JP7020383B2 - Parking lock device - Google Patents

Description

The present invention relates to a parking lock device for a vehicle.

Conventionally, a manual release mechanism for a vehicle parking lock device including an outer lever for driving a detent lever shaft and a backup lever provided around the driver's seat for operating the outer lever is known (for example, Patent Document 1). reference). In the manual release mechanism of Patent Document 1, when the parking lock cannot be released by the electric actuator, the parking lock can be released by manually operating the backup lever.

Japanese Unexamined Patent Publication No. 2017-026017

By the way, since the above-mentioned conventional manual release mechanism of Patent Document 1 has restrictions on assembly to a vehicle, the manual release mechanism cannot be mounted on a vehicle for which an assembly space cannot be secured. When a failure occurs in such a vehicle, the parking lock can be released by a work such as removing the electric actuator. However, in a narrow space such as inside a tower parking room where a sufficient work space cannot be secured, the workability may be significantly reduced.

The present invention has been made in view of the above, and an object of the present invention is to provide a parking lock device capable of easily releasing a parking lock without using a manual release mechanism when a failure occurs.

In order to solve the above-mentioned problems and achieve the object, the parking lock device according to the present invention connects an electric actuator capable of switching the parking lock mechanism between a locked state and an unlocked state, and an external tool connected to the electric actuator. A parking lock device comprising a dedicated connector for The parking lock mechanism is switched from a locked state to an unlocked state by being driven in response to a signal input via the connector.

According to the parking lock device according to the present invention, the locked state (parking lock) of the parking lock mechanism can be released by connecting an external tool to the dedicated connector. Therefore, even when there is no signal due to a failure of the electronic control device and the electric actuator is not driven, the parking lock can be released without using the manual release mechanism. Since it is not necessary to secure a work space for releasing the parking lock, it is possible to prevent deterioration of workability.

FIG. 1 is a schematic configuration diagram showing a parking lock device according to an embodiment of the present invention. FIG. 2 is a connector signal arrangement diagram, where (1) is connector 1 and (2) is connector 2. FIG. 3 is a flowchart of parking lock release when an external tool is connected. FIG. 4 is a timing chart for accepting a parking lock request.

Hereinafter, embodiments of the parking lock device according to the present invention will be described in detail with reference to the drawings. The present invention is not limited to this embodiment.

As shown in FIG. 1, the parking lock device 10 according to the embodiment of the present invention is from a parking lock request receiving unit 12 for receiving an operation of a parking lock operating means mounted on a vehicle and a parking lock request receiving unit 12. It includes a drive command unit 16 that drives the electric actuator 14 based on the parking lock request signal.

The parking lock request receiving unit 12 can be configured by, for example, an electronic control device built in the shift assembly. The drive command unit 16 can be configured by, for example, an electronic control device built in the SBW-ACT / ECU. As a communication method between the parking lock request receiving unit 12 and the drive command unit 16, for example, CAN (Controller Area Network) communication or the like can be adopted. CAN is a registered trademark.

The electric actuator 14 is driven based on the P switching command signal transmitted from the drive command unit 16 to switch the parking lock mechanism (not shown) between the locked state and the unlocked state. The electric actuator 14 can switch the parking lock mechanism from the locked state to the unlocked state based on the parking lock release command (P switching command signal) from the drive command unit 16 (parking lock release).

The drive command unit 16 includes a plurality of connectors, one of which is a dedicated connector 20 for connecting an external tool 18. The drive command unit 16 can receive drive command signals (for example, EPBT signal, BUB1 signal, MA2 signal) transmitted from the external tool 18 via the dedicated connector 20. Further, the drive command unit 16 has a function of receiving power supply from the external tool 18, and does not receive the drive command signal when a tool other than the external tool 18 is connected. Further, the drive command unit 16 can receive a predetermined signal (for example, IG * signal, BAT1 signal, MA1 signal) transmitted from the vehicle power supply 22, and WAKE transmitted from the parking lock request reception unit 12. The signal can be received.

The drive command unit 16 has a function of determining the OFF state of the vehicle power supply 22 and the connection state of the external tool 18. Specifically, the drive command unit 16 is in the case where all of the WAKE signal from the parking lock request reception unit 12 and the predetermined signal (for example, IG * signal, BAT1 signal, MA1 signal) from the vehicle power supply 22 are OFF. In addition, it is determined that the vehicle power supply 22 is in the OFF state.

On the other hand, the drive command unit 16 is external when the vehicle power supply 22 is determined to be OFF and all the drive command signals (for example, EPBT signal, BUB1 signal, MA2 signal) from the external tool 18 are ON. It is determined that the tool 18 is normally connected to the dedicated connector 20. Further, the drive command unit 16 has a parking lock among the drive command signals from the external tool 18 only when it is determined that the external tool 18 is normally connected to the dedicated connector 20 while the vehicle power supply 22 is OFF. Accepts the release request signal, otherwise rejects the parking lock release request signal. When the parking lock release request signal is received, the drive command unit 16 executes the parking lock release command and releases the parking lock by driving the electric actuator 14. By doing so, it is possible to make it impossible to release the parking lock via a connector other than the dedicated connector 20.

FIG. 2 is an example of the signal arrangement of the connector provided in the drive command unit 16, where (1) is the connector 1 and (2) is the connector 2. In the connector 1 corresponding to the dedicated connector 20, terminals for parking lock release request signals required when connecting the external tool 18 are collectively arranged. In normal use, there are two connectors (connector 1 and connector 2) connected to the drive command unit 16, but when connecting the external tool 18, only one system (connector 1) is connected, and the external tool 18 is used. Parking lock release is possible.

In this way, it is possible to simplify the external tool 18 and reduce the cost by using only one dedicated connector 20 for connecting the external tool 18. Also, by using a connection method different from that during normal use, if a user who does not know the correct usage method tries to unlock the parking lock, it will be used illegally by replacing the two connectors as it is, as in normal use. Can be suppressed.

According to the parking lock device 10 of the present embodiment, the parking lock can be released by connecting the external tool 18 to the dedicated connector 20. Therefore, even when there is no signal due to a vehicle failure and the electric actuator 14 is not driven, the parking lock can be released without using the manual release mechanism. This makes it possible to move the failed vehicle from the location where the failure occurred to any location.

Further, since it is not necessary to secure a work space for releasing the parking lock, it is possible to prevent deterioration of workability. Further, if the connection to the dedicated connector 20 and the predetermined operation procedure cannot be confirmed, the parking lock release request is not accepted, so that malfunction and irregular operation can be prevented.

In the above embodiment, the drive command unit 16 executes parking lock release only when the parking lock release request signal when the external tool 18 is connected is received twice in succession, and in other cases, parking is performed. You may not perform unlocking.

FIG. 3 shows a parking lock release flowchart in this case. As shown in this figure, first, in step S1, the drive command unit 16 determines whether or not the vehicle power supply 22 is in the OFF state. As a result, if it is determined that the vehicle power supply 22 is in the OFF state (YES in step S1), the process proceeds to step S2. On the other hand, if the vehicle power supply 22 is not in the OFF state (NO in step S1), the process is returned.

Next, in step S2, the drive command unit 16 determines whether or not the external tool 18 is normally connected to the dedicated connector 20. As a result, if it is determined that the connector is normally connected to the dedicated connector 20 (YES in step S2), the process proceeds to step S3. On the other hand, if it is not normally connected to the dedicated connector 20 (NO in step S2), the process is returned.

Next, in step S3, the drive command unit 16 determines whether or not the parking lock release request signal connected to the external tool 18 has been received twice in succession. For example, when the drive command unit 16 receives the parking lock release request signal for the first time from the external tool 18, a flag is set (parking lock release request flag ON), and then the drive command unit 16 sets the parking lock for the second time from the external tool 18. When the release request signal is received, the flag is set twice in succession (parking lock release request twice in succession flag is ON). As a result, if it is determined that the flag is ON twice (YES in step S3), the process proceeds to step S4 and the parking lock release command is executed. On the other hand, if it is determined that the two-time continuous flag is not ON (NO in step S3), the process proceeds to step S5, and the two-time continuous flag of the parking lock release request is set from OFF to ON and returned.

FIG. 4 is a timing chart for accepting a parking lock request. As shown in this figure, the drive command unit 16 executes the parking lock release command only when all of the EPBT signal, the BUBl signal, the MA2 signal, and the parking lock release request flag transmitted from the external tool 18 are ON. It will be.

By doing so, even if a signal equivalent to the parking lock release request signal when the external tool 18 is connected is accidentally input to the drive command unit 16 due to the influence of radio wave noise, the parking lock release is performed twice in a row. Unless it can be determined that the request signal has been received, the parking lock release command is not executed. This makes it possible to take measures against radio wave noise.

10 Parking lock device 12 Parking lock request reception unit 14 Electric actuator 16 Drive command unit 18 External tool 20 Dedicated connector 22 Vehicle power supply

Claims (1)

A parking lock device provided with an electric actuator capable of switching the parking lock mechanism between a locked state and an unlocked state, and a dedicated connector for connecting an external tool to the electric actuator.
The dedicated connector has a signal terminal for inputting a signal from the external tool, and the electric actuator is driven in response to a signal input from the external tool via the dedicated connector to obtain the above-mentioned electric actuator. A parking lock device characterized by switching the parking lock mechanism from a locked state to an unlocked state.

Images