JP6753295B2 - Oil change time judgment device - Google Patents

Description

The present disclosure relates to an oil change timing determination device.

Conventionally, in a vehicle equipped with an engine or the like, lubrication oil for smooth operation is supplied in the final drive, transmission, engine or the like. When the oil deteriorates, it adversely affects engine performance and fuel efficiency. Therefore, the time to change the oil is notified.

Deterioration of oil does not progress relatively when the usage conditions of the vehicle are gentle (for example, constant speed running on a highway). Further, the deterioration of oil progresses relatively when the usage conditions of the vehicle are severe (for example, traveling on a general road where acceleration and deceleration are repeated). In other words, the deterioration of oil differs depending on how the vehicle is used.

However, the oil change is performed at the regular oil change period (for example, a uniform mileage of 50,000 km or one year) regardless of the usage conditions of the vehicle. As a result, for example, when the operating conditions of the vehicle are gentle with respect to the deterioration of the oil, the oil is changed at the periodic oil change time even if the deterioration of the oil has not progressed. Further, for example, when the usage conditions of the vehicle are severe with respect to the oil deterioration, even if the oil deterioration progresses, the oil is used without being changed until the periodic oil change time. This causes parts such as gears, bearings, and oil seals to fail.

As a device for notifying the oil change time, for example, Patent Document 1 discloses a device that gives an alarm of the oil change time according to an integrated value of engine operating time.

Japanese Unexamined Patent Publication No. 2004-150396

However, the oil does not deteriorate for a long operating time of the engine when the usage conditions of the vehicle are gentle. On the other hand, when the usage conditions of the vehicle are strict, the operation time is short but the deterioration is achieved. In other words, there is no simple proportional relationship between the operating time and the deterioration state of the oil, and if the oil change time is simply determined based on the operating time, the oil change time may not be accurately determined. There was a problem.

An object of the present disclosure is to provide an oil change timing determination device capable of accurately determining an oil change timing.

The oil change timing determination device of the present disclosure is
A calculation unit that calculates the degree of oil deterioration based on engine torque,
A determination unit that determines the oil replacement time based on the deterioration degree calculated by the calculation unit, and
Have.

The oil change timing determination method of the present disclosure is as follows.
Calculate the degree of oil deterioration based on the engine torque,
The oil replacement time is determined based on the calculated degree of deterioration.

According to the present disclosure, it is possible to accurately determine the oil change time.

A block diagram showing an example of the configuration of the oil change timing determination device according to the present embodiment. The figure which shows the weighting coefficient about the deterioration element Flow chart showing an example of the operation of the oil change timing determination device

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

FIG. 1 is a block diagram showing an example of an oil change timing determination device according to the present disclosure.
As shown in FIG. 1, the master controller 1, the engine control device 2, and the oil change time display unit 3 are connected to each other by a common bus 4 to form an in-vehicle serial communication network. The reset device 5 is directly connected to the master controller 1.

The master controller 1 executes the processing program shown in FIG.
The engine control device 2 inputs signals such as vehicle speed, accelerator opening degree, engine rotation speed, mileage, and oil temperature from each sensor, and outputs a fuel injection amount as necessary.

The engine control device 2 acquires the vehicle speed from the number of pulse signals per hour, assuming that the pulse signal is generated in proportion to the number of rotations of the axle in the vehicle and the vehicle moves in proportion to the number of pulse signals. .. Further, the engine control device 2 acquires the accelerator opening degree based on, for example, the amount of depression of the accelerator pedal (not shown) from the accelerator opening degree sensor. Further, the engine control device 2 acquires the engine speed based on, for example, a signal from the rotary encoder. Further, the engine control device 2 acquires a mileage from, for example, a cumulative total distance meter. Further, the engine control device 2 acquires the oil temperature from, for example, an oil temperature gauge.

The engine control device 2 includes the memory 22 and stores the above-mentioned driving information such as the vehicle speed at predetermined time intervals in the memory 22.

The master controller 1 (corresponding to the "oil change timing determination device" of the present invention) has a calculation unit 12, a determination unit 14, an engine torque map (not shown), and a look-up table (not shown).

The engine torque map is a table showing the relationship between the accelerator opening and the engine speed and the engine output torque (hereinafter abbreviated as "torque").

The look-up table is a table in which the amount of deterioration at predetermined time with respect to the deterioration element that causes the deterioration of oil is stored in advance. For example, deterioration factors include torque, vehicle speed, mileage and oil temperature.

The master controller 1 causes the oil change time display unit 3 to display oil change time information (oil change required information, remaining mileage information, etc.) based on the determination result of the determination unit 14 described later. The master controller 1 causes the oil change time display unit 3 to display the initialization information (oil change completed information, etc.) input from the reset device 5.

The calculation unit 12 calculates the torque for each predetermined time with reference to the engine torque map based on the accelerator opening degree and the engine speed for each predetermined time read from the memory 22. Based on the calculated torque for each predetermined time, the calculation unit 12 calculates the amount of deterioration for each predetermined time with reference to the look-up table, adds the amount of deterioration to the amount of deterioration already calculated, and relates to the torque. Obtain the integrated value of the amount of deterioration.

The integrated value of the deterioration amount for each of the vehicle speed, the mileage, and the oil temperature is obtained in the same manner as the integrated value of the deterioration amount for the torque. For example, in the integrated value of the deterioration amount related to the vehicle speed, the calculation unit 12 calculates the deterioration amount for each predetermined time by referring to the look-up table based on the vehicle speed for each predetermined time read from the memory 22, and the deterioration thereof. The amount is added to the already calculated deterioration amount to obtain the integrated value of the deterioration amount related to the vehicle speed.

The degree of deterioration of oil is evaluated, for example, by the amount of sludge and friction powder mixed in the oil and the oil temperature. The effect on the amount of friction powder mixed is, for example, that the torque is relatively large and the mileage is relatively small. Further, the influence on the oil temperature is, for example, that the torque is relatively large, the vehicle speed, the mileage, the continuous traveling time, and the atmospheric temperature are small.

FIG. 2 is a diagram showing an example of a weighting coefficient for a deteriorated element. FIG. 2 shows a weighting coefficient “1” for torque and oil temperature having a relatively large effect on oil deterioration, and a weighting coefficient “0.2” for relatively small vehicle speed and mileage.

The calculation unit 12 calculates the degree of deterioration using the torque and the weighting coefficient for the deterioration element. Specifically, the calculation unit 12 weights the integrated value of the deterioration amount for each deterioration element of torque, vehicle speed, mileage, and oil temperature with the weighting coefficient shown in FIG. The calculation unit 12 calculates the degree of deterioration of the oil based on the integrated value of the deterioration amount for each weighted deterioration element (for example, based on the value obtained by multiplying the integrated value of each deterioration amount).

The master controller 1 stores the calculated degree of deterioration in the internal memory.

The determination unit 14 compares the degree of deterioration with a predetermined threshold value, and determines whether or not the degree of deterioration is equal to or greater than the predetermined threshold value. The determination unit 14 outputs oil change timing information (oil change required information) that requires oil change when the degree of deterioration is equal to or higher than a predetermined threshold value. Further, the determination unit 14 outputs oil change timing information (remaining mileage information), which is the mileage until the oil change is required when the degree of deterioration is less than a predetermined threshold value.

<Operation of oil change timing determination device>
Next, the operation of the oil change timing determination device will be described. FIG. 3 is a flowchart showing the operation of the oil change timing determination device. This flow is started by starting the engine. Further, the engine control device 2 inputs the accelerator opening degree and the engine speed at predetermined time intervals and stores them in the memory 22. Further, the engine control device 2 inputs the deterioration factors of the vehicle speed, the mileage, and the oil temperature at predetermined time intervals and stores them in the memory 22.

In step S110, the calculation unit 12 calculates the torque of the engine with reference to the engine torque map based on the accelerator opening degree and the engine speed for each predetermined time read from the memory 22.

In step S120, the calculation unit 12 calculates the deterioration amount for each predetermined time based on the calculated torque for each predetermined time and each deterioration factor with reference to the look-up table, and integrates the deterioration amount for each predetermined time. , Obtain the integrated value of the amount of deterioration.

In step S130, the calculation unit 12 weights the integrated value of the torque and the deterioration amount for each deterioration element by using the weighting coefficient shown in FIG. The calculation unit 12 calculates the degree of deterioration of the oil based on the integrated value of each weighted deterioration amount.

In step S140, the determination unit 14 determines whether or not the degree of deterioration is equal to or greater than a predetermined threshold value.

When the degree of deterioration is equal to or higher than a predetermined threshold value (step S140: YES), the master controller 1 causes the oil change time display unit 3 to display the oil change required information (step S150).

When the degree of deterioration is less than a predetermined threshold value (step S140: NO), the master controller 1 causes the oil change time display unit 3 to display the remaining mileage information (step S160).

<Effects of this embodiment>
As described above, the calculation unit 12 calculates the degree of deterioration of the oil based on the engine torque, the vehicle speed, the mileage, and the oil temperature by the oil change timing determination device according to the present embodiment, and the determination unit 14 determines the degree of deterioration of the oil. The oil change time is determined based on the degree of deterioration. As a result, the oil change time can be accurately determined.

Since the oil change timing can be accurately determined, the oil can be changed at the best timing according to the deterioration of the oil. As a result, maintenance costs can be reduced by extending the oil change period for vehicles with mild usage conditions, and gears, bearings, and oil seals can be reduced by early oil change for vehicles with strict usage conditions. It is possible to prevent the failure of parts such as.

In addition, the calculation unit 12 calculates the degree of deterioration of the oil by using the weighting coefficients related to the torque, the vehicle speed, the mileage, and the oil temperature. As a result, the usage conditions of the vehicle are in line with the actual usage conditions, so that the oil change timing can be determined more accurately.

<Modified example of this embodiment>
In the above embodiment, the calculation unit 12 calculates the degree of deterioration of the oil based on the deterioration factors of torque, vehicle speed, mileage, and oil temperature, but the present invention is not limited to this, and the calculation unit 12 is not limited to this. May calculate the degree of deterioration of the oil based on the torque, and the calculation unit 12 calculates the degree of deterioration based on the torque and at least one deterioration factor of the vehicle speed, the mileage and the oil temperature. May be good.

Further, in the above embodiment, the engine control device 2 acquires the oil temperature from the sensor, but the present invention is not limited to this. For example, the engine control device 2 has a torque, a vehicle speed, a continuous running time, and an atmospheric temperature. May be calculated by substituting in a predetermined logical formula. A timer may be used to measure the continuous running time. Further, as the atmospheric temperature sensor, for example, the outside air temperature sensor of the air conditioner may also be used.

The oil change timing determination device of the present disclosure is useful as an engine-equipped vehicle that is required to determine the oil change timing at an appropriate timing.

1 Master controller 2 Engine control device 3 Oil change time display unit 5 Reset device 12 Calculation unit 14 Judgment unit 22 Memory

Claims (4)

The first deterioration amount is weighted by the first weighting coefficient of the first deterioration amount related to the engine torque, and the second deterioration amount is weighted by the second weighting coefficient of the second deterioration amount related to the oil temperature. The weight coefficient of the third deterioration amount is the weight coefficient of the third deterioration amount, which is smaller than the first weight coefficient and the second weight coefficient, and is the weight coefficient of the fourth deterioration amount with respect to the mileage. Therefore, the fourth deterioration amount is weighted by the first weighting coefficient and the fourth weighting coefficient smaller than the second weighting coefficient, and the weighted first deterioration amount, the second deterioration amount, and the third. A calculation unit that calculates the degree of oil deterioration based on the accumulated values of the deterioration amount and the fourth deterioration amount, respectively .
A determination unit that determines the oil replacement time based on the deterioration degree calculated by the calculation unit, and
An oil change timing determination device. The oil change timing determination device according to claim 1 , wherein the oil temperature is determined based on the torque, the vehicle speed, the continuous running time, and the atmospheric temperature. The oil change timing determination device according to claim 1 or 2 , wherein the oil change is displayed when the degree of deterioration is equal to or higher than a predetermined threshold value. The first deterioration amount is weighted by the first weighting coefficient of the first deterioration amount related to the engine torque, and the second deterioration amount is weighted by the second weighting coefficient of the second deterioration amount related to the oil temperature. The weight coefficient of the third deterioration amount is the weight coefficient of the third deterioration amount, which is smaller than the first weight coefficient and the second weight coefficient, and is the weight coefficient of the fourth deterioration amount with respect to the mileage. Therefore, the fourth deterioration amount is weighted by the first weighting coefficient and the fourth weighting coefficient smaller than the second weighting coefficient, and the weighted first deterioration amount, the second deterioration amount, and the third. The degree of deterioration of the oil is calculated based on the integrated value of the deterioration amount and the fourth deterioration amount, respectively .
An oil change timing determination method for determining an oil change timing based on the calculated deterioration degree.

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