Expanded – threaded – driven – headed – tool-deformed – or locked-thr – Threaded fastener locked to a discreet structure – Member or portion thereof located between substructure and...
Reexamination Certificate
2000-05-18
2001-09-11
Wilson, Neill (Department: 3627)
Expanded, threaded, driven, headed, tool-deformed, or locked-thr
Threaded fastener locked to a discreet structure
Member or portion thereof located between substructure and...
C411S135000, C411S148000, C411S160000
Reexamination Certificate
active
06287063
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention relates to a securing disk for two component parts, in particular motor vehicle parts, to be fixedly connected to one another so as to prevent relative rotation, wherein the securing disk has a disk member with positive-locking bodies projecting in the direction toward the component parts.
2. Description of the Related Art
Motor vehicle component parts are subjected to great static and dynamic loads during operation. It is therefore mandatory that the motor vehicle component parts themselves and the mounting process are of high-quality, especially when the component parts are component parts of the suspension or the car body. In the case of motor vehicle component parts that are screwed to one another, it is thus required to provide a good and slip-safe coupling of the component parts.
In this context, different screw securing devices in the form of spring rings or retainer rings are known which are placed underneath the nut in order to prevent accidental loosening of the fastening screws. Such screw securing devices are designed to compensate creep and settling in order to prevent that the tension of the connection is reduced by unacceptable values. A rotation or slipping of two component parts connected to one another, in particular when the screw is guided with play through the bores in sheet metal, can be prevented by such screw securing devices only to a limited extent. When the component parts are subjected to greater dynamic loads, in particular of the vibrating kind, this holds true in the case of initial assembly as well as in the case of later use.
The German patent document 298 06 800 U1 discloses a securing disk for two component parts to be fixedly connected to one another so as to prevent relative rotation. The securing disk has positive-locking bodies comprised of steel balls received in cutouts of the disk member and projecting in the direction toward both component parts. When mounting the securing disk, the steel balls are pressed into the component parts. In addition to the frictional connection, this realizes an additional positive-locking action by generating a shearing surface. The securing disk thus acts as a coupling element which prevents a relative movement between the components after assembly.
Such a securing disk has been used with great success in practice. It is very well suited for various applications.
Frequently, the securing disks are pre-mounted on one of the component parts. This is advantageous in regard to an economic final assembly. In one prior art configuration of the securing disk, lateral flange portions of the disk member are provided with holes through which plastic nails or fasteners are driven into prepared bores of the component part. This is carried out manually by means of a striking tool.
However, this approach for pre-mounting is complex and cost-intensive. Moreover, the plastic nails after premounting can become loose and can fall out. A pre-mounted securing disk can thus be lost. Also, even after assembly of the components, the plastic nails can still become loose. This entails the risk that they can fall out completely or, when the component parts are hollow, they can fall into the hollow of the component parts, resulting in disadvantageous effects such as noise development etc.
SUMMARY OF THE INVENTION
It is an object of the present invention to improve a securing disk with respect to assembly-technological aspects as well as with regard to their functionality.
In accordance with the present invention, this is achieved in that at the circumferential edge of the disk member securing arms with integrated abutments are arranged which project substantially perpendicularly from the disk member.
By means of the securing arms the securing disk is inserted, when pre-mounting, into openings provided at a component part. The securing disk is thus automatically secured on the component. Additional means such as plastic nails are not required. This simplifies assembly considerably and results in a more economic assembly. The pattern of openings in the component parts to be connected remains unchanged.
According to an especially advantageous embodiment the securing arms are finger-like spring legs formed as a monolithic or integral part of the disk member. The spring legs project in the same direction from the disk member and are positioned expediently diametrically opposite one another.
The abutments on the securing arms can, in principle, have different configurations. One embodiment, which is especially advantageous in practical applications, provides that an abutment is formed by a lateral projection at the securing arm. Such a lateral projection is preferably located on the narrow sides of the securing arms positioned parallel to the longitudinal center axis of the disk member extending through the securing arms. The lateral projection is thus oriented transversely to the longitudinal center axis. In principle, the lateral projection could also be provided by a radially oriented, especially outwardly oriented, bulge on the securing arm.
Especially in combination with the feature that the securing arms are monolithic spring legs of the disk member, a reliable clamping-type securing action of the securing disk on a component part is provided. The previously observed accidental loosening and falling out of the securing disk upon a shaking movement during handling of the component parts is thus reliably prevented.
According to another embodiment of the invention, each one of the securing arms has an elongate slot extending in the longitudinal direction. This feature reinforces the spring-elastic properties of the securing arms and is advantageous during mounting of the securing disk. The securing arms can give or yield to a limited extent during insertion into the mounting openings. After passing through the mounting openings, the securing arms spring back laterally and secure the securing disk. In this context, it may also be advantageous to provide the securing arms each with two leg portions. The securing arm may be open toward its free end located opposite the disk member.
The insertion process is improved when the free end of the securing arms is of a rounded design.
The positive-locking bodies can be in the form of steel balls as they have been used successfully in practice. They are oversized relative to the cutouts in the disk member and are pressed into the cutouts.
A feature which is beneficial with regard to manufacturing is that the positive-locking bodies positioned on a partial circle are arranged asymmetrically relative to one another in relation to a plane of symmetry which extends through the securing arms as well as with respect to a plane of symmetry which is perpendicular (rotated by 90°) thereto. During manufacture of the securing disk in a continuous process on a manufacturing line, each steel ball to be mounted is positioned on its own longitudinal path so that the steel balls can be pressed into the securing disk sequentially. A simultaneous pressing action of two positive-locking bodies (steel balls) is thus not required, and this is beneficial with regard to manufacturing-technological aspects.
REFERENCES:
patent: 884290 (1908-04-01), de Oca
patent: 1034697 (1912-08-01), Darling
patent: 2151919 (1939-03-01), Jacobson
patent: 3481381 (1969-12-01), Black
patent: 4900209 (1990-02-01), Reynolds
Benteler AG
Friedrich Kueffner
Wilson Neill
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