The present invention relates to a hinge. More specifically, the present application provides illustrated embodiments of the present invention, including those relating to a hinge for use, for example, in a motor vehicle.
One example of a prior art mechanism for maintaining a trunk lid in an open position includes a gas spring, as disclosed in U.S. Pat. No. 6,520,557 to Benthaus et al., which is incorporated herein in its entirety by reference thereto.
One aspect of the invention relates to a hinge for use in a motor vehicle, including a first member; a second member pivotably coupled to the first member so that the second member may pivot vertically with respect to the first member such that the second member may pivot upwardly in an opening direction, which is away from the first member and towards an open position, and downwardly in a closing direction, which is away from the open position and towards the first member; and first and second position retainers coupled between the first member and the second member to releasably secure the second member in a first holding position relative to the first member, the first position retainer having a first holding portion and the second position retainer having a second holding portion, one of the first and second position retainers being structured and arranged to move relative to the other of the first and second position retainers such that the first and second holding portions releasably engage one another in a first holding position of the second member, the first and second holding portions being structured and arranged to be releasably secured to each other in the first holding position.
Another aspect of the invention relates to a hinge for use in a motor vehicle, including a first member; a second member pivotably coupled to the first member so that the second member may pivot with respect to the first member; and first and second position retainers coupled between the first member and the second member to releasably secure the second member in a first holding position relative to the first member, the first position retainer having a first holding portion and the second position retainer having a second holding portion, one of the first and second position retainers being structured and arranged to move relative to the other of the first and second position retainers such that the first and second holding portions releasably engage one another in a first holding position of the second member, the first and second holding portions being structured and arranged to be releasably secured to each other in the first holding position, one of the first and second holding portions including a pivot part that pivots with respect to the first and second members and a resilient part that releasably engages the other of the first and second holding portions to releasably secure the first and second holding portions in the first holding position.
Another aspect of the invention relates to a hinge for use in a motor vehicle, including a first member; a second member pivotably coupled to the first member so that the second member may pivot with respect to the first member; a third member pivotably coupled to each of the first and second members; and first and second position retainers coupled between the first member and the second member to releasably secure the second member in a first holding position relative to the first member, one of the first and second position retainers being attached to the third member, the first position retainer having a first holding portion and the second position retainer having a second holding portion, one of the first and second position retainers being structured and arranged to move relative to the other of the first and second position retainers such that the first and second holding portions releasably engage one another in a first holding position of the second member, the first and second holding portions being structured and arranged to be releasably secured to each other in the first holding position.
Yet another aspect of the subject invention relates to a hinge assembly for a motor vehicle, including a first member coupled to a first part of a motor vehicle; a second member coupled to an access panel of a motor vehicle and pivotably coupled to the first member so that the access panel of the motor vehicle may pivot upwardly with respect to the first part of the motor vehicle into an open position; and first and second position retainers coupled between the first member and the second member to releasably secure the second part of the motor vehicle in a first holding position relative to the first part of the motor vehicle, the first position retainer having a first holding portion and the second position retainer having a second holding portion, one of the first and second position retainers being structured and arranged to move relative to the other of the first and second position retainers such that the first and second holding portions releasably engage one another in a first holding position of the second member, the first and second holding portions being structured and arranged to be releasably secured to each other in the first holding position.
Other aspects, features, and advantages of this invention will become apparent from the following detailed description when taken in conjunction with the accompanying drawings, which are a part of this disclosure and which illustrate, by way of example, the principles of this invention.
The accompanying drawings facilitate an understanding of the various embodiments of this invention. In such drawings:
a is a bottom view of the hinge of
b is an exploded, partial side view of the connection of the resilient link to the linkage and to the check link in the closed position;
c illustrates a cross-sectional view taken through line 4c-4c in
Although the hinge 12 can take various forms, in the illustrated embodiment of
Third member 18 is shown as a third link that extends between the first and second links 14 and 16 and is pivoted at one end to first link 14 via pivot coupling 60 and pivoted at its other end to second link 16 via pivot coupling 62. Fourth member 20 is shown as a fourth link that extends between the first and second links 14 and 16 and is pivoted at one end to first link 14 via pivot coupling 70 and pivoted at its other end to link 16 via pivot coupling 72. The pivot couplings 60, 62, 70, and 72 may be any appropriate couplings that provide appropriate fastening while providing the necessary pivoting between the members 14, 16, 18, and 20, for example, the pivoting pins may be employed.
Thus, links 14, 16, 18, and 20 form a hinge linkage 80 that permits the second vehicle part 32 to pivot with respect to the first vehicle part 30. Although links 14, 16, 18, and 20 are each illustrated as a unitary element, each link may be formed as a combination of any number of elements. Also, links 14, 16, 18, and 20 may be formed of any appropriate material, including metal. Additionally, although the links 14, 16, 18, 20 illustrated in
Coupled within the hinge 12 is a position retainer assembly 100 that permits the pivoting part 32 to maintain at least one open position so that the pivoting part 32 will remain spaced from the first part 30 at a predetermined pivot location. Position retainer assembly 100 also permits the pivoting part 32 to move out of an open position so that the pivoting part 32 may be moved to another open position or to the closed position. That is, the position retainer assembly 100 operates to maintain the hinge 10 in the open position shown, e.g.,
The position retainer assembly 100 can take various forms. The position retainer assembly 100 illustrated in
As illustrated, the resilient link 22 may be formed as a leaf spring attached to the support 102 at each of the two legs 106. Support 102 may be a spring pivot bracket and be generally U-shaped in cross-section with two flanges 120 that extend from a base 121. Each of the flanges 120 correspond to a respective leg 106 of the support 102 so that the flanges 120 and the legs 106 may be connected together. The flanges 120 and legs 106 may be connected in a variety of ways, including by fasteners 122, so that the link 22 and the support 102 are rigidly connected together and move as one member. When the resilient link 22 and the support 102 are joined, the separation between the base 121 and the arm form a passageway 124, through which the check link 24 may pass as described herein and as seen in
Although the resilient link 22 and the support 102 are illustrated as two separate members that are fastened together, they could also be made of additional members, or as a unitary member. The support 102 is pivotably coupled to the third link 18 in any appropriate manner, such as by a pivot pin 104, as illustrated, so that the resilient link 22 and the support 102 may pivot about the pin 104 and pivot relative to the third link 18.
The second position retainer, illustrated as check link 24, is formed to move relative to the resilient link 22 and provide one or more holding portions 28 that releasably engage with the resilient link 22. As seen in the figures, including in
The hinge assembly 12 will now be described with respect to its use with in connection with a motor vehicle hood or trunk lid. In use, the hinge assembly 10 may start in the closed position as illustrated in
In the instance of the hinge assembly 10 used with a hood or lid, if it was desired to access the area beneath the hood or lid 32, the hood or lid would be raised in the opening direction 148 and the links 16, 18 and 20 of linkage 80 would begin movement relative to each other and to link 14. Also, the check link 24 would begin moving through the passageway 124 as the recess 28 moves closer to the catch 26. With respect to
As the hood or lid 32 continues to be opened in the opening direction 148, the links 16, 18, and 20 of linkage 80 continue to pivot relative to each other, and the resilient link 22 and the check link 24 continue to move relative to each other as the catch 26 continues to move along the sloped surface 140 toward the recess 28. While the catch 26 progresses up the sloped surface 140, the arm 108 of the resilient link 22 is gradually deflected from its position when the hinge 12 is in the closed position. Thus, the arm 108 will gradually increase its force against the check link 24 as the catch 24 progresses up the sloped surface. Thus, the force necessary to open the hood or lid will gradually increase. The additional force necessary to move the catch 26 up the slope may be minimal and not significantly felt by the user while opening the hood or lid 32. However, the additional force may be designed to be discernable by the user opening the hood or lid 32 so that the user is aware that the first holding position is approaching.
As seen in
Upon further upward movement of the hood or lid 32 in the opening direction 148, the links 16, 18, and 20 of linkage 80 continue to pivot relative to each other, and the resilient link 22 and the check link 24 continue to move relative to each other until the catch 26 has been moved beyond the sloped surface 140 and into the recess 28 by the spring force of the arm 108. The links 16, 18, and 20 then stop moving relative to each other and the linkage 80 and the hood or lid 32 is securely in the first holding position and is maintained within the recess 26 by the spring force of the arm 108. If an attempt is made to further open the hood or lid 32, the catch 26 will abut the stop edge 144, which may be configured to prohibit further movement of the catch 26 toward the pivot end 130 of the check link 24. This effectively prohibits the hood or lid 32 from pivoting further in the opening direction 148 (as indicated in
When it is desired to close the hood or lid 32, an appropriate force is applied to the hood or lid 32 in the closing direction, opposite to the opening direction 148 and toward the first part 30. The appropriate force must be sufficient to overcome the resilient force of the arm 108 that maintains the resilient link 22 in the recess 28 so that the arm 108 will deflect and the catch 26 will move up the sloped edge 142 and out of recess 28 to disengage the detent. Upon the application of the appropriate closing force in the closing direction, the hinge assembly 10 will move out from the first holding position and reverse the course taken in originally reaching the first holding position. Thus, the hinge assembly 10 is moved such that the catch 26 will move onto the sloped surface 140 adjacent the recess 28 to the position shown in
Upon further closing of the hood or lid 32, the links 16, 18, 20 of the linkage 80 will continue pivoting relative to each other until the hinge assembly returns to the closed position, which is illustrated in
Other embodiments of the check link are illustrated in
The position retainer assembly 100 has been illustrated in the Figures as being used in addition to the linkages 14, 16, 18, 20 permitting the pivoting of the second member 16 relative to the first member 14, but the position retainer assembly 100 may be adapted so that the position retainer assembly 100 is part of the mechanism providing the hinged movement between the first and second members 14 and 16.
Although the embodiments illustrated in the Figures show an arrangement for a hood or lid opening upwardly and closing downwardly, i.e., vertical opening and closing, the principles of the position retainers, such as in position retainer assembly 100, may be applied to other orientations, such as with side doors or other devices, which open and close laterally, i.e., horizontal opening and closing.
The foregoing embodiments have been provided to illustrate the structural and functional principles of the present invention, and are not intended to be limiting. To the contrary, the present invention is intended to encompass all modifications, alterations, and substitutions within the scope of the appended claims.
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Number | Date | Country | |
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20070256277 A1 | Nov 2007 | US |