LIMP-HOME DRIVING METHOD DURING BREAKDOWN OF PARKING SWITCH FOR VEHICLE

Abstract

A limp-home driving method at the time of a breakdown of a parking switch for a vehicle includes a first step of diagnosing a breakdown of a plurality of air parking switches provided in a hybrid vehicle by connecting the air parking switches to a hybrid control unit (HCU) and a transmission control unit (TCU), respectively, through parking wires, and connecting the HCU and the TCU with each other by controller area network (CAN) communication, a second step of informing a driver of a breakdown state at the time of confirming the breakdown of the air parking switches in the first step, and a third step of limiting an output of the vehicle and performing a limp-home function in a state in which an ISG (Idle Stop and Go) control is stopped, after the second step.

Claims

1. A limp-home driving method at the time of a breakdown of a parking switch for a vehicle, comprising: a first step of diagnosing a breakdown of a plurality of air parking switches provided in a hybrid vehicle by connecting the air parking switches to a hybrid control unit (HCU) and a transmission control unit (TCU), respectively, through parking wires, and connecting the HCU and the TCU with each other by controller area network (CAN) communication; a second step of informing a driver of a breakdown state at the time of confirming the breakdown of the air parking switches in the first step; and a third step of limiting an output of the vehicle and performing a limp-home function in a state in which an ISG (Idle Stop and Go) control is stopped, after the second step.

2. The limp-home driving method at the time of a breakdown of a parking switch for a vehicle according to claim 1, wherein the TCU includes a gradient sensor for determining a gradient of a road on which the vehicle is positioned.

3. The limp-home driving method at the time of a breakdown of a parking switch for a vehicle according to claim 2, wherein the first step includes: a 1-1-th step of deciding whether or not a vehicle speed is 0 Km/h or less and whether a revolution per minute (RPM) is 200 or less; and a 1-2-th step of deciding whether or not the gradient of the road is lower than a set value of a capacity of an anti-lock brake system (ABS) provided in the vehicle and whether an air amount of the air parking switches exceeds 50% when conditions are satisfied in the 1-1-th step.

4. The limp-home driving method at the time of a breakdown of a parking switch for a vehicle according to claim 3, wherein when conditions are satisfied in the 1-2-th step, a process proceeds to the first step to diagnose the breakdown of the air parking switches, and when the conditions are not satisfied in the 1-2-th step, the process returns to the 1-1-th step.

5. The limp-home driving method at the time of a breakdown of a parking switch for a vehicle according to claim 3, wherein when the conditions are not satisfied in the 1-1-th step, the process proceeds to a 1-3-th step of deciding whether or not the CAN communication with the parking wires is normal.

6. The limp-home driving method at the time of a breakdown of a parking switch for a vehicle according to claim 5, wherein when it is decided that the CAN communication is normal in the 1-3-th step, the process proceeds to a 1-4-th step of deciding whether or not a foot brake displacement is less than 0%, whether an auxiliary brake switch is turned off, and whether a vehicle deceleration exceeds 0.15 G.

7. The limp-home driving method at the time of a breakdown of a parking switch for a vehicle according to claim 6, wherein when conditions are satisfied in the 1-4-th step, the process proceeds to a 1-4-1-th step of deciding that the driver actually has operated a parking brake, and ends a logic.

8. The limp-home driving method at the time of a breakdown of a parking switch for a vehicle according to claim 6, wherein when conditions are not satisfied in the 1-4-th step, the process proceeds to a 1-5-th step of deciding whether or not the parking wires are normal and whether the CAN communication is abnormal.

9. The limp-home driving method at the time of a breakdown of a parking switch for a vehicle according to claim 8, wherein when conditions are not satisfied in the 1-5-th step, the process proceeds to a 1-6-th step of deciding whether or not the parking wires are abnormal and whether the CAN communication is normal.

10. The limp-home driving method at the time of a breakdown of a parking switch for a vehicle according to claim 9, wherein when conditions are satisfied in the 1-5-th step and the 1-6-th step, the process proceeds to a 1-7-th step of deciding whether the air parking switches are abnormal.

11. The limp-home driving method at the time of a breakdown of a parking switch for a vehicle according to claim 10, wherein the process proceeds to a 1-8-th step of diagnosing a short-circuit of the air parking switches and proceeds to the third step after the 1-7-th step.

12. The limp-home driving method at the time of a breakdown of a parking switch for a vehicle according to claim 9, wherein when conditions are not satisfied in the 1-6-th step, the process returns to the 1-1-th step.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0021] The above and other objects, features and advantages of the present disclosure will be more apparent from the following detailed description taken in conjunction with the accompanying drawings.

[0022] FIG. 1 is a view illustrating a parking switch for a vehicle according to the related art.

[0023] FIG. 2 is a structural view illustrating connection and controller area network (CAN) communication interworking states between an air parking switch, a hybrid control unit (HCU), and a transmission control unit (TCU) applied to a limp-home driving method at the time of a breakdown of a parking switch for a vehicle according to an exemplary embodiment of the present disclosure.

[0024] FIG. 3 is a flow chart illustrating a limp-home driving method at the time of a breakdown of a parking switch for a vehicle according to an exemplary embodiment of the present disclosure.

DETAILED DESCRIPTION

[0025] Exemplary embodiments of the present disclosure will be described in detail with reference to the accompanying drawings.

[0026] A limp-home driving method at a time of a breakdown of a parking switch for a vehicle according to an exemplary embodiment of the present disclosure may include a first step (S10) of diagnosing a breakdown of air parking switches 1 and 2, a second step (S20) of informing a driver of a breakdown state at the time of confirming the breakdown, and a third step (S30) of performing a limp-home function, as illustrated in FIGS. 2 and 3.

[0027] In the first step (S10), the breakdown of the air parking switches 1 and 2 may be diagnosed.

[0028] Here, the breakdown of a plurality of air parking switches 1 and 2 provided in a hybrid vehicle may be diagnosed by connecting the air parking switches 1 and 2 to a hybrid control unit (HCU) 3 and a transmission control unit (TCU) 4, respectively, through parking wires, and connecting the HCU 3 and the TCU 4 with each other by controller area network (CAN) communication, as illustrated in FIG. 2.

[0029] In addition, the TCU 4 may include a gradient sensor 5 in order to figure out a gradient of a road on which the vehicle is positioned.

[0030] As illustrated in FIG. 3, the first step (S10) may include a 1-1-th step (S11) of deciding whether or not a vehicle speed is 0 Km/h or less and whether a revolution per minute (RPM) is 200 or less and a 1-2-th step (S12) of deciding whether or not a gradient of the road is lower than a set value (5%) of a capacity of an anti-lock brake system (ABS) provided in the vehicle and whether an air amount of the air parking switches 1 and 2 exceeds 50% when conditions are satisfied in the 1-1-th step (S11).

[0031] Here, when conditions are satisfied in the 1-2-th step (S12), a process may proceed to the first step (S10) to diagnose the breakdown of the air parking switches 1 and 2, and when the conditions are not satisfied in the 1-2-th step (S12), the process may return to the 1-1-th step (S11).

[0032] The second step (S20) may be a step of informing the driver of a breakdown state at the time of confirming the breakdown of the air parking switches 1 and 2 in the first step (S10).

[0033] Here, a warning lamp of the HCU 3 on an instrument panel may be used or a separate character or voice notification may be used in order to inform the driver of the breakdown state.

[0034] The third step (S30) may be a step of limiting an output of the vehicle and performing the limp-home function in a state in which an ISG (Idle Stop and Go) control is stopped to enable minimum driving, after the second step (S20).

[0035] Meanwhile, when the conditions are not satisfied in the 1-1-th step (S11), which may be a breakdown diagnosing step, the process may proceed to a 1-3-th step (S13) of deciding whether or not the CAN communication with the parking wires is normal.

[0036] Here, when it is decided that the CAN communication is normal in the 1-3-th step (S13), the process may proceed to a 1-4-th step (S14) of deciding whether or not foot brake displacement is less than 0%, whether an auxiliary brake switch is turned off, and whether a vehicle deceleration exceeds 0.15 G.

[0037] When conditions are satisfied in the 1-4-th step (S14), the process may proceed to a 1-4-1-th step of deciding that the driver actually has operated a parking brake, and ends a logic.

[0038] In addition, when the conditions are not satisfied in the 1-4-th step (S14), the process may proceed to a 1-5-th step (S15) of deciding whether or not the parking wires are normal and whether the CAN communication is abnormal, and when conditions are not satisfied in the 1-5-th step (S15), the process may proceed to a 1-6-th step (S16) of deciding whether or not the parking wires are abnormal and whether the CAN communication is normal.

[0039] Here, when conditions are satisfied in the 1-5-th step (S15) and the 1-6-th step (S16), the process may proceed to a 1-7-th step (S17) of deciding that the air parking switches 1 and 2 are abnormal.

[0040] When it is decided that the air parking switches 1 and are abnormal in the 1-7-th step (S17), the process may proceed to a 1-8-th step (S18) of diagnosing a short-circuit of the air parking switches 1 and 2 and enabling the limp-home driving through connection to the third step (S30).

[0041] Here, when the conditions are not satisfied in the 1-6-th step (S16), the process may return to the 1-1-th step (S11).

[0042] As described above, the limp-home driving method at the time of a breakdown of a parking switch for a vehicle according to an exemplary embodiment of the present disclosure may include the first step (S10) of diagnosing the breakdown of the plurality of air parking switches 1 and 2 provided in the hybrid vehicle by connecting the air parking switches 1 and 2 to the HCU 3 and the TCU 4, respectively, through the parking wires, and connecting the HCU 3 and the TCU 4 with each other by the CAN communication, the second step (S20) of informing the driver of the breakdown state at the time of confirming the breakdown of the air parking switches 1 and 2 in the first step (S10), and the third step (S30) of limiting the output of the vehicle and performing the limp-home function in a state in which the ISG control is stopped, after the second step (S20).

[0043] As described above, according to the exemplary embodiment of the present disclosure, a problem that the vehicle may not move in the case in which a situation that is not parking is erroneously recognized as a parking situation due to the short-circuit of the air parking switches 1 and 2 is solved, and a malfunction generated at the time of a breakdown of connectors or switches of the air parking switches 1 and 2 is prevented, and a breakdown mode problem is solved by complementing a logic without adding hardware, thereby making it possible to improve marketability and convenience.

[0044] Hereinabove, although the present disclosure has been described with reference to exemplary embodiments and the accompanying drawings, the present disclosure is not limited thereto, but may be variously modified and altered by those skilled in the art to which the present disclosure pertains without departing from the spirit and scope of the present disclosure claimed in the following claims.