This disclosure relates to a vehicle door lock device.
For example, in JP 2014-062441 A, a vehicle door lock device is described. The vehicle door lock device includes a cam mechanism (a latch mechanism and a lock mechanism) including, for example, a latch, a pole, a lift lever, an open link, an open lever, and an active lever. Operation elements (such as a door handle and a door lock knob) are provided to a door of a vehicle. Each of the operation elements is connected to the cam mechanism of the vehicle door lock device through a cable (coupling member). When each of the operation elements is operated, the operating force is transmitted to the cam mechanism through the cable.
The vehicle door lock device includes a housing configured to accommodate the above-mentioned cam mechanism. The housing includes a case and a cover (see
The above-mentioned cable (coupling member) includes a tubular outer cable, and a wire-like inner cable inserted through the outer cable. An end portion of the outer cable is locked to a locking portion formed in the opening portion, and an end portion of the inner cable is mounted to the cam mechanism. For example, one end portion of the inner cable is connected to the open lever of the cam mechanism, and another end portion thereof is connected to the door handle. When the door handle is pulled under a state in which the vehicle door is closed, the open lever is pulled by the inner cable in a predetermined direction to pivot. In this manner, for example, the lift lever, the pole, and the latch pivot in predetermined directions, and retention of the door by the latch is cancelled. As a result, the vehicle door can be opened.
For example, in some cases, at the time of collision of the vehicle, a door panel of the vehicle door is deformed and slightly dented toward the vehicle interior side, and the cable is pressed by the door panel toward the vehicle interior side. Then, the cable presses the cover toward the vehicle interior side. As a result, the cover may be opened as illustrated in
A need thus exists for a vehicle door lock device which is not susceptible to the drawback mentioned above.
In order to achieve the above-mentioned object, according to at least one embodiment of the present disclosure, there is provided a vehicle door lock device (1), including: a housing (20) including: a case (21) having an opening portion (OP); and a cover (22), which is mounted to the case so as to be openable and closable, and is configured to cover the opening portion; a cam mechanism (10), which is accommodated in the housing, and is supported on the case; and a bracket (23, 23A, 23B) configured to restrain a coupling member which is locked to a locking portion (EP1) formed on the housing, and is configured to connect the cam mechanism and an operation element (DH) provided to a door (FD) of a vehicle from being released from the locking portion when the coupling member connected to the cam mechanism in the opening portion is pressed toward the cover side.
According to at least one embodiment of the present disclosure, even when the vehicle door is deformed to press the coupling member, the bracket restrains the coupling member from being released from the locking portion. Therefore, such a situation that the cam mechanism is pulled by the coupling member accidentally does not occur. Accordingly, even when the vehicle door is deformed, the vehicle door can be prevented from being opened accidentally.
Now, description is made of a vehicle door lock device 1 according to an embodiment of the present disclosure. For example, as illustrated in
The vehicle door lock device 1 is arranged between an inner panel P1 (vehicle-interior-side panel) and an outer panel P2 (vehicle-exterior-side panel) of the front door FD.
As illustrated in
The cam mechanism 10 has a configuration similar to that of a cam mechanism of a well-known vehicle door lock device. In the following, the latch mechanism and the lock mechanism forming the cam mechanism 10 are briefly described. The latch mechanism includes, for example, a latch, a pole, and a lift lever similar to those of the well-known vehicle door lock device. The latch mechanism is configured to keep the front door FD in a closed state through engagement with a striker mounted to a peripheral edge portion of the doorway of the vehicle body.
The latch is a substantially disk-shaped member supported so as to be pivotable about a shaft member extending in a front-and-rear direction of the vehicle. The latch has a cutout portion extending from an outer peripheral surface of the latch toward an inner side. When a pivot position of the latch is at an unlatched position, the front door FD is in a state in which an opening operation thereof is allowed. When the front door FD is closed from this state, the latch receives the striker in the cutout portion, and pivots in a predetermined direction. Then, the pole is engaged with the latch, thereby keeping the front door FD in the closed state. That is, the pole keeps the pivot position of the latch at a latched position (a state in which the opening operation of the vehicle door is not allowed). The pole is engaged with the lift lever. The lift lever is engaged with an open lever through an open link. Further, the open lever and a door handle DH (see
The lock mechanism is configured to switch states of the vehicle door lock device 1 between an unlocked state, in which the latch mechanism and the striker are disengageable, and a locked state, in which the latch mechanism and the striker are not disengageable. The lock mechanism includes an active lever.
The active lever is supported so as to be pivotable about a shaft member extending in a right-and-left direction of the vehicle. The active lever and an operation element for locking and unlocking (such as a door lock knob KN (see
With regard to more specific configurations of the latch mechanism and the lock mechanism described above, for example, a latch unit and an actuator unit disclosed in JP 2017-95954 A are referred.
Next, description is made of a configuration of the housing 20. The housing 20 is made of a synthetic resin. As illustrated in
An opening portion OP is formed at a lower end portion of the second case 212 and in a side surface portion of the second case 212 on a left side (vehicle-interior-side) (see
The cover 22 is made of a synthetic resin. A hinge portion 221 is formed at a lower end portion of the cover 22, and the cover 22 is hinged to the lower end portion of the second case 212 (see
As illustrated in
The cable C1 includes an outer cable C11 and an inner cable C12. The outer cable C11 is a tubular member made of a synthetic resin. The inner cable C12 is a wire made of a metal, and is inserted through the outer cable C11. Both end portions of the inner cable C12 protrude outward from both end portions of the outer cable C11, respectively. A holder HP1 is mounted to one end portion (end portion on the vehicle door lock device 1 side) of the outer cable C11. The holder HP1 is a substantially cylindrical member made of a metal, and covers the one end portion of the outer cable C11. A groove G1 is formed in a peripheral surface portion of a distal end portion of the holder HP1 to extend along a circumferential direction of the holder HP1.
As illustrated in
Further, a coupler LP1 is mounted to one end portion of the inner cable C12. The coupler LP1 is connected to the open lever. A cutout portion CP3 corresponding to the cable C1 is formed in a peripheral wall portion 212a of the second case 212. The cable C1 is pulled out of the housing 20 through the cutout portion CP3 (see
A configuration and a mounting mode of the cable C2 are the same as those of the cable C1. That is, the cable C2 includes an outer cable C21 and an inner cable C22. A locking portion EP2 corresponding to the cable C2 is formed in the opening portion OP. A configuration of the locking portion EP2 is the same as that of the locking portion EP1. The locking portion EP2 is located below the locking portion EP1. A groove G2 of a holder HP2 provided at one end portion (end portion on the vehicle door lock device 1 side) of the outer cable C21 is inserted and fitted in a cutout portion CP2 of the locking portion EP2. In this manner, the one end portion of the outer cable C21 is locked to the second case 212.
Further, a coupler LP2 provided at one end portion of the inner cable C22 is connected to the active lever. A cutout portion CP4 corresponding to the cable C2 is formed in a peripheral wall portion 212a of the second case 212 (see
Under the state in which the cable C1 and the cable C2 are respectively mounted to the open lever and the active lever as described above, the cover 22 is closed. Under the state in which the cover 22 is closed, the holder HP1 and the holder HP2 cannot be respectively released from the locking portion EP1 and the locking portion EP2 to the left side. As illustrated in
The bracket 23 is formed by bending a metal plate. As illustrated in
Plate-shaped reinforcement portions 231a and 231b are formed at a left end portion of the first wall portion 231. The reinforcement portions 231a and 231b protrude in a width direction of the first wall portion 231. The reinforcement portion 231a protrudes toward the cable C1 side, and the reinforcement portion 231b protrudes toward the cable C2 side (see
A boss nut BN and guide walls GW1, GW2, and GW3 (a guide portion of the present disclosure) are formed on a side surface portion of the cover 22 on the left side (vehicle interior side) and at the vicinities of the outlets for the cables C1 and C2. Ribs RB1, RB2, RB3, and RB4 are formed on an outer peripheral portion of the boss nut BN (see
The guide walls GW1, GW2, and GW3 are wall portions perpendicular to the side surface portion of the cover 22. The guide walls GW1, GW2, and GW3 function as positioning members for the second wall portion 232. The guide wall GW1 regulates a position of a distal end surface of the second wall portion 232. The guide walls GW2 and GW3 regulate positions of side end surfaces of the second wall portion 232. That is, the guide wall GW1, the guide wall GW2, and the guide wall GW3 are arranged so as to surround the boss nut BN from three directions.
The bracket 23 is inserted between the cable C1 and the cable C2, and the bracket 23 is slid along the cable C1 and the cable C2 to the second case 212 side. Then, the second case 212 and the cover 22 are inserted between the second wall portion 232 and the third wall portion 233. At this time, the second wall portion 232 is slid along the top surface TS of the rib RB1, and is inserted into a space surrounded by the guide walls GW1, GW2, and GW3 (see
For example, when an outer panel OP of the front door FD is deformed and slightly dented toward the vehicle interior side at the time of collision of the vehicle, the cable C1 and the cable C2 are pressed by the outer panel OP toward the vehicle interior side. Then, the cable C1 and the cable C2 press the cover 22 toward the vehicle interior side (in a direction of opening the cover 22). As described above, in this embodiment, the second case 212 and the cover 22 are sandwiched between the second wall portion 232 and the third wall portion 233 of the bracket 23, and hence the operation of opening the cover 22 is regulated. That is, the closed state of the cover 22 is kept.
Here, assuming that the reinforcement portion 231a and the reinforcement portion 231b are not formed, when the cable C1 and the cable C2 are pressed toward the vehicle interior side, the cable C1 and the cable C2 are brought into abutment against the cover 22. In this case, an end portion of the cover 22 brought into abutment against the cable C1 and the cable C2 may be deformed or broken. In this embodiment, when the cable C1 and the cable C2 are pressed toward the vehicle interior side, the cable C1 and the cable C2 are brought into abutment against the reinforcement portion 231a and the reinforcement portion 231b of the metal bracket 23. In this manner, deformation or breakage of the end portion of the cover 22 described above is suppressed.
As described above, a vehicle door lock device (1), including: a housing (20) including: a case (21) having an opening portion (OP); and a cover (22), which is mounted to the case so as to be openable and closable, and is configured to cover the opening portion; a cam mechanism (10), which is accommodated in the housing, and is supported on the case; and a bracket (23, 23A, 23B) configured to restrain a coupling member (C1), which is locked to a locking portion (EP1) formed on the housing, and is configured to connect the cam mechanism and an operation element (DH) provided to a door (FD) of a vehicle from being released from the locking portion when the coupling member connected to the cam mechanism in the opening portion is pressed toward the cover side.
The bracket (23, 23A) includes a pair of sandwiching portions (232 and 233) opposed to each other, and that the case and the cover be inserted between the pair of sandwiching portions.
Further, one (232) of the pair of sandwiching portions on the cover side have a through-hole (TH), and the bracket be fixed to the cover by a fastening member (S) inserted in the through-hole, and that the cover include a guide portion (GW1, GW2, and GW3) configured to determine a position of the bracket through abutment against the bracket, and to prevent the bracket from being rotated about the fastening member.
According to this embodiment, the operation of opening the cover 22 is regulated by the bracket 23, and deformation or breakage of the end portion of the cover 22 is suppressed. Therefore, the holder HP1 of the cable C1 and the holder HP2 of the cable C2 are prevented from being released from the locking portion EP1 and the locking portion EP2, respectively. Thus, even when the outer panel OP of the front door FD is deformed and dented toward the vehicle interior side, the front door FD can be prevented from being opened accidentally.
Further, when carrying out the present disclosure, the present disclosure is not limited to the above-mentioned embodiment, and various modifications may be made without departing from the object of the present disclosure.
The above-mentioned embodiment is an example carried out as the vehicle door lock device 1 applied to the front door FD of the vehicle, but the present disclosure can be carried out as a vehicle door lock device applied to another door (such as a rear door (see
Further, when the cover 22 has relatively high rigidity and there is no fear of deformation or breakage of the cover 22 described above, there may be adopted a bracket 23A from which the reinforcement portion 231a and the reinforcement portion 231b of the bracket 23 are omitted (see
Further, in place of the bracket 23, a bracket 23B as illustrated in
As described above, the bracket (23B) is arranged in the opening portion, and be fixed to the case under a state of sandwiching the coupling member (C1) together with the case.
Therefore, the holder HP1 of the cable C1 and the holder HP2 of the cable C2 are prevented from being released from the locking portion EP1 and the locking portion EP2, respectively. Thus, even when the front door FD is deformed, the front door FD can be prevented from being opened accidentally.
Number | Date | Country | Kind |
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JP2018-187253 | Oct 2018 | JP | national |
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Entry |
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Office Action dated Dec. 17, 2019, by the Japanese Patent Office in corresponding Japanese Patent Application No. 2018-187253, and a partial English Translation of the Office Action. (4 pages). |
Number | Date | Country | |
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20200102770 A1 | Apr 2020 | US |