _A (corresponding to the reference value) 10 liters, the judgment value L _B (corresponding to the upper threshold) 11 liters judgment value L
_C (corresponding to the lower threshold) is 9 liters, the judgment value L _D (corresponding to the second threshold) is 13 liters, the number of judgments M1 (corresponding to the first number of times) is 7, and the number of judgments M2 (second is equal to the second). (Corresponding to the number of times) is set to three times.

Measurement timing (for example, every 500 ms)
Then, the sensor value is read and sampled (Y in S41, S42), and the calculation unit 5 of the CPU 2 calculates the remaining fuel amount and stores it in the memory 4 (S43). If the remaining amount is the remaining amount ≧ the determination value L _D (Y in S43), the determination counter is set to +1 and the number of times the remaining amount is equal to or more than the determination value L _D is counted. The weighted average is calculated by reading the data together with the past data stored in the memory 4 (S45). And
The sampling first determines whether sampling (first time by turning the engine key) (S46), if the sampling of the first (Y at S46), at S48, determines the average value <judgment value L _A. If the average value <judgment value L _A (S4
7, Y), the remaining amount warning light 7 is turned on (S48), and the average value ≧
If the determination value L _A (in S47 N), turns off the remaining amount warning lamp 7 (S49). On the other hand, if it is not the first sampling (N in S46) and the remaining amount warning lamp 7 is turned on (S5).
0 Y), in S51, the average value ≧ judgment value or is L _B, determines whether the determination counter ≧ determination count M1, if at least one Tsugaso (Y in S47), lit remaining The quantity warning light 7 is turned off (S49). The average value ≧ judgment value L _B, if not satisfy either of the determination counter ≧ determination count M1 (N in S51), leaving lit the remaining amount warning lamp 7. If the remaining amount warning light 7 is off (N in S50), it is determined in S53 whether the average value ≦ the determination value L _C and the determination counter ≦ the number of determinations M2. If yes (Y in S53), turn off the remaining amount warning light 7 (S54), and if at least one is not satisfied (N in S53), leave the remaining amount warning light 7 off. Keep it.

In the third embodiment constructed as described above, a liquid level detector for detecting the liquid level of the fuel in the fuel tank, and a liquid level detector based on the detected value of the liquid level detector are provided. A CPU 2 for calculating an average value and comparing the average value with a reference value, an upper threshold value above the reference value, and a lower threshold value below the reference value, and an alarm when the fuel level becomes low. And a second threshold value above the reference value of the fuel remaining amount warning, and the detection value of the liquid level detector detects the second threshold value several times during a predetermined time. A CPU 2 that counts whether the number has exceeded the threshold value and controls the remaining amount warning light 7. As a remaining amount warning off condition, when the average value is greater than or equal to the upper threshold value by the CPU 2 or when the count value of the CPU 2 is increased by a predetermined number of times. When the value is greater than or equal to the numerical value, Since the average value is set by the CPU 2 when the average value is equal to or less than the lower threshold value and the count value of the CPU 2 is equal to or less than a predetermined count value smaller than the count value, after the vehicle inputs the ignition key switch, Even in the state, even though the sensor is a single sensor, it does not malfunction in response to the natural vibration of the fuel tank, the liquid level change due to the microtremor, or the imbalance of the liquid level related to the irregularly shaped tank. The display can accurately display the actual liquid amount.

Although the apparatus for detecting the remaining amount of fuel in the fuel tank of a vehicle or the like has been described above as an example, the present invention is not limited to these embodiments. That is, the present invention is not limited to the case of the fuel tank, and may be an oil tank or the like of oil used for a window washer liquid, a brake, an engine, or the like. Further, the present invention can be applied not only to a vehicle but also to a general remaining amount detection device for liquid in a tank mounted on a moving object such as a ship.

[0035]

According to the first and third aspects of the present invention, when the vehicle is not running, the liquid level change and the irregular shape tank related to the natural vibration of the liquid tank and the microtremor, while being one sensor, are mainly performed. And the display of the remaining amount alarm unit can display the actual liquid amount almost accurately without causing a malfunction in response to the liquid level imbalance according to the above.

[0036]

According to the second aspect of the present invention, in any state after the vehicle is turned on by the ignition key, the liquid level change and the irregular shape tank related to the natural vibration of the liquid tank and the microtremor, regardless of the state of one sensor, are provided. The display of the remaining amount warning unit can accurately display the actual liquid amount without malfunctioning in response to the liquid level imbalance according to (1).

[Brief description of the drawings]

FIG. 1 is a block diagram of a control circuit of a fuel remaining amount detecting device according to an embodiment of the present invention.

FIG. 2 shows a CP of a fuel remaining amount detection device according to an embodiment of the present invention.
It is a block diagram of U.

FIG. 3 is an explanatory diagram showing a process when a fuel warning lamp of a fuel remaining amount detecting device according to an embodiment of the present invention is turned on.

FIG. 4 is an explanatory diagram showing processing when a fuel warning lamp of a fuel remaining amount detecting device according to an embodiment of the present invention is off.

FIG. 5 is an explanatory diagram showing an example of a measured value of a fuel capacity in a fuel tank.

FIGS. 6A and 6B are explanatory diagrams illustrating a relationship between a remaining fuel amount and a detection voltage.

FIG. 7 is a flowchart of a fuel warning process based on only the average value of the remaining fuel amount detection device according to the first embodiment of the present invention.

FIG. 8 is a flowchart of a fuel warning process based on the number of times of the remaining fuel amount detection device according to the second embodiment of the present invention.

FIG. 9 is a flowchart of a fuel warning process based on an average value and the number of times of the remaining fuel amount detection device according to the third embodiment of the present invention.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 Control circuit 2 CPU 4 Memory 5 Operation part 7 Remaining amount warning light R _S Fuel remaining resistance

Continuation of the front page (72) Inventor Kenji Nakatani 3-1, Shinchi, Fuchu-cho, Aki-gun, Hiroshima Mazda Corporation (72) Inventor Yoshinori Otsubo 3-1, Shinchi, Fuchu-cho, Aki-gun, Hiroshima Mazda (56) References JP-A-5-34185 (JP, A) JP-A-59-108918 (JP, A) JP-A-63-55122 (JP, U) JP-A-3-114018 (JP, U) Kaihei 4-66529 (JP, U) (58) Fields investigated (Int. Cl. ⁷ , DB name) G01F 23/00-25/00

Claims (3)

(57) [Claims] A liquid level detector for detecting a liquid level of a liquid in a liquid tank; an average value calculated based on a detection value of the liquid level detector; A control unit that compares the upper threshold value above the reference value and a lower threshold value below the reference value, and a remaining amount alarm unit that issues an alarm when the remaining amount of the liquid is low, wherein the control unit includes: When the first detection value is detected after operation starts,
Without calculating the average value, compare this first detection value with the reference value
When the value is equal to or higher than the reference value, the remaining amount alarm unit issues an alarm.
When the remaining amount is less than the reference value, the remaining amount alarm unit issues an alarm.
And the control unit needs to determine the first detected value after the operation starts.
When calculating the average value, when the control unit determines that the average value is equal to or more than the upper threshold, the remaining amount warning unit does not emit an alarm, the average value is equal to or less than the lower threshold by the control unit. When it is determined that there is, the remaining amount alarm unit issues an alarm, and the control unit determines that the average value has changed between the upper threshold value and the lower threshold value from the upper threshold value or more or the lower threshold value or less. Wherein the operation state of the remaining amount alarm unit is not changed when the operation is performed. 2. A liquid level detector for detecting a liquid level of a liquid in a liquid tank, and an average value is calculated based on a detection value of the liquid level detector. An average value control unit for comparing an upper threshold value above the reference value and a lower threshold value below the reference value, a remaining amount alarm unit for issuing an alarm when the remaining amount of liquid is low, and a remaining amount alarm Setting a second threshold above the reference value and above the upper threshold , counting how many times the detection value of the liquid level detector exceeded the second threshold during a predetermined time A number control unit that controls the remaining amount alarm unit, and as the remaining amount alarm off condition, when the average value is equal to or more than the upper threshold value by the average value control unit, or when the count value of the number control unit is is when the predetermined first count value or more, the remaining amount alarm on condition Te, said average value by the average value the control unit has the following prior SL under threshold and the count control unit second the count value is predetermined smaller than the first frequency value of
Liquid remaining amount detection device, which is set when the number of times is equal to or less than the number of times. 3. The liquid level of the liquid in the liquid tank is detected.
Calculating a liquid level detector, the mean value based on the detected value of the liquid level detector to
The average value is defined as the reference value, the upper threshold above this reference value.
Control unit to compare the value and the lower threshold below this reference value
And a residual quantity alarm that issues an alarm when the liquid level is low
And the control unit , when the control unit compares with the first average value after the start of operation,
This initial average value is compared with the reference value, and
In the case above, the remaining amount alarm does not emit an alarm, and the reference value
If less than, the remaining amount alarm unit issues an alarm, and the control unit compares the first average value after the operation starts with the first average value.
If not, the control unit determines that the average value is equal to or higher than the upper threshold.
The alarm is not issued by the remaining amount warning unit, and the control unit determines that the average value is equal to or less than the lower threshold.
When the alarm is issued, the remaining amount alarm unit issues an alarm, and the average value is equal to or more than the upper threshold value or before by the control unit.
Changes between the upper threshold and the lower threshold from below the lower threshold
When it is determined that the operation has been completed,
A liquid remaining amount detecting device, wherein each of them is not changed .