The invention relates to a hinge for a motor-vehicle door.
In most cases, motor-vehicle doors are hung on hinges situated in the vicinities of their forward edges such that they may be opened by pivoting them about a vertical axis. Doors whose hinge axes were formed at their rear edges were also common in former years. Such doors have become modern once again, and are used as rear doors on motor vehicles.
In the case of sports cars, there are also cases where their doors may be opened by pivoting them about an upper, horizontal axis running along the motor vehicle's longitudinal axis. Such doors are also termed “gull-wing doors.”
Recently, doors that may be opened by pivoting them about a horizontal axis running transverse to motor vehicles' longitudinal axes have also become known. Such doors have short lateral dimensions.
The problem addressed by the invention is creating a hinge that will allow another type of opening motion, namely, in the case of a motor vehicle having normal doors, a pivoting of the doors about an approximately horizontal axis running transverse to the vehicle's longitudinal axis.
In order to solve that problem, the invention proposes a hinge having those features stated under claim 1. Elaborations on the invention are covered under subclaims.
Since normal door hinges of the type that are factory standard equipment on motor vehicles define a single axis, about which doors may be pivoted, the invention thus proposes a hinge having a linking device that forms a pair of linkages. The pair of linkages may be combined. Employing a pair of linkages on a linking device allows configuring the opening motion of the door when it commences to agree with the factory-standard motion, since the door is, of course, arranged in a door frame that surrounds the door. Seals and, if necessary, switches that are supposed to be actuated when the door is opened or closed as well, are arranged in this door frame. The door may only be moved out of the door frame by translating it in a certain direction that is determined by the factory-standard hinges involved. Of course, the same also applies to closing the door. The door cannot be moved in another direction using the linking device's second linkage until it has been moved sufficiently far out of the door frame that it is clear of the bodywork.
Under an elaboration on the invention, it may be provided that the pair of pivot axes do not intersect, which will provide that the axis of the linkage, about which the door is to be subsequently pivoted, will also be moved out of the door frame when the door starts to open.
According to the invention, under an elaboration thereon, the hinge may have a guide that at least partially constrains the motion of the linking device such that pivoting is confined to just one of the two axes over certain portions of the motion, which is intended to provide that the user practically automatically performs the correct opening motion of the door. At the start of the opening motion, the door will thus be moved in the same manner as a conventional automobile door and will not be pivoted about the axis of the second linkage, in particular, pivoted upward, until it is clear of the bodywork. During this second motion, the guide provides that the door may not longer be pivoted inward about the first axis, which could lead to it coming into contact with the bodywork. However, the guide may be configured such that both motions may occur simultaneously at a transition zone falling between the two motions.
According to the invention, the hinge, together with its linking device, may have a neutral position corresponding to the case where the door is closed and a terminal position corresponding the case where the door is fully opened. The neutral position corresponds to the case where the door is closed, in which case, a specific definition of the neutral position of the linking device will be unnecessary, since the door already has a neutral position.
According to the invention, under an elaboration thereon, the guide may be configured such that, starting from the neutral position, the linking device will initially allow a pivoting about the axis correlated to hinge section intended to be attached to the bodywork only in order that the door will be moved out of the door frame until it is fully clear of the latter.
Under a further elaboration on the invention, the guide may be configured such that, starting from the terminal position corresponding to the case where the door is fully opened, the only pivoting allowed will be a pivoting about the axis correlated to the hinge section intended to be attached to the door.
The invention proposes that the linkage axis correlated to the hinge section intended to be attached to the bodywork run roughly parallel to the hinge section intended to be attached to the bodywork. That axis may, for example, be vertical, or nearly vertical, depending upon how the door has been manufactured.
In order to set up the hinge proposed by the invention such that varying manufacturing tolerances on doors and bodywork may also be accommodated, according to the invention, it may be provided that the orientation of the linkage axis correlated to the hinge section intended to be attached to the bodywork is. adjustable with respect to that hinge section, which will allow being able to set up the door in the neutral position of the hinge section such that the same gap widths will be present all around the door.
Under an elaboration on the invention, it may be provided that the angular range through which the linking device may be pivoted about the linkage axis correlated to the hinge section intended to be attached to the bodywork and/or about the linkage axis correlated to the hinge section intended to be attached to the door is restricted at at least one end. Since the door has a well-defined closed position within the door frame, the angular range through which the linking device may be pivoted need not be accurately restricted.
The invention also proposes that the restriction on that angular range be configured such that it will be adjustable.
Since the hinge proposed by the invention may be retrofitted to motor vehicles whose doors are normally held in place by a pair of hinges arranged one above the other, the invention further proposes that, under an elaboration thereon, a supporting device that is situated at a distance from the linking device be attached to the hinge. The purpose of that supporting device is supporting the hinge section intended to be attached to the door on the hinge section intended to be attached to the bodywork while the linking device is in its neutral position. Although the linking device may beneficially be arranged on the upper end of the hinge, since the pivot axis for the raising of the door should be as far above the ground as possible, the supporting device is arranged on the upper end of the hinge. Furthermore, the supporting device need only come into play while the door is in the closed position, which corresponds to neutral position of the linking device.
It will be particularly sensible if the supporting device is configured in the form of a linkage, as is also proposed as one possibility by the invention. The supporting device axis may then also act as a linkage over that portion of the opening motion of the door for which only a pivoting about the axis correlated to the hinge section intended to be attached to the bodywork takes place, where the linkage has an axis correlated to the hinge section intended to be attached to the bodywork and an axis constituting a coaxial extension of the axis of the first linkage.
According to the invention, under an elaboration thereon, it may be provided that the supporting device/third linkage will act as a linkage only while the linking device is in its neutral position and will be extended when the latter leaves its neutral position.
For example, the supporting device may have a head that may be inserted into a socket. Such linkages are usually configured in the form of a sort of ball-joint linkage. However, unlike a ball-joint linkage, in this case, the configuration is chosen such that its head may be withdrawn from the socket. Furthermore, pivoting about several axes will be neither necessary nor desirable, which means that a sort of cylindrical head inserted into a cylindrical socket will be feasible. However, components having spherical shapes are commercially available and may be employed here.
The invention proposes that the hinge section intended to be attached to the bodywork be configured in the form of a planar component.
In the case of the hinge section intended to be attached to the door, according to the invention, it may be provided that it has a pair of angled sections, one section of which lies in the same plane as the hinge section intended to be attached to the bodywork when the linking device is in its neutral position. The hinge section intended to be attached to the bodywork may even have a notch, in which the corresponding section of the hinge section intended to be attached to the door resides.
The hinge may have a latching mechanism in order to hold the door in the opened state. Attachment of a gas spring that will facilitate opening the door is also one of the measure proposed by the invention, under an elaboration thereon.
That the hinge proposed by the invention is intended for use on a door that is to be pivoted outward about an approximately vertical axis has already been mentioned. The invention thus proposes that, under an elaboration thereon, the hinge have a latching mechanism that acts between the pair of hinge sections and latches the door in place in its closed position in the vicinity of its bottom edge, which will simulate the lower hinge normally present there when the door is in its closed state. That latching mechanism is beneficially configured such that it will release as soon as the door is pivoted outward, about the vertical axis, in order that the door may then be pivoted upward, about a horizontal axis.
For example, that latching mechanism may have a protrusion on one hinge section and a mating notch on the other hinge section. Both components, i.e., both the protrusion and the notch, should beneficially have undercut edges in order that latching will occur. The latching mechanism will prevent even slight pivoting of the door about the horizontal pivot axis.
Under a further elaboration on the invention, the hinge may have a guide in order to prevent the door from striking the bodywork or even coming into contact therewith when an upward pivoting thereof commences. That guide may, for example, be provided in the form of a sort of gate situated in the vicinity of the upper edge of the hinge.
Other features, details, and benefits of the invention will be evident from the claims and the abstract, whose wordings are herewith made an integral part of this description by way of reference thereto, the following description of a preferred embodiment of the invention, as well as the figures, which depict:
The hinge section 1 intended to be attached to the bodywork is configured in the form a planar component having a constant thickness and is shaped such that it leaves an elongated space 4 free. The hinge section 5 intended to be attached to the door, in particular, that section thereof that is visible in the view shown in
A receptacle 8 for accommodating a supporting device is arranged in the vicinity of the lower end 2 of the hinge section 1 that is intended to be attached to the bodywork. That receptacle 8 is inserted into a notch 9 on the hinge section 1 and protrudes upward from the planar top surface of the hinge section 1 that is intended to be attached to the bodywork (i.e., toward the front of the motor vehicle).
The hinge section 5 that is intended to be attached to the door has a threaded hole 10 in the vicinity of its upper end that is provided for the purpose of accommodating a shaft forming a linkage axis. That linkage axis defines the axis, about which the hinge section 5 that is intended to be attached to the door may be pivoted using the linking device to be described below.
The hinge section 1 that is intended to be attached to the bodywork contains another threaded hole 11 located near the edge of the space 4, next to the hinge section 5 that is intended to be attached to the door, into which a guiding component may be screwed. That guiding component contains a ball that is free to rotate in the vicinity of its protruding end, against which the hinge section 5 that is intended to be attached to the door may abut. The height of that guiding component, a threaded rod with a ball on one end, may be adjusted in order to accommodate the opening angles of the doors involved.
The mount 12 carries a bearing block 15 that is free to rotate about that shaft. The angular range about which the bearing block 15 may be pivoted is relatively narrow. The bearing block 15 has a through hole 16 for accommodating the bearing on which it rotates, which is arranged in the aforementioned threaded hole 10 on the hinge section 5 that is intended to be attached to the door. Further details of the bearing block 15 will be evident from
When the bearing block 15 is pivoted about the shaft and out of the mount 12, the through hole 16 for accommodating the bearing will be tilted upward, i.e., toward the viewer, out of the plane of the paper.
The arrangement is chosen such that the ball-head 23 will be in the socket 20 when the hinge is in its neutral position, i.e., the position corresponding to the case where the door is closed. The ball-head 23 will remain in the socket 20 when the door is opened, provided that the sole motion that occurs is a pivoting of the bearing block 15 about the shaft retaining it in the mount 12. If, however, the bearing block 15 rotates about the bearing situated in the through hole 16 therein, instead of about the shaft retaining it in the mount 12, the ball-head 23 will be withdrawn from the socket 20. The supporting device also forms a latching mechanism and a fine-adjustment mechanism for setting the preloading of the doors. The height of the supporting device is also adjustable.
Let us now turn to
The only degree of freedom remaining available for the subsequent motion is a pivoting about the bearing inserted into the through hole 16 in the bearing block 15. The door, together with the hinge section 5 attached to the door, is pivoted about this second linkage axis until it reaches the terminal position shown in
The embodiment shown in
A mating notch 42 that is engaged by the protrusion 41 is cut into in the hinge section 5 that is attached to the door at the same location on the latter. In the position shown in
Of course, the opposite configuration, namely, forming the protrusion 41 on the hinge section 5 intended to be attached to the door, rather than on the hinge section 1 intended to be attached to the bodywork, and forming the notch 42 on the hinge section 1 intended to be attached to the bodywork will also be feasible.
Furthermore, the protrusion 41 and/or the notch 42 might be attached to the front surface and/or rear surface of the respective hinge sections, and the shape of the protrusion and/or notch might be altered.
In the case of the upward pivoting the hinge section 5 attached to the door, together with the door, that is now possible, the aforementioned guiding component 30 and the ball 31 jointly guide the door. As will be evident from
When operated in the opposite direction, the guiding component 30 acts such that it will allow proper closing of the door. During closing of the door, it provides that the door cannot be pressed into the door frame too soon, which, under some circumstances, could lead to the door arriving at the closing position from an unsuitable direction, in which case, the guide 30 will also provide that the door drops onto its latch in the correct position.
In this case, a receptacle 108 having a rectangular notch is employed instead of the receptacle 8 having a socket 20 that is attached to the hinge section intended to be attached to the bodywork. The receptacle 108 contains a longer leg 109 that faces the hinge section intended to be attached to the bodywork (cf.
A head 123 that engages the notch between the longer and shorter legs 109, 110 of the receptacle 108 is arranged on the forward end of the threaded rod 124, which corresponds to the threaded rod 24 of the embodiment shown in
When the door is closed, the forward section 113 of the head on the linkage approaches the front surface 112 of the longer leg 109 and reliably slides into the mating notch between the pair of legs 109, 110.
The embodiment shown in
Number | Date | Country | Kind |
---|---|---|---|
102004014381.1 | Mar 2004 | DE | national |
102004024842.7 | May 2004 | DE | national |