The present disclosure relates to a pawl with a pass-through for an anti-theft device in an access door.
Doors are typically used to control access into enclosed structures. A typical motor vehicle has at least one access door. Such a door typically has a latch mechanism for maintaining the door in a locked state until vehicle access into or egress is required. The latch mechanism is typically actuated by an outside door handle to gain access to the interior of the vehicle.
Vehicles may sometimes be subjected to unauthorized entry and theft. To prevent such unauthorized entry while permitting authorized access, on at least some of the vehicle doors the latch mechanism is provided with an externally actuated lock having a key-lock cylinder. Attempts to gain unauthorized entry into the vehicle may include triggering the door latch mechanism by forcibly manipulating and even extracting the key-lock cylinder from the door.
A door for an entryway includes an exterior-facing surface, an inner structure, and a latch mechanism. The latch mechanism is connected to the inner structure, configured to be fastened, such that the door maintains closure of the entryway, and capable of being released, such that the door opens the entryway. The door also includes a key-cylinder accessible from the exterior-facing surface and configured to selectively lock and unlock the latch mechanism. The door additionally includes a pawl fixed to and configured to be rotated by the key-cylinder about the pivot axis, operatively connected to the latch mechanism, and defining a pass-through aperture spaced apart from the pivot axis. The door also includes a shield defining a shield attachment aperture and connected to the inner structure. The door further includes a security fastener configured to fix the shield relative to the key-cylinder at the shield attachment aperture. The security fastener is also configured to extend through the pass-through aperture without impeding rotation of the pawl or contacting the pawl as the pawl operates the latch mechanism.
The security fastener may be configured to transfer the force to the shield during manipulation and limit the key-cylinder extraction when the key-cylinder is forcibly manipulated from the exterior-facing surface.
The door may also include a bracket connected to the inner structure. In such an embodiment, the key-cylinder may includes a housing mounted to the bracket, and the housing may include a boss spaced apart from the pivot axis and configured to accept the security fastener.
The security fastener may be arranged at an angle greater than zero and smaller than 90 degrees relative to the exterior-facing surface.
The key-cylinder may be arranged orthogonal to the exterior-facing surface.
The key-cylinder may be arranged at an angle greater than zero and smaller than 90 degrees relative to the exterior-facing surface.
The door may also include a rod. In such an embodiment, the pawl may include a rod aperture and the pawl may be connected to the latch mechanism via the rod at the rod aperture. Furthermore, in such an embodiment the shield may be configured to prevent access to the rod when the key-cylinder is forcibly manipulated from the exterior-facing surface.
The pawl may be defined by a profile bend arranged between the key-cylinder and the pass-through aperture. In such an embodiment, the profile bend may position the pass-through aperture in a plane perpendicular to the security fastener.
The pass-through aperture may have an oblong shape.
The shield may be formed from a plastic material.
The door may further include a door-release handle arranged on the exterior-facing surface. In such an embodiment, the bracket may be configured to support the door-release handle, the key-cylinder may be housed in the door-release handle, and the key-cylinder may be configured to be activated by a key.
A vehicle having such a door is also disclosed.
The above features and advantages, and other features and advantages of the present disclosure, will be readily apparent from the following detailed description of the embodiment(s) and best mode(s) for carrying out the described disclosure when taken in connection with the accompanying drawings and appended claims.
Referring to the drawings, wherein like reference numbers refer to like components,
The latch mechanism 18 is configured to be released via exterior door-release handle 14, as well as via an interior door-release handle (not shown). The latch mechanism 18 is typically connected to the inner structure 16 via suitable fasteners (not shown), and is configured to be fastened, such that door 10 maintains closure of an entryway into the vehicle. The latch mechanism 18 is also capable of being released by the door-release handle 14 to permit the door 10 to open the entryway. Also connected to the inner structure 16 is a bracket 20. The bracket 20 is arranged substantially parallel to the exterior-facing surface 12 (shown in
As shown in
A key-cylinder 36, a.k.a., key-lock cylinder, is located on the door 10, such that the key-cylinder is accessible from the exterior-facing surface 12. As shown in
A shield 40 is connected to the inner structure 16, such that at least part of the inner structure 16 is disposed between the shield and key-cylinder 36 (as shown in
The key-cylinder 36 includes a housing 36A mounted to the bracket 20. The housing 36A includes a boss 48 spaced apart from the pivot axis X. The boss 48 is configured to accept the security fastener 46, such that the subject fastener is threadably engaged with the boss and thereby becomes fixed relative to the bracket 20. When the shield 40 is connected to the inner structure 16, the upper shield attachment aperture 44 becomes substantially centered relatively to a threaded hole in the boss 48, as permitted by design and manufacturing tolerances of the shield. The security fastener 46 is specifically arranged to extend through the pass-through aperture 32 without impeding rotation of the pawl 24 or contacting the actuating arm 24A of the pawl 24 as the pawl operates the latch mechanism 18. Such a pass-through arrangement of the security fastener 46 with respect to the pawl 24 permits more compact packaging of the bracket 20 and the door handle 14.
In the event of misalignment between the security fastener 46 (when threaded into the boss 48) and the pawl 24, the subject fastener is configured to generate interference with the pawl and restrict lateral movement of the pawl 24 relative to the bracket. In turn, in the event of forcible manipulation of the key-cylinder 36, such restriction of lateral movement of the pawl limits extraction of the key-cylinder 36 and/or prevent unauthorized vehicle entry. Specifically, as shown in
With resumed reference to
As shown in
Although the security fastener 46 does not restrict normal operation of the key-cylinder 36, the subject security fastener does operate to counteract forcible manipulation of the key-cylinder with the intent to gain unauthorized entry into the vehicle. In such a situation, it may be attempted to insert an implement, such as a screwdriver 58 (shown in
During the above-described attempts to gain unauthorized entry into the vehicle via manipulation of the key-cylinder 36 from outside the vehicle, the connection between the security fastener 46 and the shield 40 is intended to limit extraction of the key-cylinder from the door 10. Additionally, if a sufficient amount of force is applied during the above-described attempts to gain unauthorized entry, the resultant pressure generated through the contact 60 between the security fastener 46, and/or the boss 48, and the pawl 24 may separate the pawl from the key-cylinder 36 and the bracket 20. In such a case, the pawl 24 together with the rod 28 will disengage from the key-cylinder 36 and become inoperative. In other words, once the pawl 24 is disconnected from the key-cylinder 36, external manipulation of the key-cylinder will be ineffective in actuating the rod 28 and releasing the latch 18A. The result of such a consequence is that the latch mechanism 18 will remain locked, and unauthorized entry will be thwarted.
The detailed description and the drawings or figures are supportive and descriptive of the disclosure, but the scope of the disclosure is defined solely by the claims. While some of the best modes and other embodiments for carrying out the claimed disclosure have been described in detail, various alternative designs and embodiments exist for practicing the disclosure defined in the appended claims. Furthermore, the embodiments shown in the drawings or the characteristics of various embodiments mentioned in the present description are not necessarily to be understood as embodiments independent of each other. Rather, it is possible that each of the characteristics described in one of the examples of an embodiment may be combined with one or a plurality of other desired characteristics from other embodiments, resulting in other embodiments not described in words or by reference to the drawings. Accordingly, such other embodiments fall within the framework of the scope of the appended claims.