1. Field of Invention
The present invention relates in general to hinge mechanisms and more particularly to hinge mechanisms of a so-called “wide open type” that is suitable for a vehicle door, enabling the door to open largely by an angle exceeding 90 degrees.
2. Description of Related Art
One of the known hinge mechanisms of the above-mentioned wide open type is shown in Japanese Patent 2501675. The hinge mechanism of this Patent is of a double pivot type that enables an associated vehicle door to open by an angle of about 270 degrees. The hinge mechanism of the double pivot type comprises generally a first pivot shaft, a second pivot shaft and a switching unit that switches the door pivoting between a first pivot mode wherein the door pivots about the first pivot shaft and a second pivot mode wherein the door pivots about the second pivot shaft. However, when assembling the hinge mechanism of the Patent, difficult and time-consumed assembling work is inevitably needed due to a large number of parts to be used for the hinge mechanism. Furthermore, for achieving a precise operation of the switching unit, skilled setting work is needed by the switching unit. Of course, these necessities bring about increase in cost of the product, viz., hinge mechanism.
Thus, it is an object of the present invention to provide a hinge mechanism that is free of the above-mentioned drawbacks.
According to the present invention, there is provided a hinge mechanism that is simple in construction, easy to assemble and low in cost, while enabling a smoothed and widely opening operation of the door.
According to a first aspect of the present invention, there is provided a hinge mechanism for pivotally connecting a door to a vehicle body, which comprises first and second hinge base members adapted to be connected to the vehicle body and the door respectively; first and second pivot shafts held by the first and second hinge base members respectively; a hinge arm member having a first end portion pivotally connected to the first hinge base member through the first pivot shaft and a second end portion pivotally connected to the second hinge base member through the second pivot shaft; first and second cams provided by the first and second hinge base members respectively; a first control lever pivotally connected to the first end portion of the hinge arm member and having a leading end contactable with the first cam; a second control lever pivotally connected to the second end portion of the hinge arm member and having a leading end contactable with the second cam; a link member having opposed ends pivotally connected to the first and second control levers respectively; first and second cam portions provided by the first and second end portions of the hinge arm member respectively; first and second check plates pivotally connected to the first and second hinge base members respectively; first and second follower members mounted on the first and second check plates respectively and contactable with the first and second cam portions respectively; and first and second biasing members for biasing the first and second check plates in a direction to press the first and second follower members on the first and second cam portions respectively.
According to a second aspect of the present invention, there is provided a hinge mechanism for pivotally connecting a door to a vehicle body, which comprises first and second hinge base members adapted to be connected to the vehicle body and the door respectively; first and second pivot shafts held by the first and second hinge base members respectively; a hinge arm member having a first end portion pivotally connected to the first hinge base member through the first pivot shaft and a second end portion pivotally connected to the second hinge base member through the second pivot shaft; first and second cams provided by the first and second hinge base members respectively; a first control lever pivotally connected to the first end portion of the hinge arm member and having a leading end contactable with the first cam; a second control lever pivotally connected to the second end portion of the hinge arm member and having a leading end contactable with the second cam; a link member having opposed ends pivotally connected to the first and second control levers respectively; and a biasing member that biases the link member toward the first hinge base member.
According to a third aspect of the present invention, there is provided a hinge mechanism for pivotally connecting a door to a vehicle body, which comprises first and second hinge base members adapted to be connected to the vehicle body and the door respectively; first and second pivot shafts tightly held by the first and second hinge base members respectively; a hinge arm member having a first end portion pivotally connected to the first pivot shaft and a second end portion pivotally connected to the second pivot shaft; first and second cams provided by the first and second pivot shafts respectively; a first control lever pivotally connected to the first end portion of the hinge arm member and having a leading end contactable with the first cam; a second control lever pivotally connected to the second end portion of the hinge arm member and having a leading end contactable with the second cam; a link member having opposed ends pivotally connected to the first and second control levers respectively; first and second cam portions integrally formed on the first and second end portions of the hinge arm member respectively; first and second check plates pivotally connected to the first and second hinge base members respectively; first and second press rollers rotatably mounted on the first and second check plates respectively and contactable with the first and second cam portions respectively; first and second springs that bias the first and second check plates in a direction to press the first and second press rollers on the first and second cam portions respectively; and a third spring that biases the link member toward the first hinge base member.
Other objects and advantages of the present invention will become apparent from the following description when taken in conjunction with the accompanying drawings, in which:
In the following, the present invention will be described in detail with reference to the accompanying drawings.
For ease of understanding, various directional terms, such as, right, left, upper, lower, rightward and the like are used in the following description. However, such terms are to be understood with respect to only a drawing or drawings on which a corresponding part or portion is shown.
Referring to
Referring to
In
As is understood from
Referring back to
As is understood from
Thus, the opposed ends of the hinge arm member 4 are pivotally connected to the pillar “P” of the vehicle body and the door “D” respectively, so that the door “D” can swing relative to the vehicle body, using the first and second pivot shafts 3 and 6 as pivots.
As is seen from
Like the first pivot shaft 3, the second pivot shaft 6 is equipped at an upper portion thereof with a second cam 9 that comprises a curved surface part 9a and an inclined surface part 9b. The second cam 9 is secured to the second pivot shaft 6 that is secured to the second hinge base member 5. A second control lever 10 is pivotally connected to the hinge arm member 4 through a pivot pin 24 and arranged to slidably contact with the second cam 9.
As is seen from
A coil spring 14 is mounted on the hinge arm member 4 and arranged to bias the link member 11 rightward in
As is seen from
Referring back to
In the following, operation of the hinge mechanism 100 will be described with reference to the drawings.
0-Degree Position (
First, description will be commenced with respect to a fully closed position of the rear door “D” relative to a door opening of the vehicle body.
Under this condition, the hinge mechanism 100 assumes its closed condition causing the parts thereof to assume their original positions, as shown in
Opening Pivoting from 0-Degree Position to 60-Degree Position (
When, now, after releasing a locked condition of a lock unit (not shown) of the door “D”, the door “D” is pulled outward, the hinge arm member 4 is pivoted with the door “D” about the first pivot shaft 3 in a clockwise direction in
That is, when the door “D” is pivoted from 0-degree Position to 60-degree Position, the leading end of the first control lever 8 travels on the curved surface part 7a while being prevented from making a rotation thereby suppressing rotation of the second control lever 10 through the link member 11. Thus, during such pivoting of the door “D”, the contact between the second control lever 10 and the inclined surface part 9b of the second cam 9 is kept. That is, the turning of the door “D” from 0-degree Position to 60-degree Position is made about the first pivot shaft 3, not about the second pivot shaft 6.
Opening Pivoting from 60-Degree Position to 90-Degree Position (
When then the door “D” is pulled further with a force greater than the certain check force applied thereto, the press roller 17 of the first check plate 16 gets out the first recess 15a and runs toward a second recess 15b (see
During this pivoting, the leading end of the first control lever 8 travels on the curved surface part 7a and comes to an end of the same carrying out the same operation as that effected in case of the above-mentioned pivoting from 0-degree Position to 60-degree Position.
It is to be noted that as is seen from
Opening Pivoting from 90-Degree Position to 170-Degree Position (
When then the door “D” is pulled further with a certain force, the contact of the projection 4a of the hinge arm member 4 with the raised part 2a of the first hinge base member 2 prevents further rotation of the hinge arm member 4 about the first pivot shaft 3, and the leading end 8a of the first control lever 8 (see
Under this condition, the pivot axis of the rear door “D” is about to switch from the first pivot shaft 3 to the second pivot shaft 6 carrying out the following operation.
In response to stopping of rotation of the hinge arm member 4 about the first pivot shaft 3 due to abutment of the projection 4a with the raised part 2a, the door “D” is forced to restart its pivoting about the second pivot shaft 6. That is, due to the stand-by condition of the leading end of the first control lever 8 for engagement with the inclined surface part 7b of the first cam 7, the link member 11 becomes released from the restriction. Thus, in response to the further pivoting of the door “D”, the inclined surface part 9b (see
Thus, thereafter, the door “D” is forced to pivot about the second pivot shaft 6 to which the other end of the hinge arm member 4 is pivotally connected. When the door “D” is further pivoted to 170-degree Position using the second pivot shaft 6 as a pivot shaft, the press roller 21 is brought into engagement with an end surface 19b of the cam portion 19 as is seen from FIG. 14. When the door “D” comes to this 170-degree Position, a stopper 5a (see
In the following, operation of the hinge mechanism 100 in case of closing the door “D” will be described.
As will be apparent from the following description, in this case, the various parts take generally a reversed operation or movement.
Closing Pivoting from 170-Degree Position to 90-Degree Position
when, now, the door “D” in 170-degree Position is pulled (or pushed) in a direction to close the door opening with a force overcoming the biasing force produced by the check mechanism, the hinge mechanism 100 takes an operation that is reversed to that of the above-mentioned Opening Pivoting from 90-degree Position to 170-degree Position. That is, the door “D” is pivoted about the second pivot shaft 6 until the same comes to a position near 90-degree Position.
When the door “D” comes to the position near 90-degree Position, the press roller 21 of the second check plate 20 is put into the recess 19a of the cam portion 19 (see FIG. 5). With this, the press roller 21 functions as both a position holder and a stopper, and thus the door “D” is restricted from pivoting about the second pivot shaft 6 in a closing direction. At the same time, the leading end 10a of the second control lever 10 (see
When the door “D” comes to 90-degree Position, the same is retained or held at this position by the function of a check mechanism including the first check plate 16, the press roller 17, the cam portion 15 and the spring 18. That is, in this position, the door “D” is resiliently held with a certain biasing force. In this case, the leading end 8a of the first control lever 8 (see
Closing Pivoting from 90-Degree Position to 0-Degree Position
When then the door “D” is pushed in a direction to close the same with a force overcoming the biasing of the check mechanism, the same is pivoted to 0-degree Position (viz., fully closed position) simply passing through the check transition at 60-degree Position. When the door “D” takes the fully closed position, the parts of the hinge mechanism 100 assume their original positions as has been described hereinabove.
In the following, unique features of the present invention and advantages possessed by the unique features will be briefly described.
Check Mechanism
In the hinge mechanism 100 of the present invention, to the first and second hinge base members 2 and 5, there are pivotally connected the first and second check plates 16 and 20 respectively, each being biased toward a cam portion 15 or 19 by the spring 18 or 22. The spring 18 extends between the first check plate 16 and the first hinge base member 2, while the other spring 22 extends between the second check plate 20 and the second hinge base member 5. The first check plate 16 has the press roller 17 pressed against the cam portion 15 with the aid of the spring 18 and the second check plate 20 has the other press roller 21 pressed against the cam portion 19 with the aid of the spring 22. Due to the incorporated operation of the parts, the check feeling is given at each check position of the door “D”, as has been mentioned hereinabove. In the present invention, the cam portions 15 and 19 are integral with the hinge arm member 4, the first and second check plates 16 are 20 are pivotally connected to the first and second hinge base members 2 and 5 respectively, and the press rollers 17 and 21 provided on the first and second check plates 16 and 20 are biased to contact with the cam portions 15 and 19 due to the work of the springs 18 and 22. This arrangement is very simple and thus the hinge mechanism 100 of the invention can be assembled easily with reduced assembling steps, which brings about a reduction in cost of the hinge mechanism 100.
In the invention, in response to the open/close pivoting of the door “D”, the cam portion 15 is moved in the side of the first hinge member 2 and the second check plate 20 and the press roller 21 are moved in the side of the second hinge member 5. Accordingly, even when the door “D” is pivoted, the press roller 17 is suppressed from making a displacement in a radial direction from the pivot axis (viz., pin 16a) of the first check plate 16. Thus, setting of the check force of the check mechanism is easily made and thus a comfortable check feeling is given each time the door “D” passes the check positions. Furthermore, when the door “D” is pivoted, the second check plate 20 is moved together with the second hinge base member 5. This brings about a compact and simple arrangement of the parts located near the second hinge base member 5.
Pivot Shaft Switching Mechanism
This switching mechanism comprises the paired cam portions 15 and 19, the first and second control levers 8 and 10 and the link member 11 through which the control levers 8 and 10 are connected. With this arrangement, the pivot axis of the door “D” is automatically switched between the first and second pivot shafts 3 and 6 in accordance with the angular position of the door “D”. For assuring the pivot shaft switching operation of the mechanism, there is employed the biasing spring 14 that constantly biases the link member 11 toward the first hinge base member 2. With this arrangement, the engagement and disengagement of the press roller 17 or 21 with and from the cam portion 15 or 19 are effectively made in a snap action manner. Thus, undesirable play inevitably produced when the pivot shaft switching operation is carried out is minimized and thus smoothed switching between the two pivot shafts 3 and 6 is obtained. Because the leading end 10a of the second control lever 10 (see
Although the foregoing description is directed to a hinge mechanism 100 that is applied to the rear door “D” mounted on a side wall of the vehicle body, the hinge mechanism 100 of the present invention can be applied to a back door or tail gate that is pivotally mounted on a back wall or back end of the vehicle body.
Although the invention has been described above with reference to the embodiment of the invention, the invention is not limited to such embodiment as described above. Various modifications and variations of such embodiment may be carried out by those skilled in the art, in light of the above description.
Number | Name | Date | Kind |
---|---|---|---|
5067201 | Marchione | Nov 1991 | A |
5561887 | Neag et al. | Oct 1996 | A |
5685046 | Neag et al. | Nov 1997 | A |
6550845 | Pietryga | Apr 2003 | B1 |
6591452 | Jacquin | Jul 2003 | B2 |
6681448 | Liang | Jan 2004 | B2 |
Number | Date | Country |
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2501675 | Mar 1996 | JP |
Number | Date | Country | |
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20040139580 A1 | Jul 2004 | US |