Weighing scales – Structural installation – Furniture or room fixture
Reexamination Certificate
2003-06-16
2004-09-28
Gibson, Randy W. (Department: 2841)
Weighing scales
Structural installation
Furniture or room fixture
C177S229000, C180S273000, C280S735000, C073S862627, C073S862637, C073S862639, C073S768000
Reexamination Certificate
active
06797892
ABSTRACT:
The invention pertains to a force transducer for sensing the weight introduced into the mounting of a motor vehicle seat, comprising a force introduction element that is connected to the motor vehicle seat, a force transfer element that is connected to the mounting, and an extension member that is arranged between the force introduction element and the force transfer element.
Force transducers of this type are used for determining whether certain seats of a motor vehicle are occupied or not. This is, for example, required in instances in which an airbag should not be triggered if the corresponding seat is unoccupied. In addition, force transducers are increasingly utilized for determining the weight and consequently the size of the person occupying the seat. In airbags that have a variable filling volume, this information in connection with information on the person to be protected who occupies the corresponding motor vehicle seat is used for adapting the filling volume to the body size of this person so as to optimally restrain the person in case of an accident. Force transducers of this type can also be used for preventing an airbag from being triggered if it is determined that a child safety seat is situated on the passenger seat. This information is particularly desirable because it was determined that infants have suffered severe injuries in child safety seats when an airbag is triggered.
A force transducer for a motor vehicle seat is, for example, known from a DE 199 25 877 A1. The force transducer described in this publication consists of a horizontally arranged force introduction element which is connected to the motor vehicle seat and transmits the introduced force onto both ends of a horizontally arranged plate-shaped extension member. A force transfer element is also provided on the force transducer, wherein said force transfer element is centrally connected to the extension member and transmits the force by the extension member onto the mounting of the motor vehicle seat. Wire strain gauges that are able to sense a vertical bending of the extension member caused by the introduction of a force are arranged on the horizontal upper side of the extension member.
One disadvantage of this force transducer can be seen in the fact that the arrangement of the force introduction element in relation to the extension member also causes forces other than those associated with the weight being introduced into the force introduction element, e.g., lateral forces, to be transmitted onto the extension member and sensed by the wire strain gauges. In this case, the extension member is not only subjected to the weight, but also to the additional forces such that the wire strain gauges sense the combined load. This results in faulty measurements with force transducers of this type due to an asymmetric occupation of the seat, accelerations and decelerations of the motor vehicle and other forces that act upon the mounting of the motor vehicle seat in a direction other than that of the weight. It was also determined that the design of this force transducer influences the rigidity of the connection between the motor vehicle seat and the mounting in such a way that the passenger has the sensation that the motor vehicle seat is guided in the mounting loosely or spongy.
Consequently, the passenger senses movements of the motor vehicle indirectly or in a partially inaccurate fashion. However, this is an annoying sensation for the passengers.
Based on these circumstances, it is an object of the present invention to develop a force transducer for a motor vehicle seat of the initially described type which makes it possible to precisely determine the weight introduced into a mounting of a motor vehicle seat independently of other influencing forces. In addition, this force transducer should have a simple and compact design.
The above-mentioned object is solved with a force transducer of the initially described type by the fact that the force introduction element or the force transfer element surrounds the extension member in a plane that extends parallel to the weight, and that at least one wire strain gauge for sensing a shearing force parallel to the weight is arranged on the extension member.
Since the force introduction element or the force transfer element surrounds the extension member in a plane that extends parallel to the weight, it is possible to fix the extension member therein in such a way that the point at which the force is introduced into the extension member and the point at which the force is transferred by the extension member essentially can only be moved parallel to one another in the direction of the introduced force. If the wire strain gauge that senses the shearing force parallel to the weight is aligned appropriately, the load of the motor vehicle seat can be adequately determined. A slight shearing of the extension member already suffices for carrying out a reliable measurement of the load of the extension member in the direction of the weight. Since only a minimal shearing of the extension member is required for obtaining a reliable measuring result, the extension member can be designed rigidly such that a corresponding rigidity of the entire force transducer and consequently the guidance of the motor vehicle seat in the mounting is achieved. This means that the passenger directly senses any changes in the movement of the motor vehicle.
The arrangement of the force introduction element or the force transfer element in a position in which it surrounds the extension member also provides the advantage that the force transducer can be realized comparatively short. The force introduction element or the force transfer element may be realized in the form of a housing that surrounds the extension member whereby the housing may be connected to one end of the extension member. In this case, the force is introduced into and transferred by the extension member on this end.
If a housing of this type surrounds the extension member in such a way that a thin peripheral gap is formed in at least one location, an overload protection of the force transducer is simultaneously realized with this design. If the force transducer is subjected to such a high load that the housing is moved relative to the end of the extension member that is not connected to the housing to such a degree that the housing partially lies on the extension member, the force between the housing and the extension member is directly introduced into and transferred by the extension member at this location. In this case, an additional extension of the extension member does not occur. The size of the thin gap defines when this overload mode becomes effective, i.e., at which load the extension member is no longer extended.
If the thin peripheral gap is covered by a membrane, the force transducer is protected from dirt particles that may impair the accuracy of the force transducer.
The sensing of a shearing force parallel to the weight provides the advantage that forces which act perpendicular to the weight and, if applicable, are simultaneously introduced into the extension member are not sensed. Due to these measures, it is ensured that the force transducer according to the invention only senses the weight introduced into the mounting of the motor vehicle seat, i.e., independently of other possible loads caused by changes in the moving direction, accelerations or decelerations of the motor vehicle.
The sensing of the weight introduced into the mounting of the motor vehicle seat which is not influenced by lateral forces and achieved by sensing the shearing force parallel to the weight is advantageously achieved due to the fact that two wire strain gauges are respectively arranged oppositely at the same angle referred to the longitudinal axis of the extension member on a surface of the extension member which extends parallel to the effective direction of the weight. In such an arrangement of the wire strain gauges, the deformations of the extension member caused by forces acting laterally referred to the weight are sensed by
Gibson Randy W.
GWT Global Weighing Technologies GmbH
Nixon & Peabody LLP
Safran David S.
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