KR20210081117A - Method and apparatus for diagnosing error of variable capacity oil pump - Google Patents

Abstract

The present invention relates to a technology for diagnosing whether an oil passage is clogged or leaked. According to the introduced method and apparatus for diagnosing abnormalities of a variable oil pump system, it is determined whether or not an electrical failure of a sensor for detecting an oil state is performed. Then, when the sensor is diagnosed as normal, it is determined whether a current oil pressure is included in an oil pressure range which can be generated based on a current driving state of a vehicle. If the current oil pressure is out of the oil pressure range, it is diagnosed as an abnormal condition of an oil flow path, and the above phenomenon is warned.

Description

Method and apparatus for diagnosing abnormality of variable oil pump system {METHOD AND APPARATUS FOR DIAGNOSING ERROR OF VARIABLE CAPACITY OIL PUMP}

The present invention relates to an abnormality diagnosis method and apparatus for a variable oil pump system for diagnosing whether an oil flow path is abnormal by determining whether a value detected by sensors of the oil pump system is a reasonably effective value.

The variable oil pump is mounted on the engine to control the discharge flow rate of the engine oil pump according to the driving conditions of the vehicle, thereby reducing power loss due to pump driving and improving fuel efficiency.

When a failure of the oil temperature sensor or the oil pressure sensor occurs in the oil pump system, the feedback control is performed using the modeling value or the value secured by calculation, thereby supplying oil according to the vehicle state.

However, this is a control method that can respond when there is an erroneous detection of a sensing value due to an electrical failure in related sensors such as an oil temperature sensor or an oil pressure sensor. Even if an abnormality such as a blockage or a leak occurs in the flow path, there is a problem in that it cannot be accurately diagnosed because the sensors are normally operated.

The matters described as the background art above are only for improving the understanding of the background of the present invention, and should not be taken as acknowledging that they correspond to the prior art already known to those of ordinary skill in the art.

KR 10-1990982 B1

The present invention has been devised in order to solve the above-described problems, and diagnoses abnormalities in a variable oil pump system that diagnoses abnormalities in the oil flow path by determining whether the sensing values detected by the sensors of the oil pump system are reasonably effective values. To provide a method and apparatus.

The configuration of the present invention for achieving the above object, the controller, the failure determination step of determining whether the electrical failure of the sensor for detecting the state of the oil; a pressure diagnosis step of determining, by the controller, whether a current oil pressure is included in an oil pressure range that can be generated based on a current driving state of the vehicle when the sensor diagnoses the sensor as normal; and, when the current oil pressure is out of the oil pressure range, the controller diagnoses it as an abnormal condition of the oil flow path, and an abnormal diagnosis step of warning this.

The sensor for detecting the state of the oil may be an oil temperature sensor and an oil pressure sensor.

The oil pressure range may be determined by the engine speed and the oil temperature.

In the abnormal diagnosis step, when the current oil pressure exceeds the maximum threshold value of the oil pressure range, it is determined that the oil passage is blocked in the oil passage block state; When the current oil pressure is less than the minimum threshold value of the oil pressure range, it may be determined as an oil leak state in which oil leakage occurs in the oil passage.

applying the duty value of the oil pump solenoid valve to the minimum oil pressure in the case of the flow block state; The degree of clogging of the oil passage may be diagnosed based on the oil pressure value detected according to the duty control.

When the oil pressure value exceeds the maximum threshold value, it is diagnosed as a large oil passage block state in which the oil passage is relatively clogged, and warns this; When the oil pressure value is less than or equal to the maximum threshold value, a small flow path block state in which the oil flow path is relatively small may be diagnosed, and this may be warned.

In the case of the flow leakage state, the duty value of the oil pump solenoid valve is applied as a duty value for maximizing the oil pressure; The degree of leakage in the oil passage may be diagnosed based on the oil pressure value detected according to the duty control.

When the oil pressure value is less than the minimum threshold value, the oil passage is diagnosed as a large oil leakage state in which a relatively large amount of oil leaks, and warns this; When the oil pressure value is greater than or equal to the minimum threshold value, a small oil leakage state in which oil is leaked relatively little in the oil passage may be diagnosed, and this may be warned.

The configuration of the present invention, the sensor failure determination unit for determining whether the electrical failure of the sensor for detecting the state of the oil; a pressure diagnosis unit configured to determine whether a current oil pressure is included in an oil pressure range that can be generated based on a current driving state of the vehicle when the sensor is diagnosed as normal; When the current oil pressure is out of the oil pressure range, an abnormality diagnosis unit for diagnosing an abnormal condition of the oil flow path and controlling to warn it; may be characterized in that it includes.

Through the above-described problem solving means, the present invention diagnoses an abnormal situation in which the oil flow path is blocked or a leak occurs when the oil pressure is out of the set oil pressure range while the oil pressure sensor and the oil temperature sensor are operating normally. By doing so, there is an advantage in that it is possible to minimize adverse effects on the engine by supplying oil suitable for the driving condition of the vehicle.

1 is a block diagram showing an electrical connection structure for diagnosing an abnormality in a variable oil pump system according to the present invention.
Figure 2 is a block diagram showing an oil flow path of the variable oil pump system of the present invention.
3 is a flowchart showing the overall control flow of the abnormal diagnosis method for a variable oil pump system according to the present invention.
4 is a view for explaining the relationship between the duty value of the oil pump solenoid valve and the oil pressure and the oil pressure range according to the present invention.

A preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings as follows.

1 is a block diagram showing an electrical connection structure for diagnosing an abnormality of a variable oil pump system of the present invention, and FIG. 2 is a block diagram showing an oil flow path of the variable oil pump system of the present invention. The abnormality diagnosis device of , includes a sensor failure determining unit 12 , a pressure diagnosis unit 14 , and an abnormality diagnosis unit 16 .

1 and 2 , first, the sensor failure determining unit 12 receives a signal from a sensor that detects an oil state, and determines whether the sensors are electrical failures.

The sensor for detecting the oil state may be an oil pressure sensor 20 and an oil temperature sensor 30 related to the variable oil pump 1 system. In the case of the oil pressure sensor 20 , the sensing value When it is included within this normal pressure range, it can be diagnosed as electrically operating normally, and in the case of the oil temperature sensor 30, when the sensing value is included within the normal temperature range, it can be diagnosed as electrically operating normally. .

When the sensor failure determining unit 12 diagnoses the sensors as normal, the pressure diagnosis unit 14 determines whether the current oil pressure is included in the oil pressure range that can be generated based on the current driving state of the vehicle.

For example, the oil pressure range may be determined by the engine speed and the oil temperature detected by the oil temperature sensor 30 .

When the current oil pressure is out of the oil pressure range, the abnormality diagnosis unit 16 diagnoses an abnormal condition of the oil passage and controls it to warn.

That is, although the oil pressure sensor 20 and the oil temperature sensor 30 are operating normally, when the current oil pressure is detected as abnormally high or low, it is not known whether this value is a reasonably effective normal pressure value. .

Accordingly, in the present invention, when the oil pressure is out of the set oil pressure range, it is possible to diagnose an abnormal situation in which the oil passage is blocked or a leak occurs, and to warn the driver. to minimize the adverse effect on the engine.

For reference, the sensor failure determining unit 12, the pressure diagnosis unit 14, and the abnormality diagnosis unit 16 are implemented in the form of individual chips, or a controller 10 that forms a single chip by integrating their functions. It may be included in the configuration.

That is, the controller 10 according to the exemplary embodiment of the present invention is a non-volatile memory (not shown) configured to store data regarding an algorithm configured to control the operation of various components of the vehicle or software instructions for reproducing the algorithm. ) and a processor (not shown) configured to perform operations described below using data stored in the corresponding memory. Here, the memory and the processor may be implemented as separate chips. Alternatively, the memory and processor may be implemented as a single chip integrated with each other. A processor may take the form of one or more processors.

On the other hand, FIG. 3 shows a method for diagnosing an abnormality of the variable oil pump 1 system according to the present invention. Referring to the drawings, first, in the failure determination step, the controller 10 detects the oil state. Determine whether the sensor has an electrical failure.

In the pressure diagnosis step, when the controller 10 diagnoses the sensor as normal, it is determined whether the current oil pressure is included in the oil pressure range that can be generated based on the current driving state of the vehicle.

In the abnormal diagnosis step, when the current oil pressure is out of the oil pressure range, the controller 10 diagnoses an abnormal condition of the oil passage and warns it.

Here, the oil pressure range may be determined by the relationship between the engine speed and the oil temperature.

4 exemplarily shows the oil pressure generated when the duty value of the oil pump solenoid valve 40, which will be described later, is controlled to 0 to 100% for each engine speed and oil temperature, through which the vehicle's operating area (engine) rotation speed/oil temperature) can secure the oil pressure range that can be created.

That is, when the oil pressure is smaller than the minimum value or higher than the maximum value of the oil pressure range in the corresponding operation area, it can be diagnosed that the oil passage is clogged or leaking.

For reference, the oil pump solenoid valve 40 of the present invention proportionally controls the discharge flow rate of the variable oil pump 1 to reduce unnecessary power loss. The higher the control, the lower the oil pressure.

That is, the duty value and the oil pressure are in inverse proportion. For example, when the control of the oil pump solenoid valve 40 is not possible, the duty value becomes 0% to maintain the oil pressure high (fail safety).

Meanwhile, referring to FIG. 3 , in the abnormal diagnosis step, when the current oil pressure exceeds the maximum threshold value of the oil pressure range, it is determined that the oil passage is blocked in the oil passage block state.

On the other hand, when the current oil pressure is less than the minimum threshold of the oil pressure range, it is determined as an oil leak state in which oil leakage occurs in the oil passage.

That is, when the current oil pressure exceeds the maximum value of the oil pressure range and is detected abnormally high, it is determined that the oil flow path is blocked, and when the current oil pressure does not reach the minimum value of the oil pressure range and is detected abnormally low, the oil It is judged that there is an oil leak in the euro.

In addition, in the case of the flow path block state, the degree of clogging of the oil flow path may be classified, and the driver may be alerted by classifying it according to the degree of blockage.

Referring to FIG. 3 , in the case of the flow block state, the duty value of the oil pump solenoid valve 40 is applied as a duty value to minimize the oil pressure, and based on the oil pressure value detected according to the duty control Diagnose the degree of clogging of the oil path.

Specifically, when the oil pressure value exceeds a maximum threshold, it is possible to diagnose a large oil passage block state in which the oil passage is relatively clogged, and warn this.

On the other hand, when the oil pressure value is less than or equal to a maximum threshold, a small flow path block state in which the oil flow path is relatively small may be diagnosed, and this may be warned.

For example, when diagnosing the large euro block state, a corresponding warning lamp flashes on the display unit of the cluster 50, etc. to give a warning, and when diagnosing the small euro block state, the warning lamp can only be turned on to warn the cluster 50.

In other words, when diagnosing the large euro block, the warning light flashes to inform the driver that there is a serious blockage in the oil path and warns the driver to repair it as quickly as possible. to indicate that repairs are required.

In addition, even in the case of the oil leak state, it is possible to classify the degree of oil leakage of the oil leak, classify it according to the degree of oil leakage, and warn the driver.

Referring to the drawings, in the case of the flow leakage state, the duty value of the oil pump solenoid valve 40 is applied as a duty value to maximize the oil pressure, and based on the oil pressure value detected according to the duty control, the oil The level of leakage in the euro is diagnosed.

Specifically, when the oil pressure value is less than a minimum threshold value, the oil passage may be diagnosed as a large oil leakage state in which a relatively large amount of oil is leaked, and this may be warned.

On the other hand, when the oil pressure value is greater than or equal to a minimum threshold, a small oil leakage state in which a relatively small amount of oil leaks in the oil passage may be diagnosed, and this may be warned.

For example, when diagnosing the large euro leak state, the cluster 50 may be alerted by flashing the corresponding warning lamp, and when diagnosing the small euro leak state, the cluster 50 may be alerted by only turning on the corresponding warning lamp.

In other words, when diagnosing a large oil leak, the warning light flashes to inform the driver that there is a serious leak in the oil passage and to make repairs as quickly as possible. It may indicate that repairs are required.

On the other hand, referring to FIGS. 1 and 3 , looking at the error diagnosis process of the variable oil pump 1 system according to the present invention as a whole, first, the sensing value detected by the oil temperature sensor 30 or the oil pressure sensor 20 is The input is received and based on the input sensing value, it is determined whether the electrical failure of these sensors is present.

For example, it is determined whether the sensing voltage detected by the oil pressure sensor 20 is within a normal pressure range (S10). Here, although not described in the drawings, it may be further determined whether the sensing temperature detected by the oil temperature sensor 30 is included in the normal temperature range.

Accordingly, as a result of the determination of S10, when the sensing voltage is included in the normal pressure range, the oil pressure sensor 20 is diagnosed as a normal state (S20).

On the other hand, when the sensing voltage is greater or less than the normal pressure range, the oil pressure sensor 20 is diagnosed as a failure state (S30). Accordingly, when diagnosing a failure of the oil pressure sensor 20, a warning lamp is turned on to inform the driver that there is a failure.

Meanwhile, when the oil pressure sensor 20 is diagnosed as normal in S20, it is determined whether the current oil pressure is outside the oil pressure range determined by the engine rotation speed and the oil temperature (S40, S50).

Accordingly, as a result of the determination of S40 and S50, if the current oil pressure is greater than the maximum threshold of the oil pressure range, it is determined that the oil passage is blocked in the oil passage block state (S60).

Next, a duty value of 100% is applied to the oil pump solenoid valve 40 to compare the current oil pressure and a maximum threshold pressure (S70).

As a result of comparison in S70, even though the duty value was applied to the oil pump solenoid valve 40 as 100% and controlled to be the minimum oil pressure, if the current oil pressure is greater than the maximum threshold, the oil passage is severely clogged. It is determined to be in the large Euroblock state (S80), and a warning light is flashed to warn the driver of this (S90).

On the other hand, when a duty value of 100% is applied to the oil pump solenoid valve 40 to control the minimum oil pressure, if the current oil pressure is detected to be below the maximum threshold, the clogging of the oil passage is relatively It is determined that the small euro block state is not severe (S100), and a warning lamp is turned on to warn the driver of this (S110).

On the other hand, when the current oil pressure is less than the minimum threshold value of the oil pressure range as a result of the determination in S40 and S50, it is determined that the oil passage is a leak in the oil passage (S120).

Next, a duty value of 0% is applied to the oil pump solenoid valve 40 to compare the current oil pressure and a minimum threshold pressure (S130).

As a result of comparison in S130, although the duty value is applied to the oil pump solenoid valve 40 as 0% to control the maximum oil pressure, if the current oil pressure is less than the minimum threshold, the leakage of the oil passage It is determined as a serious large leakage state (S140), and the warning light is flashed to warn the driver of this (S90).

On the other hand, when the duty value of 0% is applied to the oil pump solenoid valve 40 to control the maximum oil pressure, if the current oil pressure is detected to be greater than the minimum threshold, the leakage of the oil passage is relatively It is determined that the small euro leak is not severe (S150), and a warning lamp is turned on to warn the driver of this (S110).

As described above, in the present invention, when the oil pressure is out of the set oil pressure range while the oil pressure sensor 20 and the oil temperature sensor 30 are operating normally, the oil flow path is blocked or a leak occurs. By diagnosing, it is possible to minimize adverse effects on the engine by supplying oil suitable for the driving condition of the vehicle.

On the other hand, although the present invention has been described in detail only with respect to the specific examples described above, it is obvious to those skilled in the art that various modifications and variations are possible within the scope of the technical spirit of the present invention, and it is natural that such variations and modifications belong to the appended claims. .

1: Variable oil pump
10: controller
12: sensor failure judgment part
14: pressure diagnosis unit
16: abnormal diagnosis unit
20: oil pressure sensor
30: oil temperature sensor
40: oil pump solenoid valve
50 : cluster

Claims (9)

a failure determination step in which the controller determines whether an electrical failure of a sensor for detecting a state of oil is present;
a pressure diagnosis step of determining, by the controller, whether a current oil pressure is included in an oil pressure range that can be generated based on a current driving state of the vehicle when the sensor diagnoses the sensor as normal; and
An abnormality diagnosis method of a variable oil pump system comprising: a controller, when the current oil pressure is out of the oil pressure range, diagnosing an abnormal condition of the oil flow path, and warning this. The method according to claim 1,
The sensor for detecting the oil state is an oil temperature sensor and an oil pressure sensor. The method according to claim 1,
The oil pressure range is an abnormality diagnosis method of a variable oil pump system, characterized in that it is determined by the engine speed and the oil temperature. The method according to claim 1,
In the abnormal diagnosis step,
when the current oil pressure exceeds the maximum threshold value of the oil pressure range, it is determined that the oil flow path is blocked as a flow path block;
When the current oil pressure is less than the minimum threshold value of the oil pressure range, the error diagnosis method of the variable oil pump system, characterized in that it is determined as an oil leak state in which oil leakage occurs in the oil passage. 5. The method according to claim 4,
applying the duty value of the oil pump solenoid valve to the minimum oil pressure in the case of the flow block state;
The method for diagnosing an abnormality of a variable oil pump system, characterized in that the degree of clogging of the oil passage is diagnosed based on the oil pressure value detected according to the duty control. 6. The method of claim 5,
When the oil pressure value exceeds the maximum threshold value, it is diagnosed as a large oil passage block state in which the oil passage is relatively clogged, and warns this;
When the oil pressure value is less than the maximum critical value, it is diagnosed as a small flow path block state in which the oil flow path is relatively small, and a warning is issued. 5. The method according to claim 4,
In the case of the flow leakage state, the duty value of the oil pump solenoid valve is applied as a duty value for maximizing the oil pressure;
A method for diagnosing an abnormality in a variable oil pump system, characterized in that the degree of leakage in the oil passage is diagnosed based on the oil pressure value detected according to the duty control. 8. The method of claim 7,
When the oil pressure value is less than the minimum threshold value, the oil passage is diagnosed as a large oil leakage state in which a relatively large amount of oil leaks, and warns this;
When the oil pressure value is greater than or equal to a minimum critical value, a small oil leakage state in which relatively little oil is leaked in the oil passage is diagnosed and a warning is issued. A sensor failure determination unit for determining whether an electrical failure of the sensor for detecting the oil state;
a pressure diagnosis unit configured to determine whether a current oil pressure is included in an oil pressure range that can be generated based on a current driving state of the vehicle when the sensor is diagnosed as normal;
When the current oil pressure is out of the oil pressure range, an abnormality diagnosis unit for diagnosing an abnormal condition of the oil flow path and controlling it to warn the abnormality diagnosis device for a variable oil pump system comprising a.

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