KR20090049492A - Fault diagnosis apparatus for vehicle - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a vehicle troubleshooting device, and obtains a sensor and a failure code data from an on-board diagnosis-II (OBD-II) connector. It is related to a vehicle troubleshooting device.

The vehicle troubleshooting apparatus of the present invention comprises: a connector unit for inputting sensor data and fault code data of a vehicle from a OBD-II (On-Board Diagnosis-II) connector of a vehicle through a data cable; A microprocessor comprising a control unit and a memory unit for calculating and processing data input through the connector unit; A display unit and a voice output unit outputting data calculated and processed by the microprocessor to a screen and a voice; A first serial port connected to a wireless communication module for transmitting data output from the microprocessor and receiving external data; A second serial port connected to an external device for transmitting data output from the microprocessor and receiving external data; And an external memory slot configured to store data output from the microprocessor in an external memory. Characterized in that it comprises a.

Due to the configuration as described above, the vehicle troubleshooting device of the present invention can detect the abnormality of the vehicle at an early stage and prevent expansion to other component failure, thereby reducing the vehicle maintenance cost and notifying the driver of the vehicle status in real time. It is possible to block the risk that may be caused to the driving or the driver of the vehicle in advance.

In addition, there is an advantage that the history management of the vehicle through the external memory or a wireless communication module, etc. is possible, and the fault location of the vehicle can be grasped by simply passing the external memory in the vehicle's maintenance shop, thereby enabling quick maintenance. .

OBD-Ⅱ, trouble diagnosis, wireless communication

Description

Fault Diagnosis Apparatus for Vehicle

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a vehicle troubleshooting device, and obtains a sensor and a failure code data from an on-board diagnosis-II (OBD-II) connector. It is related to a vehicle troubleshooting device.

In light of changes in the current automotive environment, the biggest changes are the rapid electronicization of vehicles, the parts of automobiles for multimedia products, the improvement of vehicle performance and the provision of various contents. Representative examples include small computers that control engines and transmissions, ABS, air bags, etc., and multimedia devices such as MP3 players. The development of these devices has significantly increased the performance and safety of the vehicle, and it is true that the convenience while driving is improved.

However, as a side effect, there are problems such as safety problems due to abnormalities of various electronic control devices, safety driving problems due to operational complexity of multimedia devices generated while driving, and consumer's cost burden for device purchase.

Currently, there are ways to know the malfunction of most general electronic devices attached to the vehicle, but there are few devices that inform the general driver while driving in real time. In addition, although most of the multimedia devices for vehicles are being integrated around navigation, the adoption rate is relatively low compared to the current vehicle penetration rate. This is due to the high price of multimedia devices such as navigation and the limited use place inside the vehicle.

In general, the vehicle diagnosis device is connected to an electronic control device (ECU.hereinafter ECU) of a vehicle that controls all parts of the vehicle such as an automatic transmission control, a drive system, a braking system, and a steering system. Say the device.

In recent years, due to the development of electronic technology, ECUs are installed in vehicles that can easily identify failure parts by attaching various sensors to the vehicle. Therefore, when the vehicle is checked for failure, the vehicle failure diagnosis device is connected to the ECU to check the failure of the vehicle.

Such a conventional vehicle failure diagnosis apparatus has a problem in that it is not possible to know a vehicle's abnormality until it goes to a maintenance shop with a vehicle and decodes the failure code, so that a quick response to the vehicle's abnormality cannot be made. In addition, there was a problem that it is difficult to prevent a safety accident in advance because it can not take prompt measures for various abnormalities occurring during operation.

The present invention has been made to solve the above problems, the problem to be solved by the present invention is not only to inform the presence or absence of the vehicle in real time during the operation of the vehicle, but also useful sensor information to know the current state of the vehicle It aims to output the machine easily for general driver.

In addition, in combination with the wireless communication module to provide a real-time professional response to the abnormalities of the vehicle occurring during operation, and the purpose of receiving real-time road information and various service information necessary for the operation.

The vehicle diagnostic device of the present invention is a vehicle diagnostic device for acquiring each sensor data of a vehicle and outputting the driver data to be recognized by a driver, through a data cable from an on-board diagnosis-II (OBD-II) connector of the vehicle. A connector unit to which sensor data and fault code data of the vehicle are input; A microprocessor comprising a control unit and a memory unit for calculating and processing data input through the connector unit; A display unit and a voice output unit outputting data calculated and processed by the microprocessor to a screen and a voice; A first serial port connected to a wireless communication module for transmitting data output from the microprocessor and receiving external data; A second serial port connected to an external device for transmitting data output from the microprocessor and receiving external data; And an external memory slot configured to store data output from the microprocessor in an external memory. Characterized in that it comprises a.

The vehicle troubleshooting device is characterized in that the data transmission is carried out between the OBD-II connector and the connector of the vehicle via CAN or K-Line.

The memory unit of the microprocessor is characterized by consisting of a volatile memory in which data is temporarily stored and a nonvolatile memory in which a fault code database is stored.

The vehicle failure diagnosis apparatus may further include a GPS module for receiving visual data and position data.

The vehicle troubleshooting device is characterized in that the keypad portion for controlling the vehicle troubleshooting device is further formed.

The wireless communication module is characterized in that the CDMA module, GSM module or wireless LAN module.

The external device is characterized in that the PDA or navigation (Navigation).

The vehicle troubleshooting apparatus is characterized in that the microprocessor calculates and processes the sensor data of the vehicle, which is obtained from the OBD-II connector, and outputs it through the display unit and the audio output unit if there is no input of the malfunction diagnosis button on the keypad unit after the vehicle is started. do.

The sensor data may be tire inflation pressure, transmission oil temperature, engine coolant temperature and battery voltage.

When the vehicle failure code data is inputted from the OBD-II connector after the vehicle is started, the vehicle troubleshooting device compares and calculates the fault code analysis contents, the defect location, and the like by comparing and calculating the data with the fault code database stored in the nonvolatile memory. The countermeasure according to the present invention may be output through a display unit and a voice output unit.

The vehicle failure diagnosis device sets an exchange period of an engine oil, an antibacterial filter, a tire position, a mission oil, a brake, and a timing belt by inputting a keypad, and then outputs it through a display unit and an audio output unit when the exchange period is set. It features.

Due to the configuration as described above, the vehicle troubleshooting device of the present invention can detect the abnormality of the vehicle at an early stage and prevent expansion to other component failure, thereby reducing the vehicle maintenance cost and notifying the driver of the vehicle status in real time. It is possible to block the risk that may be caused to the driving or the driver of the vehicle in advance.

In addition, there is an advantage that the history management of the vehicle through the external memory or a wireless communication module, etc. is possible, and the fault location of the vehicle can be grasped by simply passing the external memory in the vehicle's maintenance shop, thereby enabling quick maintenance. .

Hereinafter, with reference to the accompanying drawings, the vehicle troubleshooting device of the present invention will be described in detail.

1 is a block diagram of a vehicle diagnostic device of the present invention, Figure 2 is a flow chart of the vehicle diagnostic device of the present invention.

As shown in FIG. 1, in the vehicle troubleshooting apparatus of the present invention, the sensor data and the failure code data of the vehicle are inputted from an on-board diagnosis-II (OBD-II) connector 10 of the vehicle through a data cable. A connector portion 21; A microprocessor (20) comprising a control unit (22) and a memory unit (23) for calculating and processing data input through the connector unit (21); A display unit 30 and a voice output unit 40 for outputting data calculated and processed by the microprocessor 20 to a screen and a voice; A first serial port 27 connected to a wireless communication module 60 for transmitting data output from the microprocessor 20 and receiving external data; A second serial port 28 connected to an external device 70 for transmitting data output from the microprocessor 20 and receiving external data; And an external memory slot 26 for storing data output from the microprocessor 20 in an external memory. In addition, the GPS module 29 for receiving visual data, position data and the keypad unit 50 for controlling the vehicle diagnostic device is further formed. In addition, although not shown, a power supply unit (not shown) for receiving power from the battery of the vehicle for operating the vehicle diagnostic device of the present invention is provided.

On-Board Diagnosis (OBD-II) is one of the regulations on automobile emissions in the United States. It is a computer built into the vehicle that diagnoses the emission control parts or systems while the vehicle is in operation. Code that saves the code and turns on the Malfunction Indicator Light (MIL). Existing OBD systems applied for the first time only check the electronic parts and the wiring, so it is not known that the exhaust gas increases due to deterioration of the catalyst or oxygen sensor, abnormal behavior of the sensor or actuator, and also connected to the diagnostic equipment. Since the lighting standards for connectors, fault codes, and warning lights and types of stored information are not standardized, different connectors are required for different vehicles and manufacturers, and various different data for interpreting fault codes are required. Caused.

In order to solve this problem, use the terminology and fault codes of the general-purpose diagnostic equipment connection connector and communication specification electronic control parts as standardized ones, and add the fault determination criteria and the diagnosis requirements for each item to which the emission gas will increase when a fault occurs. The amendment is the OBD-II Act.

Diagnosis items according to OBD-II regulations include catalysts, engine burns, fuel gauges, coolant coolant leaks, evaporative gas leaks, oxygen sensors, EGR, thermostats, positive crankcase ventilation (PCV) valves, and other engine or transmission controls. All sensors and solenoids used for diagnosis are included.

In general, the connector 10 according to the OBD-II law is formed near the bottom of the driver's seat of the vehicle, and the vehicle troubleshooting apparatus of the present invention provides a data cable between the OBD-II connector 10 and the connector portion 21. The data is transferred by using. Transmission of data is via CAN or K-Line using the vehicle diagnostic standard protocol of ISO9141-2 or KWP2000. ISO9141-2 and KWP2000 are standard vehicle diagnosis standards specified by ISO (International Organization for Standardization) and SAE (Society of Automotive Engineers), and CAN (Controller Area Network) is a network communication method that can be used in a small range. The diagnostic communication method is 500Kbps ~ 1Mbps, which is 50 times faster than the existing communication speed. K-Line is a vehicle diagnostic communication line named by OBD and has a speed of 10.4Kbps.

The microprocessor 20 includes a control unit 22 and a memory unit 23. The control unit 22 receives data input through the connector unit 21 or the first and second serial ports 60 and 70. The data is calculated and processed according to a pre-stored program, and the data processed by the controller 22 is temporarily stored in the volatile memory 25 of the memory unit 23 or a file is stored in the nonvolatile memory 24 in which the fault code database is stored. It is stored as to enable the history management of the vehicle based on the file. In addition, the sensor data or the fault code data of the vehicle, which are obtained while the vehicle is stored as a file in the nonvolatile memory 24, are downloaded through an external memory slot 26 or connected to an external device 70 to download a file. It is possible to grasp the information of the sudden vehicle and has the advantage of simplifying the history management of the vehicle.

The external memory slot 26 stores the data processed during the operation of the vehicle troubleshooting device in an external memory such as an SD memory to download the sensor data or the fault code of the vehicle and enable the individual to manage the history through a computer. Just passing an external memory at a maintenance shop can help you quickly identify a fault in your car. In addition, by accessing the corresponding site through a computer to the external memory to download the upgrade data of the vehicle diagnostic device of the present invention may be able to maintain the vehicle diagnostic device up-to-date data.

The vehicle troubleshooting device wirelessly transmits data of the vehicle troubleshooting device through a wireless communication module 60 such as a CDMA, GSM, or wireless LAN module connected to the first serial port 27, and accordingly, a state of the vehicle. It can be transmitted to the outside in real time and when a failure code is transmitted to the outside by using the wireless communication module 60, by receiving a more detailed countermeasures may prevent accidents in advance. In addition, the wireless communication module 60 may be provided to the driver by receiving useful information such as road or weather information from the outside. In addition, by using the wireless communication module 60 to download the internal program or the failure code database of the vehicle failure diagnosis device by wireless may be to upgrade the vehicle failure diagnosis device in real time. In addition, the CDMA and GSM modules may be a general mobile phone.

The vehicle troubleshooting device is utilized as a multimedia device through an external device 70 such as a PDA and a navigation module connected to the second serial port 28 or as a navigation device while driving and outputs a voice when a trouble code occurs. The driver may be informed to the driver through the unit 40 or the display 30, and the second serial port 28 may be connected to a computer to upgrade an internal program or a failure code database of the vehicle diagnosis apparatus.

Only one of the first and second serial ports 27 and 28 may be formed so that the wireless communication module 60 and the external device 70 may be selectively connected using one serial port.

As described above, the vehicle troubleshooting device can be upgraded through various devices connected to the external memory, the first or the second serial port, so that the vehicle troubleshooting device can be kept up to date, and the vehicle failure diagnosis device is installed. If the fault code data is changed by the easy upgrade of the vehicle troubleshooting device has an effect that can be easily used in different vehicles.

In the vehicle diagnosis device, a GPS (Global Positioning System) module 29 is further formed to receive time data and position data from satellites so that the accurate time and current position of the vehicle can be known, and the speed of movement of the vehicle can also be known. Will be.

The display unit 30 outputs the data processed by the microprocessor 20 to the screen, and the display unit 30 consumes less power and has a wider viewing angle so that the passengers of the passenger seat can be recognized. It is recommended to use a Crystal Display, and it is preferable to attach the touchpad to the LCD so that the driver can directly click the LCD screen and select the driver because the driver may operate the keypad 50 while driving. . The voice output unit 40 outputs the data processed by the microprocessor 20 as a voice through a speaker installed in the vehicle diagnostic device, so that the driver can check the state of the vehicle without looking at the screen of the display unit 30. The voice output unit 40 may be provided with a line out terminal or an optical output terminal in addition to a speaker so that the voice output unit 40 may be directly connected to the audio device of the vehicle so that the voice may be output with a better sound quality. .

If the vehicle failure diagnosis apparatus of the present invention is further provided with a starting security module (not shown), and the driver is not an authorized driver, it is possible to prevent the vehicle from being started and prevent theft of the vehicle. The starting security module is electrically connected to the starting system of the vehicle to identify the certified driver through the fingerprint or iris recognition of the driver in the vehicle and to start the vehicle after the authentication is completed to prevent theft of the vehicle. You can do it. In addition to the fingerprint or iris recognition described above, the driver's authentication method may be simply a password input method. For strong security, it is better to use a combination of various types of vehicles. It is desirable to be able to register several drivers for this purpose.

In addition, the rear of the vehicle is equipped with a distance measuring sensor for measuring the distance to the object when reversing the vehicle according to the distance to the object when the vehicle is reversed by varying the height or sound generation period of the sound through the voice output unit 40 It may be further provided with a rear distance sensor (not shown) for notifying or outputting a visually recognizable distance to an object located behind the vehicle through the display unit 30.

In addition, the vehicle is equipped with a driving distance calculation module (not shown) to analyze the driving distance of the vehicle and the received value from the fuel measurement sensor for the first time after the vehicle diagnosis device is first installed in the vehicle, and then the average fuel efficiency and By analyzing fuel efficiency according to ALPM or speed, from the second driving of the vehicle, the driving distance is displayed through the received value of the fuel measuring sensor, and the fuel efficiency is calculated and output in real time according to the driving speed of the vehicle. You can update it continuously so that the driver can be notified via voice or screen to inject fuel if the driver hasn't recharged it.

The starting security module, the rear distance sensor and the driving distance calculation module are optional, so that the purchaser of the vehicle failure diagnosis apparatus can be selectively purchased and mounted according to the cost to reduce the burden on the buyer.

FIG. 2 is a flowchart illustrating an operation of a vehicle diagnostic device during operation of a vehicle. When power of the vehicle diagnostic device is applied, sensor data of the vehicle is displayed in real time from the OBD-II connector 10 in real time. 21) is input to the vehicle troubleshooting device, the driver presses the diagnostic button of the keypad unit 50 to know whether the vehicle is abnormal or not, the control unit 22 of the microprocessor 20 detects this and the OBD-II connector Through 10, various sensors of the vehicle are scanned to detect whether a failure code is output. If the fault code is not outputted, the driver 30 outputs a sound or a screen from the driver through the display unit 30 or the voice output unit 40, and if a fault code is detected, the control unit of the microprocessor 20 ( 22) finds the corresponding fault code in the fault code database stored in the nonvolatile memory 24 and outputs the fault location of the vehicle, the fault contents, and the countermeasures corresponding to the fault through a voice or a screen, and the wireless communication module. Through 60, the fault code data may be transmitted to the vehicle management server to obtain detailed countermeasure information.

When power is supplied to the vehicle troubleshooting device and the driver does not press the diagnostic button on the keypad, the vehicle troubleshooting device may output sensor data of various sensors of the vehicle input from the OBD-II connector 10 in real time to the microprocessor 20. The control unit 22 of the control unit 22 outputs a screen or a voice by calculating and processing the same, and if the sensor value of the vehicle becomes larger than a preset threshold while driving, the driver or the user can pay attention to the warning by the voice or the screen. If a fault code is input while the driver does not press a diagnostic button on the keypad, the controller 22 of the microprocessor 20 searches for a corresponding fault code in the fault code database stored in the nonvolatile memory 24. The location of the defect, the content of the defect, and the countermeasures according to the defect are output through voice or screen. In addition, the fault code data may be transmitted to the vehicle management server through the wireless communication module 60 to obtain detailed countermeasure information.

While driving a general vehicle, sensor data of various sensors of the vehicle input from the OBD-II connector 10 is processed and outputted as a screen or voice for the driver to recognize, and the driver diagnoses the keypad unit 50. If a fault code is entered while the button is pressed or while the vehicle is running, the driver will be notified of the problem.

The sensor data of the vehicle is battery voltage, tire air pressure, transmission oil temperature, engine coolant temperature, etc. It may be changed when applied to the actual product, but if too many sensor values are informed to the driver who is ignorant about the structure of the vehicle, it may cause confusion. Since there is a concern, it is preferable to output only the basic sensor values as described above. In addition, for the driver who wants to know in detail about the sensor data output from the vehicle troubleshooting device may be to selectively output a variety of sensor data by the operation of the keypad unit 50.

In addition, after the driver saves the replacement cycle of each consumable of the vehicle through the operation of the keypad unit 50, when the replacement cycle of each consumable is reached, the driver outputs a screen or voice to the user to reach the end of the life of each consumable. The replacement can be made beforehand so that the operation of the vehicle can not be prevented due to the failure of the consumables while the vehicle is in operation. Each of the consumables includes an engine oil, an antibacterial filter, a tire position, a mission oil, a brake, a timing belt, and the like, but is not limited thereto.

1 is a block diagram of a vehicle diagnostic device of the present invention.

2 is a flow chart of a vehicle troubleshooting device of the present invention.

** Description of the symbols for the main parts of the drawings **

10: OBD-II connector 20: microprocessor

21: connector 22: control unit

23: memory 24: non-volatile memory

25: volatile memory 26: external memory slot

27: first serial port 28: second serial port

29: GPS module 30: display unit

40: voice output unit 50: keypad unit

60: wireless communication module 70: external device

Claims (11)

In the vehicle troubleshooting device for acquiring the sensor data of the vehicle and outputting it for the driver to recognize, A connector portion 21 into which sensor data and fault code data of the vehicle are input from the OBD-II (On-Board Diagnosis-II) connector 10 of the vehicle through a data cable; A microprocessor (20) comprising a control unit (22) and a memory unit (23) for calculating and processing data input through the connector unit (21); A display unit 30 and a voice output unit 40 for outputting data calculated and processed by the microprocessor 20 to a screen and a voice; A first serial port 27 connected to a wireless communication module 60 for transmitting data output from the microprocessor 20 and receiving external data; A second serial port 28 connected to an external device 70 for transmitting data output from the microprocessor 20 and receiving external data; And An external memory slot 26 for storing data output from the microprocessor 20 in an external memory; Vehicle failure diagnosis apparatus comprising a. The method of claim 1, The vehicle troubleshooting device is a vehicle troubleshooting device, characterized in that the transmission of data through the CAN or K-Line between the OBD-II connector 10 and the connector portion 21 of the vehicle. The method of claim 2, The memory unit 23 of the microprocessor 20 comprises a volatile memory 25 in which data is temporarily stored and a nonvolatile memory 24 in which a fault code database is stored. The method of claim 3, wherein The vehicle troubleshooting apparatus further comprises a GPS module (29) for receiving visual data and position data. The method of claim 4, wherein The vehicle diagnostic device is a vehicle diagnostic device, characterized in that the keypad portion 50 for controlling the vehicle diagnostic device further formed. The method of claim 5, wherein The wireless communication module 60 is a vehicle fault diagnosis device, characterized in that the CDMA module, GSM module or wireless LAN module. The method of claim 6, The external device 70 is a vehicle troubleshooting device, characterized in that the PDA or navigation (Navigation). The method of claim 7, wherein The vehicle failure diagnosis device calculates and processes the sensor data of the vehicle obtained from the OBD-II connector 10 by the microprocessor 20 when there is no input of the failure diagnosis button of the keypad 50 after the vehicle starts. 30 and the vehicle diagnostic device characterized in that output through the voice output unit (40). The method of claim 8, And said sensor data are tire air pressure, transmission oil temperature, engine coolant temperature and battery voltage. The method of claim 9, When the vehicle fault diagnosis device receives the fault code data of the vehicle from the OBD-II connector 10 after the vehicle is started, the vehicle fault diagnosis device compares and calculates the fault code analysis data by comparing with the data of the fault code database stored in the nonvolatile memory 24. , The vehicle fault diagnosis device, characterized in that for outputting the fault location and the corresponding measures through the display unit 30 and the audio output unit (40). The method of claim 10, The vehicle failure diagnosis device sets the replacement cycle of the engine oil, the antibacterial filter, the tire position, the mission oil, the brake and the timing belt by the input of the keypad unit 50, and then the display unit and the audio output unit Vehicle failure diagnosis device, characterized in that output through.

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