Miscellaneous hardware (e.g. – bushing – carpet fastener – caster – Hinge – Including means to hold or retard hinged members against...
Reexamination Certificate
2000-12-11
2002-12-10
Knight, Anthony (Department: 3629)
Miscellaneous hardware (e.g., bushing, carpet fastener, caster,
Hinge
Including means to hold or retard hinged members against...
C016S274000
Reexamination Certificate
active
06490759
ABSTRACT:
FIELD OF THE INVENTION
Motor-vehicle hinge having a braking and holding function, consisting of a first hinge half which can be fixed to a door assembly part, door or door strut, and of a second hinge half which can be fixed to the other door assembly part, and also of a hinge pin which is made of solid material, connects the two hinge halves pivotably to each other, is connected to the gudgeon of the one hinge half in a rotationally secure manner and is mounted in the gudgeon of the other hinge half with a running fit, the hinge pin, in conjunction with a complementary design of the hole of the gudgeon of that hinge half in whose gudgeon it is mounted with a running fit, having, at least over part of its longitudinal region which is assigned to this gudgeon, a rounded profile of its cross section which deviates from-the. pure circular shape.
BACKGROUND INFORMATION
Motor-vehicle door hinges fitted in this manner are particularly distinguished in that they make it possible to produce the holding and securing functions, which have hitherto and conventionally been produced by door stops formed by special components, for braking and securing a vehicle door in the partially open range, i.e. conventionally in an opening angle range with opening angles of between 20 and 70°. The holding and securing function, which, depending on the door equipment and therefore door weight, requires a force of 50 N and also more, is derived from the fact that the hinge pin, in conjunction with a complementary design of the gudgeon hole of the gudgeon of that hinge half in whose gudgeon it is mounted with a running fit, has a rounded profile of its cross section which deviates from the pure circular shape in such a manner that when there is a mutual pivoting of the two hinge halves, the rounded deviations in the hinge pin diameter and optionally in the gudgeon hole run onto one another and force an elastic deformation at least one of the two parts—the gudgeon or hinge pin, preferably of part of the wall thickness of the gudgeon. In this case, the deformation force is used as a braking and holding force for securing the motor-vehicle door in a selected partially open position determined by the geometrical position of the rounded deviations of at least the hinge pin. For motor-vehicle doors it is very important, for different reasons, for example in order to avoid the door hitting against a garage wall, that the holding points in predetermined partially open positions of the door are observed exactly. Deviating from pure theory, the forces whose sum total produces the braking and holding force, for braking and securing the door in a certain partially open position, partly result merely from the deformation work during the elastic deformation of the material, but partly also from frictional forces which arise during the relative movement of the surfaces which interact together and are dependent to a substantial part on the composition of these surfaces. In order that a selected holding point of the door is always reliably kept to, it must therefore also be ensured that the requirements for producing the forces used for this purpose do not change, or in any case do not substantially change, over the working life of the hinge.
Motor-vehicle door hinges are not only mass-produced articles and as such can be produced cheaply or at least at good value, but they are also exposed, on the one hand, to very high temperature fluctuations, corresponding to the vehicle operating conditions, and, on the other hand, as part of the bodywork are also to an increased extent exposed to environmental influences. Temperature changes in the order of magnitude of several umpteen degrees can result in gap-width changes, even though these are reversible, which may, inter alia, have the consequence of foreign bodies penetrating into the hinge bearing arrangement. Whereas the penetration of granular foreign bodies, and to a certain extent also dust and relatively coarse dirt, into the bearing arrangement of the hinge pin is generally largely avoided by the means which are in any case customarily present on a hinge, such as stepped hinge-pin sections or shims and the like, in the known types of hinges there is no obstacle to the penetration of contaminants, as are present microscopically finely distributed in air, into the bearing arrangement of the hinge pin. The presence of such contaminants in the hinge bearing arrangement has hitherto also not been assigned particular importance although it was definitely known that such contaminants in conjunction with condensation water or steam which has penetrated form aggressive waters which can attack metallic surfaces.
The presence of aggressive waters or the like in the hinge bearing arrangement has serious significance if in connection with the production of braking and holding forces by elastic deformation of material in such a manner that during operation of the hinge surfaces of the hinge pin and gudgeon which interact in a sliding manner force a deformation of material in the elastic range.
In the case of motor-vehicle door hinges of this type, those surface regions of the hinge pin and gudgeon hole which interact with one another in order to produce a deformation of material, which can be used as a holding force, are designed such that they gradually slope up to a vertex in such a manner that the deformation of material, and therefore the holding force, increases with increasing opening or closing of the door until, at a holding point predetermined by the vertex of the upward slope of the interacting surface regions of the hinge pin and gudgeon hole, or at a predetermined partially open position, the maximum deformation of material, and therefore the maximum holding force, is achieved and the door is securely fixed in this position. The point to be started from here is that the retarding force for each door, which force is required in order to stop and secure the door, has a magnitude which can be determined from the outset and the braking and holding means have to be configured in such a manner that this retarding force is achieved at a certain door opening angle, constantly over the entire working life of the hinge. The retarding force required for stopping and securing the door is, in the case of hinges of the type under discussion here, of course applied partly, even if to a relatively small extent, by means of frictional forces between the interacting surfaces, the magnitude of the frictional forces which occur being very substantially dependent on the composition of the directly interacting surfaces. In particular, the frictional forces resulting from the interaction of the surfaces become greater as the surfaces become rougher. An impairment occurring over the course of time, in particular an impairment of the surface composition of the interacting surfaces, which impairment can be attributed to roughening due to the action of aggressive waters, necessarily results in a considerable increase in the frictional forces, the magnitude of which increase cannot be foreseen for an individual case, which results then in a premature reaching of the retarding force required for securing the door, with the result that the door already comes to a standstill before its predetermined holding position is reached and can only be fully opened or closed if an increased amount of force is exerted thereon. This uncertainty, which could not hitherto be overcome, with regard to predetermined holding points of the door always being precisely kept to, constitutes an obstacle to the practical use of hinges of the type described at the beginning.
SUMMARY OF THE INVENTION
The present invention is therefore based on the object of further improving a motor-vehicle hinge of the type described at the beginning in such a manner that the application of a constant braking and holding force in the case of an invariably constant door opening angle is ensured over the working life of the hinge.
According to the present invention, this object is achieved by the hole of that gudgeon in which the hinge pin is m
Brueckner Lothar
Magnus Nils
Davidson Davidson & Kappel LLC
Ed. Scharwaechter GmbH
Hutton Doug
Knight Anthony
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