The subject matter disclosed herein relates to head restraints and, more particularly, to a ratcheting vehicle head restraint assembly.
Many vehicles, such as automobiles, include a headrest or head restraint atop an occupant's seat and in a position adjacent the occupant's head. Head restraints are typically cushioned for comfort, are height adjustable, and most are commonly finished in the same material as the rest of the seat. When travelling in an automobile, a properly adjusted headrest can reduce the risk of injury in the event of a collision. Unfortunately, adjustment of head restraints is often cumbersome and potentially discouraging for an occupant to make the proper adjustment.
According to one aspect of the invention, a head restraint assembly includes a base including a cross member. Also included is a head restraint having a housing. Further included is an internal cavity at least partially defined by the housing. Yet further included is a lock mechanism assembly disposed within the internal cavity, the lock mechanism assembly comprising a first lock member and a second lock member, the first lock member including a plurality of teeth and the second lock member including a single lock tooth, wherein the plurality of teeth and the single lock tooth are engageable with each other and selectively rotatable with respect to each other in a first direction and a second direction. Also included is a frame having a first leg and a second leg, the first lock member and the second lock member disposed proximate an inner edge of one of the first leg and the second leg. Further included is an actuator arm engaged with the second lock member, actuation of the actuator arm required to selectively permit rotation of the second lock member relative to the first lock member in the second direction by biasing the plurality of teeth and the single lock tooth out of engagement, wherein disengagement of the plurality of teeth and the single lock tooth is not required to rotate in the first direction.
According to another aspect of the invention, a head restraint assembly includes a base including a cross member. Also included is a head restraint having a housing. Further included is an internal cavity at least partially defined by the housing. Yet further included is a lock mechanism assembly disposed within the internal cavity, the lock mechanism assembly comprising a first lock member and a second lock member, the first lock member including a plurality of teeth and the second lock member including a single lock tooth, wherein the plurality of teeth and the single lock tooth are engageable with each other. Also included is an actuator arm engaged with the second lock member, actuation of the actuator arm required to selectively permit rotation of the second lock member relative to the first lock member in the second direction by biasing the plurality of teeth and the single lock tooth out of engagement, wherein disengagement of the plurality of teeth and the single lock tooth is not required to rotate in the first direction. Further included is a torsion spring coiled around the cross member of the base and engaged with the lock mechanism assembly to bias the head restraint in the second direction.
The subject matter, which is regarded as the invention, is particularly pointed out and distinctly claimed in the claims at the conclusion of the specification. The foregoing and other features, and advantages of the invention are apparent from the following detailed description taken in conjunction with the accompanying drawings in which:
The detailed description explains embodiments of the invention, together with advantages and features, by way of example with reference to the drawings.
Referring to
Referring to
As shown in at least
The housing 44 is comprised of a shell 48. In some embodiments, the shell 48 is a one-piece structure. The shell 48 at least partially defines the internal cavity 12 therebetween, as referred to above. The shell 48 may be formed of numerous contemplated materials. In one embodiment, the shell 48 is formed of plastic. Two apertures are defined by the cover 41 and/or the shell 48 and are each configured to receive one of segments 30, 32. The segments 30, 32 of the base portion extend through a respective one of the apertures to enter the internal cavity 12. Segment 34 extends through respective apertures partially defined by retaining components 80 fixed to the housing 44, as described in detail below. The retaining components 80 may be fixed to the shell 48, as illustrated. Irrespective of the precise structural arrangement of the retaining components 80 and the cross member portion 26, the retaining components 80 permit rotational movement of the shell 48 relative to axis A1 of segment 34.
Referring to
The locking mechanism assembly 100 includes a first lock member 104 (which may be referred to as a “lock plate” or “lower lock ratchet”) and a second lock member 108 (which may be referred to as a “lock lever” or “upper lock ratchet”). The first lock member 104 defines a plurality of teeth 112. The second lock member 108 defines a single lock tooth 116.
As described above, the first lock member 104 is rotatably mounted with respect to segment 34 of the cross member portion 26, such that the first lock member 104 is selectively rotatable about axis A1. More specifically, the first lock member 104 defines a circular hole 130 (
The lock members 104, 108 are arranged such that, when the head restraint 40, including housing 44, is rotated in a forward direction 138 about axis A1 relative to the base portion 14, the second lock member 108 slides across the first lock member 104, and, more specifically, the single lock tooth 116 slides across the plurality of teeth 112. The teeth 112, 116 are not self-locking in the forward direction 138 (
The teeth 112, 116 are self-locking in the rearward rotational direction 142 about axis A1. That is, a force exerted on the head restraint 40 urging the head restraint to rotate in the rearward direction 142 about axis A1 will not result in rotation of the head restraint 40 because the teeth 112, 116 will be locked and prevent such movement. However, as noted above, when a force is exerted on the head restraint 40 urging the head restraint 40 to rotate about axis A1 in the first rotational direction 138, tooth 116 will slide across teeth 112, thereby permitting the head restraint 40 to rotate in the forward direction 138.
Referring to
Leg 92 terminates at a first end region 96 and leg 94 terminates at a second end region 98. Each end region 96, 98 is inserted into a gap 91 of the retaining components 80. The frame 90 and the retaining components 80 are illustrated in a pre-assembled condition in
At least one torsion spring 174 is wrapped around the cross member portion 26 and operatively coupled to the lock mechanism 100 to maintain a rearward bias on the head restraint 40; that is, the springs 174 urge the head restraint 40 in the rearward rotational direction 142. In the illustrated embodiment, a single spring 174 is included. A single spring may be employed based on locating the locking members 104, 108 and, more particularly the first locking member 104, at a location of cross member segment 34 that is at an inner surface of the frame 90, as discussed below.
The frame 90 also defines a pin receiving aperture 99 in each downwardly extending leg 92, 94. A pin 162 extends through the apertures 99 and through a hole in the second lock member 108, thereby providing an axis for the second lock member 108 to rotate about for disengagement from the first lock member 104. Additionally, a forward stop pin 170 is operatively coupled to the first lock member 104. The forward stop pin 170 extends through an aperture of the first lock member 104 and through a slot 171 (
As best shown in
The connector 186 is also coupled to, or integrally formed with, a second linkage member 190. The second linkage member 190 includes a first segment 192 and a second segment 194. The first segment 192 is coupled to the connector 186 and is oriented substantially vertically in a relatively parallel manner with the first linkage member 180. The second segment 194 extends substantially horizontally from the first segment 192. The actuator arm 178 is selectively manipulated between a locked position and an unlocked position to impart movement of the second lock member 108, thereby locking and unlocking the lock mechanism assembly 100.
The actuator arm 178 is biased toward the locked position due to a torsion spring 196 that is coupled to the connector 186. In the locked position, the second lock member 108 freely rests in a position that maintains engagement of the teeth 112 and 116. When the actuator arm 178 is in the unlocked position, the first linkage member 180 urges the second lock member 108 to rotate about the pin 162 such that tooth 116 are not in contact with teeth 112. Thus, when the actuator arm 178 is in the unlocked position, the teeth 112, 116 do not interfere with the rotation of the head restraint 40 about axis A1 in either the forward or rearward directions 138, 142.
As noted above, the first lock member 104 and the second lock member 108 are disposed in close proximity to an inner edge of one of the downwardly extending legs 92 or 94 of the frame 90. In some embodiments, the lock members 104, 108 are in abutment with the inner edge of the frame 90. Although the lock members 104, 108 are shown in close proximity with the inner edge of leg 94, it is to be appreciated that the lock members may alternatively be in close proximity with leg 92. Location proximate an edge of the frame 90 allows the use of a single spring 174.
The head restraint 40 includes a push button 204 that is accessible to a user outside of the cover(s) of the head restraint 40. The button 204 is operatively coupled to a push rod 208 that is in contact with the second segment 194 of the second linkage member 194 of the actuator arm 178. When the button 204 is depressed, it moves the push rod 208 against the actuator arm 178 such that the actuator arm 178 overcomes the bias of the spring 196 and moves to the unlocked position. Once the button 204 is released, the spring 196 returns the actuator arm 178 to the locked position. As described above, the actuator arm 178 may be configured to flex slightly during actuation of the actuator arm 178 with the button 204. In particular, one or more regions therealong that facilitate a desired amount of flexing are present. A living hinge or other flexible member is included at each location that is configured to flex.
Accordingly, during normal operation of the head restraint 40, with the button 204 released, a vehicle user may adjust the position of the head restraint 40 by rotating the head restraint about axis A1 in the forward direction 138; the head restraint 40 will remain in whatever position it is in when the user stops rotating the head restraint because the springs 174 will urge the head restraint 40 in the rearward direction 142, whereas the teeth 112, 116 will prevent rearward movement of the head restraint. The teeth 112, 116 provide incremental detents when the head restraint 40 is rotatably adjusted forward or rearward about axis A1. To move the head restraint rearward, the vehicle user may push the button 204, thereby removing the contact between teeth 112, 116, and the springs 174 will return the head restraint 40 to its fully upright position.
While the invention has been described in detail in connection with only a limited number of embodiments, it should be readily understood that the invention is not limited to such disclosed embodiments. Rather, the invention can be modified to incorporate any number of variations, alterations, substitutions or equivalent arrangements not heretofore described, but which are commensurate with the spirit and scope of the invention. Additionally, while various embodiments of the invention have been described, it is to be understood that aspects of the invention may include only some of the described embodiments. Accordingly, the invention is not to be seen as limited by the foregoing description, but is only limited by the scope of the appended claims.
This patent application claims priority to U.S. Provisional Application No. 62/263,226, filed Dec. 4, 2015, which is incorporated herein by reference in its entirety.
Number | Date | Country | |
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62263226 | Dec 2015 | US |